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-rw-r--r--doc/Access.371
-rw-r--r--doc/AddErrInfo.368
-rw-r--r--doc/AppInit.310
-rw-r--r--doc/AssocData.34
-rw-r--r--doc/Async.34
-rw-r--r--doc/BackgdErr.349
-rw-r--r--doc/BoolObj.34
-rw-r--r--doc/ByteArrObj.354
-rw-r--r--doc/CallDel.314
-rw-r--r--doc/Cancel.366
-rw-r--r--doc/ChnlStack.32
-rw-r--r--doc/Class.3236
-rw-r--r--doc/CrtChannel.3125
-rw-r--r--doc/CrtChnlHdlr.36
-rw-r--r--doc/CrtCloseHdlr.35
-rw-r--r--doc/CrtCommand.334
-rw-r--r--doc/CrtFileHdlr.311
-rw-r--r--doc/CrtInterp.363
-rw-r--r--doc/CrtMathFnc.328
-rw-r--r--doc/CrtObjCmd.335
-rw-r--r--doc/CrtSlave.322
-rw-r--r--doc/CrtTimerHdlr.39
-rw-r--r--doc/CrtTrace.310
-rw-r--r--doc/DictObj.334
-rw-r--r--doc/DoWhenIdle.39
-rw-r--r--doc/DoubleObj.326
-rw-r--r--doc/Encoding.343
-rw-r--r--doc/Ensemble.373
-rw-r--r--doc/Environment.32
-rw-r--r--doc/Eval.325
-rw-r--r--doc/Exit.325
-rw-r--r--doc/ExprLong.38
-rw-r--r--doc/ExprLongObj.312
-rw-r--r--doc/FileSystem.3813
-rw-r--r--doc/FindExec.37
-rw-r--r--doc/GetIndex.315
-rw-r--r--doc/GetStdChan.34
-rw-r--r--doc/GetTime.371
-rw-r--r--doc/Hash.342
-rw-r--r--doc/InitStubs.36
-rw-r--r--doc/IntObj.340
-rw-r--r--doc/Interp.340
-rw-r--r--doc/Limit.36
-rw-r--r--doc/LinkVar.328
-rw-r--r--doc/ListObj.3127
-rw-r--r--doc/Load.370
-rw-r--r--doc/Method.3249
-rw-r--r--doc/NRE.3328
-rw-r--r--doc/Namespace.314
-rw-r--r--doc/Notifier.364
-rw-r--r--doc/OOInitStubs.354
-rw-r--r--doc/Object.3231
-rw-r--r--doc/ObjectType.387
-rw-r--r--doc/OpenFileChnl.372
-rw-r--r--doc/OpenTcp.324
-rw-r--r--doc/Panic.327
-rw-r--r--doc/ParseArgs.3198
-rw-r--r--doc/ParseCmd.349
-rw-r--r--doc/PkgRequire.313
-rw-r--r--doc/Preserve.38
-rw-r--r--doc/PrintDbl.34
-rw-r--r--doc/RecEvalObj.36
-rw-r--r--doc/RecordEval.36
-rw-r--r--doc/RegConfig.311
-rw-r--r--doc/RegExp.332
-rw-r--r--doc/SaveResult.38
-rw-r--r--doc/SetChanErr.3153
-rw-r--r--doc/SetResult.3101
-rw-r--r--doc/SetVar.38
-rw-r--r--doc/SplitList.311
-rw-r--r--doc/SplitPath.35
-rw-r--r--doc/StaticPkg.311
-rw-r--r--doc/StringObj.3154
-rw-r--r--doc/SubstObj.36
-rw-r--r--doc/Tcl.n74
-rw-r--r--doc/TclZlib.3276
-rw-r--r--doc/Tcl_Main.397
-rw-r--r--doc/Thread.372
-rw-r--r--doc/TraceCmd.34
-rw-r--r--doc/TraceVar.36
-rw-r--r--doc/Translate.311
-rw-r--r--doc/Utf.32
-rw-r--r--doc/WrongNumArgs.324
-rw-r--r--doc/after.n31
-rw-r--r--doc/append.n9
-rw-r--r--doc/apply.n46
-rw-r--r--doc/array.n14
-rw-r--r--doc/bgerror.n13
-rw-r--r--doc/binary.n164
-rw-r--r--doc/break.n18
-rw-r--r--doc/catch.n89
-rw-r--r--doc/cd.n6
-rw-r--r--doc/chan.n202
-rw-r--r--doc/class.n136
-rw-r--r--doc/clock.n44
-rw-r--r--doc/close.n49
-rw-r--r--doc/concat.n8
-rw-r--r--doc/continue.n20
-rw-r--r--doc/copy.n66
-rw-r--r--doc/coroutine.n205
-rw-r--r--doc/dde.n34
-rw-r--r--doc/define.n404
-rw-r--r--doc/dict.n114
-rw-r--r--doc/encoding.n14
-rw-r--r--doc/eof.n6
-rw-r--r--doc/error.n20
-rw-r--r--doc/eval.n28
-rw-r--r--doc/exec.n140
-rw-r--r--doc/exit.n6
-rw-r--r--doc/expr.n116
-rw-r--r--doc/fblocked.n3
-rw-r--r--doc/fconfigure.n46
-rw-r--r--doc/fcopy.n18
-rw-r--r--doc/file.n105
-rw-r--r--doc/fileevent.n56
-rw-r--r--doc/filename.n2
-rw-r--r--doc/flush.n5
-rw-r--r--doc/for.n25
-rw-r--r--doc/foreach.n7
-rw-r--r--doc/format.n34
-rw-r--r--doc/gets.n10
-rw-r--r--doc/glob.n165
-rw-r--r--doc/global.n8
-rw-r--r--doc/http.n148
-rw-r--r--doc/if.n26
-rw-r--r--doc/incr.n12
-rw-r--r--doc/info.n483
-rw-r--r--doc/interp.n200
-rw-r--r--doc/join.n6
-rw-r--r--doc/lappend.n5
-rw-r--r--doc/lassign.n21
-rw-r--r--doc/library.n56
-rw-r--r--doc/lindex.n57
-rw-r--r--doc/linsert.n29
-rw-r--r--doc/list.n16
-rw-r--r--doc/llength.n8
-rw-r--r--doc/lmap.n85
-rw-r--r--doc/load.n55
-rw-r--r--doc/lrange.n12
-rw-r--r--doc/lrepeat.n13
-rw-r--r--doc/lreplace.n9
-rw-r--r--doc/lreverse.n5
-rw-r--r--doc/lsearch.n52
-rw-r--r--doc/lset.n50
-rw-r--r--doc/lsort.n165
-rw-r--r--doc/mathfunc.n50
-rw-r--r--doc/mathop.n9
-rw-r--r--doc/memory.n3
-rw-r--r--doc/my.n56
-rw-r--r--doc/namespace.n271
-rw-r--r--doc/next.n206
-rw-r--r--doc/object.n128
-rw-r--r--doc/open.n85
-rw-r--r--doc/package.n34
-rw-r--r--doc/packagens.n10
-rw-r--r--doc/pkgMkIndex.n11
-rw-r--r--doc/platform.n24
-rw-r--r--doc/prefix.n116
-rw-r--r--doc/proc.n27
-rw-r--r--doc/puts.n8
-rw-r--r--doc/pwd.n4
-rw-r--r--doc/re_syntax.n42
-rw-r--r--doc/read.n17
-rw-r--r--doc/refchan.n159
-rw-r--r--doc/regexp.n35
-rw-r--r--doc/registry.n19
-rw-r--r--doc/regsub.n41
-rw-r--r--doc/rename.n5
-rw-r--r--doc/return.n144
-rw-r--r--doc/safe.n25
-rw-r--r--doc/scan.n82
-rw-r--r--doc/seek.n19
-rw-r--r--doc/self.n152
-rw-r--r--doc/set.n5
-rw-r--r--doc/socket.n167
-rw-r--r--doc/source.n10
-rw-r--r--doc/split.n29
-rw-r--r--doc/string.n215
-rw-r--r--doc/subst.n21
-rw-r--r--doc/switch.n65
-rw-r--r--doc/tailcall.n69
-rw-r--r--doc/tclsh.132
-rw-r--r--doc/tcltest.n505
-rw-r--r--doc/tclvars.n160
-rw-r--r--doc/tell.n5
-rw-r--r--doc/throw.n48
-rw-r--r--doc/time.n11
-rw-r--r--doc/tm.n19
-rw-r--r--doc/trace.n15
-rw-r--r--doc/transchan.n160
-rw-r--r--doc/try.n103
-rw-r--r--doc/unknown.n2
-rw-r--r--doc/unload.n12
-rw-r--r--doc/unset.n16
-rw-r--r--doc/update.n7
-rw-r--r--doc/uplevel.n10
-rw-r--r--doc/upvar.n28
-rw-r--r--doc/variable.n11
-rw-r--r--doc/vwait.n205
-rw-r--r--doc/while.n8
-rw-r--r--doc/zlib.n460
201 files changed, 9901 insertions, 3234 deletions
diff --git a/doc/Access.3 b/doc/Access.3
index 98d6635..1e82e07 100644
--- a/doc/Access.3
+++ b/doc/Access.3
@@ -23,52 +23,49 @@ int
.AP char *path in
Native name of the file to check the attributes of.
.AP int mode in
-Mask consisting of one or more of R_OK, W_OK, X_OK and F_OK. R_OK,
-W_OK and X_OK request checking whether the file exists and has read,
-write and execute permissions, respectively. F_OK just requests
-checking for the existence of the file.
+Mask consisting of one or more of \fBR_OK\fR, \fBW_OK\fR, \fBX_OK\fR and
+\fBF_OK\fR. \fBR_OK\fR, \fBW_OK\fR and \fBX_OK\fR request checking whether the
+file exists and has read, write and execute permissions, respectively.
+\fBF_OK\fR just requests a check for the existence of the file.
.AP "struct stat" *statPtr out
The structure that contains the result.
.BE
-
.SH DESCRIPTION
.PP
-As of Tcl 8.4, the object-based APIs \fBTcl_FSAccess\fR and
-\fBTcl_FSStat\fR should be used in preference to \fBTcl_Access\fR and
-\fBTcl_Stat\fR, wherever possible.
+As of Tcl 8.4, the object-based APIs \fBTcl_FSAccess\fR and \fBTcl_FSStat\fR
+should be used in preference to \fBTcl_Access\fR and \fBTcl_Stat\fR, wherever
+possible. Those functions also support Tcl's virtual filesystem layer, which
+these do not.
+.SS "OBSOLETE FUNCTIONS"
.PP
-There are two reasons for calling \fBTcl_Access\fR and \fBTcl_Stat\fR
-rather than calling system level functions \fBaccess\fR and \fBstat\fR
-directly. First, the Windows implementation of both functions fixes
-some bugs in the system level calls. Second, both \fBTcl_Access\fR
-and \fBTcl_Stat\fR (as well as \fBTcl_OpenFileChannelProc\fR) hook
-into a linked list of functions. This allows the possibility to reroute
-file access to alternative media or access methods.
+There are two reasons for calling \fBTcl_Access\fR and \fBTcl_Stat\fR rather
+than calling system level functions \fBaccess\fR and \fBstat\fR directly.
+First, the Windows implementation of both functions fixes some bugs in the
+system level calls. Second, both \fBTcl_Access\fR and \fBTcl_Stat\fR (as well
+as \fBTcl_OpenFileChannelProc\fR) hook into a linked list of functions. This
+allows the possibility to reroute file access to alternative media or access
+methods.
.PP
-\fBTcl_Access\fR checks whether the process would be allowed to read,
-write or test for existence of the file (or other file system object)
-whose name is pathname. If pathname is a symbolic link on Unix,
-then permissions of the file referred by this symbolic link are
-tested.
+\fBTcl_Access\fR checks whether the process would be allowed to read, write or
+test for existence of the file (or other file system object) whose name is
+\fIpath\fR. If \fIpath\fR is a symbolic link on Unix, then permissions of the
+file referred by this symbolic link are tested.
.PP
-On success (all requested permissions granted), zero is returned. On
-error (at least one bit in mode asked for a permission that is denied,
-or some other error occurred), -1 is returned.
+On success (all requested permissions granted), zero is returned. On error (at
+least one bit in mode asked for a permission that is denied, or some other
+error occurred), -1 is returned.
.PP
-\fBTcl_Stat\fR fills the stat structure \fIstatPtr\fR with information
-about the specified file. You do not need any access rights to the
-file to get this information but you need search rights to all
-directories named in the path leading to the file. The stat structure
-includes info regarding device, inode (always 0 on Windows),
-privilege mode, nlink (always 1 on Windows), user id (always 0 on
-Windows), group id (always 0 on Windows), rdev (same as device on
-Windows), size, last access time, last modification time, and creation
-time.
+\fBTcl_Stat\fR fills the stat structure \fIstatPtr\fR with information about
+the specified file. You do not need any access rights to the file to get this
+information but you need search rights to all directories named in the path
+leading to the file. The stat structure includes info regarding device, inode
+(always 0 on Windows), privilege mode, nlink (always 1 on Windows), user id
+(always 0 on Windows), group id (always 0 on Windows), rdev (same as device on
+Windows), size, last access time, last modification time, and creation time.
.PP
-If \fIpath\fR exists, \fBTcl_Stat\fR returns 0 and the stat structure
-is filled with data. Otherwise, -1 is returned, and no stat info is
-given.
-
+If \fIpath\fR exists, \fBTcl_Stat\fR returns 0 and the stat structure is
+filled with data. Otherwise, -1 is returned, and no stat info is given.
.SH KEYWORDS
stat, access
-
+.SH "SEE ALSO"
+Tcl_FSAccess(3), Tcl_FSStat(3)
diff --git a/doc/AddErrInfo.3 b/doc/AddErrInfo.3
index 136a16f..36f6a20 100644
--- a/doc/AddErrInfo.3
+++ b/doc/AddErrInfo.3
@@ -9,24 +9,20 @@
.TH Tcl_AddErrorInfo 3 8.5 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_GetReturnOptions, Tcl_SetReturnOptions, Tcl_AddErrorInfo, Tcl_AppendObjToErrorInfo, Tcl_AddObjErrorInfo, Tcl_SetObjErrorCode, Tcl_SetErrorCode, Tcl_SetErrorCodeVA, Tcl_PosixError, Tcl_LogCommandInfo \- retrieve or record information about errors and other return options
+Tcl_GetReturnOptions, Tcl_SetReturnOptions, Tcl_AddErrorInfo, Tcl_AppendObjToErrorInfo, Tcl_AddObjErrorInfo, Tcl_SetObjErrorCode, Tcl_SetErrorCode, Tcl_SetErrorCodeVA, Tcl_SetErrorLine, Tcl_GetErrorLine, Tcl_PosixError, Tcl_LogCommandInfo \- retrieve or record information about errors and other return options
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
-.VS 8.5
.sp
Tcl_Obj *
\fBTcl_GetReturnOptions\fR(\fIinterp, code\fR)
.sp
int
\fBTcl_SetReturnOptions\fR(\fIinterp, options\fR)
-.VE 8.5
.sp
\fBTcl_AddErrorInfo\fR(\fIinterp, message\fR)
-.VS 8.5
.sp
\fBTcl_AppendObjToErrorInfo\fR(\fIinterp, objPtr\fR)
-.VE 8.5
.sp
\fBTcl_AddObjErrorInfo\fR(\fIinterp, message, length\fR)
.sp
@@ -36,6 +32,10 @@ int
.sp
\fBTcl_SetErrorCodeVA\fR(\fIinterp, argList\fR)
.sp
+\fBTcl_GetErrorLine\fR(\fIinterp\fR)
+.sp
+\fBTcl_SetErrorLine\fR(\fIinterp, lineNum\fR)
+.sp
const char *
\fBTcl_PosixError\fR(\fIinterp\fR)
.sp
@@ -57,11 +57,9 @@ this points to the first byte of an array of \fIlength\fR bytes
containing a string to append to the \fB\-errorinfo\fR return option.
This byte array may contain embedded null bytes
unless \fIlength\fR is negative.
-.VS 8.5
.AP Tcl_Obj *objPtr in
A message to be appended to the \fB\-errorinfo\fR return option
in the form of a Tcl_Obj value.
-.VE 8.5
.AP int length in
The number of bytes to copy from \fImessage\fR when
appending to the \fB\-errorinfo\fR return option.
@@ -74,6 +72,8 @@ Last \fIelement\fR argument must be NULL.
.AP va_list argList in
An argument list which must have been initialized using
\fBva_start\fR, and cleared using \fBva_end\fR.
+.AP int lineNum
+The line number of a script where an error occurred.
.AP "const char" *script in
Pointer to first character in script containing command (must be <= command)
.AP "const char" *command in
@@ -81,10 +81,8 @@ Pointer to first character in command that generated the error
.AP int commandLength in
Number of bytes in command; -1 means use all bytes up to first null byte
.BE
-
.SH DESCRIPTION
.PP
-.VS 8.5
The \fBTcl_SetReturnOptions\fR and \fBTcl_GetReturnOptions\fR
routines expose the same capabilities as the \fBreturn\fR and
\fBcatch\fR commands, respectively, in the form of a C interface.
@@ -109,21 +107,28 @@ with the value of \fIcode\fR. The \fB(Tcl_Obj *)\fR returned
by \fBTcl_GetReturnOptions\fR points to an unshared
\fBTcl_Obj\fR with reference count of zero. The dictionary
may be written to, either adding, removing, or overwriting
-any entries in it, without the need to check for a shared object.
+any entries in it, without the need to check for a shared value.
+As with any \fBTcl_Obj\fR with reference count of zero, it is up to
+the caller to arrange for its disposal with \fBTcl_DecrRefCount\fR or
+to a reference to it via \fBTcl_IncrRefCount\fR (or one of the many
+functions that call that, notably including \fBTcl_SetObjResult\fR and
+\fBTcl_SetVar2Ex\fR).
.PP
A typical usage for \fBTcl_GetReturnOptions\fR is to
retrieve the stack trace when script evaluation returns
\fBTCL_ERROR\fR, like so:
+.PP
.CS
int code = Tcl_Eval(interp, script);
if (code == TCL_ERROR) {
- Tcl_Obj *options = Tcl_GetReturnOptions(interp, code);
+ Tcl_Obj *options = \fBTcl_GetReturnOptions\fR(interp, code);
Tcl_Obj *key = Tcl_NewStringObj("-errorinfo", -1);
Tcl_Obj *stackTrace;
Tcl_IncrRefCount(key);
Tcl_DictObjGet(NULL, options, key, &stackTrace);
Tcl_DecrRefCount(key);
/* Do something with stackTrace */
+ Tcl_DecrRefCount(options);
}
.CE
.PP
@@ -138,13 +143,15 @@ keys in \fIoptions\fR will be returned.
As an example, Tcl's \fBreturn\fR command itself could
be implemented in terms of \fBTcl_SetReturnOptions\fR
like so:
+.PP
.CS
if ((objc % 2) == 0) { /* explicit result argument */
objc--;
Tcl_SetObjResult(interp, objv[objc]);
}
-return Tcl_SetReturnOptions(interp, Tcl_NewListObj(objc-1, objv+1));
+return \fBTcl_SetReturnOptions\fR(interp, Tcl_NewListObj(objc-1, objv+1));
.CE
+.PP
(It is not really implemented that way. Internal access
privileges allow for a more efficient alternative that meshes
better with the bytecode compiler.)
@@ -159,23 +166,26 @@ to set any collection of return options, there are a handful
of return options that are very frequently used. Most
notably the \fB\-errorinfo\fR and \fB\-errorcode\fR return
options should be set properly when the command procedure
-of a command returns \fBTCL_ERROR\fR. Tcl provides several
-simpler interfaces to more directly set these return options.
-.VE 8.5
+of a command returns \fBTCL_ERROR\fR. The \fB\-errorline\fR
+return option is also read by commands that evaluate scripts
+and wish to supply detailed error location information in
+the stack trace text they append to the \fB\-errorinfo\fR option.
+Tcl provides several simpler interfaces to more directly set
+these return options.
.PP
The \fB\-errorinfo\fR option holds a stack trace of the
operations that were in progress when an error occurred,
and is intended to be human-readable.
-The \fB\-errorcode\fR option holds a list of items that
+The \fB\-errorcode\fR option holds a Tcl list of items that
are intended to be machine-readable.
The first item in the \fB\-errorcode\fR value identifies the class of
error that occurred
-(e.g. POSIX means an error occurred in a POSIX system call)
+(e.g., POSIX means an error occurred in a POSIX system call)
and additional elements hold additional pieces
of information that depend on the class.
-See the tclvars manual entry for details on the various
-formats for the \fB\-errorcode\fR option used by
-Tcl's built-in commands.
+See the manual entry on the \fBerrorCode\fR variable for details on the
+various formats for the \fB\-errorcode\fR option used by Tcl's built-in
+commands.
.PP
The \fB\-errorinfo\fR option value is gradually built up as an
error unwinds through the nested operations.
@@ -207,12 +217,10 @@ The value of the \fB\-errorline\fR return option (retrieved
via a call to \fBTcl_GetReturnOptions\fR) often makes up
a useful part of the \fImessage\fR passed to \fBTcl_AddErrorInfo\fR.
.PP
-.VS 8.5
\fBTcl_AppendObjToErrorInfo\fR is an alternative interface to the
same functionality as \fBTcl_AddErrorInfo\fR. \fBTcl_AppendObjToErrorInfo\fR
is called when the string value to be appended to the \fB\-errorinfo\fR option
is available as a \fBTcl_Obj\fR instead of as a \fBchar\fR array.
-.VE 8.5
.PP
\fBTcl_AddObjErrorInfo\fR is nearly identical
to \fBTcl_AddErrorInfo\fR, except that it has an additional \fIlength\fR
@@ -224,7 +232,7 @@ the need for a null byte. If the \fBTcl_AddObjErrorInfo\fR
interface is used at all, it should be with a negative \fIlength\fR value.
.PP
The procedure \fBTcl_SetObjErrorCode\fR is used to set the
-\fB\-errorcode\fR return option to the list object \fIerrorObjPtr\fR
+\fB\-errorcode\fR return option to the list value \fIerrorObjPtr\fR
built up by the caller.
\fBTcl_SetObjErrorCode\fR is typically invoked just
before returning an error. If an error is
@@ -234,12 +242,17 @@ the \fB\-errorcode\fR return option to \fBNONE\fR.
.PP
The procedure \fBTcl_SetErrorCode\fR is also used to set the
\fB\-errorcode\fR return option. However, it takes one or more strings to
-record instead of an object. Otherwise, it is similar to
+record instead of a value. Otherwise, it is similar to
\fBTcl_SetObjErrorCode\fR in behavior.
.PP
\fBTcl_SetErrorCodeVA\fR is the same as \fBTcl_SetErrorCode\fR except that
instead of taking a variable number of arguments it takes an argument list.
.PP
+The procedure \fBTcl_GetErrorLine\fR is used to read the integer value
+of the \fB\-errorline\fR return option without the overhead of a full
+call to \fBTcl_GetReturnOptions\fR. Likewise, \fBTcl_SetErrorLine\fR
+sets the \fB\-errorline\fR return option value.
+.PP
\fBTcl_PosixError\fR
sets the \fB\-errorcode\fR variable after an error in a POSIX kernel call.
It reads the value of the \fBerrno\fR C variable and calls
@@ -292,9 +305,8 @@ The global variables \fBerrorInfo\fR and
\fBerrorCode\fR are not modified by \fBTcl_ResetResult\fR
so they continue to hold a record of information about the
most recent error seen in an interpreter.
-
.SH "SEE ALSO"
-Tcl_DecrRefCount, Tcl_IncrRefCount, Tcl_Interp, Tcl_ResetResult, Tcl_SetErrno
-
+Tcl_DecrRefCount(3), Tcl_IncrRefCount(3), Tcl_Interp(3), Tcl_ResetResult(3),
+Tcl_SetErrno(3), errorCode(n), errorInfo(n)
.SH KEYWORDS
-error, object, object result, stack, trace, variable
+error, value, value result, stack, trace, variable
diff --git a/doc/AppInit.3 b/doc/AppInit.3
index 0473090..e4ae971 100644
--- a/doc/AppInit.3
+++ b/doc/AppInit.3
@@ -48,6 +48,11 @@ Process command-line arguments, which can be accessed from the
Tcl variables \fBargv\fR and \fBargv0\fR in \fIinterp\fR.
.IP [3]
Invoke a startup script to initialize the application.
+.IP [4]
+Use the routines \fBTcl_SetStartupScript\fR and
+\fBTcl_GetStartupScript\fR to set or query the file and encoding
+that the active \fBTcl_Main\fR or \fBTk_Main\fR routine will
+use as a startup script.
.LP
\fBTcl_AppInit\fR returns \fBTCL_OK\fR or \fBTCL_ERROR\fR.
If it returns \fBTCL_ERROR\fR then it must leave an error message in
@@ -55,9 +60,11 @@ for the interpreter's result; otherwise the result is ignored.
.PP
In addition to \fBTcl_AppInit\fR, your application should also contain
a procedure \fBmain\fR that calls \fBTcl_Main\fR as follows:
+.PP
.CS
Tcl_Main(argc, argv, Tcl_AppInit);
.CE
+.PP
The third argument to \fBTcl_Main\fR gives the address of the
application-specific initialization procedure to invoke.
This means that you do not have to use the name \fBTcl_AppInit\fR
@@ -69,5 +76,8 @@ The best way to get started is to make a copy of the file
It already contains a \fBmain\fR procedure and a template for
\fBTcl_AppInit\fR that you can modify for your application.
+.SH "SEE ALSO"
+Tcl_Main(3)
+
.SH KEYWORDS
application, argument, command, initialization, interpreter
diff --git a/doc/AssocData.3 b/doc/AssocData.3
index e4c7bab..59c26a4 100644
--- a/doc/AssocData.3
+++ b/doc/AssocData.3
@@ -61,11 +61,13 @@ If the \fIdeleteProc\fR argument is non-NULL it specifies the address of a
procedure to invoke if the interpreter is deleted before the association
is deleted. \fIDeleteProc\fR should have arguments and result that match
the type \fBTcl_InterpDeleteProc\fR:
+.PP
.CS
-typedef void Tcl_InterpDeleteProc(
+typedef void \fBTcl_InterpDeleteProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR);
.CE
+.PP
When \fIdeleteProc\fR is invoked the \fIclientData\fR and \fIinterp\fR
arguments will be the same as the corresponding arguments passed to
\fBTcl_SetAssocData\fR.
diff --git a/doc/Async.3 b/doc/Async.3
index c4439a4..d02f76d 100644
--- a/doc/Async.3
+++ b/doc/Async.3
@@ -81,12 +81,14 @@ the world is in a safe state, and \fIproc\fR can then carry out
the actions associated with the asynchronous event.
\fIProc\fR should have arguments and result that match the
type \fBTcl_AsyncProc\fR:
+.PP
.CS
-typedef int Tcl_AsyncProc(
+typedef int \fBTcl_AsyncProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
int \fIcode\fR);
.CE
+.PP
The \fIclientData\fR will be the same as the \fIclientData\fR
argument passed to \fBTcl_AsyncCreate\fR when the handler was
created.
diff --git a/doc/BackgdErr.3 b/doc/BackgdErr.3
index 1e46b03..3116671 100644
--- a/doc/BackgdErr.3
+++ b/doc/BackgdErr.3
@@ -9,53 +9,70 @@
.TH Tcl_BackgroundError 3 7.5 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_BackgroundError \- report Tcl error that occurred in background processing
+Tcl_BackgroundException, Tcl_BackgroundError \- report Tcl exception that occurred in background processing
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
.sp
+\fBTcl_BackgroundException\fR(\fIinterp, code\fR)
+.sp
\fBTcl_BackgroundError\fR(\fIinterp\fR)
.SH ARGUMENTS
.AS Tcl_Interp *interp
.AP Tcl_Interp *interp in
-Interpreter in which the error occurred.
+Interpreter in which the exception occurred.
+.AP int code in
+The exceptional return code to be reported.
.BE
.SH DESCRIPTION
.PP
-This procedure is typically invoked when a Tcl error occurs during
+This procedure is typically invoked when a Tcl exception (any
+return code other than TCL_OK) occurs during
.QW "background processing"
such as executing an event handler.
-When such an error occurs, the error condition is reported to Tcl
+When such an exception occurs, the condition is reported to Tcl
or to a widget or some other C code, and there is not usually any
-obvious way for that code to report the error to the user.
-In these cases the code calls \fBTcl_BackgroundError\fR with an
+obvious way for that code to report the exception to the user.
+In these cases the code calls \fBTcl_BackgroundException\fR with an
\fIinterp\fR argument identifying the interpreter in which the
-error occurred. At the time \fBTcl_BackgroundError\fR is invoked,
-the interpreter's result is expected to contain an error message.
-\fBTcl_BackgroundError\fR will invoke the command registered
+exception occurred, and a \fIcode\fR argument holding the return
+code value of the exception. The state of the interpreter, including
+any error message in the interpreter result, and the values of
+any entries in the return options dictionary, is captured and
+saved. \fBTcl_BackgroundException\fR then arranges for the event
+loop to invoke at some later time the command registered
in that interpreter to handle background errors by the
-\fBinterp bgerror\fR command.
-The registered handler command is meant to report the error
+\fBinterp bgerror\fR command, passing the captured values as
+arguments.
+The registered handler command is meant to report the exception
in an application-specific fashion. The handler command
receives two arguments, the result of the interp, and the
return options of the interp at the time the error occurred.
If the application registers no handler command, the default
handler command will attempt to call \fBbgerror\fR to report
the error. If an error condition arises while invoking the
-handler command, then \fBTcl_BackgroundError\fR reports the
+handler command, then \fBTcl_BackgroundException\fR reports the
error itself by printing a message on the standard error file.
.PP
-\fBTcl_BackgroundError\fR does not invoke the handler command immediately
+\fBTcl_BackgroundException\fR does not invoke the handler command immediately
because this could potentially interfere with scripts that are in process
at the time the error occurred.
Instead, it invokes the handler command later as an idle callback.
.PP
-It is possible for many background errors to accumulate before
-the handler command is invoked. When this happens, each of the errors
-is processed in order. However, if the handle command returns a
+It is possible for many background exceptions to accumulate before
+the handler command is invoked. When this happens, each of the exceptions
+is processed in order. However, if the handler command returns a
break exception, then all remaining error reports for the
interpreter are skipped.
+.PP
+The \fBTcl_BackgroundError\fR routine is an older and simpler interface
+useful when the exception code reported is \fBTCL_ERROR\fR. It is
+equivalent to:
+.PP
+.CS
+Tcl_BackgroundException(interp, TCL_ERROR);
+.CE
.SH KEYWORDS
background, bgerror, error, interp
diff --git a/doc/BoolObj.3 b/doc/BoolObj.3
index 395d159..6691140 100644
--- a/doc/BoolObj.3
+++ b/doc/BoolObj.3
@@ -30,7 +30,7 @@ Points to the Tcl_Obj in which to store, or from which to
retrieve a boolean value.
.AP Tcl_Interp *interp in/out
If a boolean value cannot be retrieved,
-an error message is left in the interpreter's result object
+an error message is left in the interpreter's result value
unless \fIinterp\fR is NULL.
.AP int *boolPtr out
Points to place where \fBTcl_GetBooleanFromObj\fR
@@ -92,4 +92,4 @@ a \fBTCL_ERROR\fR return.
Tcl_NewObj, Tcl_IsShared, Tcl_GetBoolean
.SH KEYWORDS
-boolean, object
+boolean, value
diff --git a/doc/ByteArrObj.3 b/doc/ByteArrObj.3
index 738da32..2921f68 100644
--- a/doc/ByteArrObj.3
+++ b/doc/ByteArrObj.3
@@ -8,7 +8,7 @@
.TH Tcl_ByteArrayObj 3 8.1 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_NewByteArrayObj, Tcl_SetByteArrayObj, Tcl_GetByteArrayFromObj, Tcl_SetByteArrayLength \- manipulate Tcl objects as a arrays of bytes
+Tcl_NewByteArrayObj, Tcl_SetByteArrayObj, Tcl_GetByteArrayFromObj, Tcl_SetByteArrayLength \- manipulate Tcl values as a arrays of bytes
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -27,63 +27,65 @@ unsigned char *
.SH ARGUMENTS
.AS "const unsigned char" *lengthPtr in/out
.AP "const unsigned char" *bytes in
-The array of bytes used to initialize or set a byte-array object.
+The array of bytes used to initialize or set a byte-array value. May be NULL
+even if \fIlength\fR is non-zero.
.AP int length in
The length of the array of bytes. It must be >= 0.
.AP Tcl_Obj *objPtr in/out
-For \fBTcl_SetByteArrayObj\fR, this points to the object to be converted to
+For \fBTcl_SetByteArrayObj\fR, this points to the value to be converted to
byte-array type. For \fBTcl_GetByteArrayFromObj\fR and
-\fBTcl_SetByteArrayLength\fR, this points to the object from which to get
+\fBTcl_SetByteArrayLength\fR, this points to the value from which to get
the byte-array value; if \fIobjPtr\fR does not already point to a byte-array
-object, it will be converted to one.
+value, it will be converted to one.
.AP int *lengthPtr out
-If non-NULL, filled with the length of the array of bytes in the object.
+If non-NULL, filled with the length of the array of bytes in the value.
.BE
.SH DESCRIPTION
.PP
-These procedures are used to create, modify, and read Tcl byte-array objects
-from C code. Byte-array objects are typically used to hold the
+These procedures are used to create, modify, and read Tcl byte-array values
+from C code. Byte-array values are typically used to hold the
results of binary IO operations or data structures created with the
\fBbinary\fR command. In Tcl, an array of bytes is not equivalent to a
string. Conceptually, a string is an array of Unicode characters, while a
byte-array is an array of 8-bit quantities with no implicit meaning.
Accessor functions are provided to get the string representation of a
-byte-array or to convert an arbitrary object to a byte-array. Obtaining the
-string representation of a byte-array object (by calling
+byte-array or to convert an arbitrary value to a byte-array. Obtaining the
+string representation of a byte-array value (by calling
\fBTcl_GetStringFromObj\fR) produces a properly formed UTF-8 sequence with a
one-to-one mapping between the bytes in the internal representation and the
-UTF-8 characters in the string representation.
+UTF-8 characters in the string representation.
.PP
\fBTcl_NewByteArrayObj\fR and \fBTcl_SetByteArrayObj\fR will
-create a new object of byte-array type or modify an existing object to have a
-byte-array type. Both of these procedures set the object's type to be
-byte-array and set the object's internal representation to a copy of the
+create a new value of byte-array type or modify an existing value to have a
+byte-array type. Both of these procedures set the value's type to be
+byte-array and set the value's internal representation to a copy of the
array of bytes given by \fIbytes\fR. \fBTcl_NewByteArrayObj\fR returns a
-pointer to a newly allocated object with a reference count of zero.
+pointer to a newly allocated value with a reference count of zero.
\fBTcl_SetByteArrayObj\fR invalidates any old string representation and, if
-the object is not already a byte-array object, frees any old internal
-representation.
+the value is not already a byte-array value, frees any old internal
+representation. If \fIbytes\fR is NULL then the new byte array contains
+arbitrary values.
.PP
-\fBTcl_GetByteArrayFromObj\fR converts a Tcl object to byte-array type and
-returns a pointer to the object's new internal representation as an array of
+\fBTcl_GetByteArrayFromObj\fR converts a Tcl value to byte-array type and
+returns a pointer to the value's new internal representation as an array of
bytes. The length of this array is stored in \fIlengthPtr\fR if
\fIlengthPtr\fR is non-NULL. The storage for the array of bytes is owned by
-the object and should not be freed. The contents of the array may be
-modified by the caller only if the object is not shared and the caller
-invalidates the string representation.
+the value and should not be freed. The contents of the array may be
+modified by the caller only if the value is not shared and the caller
+invalidates the string representation.
.PP
-\fBTcl_SetByteArrayLength\fR converts the Tcl object to byte-array type
-and changes the length of the object's internal representation as an
+\fBTcl_SetByteArrayLength\fR converts the Tcl value to byte-array type
+and changes the length of the value's internal representation as an
array of bytes. If \fIlength\fR is greater than the space currently
allocated for the array, the array is reallocated to the new length; the
newly allocated bytes at the end of the array have arbitrary values. If
\fIlength\fR is less than the space currently allocated for the array,
the length of array is reduced to the new length. The return value is a
-pointer to the object's new array of bytes.
+pointer to the value's new array of bytes.
.SH "SEE ALSO"
Tcl_GetStringFromObj, Tcl_NewObj, Tcl_IncrRefCount, Tcl_DecrRefCount
.SH KEYWORDS
-object, byte array, utf, unicode, internationalization
+value, binary data, byte array, utf, unicode, internationalization
diff --git a/doc/CallDel.3 b/doc/CallDel.3
index 8e6445b..dec4392 100644
--- a/doc/CallDel.3
+++ b/doc/CallDel.3
@@ -26,7 +26,6 @@ Procedure to call when \fIinterp\fR is deleted.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIproc\fR.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CallWhenDeleted\fR arranges for \fIproc\fR to be called by
@@ -36,11 +35,13 @@ is deleted, but the interpreter will still be valid at the
time of the call.
\fIProc\fR should have arguments and result that match the
type \fBTcl_InterpDeleteProc\fR:
+.PP
.CS
-typedef void Tcl_InterpDeleteProc(
+typedef void \fBTcl_InterpDeleteProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR);
.CE
+.PP
The \fIclientData\fR and \fIinterp\fR parameters are
copies of the \fIclientData\fR and \fIinterp\fR arguments given
to \fBTcl_CallWhenDeleted\fR.
@@ -56,6 +57,11 @@ deleted.
If there is no deletion callback that matches \fIinterp\fR,
\fIproc\fR, and \fIclientData\fR then the call to
\fBTcl_DontCallWhenDeleted\fR has no effect.
-
+.PP
+Note that if the callback is being used to delete a resource that \fImust\fR
+be released on exit, \fBTcl_CreateExitHandler\fR should be used to ensure that
+a callback is received even if the application terminates without deleting the interpreter.
+.SH "SEE ALSO"
+Tcl_CreateExitHandler(3), Tcl_CreateThreadExitHandler(3)
.SH KEYWORDS
-callback, delete, interpreter
+callback, cleanup, delete, interpreter
diff --git a/doc/Cancel.3 b/doc/Cancel.3
new file mode 100644
index 0000000..80db3a3
--- /dev/null
+++ b/doc/Cancel.3
@@ -0,0 +1,66 @@
+'\"
+'\" Copyright (c) 2006-2008 Joe Mistachkin.
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH Tcl_Cancel 3 8.6 Tcl "Tcl Library Procedures"
+.BS
+.SH NAME
+Tcl_CancelEval, Tcl_Canceled \- cancel Tcl scripts
+.SH SYNOPSIS
+.nf
+\fB#include <tcl.h>\fR
+int
+\fBTcl_CancelEval\fR(\fIinterp, clientData, flags\fR)
+.sp
+int
+\fBTcl_Canceled\fR(\fIinterp, flags\fR)
+.SH ARGUMENTS
+.AP Tcl_Interp *interp in
+Interpreter in which to cancel the script.
+.AP int flags in
+ORed combination of flag bits that specify additional options.
+For \fBTcl_CancelEval\fR, only \fBTCL_CANCEL_UNWIND\fR is currently
+supported. For \fBTcl_Canceled\fR, only \fBTCL_LEAVE_ERR_MSG\fR and
+\fBTCL_CANCEL_UNWIND\fR are currently supported.
+.AP ClientData clientData in
+Currently, reserved for future use.
+It should be set to NULL.
+.BE
+.SH DESCRIPTION
+.PP
+\fBTcl_CancelEval\fR cancels or unwinds the script in progress soon after
+the next invocation of asynchronous handlers, causing \fBTCL_ERROR\fR to be
+the return code for that script. This function is thread-safe and may be
+called from any thread in the process.
+.PP
+\fBTcl_Canceled\fR checks if the script in progress has been canceled and
+returns \fBTCL_ERROR\fR if it has. Otherwise, \fBTCL_OK\fR is returned.
+Extensions can use this function to check to see if they should abort a long
+running command. This function is thread sensitive and may only be called
+from the thread the interpreter was created in.
+.SH "FLAG BITS"
+Any ORed combination of the following values may be used for the
+\fIflags\fR argument to procedures such as \fBTcl_CancelEval\fR:
+.TP 23
+\fBTCL_CANCEL_UNWIND\fR
+This flag is used by \fBTcl_CancelEval\fR and \fBTcl_Canceled\fR.
+For \fBTcl_CancelEval\fR, if this flag is set, the script in progress
+is canceled and the evaluation stack for the interpreter is unwound.
+For \fBTcl_Canceled\fR, if this flag is set, the script in progress
+is considered to be canceled only if the evaluation stack for the
+interpreter is being unwound.
+.TP 23
+\fBTCL_LEAVE_ERR_MSG\fR
+This flag is only used by \fBTcl_Canceled\fR; it is ignored by
+other procedures. If an error is returned and this bit is set in
+\fIflags\fR, then an error message will be left in the interpreter's
+result, where it can be retrieved with \fBTcl_GetObjResult\fR or
+\fBTcl_GetStringResult\fR. If this flag bit is not set then no error
+message is left and the interpreter's result will not be modified.
+.SH "SEE ALSO"
+TIP 285
+.SH KEYWORDS
+cancel, unwind
diff --git a/doc/ChnlStack.3 b/doc/ChnlStack.3
index 8ac5a0d..9ec38b4 100644
--- a/doc/ChnlStack.3
+++ b/doc/ChnlStack.3
@@ -30,7 +30,7 @@ Tcl_Channel
.AS Tcl_ChannelType clientData
.AP Tcl_Interp *interp in
Interpreter for error reporting.
-.AP Tcl_ChannelType *typePtr in
+.AP "const Tcl_ChannelType" *typePtr in
The new channel I/O procedures to use for \fIchannel\fR.
.AP ClientData clientData in
Arbitrary one-word value to pass to channel I/O procedures.
diff --git a/doc/Class.3 b/doc/Class.3
new file mode 100644
index 0000000..febe703
--- /dev/null
+++ b/doc/Class.3
@@ -0,0 +1,236 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH Tcl_Class 3 0.1 TclOO "TclOO Library Functions"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+Tcl_ClassGetMetadata, Tcl_ClassSetMetadata, Tcl_CopyObjectInstance, Tcl_GetClassAsObject, Tcl_GetObjectAsClass, Tcl_GetObjectCommand, Tcl_GetObjectFromObj, Tcl_GetObjectName, Tcl_GetObjectNamespace, Tcl_NewObjectInstance, Tcl_ObjectDeleted, Tcl_ObjectGetMetadata, Tcl_ObjectGetMethodNameMapper, Tcl_ObjectSetMetadata, Tcl_ObjectSetMethodNameMapper \- manipulate objects and classes
+.SH SYNOPSIS
+.nf
+\fB#include <tclOO.h>\fR
+.sp
+Tcl_Object
+\fBTcl_GetObjectFromObj\fR(\fIinterp, objPtr\fR)
+.sp
+Tcl_Object
+\fBTcl_GetClassAsObject\fR(\fIclass\fR)
+.sp
+Tcl_Class
+\fBTcl_GetObjectAsClass\fR(\fIobject\fR)
+.sp
+Tcl_Obj *
+\fBTcl_GetObjectName\fR(\fIinterp, object\fR)
+.sp
+Tcl_Command
+\fBTcl_GetObjectCommand\fR(\fIobject\fR)
+.sp
+Tcl_Namespace *
+\fBTcl_GetObjectNamespace\fR(\fIobject\fR)
+.sp
+Tcl_Object
+\fBTcl_NewObjectInstance\fR(\fIinterp, class, name, nsName, objc, objv, skip\fR)
+.sp
+Tcl_Object
+\fBTcl_CopyObjectInstance\fR(\fIinterp, object, name, nsName\fR)
+.sp
+int
+\fBTcl_ObjectDeleted\fR(\fIobject\fR)
+.sp
+ClientData
+\fBTcl_ObjectGetMetadata\fR(\fIobject, metaTypePtr\fR)
+.sp
+\fBTcl_ObjectSetMetadata\fR(\fIobject, metaTypePtr, metadata\fR)
+.sp
+ClientData
+\fBTcl_ClassGetMetadata\fR(\fIclass, metaTypePtr\fR)
+.sp
+\fBTcl_ClassSetMetadata\fR(\fIclass, metaTypePtr, metadata\fR)
+.sp
+Tcl_ObjectMapMethodNameProc
+\fBTcl_ObjectGetMethodNameMapper\fR(\fIobject\fR)
+.sp
+\fBTcl_ObjectSetMethodNameMapper\fR(\fIobject\fR, \fImethodNameMapper\fR)
+.SH ARGUMENTS
+.AS ClientData metadata in/out
+.AP Tcl_Interp *interp in/out
+Interpreter providing the context for looking up or creating an object, and
+into whose result error messages will be written on failure.
+.AP Tcl_Obj *objPtr in
+The name of the object to look up.
+.AP Tcl_Object object in
+Reference to the object to operate upon.
+.AP Tcl_Class class in
+Reference to the class to operate upon.
+.AP "const char" *name in
+The name of the object to create, or NULL if a new unused name is to be
+automatically selected.
+.AP "const char" *nsName in
+The name of the namespace to create for the object's private use, or NULL if a
+new unused name is to be automatically selected.
+.AP int objc in
+The number of elements in the \fIobjv\fR array.
+.AP "Tcl_Obj *const" *objv in
+The arguments to the command to create the instance of the class.
+.AP int skip in
+The number of arguments at the start of the argument array, \fIobjv\fR, that
+are not arguments to any constructors.
+.AP Tcl_ObjectMetadataType *metaTypePtr in
+The type of \fImetadata\fR being set with \fBTcl_ClassSetMetadata\fR or
+retrieved with \fBTcl_ClassGetMetadata\fR.
+.AP ClientData metadata in
+An item of metadata to attach to the class, or NULL to remove the metadata
+associated with a particular \fImetaTypePtr\fR.
+.AP "Tcl_ObjectMapMethodNameProc" "methodNameMapper" in
+A pointer to a function to call to adjust the mapping of objects and method
+names to implementations, or NULL when no such mapping is required.
+.BE
+.SH DESCRIPTION
+.PP
+Objects are typed entities that have a set of operations ("methods")
+associated with them. Classes are objects that can manufacture objects. Each
+class can be viewed as an object itself; the object view can be retrieved
+using \fBTcl_GetClassAsObject\fR which always returns the object when applied
+to a non-destroyed class, and an object can be viewed as a class with the aid
+of the \fBTcl_GetObjectAsClass\fR (which either returns the class, or NULL if
+the object is not a class). An object may be looked up using the
+\fBTcl_GetObjectFromObj\fR function, which either returns an object or NULL
+(with an error message in the interpreter result) if the object cannot be
+found. The correct way to look up a class by name is to look up the object
+with that name, and then to use \fBTcl_GetObjectAsClass\fR.
+.PP
+Every object has its own command and namespace associated with it. The command
+may be retrieved using the \fBTcl_GetObjectCommand\fR function, the name of
+the object (and hence the name of the command) with \fBTcl_GetObjectName\fR,
+and the namespace may be retrieved using the \fBTcl_GetObjectNamespace\fR
+function. Note that the Tcl_Obj reference returned by \fBTcl_GetObjectName\fR
+is a shared reference.
+.PP
+Instances of classes are created using \fBTcl_NewObjectInstance\fR, which
+creates an object from any class (and which is internally called by both
+the \fBcreate\fR and \fBnew\fR methods of the \fBoo::class\fR class). It takes
+parameters that optionally give the name of the object and namespace to
+create, and which describe the arguments to pass to the class's constructor
+(if any). The result of the function will be either a reference to the newly
+created object, or NULL if the creation failed (when an error message will be
+left in the interpreter result). In addition, objects may be copied by using
+\fBTcl_CopyObjectInstance\fR which creates a copy of an object without running
+any constructors.
+.SH "OBJECT AND CLASS METADATA"
+.PP
+Every object and every class may have arbitrary amounts of metadata attached
+to it, which the object or class attaches no meaning to beyond what is
+described in a Tcl_ObjectMetadataType structure instance. Metadata to be
+attached is described by the type of the metadata (given in the
+\fImetaTypePtr\fR argument) and an arbitrary pointer (the \fImetadata\fR
+argument) that are given to \fBTcl_ObjectSetMetadata\fR and
+\fBTcl_ClassSetMetadata\fR, and a particular piece of metadata can be
+retrieved given its type using \fBTcl_ObjectGetMetadata\fR and
+\fBTcl_ClassGetMetadata\fR. If the \fImetadata\fR parameter to either
+\fBTcl_ObjectSetMetadata\fR or \fBTcl_ClassSetMetadata\fR is NULL, the
+metadata is removed if it was attached, and the results of
+\fBTcl_ObjectGetMetadata\fR and \fBTcl_ClassGetMetadata\fR are NULL if the
+given type of metadata was not attached. It is not an error to request or
+remove a piece of metadata that was not attached.
+.SS "TCL_OBJECTMETADATATYPE STRUCTURE"
+.PP
+The contents of the Tcl_ObjectMetadataType structure are as follows:
+.PP
+.CS
+typedef const struct {
+ int \fIversion\fR;
+ const char *\fIname\fR;
+ Tcl_ObjectMetadataDeleteProc *\fIdeleteProc\fR;
+ Tcl_CloneProc *\fIcloneProc\fR;
+} \fBTcl_ObjectMetadataType\fR;
+.CE
+.PP
+The \fIversion\fR field allows for future expansion of the structure, and
+should always be declared equal to TCL_OO_METADATA_VERSION_CURRENT. The
+\fIname\fR field provides a human-readable name for the type, and is reserved
+for debugging.
+.PP
+The \fIdeleteProc\fR field gives a function of type
+Tcl_ObjectMetadataDeleteProc that is used to delete a particular piece of
+metadata, and is called when the attached metadata is replaced or removed; the
+field must not be NULL.
+.PP
+The \fIcloneProc\fR field gives a function that is used to copy a piece of
+metadata (used when a copy of an object is created using
+\fBTcl_CopyObjectInstance\fR); if NULL, the metadata will be just directly
+copied.
+.SS "TCL_OBJECTMETADATADELETEPROC FUNCTION SIGNATURE"
+.PP
+Functions matching this signature are used to delete metadata associated with
+a class or object.
+.PP
+.CS
+typedef void \fBTcl_ObjectMetadataDeleteProc\fR(
+ ClientData \fImetadata\fR);
+.CE
+.PP
+The \fImetadata\fR argument gives the address of the metadata to be
+deleted.
+.SS "TCL_CLONEPROC FUNCTION SIGNATURE"
+.PP
+Functions matching this signature are used to create copies of metadata
+associated with a class or object.
+.PP
+.CS
+typedef int \fBTcl_CloneProc\fR(
+ Tcl_Interp *\fIinterp\fR,
+ ClientData \fIsrcMetadata\fR,
+ ClientData *\fIdstMetadataPtr\fR);
+.CE
+.PP
+The \fIinterp\fR argument gives a place to write an error message when the
+attempt to clone the object is to fail, in which case the clone procedure must
+also return TCL_ERROR; it should return TCL_OK otherwise.
+The \fIsrcMetadata\fR argument gives the address of the metadata to be cloned,
+and the cloned metadata should be written into the variable pointed to by
+\fIdstMetadataPtr\fR; a NULL should be written if the metadata is to not be
+cloned but the overall object copy operation is still to succeed.
+.SH "OBJECT METHOD NAME MAPPING"
+It is possible to control, on a per-object basis, what methods are invoked
+when a particular method is invoked. Normally this is done by looking up the
+method name in the object and then in the class hierarchy, but fine control of
+exactly what the value used to perform the look up is afforded through the
+ability to set a method name mapper callback via
+\fBTcl_ObjectSetMethodNameMapper\fR (and its introspection counterpart,
+\fBTcl_ObjectGetMethodNameMapper\fR, which returns the current mapper). The
+current mapper (if any) is invoked immediately before looking up what chain of
+method implementations is to be used.
+.SS "TCL_OBJECTMAPMETHODNAMEPROC FUNCTION SIGNATURE"
+The \fITcl_ObjectMapMethodNameProc\fR callback is defined as follows:
+.PP
+.CS
+typedef int \fBTcl_ObjectMapMethodNameProc\fR(
+ Tcl_Interp *\fIinterp\fR,
+ Tcl_Object \fIobject\fR,
+ Tcl_Class *\fIstartClsPtr\fR,
+ Tcl_Obj *\fImethodNameObj\fR);
+.CE
+.PP
+If the result is TCL_OK, the remapping is assumed to have been done. If the
+result is TCL_ERROR, an error message will have been left in \fIinterp\fR and
+the method call will fail. If the result is TCL_BREAK, the standard method
+name lookup rules will be used; the behavior of other result codes is
+currently undefined. The \fIobject\fR parameter says which object is being
+processed. The \fIstartClsPtr\fR parameter points to a variable that contains
+the first class to provide a definition in the method chain to process, or
+NULL if the whole chain is to be processed (the argument itself is never
+NULL); this variable may be updated by the callback. The \fImethodNameObj\fR
+parameter gives an unshared object containing the name of the method being
+invoked, as provided by the user; this object may be updated by the callback.
+.SH "SEE ALSO"
+Method(3), oo::class(n), oo::copy(n), oo::define(n), oo::object(n)
+.SH KEYWORDS
+class, constructor, object
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/CrtChannel.3 b/doc/CrtChannel.3
index 212a239..57bb76e 100644
--- a/doc/CrtChannel.3
+++ b/doc/CrtChannel.3
@@ -20,7 +20,7 @@ Tcl_Channel
ClientData
\fBTcl_GetChannelInstanceData\fR(\fIchannel\fR)
.sp
-Tcl_ChannelType *
+const Tcl_ChannelType *
\fBTcl_GetChannelType\fR(\fIchannel\fR)
.sp
const char *
@@ -96,10 +96,8 @@ Tcl_DriverWideSeekProc *
Tcl_DriverThreadActionProc *
\fBTcl_ChannelThreadActionProc\fR(\fItypePtr\fR)
.sp
-.VS 8.5
Tcl_DriverTruncateProc *
\fBTcl_ChannelTruncateProc\fR(\fItypePtr\fR)
-.VE 8.5
.sp
Tcl_DriverSetOptionProc *
\fBTcl_ChannelSetOptionProc\fR(\fItypePtr\fR)
@@ -127,7 +125,9 @@ can be called to perform I/O and other functions on the channel.
.AP "const char" *channelName in
The name of this channel, such as \fBfile3\fR; must not be in use
by any other channel. Can be NULL, in which case the channel is
-created without a name.
+created without a name. If the created channel is assigned to one
+of the standard channels (\fBstdin\fR, \fBstdout\fR or \fBstderr\fR),
+the assigned channel name will be the name of the standard channel.
.AP ClientData instanceData in
Arbitrary one-word value to be associated with this channel. This
value is passed to procedures in \fItypePtr\fR when they are invoked.
@@ -157,9 +157,7 @@ Specific options list (space separated words, without
.QW \- )
to append to the standard generic options list.
Can be NULL for generic options error message only.
-
.BE
-
.SH DESCRIPTION
.PP
Tcl uses a two-layered channel architecture. It provides a generic upper
@@ -213,7 +211,7 @@ call to \fBTcl_GetStdChannel\fR or a call to \fBTcl_SetStdChannel\fR
closing this standard channel will cause the next call to
\fBTcl_CreateChannel\fR to make the new channel the new standard
channel too. See \fBTcl_StandardChannels\fR for a general treatise
-about standard channels and the behaviour of the Tcl library with
+about standard channels and the behavior of the Tcl library with
regard to them.
.PP
\fBTcl_GetChannelInstanceData\fR returns the instance data associated with
@@ -252,8 +250,8 @@ the default value of 4096 is returned.
.PP
\fBTcl_SetChannelBufferSize\fR sets the size, in bytes, of buffers that
will be allocated in subsequent operations on the channel to store input or
-output. The \fIsize\fR argument should be between ten and one million,
-allowing buffers of ten bytes to one million bytes. If \fIsize\fR is
+output. The \fIsize\fR argument should be between one and one million,
+allowing buffers of one byte to one million bytes. If \fIsize\fR is
outside this range, \fBTcl_SetChannelBufferSize\fR sets the buffer size to
4096.
.PP
@@ -288,20 +286,16 @@ name is registered in the (thread)-global list of all channels (result
(thread)global list of all channels (of the current thread).
Application to a channel still registered in some interpreter
is not allowed.
-.VS 8.5
Also notifies the driver if the \fBTcl_ChannelType\fR version is
\fBTCL_CHANNEL_VERSION_4\fR (or higher), and
\fBTcl_DriverThreadActionProc\fR is defined for it.
-.VE 8.5
.PP
\fBTcl_SpliceChannel\fR adds the specified \fIchannel\fR to the
(thread)global list of all channels (of the current thread).
Application to a channel registered in some interpreter is not allowed.
-.VS 8.5
Also notifies the driver if the \fBTcl_ChannelType\fR version is
\fBTCL_CHANNEL_VERSION_4\fR (or higher), and
\fBTcl_DriverThreadActionProc\fR is defined for it.
-.VE 8.5
.PP
\fBTcl_ClearChannelHandlers\fR removes all channel handlers and event
scripts associated with the specified \fIchannel\fR, thus shutting
@@ -316,9 +310,10 @@ channel drivers. See the \fBOLD CHANNEL TYPES\fR section below for
details about the old structure.
.PP
The \fBTcl_ChannelType\fR structure contains the following fields:
+.PP
.CS
typedef struct Tcl_ChannelType {
- char *\fItypeName\fR;
+ const char *\fItypeName\fR;
Tcl_ChannelTypeVersion \fIversion\fR;
Tcl_DriverCloseProc *\fIcloseProc\fR;
Tcl_DriverInputProc *\fIinputProc\fR;
@@ -334,10 +329,8 @@ typedef struct Tcl_ChannelType {
Tcl_DriverHandlerProc *\fIhandlerProc\fR;
Tcl_DriverWideSeekProc *\fIwideSeekProc\fR;
Tcl_DriverThreadActionProc *\fIthreadActionProc\fR;
-.VS 8.5
Tcl_DriverTruncateProc *\fItruncateProc\fR;
-.VE 8.5
-} Tcl_ChannelType;
+} \fBTcl_ChannelType\fR;
.CE
.PP
It is not necessary to provide implementations for all channel
@@ -358,9 +351,7 @@ structure, the following functions should be used to obtain the values:
\fBTcl_ChannelClose2Proc\fR, \fBTcl_ChannelInputProc\fR,
\fBTcl_ChannelOutputProc\fR, \fBTcl_ChannelSeekProc\fR,
\fBTcl_ChannelWideSeekProc\fR, \fBTcl_ChannelThreadActionProc\fR,
-.VS 8.5
\fBTcl_ChannelTruncateProc\fR,
-.VE 8.5
\fBTcl_ChannelSetOptionProc\fR, \fBTcl_ChannelGetOptionProc\fR,
\fBTcl_ChannelWatchProc\fR, \fBTcl_ChannelGetHandleProc\fR,
\fBTcl_ChannelFlushProc\fR, or \fBTcl_ChannelHandlerProc\fR.
@@ -385,11 +376,9 @@ that you require. \fBTCL_CHANNEL_VERSION_2\fR is the minimum recommended.
\fBTCL_CHANNEL_VERSION_3\fR must be set to specify the \fIwideSeekProc\fR member.
\fBTCL_CHANNEL_VERSION_4\fR must be set to specify the \fIthreadActionProc\fR member
(includes \fIwideSeekProc\fR).
-.VS 8.5
\fBTCL_CHANNEL_VERSION_5\fR must be set to specify the
\fItruncateProc\fR members (includes
\fIwideSeekProc\fR and \fIthreadActionProc\fR).
-.VE 8.5
If it is not set to any of these, then this
\fBTcl_ChannelType\fR is assumed to have the original structure. See
\fBOLD CHANNEL TYPES\fR for more details. While Tcl will recognize
@@ -398,9 +387,7 @@ least \fBTCL_CHANNEL_VERSION_2\fR to function correctly.
.PP
This value can be retrieved with \fBTcl_ChannelVersion\fR, which returns
one of
-.VS 8.5
\fBTCL_CHANNEL_VERSION_5\fR,
-.VE 8.5
\fBTCL_CHANNEL_VERSION_4\fR,
\fBTCL_CHANNEL_VERSION_3\fR,
\fBTCL_CHANNEL_VERSION_2\fR or \fBTCL_CHANNEL_VERSION_1\fR.
@@ -411,7 +398,7 @@ the generic layer to set blocking and nonblocking mode on the device.
\fIBlockModeProc\fR should match the following prototype:
.PP
.CS
-typedef int Tcl_DriverBlockModeProc(
+typedef int \fBTcl_DriverBlockModeProc\fR(
ClientData \fIinstanceData\fR,
int \fImode\fR);
.CE
@@ -446,7 +433,7 @@ generic layer to clean up driver-related information when the channel is
closed. \fICloseProc\fR must match the following prototype:
.PP
.CS
-typedef int Tcl_DriverCloseProc(
+typedef int \fBTcl_DriverCloseProc\fR(
ClientData \fIinstanceData\fR,
Tcl_Interp *\fIinterp\fR);
.CE
@@ -468,7 +455,7 @@ independently may set \fIcloseProc\fR to \fBTCL_CLOSE2PROC\fR and set
following prototype:
.PP
.CS
-typedef int Tcl_DriverClose2Proc(
+typedef int \fBTcl_DriverClose2Proc\fR(
ClientData \fIinstanceData\fR,
Tcl_Interp *\fIinterp\fR,
int \fIflags\fR);
@@ -499,7 +486,7 @@ generic layer to read data from the file or device and store it in an
internal buffer. \fIInputProc\fR must match the following prototype:
.PP
.CS
-typedef int Tcl_DriverInputProc(
+typedef int \fBTcl_DriverInputProc\fR(
ClientData \fIinstanceData\fR,
char *\fIbuf\fR,
int \fIbufSize\fR,
@@ -543,7 +530,7 @@ generic layer to transfer data from an internal buffer to the output device.
\fIOutputProc\fR must match the following prototype:
.PP
.CS
-typedef int Tcl_DriverOutputProc(
+typedef int \fBTcl_DriverOutputProc\fR(
ClientData \fIinstanceData\fR,
const char *\fIbuf\fR,
int \fItoWrite\fR,
@@ -582,7 +569,7 @@ operations will be applied. \fISeekProc\fR must match the following
prototype:
.PP
.CS
-typedef int Tcl_DriverSeekProc(
+typedef int \fBTcl_DriverSeekProc\fR(
ClientData \fIinstanceData\fR,
long \fIoffset\fR,
int \fIseekMode\fR,
@@ -612,7 +599,7 @@ in preference to the \fIseekProc\fR, but both must be defined if the
following prototype:
.PP
.CS
-typedef Tcl_WideInt Tcl_DriverWideSeekProc(
+typedef Tcl_WideInt \fBTcl_DriverWideSeekProc\fR(
ClientData \fIinstanceData\fR,
Tcl_WideInt \fIoffset\fR,
int \fIseekMode\fR,
@@ -634,7 +621,7 @@ the generic layer to set a channel type specific option on a channel.
\fIsetOptionProc\fR must match the following prototype:
.PP
.CS
-typedef int Tcl_DriverSetOptionProc(
+typedef int \fBTcl_DriverSetOptionProc\fR(
ClientData \fIinstanceData\fR,
Tcl_Interp *\fIinterp\fR,
const char *\fIoptionName\fR,
@@ -675,7 +662,7 @@ the generic layer to get the value of a channel type specific option on a
channel. \fIgetOptionProc\fR must match the following prototype:
.PP
.CS
-typedef int Tcl_DriverGetOptionProc(
+typedef int \fBTcl_DriverGetOptionProc\fR(
ClientData \fIinstanceData\fR,
Tcl_Interp *\fIinterp\fR,
const char *\fIoptionName\fR,
@@ -713,7 +700,7 @@ notice events of interest on this channel.
\fIWatchProc\fR should match the following prototype:
.PP
.CS
-typedef void Tcl_DriverWatchProc(
+typedef void \fBTcl_DriverWatchProc\fR(
ClientData \fIinstanceData\fR,
int \fImask\fR);
.CE
@@ -744,7 +731,7 @@ the generic layer to retrieve a device-specific handle from the channel.
\fIGetHandleProc\fR should match the following prototype:
.PP
.CS
-typedef int Tcl_DriverGetHandleProc(
+typedef int \fBTcl_DriverGetHandleProc\fR(
ClientData \fIinstanceData\fR,
int \fIdirection\fR,
ClientData *\fIhandlePtr\fR);
@@ -773,7 +760,7 @@ It should be set to NULL.
\fIFlushProc\fR should match the following prototype:
.PP
.CS
-typedef int Tcl_DriverFlushProc(
+typedef int \fBTcl_DriverFlushProc\fR(
ClientData \fIinstanceData\fR);
.CE
.PP
@@ -788,7 +775,7 @@ that occur on the underlying (stacked) channel.
\fIHandlerProc\fR should match the following prototype:
.PP
.CS
-typedef int Tcl_DriverHandlerProc(
+typedef int \fBTcl_DriverHandlerProc\fR(
ClientData \fIinstanceData\fR,
int \fIinterestMask\fR);
.CE
@@ -817,9 +804,9 @@ might be maintaining using the calling thread as the associate. See
\fBTcl_CutChannel\fR and \fBTcl_SpliceChannel\fR for more detail.
.PP
.CS
-typedef void Tcl_DriverThreadActionProc(
+typedef void \fBTcl_DriverThreadActionProc\fR(
ClientData \fIinstanceData\fR,
- int \fIaction\fR);
+ int \fIaction\fR);
.CE
.PP
\fIInstanceData\fR is the same as the value passed to
@@ -834,7 +821,7 @@ called by the generic layer when a channel is truncated to some
length. It can be NULL.
.PP
.CS
-typedef int Tcl_DriverTruncateProc(
+typedef int \fBTcl_DriverTruncateProc\fR(
ClientData \fIinstanceData\fR,
Tcl_WideInt \fIlength\fR);
.CE
@@ -859,7 +846,7 @@ the generic options error message string.
.PP
It always returns \fBTCL_ERROR\fR
.PP
-An error message is generated in \fIinterp\fR's result object to
+An error message is generated in \fIinterp\fR's result value to
indicate that a command was invoked with a bad option.
The message has the form
.CS
@@ -889,18 +876,18 @@ the following fields:
.PP
.CS
typedef struct Tcl_ChannelType {
- char *\fItypeName\fR;
- Tcl_DriverBlockModeProc *\fIblockModeProc\fR;
- Tcl_DriverCloseProc *\fIcloseProc\fR;
- Tcl_DriverInputProc *\fIinputProc\fR;
- Tcl_DriverOutputProc *\fIoutputProc\fR;
- Tcl_DriverSeekProc *\fIseekProc\fR;
- Tcl_DriverSetOptionProc *\fIsetOptionProc\fR;
- Tcl_DriverGetOptionProc *\fIgetOptionProc\fR;
- Tcl_DriverWatchProc *\fIwatchProc\fR;
- Tcl_DriverGetHandleProc *\fIgetHandleProc\fR;
- Tcl_DriverClose2Proc *\fIclose2Proc\fR;
-} Tcl_ChannelType;
+ const char *\fItypeName\fR;
+ Tcl_DriverBlockModeProc *\fIblockModeProc\fR;
+ Tcl_DriverCloseProc *\fIcloseProc\fR;
+ Tcl_DriverInputProc *\fIinputProc\fR;
+ Tcl_DriverOutputProc *\fIoutputProc\fR;
+ Tcl_DriverSeekProc *\fIseekProc\fR;
+ Tcl_DriverSetOptionProc *\fIsetOptionProc\fR;
+ Tcl_DriverGetOptionProc *\fIgetOptionProc\fR;
+ Tcl_DriverWatchProc *\fIwatchProc\fR;
+ Tcl_DriverGetHandleProc *\fIgetHandleProc\fR;
+ Tcl_DriverClose2Proc *\fIclose2Proc\fR;
+} \fBTcl_ChannelType\fR;
.CE
.PP
It is still possible to create channel with the above structure. The
@@ -915,29 +902,27 @@ contained the following fields:
.PP
.CS
typedef struct Tcl_ChannelType {
- char *\fItypeName\fR;
- Tcl_ChannelTypeVersion \fIversion\fR;
- Tcl_DriverCloseProc *\fIcloseProc\fR;
- Tcl_DriverInputProc *\fIinputProc\fR;
- Tcl_DriverOutputProc *\fIoutputProc\fR;
- Tcl_DriverSeekProc *\fIseekProc\fR;
- Tcl_DriverSetOptionProc *\fIsetOptionProc\fR;
- Tcl_DriverGetOptionProc *\fIgetOptionProc\fR;
- Tcl_DriverWatchProc *\fIwatchProc\fR;
- Tcl_DriverGetHandleProc *\fIgetHandleProc\fR;
- Tcl_DriverClose2Proc *\fIclose2Proc\fR;
- Tcl_DriverBlockModeProc *\fIblockModeProc\fR;
- Tcl_DriverFlushProc *\fIflushProc\fR;
- Tcl_DriverHandlerProc *\fIhandlerProc\fR;
- Tcl_DriverTruncateProc *\fItruncateProc\fR;
-} Tcl_ChannelType;
+ const char *\fItypeName\fR;
+ Tcl_ChannelTypeVersion \fIversion\fR;
+ Tcl_DriverCloseProc *\fIcloseProc\fR;
+ Tcl_DriverInputProc *\fIinputProc\fR;
+ Tcl_DriverOutputProc *\fIoutputProc\fR;
+ Tcl_DriverSeekProc *\fIseekProc\fR;
+ Tcl_DriverSetOptionProc *\fIsetOptionProc\fR;
+ Tcl_DriverGetOptionProc *\fIgetOptionProc\fR;
+ Tcl_DriverWatchProc *\fIwatchProc\fR;
+ Tcl_DriverGetHandleProc *\fIgetHandleProc\fR;
+ Tcl_DriverClose2Proc *\fIclose2Proc\fR;
+ Tcl_DriverBlockModeProc *\fIblockModeProc\fR;
+ Tcl_DriverFlushProc *\fIflushProc\fR;
+ Tcl_DriverHandlerProc *\fIhandlerProc\fR;
+ Tcl_DriverTruncateProc *\fItruncateProc\fR;
+} \fBTcl_ChannelType\fR;
.CE
.PP
When the above structure is registered as a channel type, the
\fIversion\fR field should always be \fBTCL_CHANNEL_VERSION_2\fR.
-
.SH "SEE ALSO"
Tcl_Close(3), Tcl_OpenFileChannel(3), Tcl_SetErrno(3), Tcl_QueueEvent(3), Tcl_StackChannel(3), Tcl_GetStdChannel(3)
-
.SH KEYWORDS
blocking, channel driver, channel registration, channel type, nonblocking
diff --git a/doc/CrtChnlHdlr.3 b/doc/CrtChnlHdlr.3
index f5fd1bd..1451e30 100644
--- a/doc/CrtChnlHdlr.3
+++ b/doc/CrtChnlHdlr.3
@@ -35,7 +35,6 @@ the conditions specified by \fImask\fR.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIproc\fR.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CreateChannelHandler\fR arranges for \fIproc\fR to be called in the
@@ -46,8 +45,9 @@ invoked are specified by the \fImask\fR argument.
See the manual entry for \fBfileevent\fR for a precise description of
what it means for a channel to be readable or writable.
\fIProc\fR must conform to the following prototype:
+.PP
.CS
-typedef void Tcl_ChannelProc(
+typedef void \fBTcl_ChannelProc\fR(
ClientData \fIclientData\fR,
int \fImask\fR);
.CE
@@ -83,9 +83,7 @@ so that the channel is no longer readable when the second handler
is invoked.
For this reason it may be useful to use nonblocking I/O on channels
for which there are event handlers.
-
.SH "SEE ALSO"
Notifier(3), Tcl_CreateChannel(3), Tcl_OpenFileChannel(3), vwait(n).
-
.SH KEYWORDS
blocking, callback, channel, events, handler, nonblocking.
diff --git a/doc/CrtCloseHdlr.3 b/doc/CrtCloseHdlr.3
index c8804b1..a114f9c 100644
--- a/doc/CrtCloseHdlr.3
+++ b/doc/CrtCloseHdlr.3
@@ -29,7 +29,6 @@ The procedure to call as the callback.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIproc\fR.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CreateCloseHandler\fR arranges for \fIproc\fR to be called when
@@ -38,7 +37,7 @@ Arbitrary one-word value to pass to \fIproc\fR.
\fIProc\fR should match the following prototype:
.PP
.CS
-typedef void Tcl_CloseProc(
+typedef void \fBTcl_CloseProc\fR(
ClientData \fIclientData\fR);
.CE
.PP
@@ -50,9 +49,7 @@ The \fIproc\fR and \fIclientData\fR identify which close callback to
remove; \fBTcl_DeleteCloseHandler\fR does nothing if its \fIproc\fR and
\fIclientData\fR arguments do not match the \fIproc\fR and \fIclientData\fR
for a close handler for \fIchannel\fR.
-
.SH "SEE ALSO"
close(n), Tcl_Close(3), Tcl_UnregisterChannel(3)
-
.SH KEYWORDS
callback, channel closing
diff --git a/doc/CrtCommand.3 b/doc/CrtCommand.3
index fcc04d5..c921999 100644
--- a/doc/CrtCommand.3
+++ b/doc/CrtCommand.3
@@ -32,7 +32,6 @@ Procedure to call before \fIcmdName\fR is deleted from the interpreter;
allows for command-specific cleanup. If NULL, then no procedure is
called before the command is deleted.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CreateCommand\fR defines a new command in \fIinterp\fR and associates
@@ -42,20 +41,18 @@ will call \fIproc\fR to process the command.
It differs from \fBTcl_CreateObjCommand\fR in that a new string-based
command is defined;
that is, a command procedure is defined that takes an array of
-argument strings instead of objects.
-The object-based command procedures registered by \fBTcl_CreateObjCommand\fR
+argument strings instead of values.
+The value-based command procedures registered by \fBTcl_CreateObjCommand\fR
can execute significantly faster than the string-based command procedures
defined by \fBTcl_CreateCommand\fR.
-This is because they take Tcl objects as arguments
-and those objects can retain an internal representation that
+This is because they take Tcl values as arguments
+and those values can retain an internal representation that
can be manipulated more efficiently.
-Also, Tcl's interpreter now uses objects internally.
+Also, Tcl's interpreter now uses values internally.
In order to invoke a string-based command procedure
registered by \fBTcl_CreateCommand\fR,
it must generate and fetch a string representation
-from each argument object before the call
-and create a new Tcl object to hold the string result returned by the
-string-based command procedure.
+from each argument value before the call.
New commands should be defined using \fBTcl_CreateObjCommand\fR.
We support \fBTcl_CreateCommand\fR for backwards compatibility.
.PP
@@ -75,13 +72,15 @@ the process of being deleted, then it does not create a new command
and it returns NULL.
\fIProc\fR should have arguments and result that match the type
\fBTcl_CmdProc\fR:
+.PP
.CS
-typedef int Tcl_CmdProc(
+typedef int \fBTcl_CmdProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
int \fIargc\fR,
const char *\fIargv\fR[]);
.CE
+.PP
When \fIproc\fR is invoked the \fIclientData\fR and \fIinterp\fR
parameters will be copies of the \fIclientData\fR and \fIinterp\fR
arguments given to \fBTcl_CreateCommand\fR.
@@ -105,7 +104,7 @@ version 8.1 of Tcl.
\fBTCL_CONTINUE\fR. See the Tcl overview man page
for details on what these codes mean. Most normal commands will only
return \fBTCL_OK\fR or \fBTCL_ERROR\fR. In addition, \fIproc\fR must set
-the interpreter result to point to a string value;
+the interpreter result;
in the case of a \fBTCL_OK\fR return code this gives the result
of the command, and in the case of \fBTCL_ERROR\fR it gives an error message.
The \fBTcl_SetResult\fR procedure provides an easy interface for setting
@@ -122,22 +121,23 @@ anywhere within the \fIargv\fR values.
Call \fBTcl_SetResult\fR with status \fBTCL_VOLATILE\fR if you want
to return something from the \fIargv\fR array.
.PP
-\fIDeleteProc\fR will be invoked when (if) \fIcmdName\fR is deleted.
-This can occur through a call to \fBTcl_DeleteCommand\fR or \fBTcl_DeleteInterp\fR,
+\fIDeleteProc\fR will be invoked when (if) \fIcmdName\fR is deleted. This can
+occur through a call to \fBTcl_DeleteCommand\fR or \fBTcl_DeleteInterp\fR,
or by replacing \fIcmdName\fR in another call to \fBTcl_CreateCommand\fR.
\fIDeleteProc\fR is invoked before the command is deleted, and gives the
application an opportunity to release any structures associated
with the command. \fIDeleteProc\fR should have arguments and
result that match the type \fBTcl_CmdDeleteProc\fR:
+.PP
.CS
-typedef void Tcl_CmdDeleteProc(
+typedef void \fBTcl_CmdDeleteProc\fR(
ClientData \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR argument will be the same as the \fIclientData\fR
argument passed to \fBTcl_CreateCommand\fR.
-
.SH "SEE ALSO"
-Tcl_CreateObjCommand, Tcl_DeleteCommand, Tcl_GetCommandInfo, Tcl_SetCommandInfo, Tcl_GetCommandName, Tcl_SetObjResult
-
+Tcl_CreateObjCommand, Tcl_DeleteCommand, Tcl_GetCommandInfo,
+Tcl_SetCommandInfo, Tcl_GetCommandName, Tcl_SetObjResult
.SH KEYWORDS
bind, command, create, delete, interpreter, namespace
diff --git a/doc/CrtFileHdlr.3 b/doc/CrtFileHdlr.3
index 5627bd4..cbc5e9f 100644
--- a/doc/CrtFileHdlr.3
+++ b/doc/CrtFileHdlr.3
@@ -32,7 +32,6 @@ by \fIfile\fR meets the conditions specified by \fImask\fR.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIproc\fR.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CreateFileHandler\fR arranges for \fIproc\fR to be
@@ -49,11 +48,13 @@ as \fBvwait\fR.
.PP
\fIProc\fR should have arguments and result that match the
type \fBTcl_FileProc\fR:
+.PP
.CS
-typedef void Tcl_FileProc(
+typedef void \fBTcl_FileProc\fR(
ClientData \fIclientData\fR,
int \fImask\fR);
.CE
+.PP
The \fIclientData\fR parameter to \fIproc\fR is a copy
of the \fIclientData\fR
argument given to \fBTcl_CreateFileHandler\fR when the callback
@@ -64,7 +65,6 @@ of the requested conditions actually exists for the file; it
will contain a subset of the bits in the \fImask\fR argument
to \fBTcl_CreateFileHandler\fR.
.PP
-.PP
There may exist only one handler for a given file at a given time.
If \fBTcl_CreateFileHandler\fR is called when a handler already
exists for \fIfd\fR, then the new callback replaces the information
@@ -84,7 +84,8 @@ complete the application will not be able to service other events. Use
blocking or nonblocking mode as required.
.PP
Note that these interfaces are only supported by the Unix
-implementation of the Tcl notifier.
-
+implementation of the Tcl notifier.
+.SH "SEE ALSO"
+fileevent(n), Tcl_CreateTimerHandler(3), Tcl_DoWhenIdle(3)
.SH KEYWORDS
callback, file, handler
diff --git a/doc/CrtInterp.3 b/doc/CrtInterp.3
index 957e742..1156a20 100644
--- a/doc/CrtInterp.3
+++ b/doc/CrtInterp.3
@@ -9,7 +9,7 @@
.TH Tcl_CreateInterp 3 7.5 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_CreateInterp, Tcl_DeleteInterp, Tcl_InterpDeleted \- create and delete Tcl command interpreters
+Tcl_CreateInterp, Tcl_DeleteInterp, Tcl_InterpActive, Tcl_InterpDeleted \- create and delete Tcl command interpreters
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -21,30 +21,35 @@ Tcl_Interp *
.sp
int
\fBTcl_InterpDeleted\fR(\fIinterp\fR)
+.sp
+.VS 8.6
+int
+\fBTcl_InterpActive\fR(\fIinterp\fR)
+.VE 8.6
.SH ARGUMENTS
.AS Tcl_Interp *interp
.AP Tcl_Interp *interp in
-Token for interpreter to be destroyed.
+Token for interpreter to be destroyed or queried.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CreateInterp\fR creates a new interpreter structure and returns
-a token for it. The token is required in calls to most other Tcl
+a token for it. The token is required in calls to most other Tcl
procedures, such as \fBTcl_CreateCommand\fR, \fBTcl_Eval\fR, and
-\fBTcl_DeleteInterp\fR.
-Clients are only allowed to access a few of the fields of
-Tcl_Interp structures; see the \fBTcl_Interp\fR
-and \fBTcl_CreateCommand\fR man pages for details.
+\fBTcl_DeleteInterp\fR. The token returned by \fBTcl_CreateInterp\fR
+may only be passed to Tcl routines called from the same thread as
+the original \fBTcl_CreateInterp\fR call. It is not safe for multiple
+threads to pass the same token to Tcl's routines.
The new interpreter is initialized with the built-in Tcl commands
-and with the variables documented in tclvars(n). To bind in
-additional commands, call \fBTcl_CreateCommand\fR.
+and with standard variables like \fBtcl_platform\fR and \fBenv\fR. To
+bind in additional commands, call \fBTcl_CreateCommand\fR, and to
+create additional variables, call \fBTcl_SetVar\fR.
.PP
\fBTcl_DeleteInterp\fR marks an interpreter as deleted; the interpreter
will eventually be deleted when all calls to \fBTcl_Preserve\fR for it have
been matched by calls to \fBTcl_Release\fR. At that time, all of the
resources associated with it, including variables, procedures, and
-application-specific command bindings, will be deleted. After
+application-specific command bindings, will be deleted. After
\fBTcl_DeleteInterp\fR returns any attempt to use \fBTcl_Eval\fR on the
interpreter will fail and return \fBTCL_ERROR\fR. After the call to
\fBTcl_DeleteInterp\fR it is safe to examine the interpreter's result,
@@ -64,7 +69,15 @@ between when only the memory the callback is responsible for is being
deleted and when the whole interpreter is being deleted. In the former case
the callback may recreate the data being deleted, but this would lead to an
infinite loop if the interpreter were being deleted.
-
+.PP
+.VS 8.6
+\fBTcl_InterpActive\fR is useful for determining whether there is any
+execution of scripts ongoing in an interpreter, which is a useful piece of
+information when Tcl is embedded in a garbage-collected environment and it
+becomes necessary to determine whether the interpreter is a candidate for
+deletion. The function returns a true value if the interpreter has at least
+one active execution running inside it, and a false value otherwise.
+.VE 8.6
.SH "INTERPRETERS AND MEMORY MANAGEMENT"
.PP
\fBTcl_DeleteInterp\fR can be called at any time on an interpreter that may
@@ -84,14 +97,16 @@ the last call to \fBTcl_Preserve\fR is matched by a call to
The rules for when the user of an interpreter must call \fBTcl_Preserve\fR
and \fBTcl_Release\fR are simple:
.TP
-Interpreters Passed As Arguments
+\fBInterpreters Passed As Arguments\fR
+.
Functions that are passed an interpreter as an argument can safely use the
interpreter without any special protection. Thus, when you write an
extension consisting of new Tcl commands, no special code is needed to
protect interpreters received as arguments. This covers the majority of all
uses.
.TP
-Interpreter Creation And Deletion
+\fBInterpreter Creation And Deletion\fR
+.
When a new interpreter is created and used in a call to \fBTcl_Eval\fR,
\fBTcl_VarEval\fR, \fBTcl_GlobalEval\fR, \fBTcl_SetVar\fR, or
\fBTcl_GetVar\fR, a pair of calls to \fBTcl_Preserve\fR and
@@ -102,13 +117,16 @@ it is no longer needed, call \fBTcl_InterpDeleted\fR to test if some other
code already called \fBTcl_DeleteInterp\fR; if not, call
\fBTcl_DeleteInterp\fR before calling \fBTcl_Release\fR in your own code.
.TP
-Retrieving An Interpreter From A Data Structure
+\fBRetrieving An Interpreter From A Data Structure\fR
+.
When an interpreter is retrieved from a data structure (e.g. the client
-data of a callback) for use in \fBTcl_Eval\fR, \fBTcl_VarEval\fR,
-\fBTcl_GlobalEval\fR, \fBTcl_SetVar\fR, or \fBTcl_GetVar\fR, a pair of
+data of a callback) for use in one of the evaluation functions
+(\fBTcl_Eval\fR, \fBTcl_VarEval\fR, \fBTcl_GlobalEval\fR, \fBTcl_EvalObjv\fR,
+etc.) or variable access functions (\fBTcl_SetVar\fR, \fBTcl_GetVar\fR,
+\fBTcl_SetVar2Ex\fR, etc.), a pair of
calls to \fBTcl_Preserve\fR and \fBTcl_Release\fR should be wrapped around
all uses of the interpreter; it is unsafe to reuse the interpreter once
-\fBTcl_Release\fR has been called. If an interpreter is stored inside a
+\fBTcl_Release\fR has been called. If an interpreter is stored inside a
callback data structure, an appropriate deletion cleanup mechanism should
be set up by the code that creates the data structure so that the
interpreter is removed from the data structure (e.g. by setting the field
@@ -119,9 +137,14 @@ reused.
All uses of interpreters in Tcl and Tk have already been protected.
Extension writers should ensure that their code also properly protects any
additional interpreters used, as described above.
-
+.PP
+.VS 8.6
+Note that the protection mechanisms do not work well with conventional garbage
+collection systems. When in such a managed environment, \fBTcl_InterpActive\fR
+should be used to determine when an interpreter is a candidate for deletion
+due to inactivity.
+.VE 8.6
.SH "SEE ALSO"
Tcl_Preserve(3), Tcl_Release(3)
-
.SH KEYWORDS
command, create, delete, interpreter
diff --git a/doc/CrtMathFnc.3 b/doc/CrtMathFnc.3
index 9629912..cdde20b 100644
--- a/doc/CrtMathFnc.3
+++ b/doc/CrtMathFnc.3
@@ -10,6 +10,13 @@
.BS
.SH NAME
Tcl_CreateMathFunc, Tcl_GetMathFuncInfo, Tcl_ListMathFuncs \- Define, query and enumerate math functions for expressions
+.SH "NOTICE OF EVENTUAL DEPRECATION"
+.PP
+The \fBTcl_CreateMathFunc\fR and \fBTcl_GetMathFuncInfo\fR functions
+are rendered somewhat obsolete by the ability to create functions for
+expressions by placing commands in the \fBtcl::mathfunc\fR namespace,
+as described in the \fBmathfunc\fR manual page; the API described on
+this page is not expected to be maintained indefinitely.
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -57,7 +64,6 @@ created if the function is not implemented directly in bytecode.
Pattern to match against function names so as to filter them (by
passing to \fITcl_StringMatch\fR), or NULL to not apply any filter.
.BE
-
.SH DESCRIPTION
.PP
Tcl allows a number of mathematical functions to be used in
@@ -85,8 +91,9 @@ or any, respectively.
Whenever the function is invoked in an expression Tcl will invoke
\fIproc\fR. \fIProc\fR should have arguments and result that match
the type \fBTcl_MathProc\fR:
+.PP
.CS
-typedef int Tcl_MathProc(
+typedef int \fBTcl_MathProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
Tcl_Value *\fIargs\fR,
@@ -97,13 +104,14 @@ When \fIproc\fR is invoked the \fIclientData\fR and \fIinterp\fR
arguments will be the same as those passed to \fBTcl_CreateMathFunc\fR.
\fIArgs\fR will point to an array of \fInumArgs\fR Tcl_Value structures,
which describe the actual arguments to the function:
+.PP
.CS
typedef struct Tcl_Value {
- Tcl_ValueType \fItype\fR;
- long \fIintValue\fR;
- double \fIdoubleValue\fR;
- Tcl_WideInt \fIwideValue\fR;
-} Tcl_Value;
+ Tcl_ValueType \fItype\fR;
+ long \fIintValue\fR;
+ double \fIdoubleValue\fR;
+ Tcl_WideInt \fIwideValue\fR;
+} \fBTcl_Value\fR;
.CE
.PP
The \fItype\fR field indicates the type of the argument and is
@@ -145,12 +153,10 @@ will not be modified. The variable pointed to by \fInumArgsPointer\fR
will contain -1, and no argument types will be stored in the variable
pointed to by \fIargTypesPointer\fR.
.PP
-\fBTcl_ListMathFuncs\fR returns a Tcl object containing a list of all
+\fBTcl_ListMathFuncs\fR returns a Tcl value containing a list of all
the math functions defined in the interpreter whose name matches
-\fIpattern\fR. The returned object has a reference count of zero.
-
+\fIpattern\fR. The returned value has a reference count of zero.
.SH "SEE ALSO"
expr(n), info(n), Tcl_CreateObjCommand(3), Tcl_Free(3), Tcl_NewListObj(3)
-
.SH KEYWORDS
expression, mathematical function
diff --git a/doc/CrtObjCmd.3 b/doc/CrtObjCmd.3
index a05efc2..faf8b74 100644
--- a/doc/CrtObjCmd.3
+++ b/doc/CrtObjCmd.3
@@ -64,7 +64,7 @@ The command must not have been deleted.
Pointer to structure containing various information about a
Tcl command.
.AP Tcl_Obj *objPtr in
-Object containing the name of a Tcl command.
+Value containing the name of a Tcl command.
.BE
.SH DESCRIPTION
.PP
@@ -88,22 +88,24 @@ the process of being deleted, then it does not create a new command
and it returns NULL.
\fIproc\fR should have arguments and result that match the type
\fBTcl_ObjCmdProc\fR:
+.PP
.CS
-typedef int Tcl_ObjCmdProc(
+typedef int \fBTcl_ObjCmdProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
int \fIobjc\fR,
Tcl_Obj *const \fIobjv\fR[]);
.CE
+.PP
When \fIproc\fR is invoked, the \fIclientData\fR and \fIinterp\fR parameters
will be copies of the \fIclientData\fR and \fIinterp\fR arguments given to
\fBTcl_CreateObjCommand\fR. Typically, \fIclientData\fR points to an
application-specific data structure that describes what to do when the
command procedure is invoked. \fIObjc\fR and \fIobjv\fR describe the
-arguments to the command, \fIobjc\fR giving the number of argument objects
+arguments to the command, \fIobjc\fR giving the number of argument values
(including the command name) and \fIobjv\fR giving the values of the
arguments. The \fIobjv\fR array will contain \fIobjc\fR values, pointing to
-the argument objects. Unlike \fIargv\fR[\fIargv\fR] used in a
+the argument values. Unlike \fIargv\fR[\fIargv\fR] used in a
string-based command procedure, \fIobjv\fR[\fIobjc\fR] will not contain NULL.
.PP
Additionally, when \fIproc\fR is invoked, it must not modify the contents
@@ -113,9 +115,9 @@ cause memory to be lost and the runtime stack to be corrupted. The
\fBconst\fR in the declaration of \fIobjv\fR will cause ANSI-compliant
compilers to report any such attempted assignment as an error. However,
it is acceptable to modify the internal representation of any individual
-object argument. For instance, the user may call
+value argument. For instance, the user may call
\fBTcl_GetIntFromObj\fR on \fIobjv\fR[\fB2\fR] to obtain the integer
-representation of that object; that call may change the type of the object
+representation of that value; that call may change the type of the value
that \fIobjv\fR[\fB2\fR] points at, but will not change where
\fIobjv\fR[\fB2\fR] points.
.PP
@@ -131,7 +133,7 @@ of the command,
and in the case of \fBTCL_ERROR\fR this gives an error message.
Before invoking a command procedure,
\fBTcl_EvalObjEx\fR sets interpreter's result to
-point to an object representing an empty string, so simple
+point to a value representing an empty string, so simple
commands can return an empty result by doing nothing at all.
.PP
The contents of the \fIobjv\fR array belong to Tcl and are not
@@ -159,10 +161,12 @@ or by replacing \fIname\fR in another call to \fBTcl_CreateObjCommand\fR.
application an opportunity to release any structures associated
with the command. \fIDeleteProc\fR should have arguments and
result that match the type \fBTcl_CmdDeleteProc\fR:
+.PP
.CS
-typedef void Tcl_CmdDeleteProc(
+typedef void \fBTcl_CmdDeleteProc\fR(
ClientData \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR argument will be the same as the \fIclientData\fR
argument passed to \fBTcl_CreateObjCommand\fR.
.PP
@@ -197,6 +201,7 @@ Otherwise it places information about the command
in the \fBTcl_CmdInfo\fR structure
pointed to by \fIinfoPtr\fR and returns 1.
A \fBTcl_CmdInfo\fR structure has the following fields:
+.PP
.CS
typedef struct Tcl_CmdInfo {
int \fIisNativeObjectProc\fR;
@@ -207,8 +212,9 @@ typedef struct Tcl_CmdInfo {
Tcl_CmdDeleteProc *\fIdeleteProc\fR;
ClientData \fIdeleteData\fR;
Tcl_Namespace *\fInamespacePtr\fR;
-} Tcl_CmdInfo;
+} \fBTcl_CmdInfo\fR;
.CE
+.PP
The \fIisNativeObjectProc\fR field has the value 1
if \fBTcl_CreateObjCommand\fR was called to register the command;
it is 0 if only \fBTcl_CreateCommand\fR was called.
@@ -219,7 +225,7 @@ if \fIisNativeObjectProc\fR has the value 1.
The fields \fIobjProc\fR and \fIobjClientData\fR
have the same meaning as the \fIproc\fR and \fIclientData\fR
arguments to \fBTcl_CreateObjCommand\fR;
-they hold information about the object-based command procedure
+they hold information about the value-based command procedure
that the Tcl interpreter calls to implement the command.
The fields \fIproc\fR and \fIclientData\fR
hold information about the string-based command procedure
@@ -229,7 +235,7 @@ this is the procedure passed to it;
otherwise, this is a compatibility procedure
registered by \fBTcl_CreateObjCommand\fR
that simply calls the command's
-object-based procedure after converting its string arguments to Tcl objects.
+value-based procedure after converting its string arguments to Tcl values.
The field \fIdeleteData\fR is the ClientData value
to pass to \fIdeleteProc\fR; it is normally the same as
\fIclientData\fR but may be set independently using the
@@ -284,14 +290,13 @@ they need to keep it for a long time.
\fBTcl_GetCommandFullName\fR produces the fully qualified name
of a command from a command token.
The name, including all namespace prefixes,
-is appended to the object specified by \fIobjPtr\fR.
+is appended to the value specified by \fIobjPtr\fR.
.PP
\fBTcl_GetCommandFromObj\fR returns a token for the command
specified by the name in a \fBTcl_Obj\fR.
The command name is resolved relative to the current namespace.
Returns NULL if the command is not found.
.SH "SEE ALSO"
-Tcl_CreateCommand, Tcl_ResetResult, Tcl_SetObjResult
-
+Tcl_CreateCommand(3), Tcl_ResetResult(3), Tcl_SetObjResult(3)
.SH KEYWORDS
-bind, command, create, delete, namespace, object
+bind, command, create, delete, namespace, value
diff --git a/doc/CrtSlave.3 b/doc/CrtSlave.3
index 3863373..000ae58 100644
--- a/doc/CrtSlave.3
+++ b/doc/CrtSlave.3
@@ -78,10 +78,10 @@ Count of additional arguments to pass to the alias command.
Vector of strings, the additional arguments to pass to the alias command.
This storage is owned by the caller.
.AP int objc in
-Count of additional object arguments to pass to the alias object command.
+Count of additional value arguments to pass to the aliased command.
.AP Tcl_Obj **objv in
-Vector of Tcl_Obj structures, the additional object arguments to pass to
-the alias object command.
+Vector of Tcl_Obj structures, the additional value arguments to pass to
+the aliased command.
This storage is owned by the caller.
.AP Tcl_Interp **targetInterpPtr in
Pointer to location to store the address of the interpreter where a target
@@ -97,11 +97,11 @@ Pointer to location to store a vector of strings, the additional arguments
to pass to an alias. The location is in storage owned by the caller, the
vector of strings is owned by the called function.
.AP int *objcPtr out
-Pointer to location to store count of additional object arguments to be
+Pointer to location to store count of additional value arguments to be
passed to the alias. The location is in storage owned by the caller.
.AP Tcl_Obj ***objvPtr out
Pointer to location to store a vector of Tcl_Obj structures, the additional
-arguments to pass to an object alias command. The location is in storage
+arguments to pass to an alias command. The location is in storage
owned by the caller, the vector of Tcl_Obj structures is owned by the
called function.
.AP "const char" *cmdName in
@@ -165,13 +165,13 @@ of the relative path succeeds, \fBTCL_OK\fR is returned, else
\fBTCL_ERROR\fR is returned and the \fIresult\fR field in
\fIaskingInterp\fR contains the error message.
.PP
-\fBTcl_CreateAlias\fR creates an object command named \fIslaveCmd\fR in
+\fBTcl_CreateAlias\fR creates a command named \fIslaveCmd\fR in
\fIslaveInterp\fR that when invoked, will cause the command \fItargetCmd\fR
to be invoked in \fItargetInterp\fR. The arguments specified by the strings
contained in \fIargv\fR are always prepended to any arguments supplied in the
invocation of \fIslaveCmd\fR and passed to \fItargetCmd\fR.
This operation returns \fBTCL_OK\fR if it succeeds, or \fBTCL_ERROR\fR if
-it fails; in that case, an error message is left in the object result
+it fails; in that case, an error message is left in the value result
of \fIslaveInterp\fR.
Note that there are no restrictions on the ancestry relationship (as
created by \fBTcl_CreateSlave\fR) between \fIslaveInterp\fR and
@@ -179,7 +179,7 @@ created by \fBTcl_CreateSlave\fR) between \fIslaveInterp\fR and
restrictions on how they are related.
.PP
\fBTcl_CreateAliasObj\fR is similar to \fBTcl_CreateAlias\fR except
-that it takes a vector of objects to pass as additional arguments instead
+that it takes a vector of values to pass as additional arguments instead
of a vector of strings.
.PP
\fBTcl_GetAlias\fR returns information about an alias \fIaliasName\fR
@@ -202,7 +202,7 @@ command, or the operation will return \fBTCL_ERROR\fR and leave an error
message in the \fIresult\fR field in \fIinterp\fR.
If an exposed command named \fIcmdName\fR already exists,
the operation returns \fBTCL_ERROR\fR and leaves an error message in the
-object result of \fIinterp\fR.
+value result of \fIinterp\fR.
If the operation succeeds, it returns \fBTCL_OK\fR.
After executing this command, attempts to use \fIcmdName\fR in a call to
\fBTcl_Eval\fR or with the Tcl \fBeval\fR command will again succeed.
@@ -212,10 +212,10 @@ exposed commands to the set of hidden commands, under the name
\fIhiddenCmdName\fR.
\fICmdName\fR must be the name of an existing exposed
command, or the operation will return \fBTCL_ERROR\fR and leave an error
-message in the object result of \fIinterp\fR.
+message in the value result of \fIinterp\fR.
Currently both \fIcmdName\fR and \fIhiddenCmdName\fR must not contain
namespace qualifiers, or the operation will return \fBTCL_ERROR\fR and
-leave an error message in the object result of \fIinterp\fR.
+leave an error message in the value result of \fIinterp\fR.
The \fICmdName\fR will be looked up in the global namespace, and not
relative to the current namespace, even if the current namespace is not the
global one.
diff --git a/doc/CrtTimerHdlr.3 b/doc/CrtTimerHdlr.3
index e948728..2c9f90a 100644
--- a/doc/CrtTimerHdlr.3
+++ b/doc/CrtTimerHdlr.3
@@ -30,7 +30,6 @@ Arbitrary one-word value to pass to \fIproc\fR.
Token for previously created timer handler (the return value
from some previous call to \fBTcl_CreateTimerHandler\fR).
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_CreateTimerHandler\fR arranges for \fIproc\fR to be
@@ -49,9 +48,12 @@ are other pending events to process before the call to
.PP
\fIProc\fR should have arguments and return value that match
the type \fBTcl_TimerProc\fR:
+.PP
.CS
-typedef void Tcl_TimerProc(ClientData \fIclientData\fR);
+typedef void \fBTcl_TimerProc\fR(
+ ClientData \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR parameter to \fIproc\fR is a
copy of the \fIclientData\fR argument given to
\fBTcl_CreateTimerHandler\fR when the callback
@@ -68,6 +70,7 @@ has been invoked then \fBTcl_DeleteTimerHandler\fR does nothing.
The tokens returned by \fBTcl_CreateTimerHandler\fR never have
a value of NULL, so if NULL is passed to \fBTcl_DeleteTimerHandler\fR
then the procedure does nothing.
-
+.SH "SEE ALSO"
+after(n), Tcl_CreateFileHandler(3), Tcl_DoWhenIdle(3)
.SH KEYWORDS
callback, clock, handler, timer
diff --git a/doc/CrtTrace.3 b/doc/CrtTrace.3
index 076f47b..3689add 100644
--- a/doc/CrtTrace.3
+++ b/doc/CrtTrace.3
@@ -63,6 +63,7 @@ interpreter.
.PP
\fIobjProc\fR should have arguments and result that match the type,
\fBTcl_CmdObjTraceProc\fR:
+.PP
.CS
typedef int \fBTcl_CmdObjTraceProc\fR(
\fBClientData\fR \fIclientData\fR,
@@ -71,8 +72,9 @@ typedef int \fBTcl_CmdObjTraceProc\fR(
const char *\fIcommand\fR,
\fBTcl_Command\fR \fIcommandToken\fR,
int \fIobjc\fR,
- \fBTcl_Obj\fR *const \fIobjv\fR[] );
+ \fBTcl_Obj\fR *const \fIobjv\fR[]);
.CE
+.PP
The \fIclientData\fR and \fIinterp\fR parameters are copies of the
corresponding arguments given to \fBTcl_CreateTrace\fR.
\fIClientData\fR typically points to an application-specific data
@@ -139,10 +141,12 @@ When \fBTcl_DeleteTrace\fR is called, the interpreter invokes the
\fIdeleteProc\fR that was passed as a parameter to
\fBTcl_CreateObjTrace\fR. The \fIdeleteProc\fR must match the type,
\fBTcl_CmdObjTraceDeleteProc\fR:
+.PP
.CS
typedef void \fBTcl_CmdObjTraceDeleteProc\fR(
\fBClientData\fR \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR parameter will be the same as the
\fIclientData\fR parameter that was originally passed to
\fBTcl_CreateObjTrace\fR.
@@ -153,8 +157,9 @@ compatibility with code that was developed for older versions of the
Tcl interpreter. It is similar to \fBTcl_CreateObjTrace\fR, except
that its \fIproc\fR parameter should have arguments and result that
match the type \fBTcl_CmdTraceProc\fR:
+.PP
.CS
-typedef void Tcl_CmdTraceProc(
+typedef void \fBTcl_CmdTraceProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
int \fIlevel\fR,
@@ -164,6 +169,7 @@ typedef void Tcl_CmdTraceProc(
int \fIargc\fR,
const char *\fIargv\fR[]);
.CE
+.PP
The parameters to the \fIproc\fR callback are similar to those of the
\fIobjProc\fR callback above. The \fIcommandToken\fR is
replaced with \fIcmdProc\fR, a pointer to the (string-based) command
diff --git a/doc/DictObj.3 b/doc/DictObj.3
index 74b8dd1..db8f39a 100644
--- a/doc/DictObj.3
+++ b/doc/DictObj.3
@@ -9,7 +9,7 @@
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
-Tcl_NewDictObj, Tcl_DictObjPut, Tcl_DictObjGet, Tcl_DictObjRemove, Tcl_DictObjSize, Tcl_DictObjFirst, Tcl_DictObjNext, Tcl_DictObjDone, Tcl_DictObjPutKeyList, Tcl_DictObjRemoveKeyList \- manipulate Tcl objects as dictionaries
+Tcl_NewDictObj, Tcl_DictObjPut, Tcl_DictObjGet, Tcl_DictObjRemove, Tcl_DictObjSize, Tcl_DictObjFirst, Tcl_DictObjNext, Tcl_DictObjDone, Tcl_DictObjPutKeyList, Tcl_DictObjRemoveKeyList \- manipulate Tcl values as dictionaries
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -47,23 +47,23 @@ int
.SH ARGUMENTS
.AS Tcl_DictSearch "**valuePtrPtr" in/out
.AP Tcl_Interp *interp in
-If an error occurs while converting an object to be a dictionary object,
-an error message is left in the interpreter's result object
+If an error occurs while converting a value to be a dictionary value,
+an error message is left in the interpreter's result value
unless \fIinterp\fR is NULL.
.AP Tcl_Obj *dictPtr in/out
-Points to the dictionary object to be manipulated.
-If \fIdictPtr\fR does not already point to a dictionary object,
+Points to the dictionary value to be manipulated.
+If \fIdictPtr\fR does not already point to a dictionary value,
an attempt will be made to convert it to one.
.AP Tcl_Obj *keyPtr in
Points to the key for the key/value pair being manipulated within the
-dictionary object.
+dictionary value.
.AP Tcl_Obj **keyPtrPtr out
Points to a variable that will have the key from a key/value pair
placed within it. May be NULL to indicate that the caller is not
interested in the key.
.AP Tcl_Obj *valuePtr in
-Points to the value for the key/value pair being manipulate within the
-dictionary object (or sub-object, in the case of
+Points to the value for the key/value pair being manipulated within the
+dictionary value (or sub-value, in the case of
\fBTcl_DictObjPutKeyList\fR.)
.AP Tcl_Obj **valuePtrPtr out
Points to a variable that will have the value from a key/value pair
@@ -88,15 +88,15 @@ completed, and a zero otherwise.
Indicates the number of keys that will be supplied in the \fIkeyv\fR
array.
.AP "Tcl_Obj *const" *keyv in
-Array of \fIkeyc\fR pointers to objects that
+Array of \fIkeyc\fR pointers to values that
\fBTcl_DictObjPutKeyList\fR and \fBTcl_DictObjRemoveKeyList\fR will
use to locate the key/value pair to manipulate within the
-sub-dictionaries of the main dictionary object passed to them.
+sub-dictionaries of the main dictionary value passed to them.
.BE
.SH DESCRIPTION
.PP
-Tcl dictionary objects have an internal representation that supports
+Tcl dictionary values have an internal representation that supports
efficient mapping from keys to values and which guarantees that the
particular ordering of keys within the dictionary remains the same
modulo any keys being deleted (which removes them from the order) or
@@ -106,11 +106,11 @@ keys of the dictionary, and each will be followed (in the odd-valued
index) by the value associated with that key.
.PP
The procedures described in this man page are used to
-create, modify, index, and iterate over dictionary objects from C code.
+create, modify, index, and iterate over dictionary values from C code.
.PP
-\fBTcl_NewDictObj\fR creates a new, empty dictionary object. The
-string representation of the object will be invalid, and the reference
-count of the object will be zero.
+\fBTcl_NewDictObj\fR creates a new, empty dictionary value. The
+string representation of the value will be invalid, and the reference
+count of the value will be zero.
.PP
\fBTcl_DictObjGet\fR looks up the given key within the given
dictionary and writes a pointer to the value associated with that key
@@ -217,7 +217,7 @@ if (\fBTcl_DictObjFirst\fR(interp, objPtr, &search,
for (; !done ; \fBTcl_DictObjNext\fR(&search, &key, &value, &done)) {
/*
* Note that strcmp() is not a good way of comparing
- * objects and is just used here for demonstration
+ * values and is just used here for demonstration
* purposes.
*/
if (!strcmp(Tcl_GetString(key), Tcl_GetString(value))) {
@@ -231,4 +231,4 @@ return TCL_OK;
.SH "SEE ALSO"
Tcl_NewObj, Tcl_DecrRefCount, Tcl_IncrRefCount, Tcl_InitObjHashTable
.SH KEYWORDS
-dict, dict object, dictionary, dictionary object, hash table, iteration, object
+dict, dict value, dictionary, dictionary value, hash table, iteration, value
diff --git a/doc/DoWhenIdle.3 b/doc/DoWhenIdle.3
index bfc19fb..27a4b8c 100644
--- a/doc/DoWhenIdle.3
+++ b/doc/DoWhenIdle.3
@@ -24,7 +24,6 @@ Procedure to invoke.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIproc\fR.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_DoWhenIdle\fR arranges for \fIproc\fR to be invoked
@@ -41,9 +40,12 @@ use \fBTcl_DoOneEvent\fR to dispatch events.
.PP
\fIProc\fR should have arguments and result that match the
type \fBTcl_IdleProc\fR:
+.PP
.CS
-typedef void Tcl_IdleProc(ClientData \fIclientData\fR);
+typedef void \fBTcl_IdleProc\fR(
+ ClientData \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR parameter to \fIproc\fR is a copy of the \fIclientData\fR
argument given to \fBTcl_DoWhenIdle\fR. Typically, \fIclientData\fR
points to a data structure containing application-specific information about
@@ -79,6 +81,7 @@ continuously. This will interact badly with certain features of Tk
that attempt to wait for all idle callbacks to complete. If you would
like for an idle callback to reschedule itself continuously, it is
better to use a timer handler with a zero timeout period.
-
+.SH "SEE ALSO"
+after(n), Tcl_CreateFileHandler(3), Tcl_CreateTimerHandler(3)
.SH KEYWORDS
callback, defer, idle callback
diff --git a/doc/DoubleObj.3 b/doc/DoubleObj.3
index 12818b0..f811c89 100644
--- a/doc/DoubleObj.3
+++ b/doc/DoubleObj.3
@@ -8,7 +8,7 @@
.TH Tcl_DoubleObj 3 8.0 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_NewDoubleObj, Tcl_SetDoubleObj, Tcl_GetDoubleFromObj \- manipulate Tcl objects as floating-point values
+Tcl_NewDoubleObj, Tcl_SetDoubleObj, Tcl_GetDoubleFromObj \- manipulate Tcl values as floating-point values
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -23,11 +23,11 @@ int
.SH ARGUMENTS
.AS Tcl_Interp doubleValue in/out
.AP double doubleValue in
-A double-precision floating-point value used to initialize or set a Tcl object.
+A double-precision floating-point value used to initialize or set a Tcl value.
.AP Tcl_Obj *objPtr in/out
-For \fBTcl_SetDoubleObj\fR, this points to the object in which to store a
+For \fBTcl_SetDoubleObj\fR, this points to the value in which to store a
double value.
-For \fBTcl_GetDoubleFromObj\fR, this refers to the object
+For \fBTcl_GetDoubleFromObj\fR, this refers to the value
from which to retrieve a double value.
.AP Tcl_Interp *interp in/out
When non-NULL, an error message is left here when double value retrieval fails.
@@ -37,21 +37,21 @@ Points to place to store the double value obtained from \fIobjPtr\fR.
.SH DESCRIPTION
.PP
-These procedures are used to create, modify, and read Tcl objects that
+These procedures are used to create, modify, and read Tcl values that
hold double-precision floating-point values.
.PP
-\fBTcl_NewDoubleObj\fR creates and returns a new Tcl object initialized to
-the double value \fIdoubleValue\fR. The returned Tcl object is unshared.
+\fBTcl_NewDoubleObj\fR creates and returns a new Tcl value initialized to
+the double value \fIdoubleValue\fR. The returned Tcl value is unshared.
.PP
-\fBTcl_SetDoubleObj\fR sets the value of an existing Tcl object pointed to
+\fBTcl_SetDoubleObj\fR sets the value of an existing Tcl value pointed to
by \fIobjPtr\fR to the double value \fIdoubleValue\fR. The \fIobjPtr\fR
-argument must point to an unshared Tcl object. Any attempt to set the value
-of a shared Tcl object violates Tcl's copy-on-write policy. Any existing
-string representation or internal representation in the unshared Tcl object
+argument must point to an unshared Tcl value. Any attempt to set the value
+of a shared Tcl value violates Tcl's copy-on-write policy. Any existing
+string representation or internal representation in the unshared Tcl value
will be freed as a consequence of setting the new value.
.PP
\fBTcl_GetDoubleFromObj\fR attempts to retrieve a double value from the
-Tcl object \fIobjPtr\fR. If the attempt succeeds, then \fBTCL_OK\fR is
+Tcl value \fIobjPtr\fR. If the attempt succeeds, then \fBTCL_OK\fR is
returned, and the double value is written to the storage pointed to by
\fIdoublePtr\fR. If the attempt fails, then \fBTCL_ERROR\fR is returned,
and if \fIinterp\fR is non-NULL, an error message is left in \fIinterp\fR.
@@ -61,4 +61,4 @@ calls to \fBTcl_GetDoubleFromObj\fR more efficient.
.SH "SEE ALSO"
Tcl_NewObj, Tcl_DecrRefCount, Tcl_IncrRefCount, Tcl_GetObjResult
.SH KEYWORDS
-double, double object, double type, internal representation, object, object type, string representation
+double, double value, double type, internal representation, value, value type, string representation
diff --git a/doc/Encoding.3 b/doc/Encoding.3
index a940a5b..7bcb285 100644
--- a/doc/Encoding.3
+++ b/doc/Encoding.3
@@ -19,10 +19,8 @@ Tcl_Encoding
void
\fBTcl_FreeEncoding\fR(\fIencoding\fR)
.sp
-.VS 8.5
int
\fBTcl_GetEncodingFromObj\fR(\fIinterp, objPtr, encodingPtr\fR)
-.VE 8.5
.sp
char *
\fBTcl_ExternalToUtfDString\fR(\fIencoding, src, srcLen, dstPtr\fR)
@@ -50,10 +48,8 @@ const char *
int
\fBTcl_SetSystemEncoding\fR(\fIinterp, name\fR)
.sp
-.VS 8.5
const char *
\fBTcl_GetEncodingNameFromEnvironment\fR(\fIbufPtr\fR)
-.VE 8.5
.sp
void
\fBTcl_GetEncodingNames\fR(\fIinterp\fR)
@@ -61,13 +57,11 @@ void
Tcl_Encoding
\fBTcl_CreateEncoding\fR(\fItypePtr\fR)
.sp
-.VS 8.5
Tcl_Obj *
\fBTcl_GetEncodingSearchPath\fR()
.sp
int
\fBTcl_SetEncodingSearchPath\fR(\fIsearchPath\fR)
-.VE 8.5
.sp
const char *
\fBTcl_GetDefaultEncodingDir\fR(\fIvoid\fR)
@@ -85,13 +79,9 @@ Name of encoding to load.
The encoding to query, free, or use for converting text. If \fIencoding\fR is
NULL, the current system encoding is used.
.AP Tcl_Obj *objPtr in
-.VS 8.5
Name of encoding to get token for.
-.VE 8.5
.AP Tcl_Encoding *encodingPtr out
-.VS 8.5
Points to storage where encoding token is to be written.
-.VE 8.5
.AP "const char" *src in
For the \fBTcl_ExternalToUtf\fR functions, an array of bytes in the
specified encoding that are to be converted to UTF-8. For the
@@ -145,15 +135,11 @@ buffer as a result of the conversion. May be NULL.
Filled with the number of characters that correspond to the number of bytes
stored in the output buffer. May be NULL.
.AP Tcl_DString *bufPtr out
-.VS 8.5
Storage for the prescribed system encoding name.
-.VE 8.5
.AP "const Tcl_EncodingType" *typePtr in
Structure that defines a new type of encoding.
.AP Tcl_Obj *searchPath in
-.VS 8.5
List of filesystem directories in which to search for encoding data files.
-.VE 8.5
.AP "const char" *path in
A path to the location of the encoding file.
.BE
@@ -202,7 +188,6 @@ anywhere (i.e., it has been freed as many times as it has been gotten)
\fBTcl_FreeEncoding\fR will release all storage the encoding was using
and delete it from the database.
.PP
-.VS 8.5
\fBTcl_GetEncodingFromObj\fR treats the string representation of
\fIobjPtr\fR as an encoding name, and finds an encoding with that
name, just as \fBTcl_GetEncoding\fR does. When an encoding is found,
@@ -214,7 +199,6 @@ writing to \fB*\fR\fIencodingPtr\fR takes place. Just as with
\fBTcl_GetEncoding\fR, the caller should call \fBTcl_FreeEncoding\fR
on the resulting encoding token when that token will no longer be
used.
-.VE 8.5
.PP
\fBTcl_ExternalToUtfDString\fR converts a source buffer \fIsrc\fR from the
specified \fIencoding\fR into UTF-8. The converted bytes are stored in
@@ -296,6 +280,7 @@ and the
interfaces when running on Windows 95, you would have
to perform the following type of test over and over in your program
(as represented in pseudo-code):
+.PP
.CS
if (running NT) {
encoding <- Tcl_GetEncoding("unicode");
@@ -305,6 +290,7 @@ if (running NT) {
nativeBuffer <- Tcl_UtfToExternal(NULL, utfBuffer);
}
.CE
+.PP
\fBTcl_WinUtfToTChar\fR and \fBTcl_WinTCharToUtf\fR automatically
handle this test and use the proper encoding based on the current
operating system. \fBTcl_WinUtfToTChar\fR returns a pointer to
@@ -329,14 +315,12 @@ procedure increments the reference count of the new system encoding,
decrements the reference count of the old system encoding, and returns
\fBTCL_OK\fR.
.PP
-.VS 8.5
\fBTcl_GetEncodingNameFromEnvironment\fR provides a means for the Tcl
library to report the encoding name it believes to be the correct one
to use as the system encoding, based on system calls and examination of
the environment suitable for the platform. It accepts \fIbufPtr\fR,
a pointer to an uninitialized or freed \fBTcl_DString\fR and writes
the encoding name to it. The \fBTcl_DStringValue\fR is returned.
-.VE 8.5
.PP
\fBTcl_GetEncodingNames\fR sets the \fIinterp\fR result to a list
consisting of the names of all the encodings that are currently defined
@@ -364,13 +348,13 @@ convert between this encoding and UTF-8. It is defined as follows:
.PP
.CS
typedef struct Tcl_EncodingType {
- const char *\fIencodingName\fR;
- Tcl_EncodingConvertProc *\fItoUtfProc\fR;
- Tcl_EncodingConvertProc *\fIfromUtfProc\fR;
- Tcl_EncodingFreeProc *\fIfreeProc\fR;
- ClientData \fIclientData\fR;
- int \fInullSize\fR;
-} Tcl_EncodingType;
+ const char *\fIencodingName\fR;
+ Tcl_EncodingConvertProc *\fItoUtfProc\fR;
+ Tcl_EncodingConvertProc *\fIfromUtfProc\fR;
+ Tcl_EncodingFreeProc *\fIfreeProc\fR;
+ ClientData \fIclientData\fR;
+ int \fInullSize\fR;
+} \fBTcl_EncodingType\fR;
.CE
.PP
The \fIencodingName\fR provides a string name for the encoding, by
@@ -398,7 +382,7 @@ The callback procedures \fItoUtfProc\fR and \fIfromUtfProc\fR should match the
type \fBTcl_EncodingConvertProc\fR:
.PP
.CS
-typedef int Tcl_EncodingConvertProc(
+typedef int \fBTcl_EncodingConvertProc\fR(
ClientData \fIclientData\fR,
const char *\fIsrc\fR,
int \fIsrcLen\fR,
@@ -428,8 +412,9 @@ procedure will be a non-NULL location.
.PP
The callback procedure \fIfreeProc\fR, if non-NULL, should match the type
\fBTcl_EncodingFreeProc\fR:
+.PP
.CS
-typedef void Tcl_EncodingFreeProc(
+typedef void \fBTcl_EncodingFreeProc\fR(
ClientData \fIclientData\fR);
.CE
.PP
@@ -437,7 +422,6 @@ This \fIfreeProc\fR function is called when the encoding is deleted. The
\fIclientData\fR parameter is the same as the \fIclientData\fR field
specified to \fBTcl_CreateEncoding\fR when the encoding was created.
.PP
-.VS 8.5
\fBTcl_GetEncodingSearchPath\fR and \fBTcl_SetEncodingSearchPath\fR
are called to access and set the list of filesystem directories searched
for encoding data files.
@@ -465,7 +449,6 @@ list. Since Tcl searches \fIsearchPath\fR for encoding data files in
list order, these routines establish the
.QW default
directory in which to find encoding data files.
-.VE 8.5
.SH "ENCODING FILES"
Space would prohibit precompiling into Tcl every possible encoding
algorithm, so many encodings are stored on disk as dynamically-loadable
@@ -506,6 +489,7 @@ Cases [1], [2], and [3] are collectively referred to as table-based encoding
files. The lines in a table-based encoding file are in the same
format as this example taken from the \fBshiftjis\fR encoding (this is not
the complete file):
+.PP
.CS
# Encoding file: shiftjis, multi-byte
M
@@ -571,6 +555,7 @@ If all characters on a page would map to 0000, that page can be omitted.
Case [4] is the escape-sequence encoding file. The lines in an this type of
file are in the same format as this example taken from the \fBiso2022-jp\fR
encoding:
+.PP
.CS
.ta 1.5i
# Encoding file: iso2022-jp, escape-driven
diff --git a/doc/Ensemble.3 b/doc/Ensemble.3
index bc743c2..cd69bbd 100644
--- a/doc/Ensemble.3
+++ b/doc/Ensemble.3
@@ -10,7 +10,7 @@
.TH Tcl_Ensemble 3 8.5 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_CreateEnsemble, Tcl_FindEnsemble, Tcl_GetEnsembleFlags, Tcl_GetEnsembleMappingDict, Tcl_GetEnsembleNamespace, Tcl_GetEnsembleUnknownHandler, Tcl_GetEnsembleSubcommandList, Tcl_IsEnsemble, Tcl_SetEnsembleFlags, Tcl_SetEnsembleMappingDict, Tcl_SetEnsembleSubcommandList, Tcl_SetEnsembleUnknownHandler \- manipulate ensemble commands
+Tcl_CreateEnsemble, Tcl_FindEnsemble, Tcl_GetEnsembleFlags, Tcl_GetEnsembleMappingDict, Tcl_GetEnsembleNamespace, Tcl_GetEnsembleParameterList, Tcl_GetEnsembleUnknownHandler, Tcl_GetEnsembleSubcommandList, Tcl_IsEnsemble, Tcl_SetEnsembleFlags, Tcl_SetEnsembleMappingDict, Tcl_SetEnsembleParameterList, Tcl_SetEnsembleSubcommandList, Tcl_SetEnsembleUnknownHandler \- manipulate ensemble commands
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -36,6 +36,14 @@ int
int
\fBTcl_SetEnsembleMappingDict\fR(\fIinterp, token, dictObj\fR)
.sp
+.VS 8.6
+int
+\fBTcl_GetEnsembleParameterList\fR(\fIinterp, token, listObjPtr\fR)
+.sp
+int
+\fBTcl_SetEnsembleParameterList\fR(\fIinterp, token, listObj\fR)
+.VE 8.6
+.sp
int
\fBTcl_GetEnsembleSubcommandList\fR(\fIinterp, token, listObjPtr\fR)
.sp
@@ -64,20 +72,20 @@ The namespace to which the ensemble command is to be bound, or NULL
for the current namespace.
.AP int ensFlags in
An ORed set of flag bits describing the basic configuration of the
-ensemble. Currently only one bit has meaning, TCL_ENSEMBLE_PREFIX,
+ensemble. Currently only one bit has meaning, \fBTCL_ENSEMBLE_PREFIX\fR,
which is present when the ensemble command should also match
unambiguous prefixes of subcommands.
.AP Tcl_Obj *cmdNameObj in
A value holding the name of the ensemble command to look up.
.AP int flags in
An ORed set of flag bits controlling the behavior of
-\fBTcl_FindEnsemble\fR. Currently only TCL_LEAVE_ERR_MSG is supported.
+\fBTcl_FindEnsemble\fR. Currently only \fBTCL_LEAVE_ERR_MSG\fR is supported.
.AP Tcl_Command token in
A normal command token that refers to an ensemble command, or which
you wish to use for testing as an ensemble command in \fBTcl_IsEnsemble\fR.
.AP int *ensFlagsPtr out
Pointer to a variable into which to write the current ensemble flag
-bits; currently only the bit TCL_ENSEMBLE_PREFIX is defined.
+bits; currently only the bit \fBTCL_ENSEMBLE_PREFIX\fR is defined.
.AP Tcl_Obj *dictObj in
A dictionary value to use for the subcommand to implementation command
prefix mapping dictionary in the ensemble. May be NULL if the mapping
@@ -86,17 +94,18 @@ dictionary is to be removed.
Pointer to a variable into which to write the current ensemble mapping
dictionary.
.AP Tcl_Obj *listObj in
-A list value to use for the defined list of subcommands in the
-dictionary or the unknown subcommmand handler command prefix. May be
-NULL if the subcommand list or unknown handler are to be removed.
+A list value to use for the list of formal pre-subcommand parameters, the
+defined list of subcommands in the dictionary or the unknown subcommand
+handler command prefix. May be NULL if the subcommand list or unknown handler
+are to be removed.
.AP Tcl_Obj **listObjPtr out
-Pointer to a variable into which to write the current defiend list of
-subcommands or the current unknown handler prefix.
+Pointer to a variable into which to write the current list of formal
+pre-subcommand parameters, the defined list of subcommands or the current
+unknown handler prefix.
.AP Tcl_Namespace **namespacePtrPtr out
Pointer to a variable into which to write the handle of the namespace
to which the ensemble is bound.
.BE
-
.SH DESCRIPTION
An ensemble is a command, bound to some namespace, which consists of a
collection of subcommands implemented by other Tcl commands. The first
@@ -108,13 +117,13 @@ arguments: the interpreter to work within, the name of the ensemble to
create, the namespace within the interpreter to bind the ensemble to,
and the default set of ensemble flags. The result of the function is
the command token for the ensemble, which may be used to further
-configure the ensemble using the API described below in \fBENSEMBLE
-PROPERTIES\fR.
+configure the ensemble using the API described below in
+\fBENSEMBLE PROPERTIES\fR.
.PP
Given the name of an ensemble command, the token for that command may
be retrieved using \fBTcl_FindEnsemble\fR. If the given command name
(in \fIcmdNameObj\fR) does not refer to an ensemble command, the
-result of the function is NULL and (if the TCL_LEAVE_ERR_MSG bit is
+result of the function is NULL and (if the \fBTCL_LEAVE_ERR_MSG\fR bit is
set in \fIflags\fR) an error message is left in the interpreter
result.
.PP
@@ -126,16 +135,18 @@ Every ensemble has four read-write properties and a read-only
property. The properties are:
.TP
\fBflags\fR (read-write)
+.
The set of flags for the ensemble, expressed as a
-bit-field. Currently, the only public flag is TCL_ENSEMBLE_PREFIX
+bit-field. Currently, the only public flag is \fBTCL_ENSEMBLE_PREFIX\fR
which is set when unambiguous prefixes of subcommands are permitted to
be resolved to implementations as well as exact matches. The flags may
be read and written using \fBTcl_GetEnsembleFlags\fR and
\fBTcl_SetEnsembleFlags\fR respectively. The result of both of those
-functions is a Tcl result code (TCL_OK, or TCL_ERROR if the token does
-not refer to an ensemble).
+functions is a Tcl result code (\fBTCL_OK\fR, or \fBTCL_ERROR\fR if
+the token does not refer to an ensemble).
.TP
\fBmapping dictionary\fR (read-write)
+.
A dictionary containing a mapping from subcommand names to lists of
words to use as a command prefix (replacing the first two words of the
command which are the ensemble command itself and the subcommand
@@ -144,26 +155,43 @@ the same unqualified name in the ensemble's bound namespace. Defaults
to NULL. May be read and written using
\fBTcl_GetEnsembleMappingDict\fR and \fBTcl_SetEnsembleMappingDict\fR
respectively. The result of both of those functions is a Tcl result
-code (TCL_OK, or TCL_ERROR if the token does not refer to an
+code (\fBTCL_OK\fR, or \fBTCL_ERROR\fR if the token does not refer to an
ensemble) and the dictionary obtained from
\fBTcl_GetEnsembleMappingDict\fR should always be treated as immutable
even if it is unshared.
All command names in prefixes set via \fBTcl_SetEnsembleMappingDict\fR
must be fully qualified.
.TP
+\fBformal pre-subcommand parameter list\fR (read-write)
+.VS 8.6
+A list of formal parameter names (the names only being used when generating
+error messages) that come at invocation of the ensemble between the name of
+the ensemble and the subcommand argument. NULL (the default) is equivalent to
+the empty list. May be read and written using
+\fBTcl_GetEnsembleParameterList\fR and \fBTcl_SetEnsembleParameterList\fR
+respectively. The result of both of those functions is a Tcl result code
+(\fBTCL_OK\fR, or \fBTCL_ERROR\fR if the token does not refer to an
+ensemble) and the
+dictionary obtained from \fBTcl_GetEnsembleParameterList\fR should always be
+treated as immutable even if it is unshared.
+.VE 8.6
+.TP
\fBsubcommand list\fR (read-write)
+.
A list of all the subcommand names for the ensemble, or NULL if this
is to be derived from either the keys of the mapping dictionary (see
above) or (if that is also NULL) from the set of commands exported by
the bound namespace. May be read and written using
\fBTcl_GetEnsembleSubcommandList\fR and
\fBTcl_SetEnsembleSubcommandList\fR respectively. The result of both
-of those functions is a Tcl result code (TCL_OK, or TCL_ERROR if the
+of those functions is a Tcl result code (\fBTCL_OK\fR, or
+\fBTCL_ERROR\fR if the
token does not refer to an ensemble) and the list obtained from
\fBTcl_GetEnsembleSubcommandList\fR should always be treated as
immutable even if it is unshared.
.TP
\fBunknown subcommand handler command prefix\fR (read-write)
+.
A list of words to prepend on the front of any subcommand when the
subcommand is unknown to the ensemble (according to the current prefix
handling rule); see the \fBnamespace ensemble\fR command for more
@@ -171,18 +199,21 @@ details. If NULL, the default behavior \- generate a suitable error
message \- will be used when an unknown subcommand is encountered. May
be read and written using \fBTcl_GetEnsembleUnknownHandler\fR and
\fBTcl_SetEnsembleUnknownHandler\fR respectively. The result of both
-functions is a Tcl result code (TCL_OK, or TCL_ERROR if the token does
+functions is a Tcl result code (\fBTCL_OK\fR, or \fBTCL_ERROR\fR if
+the token does
not refer to an ensemble) and the list obtained from
\fBTcl_GetEnsembleUnknownHandler\fR should always be treated as
immutable even if it is unshared.
.TP
\fBbound namespace\fR (read-only)
+.
The namespace to which the ensemble is bound; when the namespace is
deleted, so too will the ensemble, and this namespace is also the
namespace whose list of exported commands is used if both the mapping
dictionary and the subcommand list properties are NULL. May be read
using \fBTcl_GetEnsembleNamespace\fR which returns a Tcl result code
-(TCL_OK, or TCL_ERROR if the token does not refer to an ensemble).
-
+(\fBTCL_OK\fR, or \fBTCL_ERROR\fR if the token does not refer to an ensemble).
.SH "SEE ALSO"
namespace(n), Tcl_DeleteCommandFromToken(3)
+.SH KEYWORDS
+command, ensemble
diff --git a/doc/Environment.3 b/doc/Environment.3
index 3753f43..46262ab 100644
--- a/doc/Environment.3
+++ b/doc/Environment.3
@@ -33,6 +33,6 @@ Tcl-based applications using \fBputenv\fR should redefine it to
\fBTcl_PutEnv\fR so that they will interface properly to the Tcl
runtime.
.SH "SEE ALSO"
-tclvars(n)
+env(n)
.SH KEYWORDS
environment, variable
diff --git a/doc/Eval.3 b/doc/Eval.3
index f232cad..0ecf7fa 100644
--- a/doc/Eval.3
+++ b/doc/Eval.3
@@ -47,17 +47,17 @@ int
Interpreter in which to execute the script. The interpreter's result is
modified to hold the result or error message from the script.
.AP Tcl_Obj *objPtr in
-A Tcl object containing the script to execute.
+A Tcl value containing the script to execute.
.AP int flags in
ORed combination of flag bits that specify additional options.
\fBTCL_EVAL_GLOBAL\fR and \fBTCL_EVAL_DIRECT\fR are currently supported.
.AP "const char" *fileName in
Name of a file containing a Tcl script.
.AP int objc in
-The number of objects in the array pointed to by \fIobjPtr\fR;
+The number of values in the array pointed to by \fIobjPtr\fR;
this is also the number of words in the command.
.AP Tcl_Obj **objv in
-Points to an array of pointers to objects; each object holds the
+Points to an array of pointers to values; each value holds the
value of a single word in the command to execute.
.AP int numBytes in
The number of bytes in \fIscript\fR, not including any
@@ -83,7 +83,7 @@ If this is the first time \fIobjPtr\fR has been executed,
its commands are compiled into bytecode instructions
which are then executed. The
bytecodes are saved in \fIobjPtr\fR so that the compilation step
-can be skipped if the object is evaluated again in the future.
+can be skipped if the value is evaluated again in the future.
.PP
The return value from \fBTcl_EvalObjEx\fR (and all the other procedures
described here) is a Tcl completion code with
@@ -111,15 +111,15 @@ which will be safely substituted by the Tcl interpreter into
.PP
\fBTcl_EvalObjv\fR executes a single pre-parsed command instead of a
script. The \fIobjc\fR and \fIobjv\fR arguments contain the values
-of the words for the Tcl command, one word in each object in
+of the words for the Tcl command, one word in each value in
\fIobjv\fR. \fBTcl_EvalObjv\fR evaluates the command and returns
a completion code and result just like \fBTcl_EvalObjEx\fR.
The caller of \fBTcl_EvalObjv\fR has to manage the reference count of the
-elements of \fIobjv\fR, insuring that the objects are valid until
+elements of \fIobjv\fR, insuring that the values are valid until
\fBTcl_EvalObjv\fR returns.
.PP
\fBTcl_Eval\fR is similar to \fBTcl_EvalObjEx\fR except that the script to
-be executed is supplied as a string instead of an object and no compilation
+be executed is supplied as a string instead of a value and no compilation
occurs. The string should be a proper UTF-8 string as converted by
\fBTcl_ExternalToUtfDString\fR or \fBTcl_ExternalToUtf\fR when it is known
to possibly contain upper ASCII characters whose possible combinations
@@ -129,7 +129,7 @@ bytecodes. In situations where it is known that the script will never be
executed again, \fBTcl_Eval\fR may be faster than \fBTcl_EvalObjEx\fR.
\fBTcl_Eval\fR returns a completion code and result just like
\fBTcl_EvalObjEx\fR. Note: for backward compatibility with versions before
-Tcl 8.0, \fBTcl_Eval\fR copies the object result in \fIinterp\fR to
+Tcl 8.0, \fBTcl_Eval\fR copies the value result in \fIinterp\fR to
\fIinterp->result\fR (use is deprecated) where it can be accessed directly.
This makes \fBTcl_Eval\fR somewhat slower than \fBTcl_EvalEx\fR, which
does not do the copy.
@@ -159,24 +159,27 @@ instead of taking a variable number of arguments it takes an argument
list. Like \fBTcl_VarEval\fR, \fBTcl_VarEvalVA\fR is deprecated.
.SH "FLAG BITS"
+.PP
Any ORed combination of the following values may be used for the
\fIflags\fR argument to procedures such as \fBTcl_EvalObjEx\fR:
.TP 23
\fBTCL_EVAL_DIRECT\fR
+.
This flag is only used by \fBTcl_EvalObjEx\fR; it is ignored by
other procedures. If this flag bit is set, the script is not
compiled to bytecodes; instead it is executed directly
as is done by \fBTcl_EvalEx\fR. The
\fBTCL_EVAL_DIRECT\fR flag is useful in situations where the
-contents of an object are going to change immediately, so the
+contents of a value are going to change immediately, so the
bytecodes will not be reused in a future execution. In this case,
it is faster to execute the script directly.
.TP 23
\fBTCL_EVAL_GLOBAL\fR
+.
If this flag is set, the script is processed at global level. This
means that it is evaluated in the global namespace and its variable
context consists of global variables only (it ignores any Tcl
-procedures at are active).
+procedures that are active).
.SH "MISCELLANEOUS DETAILS"
.PP
@@ -205,4 +208,4 @@ This means that top-level applications should never see a return code
from \fBTcl_EvalObjEx\fR other then \fBTCL_OK\fR or \fBTCL_ERROR\fR.
.SH KEYWORDS
-execute, file, global, object, result, script
+execute, file, global, result, script, value
diff --git a/doc/Exit.3 b/doc/Exit.3
index aa69b47..fd251c7 100644
--- a/doc/Exit.3
+++ b/doc/Exit.3
@@ -29,10 +29,8 @@ Tcl_Exit, Tcl_Finalize, Tcl_CreateExitHandler, Tcl_DeleteExitHandler, Tcl_ExitTh
.sp
\fBTcl_DeleteThreadExitHandler\fR(\fIproc, clientData\fR)
.sp
-.VS 8.5
Tcl_ExitProc *
\fBTcl_SetExitProc\fR(\fIproc\fR)
-.VE 8.5
.SH ARGUMENTS
.AS Tcl_ExitProc clientData
.AP int status in
@@ -64,24 +62,18 @@ otherwise causes the application to terminate without calling
\fBTcl_Exit\fR, the exit handlers will not be run.
\fBTcl_Exit\fR internally invokes the \fBexit\fR system call, thus it never
returns control to its caller.
-.VS 8.5
If an application exit handler has been installed (see
\fBTcl_SetExitProc\fR), that handler is invoked with an argument
consisting of the exit status (cast to ClientData); the application
exit handler should not return control to Tcl.
-.VE 8.5
.PP
\fBTcl_Finalize\fR is similar to \fBTcl_Exit\fR except that it does not
exit from the current process.
It is useful for cleaning up when a process is finished using \fBTcl\fR but
wishes to continue executing, and when \fBTcl\fR is used in a dynamically
loaded extension that is about to be unloaded.
-On some systems \fBTcl\fR is automatically notified when it is being
-unloaded, and it calls \fBTcl_Finalize\fR internally; on these systems it
-not necessary for the caller to explicitly call \fBTcl_Finalize\fR.
-However, to ensure portability, your code should always invoke
-\fBTcl_Finalize\fR when \fBTcl\fR is being unloaded, to ensure that the
-code will work on all platforms. \fBTcl_Finalize\fR can be safely called
+Your code should always invoke \fBTcl_Finalize\fR when \fBTcl\fR is being
+unloaded, to ensure proper cleanup. \fBTcl_Finalize\fR can be safely called
more than once.
.PP
\fBTcl_ExitThread\fR is used to terminate the current thread and invoke
@@ -98,9 +90,12 @@ by \fBTcl_FinalizeThread\fR and \fBTcl_ExitThread\fR.
This provides a hook for cleanup operations such as flushing buffers
and freeing global memory.
\fIProc\fR should match the type \fBTcl_ExitProc\fR:
+.PP
.CS
-typedef void Tcl_ExitProc(ClientData \fIclientData\fR);
+typedef void \fBTcl_ExitProc\fR(
+ ClientData \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR parameter to \fIproc\fR is a
copy of the \fIclientData\fR argument given to
\fBTcl_CreateExitHandler\fR or \fBTcl_CreateThreadExitHandler\fR when
@@ -116,7 +111,6 @@ indicated by \fIproc\fR and \fIclientData\fR so that no call
to \fIproc\fR will be made. If no such handler exists then
\fBTcl_DeleteExitHandler\fR or \fBTcl_DeleteThreadExitHandler\fR does nothing.
.PP
-.PP
\fBTcl_Finalize\fR and \fBTcl_Exit\fR execute all registered exit handlers,
in reverse order from the order in which they were registered.
This matches the natural order in which extensions are loaded and unloaded;
@@ -132,7 +126,6 @@ the process-wide exit handlers. This is because thread finalization shuts
down the I/O channel system, so any attempt at I/O by the global exit
handlers will vanish into the bitbucket.
.PP
-.VS 8.5
\fBTcl_SetExitProc\fR installs an application exit handler, returning
the previously-installed application exit handler or NULL if no
application handler was installed. If an application exit handler is
@@ -141,7 +134,7 @@ finalization of Tcl's subsystems via \fBTcl_Finalize\fR at an
appropriate time. The argument passed to \fIproc\fR when it is
invoked will be the exit status code (as passed to \fBTcl_Exit\fR)
cast to a ClientData value.
-.VE 8.5
-
+.SH "SEE ALSO"
+exit(n)
.SH KEYWORDS
-callback, cleanup, dynamic loading, end application, exit, unloading, thread
+abort, callback, cleanup, dynamic loading, end application, exit, unloading, thread
diff --git a/doc/ExprLong.3 b/doc/ExprLong.3
index ef93284..4fa972e 100644
--- a/doc/ExprLong.3
+++ b/doc/ExprLong.3
@@ -49,11 +49,11 @@ given by the \fIexpr\fR argument
and return the result in one of four different forms.
The expression can have any of the forms accepted by the \fBexpr\fR command.
Note that these procedures have been largely replaced by the
-object-based procedures \fBTcl_ExprLongObj\fR, \fBTcl_ExprDoubleObj\fR,
+value-based procedures \fBTcl_ExprLongObj\fR, \fBTcl_ExprDoubleObj\fR,
\fBTcl_ExprBooleanObj\fR, and \fBTcl_ExprObj\fR.
-Those object-based procedures evaluate an expression held in a Tcl object
+Those value-based procedures evaluate an expression held in a Tcl value
instead of a string.
-The object argument can retain an internal representation
+The value argument can retain an internal representation
that is more efficient to execute.
.PP
The \fIinterp\fR argument refers to an interpreter used to
@@ -103,4 +103,4 @@ string stored in the interpreter's result.
Tcl_ExprLongObj, Tcl_ExprDoubleObj, Tcl_ExprBooleanObj, Tcl_ExprObj
.SH KEYWORDS
-boolean, double, evaluate, expression, integer, object, string
+boolean, double, evaluate, expression, integer, value, string
diff --git a/doc/ExprLongObj.3 b/doc/ExprLongObj.3
index c8a564d..686c1cb 100644
--- a/doc/ExprLongObj.3
+++ b/doc/ExprLongObj.3
@@ -29,7 +29,7 @@ int
.AP Tcl_Interp *interp in
Interpreter in whose context to evaluate \fIobjPtr\fR.
.AP Tcl_Obj *objPtr in
-Pointer to an object containing the expression to evaluate.
+Pointer to a value containing the expression to evaluate.
.AP long *longPtr out
Pointer to location in which to store the integer value of the
expression.
@@ -40,7 +40,7 @@ expression.
Pointer to location in which to store the 0/1 boolean value of the
expression.
.AP Tcl_Obj **resultPtrPtr out
-Pointer to location in which to store a pointer to the object
+Pointer to location in which to store a pointer to the value
that is the result of the expression.
.BE
@@ -93,14 +93,14 @@ or
or else an error occurs.
.PP
If \fBTcl_ExprObj\fR successfully evaluates the expression,
-it stores a pointer to the Tcl object
+it stores a pointer to the Tcl value
containing the expression's value at \fI*resultPtrPtr\fR.
In this case, the caller is responsible for calling
-\fBTcl_DecrRefCount\fR to decrement the object's reference count
-when it is finished with the object.
+\fBTcl_DecrRefCount\fR to decrement the value's reference count
+when it is finished with the value.
.SH "SEE ALSO"
Tcl_ExprLong, Tcl_ExprDouble, Tcl_ExprBoolean, Tcl_ExprString, Tcl_GetObjResult
.SH KEYWORDS
-boolean, double, evaluate, expression, integer, object, string
+boolean, double, evaluate, expression, integer, value, string
diff --git a/doc/FileSystem.3 b/doc/FileSystem.3
index c4a28c2..dd9eb77 100644
--- a/doc/FileSystem.3
+++ b/doc/FileSystem.3
@@ -1,5 +1,6 @@
'\"
'\" Copyright (c) 2001 Vincent Darley
+'\" Copyright (c) 2008-2010 Donal K. Fellows
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
@@ -8,7 +9,7 @@
.TH Filesystem 3 8.4 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_FSRegister, Tcl_FSUnregister, Tcl_FSData, Tcl_FSMountsChanged, Tcl_FSGetFileSystemForPath, Tcl_FSGetPathType, Tcl_FSCopyFile, Tcl_FSCopyDirectory, Tcl_FSCreateDirectory, Tcl_FSDeleteFile, Tcl_FSRemoveDirectory, Tcl_FSRenameFile, Tcl_FSListVolumes, Tcl_FSEvalFile, Tcl_FSEvalFileEx, Tcl_FSLoadFile, Tcl_FSMatchInDirectory, Tcl_FSLink, Tcl_FSLstat, Tcl_FSUtime, Tcl_FSFileAttrsGet, Tcl_FSFileAttrsSet, Tcl_FSFileAttrStrings, Tcl_FSStat, Tcl_FSAccess, Tcl_FSOpenFileChannel, Tcl_FSGetCwd, Tcl_FSChdir, Tcl_FSPathSeparator, Tcl_FSJoinPath, Tcl_FSSplitPath, Tcl_FSEqualPaths, Tcl_FSGetNormalizedPath, Tcl_FSJoinToPath, Tcl_FSConvertToPathType, Tcl_FSGetInternalRep, Tcl_FSGetTranslatedPath, Tcl_FSGetTranslatedStringPath, Tcl_FSNewNativePath, Tcl_FSGetNativePath, Tcl_FSFileSystemInfo, Tcl_AllocStatBuf \- procedures to interact with any filesystem
+Tcl_FSRegister, Tcl_FSUnregister, Tcl_FSData, Tcl_FSMountsChanged, Tcl_FSGetFileSystemForPath, Tcl_FSGetPathType, Tcl_FSCopyFile, Tcl_FSCopyDirectory, Tcl_FSCreateDirectory, Tcl_FSDeleteFile, Tcl_FSRemoveDirectory, Tcl_FSRenameFile, Tcl_FSListVolumes, Tcl_FSEvalFile, Tcl_FSEvalFileEx, Tcl_FSLoadFile, Tcl_FSUnloadFile, Tcl_FSMatchInDirectory, Tcl_FSLink, Tcl_FSLstat, Tcl_FSUtime, Tcl_FSFileAttrsGet, Tcl_FSFileAttrsSet, Tcl_FSFileAttrStrings, Tcl_FSStat, Tcl_FSAccess, Tcl_FSOpenFileChannel, Tcl_FSGetCwd, Tcl_FSChdir, Tcl_FSPathSeparator, Tcl_FSJoinPath, Tcl_FSSplitPath, Tcl_FSEqualPaths, Tcl_FSGetNormalizedPath, Tcl_FSJoinToPath, Tcl_FSConvertToPathType, Tcl_FSGetInternalRep, Tcl_FSGetTranslatedPath, Tcl_FSGetTranslatedStringPath, Tcl_FSNewNativePath, Tcl_FSGetNativePath, Tcl_FSFileSystemInfo, Tcl_GetAccessTimeFromStat, Tcl_GetBlockSizeFromStat, Tcl_GetBlocksFromStat, Tcl_GetChangeTimeFromStat, Tcl_GetDeviceTypeFromStat, Tcl_GetFSDeviceFromStat, Tcl_GetFSInodeFromStat, Tcl_GetGroupIdFromStat, Tcl_GetLinkCountFromStat, Tcl_GetModeFromStat, Tcl_GetModificationTimeFromStat, Tcl_GetSizeFromStat, Tcl_GetUserIdFromStat, Tcl_AllocStatBuf \- procedures to interact with any filesystem
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -25,7 +26,7 @@ ClientData
void
\fBTcl_FSMountsChanged\fR(\fIfsPtr\fR)
.sp
-Tcl_Filesystem*
+const Tcl_Filesystem *
\fBTcl_FSGetFileSystemForPath\fR(\fIpathPtr\fR)
.sp
Tcl_PathType
@@ -49,25 +50,28 @@ int
int
\fBTcl_FSRenameFile\fR(\fIsrcPathPtr, destPathPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSListVolumes\fR(\fIvoid\fR)
.sp
-.VS 8.5
int
\fBTcl_FSEvalFileEx\fR(\fIinterp, pathPtr, encodingName\fR)
-.VE 8.5
.sp
int
\fBTcl_FSEvalFile\fR(\fIinterp, pathPtr\fR)
.sp
int
\fBTcl_FSLoadFile\fR(\fIinterp, pathPtr, sym1, sym2, proc1Ptr, proc2Ptr,
- handlePtr, unloadProcPtr\fR)
+ loadHandlePtr, unloadProcPtr\fR)
+.sp
+.VS 8.6
+int
+\fBTcl_FSUnloadFile\fR(\fIinterp, loadHandle\fR)
+.VE 8.6
.sp
int
\fBTcl_FSMatchInDirectory\fR(\fIinterp, resultPtr, pathPtr, pattern, types\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSLink\fR(\fIlinkNamePtr, toPtr, linkAction\fR)
.sp
int
@@ -82,7 +86,7 @@ int
int
\fBTcl_FSFileAttrsSet\fR(\fIinterp, int index, pathPtr, Tcl_Obj *objPtr\fR)
.sp
-const char**
+const char *const *
\fBTcl_FSFileAttrStrings\fR(\fIpathPtr, objPtrRef\fR)
.sp
int
@@ -94,28 +98,28 @@ int
Tcl_Channel
\fBTcl_FSOpenFileChannel\fR(\fIinterp, pathPtr, modeString, permissions\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSGetCwd\fR(\fIinterp\fR)
.sp
int
\fBTcl_FSChdir\fR(\fIpathPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSPathSeparator\fR(\fIpathPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSJoinPath\fR(\fIlistObj, elements\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSSplitPath\fR(\fIpathPtr, lenPtr\fR)
.sp
int
\fBTcl_FSEqualPaths\fR(\fIfirstPtr, secondPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSGetNormalizedPath\fR(\fIinterp, pathPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSJoinToPath\fR(\fIbasePtr, objc, objv\fR)
.sp
int
@@ -130,25 +134,66 @@ Tcl_Obj *
const char *
\fBTcl_FSGetTranslatedStringPath\fR(\fIinterp, pathPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSNewNativePath\fR(\fIfsPtr, clientData\fR)
.sp
-const char *
+const void *
\fBTcl_FSGetNativePath\fR(\fIpathPtr\fR)
.sp
-Tcl_Obj*
+Tcl_Obj *
\fBTcl_FSFileSystemInfo\fR(\fIpathPtr\fR)
.sp
-Tcl_StatBuf*
+Tcl_StatBuf *
\fBTcl_AllocStatBuf\fR()
+.sp
+.VS 8.6
+Tcl_WideInt
+\fBTcl_GetAccessTimeFromStat\fR(\fIstatPtr\fR)
+.sp
+unsigned
+\fBTcl_GetBlockSizeFromStat\fR(\fIstatPtr\fR)
+.sp
+Tcl_WideUInt
+\fBTcl_GetBlocksFromStat\fR(\fIstatPtr\fR)
+.sp
+Tcl_WideInt
+\fBTcl_GetChangeTimeFromStat\fR(\fIstatPtr\fR)
+.sp
+int
+\fBTcl_GetDeviceTypeFromStat\fR(\fIstatPtr\fR)
+.sp
+unsigned
+\fBTcl_GetFSDeviceFromStat\fR(\fIstatPtr\fR)
+.sp
+unsigned
+\fBTcl_GetFSInodeFromStat\fR(\fIstatPtr\fR)
+.sp
+int
+\fBTcl_GetGroupIdFromStat\fR(\fIstatPtr\fR)
+.sp
+int
+\fBTcl_GetLinkCountFromStat\fR(\fIstatPtr\fR)
+.sp
+unsigned
+\fBTcl_GetModeFromStat\fR(\fIstatPtr\fR)
+.sp
+Tcl_WideInt
+\fBTcl_GetModificationTimeFromStat\fR(\fIstatPtr\fR)
+.sp
+Tcl_WideUInt
+\fBTcl_GetSizeFromStat\fR(\fIstatPtr\fR)
+.sp
+int
+\fBTcl_GetUserIdFromStat\fR(\fIstatPtr\fR)
+.VE 8.6
.SH ARGUMENTS
-.AS Tcl_FSUnloadFileProc **unloadProcPtr out
-.AP Tcl_Filesystem *fsPtr in
+.AS Tcl_GlobTypeData **srcPathPtr out
+.AP "const Tcl_Filesystem" *fsPtr in
Points to a structure containing the addresses of procedures that
can be called to perform the various filesystem operations.
.AP Tcl_Obj *pathPtr in
-The path represented by this object is used for the operation in
-question. If the object does not already have an internal \fBpath\fR
+The path represented by this value is used for the operation in
+question. If the value does not already have an internal \fBpath\fR
representation, it will be converted to have one.
.AP Tcl_Obj *srcPathPtr in
As for \fIpathPtr\fR, but used for the source file for a copy or
@@ -163,36 +208,36 @@ file identified by \fIpathPtr\fR and to be evaluated.
Only files or directories matching this pattern will be returned.
.AP Tcl_GlobTypeData *types in
Only files or directories matching the type descriptions contained in
-this structure will be returned. This parameter may be NULL.
+this structure will be returned. This parameter may be NULL.
.AP Tcl_Interp *interp in
Interpreter to use either for results, evaluation, or reporting error
messages.
.AP ClientData clientData in
-The native description of the path object to create.
+The native description of the path value to create.
.AP Tcl_Obj *firstPtr in
-The first of two path objects to compare. The object may be converted
+The first of two path values to compare. The value may be converted
to \fBpath\fR type.
.AP Tcl_Obj *secondPtr in
-The second of two path objects to compare. The object may be converted
+The second of two path values to compare. The value may be converted
to \fBpath\fR type.
.AP Tcl_Obj *listObj in
The list of path elements to operate on with a \fBjoin\fR operation.
.AP int elements in
If non-negative, the number of elements in the \fIlistObj\fR which should
-be joined together. If negative, then all elements are joined.
+be joined together. If negative, then all elements are joined.
.AP Tcl_Obj **errorPtr out
-In the case of an error, filled with an object containing the name of
+In the case of an error, filled with a value containing the name of
the file which caused an error in the various copy/rename operations.
.AP Tcl_Obj **objPtrRef out
-Filled with an object containing the result of the operation.
+Filled with a value containing the result of the operation.
.AP Tcl_Obj *resultPtr out
-Pre-allocated object in which to store (using
+Pre-allocated value in which to store (using
\fBTcl_ListObjAppendElement\fR) the list of
files or directories which are successfully matched.
.AP int mode in
-Mask consisting of one or more of R_OK, W_OK, X_OK and F_OK. R_OK,
+Mask consisting of one or more of R_OK, W_OK, X_OK and F_OK. R_OK,
W_OK and X_OK request checking whether the file exists and has read,
-write and execute permissions, respectively. F_OK just requests
+write and execute permissions, respectively. F_OK just requests
checking for the existence of the file.
.AP Tcl_StatBuf *statPtr out
The structure that contains the result of a stat or lstat operation.
@@ -207,23 +252,25 @@ Filled with the safe-init function for this code.
.AP ClientData *clientDataPtr out
Filled with the clientData value to pass to this code's unload
function when it is called.
-.AP Tcl_LoadHandle *handlePtr out
+.AP Tcl_LoadHandle *loadHandlePtr out
Filled with an abstract token representing the loaded file.
.AP Tcl_FSUnloadFileProc **unloadProcPtr out
Filled with the function to use to unload this piece of code.
+.AP Tcl_LoadHandle loadHandle in
+Handle to the loaded library to be unloaded.
.AP utimbuf *tval in
The access and modification times in this structure are read and
used to set those values for a given file.
.AP "const char" *modeString in
-Specifies how the file is to be accessed. May have any of the values
+Specifies how the file is to be accessed. May have any of the values
allowed for the \fImode\fR argument to the Tcl \fBopen\fR command.
.AP int permissions in
-POSIX-style permission flags such as 0644. If a new file is created, these
+POSIX-style permission flags such as 0644. If a new file is created, these
permissions will be set on the created file.
.AP int *lenPtr out
If non-NULL, filled with the number of elements in the split path.
.AP Tcl_Obj *basePtr in
-The base path on to which to join the given elements. May be NULL.
+The base path on to which to join the given elements. May be NULL.
.AP int objc in
The number of elements in \fIobjv\fR.
.AP "Tcl_Obj *const" objv[] in
@@ -240,31 +287,30 @@ are \fBTCL_CREATE_SYMBOLIC_LINK\fR and \fBTCL_CREATE_HARD_LINK\fR.
When both flags are set and the underlying filesystem can do either,
symbolic links are preferred.
.BE
-
.SH DESCRIPTION
.PP
There are several reasons for calling the \fBTcl_FS\fR API functions
-(e.g. \fBTcl_FSAccess\fR and \fBTcl_FSStat\fR)
+(e.g.\ \fBTcl_FSAccess\fR and \fBTcl_FSStat\fR)
rather than calling system level functions like \fBaccess\fR and
-\fBstat\fR directly. First, they will work cross-platform, so an
+\fBstat\fR directly. First, they will work cross-platform, so an
extension which calls them should work unmodified on Unix and
-Windows. Second, the Windows implementation of some of these functions
-fixes some bugs in the system level calls. Third, these function calls
+Windows. Second, the Windows implementation of some of these functions
+fixes some bugs in the system level calls. Third, these function calls
deal with any
.QW "Utf to platform-native"
path conversions which may be
required (and may cache the results of such conversions for greater
-efficiency on subsequent calls). Fourth, and perhaps most importantly,
+efficiency on subsequent calls). Fourth, and perhaps most importantly,
all of these functions are
.QW "virtual filesystem aware" .
Any virtual filesystem (VFS for short) which has been registered (through
\fBTcl_FSRegister\fR) may reroute file access to alternative
-media or access methods. This means that all of these functions (and
+media or access methods. This means that all of these functions (and
therefore the corresponding \fBfile\fR, \fBglob\fR, \fBpwd\fR, \fBcd\fR,
-\fBopen\fR, etc. Tcl commands) may be operate on
+\fBopen\fR, etc.\ Tcl commands) may be operate on
.QW files
which are not
-native files in the native filesystem. This also means that any Tcl
+native files in the native filesystem. This also means that any Tcl
extension which accesses the filesystem (FS for short) through this API is
automatically
.QW "virtual filesystem aware" .
@@ -275,43 +321,45 @@ APIs, for example), then Tcl cannot intercept such calls.
If appropriate VFSes have been registered, the
.QW files
may, to give two
-examples, be remote (e.g. situated on a remote ftp server) or archived
-(e.g. lying inside a .zip archive). Such registered filesystems provide
+examples, be remote (e.g.\ situated on a remote ftp server) or archived
+(e.g.\ lying inside a .zip archive). Such registered filesystems provide
a lookup table of functions to implement all or some of the functionality
-listed here. Finally, the \fBTcl_FSStat\fR and \fBTcl_FSLstat\fR calls
+listed here. Finally, the \fBTcl_FSStat\fR and \fBTcl_FSLstat\fR calls
abstract away from what the
.QW "struct stat"
buffer is actually
declared to be, allowing the same code to be used both on systems with
and systems without support for files larger than 2GB in size.
.PP
-The \fBTcl_FS\fR API is objectified and may cache internal
-representations and other path-related strings (e.g. the current working
-directory). One side-effect of this is that one must not pass in objects
-with a reference count of zero to any of these functions. If such calls were
+The \fBTcl_FS\fR API is \fBTcl_Obj\fR-ified and may cache internal
+representations and other path-related strings (e.g.\ the current working
+directory). One side-effect of this is that one must not pass in values
+with a reference count of zero to any of these functions. If such calls were
handled, they might result
in memory leaks (under some circumstances, the filesystem code may wish
-to retain a reference to the passed in object, and so one must not assume
-that after any of these calls return, the object still has a reference count of
+to retain a reference to the passed in value, and so one must not assume
+that after any of these calls return, the value still has a reference count of
zero - it may have been incremented) or in a direct segmentation fault
(or other memory access error)
-due to the object being freed part way through the complex object
+due to the value being freed part way through the complex value
manipulation required to ensure that the path is fully normalized and
-absolute for filesystem determination. The practical lesson to learn
+absolute for filesystem determination. The practical lesson to learn
from this is that
+.PP
.CS
Tcl_Obj *path = Tcl_NewStringObj(...);
Tcl_FS\fIWhatever\fR(path);
Tcl_DecrRefCount(path);
.CE
+.PP
is wrong, and may cause memory errors. The \fIpath\fR must have its
reference count incremented before passing it in, or
-decrementing it. For this reason, objects with a reference count of zero are
+decrementing it. For this reason, values with a reference count of zero are
considered not to be valid filesystem paths and calling any Tcl_FS API
-function with such an object will result in no action being taken.
+function with such a value will result in no action being taken.
.SS "FS API FUNCTIONS"
\fBTcl_FSCopyFile\fR attempts to copy the file given by \fIsrcPathPtr\fR to the
-path name given by \fIdestPathPtr\fR. If the two paths given lie in the same
+path name given by \fIdestPathPtr\fR. If the two paths given lie in the same
filesystem (according to \fBTcl_FSGetFileSystemForPath\fR) then that
filesystem's
.QW "copy file"
@@ -323,7 +371,7 @@ POSIX error code (which signifies a
.QW "cross-domain link" ).
.PP
\fBTcl_FSCopyDirectory\fR attempts to copy the directory given by \fIsrcPathPtr\fR to the
-path name given by \fIdestPathPtr\fR. If the two paths given lie in the same
+path name given by \fIdestPathPtr\fR. If the two paths given lie in the same
filesystem (according to \fBTcl_FSGetFileSystemForPath\fR) then that
filesystem's
.QW "copy file"
@@ -350,11 +398,11 @@ function.
function.
.PP
\fBTcl_FSRenameFile\fR attempts to rename the file or directory given by
-\fIsrcPathPtr\fR to the path name given by \fIdestPathPtr\fR. If the two paths
+\fIsrcPathPtr\fR to the path name given by \fIdestPathPtr\fR. If the two paths
given lie in the same filesystem (according to
\fBTcl_FSGetFileSystemForPath\fR) then that filesystem's
.QW "rename file"
-function is called (if it is non-NULL). Otherwise the function returns -1
+function is called (if it is non-NULL). Otherwise the function returns -1
and sets the \fBerrno\fR global C variable to the
.QW EXDEV
POSIX error code (which signifies a
@@ -362,14 +410,13 @@ POSIX error code (which signifies a
.PP
\fBTcl_FSListVolumes\fR calls each filesystem which has a non-NULL
.QW "list volumes"
-function and asks them to return their list of root volumes. It
+function and asks them to return their list of root volumes. It
accumulates the return values in a list which is returned to the
caller (with a reference count of 0).
.PP
-.VS 8.5
\fBTcl_FSEvalFileEx\fR reads the file given by \fIpathPtr\fR using
the encoding identified by \fIencodingName\fR and evaluates
-its contents as a Tcl script. It returns the same information as
+its contents as a Tcl script. It returns the same information as
\fBTcl_EvalObjEx\fR.
If \fIencodingName\fR is NULL, the system encoding is used for
reading the file contents.
@@ -389,71 +436,83 @@ which will be safely substituted by the Tcl interpreter into
\fBTcl_FSEvalFile\fR is a simpler version of
\fBTcl_FSEvalFileEx\fR that always uses the system encoding
when reading the file.
-.VE 8.5
.PP
\fBTcl_FSLoadFile\fR dynamically loads a binary code file into memory and
returns the addresses of two procedures within that file, if they are
-defined. The appropriate function for the filesystem to which \fIpathPtr\fR
-belongs will be called. If that filesystem does not implement this
+defined. The appropriate function for the filesystem to which \fIpathPtr\fR
+belongs will be called. If that filesystem does not implement this
function (most virtual filesystems will not, because of OS limitations
in dynamically loading binary code), Tcl will attempt to copy the file
to a temporary directory and load that temporary file.
+.VS 8.6
+\fBTcl_FSUnloadFile\fR reverses the operation, asking for the library
+indicated by the \fIloadHandle\fR to be removed from the process. Note that,
+unlike with the \fBunload\fR command, this does not give the library any
+opportunity to clean up.
+.VE 8.6
.PP
-Returns a standard Tcl completion code. If an error occurs, an error
-message is left in the \fIinterp\fR's result.
+Both the above functions return a standard Tcl completion code. If an error
+occurs, an error message is left in the \fIinterp\fR's result.
+.PP
+.VS 8.6
+The token provided via the variable indicated by \fIloadHandlePtr\fR may be
+used with \fBTcl_FindSymbol\fR.
+.VE 8.6
.PP
\fBTcl_FSMatchInDirectory\fR is used by the globbing code to search a
-directory for all files which match a given pattern. The appropriate
+directory for all files which match a given pattern. The appropriate
function for the filesystem to which \fIpathPtr\fR belongs will be called.
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in globbing. Error messages are placed in interp (unless
+occurred in globbing. Error messages are placed in interp (unless
interp is NULL, which is allowed), but good results are placed in the
resultPtr given.
.PP
Note that the \fBglob\fR code implements recursive patterns internally, so
this function will only ever be passed simple patterns, which can be
-matched using the logic of \fBstring match\fR. To handle recursion, Tcl
+matched using the logic of \fBstring match\fR. To handle recursion, Tcl
will call this function frequently asking only for directories to be
-returned. A special case of being called with a NULL pattern indicates
+returned. A special case of being called with a NULL pattern indicates
that the path needs to be checked only for the correct type.
.PP
\fBTcl_FSLink\fR replaces the library version of \fBreadlink\fR, and
-extends it to support the creation of links. The appropriate function
+extends it to support the creation of links. The appropriate function
for the filesystem to which \fIlinkNamePtr\fR belongs will be called.
.PP
If the \fItoPtr\fR is NULL, a
.QW "read link"
-action is performed. The result
+action is performed. The result
is a Tcl_Obj specifying the contents of the symbolic link given by
-\fIlinkNamePtr\fR, or NULL if the link could not be read. The result is owned
-by the caller, which should call Tcl_DecrRefCount when the result is no
-longer needed. If the \fItoPtr\fR is not NULL, Tcl should create a link
-of one of the types passed in in the \fIlinkAction\fR flag. This flag is
+\fIlinkNamePtr\fR, or NULL if the link could not be read. The result is owned
+by the caller, which should call \fBTcl_DecrRefCount\fR when the result is no
+longer needed. If the \fItoPtr\fR is not NULL, Tcl should create a link
+of one of the types passed in in the \fIlinkAction\fR flag. This flag is
an ORed combination of \fBTCL_CREATE_SYMBOLIC_LINK\fR and \fBTCL_CREATE_HARD_LINK\fR.
-Where a choice exists (i.e. more than one flag is passed in), the Tcl
-convention is to prefer symbolic links. When a link is successfully
+Where a choice exists (i.e.\ more than one flag is passed in), the Tcl
+convention is to prefer symbolic links. When a link is successfully
created, the return value should be \fItoPtr\fR (which is therefore
-already owned by the caller). If unsuccessful, NULL is returned.
+already owned by the caller). If unsuccessful, NULL is returned.
.PP
-\fBTcl_FSLstat\fR fills the stat structure \fIstatPtr\fR with information
-about the specified file. You do not need any access rights to the
+\fBTcl_FSLstat\fR fills the \fITcl_StatBuf\fR structure \fIstatPtr\fR with
+information about the specified file. You do not need any access rights to the
file to get this information but you need search rights to all
-directories named in the path leading to the file. The stat structure
-includes info regarding device, inode (always 0 on Windows),
+directories named in the path leading to the file. The \fITcl_StatBuf\fR
+structure includes info regarding device, inode (always 0 on Windows),
privilege mode, nlink (always 1 on Windows), user id (always 0 on
Windows), group id (always 0 on Windows), rdev (same as device on
Windows), size, last access time, last modification time, and
last metadata change time.
+See \fBPORTABLE STAT RESULT API\fR for a description of how to write
+portable code to allocate and access the \fITcl_StatBuf\fR structure.
.PP
If \fIpath\fR exists, \fBTcl_FSLstat\fR returns 0 and the stat structure
-is filled with data. Otherwise, -1 is returned, and no stat info is
+is filled with data. Otherwise, -1 is returned, and no stat info is
given.
.PP
\fBTcl_FSUtime\fR replaces the library version of utime.
.PP
This returns 0 on success and -1 on error (as per the \fButime\fR
-documentation). If successful, the function
+documentation). If successful, the function
will update the
.QW atime
and
@@ -461,51 +520,53 @@ and
values of the file given.
.PP
\fBTcl_FSFileAttrsGet\fR implements read access for the hookable \fBfile
-attributes\fR subcommand. The appropriate function for the filesystem to
+attributes\fR subcommand. The appropriate function for the filesystem to
which \fIpathPtr\fR belongs will be called.
.PP
-If the result is \fBTCL_OK\fR, then an object was placed in
+If the result is \fBTCL_OK\fR, then a value was placed in
\fIobjPtrRef\fR, which
will only be temporarily valid (unless \fBTcl_IncrRefCount\fR is called).
.PP
\fBTcl_FSFileAttrsSet\fR implements write access for the hookable \fBfile
-attributes\fR subcommand. The appropriate function for the filesystem to
+attributes\fR subcommand. The appropriate function for the filesystem to
which \fIpathPtr\fR belongs will be called.
.PP
\fBTcl_FSFileAttrStrings\fR implements part of the hookable \fBfile
-attributes\fR subcommand. The appropriate function for the filesystem
+attributes\fR subcommand. The appropriate function for the filesystem
to which \fIpathPtr\fR belongs will be called.
.PP
The called procedure may either return an array of strings, or may
-instead return NULL and place a Tcl list into the given \fIobjPtrRef\fR. Tcl
+instead return NULL and place a Tcl list into the given \fIobjPtrRef\fR. Tcl
will take that list and first increment its reference count before using it.
-On completion of that use, Tcl will decrement its reference count. Hence if
+On completion of that use, Tcl will decrement its reference count. Hence if
the list should be disposed of by Tcl when done, it should have a
reference count of zero, and if the list should not be disposed of, the
-filesystem should ensure it retains a reference count to the object.
+filesystem should ensure it retains a reference count to the value.
.PP
\fBTcl_FSAccess\fR checks whether the process would be allowed to read,
write or test for existence of the file (or other filesystem object)
-whose name is \fIpathname\fR. If \fIpathname\fR is a symbolic link on Unix,
+whose name is \fIpathname\fR. If \fIpathname\fR is a symbolic link on Unix,
then permissions of the file referred by this symbolic link are
tested.
.PP
-On success (all requested permissions granted), zero is returned. On
+On success (all requested permissions granted), zero is returned. On
error (at least one bit in mode asked for a permission that is denied,
or some other error occurred), -1 is returned.
.PP
-\fBTcl_FSStat\fR fills the stat structure \fIstatPtr\fR with information
-about the specified file. You do not need any access rights to the
+\fBTcl_FSStat\fR fills the \fITcl_StatBuf\fR structure \fIstatPtr\fR with
+information about the specified file. You do not need any access rights to the
file to get this information but you need search rights to all
-directories named in the path leading to the file. The stat structure
-includes info regarding device, inode (always 0 on Windows),
+directories named in the path leading to the file. The \fITcl_StatBuf\fR
+structure includes info regarding device, inode (always 0 on Windows),
privilege mode, nlink (always 1 on Windows), user id (always 0 on
Windows), group id (always 0 on Windows), rdev (same as device on
Windows), size, last access time, last modification time, and
last metadata change time.
+See \fBPORTABLE STAT RESULT API\fR for a description of how to write
+portable code to allocate and access the \fITcl_StatBuf\fR structure.
.PP
If \fIpath\fR exists, \fBTcl_FSStat\fR returns 0 and the stat structure
-is filled with data. Otherwise, -1 is returned, and no stat info is
+is filled with data. Otherwise, -1 is returned, and no stat info is
given.
.PP
\fBTcl_FSOpenFileChannel\fR opens a file specified by \fIpathPtr\fR and
@@ -522,187 +583,186 @@ leaves an error message in \fIinterp\fR's result after any error.
.PP
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
.PP
\fBTcl_FSGetCwd\fR replaces the library version of \fBgetcwd\fR.
.PP
-It returns the Tcl library's current working directory. This may be
+It returns the Tcl library's current working directory. This may be
different to the native platform's working directory, which happens when
the current working directory is not in the native filesystem.
.PP
The result is a pointer to a Tcl_Obj specifying the current directory,
-or NULL if the current directory could not be determined. If NULL is
+or NULL if the current directory could not be determined. If NULL is
returned, an error message is left in the \fIinterp\fR's result.
.PP
-The result already has its reference count incremented for the caller. When
-it is no longer needed, that reference count should be decremented. This is
+The result already has its reference count incremented for the caller. When
+it is no longer needed, that reference count should be decremented. This is
needed for thread-safety purposes, to allow multiple threads to access
this and related functions, while ensuring the results are always
valid.
.PP
-\fBTcl_FSChdir\fR replaces the library version of \fBchdir\fR. The path is
-normalized and then passed to the filesystem which claims it. If that
+\fBTcl_FSChdir\fR replaces the library version of \fBchdir\fR. The path is
+normalized and then passed to the filesystem which claims it. If that
filesystem does not implement this function, Tcl will fallback to a
combination of \fBstat\fR and \fBaccess\fR to check whether the directory
exists and has appropriate permissions.
.PP
-For results, see \fBchdir\fR documentation. If successful, we keep a
+For results, see \fBchdir\fR documentation. If successful, we keep a
record of the successful path in \fIcwdPathPtr\fR for subsequent calls to
\fBTcl_FSGetCwd\fR.
.PP
\fBTcl_FSPathSeparator\fR returns the separator character to be used for
-most specific element of the path specified by \fIpathPtr\fR (i.e. the last
+most specific element of the path specified by \fIpathPtr\fR (i.e.\ the last
part of the path).
.PP
The separator is returned as a Tcl_Obj containing a string of length
-1. If the path is invalid, NULL is returned.
+1. If the path is invalid, NULL is returned.
.PP
\fBTcl_FSJoinPath\fR takes the given Tcl_Obj, which must be a valid
list (which is allowed to have a reference count of zero), and returns the path
-object given by considering the first \fIelements\fR elements as valid path
+value given by considering the first \fIelements\fR elements as valid path
segments (each path segment may be a complete path, a partial path or
-just a single possible directory or file name). If any path segment is
+just a single possible directory or file name). If any path segment is
actually an absolute path, then all prior path segments are discarded.
If \fIelements\fR is less than 0, we use the entire list.
.PP
-It is possible that the returned object is actually an element
+It is possible that the returned value is actually an element
of the given list, so the caller should be careful to increment the
reference count of the result before freeing the list.
.PP
-The returned object, typically with a reference count of zero (but it
+The returned value, typically with a reference count of zero (but it
could be shared
-under some conditions), contains the joined path. The caller must
-add a reference count to the object before using it. In particular, the
-returned object could be an element of the given list, so freeing the
-list might free the object prematurely if no reference count has been taken.
-If the number of elements is zero, then the returned object will be
+under some conditions), contains the joined path. The caller must
+add a reference count to the value before using it. In particular, the
+returned value could be an element of the given list, so freeing the
+list might free the value prematurely if no reference count has been taken.
+If the number of elements is zero, then the returned value will be
an empty-string Tcl_Obj.
.PP
\fBTcl_FSSplitPath\fR takes the given Tcl_Obj, which should be a valid path,
-and returns a Tcl list object containing each segment of that path as
+and returns a Tcl list value containing each segment of that path as
an element.
-It returns a list object with a reference count of zero. If the
+It returns a list value with a reference count of zero. If the
passed in \fIlenPtr\fR is non-NULL, the variable it points to will be
updated to contain the number of elements in the returned list.
.PP
\fBTcl_FSEqualPaths\fR tests whether the two paths given represent the same
-filesystem object
-.PP
-It returns 1 if the paths are equal, and 0 if they are different. If
+filesystem object.
+It returns 1 if the paths are equal, and 0 if they are different. If
either path is NULL, 0 is always returned.
.PP
\fBTcl_FSGetNormalizedPath\fR this important function attempts to extract
from the given Tcl_Obj a unique normalized path representation, whose
string value can be used as a unique identifier for the file.
.PP
-It returns the normalized path object, owned by Tcl, or NULL if the path
+It returns the normalized path value, owned by Tcl, or NULL if the path
was invalid or could otherwise not be successfully converted.
Extraction of absolute, normalized paths is very efficient (because the
filesystem operates on these representations internally), although the
result when the filesystem contains numerous symbolic links may not be
-the most user-friendly version of a path. The return value is owned by
+the most user-friendly version of a path. The return value is owned by
Tcl and has a lifetime equivalent to that of the \fIpathPtr\fR passed in
(unless that is a relative path, in which case the normalized path
-object may be freed any time the cwd changes) - the caller can of
-course increment the refCount if it wishes to maintain a copy for longer.
+value may be freed any time the cwd changes) - the caller can of
+course increment the reference count if it wishes to maintain a copy for longer.
.PP
-\fBTcl_FSJoinToPath\fR takes the given object, which should usually be a
+\fBTcl_FSJoinToPath\fR takes the given value, which should usually be a
valid path or NULL, and joins onto it the array of paths segments
given.
.PP
-Returns object, typically with refCount of zero (but it could be shared
-under some conditions), containing the joined path. The caller must
-add a refCount to the object before using it. If any of the objects
-passed into this function (pathPtr or path elements) have a refCount
+Returns a value, typically with reference count of zero (but it could be shared
+under some conditions), containing the joined path. The caller must
+add a reference count to the value before using it. If any of the values
+passed into this function (\fIpathPtr\fR or \fIpath\fR elements) have
+a reference count
of zero, they will be freed when this function returns.
.PP
\fBTcl_FSConvertToPathType\fR tries to convert the given Tcl_Obj to a valid
Tcl path type, taking account of the fact that the cwd may have changed
-even if this object is already supposedly of the correct type.
+even if this value is already supposedly of the correct type.
The filename may begin with
.QW ~
(to indicate current user's home directory) or
.QW ~<user>
(to indicate any user's home directory).
.PP
-If the conversion succeeds (i.e. the object is a valid path in one of
-the current filesystems), then \fBTCL_OK\fR is returned. Otherwise
+If the conversion succeeds (i.e.\ the value is a valid path in one of
+the current filesystems), then \fBTCL_OK\fR is returned. Otherwise
\fBTCL_ERROR\fR is returned, and an error message may
be left in the interpreter.
.PP
\fBTcl_FSGetInternalRep\fR extracts the internal representation of a given
-path object, in the given filesystem. If the path object belongs to a
+path value, in the given filesystem. If the path value belongs to a
different filesystem, we return NULL. If the internal representation is
currently NULL, we attempt to generate it, by calling the filesystem's
\fBTcl_FSCreateInternalRepProc\fR.
.PP
-Returns NULL or a valid internal path representation. This internal
+Returns NULL or a valid internal path representation. This internal
representation is cached, so that repeated calls to this function will
not require additional conversions.
.PP
\fBTcl_FSGetTranslatedPath\fR attempts to extract the translated path
from the given Tcl_Obj.
.PP
-If the translation succeeds (i.e. the object is a valid path), then it is
-returned. Otherwise NULL will be returned, and an error message may be
-left in the interpreter. A
+If the translation succeeds (i.e.\ the value is a valid path), then it is
+returned. Otherwise NULL will be returned, and an error message may be
+left in the interpreter. A
.QW translated
path is one which contains no
.QW ~
or
.QW ~user
sequences (these have been expanded to their current
-representation in the filesystem). The object returned is owned by the
-caller, which must store it or call Tcl_DecrRefCount to ensure memory is
-freed. This function is of little practical use, and
-\fBTcl_FSGetNormalizedPath\fR or \fBTcl_GetNativePath\fR are usually
+representation in the filesystem). The value returned is owned by the
+caller, which must store it or call \fBTcl_DecrRefCount\fR to ensure memory is
+freed. This function is of little practical use, and
+\fBTcl_FSGetNormalizedPath\fR or \fBTcl_FSGetNativePath\fR are usually
better functions to use for most purposes.
.PP
\fBTcl_FSGetTranslatedStringPath\fR does the same as
\fBTcl_FSGetTranslatedPath\fR, but returns a character string or NULL.
The string returned is dynamically allocated and owned by the caller,
-which must store it or call \fBckfree\fR to ensure it is freed. Again,
-\fBTcl_FSGetNormalizedPath\fR or \fBTcl_GetNativePath\fR are usually
+which must store it or call \fBckfree\fR to ensure it is freed. Again,
+\fBTcl_FSGetNormalizedPath\fR or \fBTcl_FSGetNativePath\fR are usually
better functions to use for most purposes.
.PP
\fBTcl_FSNewNativePath\fR performs something like the reverse of the
-usual obj->path->nativerep conversions. If some code retrieves a path
-in native form (from, e.g. \fBreadlink\fR or a native dialog), and that path
+usual obj->path->nativerep conversions. If some code retrieves a path
+in native form (from, e.g.\ \fBreadlink\fR or a native dialog), and that path
is to be used at the Tcl level, then calling this function is an
-efficient way of creating the appropriate path object type.
+efficient way of creating the appropriate path value type.
.PP
-The resulting object is a pure
+The resulting value is a pure
.QW path
-object, which will only receive
+value, which will only receive
a UTF-8 string representation if that is required by some Tcl code.
.PP
\fBTcl_FSGetNativePath\fR is for use by the Win/Unix native
filesystems, so that they can easily retrieve the native (char* or
-TCHAR*) representation of a path. This function is a convenience
-wrapper around \fBTcl_FSGetInternalRep\fR, and assumes the native
-representation is string-based. It may be desirable in the future to
-have non-string-based native representations (for example, on MacOSX, a
-representation using a fileSpec of FSRef structure would probably be
-more efficient). On Windows a full Unicode representation would allow
-for paths of unlimited length. Currently the representation is simply a
-character string which may contain either the relative path or a
-complete, absolute normalized path in the native encoding (complex
+TCHAR*) representation of a path. This function is a convenience
+wrapper around \fBTcl_FSGetInternalRep\fR. It may be desirable in the
+future to have non-string-based native representations (for example,
+on MacOSX, a representation using a fileSpec of FSRef structure would
+probably be more efficient). On Windows a full Unicode representation
+would allow for paths of unlimited length. Currently the representation
+is simply a character string which may contain either the relative path
+or a complete, absolute normalized path in the native encoding (complex
conditions dictate which of these will be provided, so neither can be
-relied upon, unless the path is known to be absolute). If you need a
+relied upon, unless the path is known to be absolute). If you need a
native path which must be absolute, then you should ask for the native
-version of a normalized path. If for some reason a non-absolute,
+version of a normalized path. If for some reason a non-absolute,
non-normalized version of the path is needed, that must be constructed
-separately (e.g. using \fBTcl_FSGetTranslatedPath\fR).
+separately (e.g.\ using \fBTcl_FSGetTranslatedPath\fR).
.PP
The native representation is cached so that repeated calls to this
-function will not require additional conversions. The return value is
+function will not require additional conversions. The return value is
owned by Tcl and has a lifetime equivalent to that of the \fIpathPtr\fR
passed in (unless that is a relative path, in which case the native
representation may be freed any time the cwd changes).
.PP
-\fBTcl_FSFileSystemInfo\fR returns a list of two elements. The first
+\fBTcl_FSFileSystemInfo\fR returns a list of two elements. The first
element is the name of the filesystem (e.g.
.QW native ,
.QW vfs ,
@@ -710,14 +770,14 @@ element is the name of the filesystem (e.g.
or
.QW prowrap ,
perhaps), and the second is the particular type of the
-given path within that filesystem (which is filesystem dependent). The
+given path within that filesystem (which is filesystem dependent). The
second element may be empty if the filesystem does not provide a
further categorization of files.
.PP
-A valid list object is returned, unless the path object is not
+A valid list value is returned, unless the path value is not
recognized, when NULL will be returned.
.PP
-\fBTcl_FSGetFileSystemForPath\fR returns the a pointer to the
+\fBTcl_FSGetFileSystemForPath\fR returns a pointer to the
\fBTcl_Filesystem\fR which accepts this path as valid.
.PP
If no filesystem will accept the path, NULL is returned.
@@ -728,12 +788,38 @@ absolute.
.PP
It returns one of \fBTCL_PATH_ABSOLUTE\fR, \fBTCL_PATH_RELATIVE\fR, or
\fBTCL_PATH_VOLUME_RELATIVE\fR
-.PP
-\fBTcl_AllocStatBuf\fR allocates a \fITcl_StatBuf\fR on the system
-heap (which may be deallocated by being passed to \fBckfree\fR.) This
-allows extensions to invoke \fBTcl_FSStat\fR and \fBTcl_FSLStat\fR
-without being dependent on the size of the buffer. That in turn
-depends on the flags used to build Tcl.
+.SS "PORTABLE STAT RESULT API"
+.PP
+\fBTcl_AllocStatBuf\fR allocates a \fITcl_StatBuf\fR on the system heap (which
+may be deallocated by being passed to \fBckfree\fR). This allows extensions to
+invoke \fBTcl_FSStat\fR and \fBTcl_FSLstat\fR without being dependent on the
+size of the buffer. That in turn depends on the flags used to build Tcl.
+.PP
+.VS 8.6
+The portable fields of a \fITcl_StatBuf\fR may be read using the following
+functions, each of which returns the value of the corresponding field listed
+in the table below. Note that on some platforms there may be other fields in
+the \fITcl_StatBuf\fR as it is an alias for a suitable system structure, but
+only the portable ones are made available here. See your system documentation
+for a full description of these fields.
+.DS
+.ta \w'\fBTcl_GetModificationTimeFromStat\fR\0\0\0\0'u
+\fIAccess Function\fR \fIField\fR
+ \fBTcl_GetFSDeviceFromStat\fR st_dev
+ \fBTcl_GetFSInodeFromStat\fR st_ino
+ \fBTcl_GetModeFromStat\fR st_mode
+ \fBTcl_GetLinkCountFromStat\fR st_nlink
+ \fBTcl_GetUserIdFromStat\fR st_uid
+ \fBTcl_GetGroupIdFromStat\fR st_gid
+ \fBTcl_GetDeviceTypeFromStat\fR st_rdev
+ \fBTcl_GetAccessTimeFromStat\fR st_atime
+ \fBTcl_GetModificationTimeFromStat\fR st_mtime
+ \fBTcl_GetChangeTimeFromStat\fR st_ctime
+ \fBTcl_GetSizeFromStat\fR st_size
+ \fBTcl_GetBlocksFromStat\fR st_blocks
+ \fBTcl_GetBlockSizeFromStat\fR st_blksize
+.DE
+.VE 8.6
.SH "THE VIRTUAL FILESYSTEM API"
.PP
A filesystem provides a \fBTcl_Filesystem\fR structure that contains
@@ -745,18 +831,18 @@ The \fBTcl_Filesystem\fR structures are manipulated using the following
methods.
.PP
\fBTcl_FSRegister\fR takes a pointer to a filesystem structure and an
-optional piece of data to associated with that filesystem. On calling
+optional piece of data to associated with that filesystem. On calling
this function, Tcl will attach the filesystem to the list of known
-filesystems, and it will become fully functional immediately. Tcl does
+filesystems, and it will become fully functional immediately. Tcl does
not check if the same filesystem is registered multiple times (and in
-general that is not a good thing to do). \fBTCL_OK\fR will be returned.
+general that is not a good thing to do). \fBTCL_OK\fR will be returned.
.PP
\fBTcl_FSUnregister\fR removes the given filesystem structure from
-the list of known filesystems, if it is known, and returns \fBTCL_OK\fR. If
+the list of known filesystems, if it is known, and returns \fBTCL_OK\fR. If
the filesystem is not currently registered, \fBTCL_ERROR\fR is returned.
.PP
\fBTcl_FSData\fR will return the ClientData associated with the given
-filesystem, if that filesystem is registered. Otherwise it will
+filesystem, if that filesystem is registered. Otherwise it will
return NULL.
.PP
\fBTcl_FSMountsChanged\fR is used to inform the Tcl's core that
@@ -766,6 +852,7 @@ longer be correct.
.SS "THE TCL_FILESYSTEM STRUCTURE"
.PP
The \fBTcl_Filesystem\fR structure contains the following fields:
+.PP
.CS
typedef struct Tcl_Filesystem {
const char *\fItypeName\fR;
@@ -799,7 +886,7 @@ typedef struct Tcl_Filesystem {
Tcl_FSLoadFileProc *\fIloadFileProc\fR;
Tcl_FSGetCwdProc *\fIgetCwdProc\fR;
Tcl_FSChdirProc *\fIchdirProc\fR;
-} Tcl_Filesystem;
+} \fBTcl_Filesystem\fR;
.CE
.PP
Except for the first three fields in this structure which contain
@@ -813,7 +900,7 @@ implemented), operational functions (which must be implemented if a
complete filesystem is provided), and efficiency functions (which need
only be implemented if they can be done so efficiently, or if they have
side-effects which are required by the filesystem; Tcl has less
-efficient emulations it can fall back on). It is important to note
+efficient emulations it can fall back on). It is important to note
that, in the current version of Tcl, most of these fallbacks are only
used to handle commands initiated in Tcl, not in C. What this means is,
that if a \fBfile rename\fR command is issued in Tcl, and the relevant
@@ -821,14 +908,14 @@ filesystem(s) do not implement their \fITcl_FSRenameFileProc\fR, Tcl's
core will instead fallback on a combination of other filesystem
functions (it will use \fITcl_FSCopyFileProc\fR followed by
\fITcl_FSDeleteFileProc\fR, and if \fITcl_FSCopyFileProc\fR is not
-implemented there is a further fallback). However, if a
+implemented there is a further fallback). However, if a
\fITcl_FSRenameFileProc\fR command is issued at the C level, no such
-fallbacks occur. This is true except for the last four entries in the
+fallbacks occur. This is true except for the last four entries in the
filesystem table (\fBlstat\fR, \fBload\fR, \fBgetcwd\fR and \fBchdir\fR)
for which fallbacks do in fact occur at the C level.
.PP
Any functions which take path names in Tcl_Obj form take
-those names in UTF\-8 form. The filesystem infrastructure API is
+those names in UTF\-8 form. The filesystem infrastructure API is
designed to support efficient, cached conversion of these UTF\-8 paths
to other native representations.
.SS "EXAMPLE FILESYSTEM DEFINITION"
@@ -836,6 +923,7 @@ to other native representations.
Here is the filesystem lookup table used by the
.QW vfs
extension which allows filesystem actions to be implemented in Tcl.
+.PP
.CS
static Tcl_Filesystem vfsFilesystem = {
"tclvfs",
@@ -914,97 +1002,97 @@ The \fIversion\fR field should be set to \fBTCL_FILESYSTEM_VERSION_1\fR.
.SS PATHINFILESYSTEMPROC
.PP
The \fIpathInFilesystemProc\fR field contains the address of a function
-which is called to determine whether a given path object belongs to this
-filesystem or not. Tcl will only call the rest of the filesystem
+which is called to determine whether a given path value belongs to this
+filesystem or not. Tcl will only call the rest of the filesystem
functions with a path for which this function has returned \fBTCL_OK\fR.
-If the path does not belong, -1 should be returned (the behaviour of Tcl
-for any other return value is not defined). If \fBTCL_OK\fR is returned,
+If the path does not belong, -1 should be returned (the behavior of Tcl
+for any other return value is not defined). If \fBTCL_OK\fR is returned,
then the optional \fIclientDataPtr\fR output parameter can be used to
return an internal (filesystem specific) representation of the path,
-which will be cached inside the path object, and may be retrieved
-efficiently by the other filesystem functions. Tcl will simultaneously
-cache the fact that this path belongs to this filesystem. Such caches
+which will be cached inside the path value, and may be retrieved
+efficiently by the other filesystem functions. Tcl will simultaneously
+cache the fact that this path belongs to this filesystem. Such caches
are invalidated when filesystem structures are added or removed from
Tcl's internal list of known filesystems.
.PP
.CS
-typedef int Tcl_FSPathInFilesystemProc(
+typedef int \fBTcl_FSPathInFilesystemProc\fR(
Tcl_Obj *\fIpathPtr\fR,
ClientData *\fIclientDataPtr\fR);
.CE
.SS DUPINTERNALREPPROC
.PP
This function makes a copy of a path's internal representation, and is
-called when Tcl needs to duplicate a path object. If NULL, Tcl will
+called when Tcl needs to duplicate a path value. If NULL, Tcl will
simply not copy the internal representation, which may then need to be
regenerated later.
.PP
.CS
-typedef ClientData Tcl_FSDupInternalRepProc(
+typedef ClientData \fBTcl_FSDupInternalRepProc\fR(
ClientData \fIclientData\fR);
.CE
.SS FREEINTERNALREPPROC
-Free the internal representation. This must be implemented if internal
-representations need freeing (i.e. if some memory is allocated when an
+Free the internal representation. This must be implemented if internal
+representations need freeing (i.e.\ if some memory is allocated when an
internal representation is generated), but may otherwise be NULL.
.PP
.CS
-typedef void Tcl_FSFreeInternalRepProc(
+typedef void \fBTcl_FSFreeInternalRepProc\fR(
ClientData \fIclientData\fR);
.CE
.SS INTERNALTONORMALIZEDPROC
.PP
-Function to convert internal representation to a normalized path. Only
-required if the filesystem creates pure path objects with no string/path
-representation. The return value is a Tcl object whose string
+Function to convert internal representation to a normalized path. Only
+required if the filesystem creates pure path values with no string/path
+representation. The return value is a Tcl value whose string
representation is the normalized path.
.PP
.CS
-typedef Tcl_Obj* Tcl_FSInternalToNormalizedProc(
+typedef Tcl_Obj *\fBTcl_FSInternalToNormalizedProc\fR(
ClientData \fIclientData\fR);
.CE
.SS CREATEINTERNALREPPROC
.PP
-Function to take a path object, and calculate an internal
+Function to take a path value, and calculate an internal
representation for it, and store that native representation in the
-object. May be NULL if paths have no internal representation, or if
+value. May be NULL if paths have no internal representation, or if
the \fITcl_FSPathInFilesystemProc\fR for this filesystem always
immediately creates an internal representation for paths it accepts.
.PP
.CS
-typedef ClientData Tcl_FSCreateInternalRepProc(
+typedef ClientData \fBTcl_FSCreateInternalRepProc\fR(
Tcl_Obj *\fIpathPtr\fR);
.CE
.SS NORMALIZEPATHPROC
.PP
-Function to normalize a path. Should be implemented for all
+Function to normalize a path. Should be implemented for all
filesystems which can have multiple string representations for the same
-path object. In Tcl, every
+path value. In Tcl, every
.QW path
must have a single unique
.QW normalized
-string representation. Depending on the filesystem,
+string representation. Depending on the filesystem,
there may be more than one unnormalized string representation which
-refers to that path (e.g. a relative path, a path with different
+refers to that path (e.g.\ a relative path, a path with different
character case if the filesystem is case insensitive, a path contain a
reference to a home directory such as
.QW ~ ,
a path containing symbolic
-links, etc). If the very last component in the path is a symbolic
-link, it should not be converted into the object it points to (but
-its case or other aspects should be made unique). All other path
-components should be converted from symbolic links. This one
+links, etc). If the very last component in the path is a symbolic
+link, it should not be converted into the value it points to (but
+its case or other aspects should be made unique). All other path
+components should be converted from symbolic links. This one
exception is required to agree with Tcl's semantics with \fBfile
delete\fR, \fBfile rename\fR, \fBfile copy\fR operating on symbolic links.
This function may be called with \fInextCheckpoint\fR either
-at the beginning of the path (i.e. zero), at the end of the path, or
-at any intermediate file separator in the path. It will never
+at the beginning of the path (i.e.\ zero), at the end of the path, or
+at any intermediate file separator in the path. It will never
point to any other arbitrary position in the path. In the last of
the three valid cases, the implementation can assume that the path
up to and including the file separator is known and normalized.
.PP
.CS
-typedef int Tcl_FSNormalizePathProc(
+typedef int \fBTcl_FSNormalizePathProc\fR(
Tcl_Interp *\fIinterp\fR,
Tcl_Obj *\fIpathPtr\fR,
int \fInextCheckpoint\fR);
@@ -1013,33 +1101,33 @@ typedef int Tcl_FSNormalizePathProc(
.PP
The fields in this section of the structure contain addresses of
functions which are called to carry out the basic filesystem
-operations. A filesystem which expects to be used with the complete
-standard Tcl command set must implement all of these. If some of
+operations. A filesystem which expects to be used with the complete
+standard Tcl command set must implement all of these. If some of
them are not implemented, then certain Tcl commands may fail when
-operating on paths within that filesystem. However, in some instances
+operating on paths within that filesystem. However, in some instances
this may be desirable (for example, a read-only filesystem should not
implement the last four functions, and a filesystem which does not
support symbolic links need not implement the \fBreadlink\fR function,
-etc. The Tcl core expects filesystems to behave in this way).
+etc. The Tcl core expects filesystems to behave in this way).
.SS FILESYSTEMPATHTYPEPROC
.PP
-Function to determine the type of a path in this filesystem. May be
+Function to determine the type of a path in this filesystem. May be
NULL, in which case no type information will be available to users of
-the filesystem. The
+the filesystem. The
.QW type
is used only for informational purposes,
and should be returned as the string representation of the Tcl_Obj
-which is returned. A typical return value might be
+which is returned. A typical return value might be
.QW networked ,
.QW zip
or
.QW ftp .
The Tcl_Obj result is owned by the filesystem and so Tcl will
-increment the refCount of that object if it wishes to retain a reference
+increment the reference count of that value if it wishes to retain a reference
to it.
.PP
.CS
-typedef Tcl_Obj* Tcl_FSFilesystemPathTypeProc(
+typedef Tcl_Obj *\fBTcl_FSFilesystemPathTypeProc\fR(
Tcl_Obj *\fIpathPtr\fR);
.CE
.SS FILESYSTEMSEPARATORPROC
@@ -1049,30 +1137,30 @@ This need only be implemented if the filesystem wishes to use a
different separator than the standard string
.QW / .
Amongst other
-uses, it is returned by the \fBfile separator\fR command. The
-return value should be an object with refCount of zero.
+uses, it is returned by the \fBfile separator\fR command. The
+return value should be a value with reference count of zero.
.PP
.CS
-typedef Tcl_Obj* Tcl_FSFilesystemSeparatorProc(
+typedef Tcl_Obj *\fBTcl_FSFilesystemSeparatorProc\fR(
Tcl_Obj *\fIpathPtr\fR);
.CE
.SS STATPROC
.PP
-Function to process a \fBTcl_FSStat\fR call. Must be implemented for any
+Function to process a \fBTcl_FSStat\fR call. Must be implemented for any
reasonable filesystem, since many Tcl level commands depend crucially
-upon it (e.g. \fBfile atime\fR, \fBfile isdirectory\fR, \fBfile size\fR,
+upon it (e.g.\ \fBfile atime\fR, \fBfile isdirectory\fR, \fBfile size\fR,
\fBglob\fR).
.PP
.CS
-typedef int Tcl_FSStatProc(
+typedef int \fBTcl_FSStatProc\fR(
Tcl_Obj *\fIpathPtr\fR,
Tcl_StatBuf *\fIstatPtr\fR);
.CE
.PP
The \fBTcl_FSStatProc\fR fills the stat structure \fIstatPtr\fR with
-information about the specified file. You do not need any access
+information about the specified file. You do not need any access
rights to the file to get this information but you need search rights
-to all directories named in the path leading to the file. The stat
+to all directories named in the path leading to the file. The stat
structure includes info regarding device, inode (always 0 on Windows),
privilege mode, nlink (always 1 on Windows), user id (always 0 on
Windows), group id (always 0 on Windows), rdev (same as device on
@@ -1081,37 +1169,37 @@ last metadata change time.
.PP
If the file represented by \fIpathPtr\fR exists, the
\fBTcl_FSStatProc\fR returns 0 and the stat structure is filled with
-data. Otherwise, -1 is returned, and no stat info is given.
+data. Otherwise, -1 is returned, and no stat info is given.
.SS ACCESSPROC
.PP
-Function to process a \fBTcl_FSAccess\fR call. Must be implemented for
+Function to process a \fBTcl_FSAccess\fR call. Must be implemented for
any reasonable filesystem, since many Tcl level commands depend crucially
-upon it (e.g. \fBfile exists\fR, \fBfile readable\fR).
+upon it (e.g.\ \fBfile exists\fR, \fBfile readable\fR).
.PP
.CS
-typedef int Tcl_FSAccessProc(
+typedef int \fBTcl_FSAccessProc\fR(
Tcl_Obj *\fIpathPtr\fR,
int \fImode\fR);
.CE
.PP
The \fBTcl_FSAccessProc\fR checks whether the process would be allowed
to read, write or test for existence of the file (or other filesystem
-object) whose name is in \fIpathPtr\fR. If the pathname refers to a
+object) whose name is in \fIpathPtr\fR. If the pathname refers to a
symbolic link, then the
permissions of the file referred by this symbolic link should be tested.
.PP
-On success (all requested permissions granted), zero is returned. On
+On success (all requested permissions granted), zero is returned. On
error (at least one bit in mode asked for a permission that is denied,
or some other error occurred), -1 is returned.
.SS OPENFILECHANNELPROC
.PP
-Function to process a \fBTcl_FSOpenFileChannel\fR call. Must be
+Function to process a \fBTcl_FSOpenFileChannel\fR call. Must be
implemented for any reasonable filesystem, since any operations
which require open or accessing a file's contents will use it
-(e.g. \fBopen\fR, \fBencoding\fR, and many Tk commands).
+(e.g.\ \fBopen\fR, \fBencoding\fR, and many Tk commands).
.PP
.CS
-typedef Tcl_Channel Tcl_FSOpenFileChannelProc(
+typedef Tcl_Channel \fBTcl_FSOpenFileChannelProc\fR(
Tcl_Interp *\fIinterp\fR,
Tcl_Obj *\fIpathPtr\fR,
int \fImode\fR,
@@ -1120,33 +1208,33 @@ typedef Tcl_Channel Tcl_FSOpenFileChannelProc(
.PP
The \fBTcl_FSOpenFileChannelProc\fR opens a file specified by
\fIpathPtr\fR and returns a channel handle that can be used to perform
-input and output on the file. This API is modeled after the \fBfopen\fR
-procedure of the Unix standard I/O library. The syntax and meaning of
+input and output on the file. This API is modeled after the \fBfopen\fR
+procedure of the Unix standard I/O library. The syntax and meaning of
all arguments is similar to those given in the Tcl \fBopen\fR command
when opening a file, where the \fImode\fR argument is a combination of
-the POSIX flags O_RDONLY, O_WRONLY, etc. If an error occurs while
+the POSIX flags O_RDONLY, O_WRONLY, etc. If an error occurs while
opening the channel, the \fBTcl_FSOpenFileChannelProc\fR returns NULL and
records a POSIX error code that can be retrieved with \fBTcl_GetErrno\fR.
In addition, if \fIinterp\fR is non-NULL, the
\fBTcl_FSOpenFileChannelProc\fR leaves an error message in \fIinterp\fR's
result after any error.
.PP
-The newly created channel must not registered in the supplied
-interpreter; that task is up to the caller of
+The newly created channel must not be registered in the supplied interpreter
+by a \fBTcl_FSOpenFileChannelProc\fR; that task is up to the caller of
\fBTcl_FSOpenFileChannel\fR (if necessary). If one of
-the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it
as a replacement for the standard channel.
.SS MATCHINDIRECTORYPROC
.PP
-Function to process a \fBTcl_FSMatchInDirectory\fR call. If not
+Function to process a \fBTcl_FSMatchInDirectory\fR call. If not
implemented, then glob and recursive copy functionality will be lacking
in the filesystem (and this may impact commands like \fBencoding names\fR
which use glob functionality internally).
.PP
.CS
-typedef int Tcl_FSMatchInDirectoryProc(
- Tcl_Interp* \fIinterp\fR,
+typedef int \fBTcl_FSMatchInDirectoryProc\fR(
+ Tcl_Interp *\fIinterp\fR,
Tcl_Obj *\fIresultPtr\fR,
Tcl_Obj *\fIpathPtr\fR,
const char *\fIpattern\fR,
@@ -1155,22 +1243,22 @@ typedef int Tcl_FSMatchInDirectoryProc(
.PP
The function should return all files or directories (or other filesystem
objects) which match the given pattern and accord with the \fItypes\fR
-specification given. There are two ways in which this function may be
-called. If \fIpattern\fR is NULL, then \fIpathPtr\fR is a full path
+specification given. There are two ways in which this function may be
+called. If \fIpattern\fR is NULL, then \fIpathPtr\fR is a full path
specification of a single file or directory which should be checked for
-existence and correct type. Otherwise, \fIpathPtr\fR is a directory, the
+existence and correct type. Otherwise, \fIpathPtr\fR is a directory, the
contents of which the function should search for files or directories
-which have the correct type. In either case, \fIpathPtr\fR can be
-assumed to be both non-NULL and non-empty. It is not currently
+which have the correct type. In either case, \fIpathPtr\fR can be
+assumed to be both non-NULL and non-empty. It is not currently
documented whether \fIpathPtr\fR will have a file separator at its end of
not, so code should be flexible to both possibilities.
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the matching process. Error messages are placed in
+occurred in the matching process. Error messages are placed in
\fIinterp\fR, unless \fIinterp\fR in NULL in which case no error
message need be generated; on a \fBTCL_OK\fR result, results should be
-added to the \fIresultPtr\fR object given (which can be assumed to be a
-valid unshared Tcl list). The matches added
+added to the \fIresultPtr\fR value given (which can be assumed to be a
+valid unshared Tcl list). The matches added
to \fIresultPtr\fR should include any path prefix given in \fIpathPtr\fR
(this usually means they will be absolute path specifications).
Note that if no matches are found, that simply leads to an empty
@@ -1179,39 +1267,40 @@ problems which may occur during the matching process.
.PP
The \fBTcl_GlobTypeData\fR structure passed in the \fItypes\fR
parameter contains the following fields:
+.PP
.CS
typedef struct Tcl_GlobTypeData {
- /* Corresponds to bcdpfls as in 'find -t' */
- int \fItype\fR;
- /* Corresponds to file permissions */
- int \fIperm\fR;
- /* Acceptable mac type */
- Tcl_Obj *\fImacType\fR;
- /* Acceptable mac creator */
- Tcl_Obj *\fImacCreator\fR;
-} Tcl_GlobTypeData;
+ /* Corresponds to bcdpfls as in 'find -t' */
+ int \fItype\fR;
+ /* Corresponds to file permissions */
+ int \fIperm\fR;
+ /* Acceptable mac type */
+ Tcl_Obj *\fImacType\fR;
+ /* Acceptable mac creator */
+ Tcl_Obj *\fImacCreator\fR;
+} \fBTcl_GlobTypeData\fR;
.CE
.PP
There are two specific cases which it is important to handle correctly,
both when \fItypes\fR is non-NULL. The two cases are when \fItypes->types
& TCL_GLOB_TYPE_DIR\fR or \fItypes->types & TCL_GLOB_TYPE_MOUNT\fR are
-true (and in particular when the other flags are false). In the first of
-these cases, the function must list the contained directories. Tcl uses
+true (and in particular when the other flags are false). In the first of
+these cases, the function must list the contained directories. Tcl uses
this to implement recursive globbing, so it is critical that filesystems
-implement directory matching correctly. In the second of these cases,
+implement directory matching correctly. In the second of these cases,
with \fBTCL_GLOB_TYPE_MOUNT\fR, the filesystem must list the mount points
which lie within the given \fIpathPtr\fR (and in this case, \fIpathPtr\fR
need not lie within the same filesystem - different to all other cases in
-which this function is called). Support for this is critical if Tcl is
+which this function is called). Support for this is critical if Tcl is
to have seamless transitions between from one filesystem to another.
.SS UTIMEPROC
.PP
-Function to process a \fBTcl_FSUtime\fR call. Required to allow setting
+Function to process a \fBTcl_FSUtime\fR call. Required to allow setting
(not reading) of times with \fBfile mtime\fR, \fBfile atime\fR and the
open-r/open-w/fcopy implementation of \fBfile copy\fR.
.PP
.CS
-typedef int Tcl_FSUtimeProc(
+typedef int \fBTcl_FSUtimeProc\fR(
Tcl_Obj *\fIpathPtr\fR,
struct utimbuf *\fItval\fR);
.CE
@@ -1223,26 +1312,26 @@ The return value should be 0 on success and -1 on an error, as
with the system \fButime\fR.
.SS LINKPROC
.PP
-Function to process a \fBTcl_FSLink\fR call. Should be implemented
+Function to process a \fBTcl_FSLink\fR call. Should be implemented
only if the filesystem supports links, and may otherwise be NULL.
.PP
.CS
-typedef Tcl_Obj* Tcl_FSLinkProc(
+typedef Tcl_Obj *\fBTcl_FSLinkProc\fR(
Tcl_Obj *\fIlinkNamePtr\fR,
Tcl_Obj *\fItoPtr\fR,
int \fIlinkAction\fR);
.CE
.PP
If \fItoPtr\fR is NULL, the function is being asked to read the
-contents of a link. The result is a Tcl_Obj specifying the contents of
+contents of a link. The result is a Tcl_Obj specifying the contents of
the link given by \fIlinkNamePtr\fR, or NULL if the link could
-not be read. The result is owned by the caller (and should therefore
-have its ref count incremented before being returned). Any callers
-should call Tcl_DecrRefCount on this result when it is no longer needed.
+not be read. The result is owned by the caller (and should therefore
+have its ref count incremented before being returned). Any callers
+should call \fBTcl_DecrRefCount\fR on this result when it is no longer needed.
If \fItoPtr\fR is not NULL, the function should attempt to create a link.
The result in this case should be \fItoPtr\fR if the link was successful
-and NULL otherwise. In this case the result is not owned by the caller
-(i.e. no ref count manipulation on either end is needed). See
+and NULL otherwise. In this case the result is not owned by the caller
+(i.e.\ no reference count manipulations on either end are needed). See
the documentation for \fBTcl_FSLink\fR for the correct interpretation
of the \fIlinkAction\fR flags.
.SS LISTVOLUMESPROC
@@ -1252,20 +1341,20 @@ Should be implemented only if the filesystem adds volumes at the head
of the filesystem, so that they can be returned by \fBfile volumes\fR.
.PP
.CS
-typedef Tcl_Obj* Tcl_FSListVolumesProc(void);
+typedef Tcl_Obj *\fBTcl_FSListVolumesProc\fR(void);
.CE
.PP
The result should be a list of volumes added by this filesystem, or
-NULL (or an empty list) if no volumes are provided. The result object
+NULL (or an empty list) if no volumes are provided. The result value
is considered to be owned by the filesystem (not by Tcl's core), but
-should be given a refCount for Tcl. Tcl will use the contents of the
-list and then decrement that refCount. This allows filesystems to
+should be given a reference count for Tcl. Tcl will use the contents of the
+list and then decrement that reference count. This allows filesystems to
choose whether they actually want to retain a
.QW "master list"
of volumes
or not (if not, they generate the list on the fly and pass it to Tcl
-with a refCount of 1 and then forget about the list, if yes, then
-they simply increment the refCount of their master list and pass it
+with a reference count of 1 and then forget about the list, if yes, then
+they simply increment the reference count of their master list and pass it
to Tcl which will copy the contents and then decrement the count back
to where it was).
.PP
@@ -1273,25 +1362,25 @@ Therefore, Tcl considers return values from this proc to be read-only.
.SS FILEATTRSTRINGSPROC
.PP
Function to list all attribute strings which are valid for this
-filesystem. If not implemented the filesystem will not support
-the \fBfile attributes\fR command. This allows arbitrary additional
-information to be attached to files in the filesystem. If it is
+filesystem. If not implemented the filesystem will not support
+the \fBfile attributes\fR command. This allows arbitrary additional
+information to be attached to files in the filesystem. If it is
not implemented, there is no need to implement the \fBget\fR and \fBset\fR
methods.
.PP
.CS
-typedef const char** Tcl_FSFileAttrStringsProc(
+typedef const char *const *\fBTcl_FSFileAttrStringsProc\fR(
Tcl_Obj *\fIpathPtr\fR,
- Tcl_Obj** \fIobjPtrRef\fR);
+ Tcl_Obj **\fIobjPtrRef\fR);
.CE
.PP
The called function may either return an array of strings, or may
-instead return NULL and place a Tcl list into the given \fIobjPtrRef\fR. Tcl
+instead return NULL and place a Tcl list into the given \fIobjPtrRef\fR. Tcl
will take that list and first increment its reference count before using it.
-On completion of that use, Tcl will decrement its reference count. Hence if
+On completion of that use, Tcl will decrement its reference count. Hence if
the list should be disposed of by Tcl when done, it should have a
reference count of zero, and if the list should not be disposed of, the
-filesystem should ensure it returns an object with a reference count
+filesystem should ensure it returns a value with a reference count
of at least one.
.SS FILEATTRSGETPROC
.PP
@@ -1299,27 +1388,27 @@ Function to process a \fBTcl_FSFileAttrsGet\fR call, used by \fBfile
attributes\fR.
.PP
.CS
-typedef int Tcl_FSFileAttrsGetProc(
+typedef int \fBTcl_FSFileAttrsGetProc\fR(
Tcl_Interp *\fIinterp\fR,
int \fIindex\fR,
Tcl_Obj *\fIpathPtr\fR,
Tcl_Obj **\fIobjPtrRef\fR);
.CE
.PP
-Returns a standard Tcl return code. The attribute value retrieved,
+Returns a standard Tcl return code. The attribute value retrieved,
which corresponds to the \fIindex\fR'th element in the list returned by
the \fBTcl_FSFileAttrStringsProc\fR, is a Tcl_Obj placed in \fIobjPtrRef\fR (if
-\fBTCL_OK\fR was returned) and is likely to have a reference count of zero. Either
-way we must either store it somewhere (e.g. the Tcl result), or
+\fBTCL_OK\fR was returned) and is likely to have a reference count of zero. Either
+way we must either store it somewhere (e.g.\ the Tcl result), or
Incr/Decr its reference count to ensure it is properly freed.
.SS FILEATTRSSETPROC
.PP
Function to process a \fBTcl_FSFileAttrsSet\fR call, used by \fBfile
-attributes\fR. If the filesystem is read-only, there is no need
+attributes\fR. If the filesystem is read-only, there is no need
to implement this.
.PP
.CS
-typedef int Tcl_FSFileAttrsSetProc(
+typedef int \fBTcl_FSFileAttrsSetProc\fR(
Tcl_Interp *\fIinterp\fR,
int \fIindex\fR,
Tcl_Obj *\fIpathPtr\fR,
@@ -1330,53 +1419,53 @@ The attribute value of the \fIindex\fR'th element in the list returned by
the Tcl_FSFileAttrStringsProc should be set to the \fIobjPtr\fR given.
.SS CREATEDIRECTORYPROC
.PP
-Function to process a \fBTcl_FSCreateDirectory\fR call. Should be
+Function to process a \fBTcl_FSCreateDirectory\fR call. Should be
implemented unless the FS is read-only.
.PP
.CS
-typedef int Tcl_FSCreateDirectoryProc(
+typedef int \fBTcl_FSCreateDirectoryProc\fR(
Tcl_Obj *\fIpathPtr\fR);
.CE
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the process. If successful, a new directory should have
+occurred in the process. If successful, a new directory should have
been added to the filesystem in the location specified by
\fIpathPtr\fR.
.SS REMOVEDIRECTORYPROC
.PP
-Function to process a \fBTcl_FSRemoveDirectory\fR call. Should be
+Function to process a \fBTcl_FSRemoveDirectory\fR call. Should be
implemented unless the FS is read-only.
.PP
.CS
-typedef int Tcl_FSRemoveDirectoryProc(
+typedef int \fBTcl_FSRemoveDirectoryProc\fR(
Tcl_Obj *\fIpathPtr\fR,
int \fIrecursive\fR,
Tcl_Obj **\fIerrorPtr\fR);
.CE
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the process. If successful, the directory specified by
-\fIpathPtr\fR should have been removed from the filesystem. If the
+occurred in the process. If successful, the directory specified by
+\fIpathPtr\fR should have been removed from the filesystem. If the
\fIrecursive\fR flag is given, then a non-empty directory should be
-deleted without error. If this flag is not given, then and the
+deleted without error. If this flag is not given, then and the
directory is non-empty a POSIX
.QW EEXIST
-error should be signaled. If an
+error should be signaled. If an
error does occur, the name of the file or directory which caused the
error should be placed in \fIerrorPtr\fR.
.SS DELETEFILEPROC
.PP
-Function to process a \fBTcl_FSDeleteFile\fR call. Should be implemented
+Function to process a \fBTcl_FSDeleteFile\fR call. Should be implemented
unless the FS is read-only.
.PP
.CS
-typedef int Tcl_FSDeleteFileProc(
+typedef int \fBTcl_FSDeleteFileProc\fR(
Tcl_Obj *\fIpathPtr\fR);
.CE
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the process. If successful, the file specified by
-\fIpathPtr\fR should have been removed from the filesystem. Note that,
+occurred in the process. If successful, the file specified by
+\fIpathPtr\fR should have been removed from the filesystem. Note that,
if the filesystem supports symbolic links, Tcl will always call this
function and not Tcl_FSRemoveDirectoryProc when needed to delete them
(even if they are symbolic links to directories).
@@ -1387,13 +1476,13 @@ because the core has a fallback implementation available. See each
individual description for the consequences of leaving the field NULL.
.SS LSTATPROC
.PP
-Function to process a \fBTcl_FSLstat\fR call. If not implemented, Tcl
-will attempt to use the \fIstatProc\fR defined above instead. Therefore
+Function to process a \fBTcl_FSLstat\fR call. If not implemented, Tcl
+will attempt to use the \fIstatProc\fR defined above instead. Therefore
it need only be implemented if a filesystem can differentiate between
\fBstat\fR and \fBlstat\fR calls.
.PP
.CS
-typedef int Tcl_FSLstatProc(
+typedef int \fBTcl_FSLstatProc\fR(
Tcl_Obj *\fIpathPtr\fR,
Tcl_StatBuf *\fIstatPtr\fR);
.CE
@@ -1404,145 +1493,145 @@ to a symbolic link, it returns information about the link, not
about the target file.
.SS COPYFILEPROC
.PP
-Function to process a \fBTcl_FSCopyFile\fR call. If not implemented Tcl
+Function to process a \fBTcl_FSCopyFile\fR call. If not implemented Tcl
will fall back on \fBopen\fR-r, \fBopen\fR-w and \fBfcopy\fR as a
copying mechanism.
Therefore it need only be implemented if the filesystem can perform
that action more efficiently.
.PP
.CS
-typedef int Tcl_FSCopyFileProc(
+typedef int \fBTcl_FSCopyFileProc\fR(
Tcl_Obj *\fIsrcPathPtr\fR,
Tcl_Obj *\fIdestPathPtr\fR);
.CE
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the copying process. Note that, \fIdestPathPtr\fR is the
+occurred in the copying process. Note that, \fIdestPathPtr\fR is the
name of the file which should become the copy of \fIsrcPathPtr\fR. It
is never the name of a directory into which \fIsrcPathPtr\fR could be
-copied (i.e. the function is much simpler than the Tcl level \fBfile
-copy\fR subcommand). Note that,
+copied (i.e.\ the function is much simpler than the Tcl level \fBfile
+copy\fR subcommand). Note that,
if the filesystem supports symbolic links, Tcl will always call this
function and not \fIcopyDirectoryProc\fR when needed to copy them
-(even if they are symbolic links to directories). Finally, if the
+(even if they are symbolic links to directories). Finally, if the
filesystem determines it cannot support the \fBfile copy\fR action,
calling \fBTcl_SetErrno(EXDEV)\fR and returning a non-\fBTCL_OK\fR
result will tell Tcl to use its standard fallback mechanisms.
.SS RENAMEFILEPROC
.PP
-Function to process a \fBTcl_FSRenameFile\fR call. If not implemented,
-Tcl will fall back on a copy and delete mechanism. Therefore it need
+Function to process a \fBTcl_FSRenameFile\fR call. If not implemented,
+Tcl will fall back on a copy and delete mechanism. Therefore it need
only be implemented if the filesystem can perform that action more
efficiently.
.PP
.CS
-typedef int Tcl_FSRenameFileProc(
+typedef int \fBTcl_FSRenameFileProc\fR(
Tcl_Obj *\fIsrcPathPtr\fR,
Tcl_Obj *\fIdestPathPtr\fR);
.CE
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the renaming process. If the
+occurred in the renaming process. If the
filesystem determines it cannot support the \fBfile rename\fR action,
calling \fBTcl_SetErrno(EXDEV)\fR and returning a non-\fBTCL_OK\fR
result will tell Tcl to use its standard fallback mechanisms.
.SS COPYDIRECTORYPROC
.PP
-Function to process a \fBTcl_FSCopyDirectory\fR call. If not
+Function to process a \fBTcl_FSCopyDirectory\fR call. If not
implemented, Tcl will fall back on a recursive \fBfile mkdir\fR, \fBfile copy\fR
-mechanism. Therefore it need only be implemented if the filesystem can
+mechanism. Therefore it need only be implemented if the filesystem can
perform that action more efficiently.
.PP
.CS
-typedef int Tcl_FSCopyDirectoryProc(
+typedef int \fBTcl_FSCopyDirectoryProc\fR(
Tcl_Obj *\fIsrcPathPtr\fR,
Tcl_Obj *\fIdestPathPtr\fR,
Tcl_Obj **\fIerrorPtr\fR);
.CE
.PP
The return value is a standard Tcl result indicating whether an error
-occurred in the copying process. If an error does occur, the name of
+occurred in the copying process. If an error does occur, the name of
the file or directory which caused the error should be placed in
\fIerrorPtr\fR. Note that, \fIdestPathPtr\fR is the name of the
directory-name which should become the mirror-image of
\fIsrcPathPtr\fR. It is not the name of a directory into which
-\fIsrcPathPtr\fR should be copied (i.e. the function is much simpler
-than the Tcl level \fBfile copy\fR subcommand). Finally, if the
+\fIsrcPathPtr\fR should be copied (i.e.\ the function is much simpler
+than the Tcl level \fBfile copy\fR subcommand). Finally, if the
filesystem determines it cannot support the directory copy action,
calling \fBTcl_SetErrno(EXDEV)\fR and returning a non-\fBTCL_OK\fR
result will tell Tcl to use its standard fallback mechanisms.
.SS LOADFILEPROC
.PP
-Function to process a \fBTcl_FSLoadFile\fR call. If not implemented, Tcl
+Function to process a \fBTcl_FSLoadFile\fR call. If not implemented, Tcl
will fall back on a copy to native-temp followed by a \fBTcl_FSLoadFile\fR on
-that temporary copy. Therefore it need only be implemented if the
+that temporary copy. Therefore it need only be implemented if the
filesystem can load code directly, or it can be implemented simply to
return \fBTCL_ERROR\fR to disable load functionality in this filesystem
entirely.
.PP
.CS
-typedef int Tcl_FSLoadFileProc(
+typedef int \fBTcl_FSLoadFileProc\fR(
Tcl_Interp *\fIinterp\fR,
Tcl_Obj *\fIpathPtr\fR,
Tcl_LoadHandle *\fIhandlePtr\fR,
Tcl_FSUnloadFileProc *\fIunloadProcPtr\fR);
.CE
.PP
-Returns a standard Tcl completion code. If an error occurs, an error
-message is left in the \fIinterp\fR's result. The function dynamically loads a
-binary code file into memory. On a successful load, the \fIhandlePtr\fR
+Returns a standard Tcl completion code. If an error occurs, an error
+message is left in the \fIinterp\fR's result. The function dynamically loads a
+binary code file into memory. On a successful load, the \fIhandlePtr\fR
should be filled with a token for the dynamically loaded file, and the
\fIunloadProcPtr\fR should be filled in with the address of a procedure.
The unload procedure will be called with the given \fBTcl_LoadHandle\fR as its
-only parameter when Tcl needs to unload the file. For example, for the
+only parameter when Tcl needs to unload the file. For example, for the
native filesystem, the \fBTcl_LoadHandle\fR returned is currently a token
which can be used in the private \fBTclpFindSymbol\fR to access functions
-in the new code. Each filesystem is free to define the
-\fBTcl_LoadHandle\fR as it requires. Finally, if the
+in the new code. Each filesystem is free to define the
+\fBTcl_LoadHandle\fR as it requires. Finally, if the
filesystem determines it cannot support the file load action,
calling \fBTcl_SetErrno(EXDEV)\fR and returning a non-\fBTCL_OK\fR
result will tell Tcl to use its standard fallback mechanisms.
.SS UNLOADFILEPROC
.PP
-Function to unload a previously successfully loaded file. If load was
+Function to unload a previously successfully loaded file. If load was
implemented, then this should also be implemented, if there is any
cleanup action required.
.PP
.CS
-typedef void Tcl_FSUnloadFileProc(
+typedef void \fBTcl_FSUnloadFileProc\fR(
Tcl_LoadHandle \fIloadHandle\fR);
.CE
-.SS GETCWDPROC
+.SS GETCWDPROC
.PP
-Function to process a \fBTcl_FSGetCwd\fR call. Most filesystems need not
-implement this. It will usually only be called once, if \fBgetcwd\fR is
-called before \fBchdir\fR. May be NULL.
+Function to process a \fBTcl_FSGetCwd\fR call. Most filesystems need not
+implement this. It will usually only be called once, if \fBgetcwd\fR is
+called before \fBchdir\fR. May be NULL.
.PP
.CS
-typedef Tcl_Obj* Tcl_FSGetCwdProc(
+typedef Tcl_Obj *\fBTcl_FSGetCwdProc\fR(
Tcl_Interp *\fIinterp\fR);
.CE
.PP
If the filesystem supports a native notion of a current working
directory (which might perhaps change independent of Tcl), this
function should return that cwd as the result, or NULL if the current
-directory could not be determined (e.g. the user does not have
-appropriate permissions on the cwd directory). If NULL is returned, an
+directory could not be determined (e.g.\ the user does not have
+appropriate permissions on the cwd directory). If NULL is returned, an
error message is left in the \fIinterp\fR's result.
.SS CHDIRPROC
.PP
-Function to process a \fBTcl_FSChdir\fR call. If filesystems do not
+Function to process a \fBTcl_FSChdir\fR call. If filesystems do not
implement this, it will be emulated by a series of directory access
-checks. Otherwise, virtual filesystems which do implement it need only
+checks. Otherwise, virtual filesystems which do implement it need only
respond with a positive return result if the \fIpathPtr\fR is a valid,
-accessible directory in their filesystem. They need not remember the
+accessible directory in their filesystem. They need not remember the
result, since that will be automatically remembered for use by
\fBTcl_FSGetCwd\fR.
-Real filesystems should carry out the correct action (i.e. call the
+Real filesystems should carry out the correct action (i.e.\ call the
correct system \fBchdir\fR API).
.PP
.CS
-typedef int Tcl_FSChdirProc(
+typedef int \fBTcl_FSChdirProc\fR(
Tcl_Obj *\fIpathPtr\fR);
.CE
.PP
@@ -1550,6 +1639,6 @@ The \fBTcl_FSChdirProc\fR changes the applications current working
directory to the value specified in \fIpathPtr\fR. The function returns
-1 on error or 0 on success.
.SH "SEE ALSO"
-cd(n), file(n), load(n), open(n), pwd(n), unload(n)
+cd(n), file(n), filename(n), load(n), open(n), pwd(n), source(n), unload(n)
.SH KEYWORDS
-stat, access, filesystem, vfs, virtual
+stat, access, filesystem, vfs, virtual filesystem
diff --git a/doc/FindExec.3 b/doc/FindExec.3
index 0e225e9..e4b4ed0 100644
--- a/doc/FindExec.3
+++ b/doc/FindExec.3
@@ -45,6 +45,13 @@ application's executable, if possible. If it fails to find
the binary, then future calls to \fBinfo nameofexecutable\fR
will return an empty string.
.PP
+On Windows platforms this procedure is typically invoked as the very
+first thing in the application's main program as well; Its \fIargv[0]\fR
+argument is only used to indicate whether the executable has a stderr
+channel (any non-null value) or not (the value null). If \fBTcl_SetPanicProc\fR
+is never called and no debugger is running, this determines whether
+the panic message is sent to stderr or to a standard system dialog.
+.PP
\fBTcl_GetNameOfExecutable\fR simply returns a pointer to the
internal full path name of the executable file as computed by
\fBTcl_FindExecutable\fR. This procedure call is the C API
diff --git a/doc/GetIndex.3 b/doc/GetIndex.3
index 45d4e9c..d32561a 100644
--- a/doc/GetIndex.3
+++ b/doc/GetIndex.3
@@ -26,10 +26,10 @@ int
Interpreter to use for error reporting; if NULL, then no message is
provided on errors.
.AP Tcl_Obj *objPtr in/out
-The string value of this object is used to search through \fItablePtr\fR.
+The string value of this value is used to search through \fItablePtr\fR.
The internal representation is modified to hold the index of the matching
table entry.
-.AP "const char" **tablePtr in
+.AP "const char *const" *tablePtr in
An array of null-terminated strings. The end of the array is marked
by a NULL string pointer.
Note that references to the \fItablePtr\fR may be retained in the
@@ -55,12 +55,11 @@ operation. The only bit that is currently defined is \fBTCL_EXACT\fR.
The index of the string in \fItablePtr\fR that matches the value of
\fIobjPtr\fR is returned here.
.BE
-
.SH DESCRIPTION
.PP
These procedures provide an efficient way for looking up keywords,
-switch names, option names, and similar things where the value of
-an object must be one of a predefined set of values.
+switch names, option names, and similar things where the literal value of
+a Tcl value must be chosen from a predefined set.
\fBTcl_GetIndexFromObj\fR compares \fIobjPtr\fR against each of
the strings in \fItablePtr\fR to find a match. A match occurs if
\fIobjPtr\fR's string value is identical to one of the strings in
@@ -99,9 +98,7 @@ array of characters at \fItablePtr\fR+\fIoffset\fR bytes, etc.)
This is particularly useful when processing things like
\fBTk_ConfigurationSpec\fR, whose string keys are in the same place in
each of several array elements.
-
.SH "SEE ALSO"
-Tcl_WrongNumArgs
-
+prefix(n), Tcl_WrongNumArgs(3)
.SH KEYWORDS
-index, object, table lookup
+index, option, value, table lookup
diff --git a/doc/GetStdChan.3 b/doc/GetStdChan.3
index 045d15a..e76ad66 100644
--- a/doc/GetStdChan.3
+++ b/doc/GetStdChan.3
@@ -53,9 +53,11 @@ set to NULL.
.PP
If a non-NULL value for \fIchannel\fR is passed to \fBTcl_SetStdChannel\fR,
then that same value should be passed to \fBTcl_RegisterChannel\fR, like so:
+.PP
.CS
Tcl_RegisterChannel(NULL, channel);
.CE
+.PP
This is a workaround for a misfeature in \fBTcl_SetStdChannel\fR that it
fails to do some reference counting housekeeping. This misfeature cannot
be corrected without contradicting the assumptions of some existing
@@ -75,7 +77,7 @@ assigned starting with standard input, followed by standard output, with
standard error being last.
.PP
See \fBTcl_StandardChannels\fR for a general treatise about standard
-channels and the behaviour of the Tcl library with regard to them.
+channels and the behavior of the Tcl library with regard to them.
.SH "SEE ALSO"
Tcl_Close(3), Tcl_CreateChannel(3), Tcl_Main(3), tclsh(1)
diff --git a/doc/GetTime.3 b/doc/GetTime.3
index 14a9e8c..f4da364 100644
--- a/doc/GetTime.3
+++ b/doc/GetTime.3
@@ -19,27 +19,21 @@ Tcl_GetTime, Tcl_SetTimeProc, Tcl_QueryTimeProc \- get date and time
.sp
\fBTcl_QueryTimeProc\fR(\fIgetProcPtr, scaleProcPtr, clientDataPtr\fR)
.SH ARGUMENTS
-.AS "Tcl_Time *" timePtr out
-.AP "Tcl_Time *" timePtr out
+.AS Tcl_GetTimeProc *getProc in
+.AP Tcl_Time *timePtr out
Points to memory in which to store the date and time information.
-.AS "Tcl_GetTimeProc *" getProc in
-.AP "Tcl_GetTimeProc *" getProc in
+.AP Tcl_GetTimeProc getProc in
Pointer to handler function replacing \fBTcl_GetTime\fR's access to the OS.
-.AS "Tcl_ScaleTimeProc *" scaleProc in
-.AP "Tcl_ScaleTimeProc *" scaleProc in
+.AP Tcl_ScaleTimeProc scaleProc in
Pointer to handler function for the conversion of time delays in the
virtual domain to real-time.
-.AS "ClientData *" clientData in
-.AP "ClientData *" clientData in
+.AP ClientData clientData in
Value passed through to the two handler functions.
-.AS "Tcl_GetTimeProc **" getProcPtr inout
-.AP "Tcl_GetTimeProc **" getProcPtr inout
+.AP Tcl_GetTimeProc *getProcPtr out
Pointer to place the currently registered get handler function into.
-.AS "Tcl_ScaleTimeProc **" scaleProcPtr inout
-.AP "Tcl_ScaleTimeProc **" scaleProcPtr inout
+.AP Tcl_ScaleTimeProc *scaleProcPtr out
Pointer to place the currently registered scale handler function into.
-.AS "ClientData **" clientDataPtr inout
-.AP "ClientData **" clientDataPtr inout
+.AP ClientData *clientDataPtr out
Pointer to place the currently registered pass-through value into.
.BE
.SH DESCRIPTION
@@ -47,11 +41,12 @@ Pointer to place the currently registered pass-through value into.
The \fBTcl_GetTime\fR function retrieves the current time as a
\fITcl_Time\fR structure in memory the caller provides. This
structure has the following definition:
+.PP
.CS
typedef struct Tcl_Time {
- long sec;
- long usec;
-} Tcl_Time;
+ long \fIsec\fR;
+ long \fIusec\fR;
+} \fBTcl_Time\fR;
.CE
.PP
On return, the \fIsec\fR member of the structure is filled in with the
@@ -68,33 +63,47 @@ computer system. On multiprocessor variants of Windows, this number
may be limited to the 10- or 20-ms granularity of the system clock.
(On single-processor Windows systems, the \fIusec\fR field is derived
from a performance counter and is highly precise.)
+.SS "VIRTUALIZED TIME"
.PP
-The \fBTcl_SetTime\fR function registers two related handler functions
+The \fBTcl_SetTimeProc\fR function registers two related handler functions
with the core. The first handler function is a replacement for
\fBTcl_GetTime\fR, or rather the OS access made by
\fBTcl_GetTime\fR. The other handler function is used by the Tcl
notifier to convert wait/block times from the virtual domain into real
time.
.PP
-The \fBTcl_QueryTime\fR function returns the currently registered
+The \fBTcl_QueryTimeProc\fR function returns the currently registered
handler functions. If no external handlers were set then this will
return the standard handlers accessing and processing the native time
of the OS. The arguments to the function are allowed to be NULL; and
any argument which is NULL is ignored and not set.
.PP
-Any handler pair specified has to return data which is consistent
-between them. In other words, setting one handler of the pair to
-something assuming a 10-times slowdown, and the other handler of the
-pair to something assuming a two-times slowdown is wrong and not
-allowed.
+The signatures of the handler functions are as follows:
+.PP
+.CS
+typedef void \fBTcl_GetTimeProc\fR(
+ Tcl_Time *\fItimebuf\fR,
+ ClientData \fIclientData\fR);
+typedef void \fBTcl_ScaleTimeProc\fR(
+ Tcl_Time *\fItimebuf\fR,
+ ClientData \fIclientData\fR);
+.CE
+.PP
+The \fItimebuf\fR fields contain the time to manipulate, and the
+\fIclientData\fR fields contain a pointer supplied at the time the handler
+functions were registered.
+.PP
+Any handler pair specified has to return data which is consistent between
+them. In other words, setting one handler of the pair to something assuming a
+10-times slowdown, and the other handler of the pair to something assuming a
+two-times slowdown is wrong and not allowed.
.PP
-The set handler functions are allowed to run the delivered time
-backwards, however this should be avoided. We have to allow it as the
-native time can run backwards as the user can fiddle with the system
-time one way or other. Note that the insertion of the hooks will not
-change the behaviour of the Tcl core with regard to this situation,
-i.e. the existing behaviour is retained.
+The set handler functions are allowed to run the delivered time backwards,
+however this should be avoided. We have to allow it as the native time can run
+backwards as the user can fiddle with the system time one way or other. Note
+that the insertion of the hooks will not change the behavior of the Tcl core
+with regard to this situation, i.e. the existing behavior is retained.
.SH "SEE ALSO"
-clock
+clock(n)
.SH KEYWORDS
date, time
diff --git a/doc/Hash.3 b/doc/Hash.3
index 78b8459..73b89c5 100644
--- a/doc/Hash.3
+++ b/doc/Hash.3
@@ -35,7 +35,7 @@ ClientData
.sp
\fBTcl_SetHashValue\fR(\fIentryPtr, value\fR)
.sp
-char *
+void *
\fBTcl_GetHashKey\fR(\fItablePtr, entryPtr\fR)
.sp
Tcl_HashEntry *
@@ -47,7 +47,7 @@ Tcl_HashEntry *
char *
\fBTcl_HashStats\fR(\fItablePtr\fR)
.SH ARGUMENTS
-.AS Tcl_HashKeyType *searchPtr out
+.AS "const Tcl_HashKeyType" *searchPtr out
.AP Tcl_HashTable *tablePtr in
Address of hash table structure (for all procedures but
\fBTcl_InitHashTable\fR, this must have been initialized by
@@ -57,8 +57,8 @@ Kind of keys to use for new hash table. Must be either
\fBTCL_STRING_KEYS\fR, \fBTCL_ONE_WORD_KEYS\fR, \fBTCL_CUSTOM_TYPE_KEYS\fR,
\fBTCL_CUSTOM_PTR_KEYS\fR, or an integer value greater than 1.
.AP Tcl_HashKeyType *typePtr in
-Address of structure which defines the behaviour of the hash table.
-.AP "const char" *key in
+Address of structure which defines the behavior of the hash table.
+.AP "const void" *key in
Key to use for probe into table. Exact form depends on
\fIkeyType\fR used to create table.
.AP int *newPtr out
@@ -81,8 +81,8 @@ very quickly locate the entry, and hence its value. There may be at
most one entry in a hash table with a particular key, but many entries
may have the same value. Keys can take one of four forms: strings,
one-word values, integer arrays, or custom keys defined by a
-Tcl_HashKeyType structure (See section \fBTHE TCL_HASHKEYTYPE
-STRUCTURE\fR below). All of the keys in a given table have the same
+Tcl_HashKeyType structure (See section \fBTHE TCL_HASHKEYTYPE STRUCTURE\fR
+below). All of the keys in a given table have the same
form, which is specified when the table is initialized.
.PP
The value of a hash table entry can be anything that fits in the same
@@ -245,6 +245,7 @@ Extension writers can define new hash key types by defining four procedures,
initializing a \fBTcl_HashKeyType\fR structure to describe the type, and
calling \fBTcl_InitCustomHashTable\fR. The \fBTcl_HashKeyType\fR structure is
defined as follows:
+.PP
.CS
typedef struct Tcl_HashKeyType {
int \fIversion\fR;
@@ -253,7 +254,7 @@ typedef struct Tcl_HashKeyType {
Tcl_CompareHashKeysProc *\fIcompareKeysProc\fR;
Tcl_AllocHashEntryProc *\fIallocEntryProc\fR;
Tcl_FreeHashEntryProc *\fIfreeEntryProc\fR;
-} Tcl_HashKeyType;
+} \fBTcl_HashKeyType\fR;
.CE
.PP
The \fIversion\fR member is the version of the table. If this structure is
@@ -268,7 +269,6 @@ they do not use the lower bits. If this flag is set then the hash table will
attempt to rectify this by randomizing the bits and then using the upper N
bits as the index into the table.
.IP \fBTCL_HASH_KEY_SYSTEM_HASH\fR 25
-.VS 8.5
This flag forces Tcl to use the memory allocation procedures provided by the
operating system when allocating and freeing memory used to store the hash
table data structures, and not any of Tcl's own customized memory allocation
@@ -276,51 +276,59 @@ routines. This is important if the hash table is to be used in the
implementation of a custom set of allocation routines, or something that a
custom set of allocation routines might depend on, in order to avoid any
circular dependency.
-.VE 8.5
.PP
The \fIhashKeyProc\fR member contains the address of a function called to
calculate a hash value for the key.
+.PP
.CS
-typedef unsigned int (Tcl_HashKeyProc) (
+typedef unsigned int \fBTcl_HashKeyProc\fR(
Tcl_HashTable *\fItablePtr\fR,
void *\fIkeyPtr\fR);
.CE
+.PP
If this is NULL then \fIkeyPtr\fR is used and
\fBTCL_HASH_KEY_RANDOMIZE_HASH\fR is assumed.
.PP
The \fIcompareKeysProc\fR member contains the address of a function called to
compare two keys.
+.PP
.CS
-typedef int (Tcl_CompareHashKeysProc) (
+typedef int \fBTcl_CompareHashKeysProc\fR(
void *\fIkeyPtr\fR,
Tcl_HashEntry *\fIhPtr\fR);
.CE
+.PP
If this is NULL then the \fIkeyPtr\fR pointers are compared. If the keys do
not match then the function returns 0, otherwise it returns 1.
.PP
The \fIallocEntryProc\fR member contains the address of a function called to
allocate space for an entry and initialize the key and clientData.
+.PP
.CS
-typedef Tcl_HashEntry *(Tcl_AllocHashEntryProc) (
+typedef Tcl_HashEntry *\fBTcl_AllocHashEntryProc\fR(
Tcl_HashTable *\fItablePtr\fR,
void *\fIkeyPtr\fR);
.CE
-If this is NULL then Tcl_Alloc is used to allocate enough space for a
+.PP
+If this is NULL then \fBTcl_Alloc\fR is used to allocate enough space for a
Tcl_HashEntry, the key pointer is assigned to key.oneWordValue and the
clientData is set to NULL. String keys and array keys use this function to
allocate enough space for the entry and the key in one block, rather than
doing it in two blocks. This saves space for a pointer to the key from the
entry and another memory allocation. Tcl_Obj* keys use this function to
allocate enough space for an entry and increment the reference count on the
-object.
+value.
.PP
The \fIfreeEntryProc\fR member contains the address of a function called to
free space for an entry.
+.PP
.CS
-typedef void (Tcl_FreeHashEntryProc) (Tcl_HashEntry *\fIhPtr\fR);
+typedef void \fBTcl_FreeHashEntryProc\fR(
+ Tcl_HashEntry *\fIhPtr\fR);
.CE
-If this is NULL then Tcl_Free is used to free the space for the entry.
+.PP
+If this is NULL then \fBTcl_Free\fR is used to free the space for the entry.
Tcl_Obj* keys use this function to decrement the reference count on the
-object.
+value.
.SH KEYWORDS
hash table, key, lookup, search, value
diff --git a/doc/InitStubs.3 b/doc/InitStubs.3
index fe10a59..4dc62c6 100644
--- a/doc/InitStubs.3
+++ b/doc/InitStubs.3
@@ -63,9 +63,9 @@ Define the \fBUSE_TCL_STUBS\fR symbol. Typically, you would include the
\fB\-DUSE_TCL_STUBS\fR flag when compiling the extension.
.IP 3) 5
Link the extension with the Tcl stubs library instead of the standard
-Tcl library. On Unix platforms, the library name is
-\fIlibtclstub8.5.a\fR; on Windows platforms, the library name is
-\fItclstub85.lib\fR.
+Tcl library. For example, to use the Tcl 8.6 ABI on Unix platforms,
+the library name is \fIlibtclstub8.6.a\fR; on Windows platforms, the
+library name is \fItclstub86.lib\fR.
.PP
If the extension also requires the Tk API, it must also call
\fBTk_InitStubs\fR to initialize the Tk stubs interface and link
diff --git a/doc/IntObj.3 b/doc/IntObj.3
index 5cf677d..4b7b8a6 100644
--- a/doc/IntObj.3
+++ b/doc/IntObj.3
@@ -8,7 +8,7 @@
.TH Tcl_IntObj 3 8.5 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_NewIntObj, Tcl_NewLongObj, Tcl_NewWideIntObj, Tcl_SetIntObj, Tcl_SetLongObj, Tcl_SetWideIntObj, Tcl_GetIntFromObj, Tcl_GetLongFromObj, Tcl_GetWideIntFromObj, Tcl_NewBignumObj, Tcl_SetBignumObj, Tcl_GetBignumFromObj, Tcl_TakeBignumFromObj \- manipulate Tcl objects as integer values
+Tcl_NewIntObj, Tcl_NewLongObj, Tcl_NewWideIntObj, Tcl_SetIntObj, Tcl_SetLongObj, Tcl_SetWideIntObj, Tcl_GetIntFromObj, Tcl_GetLongFromObj, Tcl_GetWideIntFromObj, Tcl_NewBignumObj, Tcl_SetBignumObj, Tcl_GetBignumFromObj, Tcl_TakeBignumFromObj \- manipulate Tcl values as integers
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -38,7 +38,6 @@ int
\fBTcl_GetWideIntFromObj\fR(\fIinterp, objPtr, widePtr\fR)
.sp
.sp
-.VS 8.5
\fB#include <tclTomMath.h>\fR
.sp
Tcl_Obj *
@@ -54,21 +53,20 @@ int
.sp
int
\fBTcl_InitBignumFromDouble\fR(\fIinterp, doubleValue, bigValue\fR)
-.VE 8.5
.SH ARGUMENTS
.AS Tcl_WideInt doubleValue in/out
.AP int intValue in
-Integer value used to initialize or set a Tcl object.
+Integer value used to initialize or set a Tcl value.
.AP long longValue in
-Long integer value used to initialize or set a Tcl object.
+Long integer value used to initialize or set a Tcl value.
.AP Tcl_WideInt wideValue in
-Wide integer value used to initialize or set a Tcl object.
+Wide integer value used to initialize or set a Tcl value.
.AP Tcl_Obj *objPtr in/out
For \fBTcl_SetIntObj\fR, \fBTcl_SetLongObj\fR, \fBTcl_SetWideIntObj\fR,
-and \fBTcl_SetBignumObj\fR, this points to the object in which to store an
+and \fBTcl_SetBignumObj\fR, this points to the value in which to store an
integral value. For \fBTcl_GetIntFromObj\fR, \fBTcl_GetLongFromObj\fR,
\fBTcl_GetWideIntFromObj\fR, \fBTcl_GetBignumFromObj\fR, and
-\fBTcl_TakeBignumFromObj\fR, this refers to the object from which
+\fBTcl_TakeBignumFromObj\fR, this refers to the value from which
to retrieve an integral value.
.AP Tcl_Interp *interp in/out
When non-NULL, an error message is left here when integral value
@@ -80,21 +78,15 @@ Points to place to store the long integer value retrieved from \fIobjPtr\fR.
.AP Tcl_WideInt *widePtr out
Points to place to store the wide integer value retrieved from \fIobjPtr\fR.
.AP mp_int *bigValue in/out
-.VS 8.5
Points to a multi-precision integer structure declared by the LibTomMath
library.
-.VE 8.5
.AP double doubleValue in
-.VS 8.5
Double value from which the integer part is determined and
used to initialize a multi-precision integer value.
-.VE 8.5
.BE
-
.SH DESCRIPTION
.PP
-.VS 8.5
-These procedures are used to create, modify, and read Tcl objects
+These procedures are used to create, modify, and read Tcl values
that hold integral values.
.PP
The different routines exist to accommodate different integral types in C
@@ -111,22 +103,22 @@ by the LibTomMath multiple-precision integer library.
.PP
The \fBTcl_NewIntObj\fR, \fBTcl_NewLongObj\fR, \fBTcl_NewWideIntObj\fR,
and \fBTcl_NewBignumObj\fR routines each create and return a new
-Tcl object initialized to the integral value of the argument. The
-returned Tcl object is unshared.
+Tcl value initialized to the integral value of the argument. The
+returned Tcl value is unshared.
.PP
The \fBTcl_SetIntObj\fR, \fBTcl_SetLongObj\fR, \fBTcl_SetWideIntObj\fR,
and \fBTcl_SetBignumObj\fR routines each set the value of an existing
-Tcl object pointed to by \fIobjPtr\fR to the integral value provided
+Tcl value pointed to by \fIobjPtr\fR to the integral value provided
by the other argument. The \fIobjPtr\fR argument must point to an
-unshared Tcl object. Any attempt to set the value of a shared Tcl object
+unshared Tcl value. Any attempt to set the value of a shared Tcl value
violates Tcl's copy-on-write policy. Any existing string representation
-or internal representation in the unshared Tcl object will be freed
+or internal representation in the unshared Tcl value will be freed
as a consequence of setting the new value.
.PP
The \fBTcl_GetIntFromObj\fR, \fBTcl_GetLongFromObj\fR,
\fBTcl_GetWideIntFromObj\fR, \fBTcl_GetBignumFromObj\fR, and
\fBTcl_TakeBignumFromObj\fR routines attempt to retrieve an integral
-value of the appropriate type from the Tcl object \fIobjPtr\fR. If the
+value of the appropriate type from the Tcl value \fIobjPtr\fR. If the
attempt succeeds, then \fBTCL_OK\fR is returned, and the value is
written to the storage provided by the caller. The attempt might
fail if \fIobjPtr\fR does not hold an integral value, or if the
@@ -135,7 +127,7 @@ then \fBTCL_ERROR\fR is returned, and if \fIinterp\fR is non-NULL,
an error message is left in \fIinterp\fR. The \fBTcl_ObjType\fR
of \fIobjPtr\fR may be changed to make subsequent calls to the
same routine more efficient. Unlike the other functions,
-\fBTcl_TakeBignumFromObj\fR may set the content of the Tcl object
+\fBTcl_TakeBignumFromObj\fR may set the content of the Tcl value
\fIobjPtr\fR to an empty string in the process of retrieving the
multiple-precision integer value.
.PP
@@ -153,8 +145,8 @@ If anything later in the caller requires
The \fBTcl_InitBignumFromDouble\fR routine is a utility procedure
that extracts the integer part of \fIdoubleValue\fR and stores that
integer value in the \fBmp_int\fR value \fIbigValue\fR.
-.VE 8.5
.SH "SEE ALSO"
Tcl_NewObj, Tcl_DecrRefCount, Tcl_IncrRefCount, Tcl_GetObjResult
.SH KEYWORDS
-integer, integer object, integer type, internal representation, object, object type, string representation
+integer, integer value, integer type, internal representation, value,
+value type, string representation
diff --git a/doc/Interp.3 b/doc/Interp.3
index 0b1de03..d908057 100644
--- a/doc/Interp.3
+++ b/doc/Interp.3
@@ -15,28 +15,36 @@ Tcl_Interp \- client-visible fields of interpreter structures
\fB#include <tcl.h>\fR
.sp
typedef struct {
- char *\fIresult\fR;
- Tcl_FreeProc *\fIfreeProc\fR;
- int \fIerrorLine\fR;
-} Tcl_Interp;
+ char *\fIresult\fR;
+ Tcl_FreeProc *\fIfreeProc\fR;
+ int \fIerrorLine\fR;
+} \fBTcl_Interp\fR;
-typedef void Tcl_FreeProc(char *\fIblockPtr\fR);
+typedef void \fBTcl_FreeProc\fR(
+ char *\fIblockPtr\fR);
.BE
-
.SH DESCRIPTION
.PP
The \fBTcl_CreateInterp\fR procedure returns a pointer to a Tcl_Interp
-structure. This pointer is then passed into other Tcl procedures
-to process commands in the interpreter and perform other operations
-on the interpreter. Interpreter structures contain many fields
-that are used by Tcl, but only three that may be accessed by
-clients: \fIresult\fR, \fIfreeProc\fR, and \fIerrorLine\fR.
+structure. Callers of \fBTcl_CreateInterp\fR should use this pointer
+as an opaque token, suitable for nothing other than passing back to
+other routines in the Tcl interface. Accessing fields directly through
+the pointer as described below is no longer supported. The supported
+public routines \fBTcl_SetResult\fR, \fBTcl_GetResult\fR,
+\fBTcl_SetErrorLine\fR, \fBTcl_GetErrorLine\fR must be used instead.
.PP
-.VS 8.5
-\fBNote that access to all three fields, \fIresult\fB, \fIfreeProc\fB and
-\fIerrorLine\fB is deprecated.\fR Use \fBTcl_SetResult\fR,
-\fBTcl_GetResult\fR, and \fBTcl_GetReturnOptions\fR instead.
-.VE 8.5
+For legacy programs and extensions no longer being maintained, compiles
+against the Tcl 8.6 header files are only possible with the compiler
+directives
+.CS
+#define USE_INTERP_RESULT
+.CE
+and/or
+.CS
+#define USE_INTERP_ERRORLINE
+.CE
+depending on which fields of the \fBTcl_Interp\fR struct are accessed.
+These directives may be embedded in code or supplied via compiler options.
.PP
The \fIresult\fR and \fIfreeProc\fR fields are used to return
results or error messages from commands.
diff --git a/doc/Limit.3 b/doc/Limit.3
index 928ebe1..2941ee8 100644
--- a/doc/Limit.3
+++ b/doc/Limit.3
@@ -90,7 +90,6 @@ Arbitrary pointer-sized word used to pass some context to the
Function to call whenever a handler is deleted. May be NULL if the
\fIclientData\fR requires no deletion.
.BE
-
.SH DESCRIPTION
.PP
Tcl's interpreter resource limit subsystem allows for close control
@@ -162,7 +161,7 @@ the function that will actually be called; it should have the
following prototype:
.PP
.CS
-typedef void Tcl_LimitHandlerProc(
+typedef void \fBTcl_LimitHandlerProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR);
.CE
@@ -179,7 +178,7 @@ function to call to delete the \fIclientData\fR value. It may be
following prototype:
.PP
.CS
-typedef void Tcl_LimitHandlerDeleteProc(
+typedef void \fBTcl_LimitHandlerDeleteProc\fR(
ClientData \fIclientData\fR);
.CE
.PP
@@ -189,6 +188,5 @@ with \fBTcl_LimitAddHandler\fR) with exactly matching \fItype\fR,
\fIhandlerProc\fR and \fIclientData\fR arguments. This function
always invokes the \fIdeleteProc\fR on the \fIclientData\fR (unless
the \fIdeleteProc\fR was NULL or \fBTCL_STATIC\fR).
-
.SH KEYWORDS
interpreter, resource, limit, commands, time, callback
diff --git a/doc/LinkVar.3 b/doc/LinkVar.3
index 6361fb4..dc71a45 100644
--- a/doc/LinkVar.3
+++ b/doc/LinkVar.3
@@ -31,20 +31,14 @@ Name of global variable.
Address of C variable that is to be linked to \fIvarName\fR.
.AP int type in
Type of C variable. Must be one of \fBTCL_LINK_INT\fR,
-.VS 8.5
\fBTCL_LINK_UINT\fR, \fBTCL_LINK_CHAR\fR, \fBTCL_LINK_UCHAR\fR,
\fBTCL_LINK_SHORT\fR, \fBTCL_LINK_USHORT\fR, \fBTCL_LINK_LONG\fR,
-\fBTCL_LINK_ULONG\fR,
-.VE 8.5
-\fBTCL_LINK_WIDE_INT\fR,
-.VS 8.5
+\fBTCL_LINK_ULONG\fR, \fBTCL_LINK_WIDE_INT\fR,
\fBTCL_LINK_WIDE_UINT\fR, \fBTCL_LINK_FLOAT\fR,
-.VE 8.5
\fBTCL_LINK_DOUBLE\fR, \fBTCL_LINK_BOOLEAN\fR, or
\fBTCL_LINK_STRING\fR, optionally OR'ed with \fBTCL_LINK_READ_ONLY\fR
to make Tcl variable read-only.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_LinkVar\fR uses variable traces to keep the Tcl variable
@@ -68,7 +62,6 @@ Any value written into the Tcl variable must have a proper integer
form acceptable to \fBTcl_GetIntFromObj\fR; attempts to write
non-integer values into \fIvarName\fR will be rejected with
Tcl errors.
-.VS 8.5
.TP
\fBTCL_LINK_UINT\fR
The C variable is of type \fBunsigned int\fR.
@@ -122,7 +115,6 @@ integer form acceptable to \fBTcl_GetWideIntFromObj\fR and in the
platform's defined range for the \fBunsigned long\fR type; attempts to
write non-integer values (or values outside the range) into
\fIvarName\fR will be rejected with Tcl errors.
-.VE 8.5
.TP
\fBTCL_LINK_DOUBLE\fR
The C variable is of type \fBdouble\fR.
@@ -130,7 +122,6 @@ Any value written into the Tcl variable must have a proper real
form acceptable to \fBTcl_GetDoubleFromObj\fR; attempts to write
non-real values into \fIvarName\fR will be rejected with
Tcl errors.
-.VS 8.5
.TP
\fBTCL_LINK_FLOAT\fR
The C variable is of type \fBfloat\fR.
@@ -139,7 +130,6 @@ form acceptable to \fBTcl_GetDoubleFromObj\fR and must be within the
range acceptable for a \fBfloat\fR; attempts to
write non-real values (or values outside the range) into
\fIvarName\fR will be rejected with Tcl errors.
-.VE 8.5
.TP
\fBTCL_LINK_WIDE_INT\fR
The C variable is of type \fBTcl_WideInt\fR (which is an integer type
@@ -148,7 +138,6 @@ Any value written into the Tcl variable must have a proper integer
form acceptable to \fBTcl_GetWideIntFromObj\fR; attempts to write
non-integer values into \fIvarName\fR will be rejected with
Tcl errors.
-.VS 8.5
.TP
\fBTCL_LINK_WIDE_UINT\fR
The C variable is of type \fBTcl_WideUInt\fR (which is an unsigned
@@ -160,7 +149,6 @@ cast to unsigned);
.\" FIXME! Use bignums instead.
attempts to write non-integer values into \fIvarName\fR will be
rejected with Tcl errors.
-.VE 8.5
.TP
\fBTCL_LINK_BOOLEAN\fR
The C variable is of type \fBint\fR.
@@ -204,6 +192,16 @@ Tk widget that wishes to display the value of the variable), the
trace will not trigger when the C variable has changed.
\fBTcl_UpdateLinkedVar\fR ensures that any traces on the Tcl
variable are invoked.
-
+.PP
+Note that, as with any call to a Tcl interpreter, \fBTcl_UpdateLinkedVar\fR
+must be called from the same thread that created the interpreter. The safest
+mechanism is to ensure that the C variable is only ever updated from the same
+thread that created the interpreter (possibly in response to an event posted
+with \fBTcl_ThreadQueueEvent\fR), but when it is necessary to update the
+variable in a separate thread, it is advised that \fBTcl_AsyncMark\fR be used
+to indicate to the thread hosting the interpreter that it is ready to run
+\fBTcl_UpdateLinkedVar\fR.
+.SH "SEE ALSO"
+Tcl_TraceVar(3)
.SH KEYWORDS
-boolean, integer, link, read-only, real, string, traces, variable
+boolean, integer, link, read-only, real, string, trace, variable
diff --git a/doc/ListObj.3 b/doc/ListObj.3
index 443eafe..bc6917d 100644
--- a/doc/ListObj.3
+++ b/doc/ListObj.3
@@ -8,7 +8,7 @@
.TH Tcl_ListObj 3 8.0 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_ListObjAppendList, Tcl_ListObjAppendElement, Tcl_NewListObj, Tcl_SetListObj, Tcl_ListObjGetElements, Tcl_ListObjLength, Tcl_ListObjIndex, Tcl_ListObjReplace \- manipulate Tcl objects as lists
+Tcl_ListObjAppendList, Tcl_ListObjAppendElement, Tcl_NewListObj, Tcl_SetListObj, Tcl_ListObjGetElements, Tcl_ListObjLength, Tcl_ListObjIndex, Tcl_ListObjReplace \- manipulate Tcl values as lists
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -38,44 +38,44 @@ int
.SH ARGUMENTS
.AS "Tcl_Obj *const" *elemListPtr in/out
.AP Tcl_Interp *interp in
-If an error occurs while converting an object to be a list object,
-an error message is left in the interpreter's result object
+If an error occurs while converting a value to be a list value,
+an error message is left in the interpreter's result value
unless \fIinterp\fR is NULL.
.AP Tcl_Obj *listPtr in/out
-Points to the list object to be manipulated.
-If \fIlistPtr\fR does not already point to a list object,
+Points to the list value to be manipulated.
+If \fIlistPtr\fR does not already point to a list value,
an attempt will be made to convert it to one.
.AP Tcl_Obj *elemListPtr in/out
-For \fBTcl_ListObjAppendList\fR, this points to a list object
+For \fBTcl_ListObjAppendList\fR, this points to a list value
containing elements to be appended onto \fIlistPtr\fR.
Each element of *\fIelemListPtr\fR will
become a new element of \fIlistPtr\fR.
If *\fIelemListPtr\fR is not NULL and
-does not already point to a list object,
+does not already point to a list value,
an attempt will be made to convert it to one.
.AP Tcl_Obj *objPtr in
For \fBTcl_ListObjAppendElement\fR,
-points to the Tcl object that will be appended to \fIlistPtr\fR.
+points to the Tcl value that will be appended to \fIlistPtr\fR.
For \fBTcl_SetListObj\fR,
-this points to the Tcl object that will be converted to a list object
+this points to the Tcl value that will be converted to a list value
containing the \fIobjc\fR elements of the array referenced by \fIobjv\fR.
.AP int *objcPtr in
Points to location where \fBTcl_ListObjGetElements\fR
-stores the number of element objects in \fIlistPtr\fR.
+stores the number of element values in \fIlistPtr\fR.
.AP Tcl_Obj ***objvPtr out
A location where \fBTcl_ListObjGetElements\fR stores a pointer to an array
-of pointers to the element objects of \fIlistPtr\fR.
+of pointers to the element values of \fIlistPtr\fR.
.AP int objc in
-The number of Tcl objects that \fBTcl_NewListObj\fR
-will insert into a new list object,
+The number of Tcl values that \fBTcl_NewListObj\fR
+will insert into a new list value,
and \fBTcl_ListObjReplace\fR will insert into \fIlistPtr\fR.
For \fBTcl_SetListObj\fR,
-the number of Tcl objects to insert into \fIobjPtr\fR.
+the number of Tcl values to insert into \fIobjPtr\fR.
.AP "Tcl_Obj *const" objv[] in
-An array of pointers to objects.
-\fBTcl_NewListObj\fR will insert these objects into a new list object
+An array of pointers to values.
+\fBTcl_NewListObj\fR will insert these values into a new list value
and \fBTcl_ListObjReplace\fR will insert them into an existing \fIlistPtr\fR.
-Each object will become a separate list element.
+Each value will become a separate list element.
.AP int *intPtr out
Points to location where \fBTcl_ListObjLength\fR
stores the length of the list.
@@ -85,7 +85,7 @@ is to return.
The first element has index 0.
.AP Tcl_Obj **objPtrPtr out
Points to place where \fBTcl_ListObjIndex\fR is to store
-a pointer to the resulting list element object.
+a pointer to the resulting list element value.
.AP int first in
Index of the starting list element that \fBTcl_ListObjReplace\fR
is to replace.
@@ -97,85 +97,85 @@ is to replace.
.SH DESCRIPTION
.PP
-Tcl list objects have an internal representation that supports
+Tcl list values have an internal representation that supports
the efficient indexing and appending.
The procedures described in this man page are used to
-create, modify, index, and append to Tcl list objects from C code.
+create, modify, index, and append to Tcl list values from C code.
.PP
\fBTcl_ListObjAppendList\fR and \fBTcl_ListObjAppendElement\fR
-both add one or more objects
-to the end of the list object referenced by \fIlistPtr\fR.
-\fBTcl_ListObjAppendList\fR appends each element of the list object
+both add one or more values
+to the end of the list value referenced by \fIlistPtr\fR.
+\fBTcl_ListObjAppendList\fR appends each element of the list value
referenced by \fIelemListPtr\fR while
-\fBTcl_ListObjAppendElement\fR appends the single object
+\fBTcl_ListObjAppendElement\fR appends the single value
referenced by \fIobjPtr\fR.
-Both procedures will convert the object referenced by \fIlistPtr\fR
-to a list object if necessary.
+Both procedures will convert the value referenced by \fIlistPtr\fR
+to a list value if necessary.
If an error occurs during conversion,
both procedures return \fBTCL_ERROR\fR and leave an error message
-in the interpreter's result object if \fIinterp\fR is not NULL.
-Similarly, if \fIelemListPtr\fR does not already refer to a list object,
+in the interpreter's result value if \fIinterp\fR is not NULL.
+Similarly, if \fIelemListPtr\fR does not already refer to a list value,
\fBTcl_ListObjAppendList\fR will attempt to convert it to one
and if an error occurs during conversion,
will return \fBTCL_ERROR\fR
-and leave an error message in the interpreter's result object
+and leave an error message in the interpreter's result value
if interp is not NULL.
Both procedures invalidate any old string representation of \fIlistPtr\fR
-and, if it was converted to a list object,
+and, if it was converted to a list value,
free any old internal representation.
Similarly, \fBTcl_ListObjAppendList\fR frees any old internal representation
-of \fIelemListPtr\fR if it converts it to a list object.
+of \fIelemListPtr\fR if it converts it to a list value.
After appending each element in \fIelemListPtr\fR,
\fBTcl_ListObjAppendList\fR increments the element's reference count
since \fIlistPtr\fR now also refers to it.
For the same reason, \fBTcl_ListObjAppendElement\fR
increments \fIobjPtr\fR's reference count.
If no error occurs,
-the two procedures return \fBTCL_OK\fR after appending the objects.
+the two procedures return \fBTCL_OK\fR after appending the values.
.PP
\fBTcl_NewListObj\fR and \fBTcl_SetListObj\fR
-create a new object or modify an existing object to hold
+create a new value or modify an existing value to hold
the \fIobjc\fR elements of the array referenced by \fIobjv\fR
-where each element is a pointer to a Tcl object.
+where each element is a pointer to a Tcl value.
If \fIobjc\fR is less than or equal to zero,
-they return an empty object.
-The new object's string representation is left invalid.
+they return an empty value.
+The new value's string representation is left invalid.
The two procedures increment the reference counts
-of the elements in \fIobjc\fR since the list object now refers to them.
-The new list object returned by \fBTcl_NewListObj\fR
+of the elements in \fIobjc\fR since the list value now refers to them.
+The new list value returned by \fBTcl_NewListObj\fR
has reference count zero.
.PP
\fBTcl_ListObjGetElements\fR returns a count and a pointer to an array of
-the elements in a list object. It returns the count by storing it in the
+the elements in a list value. It returns the count by storing it in the
address \fIobjcPtr\fR. Similarly, it returns the array pointer by storing
it in the address \fIobjvPtr\fR.
The memory pointed to is managed by Tcl and should not be freed or written
to by the caller. If the list is empty, 0 is stored at \fIobjcPtr\fR
and NULL at \fIobjvPtr\fR.
-If \fIlistPtr\fR is not already a list object, \fBTcl_ListObjGetElements\fR
+If \fIlistPtr\fR is not already a list value, \fBTcl_ListObjGetElements\fR
will attempt to convert it to one; if the conversion fails, it returns
\fBTCL_ERROR\fR and leaves an error message in the interpreter's result
-object if \fIinterp\fR is not NULL.
+value if \fIinterp\fR is not NULL.
Otherwise it returns \fBTCL_OK\fR after storing the count and array pointer.
.PP
-\fBTcl_ListObjLength\fR returns the number of elements in the list object
+\fBTcl_ListObjLength\fR returns the number of elements in the list value
referenced by \fIlistPtr\fR.
It returns this count by storing an integer in the address \fIintPtr\fR.
-If the object is not already a list object,
+If the value is not already a list value,
\fBTcl_ListObjLength\fR will attempt to convert it to one;
if the conversion fails, it returns \fBTCL_ERROR\fR
-and leaves an error message in the interpreter's result object
+and leaves an error message in the interpreter's result value
if \fIinterp\fR is not NULL.
Otherwise it returns \fBTCL_OK\fR after storing the list's length.
.PP
-The procedure \fBTcl_ListObjIndex\fR returns a pointer to the object
+The procedure \fBTcl_ListObjIndex\fR returns a pointer to the value
at element \fIindex\fR in the list referenced by \fIlistPtr\fR.
-It returns this object by storing a pointer to it
+It returns this value by storing a pointer to it
in the address \fIobjPtrPtr\fR.
-If \fIlistPtr\fR does not already refer to a list object,
+If \fIlistPtr\fR does not already refer to a list value,
\fBTcl_ListObjIndex\fR will attempt to convert it to one;
if the conversion fails, it returns \fBTCL_ERROR\fR
-and leaves an error message in the interpreter's result object
+and leaves an error message in the interpreter's result value
if \fIinterp\fR is not NULL.
If the index is out of range,
that is, \fIindex\fR is negative or
@@ -183,19 +183,19 @@ greater than or equal to the number of elements in the list,
\fBTcl_ListObjIndex\fR stores a NULL in \fIobjPtrPtr\fR
and returns \fBTCL_OK\fR.
Otherwise it returns \fBTCL_OK\fR after storing the element's
-object pointer.
+value pointer.
The reference count for the list element is not incremented;
the caller must do that if it needs to retain a pointer to the element.
.PP
\fBTcl_ListObjReplace\fR replaces zero or more elements
of the list referenced by \fIlistPtr\fR
-with the \fIobjc\fR objects in the array referenced by \fIobjv\fR.
-If \fIlistPtr\fR does not point to a list object,
+with the \fIobjc\fR values in the array referenced by \fIobjv\fR.
+If \fIlistPtr\fR does not point to a list value,
\fBTcl_ListObjReplace\fR will attempt to convert it to one;
if the conversion fails, it returns \fBTCL_ERROR\fR
-and leaves an error message in the interpreter's result object
+and leaves an error message in the interpreter's result value
if \fIinterp\fR is not NULL.
-Otherwise, it returns \fBTCL_OK\fR after replacing the objects.
+Otherwise, it returns \fBTCL_OK\fR after replacing the values.
If \fIobjv\fR is NULL, no new elements are added.
If the argument \fIfirst\fR is zero or negative,
it refers to the first element.
@@ -210,28 +210,28 @@ designated by \fIfirst\fR.
old string representation.
The reference counts of any elements inserted from \fIobjv\fR
are incremented since the resulting list now refers to them.
-Similarly, the reference counts for any replaced objects are decremented.
+Similarly, the reference counts for any replaced values are decremented.
.PP
Because \fBTcl_ListObjReplace\fR combines
both element insertion and deletion,
it can be used to implement a number of list operations.
-For example, the following code inserts the \fIobjc\fR objects
-referenced by the array of object pointers \fIobjv\fR
+For example, the following code inserts the \fIobjc\fR values
+referenced by the array of value pointers \fIobjv\fR
just before the element \fIindex\fR of the list referenced by \fIlistPtr\fR:
.PP
.CS
-result = Tcl_ListObjReplace(interp, listPtr, index, 0,
+result = \fBTcl_ListObjReplace\fR(interp, listPtr, index, 0,
objc, objv);
.CE
.PP
-Similarly, the following code appends the \fIobjc\fR objects
+Similarly, the following code appends the \fIobjc\fR values
referenced by the array \fIobjv\fR
to the end of the list \fIlistPtr\fR:
.PP
.CS
-result = Tcl_ListObjLength(interp, listPtr, &length);
+result = \fBTcl_ListObjLength\fR(interp, listPtr, &length);
if (result == TCL_OK) {
- result = Tcl_ListObjReplace(interp, listPtr, length, 0,
+ result = \fBTcl_ListObjReplace\fR(interp, listPtr, length, 0,
objc, objv);
}
.CE
@@ -241,10 +241,11 @@ by simply calling \fBTcl_ListObjReplace\fR
with a NULL \fIobjvPtr\fR:
.PP
.CS
-result = Tcl_ListObjReplace(interp, listPtr, first, count,
+result = \fBTcl_ListObjReplace\fR(interp, listPtr, first, count,
0, NULL);
.CE
.SH "SEE ALSO"
-Tcl_NewObj, Tcl_DecrRefCount, Tcl_IncrRefCount, Tcl_GetObjResult
+Tcl_NewObj(3), Tcl_DecrRefCount(3), Tcl_IncrRefCount(3), Tcl_GetObjResult(3)
.SH KEYWORDS
-append, index, insert, internal representation, length, list, list object, list type, object, object type, replace, string representation
+append, index, insert, internal representation, length, list, list value,
+list type, value, value type, replace, string representation
diff --git a/doc/Load.3 b/doc/Load.3
new file mode 100644
index 0000000..bbfc662
--- /dev/null
+++ b/doc/Load.3
@@ -0,0 +1,70 @@
+'\"
+'\" Copyright (c) 2009-2010 Kevin B. Kenny
+'\" Copyright (c) 2010 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH Load 3 8.6 Tcl "Tcl Library Procedures"
+.BS
+.SH NAME
+Tcl_LoadFile, Tcl_FindSymbol \- platform-independent dynamic library loading
+.SH SYNOPSIS
+.nf
+\fB#include <tcl.h>\fR
+.sp
+int
+\fBTcl_LoadFile\fR(\fIinterp, pathPtr, symbols, flags, procPtrs, loadHandlePtr\fR)
+.sp
+void *
+\fBTcl_FindSymbol\fR(\fIinterp, loadHandle, symbol\fR)
+.SH ARGUMENTS
+.AS Tcl_LoadHandle loadHandle in
+.AP Tcl_Interp *interp in
+Interpreter to use for reporting error messages.
+.AP Tcl_Obj *pathPtr in
+The name of the file to load. If it is a single name, the library search path
+of the current environment will be used to resolve it.
+.AP "const char *const" symbols[] in
+Array of names of symbols to be resolved during the load of the library, or
+NULL if no symbols are to be resolved. If an array is given, the last entry in
+the array must be NULL.
+.AP int flags in
+The value should normally be 0, but \fITCL_LOAD_GLOBAL\fR or \fITCL_LOAD_LAZY\fR
+or a combination of those two is allowed as well.
+.AP void *procPtrs out
+Points to an array that will hold the addresses of the functions described in
+the \fIsymbols\fR argument. Should be NULL if no symbols are to be resolved.
+.AP Tcl_LoadHandle *loadHandlePtr out
+Points to a variable that will hold the handle to the abstract token
+describing the library that has been loaded.
+.AP Tcl_LoadHandle loadHandle in
+Abstract token describing the library to look up a symbol in.
+.AP "const char" *symbol in
+The name of the symbol to look up.
+.BE
+.SH DESCRIPTION
+.PP
+\fBTcl_LoadFile\fR loads a file from the filesystem (including potentially any
+virtual filesystem that has been installed) and provides a handle to it that
+may be used in further operations. The \fIsymbols\fR array, if non-NULL,
+supplies a set of names of symbols (typically functions) that must be resolved
+from the library and which will be stored in the array indicated by
+\fIprocPtrs\fR. If any of the symbols is not resolved, the loading of the file
+will fail with an error message left in the interpreter (if that is non-NULL).
+The result of \fBTcl_LoadFile\fR is a standard Tcl error code. The library may
+be unloaded with \fBTcl_FSUnloadFile\fR.
+.PP
+\fBTcl_FindSymbol\fR locates a symbol in a loaded library and returns it. If
+the symbol cannot be found, it returns NULL and sets an error message in the
+given \fIinterp\fR (if that is non-NULL). Note that it is unsafe to use this
+operation on a handle that has been passed to \fBTcl_FSUnloadFile\fR.
+.SH "SEE ALSO"
+Tcl_FSLoadFile(3), Tcl_FSUnloadFile(3), load(n), unload(n)
+.SH KEYWORDS
+binary code, loading, shared library
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/Method.3 b/doc/Method.3
new file mode 100644
index 0000000..2537d5e
--- /dev/null
+++ b/doc/Method.3
@@ -0,0 +1,249 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH Tcl_Method 3 0.1 TclOO "TclOO Library Functions"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+Tcl_ClassSetConstructor, Tcl_ClassSetDestructor, Tcl_MethodDeclarerClass, Tcl_MethodDeclarerObject, Tcl_MethodIsPublic, Tcl_MethodIsType, Tcl_MethodName, Tcl_NewInstanceMethod, Tcl_NewMethod, Tcl_ObjectContextInvokeNext, Tcl_ObjectContextIsFiltering, Tcl_ObjectContextMethod, Tcl_ObjectContextObject, Tcl_ObjectContextSkippedArgs \- manipulate methods and method-call contexts
+.SH SYNOPSIS
+.nf
+\fB#include <tclOO.h>\fR
+.sp
+Tcl_Method
+\fBTcl_NewMethod\fR(\fIinterp, class, nameObj, isPublic,
+ methodTypePtr, clientData\fR)
+.sp
+Tcl_Method
+\fBTcl_NewInstanceMethod\fR(\fIinterp, object, nameObj, isPublic,
+ methodTypePtr, clientData\fR)
+.sp
+\fBTcl_ClassSetConstructor\fR(\fIinterp, class, method\fR)
+.sp
+\fBTcl_ClassSetDestructor\fR(\fIinterp, class, method\fR)
+.sp
+Tcl_Class
+\fBTcl_MethodDeclarerClass\fR(\fImethod\fR)
+.sp
+Tcl_Object
+\fBTcl_MethodDeclarerObject\fR(\fImethod\fR)
+.sp
+Tcl_Obj *
+\fBTcl_MethodName\fR(\fImethod\fR)
+.sp
+int
+\fBTcl_MethodIsPublic\fR(\fImethod\fR)
+.sp
+int
+\fBTcl_MethodIsType\fR(\fImethod, methodTypePtr, clientDataPtr\fR)
+.sp
+int
+\fBTcl_ObjectContextInvokeNext\fR(\fIinterp, context, objc, objv, skip\fR)
+.sp
+int
+\fBTcl_ObjectContextIsFiltering\fR(\fIcontext\fR)
+.sp
+Tcl_Method
+\fBTcl_ObjectContextMethod\fR(\fIcontext\fR)
+.sp
+Tcl_Object
+\fBTcl_ObjectContextObject\fR(\fIcontext\fR)
+.sp
+int
+\fBTcl_ObjectContextSkippedArgs\fR(\fIcontext\fR)
+.SH ARGUMENTS
+.AS ClientData clientData in
+.AP Tcl_Interp *interp in/out
+The interpreter holding the object or class to create or update a method in.
+.AP Tcl_Object object in
+The object to create the method in.
+.AP Tcl_Class class in
+The class to create the method in.
+.AP Tcl_Obj *nameObj in
+The name of the method to create. Should not be NULL unless creating
+constructors or destructors.
+.AP int isPublic in
+A boolean flag saying whether the method is to be exported.
+.AP Tcl_MethodType *methodTypePtr in
+A description of the type of the method to create, or the type of method to
+compare against.
+.AP ClientData clientData in
+A piece of data that is passed to the implementation of the method without
+interpretation.
+.AP ClientData *clientDataPtr out
+A pointer to a variable in which to write the \fIclientData\fR value supplied
+when the method was created. If NULL, the \fIclientData\fR value will not be
+retrieved.
+.AP Tcl_Method method in
+A reference to a method to query.
+.AP Tcl_ObjectContext context in
+A reference to a method-call context. Note that client code \fImust not\fR
+retain a reference to a context.
+.AP int objc in
+The number of arguments to pass to the method implementation.
+.AP "Tcl_Obj *const" *objv in
+An array of arguments to pass to the method implementation.
+.AP int skip in
+The number of arguments passed to the method implementation that do not
+represent "real" arguments.
+.BE
+.SH DESCRIPTION
+.PP
+A method is an operation carried out on an object that is associated with the
+object. Every method must be attached to either an object or a class; methods
+attached to a class are associated with all instances (direct and indirect) of
+that class.
+.PP
+Given a method, the entity that declared it can be found using
+\fBTcl_MethodDeclarerClass\fR which returns the class that the method is
+attached to (or NULL if the method is not attached to any class) and
+\fBTcl_MethodDeclarerObject\fR which returns the object that the method is
+attached to (or NULL if the method is not attached to an object). The name of
+the method can be retrieved with \fBTcl_MethodName\fR and whether the method
+is exported is retrieved with \fBTcl_MethodIsPublic\fR. The type of the method
+can also be introspected upon to a limited degree; the function
+\fBTcl_MethodIsType\fR returns whether a method is of a particular type,
+assigning the per-method \fIclientData\fR to the variable pointed to by
+\fIclientDataPtr\fR if (that is non-NULL) if the type is matched.
+.SS "METHOD CREATION"
+.PP
+Methods are created by \fBTcl_NewMethod\fR and \fBTcl_NewInstanceMethod\fR,
+which
+create a method attached to a class or an object respectively. In both cases,
+the \fInameObj\fR argument gives the name of the method to create, the
+\fIisPublic\fR argument states whether the method should be exported
+initially, the \fImethodTypePtr\fR argument describes the implementation of
+the method (see the \fBMETHOD TYPES\fR section below) and the \fIclientData\fR
+argument gives some implementation-specific data that is passed on to the
+implementation of the method when it is called.
+.PP
+When the \fInameObj\fR argument to \fBTcl_NewMethod\fR is NULL, an
+unnamed method is created, which is used for constructors and destructors.
+Constructors should be installed into their class using the
+\fBTcl_ClassSetConstructor\fR function, and destructors (which must not
+require any arguments) should be installed into their class using the
+\fBTcl_ClassSetDestructor\fR function. Unnamed methods should not be used for
+any other purpose, and named methods should not be used as either constructors
+or destructors. Also note that a NULL \fImethodTypePtr\fR is used to provide
+internal signaling, and should not be used in client code.
+.SS "METHOD CALL CONTEXTS"
+.PP
+When a method is called, a method-call context reference is passed in as one
+of the arguments to the implementation function. This context can be inspected
+to provide information about the caller, but should not be retained beyond the
+moment when the method call terminates.
+.PP
+The method that is being called can be retrieved from the context by using
+\fBTcl_ObjectContextMethod\fR, and the object that caused the method to be
+invoked can be retrieved with \fBTcl_ObjectContextObject\fR. The number of
+arguments that are to be skipped (e.g. the object name and method name in a
+normal method call) is read with \fBTcl_ObjectContextSkippedArgs\fR, and the
+context can also report whether it is working as a filter for another method
+through \fBTcl_ObjectContextIsFiltering\fR.
+.PP
+During the execution of a method, the method implementation may choose to
+invoke the stages of the method call chain that come after the current method
+implementation. This (the core of the \fBnext\fR command) is done using
+\fBTcl_ObjectContextInvokeNext\fR. Note that this function does not manipulate
+the call-frame stack, unlike the \fBnext\fR command; if the method
+implementation has pushed one or more extra frames on the stack as part of its
+implementation, it is also responsible for temporarily popping those frames
+from the stack while the \fBTcl_ObjectContextInvokeNext\fR function is
+executing. Note also that the method-call context is \fInever\fR deleted
+during the execution of this function.
+.SH "METHOD TYPES"
+.PP
+The types of methods are described by a pointer to a Tcl_MethodType structure,
+which is defined as:
+.PP
+.CS
+typedef struct {
+ int \fIversion\fR;
+ const char *\fIname\fR;
+ Tcl_MethodCallProc *\fIcallProc\fR;
+ Tcl_MethodDeleteProc *\fIdeleteProc\fR;
+ Tcl_CloneProc *\fIcloneProc\fR;
+} \fBTcl_MethodType\fR;
+.CE
+.PP
+The \fIversion\fR field allows for future expansion of the structure, and
+should always be declared equal to TCL_OO_METHOD_VERSION_CURRENT. The
+\fIname\fR field provides a human-readable name for the type, and is the value
+that is exposed via the \fBinfo class methodtype\fR and
+\fBinfo object methodtype\fR Tcl commands.
+.PP
+The \fIcallProc\fR field gives a function that is called when the method is
+invoked; it must never be NULL.
+.PP
+The \fIdeleteProc\fR field gives a function that is used to delete a
+particular method, and is called when the method is replaced or removed; if
+the field is NULL, it is assumed that the method's \fIclientData\fR needs no
+special action to delete.
+.PP
+The \fIcloneProc\fR field is either a function that is used to copy a method's
+\fIclientData\fR (as part of \fBTcl_CopyObjectInstance\fR) or NULL to indicate
+that the \fIclientData\fR can just be copied directly.
+.SS "TCL_METHODCALLPROC FUNCTION SIGNATURE"
+.PP
+Functions matching this signature are called when the method is invoked.
+.PP
+.CS
+typedef int \fBTcl_MethodCallProc\fR(
+ ClientData \fIclientData\fR,
+ Tcl_Interp *\fIinterp\fR,
+ Tcl_ObjectContext \fIobjectContext\fR,
+ int \fIobjc\fR,
+ Tcl_Obj *const *\fIobjv\fR);
+.CE
+.PP
+The \fIclientData\fR argument to a Tcl_MethodCallProc is the value that was
+given when the method was created, the \fIinterp\fR is a place in which to
+execute scripts and access variables as well as being where to put the result
+of the method, and the \fIobjc\fR and \fIobjv\fR fields give the parameter
+objects to the method. The calling context of the method can be discovered
+through the \fIobjectContext\fR argument, and the return value from a
+Tcl_MethodCallProc is any Tcl return code (e.g. TCL_OK, TCL_ERROR).
+.SS "TCL_METHODDELETEPROC FUNCTION SIGNATURE"
+.PP
+Functions matching this signature are used when a method is deleted, whether
+through a new method being created or because the object or class is deleted.
+.PP
+.CS
+typedef void \fBTcl_MethodDeleteProc\fR(
+ ClientData \fIclientData\fR);
+.CE
+.PP
+The \fIclientData\fR argument to a Tcl_MethodDeleteProc will be the same as
+the value passed to the \fIclientData\fR argument to \fBTcl_NewMethod\fR or
+\fBTcl_NewInstanceMethod\fR when the method was created.
+.SS "TCL_CLONEPROC FUNCTION SIGNATURE"
+.PP
+Functions matching this signature are used to copy a method when the object or
+class is copied using \fBTcl_CopyObjectInstance\fR (or \fBoo::copy\fR).
+.PP
+.CS
+typedef int \fBTcl_CloneProc\fR(
+ Tcl_Interp *\fIinterp\fR,
+ ClientData \fIoldClientData\fR,
+ ClientData *\fInewClientDataPtr\fR);
+.CE
+.PP
+The \fIinterp\fR argument gives a place to write an error message when the
+attempt to clone the object is to fail, in which case the clone procedure must
+also return TCL_ERROR; it should return TCL_OK otherwise.
+The \fIoldClientData\fR field to a Tcl_CloneProc gives the value from the
+method being copied from, and the \fInewClientDataPtr\fR field will point to
+a variable in which to write the value for the method being copied to.
+.SH "SEE ALSO"
+Class(3), oo::class(n), oo::define(n), oo::object(n)
+.SH KEYWORDS
+constructor, method, object
+
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/NRE.3 b/doc/NRE.3
new file mode 100644
index 0000000..ce609e6
--- /dev/null
+++ b/doc/NRE.3
@@ -0,0 +1,328 @@
+.\"
+.\" Copyright (c) 2008 by Kevin B. Kenny.
+.\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH NRE 3 8.6 Tcl "Tcl Library Procedures"
+.BS
+.SH NAME
+Tcl_NRCreateCommand, Tcl_NRCallObjProc, Tcl_NREvalObj, Tcl_NREvalObjv, Tcl_NRCmdSwap, Tcl_NRExprObj, Tcl_NRAddCallback \- Non-Recursive (stackless) evaluation of Tcl scripts.
+.SH SYNOPSIS
+.nf
+\fB#include <tcl.h>\fR
+.sp
+Tcl_Command
+\fBTcl_NRCreateCommand\fR(\fIinterp, cmdName, proc, nreProc, clientData,
+ deleteProc\fR)
+.sp
+int
+\fBTcl_NRCallObjProc\fR(\fIinterp, nreProc, clientData, objc, objv\fR)
+.sp
+int
+\fBTcl_NREvalObj\fR(\fIinterp, objPtr, flags\fR)
+.sp
+int
+\fBTcl_NREvalObjv\fR(\fIinterp, objc, objv, flags\fR)
+.sp
+int
+\fBTcl_NRCmdSwap\fR(\fIinterp, cmd, objc, objv, flags\fR)
+.sp
+int
+\fBTcl_NRExprObj\fR(\fIinterp, objPtr, resultPtr\fR)
+.sp
+void
+\fBTcl_NRAddCallback\fR(\fIinterp, postProcPtr, data0, data1, data2, data3\fR)
+.fi
+.SH ARGUMENTS
+.AS Tcl_CmdDeleteProc *interp in
+.AP Tcl_Interp *interp in
+Interpreter in which to create or evaluate a command.
+.AP char *cmdName in
+Name of a new command to create.
+.AP Tcl_ObjCmdProc *proc in
+Implementation of a command that will be called whenever \fIcmdName\fR
+is invoked as a command in the unoptimized way.
+.AP Tcl_ObjCmdProc *nreProc in
+Implementation of a command that will be called whenever \fIcmdName\fR
+is invoked and requested to conserve the C stack.
+.AP ClientData clientData in
+Arbitrary one-word value that will be passed to \fIproc\fR, \fInreProc\fR,
+\fIdeleteProc\fR and \fIobjProc\fR.
+.AP Tcl_CmdDeleteProc *deleteProc in/out
+Procedure to call before \fIcmdName\fR is deleted from the interpreter.
+This procedure allows for command-specific cleanup. If \fIdeleteProc\fR
+is \fBNULL\fR, then no procedure is called before the command is deleted.
+.AP int objc in
+Count of parameters provided to the implementation of a command.
+.AP Tcl_Obj **objv in
+Pointer to an array of Tcl values. Each value holds the value of a
+single word in the command to execute.
+.AP Tcl_Obj *objPtr in
+Pointer to a Tcl_Obj whose value is a script or expression to execute.
+.AP int flags in
+ORed combination of flag bits that specify additional options.
+\fBTCL_EVAL_GLOBAL\fR is the only flag that is currently supported.
+.\" TODO: This is a lie. But kbk didn't grasp TCL_EVAL_INVOKE and
+.\" TCL_EVAL_NOERR well enough to document them.
+.AP Tcl_Command cmd in
+Token for a command that is to be used instead of the currently
+executing command.
+.AP Tcl_Obj *resultPtr out
+Pointer to an unshared Tcl_Obj where the result of expression
+evaluation is written.
+.AP Tcl_NRPostProc *postProcPtr in
+Pointer to a function that will be invoked when the command currently
+executing in the interpreter designated by \fIinterp\fR completes.
+.AP ClientData data0 in
+.AP ClientData data1 in
+.AP ClientData data2 in
+.AP ClientData data3 in
+\fIdata0\fR through \fIdata3\fR are four one-word values that will be passed
+to the function designated by \fIpostProcPtr\fR when it is invoked.
+.BE
+.SH DESCRIPTION
+.PP
+This series of C functions provides an interface whereby commands that
+are implemented in C can be evaluated, and invoke Tcl commands scripts
+and scripts, without consuming space on the C stack. The non-recursive
+evaluation is done by installing a \fItrampoline\fR, a small piece of
+code that invokes a command or script, and then executes a series of
+callbacks when the command or script returns.
+.PP
+The \fBTcl_NRCreateCommand\fR function creates a Tcl command in the
+interpreter designated by \fIinterp\fR that is prepared to handle
+nonrecursive evaluation with a trampoline. The \fIcmdName\fR argument
+gives the name of the new command. If \fIcmdName\fR contains any
+namespace qualifiers, then the new command is added to the specified
+namespace; otherwise, it is added to the global namespace. \fIproc\fR
+gives the procedure that will be called when the interpreter wishes to
+evaluate the command in an unoptimized manner, and \fInreProc\fR is
+the procedure that will be called when the interpreter wishes to
+evaluate the command using a trampoline. \fIdeleteProc\fR is a
+function that will be called before the command is deleted from the
+interpreter. When any of the three functions is invoked, it is passed
+the \fIclientData\fR parameter.
+.PP
+\fBTcl_NRCreateCommand\fR deletes any existing command
+\fIname\fR already associated with the interpreter
+(however see below for an exception where the existing command
+is not deleted).
+It returns a token that may be used to refer
+to the command in subsequent calls to \fBTcl_GetCommandName\fR.
+If \fBTcl_NRCreateCommand\fR is called for an interpreter that is in
+the process of being deleted, then it does not create a new command,
+does not delete any existing command of the same name, and returns NULL.
+.PP
+The \fIproc\fR and \fInreProc\fR function are expected to conform to
+all the rules set forth for the \fIproc\fR argument to
+\fBTcl_CreateObjCommand\fR(3) (\fIq.v.\fR).
+.PP
+When a command that is written to cope with evaluation via trampoline
+is invoked without a trampoline on the stack, it will usually respond
+to the invocation by creating a trampoline and calling the
+trampoline-enabled implementation of the same command. This call is done by
+means of \fBTcl_NRCallObjProc\fR. In the call to
+\fBTcl_NRCallObjProc\fR, the \fIinterp\fR, \fIclientData\fR,
+\fIobjc\fR and \fIobjv\fR parameters should be the same ones that were
+passed to \fIproc\fR. The \fInreProc\fR parameter should designate the
+trampoline-enabled implementation of the command.
+.PP
+\fBTcl_NREvalObj\fR arranges for the script contained in \fIobjPtr\fR
+to be evaluated in the interpreter designated by \fIinterp\fR after
+the current command (which must be trampoline-enabled) returns. It is
+the method by which a command may invoke a script without consuming
+space on the C stack. Similarly, \fBTcl_NREvalObjv\fR arranges to
+invoke a single Tcl command whose words have already been separated
+and substituted. The \fIobjc\fR and \fIobjv\fR parameters give the
+words of the command to be evaluated when execution reaches the
+trampoline.
+.PP
+\fBTcl_NRCmdSwap\fR allows for trampoline evaluation of a command whose
+resolution is already known. The \fIcmd\fR parameter gives a
+\fBTcl_Command\fR token (returned from \fBTcl_CreateObjCommand\fR or
+\fBTcl_GetCommandFromObj\fR) identifying the command to be invoked in
+the trampoline; this command must match the word in \fIobjv[0]\fR.
+The remaining arguments are as for \fBTcl_NREvalObjv\fR.
+.PP
+\fBTcl_NREvalObj\fR, \fBTcl_NREvalObjv\fR and \fBTcl_NRCmdSwap\fR
+all accept a \fIflags\fR parameter, which is an OR-ed-together set of
+bits to control evaluation. At the present time, the only supported flag
+available to callers is \fBTCL_EVAL_GLOBAL\fR.
+.\" TODO: Again, this is a lie. Do we want to explain TCL_EVAL_INVOKE
+.\" and TCL_EVAL_NOERR?
+If the \fBTCL_EVAL_GLOBAL\fR flag is set, the script or command is
+evaluated in the global namespace. If it is not set, it is evaluated
+in the current namespace.
+.PP
+\fBTcl_NRExprObj\fR arranges for the expression contained in \fIobjPtr\fR
+to be evaluated in the interpreter designated by \fIinterp\fR after
+the current command (which must be trampoline-enabled) returns. It is
+the method by which a command may evaluate a Tcl expression without consuming
+space on the C stack. The argument \fIresultPtr\fR is a pointer to an
+unshared Tcl_Obj where the result of expression evaluation is to be written.
+If expression evaluation returns any code other than TCL_OK, the
+\fIresultPtr\fR value is left untouched.
+.PP
+All of the routines return \fBTCL_OK\fR if command or expression invocation
+has been scheduled successfully. If for any reason the scheduling cannot
+be completed (for example, if the interpreter is unable to find
+the requested command), they return \fBTCL_ERROR\fR with an
+appropriate message left in the interpreter's result.
+.PP
+\fBTcl_NRAddCallback\fR arranges to have a C function called when the
+current trampoline-enabled command in the Tcl interpreter designated
+by \fIinterp\fR returns. The \fIpostProcPtr\fR argument is a pointer
+to the callback function, which must have arguments and return value
+consistent with the \fBTcl_NRPostProc\fR data type:
+.PP
+.CS
+typedef int
+\fBTcl_NRPostProc\fR(
+ \fBClientData\fR \fIdata\fR[],
+ \fBTcl_Interp\fR *\fIinterp\fR,
+ int \fIresult\fR);
+.CE
+.PP
+When the trampoline invokes the callback function, the \fIdata\fR
+parameter will point to an array containing the four one-word
+quantities that were passed to \fBTcl_NRAddCallback\fR in the
+\fIdata0\fR through \fIdata3\fR parameters. The Tcl interpreter will
+be designated by the \fIinterp\fR parameter, and the \fIresult\fR
+parameter will contain the result (\fBTCL_OK\fR, \fBTCL_ERROR\fR,
+\fBTCL_RETURN\fR, \fBTCL_BREAK\fR or \fBTCL_CONTINUE\fR) that was
+returned by the command evaluation. The callback function is expected,
+in turn, either to return a \fIresult\fR to control further evaluation.
+.PP
+Multiple \fBTcl_NRAddCallback\fR invocations may request multiple
+callbacks, which may be to the same or different callback
+functions. If multiple callbacks are requested, they are executed in
+last-in, first-out order, that is, the most recently requested
+callback is executed first.
+.SH EXAMPLE
+.PP
+The usual pattern for Tcl commands that invoke other Tcl commands
+is something like:
+.PP
+.CS
+int
+\fITheCmdOldObjProc\fR(
+ ClientData clientData,
+ Tcl_Interp *interp,
+ int objc,
+ Tcl_Obj *const objv[])
+{
+ int result;
+ Tcl_Obj *objPtr;
+
+ \fI... preparation ...\fR
+
+ result = \fBTcl_EvalObjEx\fR(interp, objPtr, 0);
+
+ \fI... postprocessing ...\fR
+
+ return result;
+}
+\fBTcl_CreateObjCommand\fR(interp, "theCommand",
+ \fITheCmdOldObjProc\fR, clientData, TheCmdDeleteProc);
+.CE
+.PP
+To enable a command like this one for trampoline-based evaluation,
+it must be split into three pieces:
+.IP \(bu
+A non-trampoline implementation, \fITheCmdNewObjProc\fR,
+which will simply create a trampoline
+and invoke the trampoline-based implementation.
+.IP \(bu
+A trampoline-enabled implementation, \fITheCmdNRObjProc\fR. This
+function will perform the initialization, request that the trampoline
+call the postprocessing routine after command evaluation, and finally,
+request that the trampoline call the inner command.
+.IP \(bu
+A postprocessing routine, \fITheCmdPostProc\fR. This function will
+perform the postprocessing formerly done after the return from the
+inner command in \fITheCmdObjProc\fR.
+.PP
+The non-trampoline implementation is simple and stylized, containing
+a single statement:
+.PP
+.CS
+int
+\fITheCmdNewObjProc\fR(
+ ClientData clientData,
+ Tcl_Interp *interp,
+ int objc,
+ Tcl_Obj *const objv[])
+{
+ return \fBTcl_NRCallObjProc\fR(interp, \fITheCmdNRObjProc\fR,
+ clientData, objc, objv);
+}
+.CE
+.PP
+The trampoline-enabled implementation requests postprocessing,
+and returns to the trampoline requesting command evaluation.
+.PP
+.CS
+int
+\fITheCmdNRObjProc\fR
+ ClientData clientData,
+ Tcl_Interp *interp,
+ int objc,
+ Tcl_Obj *const objv[])
+{
+ Tcl_Obj *objPtr;
+
+ \fI... preparation ...\fR
+
+ \fBTcl_NRAddCallback\fR(interp, \fITheCmdPostProc\fR,
+ data0, data1, data2, data3);
+ /* \fIdata0 .. data3\fR are up to four one-word items to
+ * pass to the postprocessing procedure */
+
+ return \fBTcl_NREvalObj\fR(interp, objPtr, 0);
+}
+.CE
+.PP
+The postprocessing procedure does whatever the original command did
+upon return from the inner evaluation.
+.PP
+.CS
+int
+\fITheCmdNRPostProc\fR(
+ ClientData data[],
+ Tcl_Interp *interp,
+ int result)
+{
+ /* \fIdata[0] .. data[3]\fR are the four words of data
+ * passed to \fBTcl_NRAddCallback\fR */
+
+ \fI... postprocessing ...\fR
+
+ return result;
+}
+.CE
+.PP
+If \fItheCommand\fR is a command that results in multiple commands or
+scripts being evaluated, its postprocessing routine may schedule
+additional postprocessing and then request another command evaluation
+by means of \fBTcl_NREvalObj\fR or one of the other evaluation
+routines. Looping and sequencing constructs may be implemented in this way.
+.PP
+Finally, to install a trampoline-enabled command in the interpreter,
+\fBTcl_NRCreateCommand\fR is used in place of
+\fBTcl_CreateObjCommand\fR. It accepts two command procedures instead
+of one. The first is for use when no trampoline is yet on the stack,
+and the second is for use when there is already a trampoline in place.
+.PP
+.CS
+\fBTcl_NRCreateCommand\fR(interp, "theCommand",
+ \fITheCmdNewObjProc\fR, \fITheCmdNRObjProc\fR, clientData,
+ TheCmdDeleteProc);
+.CE
+.SH "SEE ALSO"
+Tcl_CreateCommand(3), Tcl_CreateObjCommand(3), Tcl_EvalObjEx(3), Tcl_GetCommandFromObj(3), Tcl_ExprObj(3)
+.SH KEYWORDS
+stackless, nonrecursive, execute, command, global, value, result, script
+.SH COPYRIGHT
+Copyright (c) 2008 by Kevin B. Kenny
diff --git a/doc/Namespace.3 b/doc/Namespace.3
index 5477329..2b47128 100644
--- a/doc/Namespace.3
+++ b/doc/Namespace.3
@@ -67,7 +67,7 @@ if no such callback is to be performed.
The namespace to be manipulated, or NULL (for other than
\fBTcl_DeleteNamespace\fR) to manipulate the current namespace.
.AP Tcl_Obj *objPtr out
-A reference to an unshared object to which the function output will be
+A reference to an unshared value to which the function output will be
written.
.AP "const char" *pattern in
The glob-style pattern (see \fBTcl_StringMatch\fR) that describes the
@@ -95,7 +95,6 @@ message should be left in the interpreter if the search fails.)
A script fragment to be installed as the unknown command handler for the
namespace, or NULL to reset the handler to its default.
.BE
-
.SH DESCRIPTION
.PP
Namespaces are hierarchic naming contexts that can contain commands
@@ -115,11 +114,14 @@ the global namespace.)
.PP
\fBTcl_CreateNamespace\fR creates a new namespace. The
\fIdeleteProc\fR will have the following type signature:
+.PP
.CS
-typedef void (Tcl_NamespaceDeleteProc) (ClientData clientData);
+typedef void \fBTcl_NamespaceDeleteProc\fR(
+ ClientData \fIclientData\fR);
.CE
.PP
-\fBTcl_DeleteNamespace\fR deletes a namespace.
+\fBTcl_DeleteNamespace\fR deletes a namespace, calling the
+\fIdeleteProc\fR defined for the namespace (if any).
.PP
\fBTcl_AppendExportList\fR retrieves the export patterns for a
namespace given namespace and appends them (as list items) to
@@ -157,9 +159,7 @@ for the namespace, or NULL if none is set.
\fBTcl_SetNamespaceUnknownHandler\fR sets the unknown command handler for
the namespace. If \fIhandlerPtr\fR is NULL, then the handler is reset to
its default.
-
.SH "SEE ALSO"
-Tcl_CreateCommand, Tcl_ListObjAppendElements, Tcl_SetVar
-
+Tcl_CreateCommand(3), Tcl_ListObjAppendList(3), Tcl_SetVar(3)
.SH KEYWORDS
namespace, command
diff --git a/doc/Notifier.3 b/doc/Notifier.3
index 7858a8c..f65d580 100644
--- a/doc/Notifier.3
+++ b/doc/Notifier.3
@@ -9,7 +9,7 @@
.TH Notifier 3 8.1 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_CreateEventSource, Tcl_DeleteEventSource, Tcl_SetMaxBlockTime, Tcl_QueueEvent, Tcl_ThreadQueueEvent, Tcl_ThreadAlert, Tcl_GetCurrentThread, Tcl_DeleteEvents, Tcl_InitNotifier, Tcl_FinalizeNotifier, Tcl_WaitForEvent, Tcl_AlertNotifier, Tcl_SetTimer, Tcl_ServiceAll, Tcl_ServiceEvent, Tcl_GetServiceMode, Tcl_SetServiceMode \- the event queue and notifier interfaces
+Tcl_CreateEventSource, Tcl_DeleteEventSource, Tcl_SetMaxBlockTime, Tcl_QueueEvent, Tcl_ThreadQueueEvent, Tcl_ThreadAlert, Tcl_GetCurrentThread, Tcl_DeleteEvents, Tcl_InitNotifier, Tcl_FinalizeNotifier, Tcl_WaitForEvent, Tcl_AlertNotifier, Tcl_SetTimer, Tcl_ServiceAll, Tcl_ServiceEvent, Tcl_GetServiceMode, Tcl_SetServiceMode, Tcl_ServiceModeHook, Tcl_SetNotifier \- the event queue and notifier interfaces
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -81,7 +81,7 @@ queues them.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIsetupProc\fR, \fIcheckProc\fR, or
\fIdeleteProc\fR.
-.AP Tcl_Time *timePtr in
+.AP "const Tcl_Time" *timePtr in
Indicates the maximum amount of time to wait for an event. This
is specified as an interval (how long to wait), not an absolute
time (when to wakeup). If the pointer passed to \fBTcl_WaitForEvent\fR
@@ -108,7 +108,6 @@ Structure of function pointers describing notifier procedures that are
to replace the ones installed in the executable. See
\fBREPLACING THE NOTIFIER\fR for details.
.BE
-
.SH INTRODUCTION
.PP
The interfaces described here are used to customize the Tcl event
@@ -215,7 +214,6 @@ return.
.IP [7]
Either return 0 to indicate that no events were ready, or go back to
step [2] if blocking was requested by the caller.
-
.SH "CREATING A NEW EVENT SOURCE"
.PP
An event source consists of three procedures invoked by the notifier,
@@ -229,11 +227,13 @@ The procedure \fBTcl_CreateEventSource\fR creates a new event source.
Its arguments specify the setup procedure and check procedure for
the event source.
\fISetupProc\fR should match the following prototype:
+.PP
.CS
-typedef void Tcl_EventSetupProc(
+typedef void \fBTcl_EventSetupProc\fR(
ClientData \fIclientData\fR,
int \fIflags\fR);
.CE
+.PP
The \fIclientData\fR argument will be the same as the \fIclientData\fR
argument to \fBTcl_CreateEventSource\fR; it is typically used to
point to private information managed by the event source.
@@ -268,12 +268,14 @@ connection.
The \fItimePtr\fR argument to \fBTcl_WaitForEvent\fR points to
a structure that describes a time interval in seconds and
microseconds:
+.PP
.CS
typedef struct Tcl_Time {
- long \fIsec\fR;
- long \fIusec\fR;
-} Tcl_Time;
+ long \fIsec\fR;
+ long \fIusec\fR;
+} \fBTcl_Time\fR;
.CE
+.PP
The \fIusec\fR field should be less than 1000000.
.PP
Information provided to \fBTcl_SetMaxBlockTime\fR
@@ -303,11 +305,13 @@ The second procedure provided by each event source is its check
procedure, indicated by the \fIcheckProc\fR argument to
\fBTcl_CreateEventSource\fR. \fICheckProc\fR must match the
following prototype:
+.PP
.CS
-typedef void Tcl_EventCheckProc(
+typedef void \fBTcl_EventCheckProc\fR(
ClientData \fIclientData\fR,
int \fIflags\fR);
.CE
+.PP
The arguments to this procedure are the same as those for \fIsetupProc\fR.
\fBCheckProc\fR is invoked by \fBTcl_DoOneEvent\fR after it has waited
for events. Presumably at least one event source is now prepared to
@@ -326,12 +330,14 @@ to that event source. However, the first element of the structure
must be a structure of type \fBTcl_Event\fR, and the address of this
structure is used when communicating between the event source and the
rest of the notifier. A \fBTcl_Event\fR has the following definition:
+.PP
.CS
typedef struct {
Tcl_EventProc *\fIproc\fR;
struct Tcl_Event *\fInextPtr\fR;
-} Tcl_Event;
+} \fBTcl_Event\fR;
.CE
+.PP
The event source must fill in the \fIproc\fR field of
the event before calling \fBTcl_QueueEvent\fR.
The \fInextPtr\fR is used to link together the events in the queue
@@ -359,11 +365,13 @@ When it is time to handle an event from the queue (steps 1 and 4
above) \fBTcl_ServiceEvent\fR will invoke the \fIproc\fR specified
in the first queued \fBTcl_Event\fR structure.
\fIProc\fR must match the following prototype:
+.PP
.CS
-typedef int Tcl_EventProc(
+typedef int \fBTcl_EventProc\fR(
Tcl_Event *\fIevPtr\fR,
int \fIflags\fR);
.CE
+.PP
The first argument to \fIproc\fR is a pointer to the event, which will
be the same as the first argument to the \fBTcl_QueueEvent\fR call that
added the event to the queue.
@@ -403,7 +411,7 @@ an event to the current thread's queue.
To add an event to another thread's queue, use \fBTcl_ThreadQueueEvent\fR.
\fBTcl_ThreadQueueEvent\fR accepts as an argument a Tcl_ThreadId argument,
which uniquely identifies a thread in a Tcl application. To obtain the
-Tcl_ThreadID for the current thread, use the \fBTcl_GetCurrentThread\fR
+Tcl_ThreadId for the current thread, use the \fBTcl_GetCurrentThread\fR
procedure. (A thread would then need to pass this identifier to other
threads for those threads to be able to add events to its queue.)
After adding an event to another thread's queue, you then typically
@@ -416,11 +424,13 @@ events from the event queue. \fBTcl_DeleteEvents\fR calls \fIproc\fR
for each event in the queue, deleting those for with the procedure
returns 1. Events for which the procedure returns 0 are left in the
queue. \fIProc\fR should match the following prototype:
+.PP
.CS
-typedef int Tcl_EventDeleteProc(
+typedef int \fBTcl_EventDeleteProc\fR(
Tcl_Event *\fIevPtr\fR,
ClientData \fIclientData\fR);
.CE
+.PP
The \fIclientData\fR argument will be the same as the \fIclientData\fR
argument to \fBTcl_DeleteEvents\fR; it is typically used to point to
private information managed by the event source. The \fIevPtr\fR will
@@ -430,7 +440,6 @@ point to the next event in the queue.
\fIcheckProc\fR, and \fIclientData\fR arguments must exactly match those
provided to the \fBTcl_CreateEventSource\fR for the event source to be deleted.
If no such source exists, \fBTcl_DeleteEventSource\fR has no effect.
-
.SH "CREATING A NEW NOTIFIER"
.PP
The notifier consists of all the procedures described in this manual
@@ -526,7 +535,6 @@ in their respective manual pages.
The easiest way to create a new notifier is to look at the code
for an existing notifier, such as the files \fBunix/tclUnixNotfy.c\fR
or \fBwin/tclWinNotify.c\fR in the Tcl source distribution.
-
.SH "REPLACING THE NOTIFIER"
.PP
A notifier that has been written according to the conventions above
@@ -539,18 +547,20 @@ to another program, such as a Web browser plugin.
To do this, the extension makes a call to \fBTcl_SetNotifier\fR
passing a pointer to a \fBTcl_NotifierProcs\fR data structure. The
structure has the following layout:
+.PP
.CS
typedef struct Tcl_NotifierProcs {
- Tcl_SetTimerProc *setTimerProc;
- Tcl_WaitForEventProc *waitForEventProc;
- Tcl_CreateFileHandlerProc *createFileHandlerProc;
- Tcl_DeleteFileHandlerProc *deleteFileHandlerProc;
- Tcl_InitNotifierProc *initNotifierProc;
- Tcl_FinalizeNotifierProc *finalizeNotifierProc;
- Tcl_AlertNotifierProc *alertNotifierProc;
- Tcl_ServiceModeHookProc *serviceModeHookProc;
-} Tcl_NotifierProcs;
+ Tcl_SetTimerProc *\fIsetTimerProc\fR;
+ Tcl_WaitForEventProc *\fIwaitForEventProc\fR;
+ Tcl_CreateFileHandlerProc *\fIcreateFileHandlerProc\fR;
+ Tcl_DeleteFileHandlerProc *\fIdeleteFileHandlerProc\fR;
+ Tcl_InitNotifierProc *\fIinitNotifierProc\fR;
+ Tcl_FinalizeNotifierProc *\fIfinalizeNotifierProc\fR;
+ Tcl_AlertNotifierProc *\fIalertNotifierProc\fR;
+ Tcl_ServiceModeHookProc *\fIserviceModeHookProc\fR;
+} \fBTcl_NotifierProcs\fR;
.CE
+.PP
Following the call to \fBTcl_SetNotifier\fR, the pointers given in
the \fBTcl_NotifierProcs\fR structure replace whatever notifier had
been installed in the process.
@@ -558,7 +568,6 @@ been installed in the process.
It is extraordinarily unwise to replace a running notifier. Normally,
\fBTcl_SetNotifier\fR should be called at process initialization time
before the first call to \fBTcl_InitNotifier\fR.
-
.SH "EXTERNAL EVENT LOOPS"
.PP
The notifier interfaces are designed so that Tcl can be embedded into
@@ -619,9 +628,8 @@ then calls to \fBTcl_ServiceAll\fR will behave normally.
mode, which should be restored when the recursive loop exits.
\fBTcl_GetServiceMode\fR returns the current value of the service
mode.
-
.SH "SEE ALSO"
-\fBTcl_CreateFileHandler\fR, \fBTcl_DeleteFileHandler\fR, \fBTcl_Sleep\fR,
-\fBTcl_DoOneEvent\fR, \fBThread(3)\fR
+Tcl_CreateFileHandler(3), Tcl_DeleteFileHandler(3), Tcl_Sleep(3),
+Tcl_DoOneEvent(3), Thread(3)
.SH KEYWORDS
event, notifier, event queue, event sources, file events, timer, idle, service mode, threads
diff --git a/doc/OOInitStubs.3 b/doc/OOInitStubs.3
new file mode 100644
index 0000000..be531c8
--- /dev/null
+++ b/doc/OOInitStubs.3
@@ -0,0 +1,54 @@
+'\"
+'\" Copyright (c) 2012 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH Tcl_OOInitStubs 3 1.0 TclOO "TclOO Library Functions"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+Tcl_OOInitStubs \- initialize library access to TclOO functionality
+.SH SYNOPSIS
+.nf
+\fB#include <tclOO.h>\fR
+.sp
+const char *
+\fBTcl_OOInitStubs\fR(\fIinterp\fR)
+.fi
+.SH ARGUMENTS
+.AS Tcl_Interp *interp in
+.AP Tcl_Interp *interp in
+The Tcl interpreter that the TclOO API is integrated with and whose C
+interface is going to be used.
+.BE
+.SH DESCRIPTION
+.PP
+When an extension library is going to use the C interface exposed by TclOO, it
+should use \fBTcl_OOInitStubs\fR to initialize its access to that interface
+from within its \fI*\fB_Init\fR (or \fI*\fB_SafeInit\fR) function, passing in
+the \fIinterp\fR that was passed into that routine as context. If the result
+of calling \fBTcl_OOInitStubs\fR is NULL, the initialization failed and an
+error message will have been left in the interpreter's result. Otherwise, the
+initialization succeeded and the TclOO API may thereafter be used; the
+version of the TclOO API is returned.
+.PP
+When using this function, either the C #define symbol \fBUSE_TCLOO_STUBS\fR
+should be defined and your library code linked against the Tcl stub library,
+or that #define symbol should \fInot\fR be defined and your library code
+linked against the Tcl main library directly.
+.SH "BACKWARD COMPATIBILITY NOTE"
+.PP
+If you are linking against the Tcl 8.5 forward compatibility package for
+TclOO, \fIonly\fR the stub-enabled configuration is supported and you should
+also link against the TclOO independent stub library; that library is an
+integrated part of the main Tcl stub library in Tcl 8.6.
+.SH KEYWORDS
+stubs
+.SH "SEE ALSO"
+Tcl_InitStubs(3)
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/Object.3 b/doc/Object.3
index 4817b9b..3d52f61 100644
--- a/doc/Object.3
+++ b/doc/Object.3
@@ -8,7 +8,7 @@
.TH Tcl_Obj 3 8.5 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_NewObj, Tcl_DuplicateObj, Tcl_IncrRefCount, Tcl_DecrRefCount, Tcl_IsShared, Tcl_InvalidateStringRep \- manipulate Tcl objects
+Tcl_NewObj, Tcl_DuplicateObj, Tcl_IncrRefCount, Tcl_DecrRefCount, Tcl_IsShared, Tcl_InvalidateStringRep \- manipulate Tcl values
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -30,36 +30,36 @@ int
.SH ARGUMENTS
.AS Tcl_Obj *objPtr
.AP Tcl_Obj *objPtr in
-Points to an object;
+Points to a value;
must have been the result of a previous call to \fBTcl_NewObj\fR.
.BE
-
.SH INTRODUCTION
.PP
-This man page presents an overview of Tcl objects and how they are used.
-It also describes generic procedures for managing Tcl objects.
-These procedures are used to create and copy objects,
-and increment and decrement the count of references (pointers) to objects.
+This man page presents an overview of Tcl values (called \fBTcl_Obj\fRs for
+historical reasons) and how they are used.
+It also describes generic procedures for managing Tcl values.
+These procedures are used to create and copy values,
+and increment and decrement the count of references (pointers) to values.
The procedures are used in conjunction with ones
-that operate on specific types of objects such as
+that operate on specific types of values such as
\fBTcl_GetIntFromObj\fR and \fBTcl_ListObjAppendElement\fR.
The individual procedures are described along with the data structures
they manipulate.
.PP
-Tcl's \fIdual-ported\fR objects provide a general-purpose mechanism
+Tcl's \fIdual-ported\fR values provide a general-purpose mechanism
for storing and exchanging Tcl values.
They largely replace the use of strings in Tcl.
For example, they are used to store variable values,
command arguments, command results, and scripts.
-Tcl objects behave like strings but also hold an internal representation
+Tcl values behave like strings but also hold an internal representation
that can be manipulated more efficiently.
-For example, a Tcl list is now represented as an object
+For example, a Tcl list is now represented as a value
that holds the list's string representation
-as well as an array of pointers to the objects for each list element.
-Dual-ported objects avoid most runtime type conversions.
+as well as an array of pointers to the values for each list element.
+Dual-ported values avoid most runtime type conversions.
They also improve the speed of many operations
since an appropriate representation is immediately available.
-The compiler itself uses Tcl objects to
+The compiler itself uses Tcl values to
cache the instruction bytecodes resulting from compiling scripts.
.PP
The two representations are a cache of each other and are computed lazily.
@@ -74,64 +74,66 @@ between integers and strings.
Only when it needs a string representing the variable's value,
say to print it,
will the program regenerate the string representation from the integer.
-Although objects contain an internal representation,
+Although values contain an internal representation,
their semantics are defined in terms of strings:
an up-to-date string can always be obtained,
-and any change to the object will be reflected in that string
-when the object's string representation is fetched.
+and any change to the value will be reflected in that string
+when the value's string representation is fetched.
Because of this representation invalidation and regeneration,
it is dangerous for extension writers to access
\fBTcl_Obj\fR fields directly.
It is better to access Tcl_Obj information using
procedures like \fBTcl_GetStringFromObj\fR and \fBTcl_GetString\fR.
.PP
-Objects are allocated on the heap
+Values are allocated on the heap
and are referenced using a pointer to their \fBTcl_Obj\fR structure.
-Objects are shared as much as possible.
+Values are shared as much as possible.
This significantly reduces storage requirements
-because some objects such as long lists are very large.
+because some values such as long lists are very large.
Also, most Tcl values are only read and never modified.
This is especially true for procedure arguments,
which can be shared between the caller and the called procedure.
Assignment and argument binding is done by
simply assigning a pointer to the value.
Reference counting is used to determine when it is safe to
-reclaim an object's storage.
+reclaim a value's storage.
.PP
-Tcl objects are typed.
-An object's internal representation is controlled by its type.
+Tcl values are typed.
+A value's internal representation is controlled by its type.
Several types are predefined in the Tcl core
including integer, double, list, and bytecode.
Extension writers can extend the set of types
by defining their own \fBTcl_ObjType\fR structs.
.SH "THE TCL_OBJ STRUCTURE"
.PP
-Each Tcl object is represented by a \fBTcl_Obj\fR structure
+Each Tcl value is represented by a \fBTcl_Obj\fR structure
which is defined as follows.
+.PP
.CS
typedef struct Tcl_Obj {
- int \fIrefCount\fR;
- char *\fIbytes\fR;
- int \fIlength\fR;
- Tcl_ObjType *\fItypePtr\fR;
- union {
- long \fIlongValue\fR;
- double \fIdoubleValue\fR;
- void *\fIotherValuePtr\fR;
- Tcl_WideInt \fIwideValue\fR;
- struct {
- void *\fIptr1\fR;
- void *\fIptr2\fR;
- } \fItwoPtrValue\fR;
- struct {
- void *\fIptr\fR;
- unsigned long \fIvalue\fR;
- } \fIptrAndLongRep\fR;
- } \fIinternalRep\fR;
-} Tcl_Obj;
+ int \fIrefCount\fR;
+ char *\fIbytes\fR;
+ int \fIlength\fR;
+ const Tcl_ObjType *\fItypePtr\fR;
+ union {
+ long \fIlongValue\fR;
+ double \fIdoubleValue\fR;
+ void *\fIotherValuePtr\fR;
+ Tcl_WideInt \fIwideValue\fR;
+ struct {
+ void *\fIptr1\fR;
+ void *\fIptr2\fR;
+ } \fItwoPtrValue\fR;
+ struct {
+ void *\fIptr\fR;
+ unsigned long \fIvalue\fR;
+ } \fIptrAndLongRep\fR;
+ } \fIinternalRep\fR;
+} \fBTcl_Obj\fR;
.CE
+.PP
The \fIbytes\fR and the \fIlength\fR members together hold
-an object's UTF-8 string representation,
+a value's UTF-8 string representation,
which is a \fIcounted string\fR not containing null bytes (UTF-8 null
characters should be encoded as a two byte sequence: 192, 128.)
\fIbytes\fR points to the first byte of the string representation.
@@ -141,31 +143,31 @@ at offset \fIlength\fR;
this allows string representations
to be treated as conventional null-terminated C strings.
C programs use \fBTcl_GetStringFromObj\fR and \fBTcl_GetString\fR to get
-an object's string representation.
+a value's string representation.
If \fIbytes\fR is NULL,
the string representation is invalid.
.PP
-An object's type manages its internal representation.
+A value's type manages its internal representation.
The member \fItypePtr\fR points to the Tcl_ObjType structure
that describes the type.
If \fItypePtr\fR is NULL,
the internal representation is invalid.
.PP
The \fIinternalRep\fR union member holds
-an object's internal representation.
+a value's internal representation.
This is either a (long) integer, a double-precision floating-point number,
a pointer to a value containing additional information
-needed by the object's type to represent the object, a Tcl_WideInt
+needed by the value's type to represent the value, a Tcl_WideInt
integer, two arbitrary pointers, or a pair made up of an unsigned long
integer and a pointer.
.PP
The \fIrefCount\fR member is used to tell when it is safe to free
-an object's storage.
-It holds the count of active references to the object.
+a value's storage.
+It holds the count of active references to the value.
Maintaining the correct reference count is a key responsibility
of extension writers.
Reference counting is discussed below
-in the section \fBSTORAGE MANAGEMENT OF OBJECTS\fR.
+in the section \fBSTORAGE MANAGEMENT OF VALUES\fR.
.PP
Although extension writers can directly access
the members of a Tcl_Obj structure,
@@ -175,21 +177,21 @@ read or update \fIrefCount\fR directly;
they should use macros such as
\fBTcl_IncrRefCount\fR and \fBTcl_IsShared\fR instead.
.PP
-A key property of Tcl objects is that they hold two representations.
-An object typically starts out containing only a string representation:
+A key property of Tcl values is that they hold two representations.
+A value typically starts out containing only a string representation:
it is untyped and has a NULL \fItypePtr\fR.
-An object containing an empty string or a copy of a specified string
+A value containing an empty string or a copy of a specified string
is created using \fBTcl_NewObj\fR or \fBTcl_NewStringObj\fR respectively.
-An object's string value is gotten with
+A value's string value is gotten with
\fBTcl_GetStringFromObj\fR or \fBTcl_GetString\fR
and changed with \fBTcl_SetStringObj\fR.
-If the object is later passed to a procedure like \fBTcl_GetIntFromObj\fR
+If the value is later passed to a procedure like \fBTcl_GetIntFromObj\fR
that requires a specific internal representation,
-the procedure will create one and set the object's \fItypePtr\fR.
+the procedure will create one and set the value's \fItypePtr\fR.
The internal representation is computed from the string representation.
-An object's two representations are duals of each other:
+A value's two representations are duals of each other:
changes made to one are reflected in the other.
-For example, \fBTcl_ListObjReplace\fR will modify an object's
+For example, \fBTcl_ListObjReplace\fR will modify a value's
internal representation and the next call to \fBTcl_GetStringFromObj\fR
or \fBTcl_GetString\fR will reflect that change.
.PP
@@ -202,91 +204,99 @@ so that it is only regenerated if it is needed later.
Most C programmers never have to be concerned with how this is done
and simply use procedures such as \fBTcl_GetBooleanFromObj\fR or
\fBTcl_ListObjIndex\fR.
-Programmers that implement their own object types
+Programmers that implement their own value types
must check for invalid representations
and mark representations invalid when necessary.
The procedure \fBTcl_InvalidateStringRep\fR is used
-to mark an object's string representation invalid and to
+to mark a value's string representation invalid and to
free any storage associated with the old string representation.
.PP
-Objects usually remain one type over their life,
-but occasionally an object must be converted from one type to another.
-For example, a C program might build up a string in an object
+Values usually remain one type over their life,
+but occasionally a value must be converted from one type to another.
+For example, a C program might build up a string in a value
with repeated calls to \fBTcl_AppendToObj\fR,
and then call \fBTcl_ListObjIndex\fR to extract a list element from
-the object.
-The same object holding the same string value
+the value.
+The same value holding the same string value
can have several different internal representations
at different times.
-Extension writers can also force an object to be converted from one type
+Extension writers can also force a value to be converted from one type
to another using the \fBTcl_ConvertToType\fR procedure.
-Only programmers that create new object types need to be concerned
+Only programmers that create new value types need to be concerned
about how this is done.
-A procedure defined as part of the object type's implementation
-creates a new internal representation for an object
+A procedure defined as part of the value type's implementation
+creates a new internal representation for a value
and changes its \fItypePtr\fR.
See the man page for \fBTcl_RegisterObjType\fR
-to see how to create a new object type.
-.SH "EXAMPLE OF THE LIFETIME OF AN OBJECT"
+to see how to create a new value type.
+.SH "EXAMPLE OF THE LIFETIME OF A VALUE"
.PP
-As an example of the lifetime of an object,
+As an example of the lifetime of a value,
consider the following sequence of commands:
+.PP
.CS
\fBset x 123\fR
.CE
-This assigns to \fIx\fR an untyped object whose
+.PP
+This assigns to \fIx\fR an untyped value whose
\fIbytes\fR member points to \fB123\fR and \fIlength\fR member contains 3.
-The object's \fItypePtr\fR member is NULL.
+The value's \fItypePtr\fR member is NULL.
+.PP
.CS
\fBputs "x is $x"\fR
.CE
+.PP
\fIx\fR's string representation is valid (since \fIbytes\fR is non-NULL)
and is fetched for the command.
+.PP
.CS
\fBincr x\fR
.CE
-The \fBincr\fR command first gets an integer from \fIx\fR's object
+.PP
+The \fBincr\fR command first gets an integer from \fIx\fR's value
by calling \fBTcl_GetIntFromObj\fR.
-This procedure checks whether the object is already an integer object.
-Since it is not, it converts the object
-by setting the object's \fIinternalRep.longValue\fR member
+This procedure checks whether the value is already an integer value.
+Since it is not, it converts the value
+by setting the value's \fIinternalRep.longValue\fR member
to the integer \fB123\fR
-and setting the object's \fItypePtr\fR
+and setting the value's \fItypePtr\fR
to point to the integer Tcl_ObjType structure.
Both representations are now valid.
-\fBincr\fR increments the object's integer internal representation
+\fBincr\fR increments the value's integer internal representation
then invalidates its string representation
(by calling \fBTcl_InvalidateStringRep\fR)
since the string representation
no longer corresponds to the internal representation.
+.PP
.CS
\fBputs "x is now $x"\fR
.CE
-The string representation of \fIx\fR's object is needed
+.PP
+The string representation of \fIx\fR's value is needed
and is recomputed.
The string representation is now \fB124\fR
and both representations are again valid.
-.SH "STORAGE MANAGEMENT OF OBJECTS"
+.SH "STORAGE MANAGEMENT OF VALUES"
.PP
-Tcl objects are allocated on the heap and are shared as much as possible
+Tcl values are allocated on the heap and are shared as much as possible
to reduce storage requirements.
-Reference counting is used to determine when an object is
+Reference counting is used to determine when a value is
no longer needed and can safely be freed.
-An object just created by \fBTcl_NewObj\fR or \fBTcl_NewStringObj\fR
+A value just created by \fBTcl_NewObj\fR or \fBTcl_NewStringObj\fR
has \fIrefCount\fR 0.
The macro \fBTcl_IncrRefCount\fR increments the reference count
-when a new reference to the object is created.
+when a new reference to the value is created.
The macro \fBTcl_DecrRefCount\fR decrements the count
when a reference is no longer needed and,
-if the object's reference count drops to zero, frees its storage.
-An object shared by different code or data structures has
+if the value's reference count drops to zero, frees its storage.
+A value shared by different code or data structures has
\fIrefCount\fR greater than 1.
-Incrementing an object's reference count ensures that
+Incrementing a value's reference count ensures that
it will not be freed too early or have its value change accidentally.
.PP
-As an example, the bytecode interpreter shares argument objects
-between calling and called Tcl procedures to avoid having to copy objects.
-It assigns the call's argument objects to the procedure's
+As an example, the bytecode interpreter shares argument values
+between calling and called Tcl procedures to avoid having to copy values.
+It assigns the call's argument values to the procedure's
formal parameter variables.
In doing so, it calls \fBTcl_IncrRefCount\fR to increment
the reference count of each argument since there is now a new
@@ -294,48 +304,49 @@ reference to it from the formal parameter.
When the called procedure returns,
the interpreter calls \fBTcl_DecrRefCount\fR to decrement
each argument's reference count.
-When an object's reference count drops less than or equal to zero,
+When a value's reference count drops less than or equal to zero,
\fBTcl_DecrRefCount\fR reclaims its storage.
Most command procedures do not have to be concerned about
-reference counting since they use an object's value immediately
-and do not retain a pointer to the object after they return.
-However, if they do retain a pointer to an object in a data structure,
+reference counting since they use a value's value immediately
+and do not retain a pointer to the value after they return.
+However, if they do retain a pointer to a value in a data structure,
they must be careful to increment its reference count
since the retained pointer is a new reference.
.PP
-Command procedures that directly modify objects
+Command procedures that directly modify values
such as those for \fBlappend\fR and \fBlinsert\fR must be careful to
-copy a shared object before changing it.
-They must first check whether the object is shared
+copy a shared value before changing it.
+They must first check whether the value is shared
by calling \fBTcl_IsShared\fR.
-If the object is shared they must copy the object
+If the value is shared they must copy the value
by using \fBTcl_DuplicateObj\fR;
-this returns a new duplicate of the original object
+this returns a new duplicate of the original value
that has \fIrefCount\fR 0.
-If the object is not shared,
+If the value is not shared,
the command procedure
.QW "owns"
-the object and can safely modify it directly.
+the value and can safely modify it directly.
For example, the following code appears in the command procedure
that implements \fBlinsert\fR.
-This procedure modifies the list object passed to it in \fIobjv[1]\fR
+This procedure modifies the list value passed to it in \fIobjv[1]\fR
by inserting \fIobjc-3\fR new elements before \fIindex\fR.
.PP
.CS
listPtr = objv[1];
-if (Tcl_IsShared(listPtr)) {
- listPtr = Tcl_DuplicateObj(listPtr);
+if (\fBTcl_IsShared\fR(listPtr)) {
+ listPtr = \fBTcl_DuplicateObj\fR(listPtr);
}
result = Tcl_ListObjReplace(interp, listPtr, index, 0,
(objc-3), &(objv[3]));
.CE
.PP
As another example, \fBincr\fR's command procedure
-must check whether the variable's object is shared before
+must check whether the variable's value is shared before
incrementing the integer in its internal representation.
-If it is shared, it needs to duplicate the object
+If it is shared, it needs to duplicate the value
in order to avoid accidentally changing values in other data structures.
.SH "SEE ALSO"
Tcl_ConvertToType(3), Tcl_GetIntFromObj(3), Tcl_ListObjAppendElement(3), Tcl_ListObjIndex(3), Tcl_ListObjReplace(3), Tcl_RegisterObjType(3)
.SH KEYWORDS
-internal representation, object, object creation, object type, reference counting, string representation, type conversion
+internal representation, value, value creation, value type,
+reference counting, string representation, type conversion
diff --git a/doc/ObjectType.3 b/doc/ObjectType.3
index 974ea6c..ca2c7a0 100644
--- a/doc/ObjectType.3
+++ b/doc/ObjectType.3
@@ -8,14 +8,14 @@
.TH Tcl_ObjType 3 8.0 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_RegisterObjType, Tcl_GetObjType, Tcl_AppendAllObjTypes, Tcl_ConvertToType \- manipulate Tcl object types
+Tcl_RegisterObjType, Tcl_GetObjType, Tcl_AppendAllObjTypes, Tcl_ConvertToType \- manipulate Tcl value types
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
.sp
\fBTcl_RegisterObjType\fR(\fItypePtr\fR)
.sp
-Tcl_ObjType *
+const Tcl_ObjType *
\fBTcl_GetObjType\fR(\fItypeName\fR)
.sp
int
@@ -25,32 +25,33 @@ int
\fBTcl_ConvertToType\fR(\fIinterp, objPtr, typePtr\fR)
.SH ARGUMENTS
.AS "const char" *typeName
-.AP Tcl_ObjType *typePtr in
-Points to the structure containing information about the Tcl object type.
+.AP "const Tcl_ObjType" *typePtr in
+Points to the structure containing information about the Tcl value type.
This storage must live forever,
typically by being statically allocated.
.AP "const char" *typeName in
-The name of a Tcl object type that \fBTcl_GetObjType\fR should look up.
+The name of a Tcl value type that \fBTcl_GetObjType\fR should look up.
.AP Tcl_Interp *interp in
Interpreter to use for error reporting.
.AP Tcl_Obj *objPtr in
-For \fBTcl_AppendAllObjTypes\fR, this points to the object onto which
-it appends the name of each object type as a list element.
-For \fBTcl_ConvertToType\fR, this points to an object that
+For \fBTcl_AppendAllObjTypes\fR, this points to the value onto which
+it appends the name of each value type as a list element.
+For \fBTcl_ConvertToType\fR, this points to a value that
must have been the result of a previous call to \fBTcl_NewObj\fR.
.BE
.SH DESCRIPTION
.PP
-The procedures in this man page manage Tcl object types.
-They are used to register new object types, look up types,
+The procedures in this man page manage Tcl value types (sometimes
+referred to as object types or \fBTcl_ObjType\fRs for historical reasons).
+They are used to register new value types, look up types,
and force conversions from one type to another.
.PP
-\fBTcl_RegisterObjType\fR registers a new Tcl object type
-in the table of all object types that \fBTcl_GetObjType\fR
-can look up by name. There are other object types supported by Tcl
+\fBTcl_RegisterObjType\fR registers a new Tcl value type
+in the table of all value types that \fBTcl_GetObjType\fR
+can look up by name. There are other value types supported by Tcl
as well, which Tcl chooses not to register. Extensions can likewise
-choose to register the object types they create or not.
+choose to register the value types they create or not.
The argument \fItypePtr\fR points to a Tcl_ObjType structure that
describes the new type by giving its name
and by supplying pointers to four procedures
@@ -65,13 +66,13 @@ in the section \fBTHE TCL_OBJTYPE STRUCTURE\fR below.
with name \fItypeName\fR.
It returns NULL if no type with that name is registered.
.PP
-\fBTcl_AppendAllObjTypes\fR appends the name of each registered object type
-as a list element onto the Tcl object referenced by \fIobjPtr\fR.
+\fBTcl_AppendAllObjTypes\fR appends the name of each registered value type
+as a list element onto the Tcl value referenced by \fIobjPtr\fR.
The return value is \fBTCL_OK\fR unless there was an error
-converting \fIobjPtr\fR to a list object;
+converting \fIobjPtr\fR to a list value;
in that case \fBTCL_ERROR\fR is returned.
.PP
-\fBTcl_ConvertToType\fR converts an object from one type to another
+\fBTcl_ConvertToType\fR converts a value from one type to another
if possible.
It creates a new internal representation for \fIobjPtr\fR
appropriate for the target type \fItypePtr\fR
@@ -79,7 +80,7 @@ and sets its \fItypePtr\fR member as determined by calling the
\fItypePtr->setFromAnyProc\fR routine.
Any internal representation for \fIobjPtr\fR's old type is freed.
If an error occurs during conversion, it returns \fBTCL_ERROR\fR
-and leaves an error message in the result object for \fIinterp\fR
+and leaves an error message in the result value for \fIinterp\fR
unless \fIinterp\fR is NULL.
Otherwise, it returns \fBTCL_OK\fR.
Passing a NULL \fIinterp\fR allows this procedure to be used
@@ -94,7 +95,7 @@ use of another related Tcl_ObjType, if it sees fit.
.VE 8.5
.SH "THE TCL_OBJTYPE STRUCTURE"
.PP
-Extension writers can define new object types by defining four
+Extension writers can define new value types by defining four
procedures and
initializing a Tcl_ObjType structure to describe the type.
Extension writers may also pass a pointer to their Tcl_ObjType
@@ -105,12 +106,12 @@ The \fBTcl_ObjType\fR structure is defined as follows:
.PP
.CS
typedef struct Tcl_ObjType {
- char *\fIname\fR;
+ const char *\fIname\fR;
Tcl_FreeInternalRepProc *\fIfreeIntRepProc\fR;
Tcl_DupInternalRepProc *\fIdupIntRepProc\fR;
Tcl_UpdateStringProc *\fIupdateStringProc\fR;
Tcl_SetFromAnyProc *\fIsetFromAnyProc\fR;
-} Tcl_ObjType;
+} \fBTcl_ObjType\fR;
.CE
.SS "THE NAME FIELD"
.PP
@@ -119,21 +120,22 @@ When a type is registered, this is the name used by callers
of \fBTcl_GetObjType\fR to lookup the type. For unregistered
types, the \fIname\fR field is primarily of value for debugging.
The remaining four members are pointers to procedures
-called by the generic Tcl object code:
+called by the generic Tcl value code:
.SS "THE SETFROMANYPROC FIELD"
.PP
The \fIsetFromAnyProc\fR member contains the address of a function
called to create a valid internal representation
-from an object's string representation.
+from a value's string representation.
.PP
.CS
-typedef int (Tcl_SetFromAnyProc) (Tcl_Interp *\fIinterp\fR,
+typedef int \fBTcl_SetFromAnyProc\fR(
+ Tcl_Interp *\fIinterp\fR,
Tcl_Obj *\fIobjPtr\fR);
.CE
.PP
If an internal representation cannot be created from the string,
it returns \fBTCL_ERROR\fR and puts a message
-describing the error in the result object for \fIinterp\fR
+describing the error in the result value for \fIinterp\fR
unless \fIinterp\fR is NULL.
If \fIsetFromAnyProc\fR is successful,
it stores the new internal representation,
@@ -161,17 +163,18 @@ replace it with a new one or reset the \fItypePtr\fR member to NULL.
The \fIsetFromAnyProc\fR member may be set to NULL, if the routines
making use of the internal representation have no need to derive that
internal representation from an arbitrary string value. However, in
-this case, passing a pointer to the type to Tcl_ConvertToType() will
+this case, passing a pointer to the type to \fBTcl_ConvertToType\fR will
lead to a panic, so to avoid this possibility, the type
should \fInot\fR be registered.
.SS "THE UPDATESTRINGPROC FIELD"
.PP
The \fIupdateStringProc\fR member contains the address of a function
called to create a valid string representation
-from an object's internal representation.
+from a value's internal representation.
.PP
.CS
-typedef void (Tcl_UpdateStringProc) (Tcl_Obj *\fIobjPtr\fR);
+typedef void \fBTcl_UpdateStringProc\fR(
+ Tcl_Obj *\fIobjPtr\fR);
.CE
.PP
\fIobjPtr\fR's \fIbytes\fR member is always NULL when it is called.
@@ -201,10 +204,11 @@ or other similar routines ask for the string representation.
.SS "THE DUPINTREPPROC FIELD"
.PP
The \fIdupIntRepProc\fR member contains the address of a function
-called to copy an internal representation from one object to another.
+called to copy an internal representation from one value to another.
.PP
.CS
-typedef void (Tcl_DupInternalRepProc) (Tcl_Obj *\fIsrcPtr\fR,
+typedef void \fBTcl_DupInternalRepProc\fR(
+ Tcl_Obj *\fIsrcPtr\fR,
Tcl_Obj *\fIdupPtr\fR);
.CE
.PP
@@ -212,7 +216,7 @@ typedef void (Tcl_DupInternalRepProc) (Tcl_Obj *\fIsrcPtr\fR,
internal representation.
Before the call,
\fIsrcPtr\fR's internal representation is valid and \fIdupPtr\fR's is not.
-\fIsrcPtr\fR's object type determines what
+\fIsrcPtr\fR's value type determines what
copying its internal representation means.
.PP
For example, the \fIdupIntRepProc\fR for the Tcl integer type
@@ -223,29 +227,30 @@ reasonably can.
.SS "THE FREEINTREPPROC FIELD"
.PP
The \fIfreeIntRepProc\fR member contains the address of a function
-that is called when an object is freed.
+that is called when a value is freed.
.PP
.CS
-typedef void (Tcl_FreeInternalRepProc) (Tcl_Obj *\fIobjPtr\fR);
+typedef void \fBTcl_FreeInternalRepProc\fR(
+ Tcl_Obj *\fIobjPtr\fR);
.CE
.PP
The \fIfreeIntRepProc\fR function can deallocate the storage
-for the object's internal representation
-and do other type-specific processing necessary when an object is freed.
+for the value's internal representation
+and do other type-specific processing necessary when a value is freed.
.PP
For example, the list type's \fIfreeIntRepProc\fR respects
the storage sharing scheme established by the \fIdupIntRepProc\fR
-so that it only frees storage when the last object sharing it
+so that it only frees storage when the last value sharing it
is being freed.
.PP
The \fIfreeIntRepProc\fR member can be set to NULL
to indicate that the internal representation does not require freeing.
The \fIfreeIntRepProc\fR implementation must not access the
-\fIbytes\fR member of the object, since Tcl makes its own internal
-uses of that field during object deletion. The defined tasks for
+\fIbytes\fR member of the value, since Tcl makes its own internal
+uses of that field during value deletion. The defined tasks for
the \fIfreeIntRepProc\fR have no need to consult the \fIbytes\fR
member.
.SH "SEE ALSO"
-Tcl_NewObj, Tcl_DecrRefCount, Tcl_IncrRefCount
+Tcl_NewObj(3), Tcl_DecrRefCount(3), Tcl_IncrRefCount(3)
.SH KEYWORDS
-internal representation, object, object type, string representation, type conversion
+internal representation, value, value type, string representation, type conversion
diff --git a/doc/OpenFileChnl.3 b/doc/OpenFileChnl.3
index 0d722f6..82f51ce 100644
--- a/doc/OpenFileChnl.3
+++ b/doc/OpenFileChnl.3
@@ -98,10 +98,8 @@ Tcl_WideInt
Tcl_WideInt
\fBTcl_Tell\fR(\fIchannel\fR)
.sp
-.VS 8.5
int
\fBTcl_TruncateChannel\fR(\fIchannel, length\fR)
-.VE 8.5
.sp
int
\fBTcl_GetChannelOption\fR(\fIinterp, channel, optionName, optionValue\fR)
@@ -154,24 +152,24 @@ The pattern to match on, passed to Tcl_StringMatch, or NULL.
A Tcl channel for input or output. Must have been the return value
from a procedure such as \fBTcl_OpenFileChannel\fR.
.AP Tcl_Obj *readObjPtr in/out
-A pointer to a Tcl Object in which to store the characters read from the
+A pointer to a Tcl value in which to store the characters read from the
channel.
.AP int charsToRead in
The number of characters to read from the channel. If the channel's encoding
is \fBbinary\fR, this is equivalent to the number of bytes to read from the
channel.
.AP int appendFlag in
-If non-zero, data read from the channel will be appended to the object.
-Otherwise, the data will replace the existing contents of the object.
+If non-zero, data read from the channel will be appended to the value.
+Otherwise, the data will replace the existing contents of the value.
.AP char *readBuf out
A buffer in which to store the bytes read from the channel.
.AP int bytesToRead in
The number of bytes to read from the channel. The buffer \fIreadBuf\fR must
be large enough to hold this many bytes.
.AP Tcl_Obj *lineObjPtr in/out
-A pointer to a Tcl object in which to store the line read from the
+A pointer to a Tcl value in which to store the line read from the
channel. The line read will be appended to the current value of the
-object.
+value.
.AP Tcl_DString *lineRead in/out
A pointer to a Tcl dynamic string in which to store the line read from the
channel. Must have been initialized by the caller. The line read will be
@@ -184,7 +182,7 @@ Length of the input
Flag indicating whether the input should be added to the end or
beginning of the channel buffer.
.AP Tcl_Obj *writeObjPtr in
-A pointer to a Tcl Object whose contents will be output to the channel.
+A pointer to a Tcl value whose contents will be output to the channel.
.AP "const char" *charBuf in
A buffer containing the characters to output to the channel.
.AP "const char" *byteBuf in
@@ -211,7 +209,6 @@ values. Must have been initialized by the caller.
.AP "const char" *newValue in
New value for the option given by \fIoptionName\fR.
.BE
-
.SH DESCRIPTION
.PP
The Tcl channel mechanism provides a device-independent and
@@ -229,7 +226,6 @@ The procedures described in this manual entry comprise the C APIs of the
generic layer of the channel architecture. For a description of the channel
driver architecture and how to implement channel drivers for new types of
channels, see the manual entry for \fBTcl_CreateChannel\fR.
-
.SH TCL_OPENFILECHANNEL
.PP
\fBTcl_OpenFileChannel\fR opens a file specified by \fIfileName\fR and
@@ -243,15 +239,14 @@ returns NULL and records a POSIX error code that can be
retrieved with \fBTcl_GetErrno\fR.
In addition, if \fIinterp\fR is non-NULL, \fBTcl_OpenFileChannel\fR
leaves an error message in \fIinterp\fR's result after any error.
-As of Tcl 8.4, the object-based API \fBTcl_FSOpenFileChannel\fR should
+As of Tcl 8.4, the value-based API \fBTcl_FSOpenFileChannel\fR should
be used in preference to \fBTcl_OpenFileChannel\fR wherever possible.
.PP
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR, described below.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
-
.SH TCL_OPENCOMMANDCHANNEL
.PP
\fBTcl_OpenCommandChannel\fR provides a C-level interface to the
@@ -286,20 +281,18 @@ the interpreter's result if \fIinterp\fR is not NULL.
.PP
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR, described below.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
-
.SH TCL_MAKEFILECHANNEL
.PP
\fBTcl_MakeFileChannel\fR makes a \fBTcl_Channel\fR from an existing,
platform-specific, file handle.
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR, described below.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
-
.SH TCL_GETCHANNEL
.PP
\fBTcl_GetChannel\fR returns a channel given the \fIchannelName\fR used to
@@ -312,12 +305,11 @@ open for reading and writing.
.PP
\fBTcl_GetChannelNames\fR and \fBTcl_GetChannelNamesEx\fR write the
names of the registered channels to the interpreter's result as a
-list object. \fBTcl_GetChannelNamesEx\fR will filter these names
+list value. \fBTcl_GetChannelNamesEx\fR will filter these names
according to the \fIpattern\fR. If \fIpattern\fR is NULL, then it
will not do any filtering. The return value is \fBTCL_OK\fR if no
errors occurred writing to the result, otherwise it is \fBTCL_ERROR\fR,
and the error message is left in the interpreter's result.
-
.SH TCL_REGISTERCHANNEL
.PP
\fBTcl_RegisterChannel\fR adds a channel to the set of channels accessible
@@ -340,9 +332,8 @@ This procedure interacts with the code managing the standard
channels. If no standard channels were initialized before the first
call to \fBTcl_RegisterChannel\fR, they will get initialized by that
call. See \fBTcl_StandardChannels\fR for a general treatise about
-standard channels and the behaviour of the Tcl library with regard to
+standard channels and the behavior of the Tcl library with regard to
them.
-
.SH TCL_UNREGISTERCHANNEL
.PP
\fBTcl_UnregisterChannel\fR removes a channel from the set of channels
@@ -357,14 +348,13 @@ that it no longer holds a reference to that channel. If this is the last
reference to the channel, it will now be closed. \fBTcl_UnregisterChannel\fR
is very similar to \fBTcl_DetachChannel\fR except that it will also
close the channel if no further references to it exist.
-
.SH TCL_DETACHCHANNEL
.PP
\fBTcl_DetachChannel\fR removes a channel from the set of channels
accessible in \fIinterp\fR. After this call, Tcl programs will no longer be
able to use the channel's name to refer to the channel in that interpreter.
Beyond that, this command has no further effect. It cannot be used on
-the standard channels (stdout, stderr, stdin), and will return
+the standard channels (\fBstdout\fR, \fBstderr\fR, \fBstdin\fR), and will return
\fBTCL_ERROR\fR if passed one of those channels.
.PP
Code not associated with a Tcl interpreter can call
@@ -372,16 +362,14 @@ Code not associated with a Tcl interpreter can call
that it no longer holds a reference to that channel. If this is the last
reference to the channel, unlike \fBTcl_UnregisterChannel\fR,
it will not be closed.
-
.SH TCL_ISSTANDARDCHANNEL
.PP
\fBTcl_IsStandardChannel\fR tests whether a channel is one of the
-three standard channels, stdin, stdout or stderr. If so, it returns
-1, otherwise 0.
+three standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR.
+If so, it returns 1, otherwise 0.
.PP
No attempt is made to check whether the given channel or the standard
channels are initialized or otherwise valid.
-
.SH TCL_CLOSE
.PP
\fBTcl_Close\fR destroys the channel \fIchannel\fR, which must denote a
@@ -411,7 +399,6 @@ been given as the \fBchan\fR argument in a call to
\fBTcl_UnregisterChannel\fR, which will internally call \fBTcl_Close\fR
when all calls to \fBTcl_RegisterChannel\fR have been matched by
corresponding calls to \fBTcl_UnregisterChannel\fR.
-
.SH "TCL_READCHARS AND TCL_READ"
.PP
\fBTcl_ReadChars\fR consumes bytes from \fIchannel\fR, converting the bytes
@@ -448,7 +435,7 @@ platform-specific modes are described in the manual entry for the Tcl
As a performance optimization, when reading from a channel with the encoding
\fBbinary\fR, the bytes are not converted to UTF-8 as they are read.
Instead, they are stored in \fIreadObjPtr\fR's internal representation as a
-byte-array object. The string representation of this object will only be
+byte-array value. The string representation of this value will only be
constructed if it is needed (e.g., because of a call to
\fBTcl_GetStringFromObj\fR). In this way, byte-oriented data can be read
from a channel, manipulated by calling \fBTcl_GetByteArrayFromObj\fR and
@@ -472,7 +459,6 @@ stack the supplied channel is part of, \fBTcl_ReadRaw\fR does
not. Thus this function is \fBonly\fR usable for transformational
channel drivers, i.e. drivers used in the middle of a stack of
channels, to move data from the channel below into the transformation.
-
.SH "TCL_GETSOBJ AND TCL_GETS"
.PP
\fBTcl_GetsObj\fR consumes bytes from \fIchannel\fR, converting the bytes to
@@ -498,8 +484,7 @@ of input unavailability.
.PP
\fBTcl_Gets\fR is the same as \fBTcl_GetsObj\fR except the resulting
characters are appended to the dynamic string given by
-\fIlineRead\fR rather than a Tcl object.
-
+\fIlineRead\fR rather than a Tcl value.
.SH "TCL_UNGETS"
.PP
\fBTcl_Ungets\fR is used to add data to the input queue of a channel,
@@ -512,7 +497,6 @@ head of the queue. If \fIchannel\fR has a
EOF set, no data will be
added to the input queue. \fBTcl_Ungets\fR returns \fIinputLen\fR or
\-1 if an error occurs.
-
.SH "TCL_WRITECHARS, TCL_WRITEOBJ, AND TCL_WRITE"
.PP
\fBTcl_WriteChars\fR accepts \fIbytesToWrite\fR bytes of character data at
@@ -539,14 +523,14 @@ end-of-line sequences according to the \fB\-translation\fR option for the
channel. This is done even if the channel has no encoding.
.PP
\fBTcl_WriteObj\fR is similar to \fBTcl_WriteChars\fR except it
-accepts a Tcl object whose contents will be output to the channel. The
+accepts a Tcl value whose contents will be output to the channel. The
UTF-8 characters in \fIwriteObjPtr\fR's string representation are converted
to the channel's encoding and queued for output to \fIchannel\fR.
As a performance optimization, when writing to a channel with the encoding
\fBbinary\fR, UTF-8 characters are not converted as they are written.
Instead, the bytes in \fIwriteObjPtr\fR's internal representation as a
-byte-array object are written to the channel. The byte-array representation
-of the object will be constructed if it is needed. In this way,
+byte-array value are written to the channel. The byte-array representation
+of the value will be constructed if it is needed. In this way,
byte-oriented data can be read from a channel, manipulated by calling
\fBTcl_GetByteArrayFromObj\fR and related functions, and then written to a
channel without the expense of ever converting to or from UTF-8.
@@ -567,7 +551,6 @@ not. Thus this function is \fBonly\fR usable for transformational
channel drivers, i.e. drivers used in the middle of a stack of
channels, to move data from the transformation into the channel below
it.
-
.SH TCL_FLUSH
.PP
\fBTcl_Flush\fR causes all of the buffered output data for \fIchannel\fR
@@ -581,7 +564,6 @@ eventually, as fast as the channel is able to absorb it.
The return value is normally \fBTCL_OK\fR.
If an error occurs, \fBTcl_Flush\fR returns \fBTCL_ERROR\fR and
records a POSIX error code that can be retrieved with \fBTcl_GetErrno\fR.
-
.SH TCL_SEEK
.PP
\fBTcl_Seek\fR moves the access point in \fIchannel\fR where subsequent
@@ -592,20 +574,15 @@ buffered input is discarded, prior to the seek operation.
If an error occurs, \fBTcl_Seek\fR returns \-1 and records a POSIX error
code that can be retrieved with \fBTcl_GetErrno\fR.
After an error, the access point may or may not have been moved.
-
.SH TCL_TELL
.PP
\fBTcl_Tell\fR returns the current access point for a channel. The returned
value is \-1 if the channel does not support seeking.
-
.SH TCL_TRUNCATECHANNEL
.PP
-.VS 8.5
\fBTcl_TruncateChannel\fR truncates the file underlying \fIchannel\fR
to a given \fIlength\fR of bytes. It returns \fBTCL_OK\fR if the
operation succeeded, and \fBTCL_ERROR\fR otherwise.
-.VE 8.5
-
.SH TCL_GETCHANNELOPTION
.PP
\fBTcl_GetChannelOption\fR retrieves, in \fIoptionValue\fR, the value of one of
@@ -627,7 +604,6 @@ for the Tcl \fBsocket\fR command.
The procedure normally returns \fBTCL_OK\fR. If an error occurs, it returns
\fBTCL_ERROR\fR and calls \fBTcl_SetErrno\fR to store an appropriate POSIX
error code.
-
.SH TCL_SETCHANNELOPTION
.PP
\fBTcl_SetChannelOption\fR sets a new value \fInewValue\fR
@@ -635,30 +611,26 @@ for an option \fIoptionName\fR on \fIchannel\fR.
The procedure normally returns \fBTCL_OK\fR. If an error occurs,
it returns \fBTCL_ERROR\fR; in addition, if \fIinterp\fR is non-NULL,
\fBTcl_SetChannelOption\fR leaves an error message in the interpreter's result.
-
.SH TCL_EOF
.PP
\fBTcl_Eof\fR returns a nonzero value if \fIchannel\fR encountered
an end of file during the last input operation.
-
.SH TCL_INPUTBLOCKED
.PP
\fBTcl_InputBlocked\fR returns a nonzero value if \fIchannel\fR is in
nonblocking mode and the last input operation returned less data than
requested because there was insufficient data available.
The call always returns zero if the channel is in blocking mode.
-
.SH TCL_INPUTBUFFERED
.PP
\fBTcl_InputBuffered\fR returns the number of bytes of input currently
buffered in the internal buffers for a channel. If the channel is not open
for reading, this function always returns zero.
-
.SH TCL_OUTPUTBUFFERED
+.PP
\fBTcl_OutputBuffered\fR returns the number of bytes of output
currently buffered in the internal buffers for a channel. If the
channel is not open for writing, this function always returns zero.
-
.SH "PLATFORM ISSUES"
.PP
The handles returned from \fBTcl_GetChannelHandle\fR depend on the
@@ -669,10 +641,8 @@ the channel was created with \fBTcl_OpenFileChannel\fR,
\fBTcl_OpenCommandChannel\fR, or \fBTcl_MakeFileChannel\fR. Other
channel types may return a different type of handle on Windows
platforms.
-
.SH "SEE ALSO"
DString(3), fconfigure(n), filename(n), fopen(3), Tcl_CreateChannel(3)
-
.SH KEYWORDS
access point, blocking, buffered I/O, channel, channel driver, end of file,
flush, input, nonblocking, output, read, seek, write
diff --git a/doc/OpenTcp.3 b/doc/OpenTcp.3
index 98d8cb0..78ac70b 100644
--- a/doc/OpenTcp.3
+++ b/doc/OpenTcp.3
@@ -49,15 +49,13 @@ accepted via the socket.
.AP ClientData clientData in
Arbitrary one-word value to pass to \fIproc\fR.
.BE
-
.SH DESCRIPTION
.PP
These functions are convenience procedures for creating
channels that communicate over TCP sockets.
The operations on a channel
are described in the manual entry for \fBTcl_OpenFileChannel\fR.
-
-.SH TCL_OPENTCPCLIENT
+.SS TCL_OPENTCPCLIENT
.PP
\fBTcl_OpenTcpClient\fR opens a client TCP socket connected to a \fIport\fR
on a specific \fIhost\fR, and returns a channel that can be used to
@@ -94,22 +92,20 @@ is left in the interpreter's result.
.PP
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
-
-.SH TCL_MAKETCPCLIENTCHANNEL
+.SS TCL_MAKETCPCLIENTCHANNEL
.PP
\fBTcl_MakeTcpClientChannel\fR creates a \fBTcl_Channel\fR around an
existing, platform specific, handle for a client TCP socket.
.PP
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
-
-.SH TCL_OPENTCPSERVER
+.SS TCL_OPENTCPSERVER
.PP
\fBTcl_OpenTcpServer\fR opens a TCP socket on the local host on a specified
\fIport\fR and uses the Tcl event mechanism to accept requests from clients
@@ -119,8 +115,9 @@ allow connections from any network interface.
Each time a client connects to this socket, Tcl creates a channel
for the new connection and invokes \fIproc\fR with information about
the channel. \fIProc\fR must match the following prototype:
+.PP
.CS
-typedef void Tcl_TcpAcceptProc(
+typedef void \fBTcl_TcpAcceptProc\fR(
ClientData \fIclientData\fR,
Tcl_Channel \fIchannel\fR,
char *\fIhostName\fR,
@@ -158,18 +155,15 @@ a remote client is pending.
.PP
The newly created channel is not registered in the supplied interpreter; to
register it, use \fBTcl_RegisterChannel\fR.
-If one of the standard channels, \fBstdin, stdout\fR or \fBstderr\fR was
+If one of the standard channels, \fBstdin\fR, \fBstdout\fR or \fBstderr\fR was
previously closed, the act of creating the new channel also assigns it as a
replacement for the standard channel.
-
.SH "PLATFORM ISSUES"
.PP
On Unix platforms, the socket handle is a Unix file descriptor as
returned by the \fBsocket\fR system call. On the Windows platform, the
socket handle is a \fBSOCKET\fR as defined in the WinSock API.
-
.SH "SEE ALSO"
Tcl_OpenFileChannel(3), Tcl_RegisterChannel(3), vwait(n)
-
.SH KEYWORDS
-client, server, TCP
+channel, client, server, socket, TCP
diff --git a/doc/Panic.3 b/doc/Panic.3
index b53ca11..48aed2b 100644
--- a/doc/Panic.3
+++ b/doc/Panic.3
@@ -33,9 +33,7 @@ Must have been initialized using \fBva_start\fR,
and cleared using \fBva_end\fR.
.AP Tcl_PanicProc *panicProc in
Procedure to report fatal error message and abort.
-
.BE
-
.SH DESCRIPTION
.PP
When the Tcl library detects that its internal data structures are in an
@@ -51,33 +49,31 @@ same formatting rules are also used by the built-in Tcl command
In a freshly loaded Tcl library, \fBTcl_Panic\fR prints the formatted
error message to the standard error file of the process, and then
calls \fBabort\fR to terminate the process. \fBTcl_Panic\fR does not
-return.
+return. On Windows, when a debugger is running, the formatted error
+message is sent to the debugger in stead. If the windows executable
+does not have a stderr channel (e.g. \fBwish.exe\fR), then a
+system dialog box is used to display the panic message.
.PP
\fBTcl_SetPanicProc\fR may be used to modify the behavior of
\fBTcl_Panic\fR. The \fIpanicProc\fR argument should match the
type \fBTcl_PanicProc\fR:
.PP
.CS
-typedef void Tcl_PanicProc(
+typedef void \fBTcl_PanicProc\fR(
const char *\fBformat\fR,
\fBarg\fR, \fBarg\fR,...);
.CE
.PP
After \fBTcl_SetPanicProc\fR returns, any future calls to
\fBTcl_Panic\fR will call \fIpanicProc\fR, passing along the
-\fIformat\fR and \fIarg\fR arguments. To maintain consistency with the
-callers of \fBTcl_Panic\fR, \fIpanicProc\fR must not return; it must
-call \fBabort\fR. \fIpanicProc\fR should avoid making calls into the
-Tcl library, or into other libraries that may call the Tcl library,
-since the original call to \fBTcl_Panic\fR indicates the Tcl library is
-not in a state of reliable operation.
+\fIformat\fR and \fIarg\fR arguments. \fIpanicProc\fR should avoid
+making calls into the Tcl library, or into other libraries that may
+call the Tcl library, since the original call to \fBTcl_Panic\fR
+indicates the Tcl library is not in a state of reliable operation.
.PP
The typical use of \fBTcl_SetPanicProc\fR arranges for the error message
to be displayed or reported in a manner more suitable for the
-application or the platform. As an example, the Windows implementation
-of \fBwish\fR calls \fBTcl_SetPanicProc\fR to force all panic messages
-to be displayed in a system dialog box, rather than to be printed to the
-standard error file (usually not visible under Windows).
+application or the platform.
.PP
Although the primary callers of \fBTcl_Panic\fR are the procedures of
the Tcl library, \fBTcl_Panic\fR is a public function and may be called
@@ -87,10 +83,7 @@ will be displayed.
.PP
\fBTcl_PanicVA\fR is the same as \fBTcl_Panic\fR except that instead of
taking a variable number of arguments it takes an argument list.
-
.SH "SEE ALSO"
abort(3), printf(3), exec(n), format(n)
-
.SH KEYWORDS
abort, fatal, error
-
diff --git a/doc/ParseArgs.3 b/doc/ParseArgs.3
new file mode 100644
index 0000000..1ceafe5
--- /dev/null
+++ b/doc/ParseArgs.3
@@ -0,0 +1,198 @@
+'\"
+'\" Copyright (c) 2008 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH Tcl_ParseArgsObjv 3 8.6 Tcl "Tcl Library Procedures"
+.BS
+.SH NAME
+Tcl_ParseArgsObjv \- parse arguments according to a tabular description
+.SH SYNOPSIS
+.nf
+\fB#include <tcl.h>\fR
+.sp
+int
+\fBTcl_ParseArgsObjv\fR(\fIinterp, argTable, objcPtr, objv, remObjv\fR)
+.SH ARGUMENTS
+.AS "const Tcl_ArgvInfo" ***remObjv in/out
+.AP Tcl_Interp *interp out
+Where to store error messages.
+.AP "const Tcl_ArgvInfo" *argTable in
+Pointer to array of option descriptors.
+.AP int *objcPtr in/out
+A pointer to variable holding number of arguments in \fIobjv\fR. Will be
+modified to hold number of arguments left in the unprocessed argument list
+stored in \fIremObjv\fR.
+.AP "Tcl_Obj *const" *objv in
+The array of arguments to be parsed.
+.AP Tcl_Obj ***remObjv out
+Pointer to a variable that will hold the array of unprocessed arguments.
+Should be NULL if no return of unprocessed arguments is required. If
+\fIobjcPtr\fR is updated to a non-zero value, the array returned through this
+must be deallocated using \fBckfree\fR.
+.BE
+.SH DESCRIPTION
+.PP
+The \fBTcl_ParseArgsObjv\fR function provides a system for parsing argument
+lists of the form
+.QW "\fB\-someName \fIsomeValue\fR ..." .
+Such argument lists are commonly found both in the arguments to a program and
+in the arguments to an individual Tcl command. This parser assumes that the
+order of the arguments does not matter, other than in so far as later copies
+of a duplicated option overriding earlier ones.
+.PP
+The argument array is described by the \fIobjcPtr\fR and \fIobjv\fR
+parameters, and an array of unprocessed arguments is returned through the
+\fIobjcPtr\fR and \fIremObjv\fR parameters; if no return of unprocessed
+arguments is desired, the \fIremObjv\fR parameter should be NULL. If any
+problems happen, including if the
+.QW "generate help"
+option is selected, an error message is left in the interpreter result and
+TCL_ERROR is returned. Otherwise, the interpreter result is left unchanged and
+TCL_OK is returned.
+.PP
+The collection of arguments to be parsed is described by the \fIargTable\fR
+parameter. This points to a table of descriptor structures that is terminated
+by an entry with the \fItype\fR field set to TCL_ARGV_END. As convenience, the
+following prototypical entries are provided:
+.TP
+\fBTCL_ARGV_AUTO_HELP\fR
+.
+Enables the argument processor to provide help when passed the argument
+.QW \fB\-help\fR .
+.TP
+\fBTCL_ARGV_AUTO_REST\fR
+.
+Instructs the argument processor that arguments after
+.QW \fB\-\-\fR
+are to be unprocessed.
+.TP
+\fBTCL_ARGV_TABLE_END\fR
+.
+Marks the end of the table of argument descriptors.
+.SS "ARGUMENT DESCRIPTOR ENTRIES"
+.PP
+Each entry of the argument descriptor table must be a structure of type
+\fBTcl_ArgvInfo\fR. The structure is defined as this:
+.PP
+.CS
+typedef struct {
+ int \fItype\fR;
+ const char *\fIkeyStr\fR;
+ void *\fIsrcPtr\fR;
+ void *\fIdstPtr\fR;
+ const char *\fIhelpStr\fR;
+ ClientData \fIclientData\fR;
+} \fBTcl_ArgvInfo\fR;
+.CE
+.PP
+The \fIkeyStr\fR field contains the name of the option; by convention, this
+will normally begin with a
+.QW \fB\-\fR
+character. The \fItype\fR, \fIsrcPtr\fR, \fIdstPtr\fR and \fIclientData\fR
+fields describe the interpretation of the value of the argument, as described
+below. The \fIhelpStr\fR field gives some text that is used to provide help to
+users when they request it.
+.PP
+As noted above, the \fItype\fR field is used to describe the interpretation of
+the argument's value. The following values are acceptable values for
+\fItype\fR:
+.TP
+\fBTCL_ARGV_CONSTANT\fR
+.
+The argument does not take any following value argument. If this argument is
+present, the int pointed to by the \fIsrcPtr\fR field is copied to the
+\fIdstPtr\fR field. The \fIclientData\fR field is ignored.
+.TP
+\fBTCL_ARGV_END\fR
+.
+This value marks the end of all option descriptors in the table. All other
+fields are ignored.
+.TP
+\fBTCL_ARGV_FLOAT\fR
+.
+This argument takes a following floating point value argument. The value (once
+parsed by \fBTcl_GetDoubleFromObj\fR) will be stored as a double-precision
+value in the variable pointed to by the \fIdstPtr\fR field. The \fIsrcPtr\fR
+and \fIclientData\fR fields are ignored.
+.TP
+\fBTCL_ARGV_FUNC\fR
+.
+This argument optionally takes a following value argument; it is up to the
+handler callback function passed in \fIsrcPtr\fR to decide. That function will
+have the following signature:
+.RS
+.PP
+.CS
+typedef int (\fBTcl_ArgvFuncProc\fR)(
+ ClientData \fIclientData\fR,
+ Tcl_Obj *\fIobjPtr\fR,
+ void *\fIdstPtr\fR);
+.CE
+.PP
+The result is a boolean value indicating whether to consume the following
+argument. The \fIclientData\fR is the value from the table entry, the
+\fIobjPtr\fR is the value that represents the following argument or NULL if
+there are no following arguments at all, and the \fIdstPtr\fR argument to the
+\fBTcl_ArgvFuncProc\fR is the location to write the parsed value to.
+.RE
+.TP
+\fBTCL_ARGV_GENFUNC\fR
+.
+This argument takes zero or more following arguments; the handler callback
+function passed in \fIsrcPtr\fR returns how many (or a negative number to
+signal an error, in which case it should also set the interpreter result). The
+function will have the following signature:
+.RS
+.PP
+.CS
+typedef int (\fBTcl_ArgvGenFuncProc\fR)(
+ ClientData \fIclientData\fR,
+ Tcl_Interp *\fIinterp\fR,
+ int \fIobjc\fR,
+ Tcl_Obj *const *\fIobjv\fR,
+ void *\fIdstPtr\fR);
+.CE
+.PP
+The \fIclientData\fR is the value from the table entry, the \fIinterp\fR is
+where to store any error messages, the \fIkeyStr\fR is the name of the
+argument, \fIobjc\fR and \fIobjv\fR describe an array of all the remaining
+arguments, and \fIdstPtr\fR argument to the \fBTcl_ArgvGenFuncProc\fR is the
+location to write the parsed value (or values) to.
+.RE
+.TP
+\fBTCL_ARGV_HELP\fR
+.
+This special argument does not take any following value argument, but instead
+causes \fBTcl_ParseArgsObjv\fR to generate an error message describing the
+arguments supported. All other fields except the \fIhelpStr\fR field are
+ignored.
+.TP
+\fBTCL_ARGV_INT\fR
+.
+This argument takes a following integer value argument. The value (once parsed
+by \fBTcl_GetIntFromObj\fR) will be stored as an int in the variable pointed
+to by the \fIdstPtr\fR field. The \fIsrcPtr\fR field is ignored.
+.TP
+\fBTCL_ARGV_REST\fR
+.
+This special argument does not take any following value argument, but instead
+marks all following arguments to be left unprocessed. The \fIsrcPtr\fR,
+\fIdstPtr\fR and \fIclientData\fR fields are ignored.
+.TP
+\fBTCL_ARGV_STRING\fR
+.
+This argument takes a following string value argument. A pointer to the string
+will be stored at \fIdstPtr\fR; the string inside will have a lifetime linked
+to the lifetime of the string representation of the argument value that it
+came from, and so should be copied if it needs to be retained. The
+\fIsrcPtr\fR and \fIclientData\fR fields are ignored.
+.SH "SEE ALSO"
+Tcl_GetIndexFromObj(3), Tcl_Main(3), Tcl_CreateObjCommand(3)
+.SH KEYWORDS
+argument, parse
+'\" Local Variables:
+'\" fill-column: 78
+'\" End:
diff --git a/doc/ParseCmd.3 b/doc/ParseCmd.3
index b5fc6d0..5fd9b9c 100644
--- a/doc/ParseCmd.3
+++ b/doc/ParseCmd.3
@@ -80,7 +80,6 @@ if the parse was successful.
Points to structure that was filled in by a previous call to
\fBTcl_ParseCommand\fR, \fBTcl_ParseExpr\fR, \fBTcl_ParseVarName\fR, etc.
.BE
-
.SH DESCRIPTION
.PP
These procedures parse Tcl commands or portions of Tcl commands such as
@@ -195,37 +194,37 @@ result; it can be retrieved using \fBTcl_GetObjResult\fR.
.PP
\fBTcl_EvalTokens\fR differs from \fBTcl_EvalTokensStandard\fR only in
the return convention used: it returns the result in a new Tcl_Obj.
-The reference count of the object returned as result has been
+The reference count of the value returned as result has been
incremented, so the caller must
-invoke \fBTcl_DecrRefCount\fR when it is finished with the object.
+invoke \fBTcl_DecrRefCount\fR when it is finished with the value.
If an error or other exception occurs while evaluating the tokens
(such as a reference to a non-existent variable) then the return value
is NULL and an error message is left in \fIinterp\fR's result. The use
of \fBTcl_EvalTokens\fR is deprecated.
-
.SH "TCL_PARSE STRUCTURE"
.PP
\fBTcl_ParseCommand\fR, \fBTcl_ParseExpr\fR, \fBTcl_ParseBraces\fR,
\fBTcl_ParseQuotedString\fR, and \fBTcl_ParseVarName\fR
return parse information in two data structures, Tcl_Parse and Tcl_Token:
+.PP
.CS
typedef struct Tcl_Parse {
- const char *\fIcommentStart\fR;
- int \fIcommentSize\fR;
- const char *\fIcommandStart\fR;
- int \fIcommandSize\fR;
- int \fInumWords\fR;
- Tcl_Token *\fItokenPtr\fR;
- int \fInumTokens\fR;
- ...
-} Tcl_Parse;
+ const char *\fIcommentStart\fR;
+ int \fIcommentSize\fR;
+ const char *\fIcommandStart\fR;
+ int \fIcommandSize\fR;
+ int \fInumWords\fR;
+ Tcl_Token *\fItokenPtr\fR;
+ int \fInumTokens\fR;
+ ...
+} \fBTcl_Parse\fR;
typedef struct Tcl_Token {
- int \fItype\fR;
- const char *\fIstart\fR;
- int \fIsize\fR;
- int \fInumComponents\fR;
-} Tcl_Token;
+ int \fItype\fR;
+ const char *\fIstart\fR;
+ int \fIsize\fR;
+ int \fInumComponents\fR;
+} \fBTcl_Token\fR;
.CE
.PP
The first five fields of a Tcl_Parse structure
@@ -267,6 +266,7 @@ the \fInumComponents\fR field describes how many of these there are.
The \fItype\fR field has one of the following values:
.TP 20
\fBTCL_TOKEN_WORD\fR
+.
This token ordinarily describes one word of a command
but it may also describe a quoted or braced string in an expression.
The token describes a component of the script that is
@@ -281,29 +281,32 @@ number of sub-tokens that make up the word, including sub-tokens
of \fBTCL_TOKEN_VARIABLE\fR and \fBTCL_TOKEN_BS\fR tokens.
.TP
\fBTCL_TOKEN_SIMPLE_WORD\fR
+.
This token has the same meaning as \fBTCL_TOKEN_WORD\fR, except that
the word is guaranteed to consist of a single \fBTCL_TOKEN_TEXT\fR
sub-token. The \fInumComponents\fR field is always 1.
.TP
\fBTCL_TOKEN_EXPAND_WORD\fR
-.VS 8.5
+.
This token has the same meaning as \fBTCL_TOKEN_WORD\fR, except that
the command parser notes this word began with the expansion
prefix \fB{*}\fR, indicating that after substitution,
the list value of this word should be expanded to form multiple
arguments in command evaluation. This
token type can only be created by Tcl_ParseCommand.
-.VE 8.5
.TP
\fBTCL_TOKEN_TEXT\fR
+.
The token describes a range of literal text that is part of a word.
The \fInumComponents\fR field is always 0.
.TP
\fBTCL_TOKEN_BS\fR
+.
The token describes a backslash sequence such as \fB\en\fR or \fB\e0xa3\fR.
The \fInumComponents\fR field is always 0.
.TP
\fBTCL_TOKEN_COMMAND\fR
+.
The token describes a command whose result must be substituted into
the word. The token includes the square brackets that surround the
command. The \fInumComponents\fR field is always 0 (the nested command
@@ -311,6 +314,7 @@ is not parsed; call \fBTcl_ParseCommand\fR recursively if you want to
see its tokens).
.TP
\fBTCL_TOKEN_VARIABLE\fR
+.
The token describes a variable substitution, including the
\fB$\fR, variable name, and array index (if there is one) up through the
close parenthesis that terminates the index. This token is followed
@@ -326,6 +330,7 @@ array index. The \fInumComponents\fR field includes nested sub-tokens
that are part of \fBTCL_TOKEN_VARIABLE\fR tokens in the array index.
.TP
\fBTCL_TOKEN_SUB_EXPR\fR
+.
The token describes one subexpression of an expression
(or an entire expression).
A subexpression may consist of a value
@@ -352,6 +357,7 @@ counts the total number of sub-tokens that make up the subexpression;
this includes the sub-tokens for any nested \fBTCL_TOKEN_SUB_EXPR\fR tokens.
.TP
\fBTCL_TOKEN_OPERATOR\fR
+.
The token describes one operator of an expression
such as \fB&&\fR or \fBhypot\fR.
A \fBTCL_TOKEN_OPERATOR\fR token is always preceded by a
@@ -383,7 +389,6 @@ is always 0.
After \fBTcl_ParseCommand\fR returns, the first token pointed to by
the \fItokenPtr\fR field of the
Tcl_Parse structure always has type \fBTCL_TOKEN_WORD\fR or
-.VS 8.5
\fBTCL_TOKEN_SIMPLE_WORD\fR or \fBTCL_TOKEN_EXPAND_WORD\fR.
It is followed by the sub-tokens
that must be concatenated to produce the value of that word.
@@ -392,7 +397,6 @@ of \fBTCL_TOKEN_EXPAND_WORD\fR token for the second word,
followed by sub-tokens for that
word, and so on until all \fInumWords\fR have been accounted
for.
-.VE 8.5
.PP
After \fBTcl_ParseExpr\fR returns, the first token pointed to by
the \fItokenPtr\fR field of the
@@ -459,6 +463,5 @@ There are additional fields in the Tcl_Parse structure after the
\fBTcl_ParseCommand\fR, \fBTcl_ParseExpr\fR, \fBTcl_ParseBraces\fR,
\fBTcl_ParseQuotedString\fR, and \fBTcl_ParseVarName\fR; they should not be
referenced by code outside of these procedures.
-
.SH KEYWORDS
backslash substitution, braces, command, expression, parse, token, variable substitution
diff --git a/doc/PkgRequire.3 b/doc/PkgRequire.3
index 810947d..d54d7af 100644
--- a/doc/PkgRequire.3
+++ b/doc/PkgRequire.3
@@ -34,7 +34,7 @@ int
int
\fBTcl_PkgProvideEx\fR(\fIinterp, name, version, clientData\fR)
.SH ARGUMENTS
-.AS ClientData clientDataPtr out
+.AS void *clientDataPtr out
.AP Tcl_Interp *interp in
Interpreter where package is needed or available.
.AP "const char" *name in
@@ -48,18 +48,18 @@ Non-zero means that only the particular version specified by
Zero means that newer versions than \fIversion\fR are also
acceptable as long as they have the same major version number
as \fIversion\fR.
-.AP ClientData clientData in
+.AP "const void" *clientData in
Arbitrary value to be associated with the package.
-.AP ClientData *clientDataPtr out
+.AP void *clientDataPtr out
Pointer to place to store the value associated with the matching
package. It is only changed if the pointer is not NULL and the
-function completed successfully.
+function completed successfully. The storage can be any pointer
+type with the same size as a void pointer.
.AP int objc in
Number of requirements.
.AP Tcl_Obj* objv[] in
Array of requirements.
.BE
-
.SH DESCRIPTION
.PP
These procedures provide C-level interfaces to Tcl's package and
@@ -91,6 +91,7 @@ functions.
\fBTcl_PkgRequireProc\fR is the form of \fBpackage require\fR handling
multiple requirements. The other forms are present for backward
compatibility and translate their invocations to this form.
-
.SH KEYWORDS
package, present, provide, require, version
+.SH "SEE ALSO"
+package(n), Tcl_StaticPackage(3)
diff --git a/doc/Preserve.3 b/doc/Preserve.3
index 2b3edc0..905a31d 100644
--- a/doc/Preserve.3
+++ b/doc/Preserve.3
@@ -27,7 +27,6 @@ to memory for structure.
.AP Tcl_FreeProc *freeProc in
Procedure to invoke to free \fIclientData\fR.
.BE
-
.SH DESCRIPTION
.PP
These three procedures help implement a simple reference count mechanism
@@ -78,9 +77,12 @@ calls to \fBTcl_Release\fR then \fIfreeProc\fR will be called by
All the work of freeing the object is carried out by \fIfreeProc\fR.
\fIFreeProc\fR must have arguments and result that match the
type \fBTcl_FreeProc\fR:
+.PP
.CS
-typedef void Tcl_FreeProc(char *\fIblockPtr\fR);
+typedef void \fBTcl_FreeProc\fR(
+ char *\fIblockPtr\fR);
.CE
+.PP
The \fIblockPtr\fR argument to \fIfreeProc\fR will be the
same as the \fIclientData\fR argument to \fBTcl_EventuallyFree\fR.
The type of \fIblockPtr\fR (\fBchar *\fR) is different than the type of the
@@ -102,9 +104,7 @@ mechanism for long-term reference counts.
The implementation does not depend in any way on the internal
structure of the objects being freed; it keeps the reference
counts in a separate structure.
-
.SH "SEE ALSO"
Tcl_Interp, Tcl_Alloc
-
.SH KEYWORDS
free, reference count, storage
diff --git a/doc/PrintDbl.3 b/doc/PrintDbl.3
index 279b4d5..99b0113 100644
--- a/doc/PrintDbl.3
+++ b/doc/PrintDbl.3
@@ -28,7 +28,6 @@ Floating-point value to be converted.
Where to store the string representing \fIvalue\fR. Must have at
least \fBTCL_DOUBLE_SPACE\fR characters of storage.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_PrintDouble\fR generates a string that represents the value
@@ -41,7 +40,6 @@ or an
so that it does not look like an integer. Where \fB%g\fR would
generate an integer with no decimal point, \fBTcl_PrintDouble\fR adds
.QW .0 .
-.VS 8.5
.PP
If the \fBtcl_precision\fR value is non-zero, the result will have
precisely that many digits of significance. If the value is zero
@@ -49,7 +47,5 @@ precisely that many digits of significance. If the value is zero
represent the number in such a way that \fBTcl_NewDoubleObj\fR
will generate the same number when presented with the given string.
IEEE semantics of rounding to even apply to the conversion.
-.VE
-
.SH KEYWORDS
conversion, double-precision, floating-point, string
diff --git a/doc/RecEvalObj.3 b/doc/RecEvalObj.3
index 2eed471..44888f6 100644
--- a/doc/RecEvalObj.3
+++ b/doc/RecEvalObj.3
@@ -20,7 +20,7 @@ int
.AP Tcl_Interp *interp in
Tcl interpreter in which to evaluate command.
.AP Tcl_Obj *cmdPtr in
-Points to a Tcl object containing a command (or sequence of commands)
+Points to a Tcl value containing a command (or sequence of commands)
to execute.
.AP int flags in
An OR'ed combination of flag bits. \fBTCL_NO_EVAL\fR means record the
@@ -35,7 +35,7 @@ on the history list and then execute it using \fBTcl_EvalObjEx\fR
(or \fBTcl_GlobalEvalObj\fR if the \fBTCL_EVAL_GLOBAL\fR bit is set
in \fIflags\fR).
It returns a completion code such as \fBTCL_OK\fR just like \fBTcl_EvalObjEx\fR,
-as well as a result object containing additional information
+as well as a result value containing additional information
(a result value or error message)
that can be retrieved using \fBTcl_GetObjResult\fR.
If you do not want the command recorded on the history list then
@@ -50,4 +50,4 @@ the command is recorded without being evaluated.
Tcl_EvalObjEx, Tcl_GetObjResult
.SH KEYWORDS
-command, event, execute, history, interpreter, object, record
+command, event, execute, history, interpreter, value, record
diff --git a/doc/RecordEval.3 b/doc/RecordEval.3
index a8f3087..a29f974 100644
--- a/doc/RecordEval.3
+++ b/doc/RecordEval.3
@@ -44,9 +44,9 @@ If the \fIflags\fR argument contains the \fBTCL_NO_EVAL\fR bit then
the command is recorded without being evaluated.
.PP
Note that \fBTcl_RecordAndEval\fR has been largely replaced by the
-object-based procedure \fBTcl_RecordAndEvalObj\fR.
-That object-based procedure records and optionally executes
-a command held in a Tcl object instead of a string.
+value-based procedure \fBTcl_RecordAndEvalObj\fR.
+That value-based procedure records and optionally executes
+a command held in a Tcl value instead of a string.
.SH "SEE ALSO"
Tcl_RecordAndEvalObj
diff --git a/doc/RegConfig.3 b/doc/RegConfig.3
index 19c0bb0..063cc85 100644
--- a/doc/RegConfig.3
+++ b/doc/RegConfig.3
@@ -26,7 +26,7 @@ registered for. Must not be NULL.
Contains the name of the package registering the embedded
configuration as ASCII string. This means that this information is in
UTF-8 too. Must not be NULL.
-.AP Tcl_Config *configuration in
+.AP "const Tcl_Config" *configuration in
Refers to an array of Tcl_Config entries containing the information
embedded in the binary library. Must not be NULL. The end of the array
is signaled by either a key identical to NULL, or a key referring to
@@ -36,7 +36,6 @@ Contains the name of the encoding used to store the configuration
values as ASCII string. This means that this information is in UTF-8
too. Must not be NULL.
.BE
-
.SH DESCRIPTION
.PP
The function described here has its base in TIP 59 and provides
@@ -81,7 +80,7 @@ create a namespace having the provided \fIpkgName\fR, if not yet
existing.
.IP (2)
create the command \fBpkgconfig\fR in that namespace and link it to
-the provided information so that the keys from _configuration_ and
+the provided information so that the keys from \fIconfiguration\fR and
their associated values can be retrieved through calls to
\fBpkgconfig\fR.
.PP
@@ -102,9 +101,9 @@ The \fBTcl_Config\fR structure contains the following fields:
.PP
.CS
typedef struct Tcl_Config {
- const char* key;
- const char* value;
-} Tcl_Config;
+ const char *\fIkey\fR;
+ const char *\fIvalue\fR;
+} \fBTcl_Config\fR;
.CE
.\" No cross references yet.
.\" .SH "SEE ALSO"
diff --git a/doc/RegExp.3 b/doc/RegExp.3
index 0ac091c..882976c 100644
--- a/doc/RegExp.3
+++ b/doc/RegExp.3
@@ -45,12 +45,12 @@ void
Tcl interpreter to use for error reporting. The interpreter may be
NULL if no error reporting is desired.
.AP Tcl_Obj *textObj in/out
-Refers to the object from which to get the text to search. The
-internal representation of the object may be converted to a form that
+Refers to the value from which to get the text to search. The
+internal representation of the value may be converted to a form that
can be efficiently searched.
.AP Tcl_Obj *patObj in/out
-Refers to the object from which to get a regular expression. The
-compiled regular expression is cached in the object.
+Refers to the value from which to get a regular expression. The
+compiled regular expression is cached in the value.
.AP char *text in
Text to search for a match with a regular expression.
.AP "const char" *pattern in
@@ -110,7 +110,7 @@ If an error occurs in the matching process (e.g. \fIpattern\fR
is not a valid regular expression) then \fBTcl_RegExpMatch\fR
returns \-1 and leaves an error message in the interpreter result.
\fBTcl_RegExpMatchObj\fR is similar to \fBTcl_RegExpMatch\fR except it
-operates on the Tcl objects \fItextObj\fR and \fIpatObj\fR instead of
+operates on the Tcl values \fItextObj\fR and \fIpatObj\fR instead of
UTF strings.
\fBTcl_RegExpMatchObj\fR is generally more efficient than
\fBTcl_RegExpMatch\fR, so it is the preferred interface.
@@ -164,18 +164,18 @@ If there is no range corresponding to \fIindex\fR then NULL
is stored in \fI*startPtr\fR and \fI*endPtr\fR.
.PP
\fBTcl_GetRegExpFromObj\fR, \fBTcl_RegExpExecObj\fR, and
-\fBTcl_RegExpGetInfo\fR are object interfaces that provide the most
+\fBTcl_RegExpGetInfo\fR are value interfaces that provide the most
direct control of Henry Spencer's regular expression library. For
users that need to modify compilation and execution options directly,
it is recommended that you use these interfaces instead of calling the
internal regexp functions. These interfaces handle the details of UTF
to Unicode translations as well as providing improved performance
-through caching in the pattern and string objects.
+through caching in the pattern and string values.
.PP
\fBTcl_GetRegExpFromObj\fR attempts to return a compiled regular
-expression from the \fIpatObj\fR. If the object does not already
+expression from the \fIpatObj\fR. If the value does not already
contain a compiled regular expression it will attempt to create one
-from the string in the object and assign it to the internal
+from the string in the value and assign it to the internal
representation of the \fIpatObj\fR. The return value of this function
is of type \fBTcl_RegExp\fR. The return value is a token for this
compiled form, which can be used in subsequent calls to
@@ -337,10 +337,10 @@ defined as follows:
.PP
.CS
typedef struct Tcl_RegExpInfo {
- int \fInsubs\fR;
- Tcl_RegExpIndices *\fImatches\fR;
- long \fIextendStart\fR;
-} Tcl_RegExpInfo;
+ int \fInsubs\fR;
+ Tcl_RegExpIndices *\fImatches\fR;
+ long \fIextendStart\fR;
+} \fBTcl_RegExpInfo\fR;
.CE
.PP
The \fInsubs\fR field contains a count of the number of parenthesized
@@ -355,9 +355,9 @@ follows:
.PP
.CS
typedef struct Tcl_RegExpIndices {
- long \fIstart\fR;
- long \fIend\fR;
-} Tcl_RegExpIndices;
+ long \fIstart\fR;
+ long \fIend\fR;
+} \fBTcl_RegExpIndices\fR;
.CE
.PP
The \fIstart\fR and \fIend\fR values are Unicode character indices
diff --git a/doc/SaveResult.3 b/doc/SaveResult.3
index f47500e..8eaf38f 100644
--- a/doc/SaveResult.3
+++ b/doc/SaveResult.3
@@ -38,10 +38,8 @@ Saved state token to be restored or discarded.
.AP Tcl_SavedResult *savedPtr in
Pointer to location where interpreter result should be saved or restored.
.BE
-
.SH DESCRIPTION
.PP
-.VS 8.5
These routines allows a C procedure to take a snapshot of the current
state of an interpreter so that it can be restored after a call
to \fBTcl_Eval\fR or some other routine that modifies the interpreter
@@ -97,14 +95,13 @@ must eventually be passed to either \fBTcl_RestoreInterpState\fR
or \fBTcl_DiscardInterpState\fR to avoid a memory leak. Once
the \fBTcl_InterpState\fR token is passed to one of them, the
token is no longer valid and should not be used anymore.
-.VE 8.5
.PP
-\fBTcl_SaveResult\fR moves the string and object results
+\fBTcl_SaveResult\fR moves the string and value results
of \fIinterp\fR into the location specified by \fIstatePtr\fR.
\fBTcl_SaveResult\fR clears the result for \fIinterp\fR and
leaves the result in its normal empty initialized state.
.PP
-\fBTcl_RestoreResult\fR moves the string and object results from
+\fBTcl_RestoreResult\fR moves the string and value results from
\fIstatePtr\fR back into \fIinterp\fR. Any result or error that was
already in the interpreter will be cleared. The \fIstatePtr\fR is left
in an uninitialized state and cannot be used until another call to
@@ -119,6 +116,5 @@ Once \fBTcl_SaveResult\fR is called to save the interpreter
result, either \fBTcl_RestoreResult\fR or
\fBTcl_DiscardResult\fR must be called to properly clean up the
memory associated with the saved state.
-
.SH KEYWORDS
result, state, interp
diff --git a/doc/SetChanErr.3 b/doc/SetChanErr.3
index 13bd94a..3d37f59 100644
--- a/doc/SetChanErr.3
+++ b/doc/SetChanErr.3
@@ -33,65 +33,60 @@ Refers to the Tcl channel whose bypass area is accessed.
.AP Tcl_Interp* interp in
Refers to the Tcl interpreter whose bypass area is accessed.
.AP Tcl_Obj* msg in
-Error message put into a bypass area. A list of return options and
-values, followed by a string message. Both message and the
-option/value information are optional.
+Error message put into a bypass area. A list of return options and values,
+followed by a string message. Both message and the option/value information
+are optional.
.AP Tcl_Obj** msgPtr out
-Reference to a place where the message stored in the accessed bypass
-area can be stored in.
+Reference to a place where the message stored in the accessed bypass area can
+be stored in.
.BE
.SH DESCRIPTION
.PP
-The current definition of a Tcl channel driver does not permit the
-direct return of arbitrary error messages, except for the setting and
-retrieval of channel options. All other functions are restricted to
-POSIX error codes.
+The current definition of a Tcl channel driver does not permit the direct
+return of arbitrary error messages, except for the setting and retrieval of
+channel options. All other functions are restricted to POSIX error codes.
.PP
-The functions described here overcome this limitation. Channel drivers
-are allowed to use \fBTcl_SetChannelError\fR and
-\fBTcl_SetChannelErrorInterp\fR to place arbitrary error messages in
-\fBbypass areas\fI defined for channels and interpreters. And the
-generic I/O layer uses \fBTcl_GetChannelError\fR and
-\fBTcl_GetChannelErrorInterp\fR to look for messages in the bypass
-areas and arrange for their return as errors. The posix error codes
-set by a driver are used now if and only if no messages are present.
+The functions described here overcome this limitation. Channel drivers are
+allowed to use \fBTcl_SetChannelError\fR and \fBTcl_SetChannelErrorInterp\fR
+to place arbitrary error messages in \fBbypass areas\fR defined for channels
+and interpreters. And the generic I/O layer uses \fBTcl_GetChannelError\fR and
+\fBTcl_GetChannelErrorInterp\fR to look for messages in the bypass areas and
+arrange for their return as errors. The POSIX error codes set by a driver are
+used now if and only if no messages are present.
.PP
-\fBTcl_SetChannelError\fR stores error information in the bypass area
-of the specified channel. The number of references to the \fBmsg\fR
-object goes up by one. Previously stored information will be
-discarded, by releasing the reference held by the channel. The channel
-reference must not be NULL.
+\fBTcl_SetChannelError\fR stores error information in the bypass area of the
+specified channel. The number of references to the \fBmsg\fR value goes up by
+one. Previously stored information will be discarded, by releasing the
+reference held by the channel. The channel reference must not be NULL.
.PP
-\fBTcl_SetChannelErrorInterp\fR stores error information in the bypass
-area of the specified interpreter. The number of references to the
-\fBmsg\fR object goes up by one. Previously stored information will be
-discarded, by releasing the reference held by the interpreter. The
-interpreter reference must not be NULL.
+\fBTcl_SetChannelErrorInterp\fR stores error information in the bypass area of
+the specified interpreter. The number of references to the \fBmsg\fR value
+goes up by one. Previously stored information will be discarded, by releasing
+the reference held by the interpreter. The interpreter reference must not be
+NULL.
.PP
-\fBTcl_GetChannelError\fR places either the error message held in the
-bypass area of the specified channel into \fImsgPtr\fR, or NULL; and
-resets the bypass. I.e. after an invocation all following invocations
-will return NULL, until an intervening invocation of
-\fBTcl_SetChannelError\fR with a non-NULL message. The \fImsgPtr\fR
-must not be NULL. The reference count of the message is not touched.
-The reference previously held by the channel is now held by the caller
-of the function and it is its responsibility to release that reference
-when it is done with the object.
+\fBTcl_GetChannelError\fR places either the error message held in the bypass
+area of the specified channel into \fImsgPtr\fR, or NULL; and resets the
+bypass, that is, after an invocation all following invocations will return
+NULL, until an intervening invocation of \fBTcl_SetChannelError\fR with a
+non-NULL message. The \fImsgPtr\fR must not be NULL. The reference count of
+the message is not touched. The reference previously held by the channel is
+now held by the caller of the function and it is its responsibility to release
+that reference when it is done with the value.
.PP
-\fBTcl_GetChannelErrorInterp\fR places either the error message held
-in the bypass area of the specified interpreter into \fImsgPtr\fR, or
-NULL; and resets the bypass. I.e. after an invocation all following
-invocations will return NULL, until an intervening invocation of
-\fBTcl_SetChannelErrorInterp\fR with a non-NULL message. The
-\fImsgPtr\fR must not be NULL. The reference count of the message is
-not touched. The reference previously held by the interpreter is now
-held by the caller of the function and it is its responsibility to
-release that reference when it is done with the object.
-.PP
-Which functions of a channel driver are allowed to use which bypass
-function is listed below, as is which functions of the public channel
-API may leave a messages in the bypass areas.
+\fBTcl_GetChannelErrorInterp\fR places either the error message held in the
+bypass area of the specified interpreter into \fImsgPtr\fR, or NULL; and
+resets the bypass, that is, after an invocation all following invocations will
+return NULL, until an intervening invocation of
+\fBTcl_SetChannelErrorInterp\fR with a non-NULL message. The \fImsgPtr\fR must
+not be NULL. The reference count of the message is not touched. The reference
+previously held by the interpreter is now held by the caller of the function
+and it is its responsibility to release that reference when it is done with
+the value.
.PP
+Which functions of a channel driver are allowed to use which bypass function
+is listed below, as is which functions of the public channel API may leave a
+messages in the bypass areas.
.IP \fBTcl_DriverCloseProc\fR
May use \fBTcl_SetChannelErrorInterp\fR, and only this function.
.IP \fBTcl_DriverInputProc\fR
@@ -103,51 +98,43 @@ May use \fBTcl_SetChannelError\fR, and only this function.
.IP \fBTcl_DriverWideSeekProc\fR
May use \fBTcl_SetChannelError\fR, and only this function.
.IP \fBTcl_DriverSetOptionProc\fR
-Has already the ability to pass arbitrary error messages. Must
-\fBnot\fR use any of the new functions.
+Has already the ability to pass arbitrary error messages. Must \fInot\fR use
+any of the new functions.
.IP \fBTcl_DriverGetOptionProc\fR
Has already the ability to pass arbitrary error messages. Must
-\fBnot\fR use any of the new functions.
+\fInot\fR use any of the new functions.
.IP \fBTcl_DriverWatchProc\fR
-Must \fBnot\fR use any of the new functions. Is internally called and
-has no ability to return any type of error whatsoever.
+Must \fInot\fR use any of the new functions. Is internally called and has no
+ability to return any type of error whatsoever.
.IP \fBTcl_DriverBlockModeProc\fR
May use \fBTcl_SetChannelError\fR, and only this function.
.IP \fBTcl_DriverGetHandleProc\fR
-Must \fBnot\fR use any of the new functions. It is only a low-level
-function, and not used by Tcl commands.
+Must \fInot\fR use any of the new functions. It is only a low-level function,
+and not used by Tcl commands.
.IP \fBTcl_DriverHandlerProc\fR
-Must \fBnot\fR use any of the new functions. Is internally called and
-has no ability to return any type of error whatsoever.
+Must \fInot\fR use any of the new functions. Is internally called and has no
+ability to return any type of error whatsoever.
.PP
-Given the information above the following public functions of the Tcl
-C API are affected by these changes. I.e. when these functions are
-called the channel may now contain a stored arbitrary error message
-requiring processing by the caller.
+Given the information above the following public functions of the Tcl C API
+are affected by these changes; when these functions are called, the channel
+may now contain a stored arbitrary error message requiring processing by the
+caller.
+.DS
+.ta 1.9i 4i
+\fBTcl_Flush\fR \fBTcl_GetsObj\fR \fBTcl_Gets\fR
+\fBTcl_ReadChars\fR \fBTcl_ReadRaw\fR \fBTcl_Read\fR
+\fBTcl_Seek\fR \fBTcl_StackChannel\fR \fBTcl_Tell\fR
+\fBTcl_WriteChars\fR \fBTcl_WriteObj\fR \fBTcl_WriteRaw\fR
+\fBTcl_Write\fR
+.DE
.PP
-.IP \fBTcl_StackChannel\fR
-.IP \fBTcl_Seek\fR
-.IP \fBTcl_Tell\fR
-.IP \fBTcl_ReadRaw\fR
-.IP \fBTcl_Read\fR
-.IP \fBTcl_ReadChars\fR
-.IP \fBTcl_Gets\fR
-.IP \fBTcl_GetsObj\fR
-.IP \fBTcl_Flush\fR
-.IP \fBTcl_WriteRaw\fR
-.IP \fBTcl_WriteObj\fR
-.IP \fBTcl_Write\fR
-.IP \fBTcl_WriteChars\fR
-.PP
-All other API functions are unchanged. Especially the functions below
+All other API functions are unchanged. In particular, the functions below
leave all their error information in the interpreter result.
-.PP
-.IP \fBTcl_Close\fR
-.IP \fBTcl_UnregisterChannel\fR
-.IP \fBTcl_UnstackChannel\fR
-
+.DS
+.ta 1.9i 4i
+\fBTcl_Close\fR \fBTcl_UnstackChannel\fR \fBTcl_UnregisterChannel\fR
+.DE
.SH "SEE ALSO"
Tcl_Close(3), Tcl_OpenFileChannel(3), Tcl_SetErrno(3)
-
.SH KEYWORDS
channel driver, error messages, channel type
diff --git a/doc/SetResult.3 b/doc/SetResult.3
index 2245794..bbeedf1 100644
--- a/doc/SetResult.3
+++ b/doc/SetResult.3
@@ -9,7 +9,7 @@
.TH Tcl_SetResult 3 8.0 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_SetObjResult, Tcl_GetObjResult, Tcl_SetResult, Tcl_GetStringResult, Tcl_AppendResult, Tcl_AppendResultVA, Tcl_AppendElement, Tcl_ResetResult, Tcl_FreeResult \- manipulate Tcl result
+Tcl_SetObjResult, Tcl_GetObjResult, Tcl_SetResult, Tcl_GetStringResult, Tcl_AppendResult, Tcl_AppendResultVA, Tcl_AppendElement, Tcl_ResetResult, Tcl_TransferResult, Tcl_FreeResult \- manipulate Tcl result
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -28,21 +28,25 @@ const char *
.sp
\fBTcl_AppendResultVA\fR(\fIinterp, argList\fR)
.sp
-\fBTcl_AppendElement\fR(\fIinterp, element\fR)
-.sp
\fBTcl_ResetResult\fR(\fIinterp\fR)
.sp
+.VS 8.6
+\fBTcl_TransferResult\fR(\fIsourceInterp, result, targetInterp\fR)
+.VE 8.6
+.sp
+\fBTcl_AppendElement\fR(\fIinterp, element\fR)
+.sp
\fBTcl_FreeResult\fR(\fIinterp\fR)
.SH ARGUMENTS
-.AS Tcl_FreeProc freeProc out
+.AS Tcl_FreeProc sourceInterp out
.AP Tcl_Interp *interp out
Interpreter whose result is to be modified or read.
.AP Tcl_Obj *objPtr in
-Object value to become result for \fIinterp\fR.
+Tcl value to become result for \fIinterp\fR.
.AP char *result in
String value to become result for \fIinterp\fR or to be
appended to the existing result.
-.AP char *element in
+.AP "const char" *element in
String value to append as a list element
to the existing result of \fIinterp\fR.
.AP Tcl_FreeProc *freeProc in
@@ -52,37 +56,50 @@ Address of procedure to call to release storage at
.AP va_list argList in
An argument list which must have been initialized using
\fBva_start\fR, and cleared using \fBva_end\fR.
+.AP Tcl_Interp *sourceInterp in
+.VS 8.6
+Interpreter that the result and error information should be copied from.
+.VE 8.6
+.AP Tcl_Interp *targetInterp in
+.VS 8.6
+Interpreter that the result and error information should be copied to.
+.VE 8.6
+.AP int result in
+.VS 8.6
+If \fBTCL_OK\fR, only copy the result. If \fBTCL_ERROR\fR, copy the error
+information as well.
+.VE 8.6
.BE
.SH DESCRIPTION
.PP
The procedures described here are utilities for manipulating the
result value in a Tcl interpreter.
-The interpreter result may be either a Tcl object or a string.
+The interpreter result may be either a Tcl value or a string.
For example, \fBTcl_SetObjResult\fR and \fBTcl_SetResult\fR
-set the interpreter result to, respectively, an object and a string.
+set the interpreter result to, respectively, a value and a string.
Similarly, \fBTcl_GetObjResult\fR and \fBTcl_GetStringResult\fR
-return the interpreter result as an object and as a string.
-The procedures always keep the string and object forms
+return the interpreter result as a value and as a string.
+The procedures always keep the string and value forms
of the interpreter result consistent.
For example, if \fBTcl_SetObjResult\fR is called to set
-the result to an object,
+the result to a value,
then \fBTcl_GetStringResult\fR is called,
-it will return the object's string value.
+it will return the value's string representation.
.PP
\fBTcl_SetObjResult\fR
arranges for \fIobjPtr\fR to be the result for \fIinterp\fR,
replacing any existing result.
-The result is left pointing to the object
+The result is left pointing to the value
referenced by \fIobjPtr\fR.
\fIobjPtr\fR's reference count is incremented
since there is now a new reference to it from \fIinterp\fR.
-The reference count for any old result object
-is decremented and the old result object is freed if no
+The reference count for any old result value
+is decremented and the old result value is freed if no
references to it remain.
.PP
-\fBTcl_GetObjResult\fR returns the result for \fIinterp\fR as an object.
-The object's reference count is not incremented;
-if the caller needs to retain a long-term pointer to the object
+\fBTcl_GetObjResult\fR returns the result for \fIinterp\fR as a value.
+The value's reference count is not incremented;
+if the caller needs to retain a long-term pointer to the value
they should use \fBTcl_IncrRefCount\fR to increment its reference count
in order to keep it from being freed too early or accidentally changed.
.PP
@@ -98,19 +115,19 @@ and \fBTcl_SetResult\fR
re-initializes \fIinterp\fR's result to point to an empty string.
.PP
\fBTcl_GetStringResult\fR returns the result for \fIinterp\fR as a string.
-If the result was set to an object by a \fBTcl_SetObjResult\fR call,
-the object form will be converted to a string and returned.
-If the object's string representation contains null bytes,
+If the result was set to a value by a \fBTcl_SetObjResult\fR call,
+the value form will be converted to a string and returned.
+If the value's string representation contains null bytes,
this conversion will lose information.
For this reason, programmers are encouraged to
-write their code to use the new object API procedures
+write their code to use the new value API procedures
and to call \fBTcl_GetObjResult\fR instead.
.PP
\fBTcl_ResetResult\fR clears the result for \fIinterp\fR
and leaves the result in its normal empty initialized state.
-If the result is an object,
+If the result is a value,
its reference count is decremented and the result is left
-pointing to an unshared object representing an empty string.
+pointing to an unshared value representing an empty string.
If the result is a dynamically allocated string, its memory is free*d
and the result is left as a empty string.
\fBTcl_ResetResult\fR also clears the error state managed by
@@ -137,12 +154,20 @@ call; the last argument in the list must be a NULL pointer.
.PP
\fBTcl_AppendResultVA\fR is the same as \fBTcl_AppendResult\fR except that
instead of taking a variable number of arguments it takes an argument list.
-.SH "OLD STRING PROCEDURES"
+.PP
+.VS 8.6
+\fBTcl_TransferResult\fR moves a result from one interpreter to another,
+optionally (dependent on the \fIresult\fR parameter) including the error
+information dictionary as well. The interpreters must be in the same thread.
+The source interpreter will have its result reset by this operation.
+.VE 8.6
+.SH "DEPRECATED INTERFACES"
+.SS "OLD STRING PROCEDURES"
.PP
Use of the following procedures (is deprecated
since they manipulate the Tcl result as a string.
Procedures such as \fBTcl_SetObjResult\fR
-that manipulate the result as an object
+that manipulate the result as a value
can be significantly more efficient.
.PP
\fBTcl_AppendElement\fR is similar to \fBTcl_AppendResult\fR in
@@ -172,16 +197,19 @@ It also sets \fIinterp->freeProc\fR to zero, but does not
change \fIinterp->result\fR or clear error state.
\fBTcl_FreeResult\fR is most commonly used when a procedure
is about to replace one result value with another.
-.SH "DIRECT ACCESS TO INTERP->RESULT IS DEPRECATED"
+.SS "DIRECT ACCESS TO INTERP->RESULT"
.PP
It used to be legal for programs to
directly read and write \fIinterp->result\fR
-to manipulate the interpreter result.
-Direct access to \fIinterp->result\fR is now strongly deprecated
-because it can make the result's string and object forms inconsistent.
-Programs should always read the result
-using the procedures \fBTcl_GetObjResult\fR or \fBTcl_GetStringResult\fR,
-and write the result using \fBTcl_SetObjResult\fR or \fBTcl_SetResult\fR.
+to manipulate the interpreter result. The Tcl headers no longer
+permit this access by default, and C code still doing this must
+be updated to use supported routines \fBTcl_GetObjResult\fR,
+\fBTcl_GetStringResult\fR, \fBTcl_SetObjResult\fR, and \fBTcl_SetResult\fR.
+As a migration aid, access can be restored with the compiler directive
+.CS
+#define USE_INTERP_RESULT
+.CE
+but this is meant only to offer life support to otherwise dead code.
.SH "THE TCL_FREEPROC ARGUMENT TO TCL_SETRESULT"
.PP
\fBTcl_SetResult\fR's \fIfreeProc\fR argument specifies how
@@ -213,12 +241,15 @@ This allows applications to use non-standard storage allocators.
When Tcl no longer needs the storage for the string, it will
call \fIfreeProc\fR. \fIFreeProc\fR should have arguments and
result that match the type \fBTcl_FreeProc\fR:
+.PP
.CS
-typedef void Tcl_FreeProc(char *\fIblockPtr\fR);
+typedef void \fBTcl_FreeProc\fR(
+ char *\fIblockPtr\fR);
.CE
+.PP
When \fIfreeProc\fR is called, its \fIblockPtr\fR will be set to
the value of \fIresult\fR passed to \fBTcl_SetResult\fR.
.SH "SEE ALSO"
Tcl_AddErrorInfo, Tcl_CreateObjCommand, Tcl_SetErrorCode, Tcl_Interp
.SH KEYWORDS
-append, command, element, list, object, result, return value, interpreter
+append, command, element, list, value, result, return value, interpreter
diff --git a/doc/SetVar.3 b/doc/SetVar.3
index ce47a73..0605ff2 100644
--- a/doc/SetVar.3
+++ b/doc/SetVar.3
@@ -57,7 +57,7 @@ to specify a variable in a particular namespace.
If non-NULL, gives name of element within array; in this
case \fIname1\fR must refer to an array variable.
.AP Tcl_Obj *newValuePtr in
-Points to a Tcl object containing the new value for the variable.
+Points to a Tcl value containing the new value for the variable.
.AP int flags in
OR-ed combination of bits providing additional information. See below
for valid values.
@@ -71,12 +71,12 @@ an array.
New value for variable, specified as a null-terminated string.
A copy of this value is stored in the variable.
.AP Tcl_Obj *part1Ptr in
-Points to a Tcl object containing the variable's name.
+Points to a Tcl value containing the variable's name.
The name may include a series of \fB::\fR namespace qualifiers
to specify a variable in a particular namespace.
May refer to a scalar variable or an element of an array variable.
.AP Tcl_Obj *part2Ptr in
-If non-NULL, points to an object containing the name of an element
+If non-NULL, points to a value containing the name of an element
within an array and \fIpart1Ptr\fR must refer to an array variable.
.BE
@@ -246,4 +246,4 @@ array is removed.
Tcl_GetObjResult, Tcl_GetStringResult, Tcl_TraceVar
.SH KEYWORDS
-array, get variable, interpreter, object, scalar, set, unset, variable
+array, get variable, interpreter, scalar, set, unset, value, variable
diff --git a/doc/SplitList.3 b/doc/SplitList.3
index fd6ec8b..219dfc7 100644
--- a/doc/SplitList.3
+++ b/doc/SplitList.3
@@ -65,7 +65,6 @@ Information about \fIsrc\fR. Must be value returned by previous
call to \fBTcl_ScanElement\fR, possibly OR-ed
with \fBTCL_DONT_USE_BRACES\fR.
.BE
-
.SH DESCRIPTION
.PP
These procedures may be used to disassemble and reassemble Tcl lists.
@@ -80,15 +79,18 @@ also holds copies of all the list elements. It is the caller's
responsibility to free up all of this storage.
For example, suppose that you have called \fBTcl_SplitList\fR with
the following code:
+.PP
.CS
int argc, code;
char *string;
char **argv;
\&...
-code = Tcl_SplitList(interp, string, &argc, &argv);
+code = \fBTcl_SplitList\fR(interp, string, &argc, &argv);
.CE
+.PP
Then you should eventually free the storage with a call like the
following:
+.PP
.CS
Tcl_Free((char *) argv);
.CE
@@ -164,7 +166,6 @@ used to generate a portion of an argument for a Tcl command.
In this case, surrounding \fIsrc\fR with curly braces would cause
the command not to be parsed correctly.
.PP
-.VS 8.5
By default, \fBTcl_ConvertElement\fR will use quoting in its output
to be sure the first character of an element is not the hash
character
@@ -176,12 +177,12 @@ is not necessary. When the caller can be sure that the element is
not the first element of a list, it can disable quoting of the leading
hash character by OR-ing the flag value returned by \fBTcl_ScanElement\fR
with \fBTCL_DONT_QUOTE_HASH\fR.
-.VE 8.5
.PP
\fBTcl_ScanCountedElement\fR and \fBTcl_ConvertCountedElement\fR are
the same as \fBTcl_ScanElement\fR and \fBTcl_ConvertElement\fR, except
the length of string \fIsrc\fR is specified by the \fIlength\fR
argument, and the string may contain embedded nulls.
-
+.SH "SEE ALSO"
+Tcl_ListObjGetElements(3)
.SH KEYWORDS
backslash, convert, element, list, merge, split, strings
diff --git a/doc/SplitPath.3 b/doc/SplitPath.3
index 6578e3d..3fd92ac 100644
--- a/doc/SplitPath.3
+++ b/doc/SplitPath.3
@@ -43,7 +43,7 @@ A pointer to an initialized \fBTcl_DString\fR to which the result of
.SH DESCRIPTION
.PP
-These procedures have been superceded by the objectified procedures in
+These procedures have been superseded by the Tcl-value-aware procedures in
the \fBFileSystem\fR man page, which are more efficient.
.PP
These procedures may be used to disassemble and reassemble file
@@ -59,6 +59,7 @@ holds copies of all the path elements. It is the caller's
responsibility to free all of this storage.
For example, suppose that you have called \fBTcl_SplitPath\fR with the
following code:
+.PP
.CS
int argc;
char *path;
@@ -66,8 +67,10 @@ char **argv;
\&...
Tcl_SplitPath(string, &argc, &argv);
.CE
+.PP
Then you should eventually free the storage with a call like the
following:
+.PP
.CS
Tcl_Free((char *) argv);
.CE
diff --git a/doc/StaticPkg.3 b/doc/StaticPkg.3
index 0dd67d1..fa6c32f 100644
--- a/doc/StaticPkg.3
+++ b/doc/StaticPkg.3
@@ -29,10 +29,9 @@ Procedure to invoke to incorporate this package into a trusted
interpreter.
.AP Tcl_PackageInitProc *safeInitProc in
Procedure to call to incorporate this package into a safe interpreter
-(one that will execute untrusted scripts). NULL means the package
+(one that will execute untrusted scripts). NULL means the package
cannot be used in safe interpreters.
.BE
-
.SH DESCRIPTION
.PP
This procedure may be invoked to announce that a package has been
@@ -52,9 +51,12 @@ be invoked, depending on whether the target interpreter is safe
or not.
\fIinitProc\fR and \fIsafeInitProc\fR must both match the
following prototype:
+.PP
.CS
-typedef int Tcl_PackageInitProc(Tcl_Interp *\fIinterp\fR);
+typedef int \fBTcl_PackageInitProc\fR(
+ Tcl_Interp *\fIinterp\fR);
.CE
+.PP
The \fIinterp\fR argument identifies the interpreter in which the package
is to be loaded. The initialization procedure must return \fBTCL_OK\fR or
\fBTCL_ERROR\fR to indicate whether or not it completed successfully; in
@@ -62,6 +64,7 @@ the event of an error it should set the interpreter's result to point to an
error message. The result or error from the initialization procedure will
be returned as the result of the \fBload\fR command that caused the
initialization procedure to be invoked.
-
.SH KEYWORDS
initialization procedure, package, static linking
+.SH "SEE ALSO"
+load(n), package(n), Tcl_PkgRequire(3)
diff --git a/doc/StringObj.3 b/doc/StringObj.3
index e451c61..e6f9d32 100644
--- a/doc/StringObj.3
+++ b/doc/StringObj.3
@@ -8,7 +8,7 @@
.TH Tcl_StringObj 3 8.1 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_NewStringObj, Tcl_NewUnicodeObj, Tcl_SetStringObj, Tcl_SetUnicodeObj, Tcl_GetStringFromObj, Tcl_GetString, Tcl_GetUnicodeFromObj, Tcl_GetUnicode, Tcl_GetUniChar, Tcl_GetCharLength, Tcl_GetRange, Tcl_AppendToObj, Tcl_AppendUnicodeToObj, Tcl_AppendObjToObj, Tcl_AppendStringsToObj, Tcl_AppendStringsToObjVA, Tcl_AppendLimitedToObj, Tcl_Format, Tcl_AppendFormatToObj, Tcl_ObjPrintf, Tcl_AppendPrintfToObj, Tcl_SetObjLength, Tcl_AttemptSetObjLength, Tcl_ConcatObj \- manipulate Tcl objects as strings
+Tcl_NewStringObj, Tcl_NewUnicodeObj, Tcl_SetStringObj, Tcl_SetUnicodeObj, Tcl_GetStringFromObj, Tcl_GetString, Tcl_GetUnicodeFromObj, Tcl_GetUnicode, Tcl_GetUniChar, Tcl_GetCharLength, Tcl_GetRange, Tcl_AppendToObj, Tcl_AppendUnicodeToObj, Tcl_AppendObjToObj, Tcl_AppendStringsToObj, Tcl_AppendStringsToObjVA, Tcl_AppendLimitedToObj, Tcl_Format, Tcl_AppendFormatToObj, Tcl_ObjPrintf, Tcl_AppendPrintfToObj, Tcl_SetObjLength, Tcl_AttemptSetObjLength, Tcl_ConcatObj \- manipulate Tcl values as strings
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -60,7 +60,6 @@ void
.sp
void
\fBTcl_AppendStringsToObjVA\fR(\fIobjPtr, argList\fR)
-.VS 8.5
.sp
void
\fBTcl_AppendLimitedToObj\fR(\fIobjPtr, bytes, length, limit, ellipsis\fR)
@@ -74,9 +73,8 @@ int
Tcl_Obj *
\fBTcl_ObjPrintf\fR(\fIformat, ...\fR)
.sp
-int
+void
\fBTcl_AppendPrintfToObj\fR(\fIobjPtr, format, ...\fR)
-.VE 8.5
.sp
void
\fBTcl_SetObjLength\fR(\fIobjPtr, newLength\fR)
@@ -90,7 +88,7 @@ Tcl_Obj *
.AS "const Tcl_UniChar" *appendObjPtr in/out
.AP "const char" *bytes in
Points to the first byte of an array of UTF-8-encoded bytes
-used to set or append to a string object.
+used to set or append to a string value.
This byte array may contain embedded null characters
unless \fInumChars\fR is negative. (Applications needing null bytes
should represent them as the two-byte sequence \fI\e700\e600\fR, use
@@ -98,88 +96,89 @@ should represent them as the two-byte sequence \fI\e700\e600\fR, use
the string is a collection of uninterpreted bytes.)
.AP int length in
The number of bytes to copy from \fIbytes\fR when
-initializing, setting, or appending to a string object.
+initializing, setting, or appending to a string value.
If negative, all bytes up to the first null are used.
.AP "const Tcl_UniChar" *unicode in
Points to the first byte of an array of Unicode characters
-used to set or append to a string object.
+used to set or append to a string value.
This byte array may contain embedded null characters
unless \fInumChars\fR is negative.
.AP int numChars in
The number of Unicode characters to copy from \fIunicode\fR when
-initializing, setting, or appending to a string object.
+initializing, setting, or appending to a string value.
If negative, all characters up to the first null character are used.
.AP int index in
The index of the Unicode character to return.
.AP int first in
The index of the first Unicode character in the Unicode range to be
-returned as a new object.
+returned as a new value.
.AP int last in
The index of the last Unicode character in the Unicode range to be
-returned as a new object.
+returned as a new value.
.AP Tcl_Obj *objPtr in/out
-Points to an object to manipulate.
+Points to a value to manipulate.
.AP Tcl_Obj *appendObjPtr in
-The object to append to \fIobjPtr\fR in \fBTcl_AppendObjToObj\fR.
+The value to append to \fIobjPtr\fR in \fBTcl_AppendObjToObj\fR.
.AP int *lengthPtr out
If non-NULL, the location where \fBTcl_GetStringFromObj\fR will store
-the length of an object's string representation.
+the length of a value's string representation.
.AP "const char" *string in
Null-terminated string value to append to \fIobjPtr\fR.
.AP va_list argList in
-An argument list which must have been initialised using
+An argument list which must have been initialized using
\fBva_start\fR, and cleared using \fBva_end\fR.
.AP int limit in
Maximum number of bytes to be appended.
.AP "const char" *ellipsis in
Suffix to append when the limit leads to string truncation.
-If NULL is passed then the suffix "..." is used.
+If NULL is passed then the suffix
+.QW "..."
+is used.
.AP "const char" *format in
Format control string including % conversion specifiers.
.AP int objc in
The number of elements to format or concatenate.
.AP Tcl_Obj *objv[] in
-The array of objects to format or concatenate.
+The array of values to format or concatenate.
.AP int newLength in
New length for the string value of \fIobjPtr\fR, not including the
final null character.
.BE
-
.SH DESCRIPTION
.PP
-The procedures described in this manual entry allow Tcl objects to
+The procedures described in this manual entry allow Tcl values to
be manipulated as string values. They use the internal representation
-of the object to store additional information to make the string
+of the value to store additional information to make the string
manipulations more efficient. In particular, they make a series of
append operations efficient by allocating extra storage space for the
string so that it does not have to be copied for each append.
Also, indexing and length computations are optimized because the
Unicode string representation is calculated and cached as needed.
When using the \fBTcl_Append*\fR family of functions where the
-interpreter's result is the object being appended to, it is important
+interpreter's result is the value being appended to, it is important
to call Tcl_ResetResult first to ensure you are not unintentionally
-appending to existing data in the result object.
+appending to existing data in the result value.
.PP
-\fBTcl_NewStringObj\fR and \fBTcl_SetStringObj\fR create a new object
-or modify an existing object to hold a copy of the string given by
+\fBTcl_NewStringObj\fR and \fBTcl_SetStringObj\fR create a new value
+or modify an existing value to hold a copy of the string given by
\fIbytes\fR and \fIlength\fR. \fBTcl_NewUnicodeObj\fR and
-\fBTcl_SetUnicodeObj\fR create a new object or modify an existing
-object to hold a copy of the Unicode string given by \fIunicode\fR and
+\fBTcl_SetUnicodeObj\fR create a new value or modify an existing
+value to hold a copy of the Unicode string given by \fIunicode\fR and
\fInumChars\fR. \fBTcl_NewStringObj\fR and \fBTcl_NewUnicodeObj\fR
-return a pointer to a newly created object with reference count zero.
-All four procedures set the object to hold a copy of the specified
+return a pointer to a newly created value with reference count zero.
+All four procedures set the value to hold a copy of the specified
string. \fBTcl_SetStringObj\fR and \fBTcl_SetUnicodeObj\fR free any
old string representation as well as any old internal representation
-of the object.
+of the value.
.PP
-\fBTcl_GetStringFromObj\fR and \fBTcl_GetString\fR return an object's
+\fBTcl_GetStringFromObj\fR and \fBTcl_GetString\fR return a value's
string representation. This is given by the returned byte pointer and
(for \fBTcl_GetStringFromObj\fR) length, which is stored in
-\fIlengthPtr\fR if it is non-NULL. If the object's UTF string
+\fIlengthPtr\fR if it is non-NULL. If the value's UTF string
representation is invalid (its byte pointer is NULL), the string
-representation is regenerated from the object's internal
+representation is regenerated from the value's internal
representation. The storage referenced by the returned byte pointer
-is owned by the object manager. It is passed back as a writable
+is owned by the value manager. It is passed back as a writable
pointer so that extension author creating their own \fBTcl_ObjType\fR
will be able to modify the string representation within the
\fBTcl_UpdateStringProc\fR of their \fBTcl_ObjType\fR. Except for that
@@ -195,45 +194,45 @@ The procedure \fBTcl_GetString\fR is used in the common case
where the caller does not need the length of the string
representation.
.PP
-\fBTcl_GetUnicodeFromObj\fR and \fBTcl_GetUnicode\fR return an object's
+\fBTcl_GetUnicodeFromObj\fR and \fBTcl_GetUnicode\fR return a value's
value as a Unicode string. This is given by the returned pointer and
(for \fBTcl_GetUnicodeFromObj\fR) length, which is stored in
\fIlengthPtr\fR if it is non-NULL. The storage referenced by the returned
-byte pointer is owned by the object manager and should not be modified by
+byte pointer is owned by the value manager and should not be modified by
the caller. The procedure \fBTcl_GetUnicode\fR is used in the common case
where the caller does not need the length of the unicode string
representation.
.PP
\fBTcl_GetUniChar\fR returns the \fIindex\fR'th character in the
-object's Unicode representation.
+value's Unicode representation.
.PP
-\fBTcl_GetRange\fR returns a newly created object comprised of the
+\fBTcl_GetRange\fR returns a newly created value comprised of the
characters between \fIfirst\fR and \fIlast\fR (inclusive) in the
-object's Unicode representation. If the object's Unicode
+value's Unicode representation. If the value's Unicode
representation is invalid, the Unicode representation is regenerated
-from the object's string representation.
+from the value's string representation.
.PP
\fBTcl_GetCharLength\fR returns the number of characters (as opposed
-to bytes) in the string object.
+to bytes) in the string value.
.PP
\fBTcl_AppendToObj\fR appends the data given by \fIbytes\fR and
-\fIlength\fR to the string representation of the object specified by
-\fIobjPtr\fR. If the object has an invalid string representation,
+\fIlength\fR to the string representation of the value specified by
+\fIobjPtr\fR. If the value has an invalid string representation,
then an attempt is made to convert \fIbytes\fR is to the Unicode
format. If the conversion is successful, then the converted form of
-\fIbytes\fR is appended to the object's Unicode representation.
-Otherwise, the object's Unicode representation is invalidated and
+\fIbytes\fR is appended to the value's Unicode representation.
+Otherwise, the value's Unicode representation is invalidated and
converted to the UTF format, and \fIbytes\fR is appended to the
-object's new string representation.
+value's new string representation.
.PP
\fBTcl_AppendUnicodeToObj\fR appends the Unicode string given by
-\fIunicode\fR and \fInumChars\fR to the object specified by
-\fIobjPtr\fR. If the object has an invalid Unicode representation,
+\fIunicode\fR and \fInumChars\fR to the value specified by
+\fIobjPtr\fR. If the value has an invalid Unicode representation,
then \fIunicode\fR is converted to the UTF format and appended to the
-object's string representation. Appends are optimized to handle
-repeated appends relatively efficiently (it overallocates the string
+value's string representation. Appends are optimized to handle
+repeated appends relatively efficiently (it over-allocates the string
or Unicode space to avoid repeated reallocations and copies of
-object's string value).
+value's string value).
.PP
\fBTcl_AppendObjToObj\fR is similar to \fBTcl_AppendToObj\fR, but it
appends the string or Unicode value (whichever exists and is best
@@ -251,7 +250,6 @@ must be a NULL pointer to indicate the end of the list.
except that instead of taking a variable number of arguments it takes an
argument list.
.PP
-.VS 8.5
\fBTcl_AppendLimitedToObj\fR is similar to \fBTcl_AppendToObj\fR
except that it imposes a limit on how many bytes are appended.
This can be handy when the string to be appended might be
@@ -275,9 +273,11 @@ bytes is necessary to append only whole multi-byte characters.
\fBTcl_Format\fR is the C-level interface to the engine of the \fBformat\fR
command. The actual command procedure for \fBformat\fR is little more
than
+.PP
.CS
-Tcl_Format(interp, Tcl_GetString(objv[1]), objc-2, objv+2);
+\fBTcl_Format\fR(interp, \fBTcl_GetString\fR(objv[1]), objc-2, objv+2);
.CE
+.PP
The \fIobjc\fR Tcl_Obj values in \fIobjv\fR are formatted into a string
according to the conversion specification in \fIformat\fR argument, following
the documentation for the \fBformat\fR command. The resulting formatted
@@ -287,22 +287,26 @@ returned, and an error message is recorded in \fIinterp\fR, if \fIinterp\fR
is non-NULL.
.PP
\fBTcl_AppendFormatToObj\fR is an appending alternative form
-of \fBTcl_Format\fR with functionality equivalent to
+of \fBTcl_Format\fR with functionality equivalent to:
+.PP
.CS
-Tcl_Obj *newPtr = Tcl_Format(interp, format, objc, objv);
+Tcl_Obj *newPtr = \fBTcl_Format\fR(interp, format, objc, objv);
if (newPtr == NULL) return TCL_ERROR;
-Tcl_AppendObjToObj(objPtr, newPtr);
+\fBTcl_AppendObjToObj\fR(objPtr, newPtr);
return TCL_OK;
.CE
+.PP
but with greater convenience and efficiency when the appending
functionality is needed.
.PP
\fBTcl_ObjPrintf\fR serves as a replacement for the common sequence
+.PP
.CS
char buf[SOME_SUITABLE_LENGTH];
sprintf(buf, format, ...);
-Tcl_NewStringObj(buf, -1);
+\fBTcl_NewStringObj\fR(buf, -1);
.CE
+.PP
but with greater convenience and no need to
determine \fBSOME_SUITABLE_LENGTH\fR. The formatting is done with the same
core formatting engine used by \fBTcl_Format\fR. This means the set of
@@ -315,34 +319,40 @@ assumption that C code is more likely to know how many bytes it is
passing around than the number of encoded characters those bytes happen
to represent. The variable number of arguments passed in should be of
the types that would be suitable for passing to \fBsprintf\fR. Note in
-this example usage, \fIx\fR is of type \fBlong\fR.
+this example usage, \fIx\fR is of type \fBint\fR.
+.PP
.CS
-long x = 5;
-Tcl_Obj *objPtr = Tcl_ObjPrintf("Value is %d", x);
+int x = 5;
+Tcl_Obj *objPtr = \fBTcl_ObjPrintf\fR("Value is %d", x);
.CE
+.PP
If the value of \fIformat\fR contains internal inconsistencies or invalid
specifier formats, the formatted string result produced by
-\fBTcl_ObjPrintf\fR will be an error message describing the error.
+\fBTcl_ObjPrintf\fR will be an error message describing the error.
+It is impossible however to provide runtime protection against
+mismatches between the format and any subsequent arguments.
+Compile-time protection may be provided by some compilers.
.PP
\fBTcl_AppendPrintfToObj\fR is an appending alternative form
of \fBTcl_ObjPrintf\fR with functionality equivalent to
+.PP
.CS
-Tcl_AppendObjToObj(objPtr, Tcl_ObjPrintf(format, ...));
+\fBTcl_AppendObjToObj\fR(objPtr, \fBTcl_ObjPrintf\fR(format, ...));
.CE
+.PP
but with greater convenience and efficiency when the appending
functionality is needed.
-.VE 8.5
.PP
The \fBTcl_SetObjLength\fR procedure changes the length of the
string value of its \fIobjPtr\fR argument. If the \fInewLength\fR
-argument is greater than the space allocated for the object's
+argument is greater than the space allocated for the value's
string, then the string space is reallocated and the old value
is copied to the new space; the bytes between the old length of
the string and the new length may have arbitrary values.
If the \fInewLength\fR argument is less than the current length
-of the object's string, with \fIobjPtr->length\fR is reduced without
+of the value's string, with \fIobjPtr->length\fR is reduced without
reallocating the string space; the original allocated size for the
-string is recorded in the object, so that the string length can be
+string is recorded in the value, so that the string length can be
enlarged in a subsequent call to \fBTcl_SetObjLength\fR without
reallocating storage. In all cases \fBTcl_SetObjLength\fR leaves
a null character at \fIobjPtr->bytes[newLength]\fR.
@@ -351,26 +361,24 @@ a null character at \fIobjPtr->bytes[newLength]\fR.
\fBTcl_SetObjLength\fR except that if sufficient memory to satisfy the
request cannot be allocated, it does not cause the Tcl interpreter to
\fBpanic\fR. Thus, if \fInewLength\fR is greater than the space
-allocated for the object's string, and there is not enough memory
+allocated for the value's string, and there is not enough memory
available to satisfy the request, \fBTcl_AttemptSetObjLength\fR will take
no action and return 0 to indicate failure. If there is enough memory
to satisfy the request, \fBTcl_AttemptSetObjLength\fR behaves just like
\fBTcl_SetObjLength\fR and returns 1 to indicate success.
.PP
-The \fBTcl_ConcatObj\fR function returns a new string object whose
+The \fBTcl_ConcatObj\fR function returns a new string value whose
value is the space-separated concatenation of the string
-representations of all of the objects in the \fIobjv\fR
+representations of all of the values in the \fIobjv\fR
array. \fBTcl_ConcatObj\fR eliminates leading and trailing white space
as it copies the string representations of the \fIobjv\fR array to the
result. If an element of the \fIobjv\fR array consists of nothing but
-white space, then that object is ignored entirely. This white-space
+white space, then that value is ignored entirely. This white-space
removal was added to make the output of the \fBconcat\fR command
cleaner-looking. \fBTcl_ConcatObj\fR returns a pointer to a
-newly-created object whose ref count is zero.
-
+newly-created value whose ref count is zero.
.SH "SEE ALSO"
-Tcl_NewObj, Tcl_IncrRefCount, Tcl_DecrRefCount, format, sprintf
-
+Tcl_NewObj(3), Tcl_IncrRefCount(3), Tcl_DecrRefCount(3), format(n), sprintf(3)
.SH KEYWORDS
-append, internal representation, object, object type, string object,
+append, internal representation, value, value type, string value,
string type, string representation, concat, concatenate, unicode
diff --git a/doc/SubstObj.3 b/doc/SubstObj.3
index 786b595..d5a52c3 100644
--- a/doc/SubstObj.3
+++ b/doc/SubstObj.3
@@ -8,7 +8,7 @@
.TH Tcl_SubstObj 3 8.4 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_SubstObj \- perform substitutions on Tcl objects
+Tcl_SubstObj \- perform substitutions on Tcl values
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
@@ -22,7 +22,7 @@ Interpreter in which to execute Tcl scripts and lookup variables. If
an error occurs, the interpreter's result is modified to hold an error
message.
.AP Tcl_Obj *objPtr in
-A Tcl object containing the string to perform substitutions on.
+A Tcl value containing the string to perform substitutions on.
.AP int flags in
ORed combination of flag bits that specify which substitutions to
perform. The flags \fBTCL_SUBST_COMMANDS\fR,
@@ -36,7 +36,7 @@ The \fBTcl_SubstObj\fR function is used to perform substitutions on
strings in the fashion of the \fBsubst\fR command. It gets the value
of the string contained in \fIobjPtr\fR and scans it, copying
characters and performing the chosen substitutions as it goes to an
-output object which is returned as the result of the function. In the
+output value which is returned as the result of the function. In the
event of an error occurring during the execution of a command or
variable substitution, the function returns NULL and an error message
is left in \fIinterp\fR's result.
diff --git a/doc/Tcl.n b/doc/Tcl.n
index 8b5b501..68146ab 100644
--- a/doc/Tcl.n
+++ b/doc/Tcl.n
@@ -6,7 +6,7 @@
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
-.TH Tcl n "8.5" Tcl "Tcl Built-In Commands"
+.TH Tcl n "8.6" Tcl "Tcl Built-In Commands"
.BS
.SH NAME
Tcl \- Tool Command Language
@@ -48,7 +48,6 @@ as ordinary characters and included in the word.
Command substitution, variable substitution, and backslash substitution
are performed on the characters between the quotes as described below.
The double-quotes are not retained as part of the word.
-.VS 8.5 br
.IP "[5] \fBArgument expansion.\fR"
If a word starts with the string
.QW {*}
@@ -60,10 +59,9 @@ variable substitutions; backslash substitutions are performed as is normal for
a list and individual internal words may be surrounded by either braces or
double-quote characters), and its words are added to the command being
substituted. For instance,
-.QW "cmd a {*}{b [c]} d {*}{$e f \N'34'g h\N'34'}"
+.QW "cmd a {*}{b [c]} d {*}{$e f {g h}}"
is equivalent to
-.QW "cmd a b {[c]} d {$e} f \N'34'g h\N'34'" .
-.VE 8.5
+.QW "cmd a b {[c]} d {$e} f {g h}" .
.IP "[6] \fBBraces.\fR"
If the first character of a word is an open brace
.PQ {
@@ -106,24 +104,44 @@ Variable substitution may take any of the following forms:
.RS
.TP 15
\fB$\fIname\fR
+.
\fIName\fR is the name of a scalar variable; the name is a sequence
of one or more characters that are a letter, digit, underscore,
or namespace separators (two or more colons).
+Letters and digits are \fIonly\fR the standard ASCII ones (\fB0\fR\-\fB9\fR,
+\fBA\fR\-\fBZ\fR and \fBa\fR\-\fBz\fR).
.TP 15
\fB$\fIname\fB(\fIindex\fB)\fR
+.
\fIName\fR gives the name of an array variable and \fIindex\fR gives
the name of an element within that array.
\fIName\fR must contain only letters, digits, underscores, and
namespace separators, and may be an empty string.
+Letters and digits are \fIonly\fR the standard ASCII ones (\fB0\fR\-\fB9\fR,
+\fBA\fR\-\fBZ\fR and \fBa\fR\-\fBz\fR).
Command substitutions, variable substitutions, and backslash
substitutions are performed on the characters of \fIindex\fR.
.TP 15
\fB${\fIname\fB}\fR
-\fIName\fR is the name of a scalar variable. It may contain any
-characters whatsoever except for close braces.
-.LP
+.
+\fIName\fR is the name of a scalar variable or array element. It may contain
+any characters whatsoever except for close braces. It indicates an array
+element if \fIname\fR is in the form
+.QW \fIarrayName\fB(\fIindex\fB)\fR
+where \fIarrayName\fR does not contain any open parenthesis characters,
+.QW \fB(\fR ,
+or close brace characters,
+.QW \fB}\fR ,
+and \fIindex\fR can be any sequence of characters except for close brace
+characters. No further
+substitutions are performed during the parsing of \fIname\fR.
+.PP
There may be any number of variable substitutions in a single word.
Variable substitution is not performed on words enclosed in braces.
+.PP
+Note that variables may contain character sequences other than those listed
+above, but in that case other mechanisms must be used to access them (e.g.,
+via the \fBset\fR command's single-argument form).
.RE
.IP "[9] \fBBackslash substitution.\fR"
If a backslash
@@ -175,24 +193,34 @@ Backslash
.TP 7
\e\fIooo\fR
.
-The digits \fIooo\fR (one, two, or three of them) give an eight-bit octal
-value for the Unicode character that will be inserted. The upper bits of the
-Unicode character will be 0.
+The digits \fIooo\fR (one, two, or three of them) give a eight-bit octal
+value for the Unicode character that will be inserted, in the range \fI000\fR
+- \fI377\fR. The parser will stop just before this range overflows, or when
+the maximum of three digits is reached. The upper bits of the Unicode
+character will be 0.
.TP 7
\e\fBx\fIhh\fR
.
-The hexadecimal digits \fIhh\fR give an eight-bit hexadecimal value for the
-Unicode character that will be inserted. Any number of hexadecimal digits
-may be present; however, all but the last two are ignored (the result is
-always a one-byte quantity). The upper bits of the Unicode character will
-be 0.
+The hexadecimal digits \fIhh\fR (one or two of them) give an eight-bit
+hexadecimal value for the Unicode character that will be inserted. The upper
+bits of the Unicode character will be 0.
.TP 7
\e\fBu\fIhhhh\fR
.
The hexadecimal digits \fIhhhh\fR (one, two, three, or four of them) give a
sixteen-bit hexadecimal value for the Unicode character that will be
-inserted.
-.LP
+inserted. The upper bits of the Unicode character will be 0.
+.TP 7
+\e\fBU\fIhhhhhhhh\fR
+.
+The hexadecimal digits \fIhhhhhhhh\fR (one up to eight of them) give a
+twenty-one-bit hexadecimal value for the Unicode character that will be
+inserted, in the range U+0000..U+10FFFF. The parser will stop just
+before this range overflows, or when the maximum of eight digits
+is reached. The upper bits of the Unicode character will be 0.
+.PP
+The range U+010000..U+10FFFD is reserved for the future.
+.PP
Backslash substitution is not performed on words enclosed in braces,
except for backslash-newline as described above.
.RE
@@ -217,13 +245,15 @@ no substitutions are performed before making the recursive
call and no additional substitutions are performed on the result
of the nested script.
.RS
-.LP
+.PP
Substitutions take place from left to right, and each substitution is
evaluated completely before attempting to evaluate the next. Thus, a
sequence like
+.PP
.CS
set y [set x 0][incr x][incr x]
.CE
+.PP
will always set the variable \fIy\fR to the value, \fI012\fR.
.RE
.IP "[12] \fBSubstitution and word boundaries.\fR"
@@ -232,3 +262,9 @@ except for argument expansion as specified in rule [5].
For example, during variable substitution the entire value of
the variable becomes part of a single word, even if the variable's
value contains spaces.
+.SH KEYWORDS
+backslash, command, comment, script, substitution, variable
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/TclZlib.3 b/doc/TclZlib.3
new file mode 100644
index 0000000..854a525
--- /dev/null
+++ b/doc/TclZlib.3
@@ -0,0 +1,276 @@
+'\"
+'\" Copyright (c) 2008 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH TclZlib 3 8.6 Tcl "Tcl Library Procedures"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+Tcl_ZlibAdler32, Tcl_ZlibCRC32, Tcl_ZlibDeflate, Tcl_ZlibInflate, Tcl_ZlibStreamChecksum, Tcl_ZlibStreamClose, Tcl_ZlibStreamEof, Tcl_ZlibStreamGet, Tcl_ZlibStreamGetCommandName, Tcl_ZlibStreamInit, Tcl_ZlibStreamPut \- compression and decompression functions
+.SH SYNOPSIS
+.nf
+#include <tcl.h>
+.sp
+int
+\fBTcl_ZlibDeflate\fR(\fIinterp, format, dataObj, level, dictObj\fR)
+.sp
+int
+\fBTcl_ZlibInflate\fR(\fIinterp, format, dataObj, dictObj\fR)
+.sp
+unsigned int
+\fBTcl_ZlibCRC32\fR(\fIinitValue, bytes, length\fR)
+.sp
+unsigned int
+\fBTcl_ZlibAdler32\fR(\fIinitValue, bytes, length\fR)
+.sp
+int
+\fBTcl_ZlibStreamInit\fR(\fIinterp, mode, format, level, dictObj, zshandlePtr\fR)
+.sp
+Tcl_Obj *
+\fBTcl_ZlibStreamGetCommandName\fR(\fIzshandle\fR)
+.sp
+int
+\fBTcl_ZlibStreamEof\fR(\fIzshandle\fR)
+.sp
+int
+\fBTcl_ZlibStreamClose\fR(\fIzshandle\fR)
+.sp
+int
+\fBTcl_ZlibStreamReset\fR(\fIzshandle\fR)
+.sp
+int
+\fBTcl_ZlibStreamChecksum\fR(\fIzshandle\fR)
+.sp
+int
+\fBTcl_ZlibStreamPut\fR(\fIzshandle, dataObj, flush\fR)
+.sp
+int
+\fBTcl_ZlibStreamGet\fR(\fIzshandle, dataObj, count\fR)
+.sp
+\fBTcl_ZlibStreamSetCompressionDictionary\fR(\fIzshandle, compDict\fR)
+.fi
+.SH ARGUMENTS
+.AS Tcl_ZlibStream zshandle in
+.AP Tcl_Interp *interp in
+The interpreter to store resulting compressed or uncompressed data in. Also
+where any error messages are written. For \fBTcl_ZlibStreamInit\fR, this can
+be NULL to create a stream that is not bound to a command.
+.AP int format in
+What format of compressed data to work with. Must be one of
+\fBTCL_ZLIB_FORMAT_ZLIB\fR for zlib-format data, \fBTCL_ZLIB_FORMAT_GZIP\fR
+for gzip-format data, or \fBTCL_ZLIB_FORMAT_RAW\fR for raw compressed data. In
+addition, for decompression only, \fBTCL_ZLIB_FORMAT_AUTO\fR may also be
+chosen which can automatically detect whether the compressed data was in zlib
+or gzip format.
+.AP Tcl_Obj *dataObj in/out
+A byte-array value containing the data to be compressed or decompressed, or
+to which the data extracted from the stream is appended when passed to
+\fBTcl_ZlibStreamGet\fR.
+.AP int level in
+What level of compression to use. Should be a number from 0 to 9 or one of the
+following: \fBTCL_ZLIB_COMPRESS_NONE\fR for no compression,
+\fBTCL_ZLIB_COMPRESS_FAST\fR for fast but inefficient compression,
+\fBTCL_ZLIB_COMPRESS_BEST\fR for slow but maximal compression, or
+\fBTCL_ZLIB_COMPRESS_DEFAULT\fR for the level recommended by the zlib library.
+.AP Tcl_Obj *dictObj in/out
+A dictionary that contains, or which will be updated to contain, a description
+of the gzip header associated with the compressed data. Only useful when the
+\fIformat\fR is \fBTCL_ZLIB_FORMAT_GZIP\fR or \fBTCL_ZLIB_FORMAT_AUTO\fR. If
+a NULL is passed, a default header will be used on compression and the header
+will be ignored (apart from integrity checks) on decompression. See the
+section \fBGZIP OPTIONS DICTIONARY\fR for details about the contents of this
+dictionary.
+.AP "unsigned int" initValue in
+The initial value for the checksum algorithm.
+.AP "unsigned char" *bytes in
+An array of bytes to run the checksum algorithm over, or NULL to get the
+recommended initial value for the checksum algorithm.
+.AP int length in
+The number of bytes in the array.
+.AP int mode in
+What mode to operate the stream in. Should be either
+\fBTCL_ZLIB_STREAM_DEFLATE\fR for a compressing stream or
+\fBTCL_ZLIB_STREAM_INFLATE\fR for a decompressing stream.
+.AP Tcl_ZlibStream *zshandlePtr out
+A pointer to a variable in which to write the abstract token for the stream
+upon successful creation.
+.AP Tcl_ZlibStream zshandle in
+The abstract token for the stream to operate on.
+.AP int flush in
+Whether and how to flush the stream after writing the data to it. Must be one
+of: \fBTCL_ZLIB_NO_FLUSH\fR if no flushing is to be done, \fBTCL_ZLIB_FLUSH\fR
+if the currently compressed data must be made available for access using
+\fBTcl_ZlibStreamGet\fR, \fBTCL_ZLIB_FULLFLUSH\fR if the stream must be put
+into a state where the decompressor can recover from on corruption, or
+\fBTCL_ZLIB_FINALIZE\fR to ensure that the stream is finished and that any
+trailer demanded by the format is written.
+.AP int count in
+The maximum number of bytes to get from the stream, or -1 to get all remaining
+bytes from the stream's buffers.
+.AP Tcl_Obj *compDict in
+A byte array value that is the compression dictionary to use with the stream.
+Note that this is \fInot a Tcl dictionary\fR, and it is recommended that this
+only ever be used with streams that were created with their \fIformat\fR set
+to \fBTCL_ZLIB_FORMAT_ZLIB\fR because the other formats have no mechanism to
+indicate whether a compression dictionary was present other than to fail on
+decompression.
+.BE
+.SH DESCRIPTION
+These functions form the interface from the Tcl library to the Zlib
+library by Jean-loup Gailly and Mark Adler.
+.PP
+\fBTcl_ZlibDeflate\fR and \fBTcl_ZlibInflate\fR respectively compress and
+decompress the data contained in the \fIdataObj\fR argument, according to the
+\fIformat\fR and, for compression, \fIlevel\fR arguments. The dictionary in
+the \fIdictObj\fR parameter is used to convey additional header information
+about the compressed data when the compression format supports it; currently,
+the dictionary is only used when the \fIformat\fR parameter is
+\fBTCL_ZLIB_FORMAT_GZIP\fR or \fBTCL_ZLIB_FORMAT_AUTO\fR. For details of the
+contents of the dictionary, see the \fBGZIP OPTIONS DICTIONARY\fR section
+below. Upon success, both functions leave the resulting compressed or
+decompressed data in a byte-array value that is the Tcl interpreter's result;
+the returned value is a standard Tcl result code.
+.PP
+\fBTcl_ZlibAdler32\fR and \fBTcl_ZlibCRC32\fR compute checksums on arrays of
+bytes, returning the computed checksum. Checksums are computed incrementally,
+allowing data to be processed one block at a time, but this requires the
+caller to maintain the current checksum and pass it in as the \fIinitValue\fR
+parameter; the initial value to use for this can be obtained by using NULL for
+the \fIbytes\fR parameter instead of a pointer to the array of bytes to
+compute the checksum over. Thus, typical usage in the single data block case
+is like this:
+.PP
+.CS
+checksum = \fBTcl_ZlibCRC32\fR(\fBTcl_ZlibCRC32\fR(0,NULL,0), data, length);
+.CE
+.PP
+Note that the Adler-32 algorithm is not a real checksum, but instead is a
+related type of hash that works best on longer data.
+.SS "ZLIB STREAMS"
+.PP
+\fBTcl_ZlibStreamInit\fR creates a compressing or decompressing stream that is
+linked to a Tcl command, according to its arguments, and provides an abstract
+token for the stream and returns a normal Tcl result code;
+\fBTcl_ZlibStreamGetCommandName\fR returns the name of that command given the
+stream token, or NULL if the stream has no command. Streams are not designed
+to be thread-safe; each stream should only ever be used from the thread that
+created it. When working with gzip streams, a dictionary (fields as given in
+the \fBGZIP OPTIONS DICTIONARY\fR section below) can be given via the
+\fIdictObj\fR parameter that on compression allows control over the generated
+headers, and on decompression allows discovery of the existing headers. Note
+that the dictionary will be written to on decompression once sufficient data
+has been read to have a complete header. This means that the dictionary must
+be an unshared value in that case; a blank value created with
+\fBTcl_NewObj\fR is suggested.
+.PP
+Once a stream has been constructed, \fBTcl_ZlibStreamPut\fR is used to add
+data to the stream and \fBTcl_ZlibStreamGet\fR is used to retrieve data from
+the stream after processing. Both return normal Tcl result codes and leave an
+error message in the result of the interpreter that the stream is registered
+with in the error case (if such a registration has been performed). With
+\fBTcl_ZlibStreamPut\fR, the data buffer value passed to it should not be
+modified afterwards. With \fBTcl_ZlibStreamGet\fR, the data buffer value
+passed to it will have the data bytes appended to it. Internally to the
+stream, data is kept compressed so as to minimize the cost of buffer space.
+.PP
+\fBTcl_ZlibStreamChecksum\fR returns the checksum computed over the
+uncompressed data according to the format, and \fBTcl_ZlibStreamEof\fR returns
+a boolean value indicating whether the end of the uncompressed data has been
+reached.
+.PP
+\fBTcl_ZlibStreamSetCompressionDictionary\fR is used to control the
+compression dictionary used with the stream, a compression dictionary being an
+array of bytes (such as might be created with \fBTcl_NewByteArrayObj\fR) that
+is used to initialize the compression engine rather than leaving it to create
+it on the fly from the data being compressed. Setting a compression dictionary
+allows for more efficient compression in the case where the start of the data
+is highly regular, but it does require both the compressor and the
+decompressor to agreee on the value to use. Compression dictionaries are only
+fully supported for zlib-format data; on compression, they must be set before
+any data is sent in with \fBTcl_ZlibStreamPut\fR, and on decompression they
+should be set when \fBTcl_ZlibStreamGet\fR produces an \fBerror\fR with its
+\fB\-errorcode\fR set to
+.QW "\fBZLIB NEED_DICT\fI code\fR" ;
+the \fIcode\fR will be the Adler-32 checksum (see \fBTcl_ZlibAdler32\fR) of
+the compression dictionary sought. (Note that this is only true for
+zlib-format streams; gzip streams ignore compression dictionaries as the
+format specification doesn't permit them, and raw streams just produce a data
+error if the compression dictionary is missing or incorrect.)
+.PP
+If you wish to clear a stream and reuse it for a new compression or
+decompression action, \fBTcl_ZlibStreamReset\fR will do this and return a
+normal Tcl result code to indicate whether it was successful; if the stream is
+registered with an interpreter, an error message will be left in the
+interpreter result when this function returns TCL_ERROR.
+Finally, \fBTcl_ZlibStreamClose\fR will clean up the stream and delete the
+associated command: using \fBTcl_DeleteCommand\fR on the stream's command is
+equivalent (when such a command exists).
+.SH "GZIP OPTIONS DICTIONARY"
+.PP
+The \fIdictObj\fR parameter to \fBTcl_ZlibDeflate\fR, \fBTcl_ZlibInflate\fR
+and \fBTcl_ZlibStreamInit\fR is used to pass a dictionary of options about
+that is used to describe the gzip header in the compressed data. When creating
+compressed data, the dictionary is read and when unpacking compressed data the
+dictionary is written (in which case the \fIdictObj\fR parameter must refer to
+an unshared dictionary value).
+.PP
+The following fields in the dictionary value are understood. All other fields
+are ignored. No field is required when creating a gzip-format stream.
+.TP
+\fBcomment\fR
+.
+This holds the comment field of the header, if present. If absent, no comment
+was supplied (on decompression) or will be created (on compression).
+.TP
+\fBcrc\fR
+.
+A boolean value describing whether a CRC of the header is computed. Note that
+the \fBgzip\fR program does \fInot\fR use or allow a CRC on the header.
+.TP
+\fBfilename\fR
+.
+The name of the file that held the uncompressed data. This should not contain
+any directory separators, and should be sanitized before use on decompression
+with \fBfile tail\fR.
+.TP
+\fBos\fR
+.
+The operating system type code field from the header (if not the
+.QW unknown
+value). See RFC 1952 for the meaning of these codes. On compression, if this
+is absent then the field will be set to the
+.QW unknown
+value.
+.TP
+\fBsize\fR
+.
+The size of the uncompressed data. This is ignored on compression; the size
+of the data compressed depends on how much data is supplied to the
+compression engine.
+.TP
+\fBtime\fR
+.
+The time field from the header if non-zero, expected to be the time that the
+file named by the \fBfilename\fR field was modified. Suitable for use with
+\fBclock format\fR. On creation, the right value to use is that from
+\fBclock seconds\fR or \fBfile mtime\fR.
+.TP
+\fBtype\fR
+.
+The type of the uncompressed data (either \fBbinary\fR or \fBtext\fR) if
+known.
+.SH "PORTABILITY NOTES"
+These functions will fail gracefully if Tcl is not linked with the zlib
+library.
+.SH "SEE ALSO"
+Tcl_NewByteArrayObj(3), zlib(n)
+'\"Tcl_StackChannel(3)
+.SH "KEYWORDS"
+compress, decompress, deflate, gzip, inflate
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/Tcl_Main.3 b/doc/Tcl_Main.3
index 54b2e84..0a69835 100644
--- a/doc/Tcl_Main.3
+++ b/doc/Tcl_Main.3
@@ -10,27 +10,39 @@
.TH Tcl_Main 3 8.4 Tcl "Tcl Library Procedures"
.BS
.SH NAME
-Tcl_Main, Tcl_SetMainLoop \- main program and event loop definition for Tcl-based applications
+Tcl_Main, Tcl_SetStartupScript, Tcl_GetStartupScript, Tcl_SetMainLoop \- main program, startup script, and event loop definition for Tcl-based applications
.SH SYNOPSIS
.nf
\fB#include <tcl.h>\fR
.sp
\fBTcl_Main\fR(\fIargc, argv, appInitProc\fR)
.sp
+\fBTcl_SetStartupScript\fR(\fIpath, encoding\fR)
+.sp
+Tcl_Obj *
+\fBTcl_GetStartupScript\fR(\fIencodingPtr\fR)
+.sp
\fBTcl_SetMainLoop\fR(\fImainLoopProc\fR)
.SH ARGUMENTS
.AS Tcl_MainLoopProc *mainLoopProc
.AP int argc in
Number of elements in \fIargv\fR.
.AP char *argv[] in
-Array of strings containing command-line arguments.
+Array of strings containing command-line arguments. On Windows, when
+using -DUNICODE, the parameter type changes to wchar_t *.
.AP Tcl_AppInitProc *appInitProc in
Address of an application-specific initialization procedure.
The value for this argument is usually \fBTcl_AppInit\fR.
+.AP Tcl_Obj *path in
+Name of file to use as startup script, or NULL.
+.AP "const char" *encoding in
+Encoding of file to use as startup script, or NULL.
+.AP "const char" **encodingPtr out
+If non-NULL, location to write a copy of the (const char *)
+pointing to the encoding name.
.AP Tcl_MainLoopProc *mainLoopProc in
Address of an application-specific event loop procedure.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_Main\fR can serve as the main program for Tcl-based shell
@@ -46,7 +58,7 @@ library and interactive shell operation. Other styles of embedding
Tcl in an application are not supported by \fBTcl_Main\fR. Those
must be achieved by calling lower level functions in the Tcl library
directly.
-
+.PP
The \fBTcl_Main\fR function has been offered by the Tcl library
since release Tcl 7.4. In older releases of Tcl, the Tcl library
itself defined a function \fBmain\fR, but that lacks flexibility
@@ -75,17 +87,46 @@ restriction is not a problem with normal use described above.
channels to their default values. See \fBTcl_StandardChannels\fR for
more information.
.PP
-\fBTcl_Main\fR supports two modes of operation, depending on the
-values of \fIargc\fR and \fIargv\fR. If the first few arguments
-in \fIargv\fR match ?\fB\-encoding \fIname\fR? \fIfileName\fR,
+\fBTcl_Main\fR supports two modes of operation, depending on
+whether the filename and encoding of a startup script has been
+established. The routines \fBTcl_SetStartupScript\fR and
+\fBTcl_GetStartupScript\fR are the tools for controlling this
+configuration of \fBTcl_Main\fR.
+.PP
+\fBTcl_SetStartupScript\fR registers the value \fIpath\fR
+as the name of the file for \fBTcl_Main\fR to evaluate as
+its startup script. The value \fIencoding\fR is Tcl's name
+for the encoding used to store the text in that file. A
+value of \fBNULL\fR for \fIencoding\fR is a signal to use
+the system encoding. A value of \fBNULL\fR for \fIpath\fR
+erases any existing registration so that \fBTcl_Main\fR
+will not evaluate any startup script.
+.PP
+\fBTcl_GetStartupScript\fR queries the registered file name
+and encoding set by the most recent \fBTcl_SetStartupScript\fR
+call in the same thread. The stored file name is returned,
+and the stored encoding name is written to space pointed to
+by \fIencodingPtr\fR, when that is not NULL.
+.PP
+The file name and encoding values managed by the routines
+\fBTcl_SetStartupScript\fR and \fBTcl_GetStartupScript\fR
+are stored per-thread. Although the storage and retrieval
+functions of these routines work in any thread, only those
+calls in the same master thread as \fBTcl_Main\fR can have
+any influence on it.
+.PP
+The caller of \fBTcl_Main\fR may call \fBTcl_SetStartupScript\fR
+first to establish its desired startup script. If \fBTcl_Main\fR
+finds that no such startup script has been established, it consults
+the first few arguments in \fIargv\fR. If they match
+?\fB\-encoding \fIname\fR? \fIfileName\fR,
where \fIfileName\fR does not begin with the character \fI\-\fR,
then \fIfileName\fR is taken to be the name of a file containing
a \fIstartup script\fR, and \fIname\fR is taken to be the name
-of the encoding of the contents of that file, which \fBTcl_Main\fR
-will attempt to evaluate. Otherwise, \fBTcl_Main\fR will enter an
-interactive mode.
+of the encoding of the contents of that file. \fBTcl_Main\fR
+then calls \fBTcl_SetStartupScript\fR with these values.
.PP
-In either mode, \fBTcl_Main\fR will define in its master interpreter
+\fBTcl_Main\fR then defines in its master interpreter
the Tcl variables \fIargc\fR, \fIargv\fR, \fIargv0\fR, and
\fItcl_interactive\fR, as described in the documentation for \fBtclsh\fR.
.PP
@@ -95,22 +136,27 @@ commands, \fBTcl_Main\fR calls the procedure given by the
.QW hook
for the application to perform its own initialization of the interpreter
created by \fBTcl_Main\fR, such as defining application-specific
-commands. The procedure must have an interface that matches the
-type \fBTcl_AppInitProc\fR:
+commands. The application initialization routine might also
+call \fBTcl_SetStartupScript\fR to (re-)set the file and encoding
+to be used as a startup script. The procedure must have an interface
+that matches the type \fBTcl_AppInitProc\fR:
+.PP
.CS
-typedef int Tcl_AppInitProc(Tcl_Interp *\fIinterp\fR);
+typedef int \fBTcl_AppInitProc\fR(
+ Tcl_Interp *\fIinterp\fR);
.CE
-
+.PP
\fIAppInitProc\fR is almost always a pointer to \fBTcl_AppInit\fR; for more
details on this procedure, see the documentation for \fBTcl_AppInit\fR.
.PP
-When the \fIappInitProc\fR is finished, \fBTcl_Main\fR enters one
-of its two modes. If a startup script has been provided, \fBTcl_Main\fR
-attempts to evaluate it. Otherwise, interactive mode begins with
-examination of the variable \fItcl_rcFileName\fR in the master
-interpreter. If that variable exists and holds the name of a readable
-file, the contents of that file are evaluated in the master interpreter.
-Then interactive operations begin,
+When the \fIappInitProc\fR is finished, \fBTcl_Main\fR calls
+\fBTcl_GetStartupScript\fR to determine what startup script has
+been requested, if any. If a startup script has been provided,
+\fBTcl_Main\fR attempts to evaluate it. Otherwise, interactive
+mode begins with examination of the variable \fItcl_rcFileName\fR
+in the master interpreter. If that variable exists and holds the
+name of a readable file, the contents of that file are evaluated
+in the master interpreter. Then interactive operations begin,
with prompts and command evaluation results written to the standard
output channel, and commands read from the standard input channel
and then evaluated. The prompts written to the standard output
@@ -129,8 +175,9 @@ When the loop procedure returns in interactive mode, interactive operation
will continue.
The main loop procedure must have an interface that matches the type
\fBTcl_MainLoopProc\fR:
+.PP
.CS
-typedef void Tcl_MainLoopProc(void);
+typedef void \fBTcl_MainLoopProc\fR(void);
.CE
.PP
\fBTcl_Main\fR does not return. Normally a program based on
@@ -142,10 +189,8 @@ procedure (if any) returns. In non-interactive mode, after
\fBTcl_Main\fR evaluates the startup script, and the main loop
procedure (if any) returns, \fBTcl_Main\fR will also evaluate
the \fBexit\fR command.
-
.SH "SEE ALSO"
tclsh(1), Tcl_GetStdChannel(3), Tcl_StandardChannels(3), Tcl_AppInit(3),
-exit(n)
-
+exit(n), encoding(n)
.SH KEYWORDS
application-specific initialization, command-line arguments, main program
diff --git a/doc/Thread.3 b/doc/Thread.3
index 80d34ad..ca135ee 100644
--- a/doc/Thread.3
+++ b/doc/Thread.3
@@ -36,17 +36,17 @@ void
\fBTcl_MutexFinalize\fR(\fImutexPtr\fR)
.sp
int
-\fBTcl_CreateThread\fR(\fIidPtr, threadProc, clientData, stackSize, flags\fR)
+\fBTcl_CreateThread\fR(\fIidPtr, proc, clientData, stackSize, flags\fR)
.sp
int
\fBTcl_JoinThread\fR(\fIid, result\fR)
.SH ARGUMENTS
-.AS Tcl_CreateThreadProc threadProc out
+.AS Tcl_CreateThreadProc proc out
.AP Tcl_Condition *condPtr in
A condition variable, which must be associated with a mutex lock.
.AP Tcl_Mutex *mutexPtr in
A mutex lock.
-.AP Tcl_Time *timePtr in
+.AP "const Tcl_Time" *timePtr in
A time limit on the condition wait. NULL to wait forever.
Note that a polling value of 0 seconds does not make much sense.
.AP Tcl_ThreadDataKey *keyPtr in
@@ -62,15 +62,15 @@ The referred storage will contain the id of the newly created thread as
returned by the operating system.
.AP Tcl_ThreadId id in
Id of the thread waited upon.
-.AP Tcl_ThreadCreateProc threadProc in
+.AP Tcl_ThreadCreateProc *proc in
This procedure will act as the \fBmain()\fR of the newly created
thread. The specified \fIclientData\fR will be its sole argument.
.AP ClientData clientData in
-Arbitrary information. Passed as sole argument to the \fIthreadProc\fR.
+Arbitrary information. Passed as sole argument to the \fIproc\fR.
.AP int stackSize in
The size of the stack given to the new thread.
.AP int flags in
-Bitmask containing flags allowing the caller to modify behaviour of
+Bitmask containing flags allowing the caller to modify behavior of
the new thread.
.AP int *result out
The referred storage is used to place the exit code of the thread
@@ -91,15 +91,15 @@ and use multiple interpreters.)
.SH DESCRIPTION
Tcl provides \fBTcl_CreateThread\fR for creating threads. The
caller can determine the size of the stack given to the new thread and
-modify the behaviour through the supplied \fIflags\fR. The value
+modify the behavior through the supplied \fIflags\fR. The value
\fBTCL_THREAD_STACK_DEFAULT\fR for the \fIstackSize\fR indicates that
the default size as specified by the operating system is to be used
for the new thread. As for the flags, currently only the values
\fBTCL_THREAD_NOFLAGS\fR and \fBTCL_THREAD_JOINABLE\fR are defined. The
-first of them invokes the default behaviour with no
-specialties. Using the second value marks the new thread as
-\fIjoinable\fR. This means that another thread can wait for the such
-marked thread to exit and join it.
+first of them invokes the default behavior with no special settings.
+Using the second value marks the new thread as \fIjoinable\fR. This
+means that another thread can wait for the such marked thread to exit
+and join it.
.PP
Restrictions: On some UNIX systems the pthread-library does not
contain the functionality to specify the stack size of a thread. The
@@ -180,13 +180,59 @@ explicitly by calls to \fBTcl_MutexFinalize\fR or
\fBTcl_ConditionFinalize\fR.
Thread local storage is reclaimed during \fBTcl_FinalizeThread\fR.
.SH "SCRIPT-LEVEL ACCESS TO THREADS"
-.VS 8.5
+.PP
Tcl provides no built-in commands for scripts to use to create,
manage, or join threads, nor any script-level access to mutex or
condition variables. It provides such facilities only via C
interfaces, and leaves it up to packages to expose these matters to
the script level. One such package is the \fBThread\fR package.
-.VE 8.5
+.SH EXAMPLE
+.PP
+To create a thread with portable code, its implementation function should be
+declared as follows:
+.PP
+.CS
+static \fBTcl_ThreadCreateProc\fR MyThreadImplFunc;
+.CE
+.PP
+It should then be defined like this example, which just counts up to a given
+value and then finishes.
+.PP
+.CS
+static \fBTcl_ThreadCreateType\fR
+MyThreadImplFunc(
+ ClientData clientData)
+{
+ int i, limit = (int) clientData;
+ for (i=0 ; i<limit ; i++) {
+ /* doing nothing at all here */
+ }
+ \fBTCL_THREAD_CREATE_RETURN\fR;
+}
+.CE
+.PP
+To create the above thread, make it execute, and wait for it to finish, we
+would do this:
+.PP
+.CS
+int limit = 1000000000;
+ClientData limitData = (void*)((intptr_t) limit);
+Tcl_ThreadId id; \fI/* holds identity of thread created */\fR
+int result;
+
+if (\fBTcl_CreateThread\fR(&id, MyThreadImplFunc, limitData,
+ \fBTCL_THREAD_STACK_DEFAULT\fR,
+ \fBTCL_THREAD_JOINABLE\fR) != TCL_OK) {
+ \fI/* Thread did not create correctly */\fR
+ return;
+}
+\fI/* Do something else for a while here */\fR
+if (\fBTcl_JoinThread\fR(id, &result) != TCL_OK) {
+ \fI/* Thread did not finish properly */\fR
+ return;
+}
+\fI/* All cleaned up nicely */\fR
+.CE
.SH "SEE ALSO"
Tcl_GetCurrentThread(3), Tcl_ThreadQueueEvent(3), Tcl_ThreadAlert(3),
Tcl_ExitThread(3), Tcl_FinalizeThread(3), Tcl_CreateThreadExitHandler(3),
diff --git a/doc/TraceCmd.3 b/doc/TraceCmd.3
index 020f1ca..5cc1337 100644
--- a/doc/TraceCmd.3
+++ b/doc/TraceCmd.3
@@ -62,14 +62,16 @@ Invoke \fIproc\fR when the command is deleted.
Whenever one of the specified operations occurs to the command,
\fIproc\fR will be invoked. It should have arguments and result that
match the type \fBTcl_CommandTraceProc\fR:
+.PP
.CS
-typedef void Tcl_CommandTraceProc(
+typedef void \fBTcl_CommandTraceProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
const char *\fIoldName\fR,
const char *\fInewName\fR,
int \fIflags\fR);
.CE
+.PP
The \fIclientData\fR and \fIinterp\fR parameters will have the same
values as those passed to \fBTcl_TraceCommand\fR when the trace was
created. \fIClientData\fR typically points to an application-specific
diff --git a/doc/TraceVar.3 b/doc/TraceVar.3
index f80d86f..6201a4f 100644
--- a/doc/TraceVar.3
+++ b/doc/TraceVar.3
@@ -121,14 +121,16 @@ Whenever one of the specified operations occurs on the variable,
\fIproc\fR will be invoked.
It should have arguments and result that match the type
\fBTcl_VarTraceProc\fR:
+.PP
.CS
-typedef char *Tcl_VarTraceProc(
+typedef char *\fBTcl_VarTraceProc\fR(
ClientData \fIclientData\fR,
Tcl_Interp *\fIinterp\fR,
char *\fIname1\fR,
char *\fIname2\fR,
int \fIflags\fR);
.CE
+.PP
The \fIclientData\fR and \fIinterp\fR parameters will
have the same values as those passed to \fBTcl_TraceVar\fR when the
trace was created.
@@ -372,5 +374,7 @@ set.
.PP
Array traces are not yet integrated with the Tcl \fBinfo exists\fR command,
nor is there Tcl-level access to array traces.
+.SH "SEE ALSO"
+trace(n)
.SH KEYWORDS
clientData, trace, variable
diff --git a/doc/Translate.3 b/doc/Translate.3
index d434cda..55233c3 100644
--- a/doc/Translate.3
+++ b/doc/Translate.3
@@ -29,7 +29,6 @@ At the time of the call it should be uninitialized or free. The
caller must eventually call \fBTcl_DStringFree\fR to free up
anything stored here.
.BE
-
.SH DESCRIPTION
.PP
This utility procedure translates a file name to a platform-specific form
@@ -38,11 +37,11 @@ passing to the local operating system. In particular, it converts
network names into native form and does tilde substitution.
.PP
However, with the advent of the newer \fBTcl_FSGetNormalizedPath\fR and
-\fBTcl_GetNativePath\fR, there is no longer any need to use this
-procedure. In particular, \fBTcl_GetNativePath\fR performs all the
+\fBTcl_FSGetNativePath\fR, there is no longer any need to use this
+procedure. In particular, \fBTcl_FSGetNativePath\fR performs all the
necessary translation and encoding conversion, is virtual-filesystem
aware, and caches the native result for faster repeated calls.
-Finally \fBTcl_GetNativePath\fR does not require you to free anything
+Finally \fBTcl_FSGetNativePath\fR does not require you to free anything
afterwards.
.PP
If
@@ -66,9 +65,7 @@ frees the dynamic string itself so that the caller need not call
.PP
The caller is responsible for making sure that the interpreter's result
has its default empty value when \fBTcl_TranslateFileName\fR is invoked.
-
.SH "SEE ALSO"
-filename
-
+filename(n)
.SH KEYWORDS
file name, home directory, tilde, translate, user
diff --git a/doc/Utf.3 b/doc/Utf.3
index 8e39fef..55906e7 100644
--- a/doc/Utf.3
+++ b/doc/Utf.3
@@ -13,7 +13,7 @@ Tcl_UniChar, Tcl_UniCharCaseMatch, Tcl_UniCharNcasecmp, Tcl_UniCharToUtf, Tcl_Ut
.nf
\fB#include <tcl.h>\fR
.sp
-typedef ... Tcl_UniChar;
+typedef ... \fBTcl_UniChar\fR;
.sp
int
\fBTcl_UniCharToUtf\fR(\fIch, buf\fR)
diff --git a/doc/WrongNumArgs.3 b/doc/WrongNumArgs.3
index 2175858..15d5caf 100644
--- a/doc/WrongNumArgs.3
+++ b/doc/WrongNumArgs.3
@@ -18,7 +18,7 @@ Tcl_WrongNumArgs \- generate standard error message for wrong number of argument
.AS "Tcl_Obj *const" *message
.AP Tcl_Interp interp in
Interpreter in which error will be reported: error message gets stored
-in its result object.
+in its result value.
.AP int objc in
Number of leading arguments from \fIobjv\fR to include in error
message.
@@ -29,49 +29,51 @@ Additional error information to print after leading arguments
from \fIobjv\fR. This typically gives the acceptable syntax
of the command. This argument may be NULL.
.BE
-
.SH DESCRIPTION
.PP
\fBTcl_WrongNumArgs\fR is a utility procedure that is invoked by
command procedures when they discover that they have received the
wrong number of arguments. \fBTcl_WrongNumArgs\fR generates a
-standard error message and stores it in the result object of
+standard error message and stores it in the result value of
\fIinterp\fR. The message includes the \fIobjc\fR initial
elements of \fIobjv\fR plus \fImessage\fR. For example, if
\fIobjv\fR consists of the values \fBfoo\fR and \fBbar\fR,
\fIobjc\fR is 1, and \fImessage\fR is
.QW "\fBfileName count\fR"
-then \fIinterp\fR's result object will be set to the following
+then \fIinterp\fR's result value will be set to the following
string:
+.PP
.CS
wrong # args: should be "foo fileName count"
.CE
+.PP
If \fIobjc\fR is 2, the result will be set to the following string:
+.PP
.CS
wrong # args: should be "foo bar fileName count"
.CE
+.PP
\fIObjc\fR is usually 1, but may be 2 or more for commands like
\fBstring\fR and the Tk widget commands, which use the first argument
as a subcommand.
.PP
-Some of the objects in the \fIobjv\fR array may be abbreviations for
+Some of the values in the \fIobjv\fR array may be abbreviations for
a subcommand. The command
-\fBTcl_GetIndexFromObj\fR will convert the abbreviated string object
+\fBTcl_GetIndexFromObj\fR will convert the abbreviated string value
into an \fIindexObject\fR. If an error occurs in the parsing of the
subcommand we would like to use the full subcommand name rather than
the abbreviation. If the \fBTcl_WrongNumArgs\fR command finds any
\fIindexObjects\fR in the \fIobjv\fR array it will use the full subcommand
name in the error message instead of the abbreviated name that was
originally passed in. Using the above example, let us assume that
-\fIbar\fR is actually an abbreviation for \fIbarfly\fR and the object
-is now an indexObject because it was passed to
+\fIbar\fR is actually an abbreviation for \fIbarfly\fR and the value
+is now an \fIindexObject\fR because it was passed to
\fBTcl_GetIndexFromObj\fR. In this case the error message would be:
+.PP
.CS
wrong # args: should be "foo barfly fileName count"
.CE
-
.SH "SEE ALSO"
-Tcl_GetIndexFromObj
-
+Tcl_GetIndexFromObj(3)
.SH KEYWORDS
command, error message, wrong number of arguments
diff --git a/doc/after.n b/doc/after.n
index 21961d3..d6181c6 100644
--- a/doc/after.n
+++ b/doc/after.n
@@ -24,7 +24,6 @@ after \- Execute a command after a time delay
.sp
\fBafter info \fR?\fIid\fR?
.BE
-
.SH DESCRIPTION
.PP
This command is used to delay execution of the program or to execute
@@ -32,12 +31,14 @@ a command in background sometime in the future. It has several forms,
depending on the first argument to the command:
.TP
\fBafter \fIms\fR
+.
\fIMs\fR must be an integer giving a time in milliseconds.
The command sleeps for \fIms\fR milliseconds and then returns.
While the command is sleeping the application does not respond to
events.
.TP
\fBafter \fIms \fR?\fIscript script script ...\fR?
+.
In this form the command returns immediately, but it arranges
for a Tcl command to be executed \fIms\fR milliseconds later as an
event handler.
@@ -48,11 +49,12 @@ The command will be executed at global level (outside the context
of any Tcl procedure).
If an error occurs while executing the delayed command then
the background error will be reported by the command
-registered with \fB interp bgerror\fR.
+registered with \fBinterp bgerror\fR.
The \fBafter\fR command returns an identifier that can be used
to cancel the delayed command using \fBafter cancel\fR.
.TP
\fBafter cancel \fIid\fR
+.
Cancels the execution of a delayed command that
was previously scheduled.
\fIId\fR indicates which command should be canceled; it must have
@@ -61,14 +63,16 @@ If the command given by \fIid\fR has already been executed then
the \fBafter cancel\fR command has no effect.
.TP
\fBafter cancel \fIscript script ...\fR
+.
This command also cancels the execution of a delayed command.
The \fIscript\fR arguments are concatenated together with space
separators (just as in the \fBconcat\fR command).
If there is a pending command that matches the string, it is
-cancelled and will never be executed; if no such command is
+canceled and will never be executed; if no such command is
currently pending then the \fBafter cancel\fR command has no effect.
.TP
\fBafter idle \fIscript \fR?\fIscript script ...\fR?
+.
Concatenates the \fIscript\fR arguments together with space
separators (just as in the \fBconcat\fR command), and arranges
for the resulting script to be evaluated later as an idle callback.
@@ -78,9 +82,10 @@ The command returns an identifier that can be used
to cancel the delayed command using \fBafter cancel\fR.
If an error occurs while executing the script then the
background error will be reported by the command
-registered with \fB interp bgerror\fR.
+registered with \fBinterp bgerror\fR.
.TP
\fBafter info \fR?\fIid\fR?
+.
This command returns information about existing event handlers.
If no \fIid\fR argument is supplied, the command returns
a list of the identifiers for all existing
@@ -88,7 +93,7 @@ event handlers created by the \fBafter\fR command for this
interpreter.
If \fIid\fR is supplied, it specifies an existing handler;
\fIid\fR must have been the return value from some previous call
-to \fBafter\fR and it must not have triggered yet or been cancelled.
+to \fBafter\fR and it must not have triggered yet or been canceled.
In this case the command returns a list with two elements.
The first element of the list is the script associated
with \fIid\fR, and the second element is either
@@ -104,14 +109,16 @@ and \fBupdate\fR commands.
.SH "EXAMPLES"
This defines a command to make Tcl do nothing at all for \fIN\fR
seconds:
+.PP
.CS
proc sleep {N} {
- \fBafter\fR [expr {int($N * 1000)}]
+ \fBafter\fR [expr {int($N * 1000)}]
}
.CE
.PP
This arranges for the command \fIwake_up\fR to be run in eight hours
(providing the event loop is active at that time):
+.PP
.CS
\fBafter\fR [expr {1000 * 60 * 60 * 8}] wake_up
.CE
@@ -126,17 +133,19 @@ processing steps (arranging for the next step to be done using an
already-triggered timer event only when the event queue has been
drained) and is useful when you want to ensure that a Tk GUI remains
responsive during a slow task.
+.PP
.CS
proc doOneStep {} {
- if {[::my_calc::one_step]} {
- \fBafter idle\fR [list \fBafter\fR 0 doOneStep]
- }
+ if {[::my_calc::one_step]} {
+ \fBafter idle\fR [list \fBafter\fR 0 doOneStep]
+ }
}
doOneStep
.CE
-
.SH "SEE ALSO"
concat(n), interp(n), update(n), vwait(n)
-
.SH KEYWORDS
cancel, delay, idle callback, sleep, time
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/append.n b/doc/append.n
index dc9adbe..034068d 100644
--- a/doc/append.n
+++ b/doc/append.n
@@ -14,7 +14,6 @@ append \- Append to variable
.SH SYNOPSIS
\fBappend \fIvarName \fR?\fIvalue value value ...\fR?
.BE
-
.SH DESCRIPTION
.PP
Append all of the \fIvalue\fR arguments to the current value
@@ -32,17 +31,19 @@ is much more efficient than
if \fB$a\fR is long.
.SH EXAMPLE
Building a string of comma-separated numbers piecemeal using a loop.
+.PP
.CS
set var 0
for {set i 1} {$i<=10} {incr i} {
- \fBappend\fR var "," $i
+ \fBappend\fR var "," $i
}
puts $var
# Prints 0,1,2,3,4,5,6,7,8,9,10
.CE
-
.SH "SEE ALSO"
concat(n), lappend(n)
-
.SH KEYWORDS
append, variable
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/apply.n b/doc/apply.n
index 8a38aac..9d373e1 100644
--- a/doc/apply.n
+++ b/doc/apply.n
@@ -48,30 +48,32 @@ The semantics of \fBapply\fR can also be described by:
.PP
.CS
proc apply {fun args} {
- set len [llength $fun]
- if {($len < 2) || ($len > 3)} {
- error "can't interpret \e"$fun\e" as anonymous function"
- }
- lassign $fun argList body ns
- set name ::$ns::[getGloballyUniqueName]
- set body0 {
- rename [lindex [info level 0] 0] {}
- }
- proc $name $argList ${body0}$body
- set code [catch {uplevel 1 $name $args} res opt]
- return -options $opt $res
+ set len [llength $fun]
+ if {($len < 2) || ($len > 3)} {
+ error "can't interpret \e"$fun\e" as anonymous function"
+ }
+ lassign $fun argList body ns
+ set name ::$ns::[getGloballyUniqueName]
+ set body0 {
+ rename [lindex [info level 0] 0] {}
+ }
+ proc $name $argList ${body0}$body
+ set code [catch {uplevel 1 $name $args} res opt]
+ return -options $opt $res
}
.CE
.SH EXAMPLES
+.PP
This shows how to make a simple general command that applies a transformation
to each element of a list.
+.PP
.CS
proc map {lambda list} {
- set result {}
- foreach item $list {
- lappend result [\fBapply\fR $lambda $item]
- }
- return $result
+ set result {}
+ foreach item $list {
+ lappend result [\fBapply\fR $lambda $item]
+ }
+ return $result
}
map {x {return [string length $x]:$x}} {a bb ccc dddd}
\fI\(-> 1:a 2:bb 3:ccc 4:dddd\fR
@@ -81,11 +83,12 @@ map {x {expr {$x**2 + 3*$x - 2}}} {-4 -3 -2 -1 0 1 2 3 4}
.PP
The \fBapply\fR command is also useful for defining callbacks for use in the
\fBtrace\fR command:
+.PP
.CS
set vbl "123abc"
trace add variable vbl write {\fBapply\fR {{v1 v2 op} {
- upvar 1 $v1 v
- puts "updated variable to \e"$v\e""
+ upvar 1 $v1 v
+ puts "updated variable to \e"$v\e""
}}}
set vbl 123
set vbl abc
@@ -93,4 +96,7 @@ set vbl abc
.SH "SEE ALSO"
proc(n), uplevel(n)
.SH KEYWORDS
-argument, procedure, anonymous function
+anonymous function, argument, lambda, procedure,
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/array.n b/doc/array.n
index e112c23..47f9624 100644
--- a/doc/array.n
+++ b/doc/array.n
@@ -136,14 +136,14 @@ The command always returns an empty string.
.SH EXAMPLES
.CS
\fBarray set\fR colorcount {
- red 1
- green 5
- blue 4
- white 9
+ red 1
+ green 5
+ blue 4
+ white 9
}
foreach {color count} [\fBarray get\fR colorcount] {
- puts "Color: $color Count: $count"
+ puts "Color: $color Count: $count"
}
\fB\(->\fR Color: blue Count: 4
Color: white Count: 9
@@ -151,7 +151,7 @@ foreach {color count} [\fBarray get\fR colorcount] {
Color: red Count: 1
foreach color [\fBarray names\fR colorcount] {
- puts "Color: $color Count: $colorcount($color)"
+ puts "Color: $color Count: $colorcount($color)"
}
\fB\(->\fR Color: blue Count: 4
Color: white Count: 9
@@ -159,7 +159,7 @@ foreach color [\fBarray names\fR colorcount] {
Color: red Count: 1
foreach color [lsort [\fBarray names\fR colorcount]] {
- puts "Color: $color Count: $colorcount($color)"
+ puts "Color: $color Count: $colorcount($color)"
}
\fB\(->\fR Color: blue Count: 4
Color: green Count: 5
diff --git a/doc/bgerror.n b/doc/bgerror.n
index cb91351..16a23a3 100644
--- a/doc/bgerror.n
+++ b/doc/bgerror.n
@@ -14,9 +14,8 @@ bgerror \- Command invoked to process background errors
.SH SYNOPSIS
\fBbgerror \fImessage\fR
.BE
-
.SH DESCRIPTION
-.VS 8.5
+.PP
Release 8.5 of Tcl supports the \fBinterp bgerror\fR command,
which allows applications to register in an interpreter the command
that will handle background errors in that interpreter. In older
@@ -28,7 +27,6 @@ describes the interface requirements of the \fBbgerror\fR command
an application might define to retain compatibility with pre-8.5
releases of Tcl. Applications intending to support only
Tcl releases 8.5 and later should simply make use of \fBinterp bgerror\fR.
-.VE 8.5
.PP
The \fBbgerror\fR command does not exist as built-in part of Tcl. Instead,
individual applications or users can define a \fBbgerror\fR
@@ -75,7 +73,9 @@ The reason for this is that the application programmer may also want
to define a \fBbgerror\fR, or use other code that does and thus will
have trouble integrating your code.
.SH "EXAMPLE"
+.PP
This \fBbgerror\fR procedure appends errors to a file, with a timestamp.
+.PP
.CS
proc bgerror {message} {
set timestamp [clock format [clock seconds]]
@@ -84,9 +84,10 @@ proc bgerror {message} {
close $fl
}
.CE
-
.SH "SEE ALSO"
-after(n), interp(n), tclvars(n)
-
+after(n), errorCode(n), errorInfo(n), interp(n)
.SH KEYWORDS
background error, reporting
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/binary.n b/doc/binary.n
index 6b2150e..cbbebd1 100644
--- a/doc/binary.n
+++ b/doc/binary.n
@@ -1,5 +1,6 @@
'\"
'\" Copyright (c) 1997 by Sun Microsystems, Inc.
+'\" Copyright (c) 2008 by Donal K. Fellows
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
@@ -11,6 +12,12 @@
.SH NAME
binary \- Insert and extract fields from binary strings
.SH SYNOPSIS
+.VS 8.6
+\fBbinary decode \fIformat\fR ?\fI\-option value ...\fR? \fIdata\fR
+.br
+\fBbinary encode \fIformat\fR ?\fI\-option value ...\fR? \fIdata\fR
+.br
+.VE 8.6
\fBbinary format \fIformatString \fR?\fIarg arg ...\fR?
.br
\fBbinary scan \fIstring formatString \fR?\fIvarName varName ...\fR?
@@ -18,12 +25,110 @@ binary \- Insert and extract fields from binary strings
.SH DESCRIPTION
.PP
This command provides facilities for manipulating binary data. The
-first form, \fBbinary format\fR, creates a binary string from normal
+subcommand \fBbinary format\fR creates a binary string from normal
Tcl values. For example, given the values 16 and 22, on a 32-bit
architecture, it might produce an 8-byte binary string consisting of
-two 4-byte integers, one for each of the numbers. The second form of
-the command, \fBbinary scan\fR, does the opposite: it extracts data
+two 4-byte integers, one for each of the numbers. The subcommand
+\fBbinary scan\fR, does the opposite: it extracts data
from a binary string and returns it as ordinary Tcl string values.
+.VS 8.6
+The \fBbinary encode\fR and \fBbinary decode\fR subcommands convert
+binary data to or from string encodings such as base64 (used in MIME
+messages for example).
+.VE 8.6
+.PP
+Note that other operations on binary data, such as taking a subsequence of it,
+getting its length, or reinterpreting it as a string in some encoding, are
+done by other Tcl commands (respectively \fBstring range\fR,
+\fBstring length\fR and \fBencoding convertfrom\fR in the example cases). A
+binary string in Tcl is merely one where all the characters it contains are in
+the range \eu0000\-\eu00FF.
+.SH "BINARY ENCODE AND DECODE"
+.VS 8.6
+.PP
+When encoding binary data as a readable string, the starting binary data is
+passed to the \fBbinary encode\fR command, together with the name of the
+encoding to use and any encoding-specific options desired. Data which has been
+encoded can be converted back to binary form using \fBbinary decode\fR. The
+following formats and options are supported.
+.TP
+\fBbase64\fR
+.
+The \fBbase64\fR binary encoding is commonly used in mail messages and XML
+documents, and uses mostly upper and lower case letters and digits. It has the
+distinction of being able to be rewrapped arbitrarily without losing
+information.
+.RS
+.PP
+During encoding, the following options are supported:
+.TP
+\fB\-maxlen \fIlength\fR
+.
+Indicates that the output should be split into lines of no more than
+\fIlength\fR characters. By default, lines are not split.
+.TP
+\fB\-wrapchar \fIcharacter\fR
+.
+Indicates that, when lines are split because of the \fB\-maxlen\fR option,
+\fIcharacter\fR should be used to separate lines. By default, this is a
+newline character,
+.QW \en .
+.PP
+During decoding, the following options are supported:
+.TP
+\fB\-strict\fR
+.
+Instructs the decoder to throw an error if it encounters whitespace characters. Otherwise it ignores them.
+.RE
+.TP
+\fBhex\fR
+.
+The \fBhex\fR binary encoding converts each byte to a pair of hexadecimal
+digits in big-endian form.
+.RS
+.PP
+No options are supported during encoding. During decoding, the following
+options are supported:
+.TP
+\fB\-strict\fR
+.
+Instructs the decoder to throw an error if it encounters whitespace characters. Otherwise it ignores them.
+.RE
+.TP
+\fBuuencode\fR
+.
+The \fBuuencode\fR binary encoding used to be common for transfer of data
+between Unix systems and on USENET, but is less common these days, having been
+largely superseded by the \fBbase64\fR binary encoding.
+.RS
+.PP
+During encoding, the following options are supported (though changing them may
+produce files that other implementations of decoders cannot process):
+.TP
+\fB\-maxlen \fIlength\fR
+.
+Indicates that the output should be split into lines of no more than
+\fIlength\fR characters. By default, lines are split every 61 characters, and
+this must be in the range 3 to 85 due to limitations in the encoding.
+.TP
+\fB\-wrapchar \fIcharacter\fR
+.
+Indicates that, when lines are split because of the \fB\-maxlen\fR option,
+\fIcharacter\fR should be used to separate lines. By default, this is a
+newline character,
+.QW \en .
+.PP
+During decoding, the following options are supported:
+.TP
+\fB\-strict\fR
+.
+Instructs the decoder to throw an error if it encounters unexpected whitespace
+characters. Otherwise it ignores them.
+.PP
+Note that neither the encoder nor the decoder handle the header and footer of
+the uuencode format.
+.RE
+.VE 8.6
.SH "BINARY FORMAT"
.PP
The \fBbinary format\fR command generates a binary string whose layout
@@ -42,7 +147,7 @@ is a non-negative decimal integer or \fB*\fR, which normally indicates
that all of the items in the value are to be used. If the number of
arguments does not match the number of fields in the format string
that consume arguments, then an error is generated. The flag character
-is ignored for for \fBbinary format\fR.
+is ignored for \fBbinary format\fR.
.PP
Here is a small example to clarify the relation between the field
specifiers and the arguments:
@@ -210,13 +315,11 @@ will return a string equivalent to
\fB\ex00\ex03\exff\exfd\ex01\ex02\fR.
.RE
.IP \fBt\fR 5
-.VS 8.5
This form (mnemonically \fItiny\fR) is the same as \fBs\fR and \fBS\fR
except that it stores the 16-bit integers in the output string in the
native byte order of the machine where the Tcl script is running.
To determine what the native byte order of the machine is, refer to
the \fBbyteOrder\fR element of the \fBtcl_platform\fR array.
-.VE 8.5
.IP \fBi\fR 5
This form is the same as \fBc\fR except that it stores one or more
32-bit integers in little-endian byte order in the output string. The
@@ -242,14 +345,12 @@ will return a string equivalent to
\fB\ex00\ex00\ex00\ex03\exff\exff\exff\exfd\ex00\ex01\ex00\ex00\fR
.RE
.IP \fBn\fR 5
-.VS 8.5
This form (mnemonically \fInumber\fR or \fInormal\fR) is the same as
\fBi\fR and \fBI\fR except that it stores the 32-bit integers in the
output string in the native byte order of the machine where the Tcl
script is running.
To determine what the native byte order of the machine is, refer to
the \fBbyteOrder\fR element of the \fBtcl_platform\fR array.
-.VE 8.5
.IP \fBw\fR 5
This form is the same as \fBc\fR except that it stores one or more
64-bit integers in little-endian byte order in the output string. The
@@ -273,14 +374,12 @@ For example,
will return the string \fBBigEndian\fR
.RE
.IP \fBm\fR 5
-.VS 8.5
This form (mnemonically the mirror of \fBw\fR) is the same as \fBw\fR
and \fBW\fR except that it stores the 64-bit integers in the output
string in the native byte order of the machine where the Tcl script is
running.
To determine what the native byte order of the machine is, refer to
the \fBbyteOrder\fR element of the \fBtcl_platform\fR array.
-.VE 8.5
.IP \fBf\fR 5
This form is the same as \fBc\fR except that it stores one or more one
or more single-precision floating point numbers in the machine's native
@@ -302,18 +401,14 @@ will return a string equivalent to
\fB\excd\excc\excc\ex3f\ex9a\ex99\ex59\ex40\fR.
.RE
.IP \fBr\fR 5
-.VS 8.5
This form (mnemonically \fIreal\fR) is the same as \fBf\fR except that
it stores the single-precision floating point numbers in little-endian
order. This conversion only produces meaningful output when used on
machines which use the IEEE floating point representation (very
common, but not universal.)
-.VE 8.5
.IP \fBR\fR 5
-.VS 8.5
This form is the same as \fBr\fR except that it stores the
single-precision floating point numbers in big-endian order.
-.VE 8.5
.IP \fBd\fR 5
This form is the same as \fBf\fR except that it stores one or more one
or more double-precision floating point numbers in the machine's native
@@ -327,18 +422,14 @@ will return a string equivalent to
\fB\ex9a\ex99\ex99\ex99\ex99\ex99\exf9\ex3f\fR.
.RE
.IP \fBq\fR 5
-.VS 8.5
This form (mnemonically the mirror of \fBd\fR) is the same as \fBd\fR
except that it stores the double-precision floating point numbers in
little-endian order. This conversion only produces meaningful output
when used on machines which use the IEEE floating point representation
(very common, but not universal.)
-.VE 8.5
.IP \fBQ\fR 5
-.VS 8.5
This form is the same as \fBq\fR except that it stores the
double-precision floating point numbers in big-endian order.
-.VE 8.5
.IP \fBx\fR 5
Stores \fIcount\fR null bytes in the output string. If \fIcount\fR is
not specified, stores one null byte. If \fIcount\fR is \fB*\fR,
@@ -543,9 +634,10 @@ reverse (low-to-high) order within each byte. For example,
.CE
will return \fB2\fR with \fB706\fR stored in \fIvar1\fR and
\fB502143\fR stored in \fIvar2\fR.
-.RE
+.PP
Note that most code that wishes to parse the hexadecimal digits from
multiple bytes in order should use the \fBH\fR format.
+.RE
.IP \fBc\fR 5
The data is turned into \fIcount\fR 8-bit signed integers and stored
in the corresponding variable as a list. If \fIcount\fR is \fB*\fR,
@@ -595,13 +687,11 @@ will return \fB2\fR with \fB5 7\fR stored in \fIvar1\fR and \fB\-16\fR
stored in \fIvar2\fR.
.RE
.IP \fBt\fR 5
-.VS 8.5
The data is interpreted as \fIcount\fR 16-bit signed integers
represented in the native byte order of the machine running the Tcl
script. It is otherwise identical to \fBs\fR and \fBS\fR.
To determine what the native byte order of the machine is, refer to
the \fBbyteOrder\fR element of the \fBtcl_platform\fR array.
-.VE 8.5
.IP \fBi\fR 5
The data is interpreted as \fIcount\fR 32-bit signed integers
represented in little-endian byte order. The integers are stored in
@@ -635,13 +725,11 @@ will return \fB2\fR with \fB5 7\fR stored in \fIvar1\fR and \fB\-16\fR
stored in \fIvar2\fR.
.RE
.IP \fBn\fR 5
-.VS 8.5
The data is interpreted as \fIcount\fR 32-bit signed integers
represented in the native byte order of the machine running the Tcl
script. It is otherwise identical to \fBi\fR and \fBI\fR.
To determine what the native byte order of the machine is, refer to
the \fBbyteOrder\fR element of the \fBtcl_platform\fR array.
-.VE 8.5
.IP \fBw\fR 5
The data is interpreted as \fIcount\fR 64-bit signed integers
represented in little-endian byte order. The integers are stored in
@@ -671,13 +759,11 @@ will return \fB2\fR with \fB21474836487\fR stored in \fIvar1\fR and \fB\-16\fR
stored in \fIvar2\fR.
.RE
.IP \fBm\fR 5
-.VS 8.5
The data is interpreted as \fIcount\fR 64-bit signed integers
represented in the native byte order of the machine running the Tcl
script. It is otherwise identical to \fBw\fR and \fBW\fR.
To determine what the native byte order of the machine is, refer to
the \fBbyteOrder\fR element of the \fBtcl_platform\fR array.
-.VE 8.5
.IP \fBf\fR 5
The data is interpreted as \fIcount\fR single-precision floating point
numbers in the machine's native representation. The floating point
@@ -698,19 +784,15 @@ will return \fB1\fR with \fB1.6000000238418579\fR stored in
\fIvar1\fR.
.RE
.IP \fBr\fR 5
-.VS 8.5
This form is the same as \fBf\fR except that the data is interpreted
as \fIcount\fR single-precision floating point number in little-endian
order. This conversion is not portable to the minority of systems not
using IEEE floating point representations.
-.VE 8.5
.IP \fBR\fR 5
-.VS 8.5
This form is the same as \fBf\fR except that the data is interpreted
as \fIcount\fR single-precision floating point number in big-endian
order. This conversion is not portable to the minority of systems not
using IEEE floating point representations.
-.VE 8.5
.IP \fBd\fR 5
This form is the same as \fBf\fR except that the data is interpreted
as \fIcount\fR double-precision floating point numbers in the
@@ -724,19 +806,15 @@ will return \fB1\fR with \fB1.6000000000000001\fR
stored in \fIvar1\fR.
.RE
.IP \fBq\fR 5
-.VS 8.5
This form is the same as \fBd\fR except that the data is interpreted
as \fIcount\fR double-precision floating point number in little-endian
order. This conversion is not portable to the minority of systems not
using IEEE floating point representations.
-.VE 8.5
.IP \fBQ\fR 5
-.VS 8.5
This form is the same as \fBd\fR except that the data is interpreted
as \fIcount\fR double-precision floating point number in big-endian
order. This conversion is not portable to the minority of systems not
using IEEE floating point representations.
-.VE 8.5
.IP \fBx\fR 5
Moves the cursor forward \fIcount\fR bytes in \fIstring\fR. If
\fIcount\fR is \fB*\fR or is larger than the number of bytes after the
@@ -778,6 +856,7 @@ will return \fB2\fR with \fB1 2\fR stored in \fIvar1\fR and \fB020304\fR
stored in \fIvar2\fR.
.RE
.SH "PORTABILITY ISSUES"
+.PP
The \fBr\fR, \fBR\fR, \fBq\fR and \fBQ\fR conversions will only work
reliably for transferring data between computers which are all using
IEEE floating point representations. This is very common, but not
@@ -785,8 +864,10 @@ universal. To transfer floating-point numbers portably between all
architectures, use their textual representation (as produced by
\fBformat\fR) instead.
.SH EXAMPLES
+.PP
This is a procedure to write a Tcl string to a binary-encoded channel as
UTF-8 data preceded by a length word:
+.PP
.CS
proc \fIwriteString\fR {channel string} {
set data [encoding convertto utf-8 $string]
@@ -797,6 +878,7 @@ proc \fIwriteString\fR {channel string} {
.PP
This procedure reads a string from a channel that was written by the
previously presented \fIwriteString\fR procedure:
+.PP
.CS
proc \fIreadString\fR {channel} {
if {![\fBbinary scan\fR [read $channel 4] I length]} {
@@ -806,7 +888,21 @@ proc \fIreadString\fR {channel} {
return [encoding convertfrom utf-8 $data]
}
.CE
+.PP
+This converts the contents of a file (named in the variable \fIfilename\fR) to
+base64 and prints them:
+.PP
+.CS
+set f [open $filename rb]
+set data [read $f]
+close $f
+puts [\fBbinary encode\fR base64 \-maxlen 64 $data]
+.CE
.SH "SEE ALSO"
-format(n), scan(n), tclvars(n)
+encoding(n), format(n), scan(n), string(n), tcl_platform(n)
.SH KEYWORDS
binary, format, scan
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/break.n b/doc/break.n
index ed09c03..cef37c6 100644
--- a/doc/break.n
+++ b/doc/break.n
@@ -14,12 +14,11 @@ break \- Abort looping command
.SH SYNOPSIS
\fBbreak\fR
.BE
-
.SH DESCRIPTION
.PP
This command is typically invoked inside the body of a looping command
such as \fBfor\fR or \fBforeach\fR or \fBwhile\fR.
-It returns a \fBTCL_BREAK\fR code, which causes a break exception
+It returns a 3 (\fBTCL_BREAK\fR) result code, which causes a break exception
to occur.
The exception causes the current script to be aborted
out to the innermost containing loop command, which then
@@ -28,18 +27,21 @@ Break exceptions are also handled in a few other situations, such
as the \fBcatch\fR command, Tk event bindings, and the outermost
scripts of procedure bodies.
.SH EXAMPLE
+.PP
Print a line for each of the integers from 0 to 5:
+.PP
.CS
for {set x 0} {$x<10} {incr x} {
- if {$x > 5} {
- \fBbreak\fR
- }
- puts "x is $x"
+ if {$x > 5} {
+ \fBbreak\fR
+ }
+ puts "x is $x"
}
.CE
-
.SH "SEE ALSO"
catch(n), continue(n), for(n), foreach(n), return(n), while(n)
-
.SH KEYWORDS
abort, break, loop
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/catch.n b/doc/catch.n
index 0e2ec04..9597ccf 100644
--- a/doc/catch.n
+++ b/doc/catch.n
@@ -15,12 +15,11 @@ catch \- Evaluate script and trap exceptional returns
.SH SYNOPSIS
\fBcatch\fI script \fR?\fIresultVarName\fR? ?\fIoptionsVarName\fR?
.BE
-
.SH DESCRIPTION
.PP
The \fBcatch\fR command may be used to prevent errors from aborting command
-interpretation. The \fBcatch\fR command calls the Tcl interpreter recursively to
-execute \fIscript\fR, and always returns without raising an error,
+interpretation. The \fBcatch\fR command calls the Tcl interpreter recursively
+to execute \fIscript\fR, and always returns without raising an error,
regardless of any errors that might occur while executing \fIscript\fR.
.PP
If \fIscript\fR raises an error, \fBcatch\fR will return a non-zero integer
@@ -33,16 +32,15 @@ by a return code of \fBTCL_ERROR\fR. The other exceptional return codes are
returned by the \fBreturn\fR, \fBbreak\fR, and \fBcontinue\fR commands
and in other special situations as documented. Tcl packages can define
new commands that return other integer values as return codes as well,
-and scripts that make use of the \fBreturn -code\fR command can also
+and scripts that make use of the \fBreturn \-code\fR command can also
have return codes other than the five defined by Tcl.
.PP
If the \fIresultVarName\fR argument is given, then the variable it names is
-set to the result of the script evaluation. When the return code from
-the script is 1 (\fBTCL_ERROR\fR), the value stored in \fIresultVarName\fR is an error
-message. When the return code from the script is 0 (\fBTCL_OK\fR), the value
-stored in \fIresultVarName\fR is the value returned from \fIscript\fR.
+set to the result of the script evaluation. When the return code from the
+script is 1 (\fBTCL_ERROR\fR), the value stored in \fIresultVarName\fR is an
+error message. When the return code from the script is 0 (\fBTCL_OK\fR), the
+value stored in \fIresultVarName\fR is the value returned from \fIscript\fR.
.PP
-.VS 8.5
If the \fIoptionsVarName\fR argument is given, then the variable it
names is set to a dictionary of return options returned by evaluation
of \fIscript\fR. Tcl specifies two entries that are always
@@ -54,31 +52,59 @@ Only when the return code is \fBTCL_RETURN\fR will the values of
the \fB\-level\fR and \fB\-code\fR entries be something else, as
further described in the documentation for the \fBreturn\fR command.
.PP
-When the return code from evaluation of \fIscript\fR is \fBTCL_ERROR\fR,
-three additional entries are defined in the dictionary of return options
-stored in \fIoptionsVarName\fR: \fB\-errorinfo\fR, \fB\-errorcode\fR,
-and \fB\-errorline\fR. The value of the \fB\-errorinfo\fR entry
-is a formatted stack trace containing more information about
-the context in which the error happened. The formatted stack
-trace is meant to be read by a person. The value of
-the \fB\-errorcode\fR entry is additional information about the
-error stored as a list. The \fB\-errorcode\fR value is meant to
-be further processed by programs, and may not be particularly
-readable by people. The value of the \fB\-errorline\fR entry
-is an integer indicating which line of \fIscript\fR was being
-evaluated when the error occurred. The values of the \fB\-errorinfo\fR
-and \fB\-errorcode\fR entries of the most recent error are also
-available as values of the global variables \fB::errorInfo\fR
-and \fB::errorCode\fR respectively.
+When the return code from evaluation of \fIscript\fR is
+\fBTCL_ERROR\fR, four additional entries are defined in the dictionary
+of return options stored in \fIoptionsVarName\fR: \fB\-errorinfo\fR,
+\fB\-errorcode\fR, \fB\-errorline\fR, and
+.VS 8.6
+\fB\-errorstack\fR.
+.VE 8.6
+The value of the \fB\-errorinfo\fR entry is a formatted stack trace containing
+more information about the context in which the error happened. The formatted
+stack trace is meant to be read by a person. The value of the
+\fB\-errorcode\fR entry is additional information about the error stored as a
+list. The \fB\-errorcode\fR value is meant to be further processed by
+programs, and may not be particularly readable by people. The value of the
+\fB\-errorline\fR entry is an integer indicating which line of \fIscript\fR
+was being evaluated when the error occurred.
+.VS 8.6
+The value of the \fB\-errorstack\fR entry is an
+even-sized list made of token-parameter pairs accumulated while
+unwinding the stack. The token may be
+.QW \fBCALL\fR ,
+in which case the parameter is a list made of the proc name and arguments at
+the corresponding level; or it may be
+.QW \fBUP\fR ,
+in which case the parameter is
+the relative level (as in \fBuplevel\fR) of the previous \fBCALL\fR. The
+salient differences with respect to \fB\-errorinfo\fR are that:
+.IP [1]
+it is a machine-readable form that is amenable to processing with
+[\fBforeach\fR {tok prm} ...],
+.IP [2]
+it contains the true (substituted) values passed to the functions, instead of
+the static text of the calling sites, and
+.IP [3]
+it is coarser-grained, with only one element per stack frame (like procs; no
+separate elements for \fBforeach\fR constructs for example).
+.VE 8.6
+.PP
+The values of the \fB\-errorinfo\fR and \fB\-errorcode\fR entries of
+the most recent error are also available as values of the global
+variables \fB::errorInfo\fR and \fB::errorCode\fR respectively.
+.VS 8.6
+The value of the \fB\-errorstack\fR entry surfaces as \fBinfo errorstack\fR.
+.VE 8.6
.PP
Tcl packages may provide commands that set other entries in the
dictionary of return options, and the \fBreturn\fR command may be
used by scripts to set return options in addition to those defined
above.
-.VE 8.5
.SH EXAMPLES
+.PP
The \fBcatch\fR command may be used in an \fBif\fR to branch based on
the success of a script.
+.PP
.CS
if { [\fBcatch\fR {open $someFile w} fid] } {
puts stderr "Could not open $someFile for writing\en$fid"
@@ -88,9 +114,12 @@ if { [\fBcatch\fR {open $someFile w} fid] } {
.PP
There are more complex examples of \fBcatch\fR usage in the
documentation for the \fBreturn\fR command.
-
.SH "SEE ALSO"
-break(n), continue(n), dict(n), error(n), return(n), tclvars(n)
-
+break(n), continue(n), dict(n), error(n), errorCode(n), errorInfo(n), info(n),
+return(n)
.SH KEYWORDS
-catch, error
+catch, error, exception
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/cd.n b/doc/cd.n
index 191fb62..eb3854c 100644
--- a/doc/cd.n
+++ b/doc/cd.n
@@ -14,7 +14,6 @@ cd \- Change working directory
.SH SYNOPSIS
\fBcd \fR?\fIdirName\fR?
.BE
-
.SH DESCRIPTION
.PP
Change the current working directory to \fIdirName\fR, or to the
@@ -25,19 +24,20 @@ Note that the current working directory is a per-process resource; the
\fBcd\fR command changes the working directory for all interpreters
and (in a threaded environment) all threads.
.SH EXAMPLES
+.PP
Change to the home directory of the user \fBfred\fR:
+.PP
.CS
\fBcd\fR ~fred
.CE
.PP
Change to the directory \fBlib\fR that is a sibling directory of the
current one:
+.PP
.CS
\fBcd\fR ../lib
.CE
-
.SH "SEE ALSO"
filename(n), glob(n), pwd(n)
-
.SH KEYWORDS
working directory
diff --git a/doc/chan.n b/doc/chan.n
index f5d3d54..c518455 100644
--- a/doc/chan.n
+++ b/doc/chan.n
@@ -31,22 +31,35 @@ otherwise. Note that this only ever returns 1 when the channel has
been configured to be non-blocking; all Tcl channels have blocking
turned on by default.
.TP
-\fBchan close \fIchannelId\fR
+\fBchan close \fIchannelId\fR ?\fIdirection\fR?
.
Close and destroy the channel called \fIchannelId\fR. Note that this
deletes all existing file-events registered on the channel.
+.VS 8.6
+If the \fIdirection\fR argument (which must be \fBread\fR or \fBwrite\fR or
+any unique abbreviation of them) is present, the channel will only be
+half-closed, so that it can go from being read-write to write-only or
+read-only respectively. If a read-only channel is closed for reading, it is
+the same as if the channel is fully closed, and respectively similar for
+write-only channels. Without the \fIdirection\fR argument, the channel is
+closed for both reading and writing (but only if those directions are
+currently open). It is an error to close a read-only channel for writing, or a
+write-only channel for reading.
+.VE 8.6
.RS
.PP
As part of closing the channel, all buffered output is flushed to the
-channel's output device, any buffered input is discarded, the
-underlying operating system resource is closed and \fIchannelId\fR
-becomes unavailable for future use.
-.PP
-If the channel is blocking, the command does not return until all
-output is flushed. If the channel is nonblocking and there is
-unflushed output, the channel remains open and the command returns
-immediately; output will be flushed in the background and the channel
-will be closed when all the flushing is complete.
+channel's output device (only if the channel is ceasing to be writable), any
+buffered input is discarded (only if the channel is ceasing to be readable),
+the underlying operating system resource is closed and \fIchannelId\fR becomes
+unavailable for future use (both only if the channel is being completely
+closed).
+.PP
+If the channel is blocking and the channel is ceasing to be writable, the
+command does not return until all output is flushed. If the channel is
+non-blocking and there is unflushed output, the channel remains open and the
+command returns immediately; output will be flushed in the background and the
+channel will be closed when all the flushing is complete.
.PP
If \fIchannelId\fR is a blocking channel for a command pipeline then
\fBchan close\fR waits for the child processes to complete.
@@ -56,10 +69,12 @@ makes \fIchannelId\fR unavailable in the invoking interpreter but has
no other effect until all of the sharing interpreters have closed the
channel. When the last interpreter in which the channel is registered
invokes \fBchan close\fR (or \fBclose\fR), the cleanup actions
-described above occur. See the \fBinterp\fR command for a description
-of channel sharing.
+described above occur. With half-closing, the half-close of the channel only
+applies to the current interpreter's view of the channel until all channels
+have closed it in that direction (or completely).
+See the \fBinterp\fR command for a description of channel sharing.
.PP
-Channels are automatically closed when an interpreter is destroyed and
+Channels are automatically fully closed when an interpreter is destroyed and
when the process exits. Channels are switched to blocking mode, to
ensure that all output is correctly flushed before the process exits.
.PP
@@ -67,6 +82,13 @@ The command returns an empty string, and may generate an error if
an error occurs while flushing output. If a command in a command
pipeline created with \fBopen\fR returns an error, \fBchan close\fR
generates an error (similar to the \fBexec\fR command.)
+.PP
+.VS 8.6
+Note that half-closes of sockets and command pipelines can have important side
+effects because they result in a shutdown() or close() of the underlying
+system resource, which can change how other processes or systems respond to
+the Tcl program.
+.VE 8.6
.RE
.TP
\fBchan configure \fIchannelId\fR ?\fIoptionName\fR? ?\fIvalue\fR? ?\fIoptionName value\fR?...
@@ -85,20 +107,21 @@ the command sets each of the named options to the corresponding
.PP
The options described below are supported for all channels. In
addition, each channel type may add options that only it supports. See
-the manual entry for the command that creates each type of channels
-for the options that that specific type of channel supports. For
-example, see the manual entry for the \fBsocket\fR command for its
-additional options.
+the manual entry for the command that creates each type of channel
+for the options supported by that specific type of channel. For
+example, see the manual entry for the \fBsocket\fR command for additional
+options for sockets, and the \fBopen\fR command for additional options for
+serial devices.
.TP
\fB\-blocking\fR \fIboolean\fR
.
The \fB\-blocking\fR option determines whether I/O operations on the
channel can cause the process to block indefinitely. The value of the
option must be a proper boolean value. Channels are normally in
-blocking mode; if a channel is placed into nonblocking mode it will
+blocking mode; if a channel is placed into non-blocking mode it will
affect the operation of the \fBchan gets\fR, \fBchan read\fR, \fBchan
puts\fR, \fBchan flush\fR, and \fBchan close\fR commands; see the
-documentation for those commands for details. For nonblocking mode to
+documentation for those commands for details. For non-blocking mode to
work correctly, the application must be using the Tcl event loop
(e.g. by calling \fBTcl_DoOneEvent\fR or invoking the \fBvwait\fR
command).
@@ -328,7 +351,7 @@ This subcommand creates a new script level channel using the command
prefix \fIcmdPrefix\fR as its handler. Any such channel is called a
\fBreflected\fR channel. The specified command prefix, \fBcmdPrefix\fR,
must be a non-empty list, and should provide the API described in the
-\fBreflectedchan\fR manual page. The handle of the new channel is
+\fBrefchan\fR manual page. The handle of the new channel is
returned as the result of the \fBchan create\fR command, and the
channel is open. Use either \fBclose\fR or \fBchan close\fR to remove
the channel.
@@ -347,7 +370,7 @@ mode, or an error is thrown.
.PP
The command prefix is executed in the global namespace, at the top of
call stack, following the appending of arguments as described in the
-\fBreflectedchan\fR manual page. Command resolution happens at the
+\fBrefchan\fR manual page. Command resolution happens at the
time of the call. Renaming the command, or destroying it means that
the next call of a handler method may fail, causing the channel
command invoking the handler to fail as well. Depending on the
@@ -376,7 +399,7 @@ commands.
When a thread or interpreter is deleted, all channels created with
this subcommand and using this thread/interpreter as their computing
base are deleted as well, in all interpreters they have been shared
-with or moved into, and in whatever thread they have been transfered
+with or moved into, and in whatever thread they have been transferred
to. While this pulls the rug out under the other thread(s) and/or
interpreter(s), this cannot be avoided. Trying to use such a channel
will cause the generation of a regular error about unknown channel
@@ -430,7 +453,7 @@ be readable if there is unread data in an input buffer, except in the
special case where the most recent attempt to read from the channel
was a \fBchan gets\fR call that could not find a complete line in the
input buffer. This feature allows a file to be read a line at a time
-in nonblocking mode using events. A channel is also considered to be
+in non-blocking mode using events. A channel is also considered to be
readable if an end of file or error condition is present on the
underlying file or device. It is important for \fIscript\fR to check
for these conditions and handle them appropriately; for example, if
@@ -445,12 +468,12 @@ Note that client sockets opened in asynchronous mode become writable
when they become connected or if the connection fails.
.PP
Event-driven I/O works best for channels that have been placed into
-nonblocking mode with the \fBchan configure\fR command. In blocking
+non-blocking mode with the \fBchan configure\fR command. In blocking
mode, a \fBchan puts\fR command may block if you give it more data
than the underlying file or device can accept, and a \fBchan gets\fR
or \fBchan read\fR command will block if you attempt to read more data
than is ready; no events will be processed while the commands block.
-In nonblocking mode \fBchan puts\fR, \fBchan read\fR, and \fBchan
+In non-blocking mode \fBchan puts\fR, \fBchan read\fR, and \fBchan
gets\fR never block.
.PP
The script for a file event is executed at global level (outside the
@@ -470,7 +493,7 @@ is written.
.PP
If the channel is in blocking mode the command does not return until
all the buffered output has been flushed to the channel. If the
-channel is in nonblocking mode, the command may return before all
+channel is in non-blocking mode, the command may return before all
buffered output has been flushed; the remainder will be flushed in the
background as fast as the underlying file or device is able to absorb
it.
@@ -493,7 +516,7 @@ If an end-of-file occurs while part way through reading a line, the
partial line will be returned (or written into \fIvarName\fR). When
\fIvarName\fR is not specified, the end-of-file case can be
distinguished from an empty line using the \fBchan eof\fR command, and
-the partial-line-but-nonblocking case can be distinguished with the
+the partial-line-but-non-blocking case can be distinguished with the
\fBchan blocked\fR command.
.RE
.TP
@@ -514,6 +537,27 @@ a potential denial-of-service attack where a hostile user crafts
an extremely long line that exceeds the available memory to buffer it).
Returns -1 if the channel was not opened for the mode in question.
.TP
+\fBchan pipe\fR
+.VS 8.6
+Creates a standalone pipe whose read- and write-side channels are
+returned as a 2-element list, the first element being the read side and
+the second the write side. Can be useful e.g. to redirect
+separately \fBstderr\fR and \fBstdout\fR from a subprocess. To do
+this, spawn with "2>@" or
+">@" redirection operators onto the write side of a pipe, and then
+immediately close it in the parent. This is necessary to get an EOF on
+the read side once the child has exited or otherwise closed its output.
+.VE 8.6
+.TP
+\fBchan pop \fIchannelId\fR
+.VS 8.6
+Removes the topmost transformation from the channel \fIchannelId\fR, if there
+is any. If there are no transformations added to \fIchannelId\fR, this is
+equivalent to \fBchan close\fR of that channel. The result is normally the
+empty string, but can be an error in some situations (i.e. where the
+underlying system stream is closed and that results in an error).
+.VE 8.6
+.TP
\fBchan postevent \fIchannelId eventSpec\fR
.
This subcommand is used by command handlers specified with \fBchan
@@ -539,7 +583,7 @@ other interpreter will cause this subcommand to report an error.
Another restriction is that it is not possible to post events that the
I/O core has not registered an interest in. Trying to do so will cause
the method to throw an error. See the command handler method
-\fBwatch\fR described in \fBreflectedchan\fR, the document specifying
+\fBwatch\fR described in \fBrefchan\fR, the document specifying
the API of command handlers for reflected channels.
.PP
This command is \fBsafe\fR and made accessible to safe interpreters.
@@ -550,6 +594,18 @@ a trusted interpreter. \fBChan event\fR handlers are \fIalways\fR
executed in the interpreter that set them up.
.RE
.TP
+\fBchan push \fIchannelId cmdPrefix\fR
+.VS 8.6
+Adds a new transformation on top of the channel \fIchannelId\fR. The
+\fIcmdPrefix\fR argument describes a list of one or more words which represent
+a handler that will be used to implement the transformation. The command
+prefix must provide the API described in the \fBtranschan\fR manual page.
+The result of this subcommand is a handle to the transformation. Note that it
+is important to make sure that the transformation is capable of supporting the
+channel mode that it is used with or this can make the channel neither
+readable nor writable.
+.VE 8.6
+.TP
\fBchan puts\fR ?\fB\-nonewline\fR? ?\fIchannelId\fR? \fIstring\fR
.
Writes \fIstring\fR to the channel named \fIchannelId\fR followed by a
@@ -574,16 +630,16 @@ flush\fR command.
.PP
When the output buffer fills up, the \fBchan puts\fR command will
normally block until all the buffered data has been accepted for
-output by the operating system. If \fIchannelId\fR is in nonblocking
+output by the operating system. If \fIchannelId\fR is in non-blocking
mode then the \fBchan puts\fR command will not block even if the
operating system cannot accept the data. Instead, Tcl continues to
buffer the data and writes it in the background as fast as the
underlying file or device can accept it. The application must use the
-Tcl event loop for nonblocking output to work; otherwise Tcl never
+Tcl event loop for non-blocking output to work; otherwise Tcl never
finds out that the file or device is ready for more output data. It
is possible for an arbitrarily large amount of data to be buffered for
-a channel in nonblocking mode, which could consume a large amount of
-memory. To avoid wasting memory, nonblocking I/O should normally be
+a channel in non-blocking mode, which could consume a large amount of
+memory. To avoid wasting memory, non-blocking I/O should normally be
used in an event-driven fashion with the \fBchan event\fR command
(do not invoke \fBchan puts\fR unless you have recently been notified
via a file event that the channel is ready for more output data).
@@ -603,7 +659,7 @@ given to indicate that any trailing newline in the string that has
been read should be trimmed.
.RS
.PP
-If \fIchannelId\fR is in nonblocking mode, \fBchan read\fR may not
+If \fIchannelId\fR is in non-blocking mode, \fBchan read\fR may not
read as many characters as requested: once all available input has
been read, the command will return the data that is available rather
than blocking for more input. If the channel is configured to use a
@@ -619,10 +675,12 @@ channel (see \fBchan configure\fR above for a discussion on the ways
in which \fBchan configure\fR will alter input).
.PP
When reading from a serial port, most applications should configure
-the serial port channel to be nonblocking, like this:
+the serial port channel to be non-blocking, like this:
+.PP
.CS
\fBchan configure \fIchannelId \fB\-blocking \fI0\fR.
.CE
+.PP
Then \fBchan read\fR behaves much like described above. Note that
most serial ports are comparatively slow; it is entirely possible to
get a \fBreadable\fR event for each character read from them. Care
@@ -670,7 +728,7 @@ position after the end of file.
The \fIorigin\fR argument defaults to \fBstart\fR.
.PP
\fBChan seek\fR flushes all buffered output for the channel before the
-command returns, even if the channel is in nonblocking mode. It also
+command returns, even if the channel is in non-blocking mode. It also
discards any buffered and unread input. This command returns an empty
string. An error occurs if this command is applied to channels whose
underlying file or device does not support seeking.
@@ -695,7 +753,9 @@ Sets the byte length of the underlying data stream for the channel
named \fIchannelId\fR to be \fIlength\fR (or to the current byte
offset within the underlying data stream if \fIlength\fR is
omitted). The channel is flushed before truncation.
-.SH EXAMPLE
+.
+.SH EXAMPLES
+.PP
This opens a file using a known encoding (CP1252, a very common encoding
on Windows), searches for a string, rewrites that part, and truncates the
file after a further two lines.
@@ -707,30 +767,70 @@ set offset 0
\fI# Search for string "FOOBAR" in the file\fR
while {[\fBchan gets\fR $f line] >= 0} {
- set idx [string first FOOBAR $line]
- if {$idx > -1} {
- \fI# Found it; rewrite line\fR
+ set idx [string first FOOBAR $line]
+ if {$idx > -1} {
+ \fI# Found it; rewrite line\fR
- \fBchan seek\fR $f [expr {$offset + $idx}]
- \fBchan puts\fR -nonewline $f BARFOO
+ \fBchan seek\fR $f [expr {$offset + $idx}]
+ \fBchan puts\fR -nonewline $f BARFOO
- \fI# Skip to end of following line, and truncate\fR
- \fBchan gets\fR $f
- \fBchan gets\fR $f
- \fBchan truncate\fR $f
+ \fI# Skip to end of following line, and truncate\fR
+ \fBchan gets\fR $f
+ \fBchan gets\fR $f
+ \fBchan truncate\fR $f
- \fI# Stop searching the file now\fR
- break
- }
+ \fI# Stop searching the file now\fR
+ break
+ }
- \fI# Save offset of start of next line for later\fR
- set offset [\fBchan tell\fR $f]
+ \fI# Save offset of start of next line for later\fR
+ set offset [\fBchan tell\fR $f]
}
\fBchan close\fR $f
.CE
+.PP
+A network server that does echoing of its input line-by-line without
+preventing servicing of other connections at the same time.
+.PP
+.CS
+# This is a very simple logger...
+proc log {message} {
+ \fBchan puts\fR stdout $message
+}
+
+# This is called whenever a new client connects to the server
+proc connect {chan host port} {
+ set clientName [format <%s:%d> $host $port]
+ log "connection from $clientName"
+ \fBchan configure\fR $chan -blocking 0 -buffering line
+ \fBchan event\fR $chan readable [list echoLine $chan $clientName]
+}
+
+# This is called whenever either at least one byte of input
+# data is available, or the channel was closed by the client.
+proc echoLine {chan clientName} {
+ \fBchan gets\fR $chan line
+ if {[\fBchan eof\fR $chan]} {
+ log "finishing connection from $clientName"
+ \fBchan close\fR $chan
+ } elseif {![\fBchan blocked\fR $chan]} {
+ # Didn't block waiting for end-of-line
+ log "$clientName - $line"
+ \fBchan puts\fR $chan $line
+ }
+}
+
+# Create the server socket and enter the event-loop to wait
+# for incoming connections...
+socket -server connect 12345
+vwait forever
+.CE
.SH "SEE ALSO"
close(n), eof(n), fblocked(n), fconfigure(n), fcopy(n), file(n),
fileevent(n), flush(n), gets(n), open(n), puts(n), read(n), seek(n),
-socket(n), tell(n), refchan(n)
+socket(n), tell(n), refchan(n), transchan(n)
.SH KEYWORDS
channel, input, output, events, offset
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/class.n b/doc/class.n
new file mode 100644
index 0000000..88d1b44
--- /dev/null
+++ b/doc/class.n
@@ -0,0 +1,136 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH class n 0.1 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+oo::class \- class of all classes
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBoo::class\fI method \fR?\fIarg ...\fR?
+.fi
+.SH "CLASS HIERARCHY"
+.nf
+\fBoo::object\fR
+ \(-> \fBoo::class\fR
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+Classes are objects that can manufacture other objects according to a pattern
+stored in the factory object (the class). An instance of the class is created
+by calling one of the class's factory methods, typically either \fBcreate\fR
+if an explicit name is being given, or \fBnew\fR if an arbitrary unique name
+is to be automatically selected.
+.PP
+The \fBoo::class\fR class is the class of all classes; every class is an
+instance of this class, which is consequently an instance of itself. This
+class is a subclass of \fBoo::object\fR, so every class is also an object.
+Additional metaclasses (i.e., classes of classes) can be defined if necessary
+by subclassing \fBoo::class\fR. Note that the \fBoo::class\fR object hides the
+\fBnew\fR method on itself, so new classes should always be made using the
+\fBcreate\fR method.
+.SS CONSTRUCTOR
+.PP
+The constructor of the \fBoo::class\fR class takes an optional argument which,
+if present, is sent to the \fBoo::define\fR command (along with the name of
+the newly-created class) to allow the class to be conveniently configured at
+creation time.
+.SS DESTRUCTOR
+The \fBoo::class\fR class does not define an explicit destructor. However,
+when a class is destroyed, all its subclasses and instances are also
+destroyed, along with all objects that it has been mixed into.
+.SS "EXPORTED METHODS"
+.TP
+\fIcls \fBcreate \fIname \fR?\fIarg ...\fR?
+.
+This creates a new instance of the class \fIcls\fR called \fIname\fR (which is
+resolved within the calling context's namespace if not fully qualified),
+passing the arguments, \fIarg ...\fR, to the constructor, and (if that returns
+a successful result) returning the fully qualified name of the created object
+(the result of the constructor is ignored). If the constructor fails (i.e.
+returns a non-OK result) then the object is destroyed and the error message is
+the result of this method call.
+.TP
+\fIcls \fBnew \fR?\fIarg ...\fR?
+.
+This creates a new instance of the class \fIcls\fR with a new unique name,
+passing the arguments, \fIarg ...\fR, to the constructor, and (if that returns
+a successful result) returning the fully qualified name of the created object
+(the result of the constructor is ignored). If the constructor fails (i.e.,
+returns a non-OK result) then the object is destroyed and the error message is
+the result of this method call.
+.RS
+.PP
+Note that this method is not exported by the \fBoo::class\fR object itself, so
+classes should not be created using this method.
+.RE
+.SS "NON-EXPORTED METHODS"
+.PP
+The \fBoo::class\fR class supports the following non-exported methods:
+.TP
+\fIcls \fBcreateWithNamespace\fI name nsName\fR ?\fIarg ...\fR?
+.
+This creates a new instance of the class \fIcls\fR called \fIname\fR (which is
+resolved within the calling context's namespace if not fully qualified),
+passing the arguments, \fIarg ...\fR, to the constructor, and (if that returns
+a successful result) returning the fully qualified name of the created object
+(the result of the constructor is ignored). The name of the instance's
+internal namespace will be \fInsName\fR unless that namespace already exists
+(when an arbitrary name will be chosen instead). If the constructor fails
+(i.e., returns a non-OK result) then the object is destroyed and the error
+message is the result of this method call.
+.SH EXAMPLES
+.PP
+This example defines a simple class hierarchy and creates a new instance of
+it. It then invokes a method of the object before destroying the hierarchy and
+showing that the destruction is transitive.
+.PP
+.CS
+\fBoo::class create\fR fruit {
+ method eat {} {
+ puts "yummy!"
+ }
+}
+\fBoo::class create\fR banana {
+ superclass fruit
+ constructor {} {
+ my variable peeled
+ set peeled 0
+ }
+ method peel {} {
+ my variable peeled
+ set peeled 1
+ puts "skin now off"
+ }
+ method edible? {} {
+ my variable peeled
+ return $peeled
+ }
+ method eat {} {
+ if {![my edible?]} {
+ my peel
+ }
+ next
+ }
+}
+set b [banana \fBnew\fR]
+$b eat \fI\(-> prints "skin now off" and "yummy!"\fR
+fruit destroy
+$b eat \fI\(-> error "unknown command"\fR
+.CE
+.SH "SEE ALSO"
+oo::define(n), oo::object(n)
+.SH KEYWORDS
+class, metaclass, object
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/clock.n b/doc/clock.n
index 600722b..8708029 100644
--- a/doc/clock.n
+++ b/doc/clock.n
@@ -42,12 +42,12 @@ is system-dependent but should be the highest resolution clock available
on the system such as a CPU cycle counter. See \fBHIGH RESOLUTION TIMERS\fR for a full description.
.RS
.PP
-If the \fI\-option\fR argument is \fI\-milliseconds\fR, then the command
+If the \fI\-option\fR argument is \fB\-milliseconds\fR, then the command
is synonymous with \fBclock milliseconds\fR (see below). This
usage is obsolete, and \fBclock milliseconds\fR is to be
considered the preferred way of obtaining a count of milliseconds.
.PP
-If the \fI\-option\fR argument is \fI\-microseconds\fR, then the command
+If the \fI\-option\fR argument is \fB\-microseconds\fR, then the command
is synonymous with \fBclock microseconds\fR (see below). This
usage is obsolete, and \fBclock microseconds\fR is to be
considered the preferred way of obtaining a count of microseconds.
@@ -111,11 +111,12 @@ and their interpretation, are described under \fBFORMAT GROUPS\fR.
.RS
.PP
On \fBclock format\fR, the default format is
+.PP
.CS
%a %b %d %H:%M:%S %z %Y
.CE
.PP
-On \fBclock scan\fR, the lack of a \fI\-format\fR option indicates that a
+On \fBclock scan\fR, the lack of a \fB\-format\fR option indicates that a
.QW "free format scan"
is requested; see \fBFREE FORM SCAN\fR for a description of what happens.
.RE
@@ -160,12 +161,14 @@ the environment variable \fBTZ\fR.
.IP [3]
on Windows systems, the time zone settings from the Control Panel.
.RE
+.PP
If none of these is present, the C \fBlocaltime\fR and \fBmktime\fR
functions are used to attempt to convert times between local and
Greenwich. On 32-bit systems, this approach is likely to have bugs,
particularly for times that lie outside the window (approximately the
years 1902 to 2037) that can be represented in a 32-bit integer.
.SH "CLOCK ARITHMETIC"
+.PP
The \fBclock add\fR command performs clock arithmetic on a value
(expressed as nominal seconds from the epoch time of 1 January 1970, 00:00 UTC)
given as its first argument. The remaining arguments (other than the
@@ -195,6 +198,7 @@ absolute time means that it will add fixed amounts of time in time zones
that observe summer time (Daylight Saving Time). For example,
the following code sets the value of \fBx\fR to \fB04:00:00\fR because
the clock has changed in the interval in question.
+.PP
.CS
set s [\fBclock scan\fR {2004-10-30 05:00:00} \e
-format {%Y-%m-%d %H:%M:%S} \e
@@ -215,6 +219,7 @@ Adding and subtracting a given number of days across the point that
the time changes at the start or end of summer time (Daylight Saving Time)
results in the \fIsame local time\fR on the day in question. For
instance, the following code sets the value of \fBx\fR to \fB05:00:00\fR.
+.PP
.CS
set s [\fBclock scan\fR {2004-10-30 05:00:00} \e
-format {%Y-%m-%d %H:%M:%S} \e
@@ -230,6 +235,7 @@ yields an impossible time (for instance, 02:30 during the Spring
Daylight Saving Time change using US rules), the time is converted
as if the clock had not changed. Thus, the following code
will set the value of \fBx\fR to \fB03:30:00\fR.
+.PP
.CS
set s [\fBclock scan\fR {2004-04-03 02:30:00} \e
-format {%Y-%m-%d %H:%M:%S} \e
@@ -242,6 +248,7 @@ set x [\fBclock format\fR $a \e
Adding a given number of days or weeks works correctly across the conversion
between the Julian and Gregorian calendars; the omitted days are skipped.
The following code sets \fBz\fR to \fB1752-09-14\fR.
+.PP
.CS
set x [\fBclock scan\fR 1752-09-02 -format %Y-%m-%d -locale en_US]
set y [\fBclock add\fR $x 1 day -locale en_US]
@@ -270,6 +277,7 @@ years as they are when adding/subtracting days and weeks.
If multiple \fIcount unit\fR pairs are present on the command, they
are evaluated consecutively, from left to right.
.SH "HIGH RESOLUTION TIMERS"
+.PP
Most of the subcommands supported by the \fBclock\fR command deal with
times represented as a count of seconds from the epoch time, and this is the
representation that \fBclock seconds\fR returns. There are three exceptions,
@@ -284,6 +292,7 @@ epoch; it is simply intended to be the most precise interval timer
available, and is intended only for relative timing studies such as
benchmarks.
.SH "FORMATTING TIMES"
+.PP
The \fBclock format\fR command produces times for display to a user
or writing to an external medium. The command accepts times that are
expressed in seconds from the epoch time of 1 January 1970, 00:00 UTC,
@@ -322,6 +331,7 @@ platforms that do not define a user selection of date and time formats
separate from \fBLC_TIME\fR, \fB\-locale\fR \fBsystem\fR is
synonymous with \fB\-locale\fR \fBcurrent\fR.
.SH "SCANNING TIMES"
+.PP
The \fBclock scan\fR command accepts times that are formatted as
strings and converts them to counts of seconds from the epoch time
of 1 January 1970, 00:00 UTC. It normally takes a \fB\-format\fR
@@ -444,6 +454,7 @@ If this situation occurs, the first occurrence of the time is chosen.
time zone when converting local times. This caveat does not apply to
UTC times.)
.SH "FORMAT GROUPS"
+.PP
The following format groups are recognized by the \fBclock scan\fR and
\fBclock format\fR commands.
.TP
@@ -733,6 +744,7 @@ character.
Synonymous with
.QW "\fB%a %b %e %H:%M:%S %Z %Y\fR" .
.SH "TIME ZONES"
+.PP
When the \fBclock\fR command is processing a local time, it has several
possible sources for the time zone to use. In order of preference, they
are:
@@ -754,6 +766,7 @@ The C library's idea of the local time zone, as defined by the
.PP
In case [1] \fIonly,\fR the string is tested to see if it is one
of the strings:
+.PP
.CS
gmt ut utc bst wet wat at
nft nst ndt ast adt est edt
@@ -765,6 +778,7 @@ of the strings:
cadt east eadt gst nzt nzst nzdt
idle
.CE
+.PP
If it is a string in the above list, it designates a known
time zone, and is interpreted as such.
.PP
@@ -798,13 +812,32 @@ environment variable will be recognized. The specification
may be found at
\fIhttp://www.opengroup.org/onlinepubs/009695399/basedefs/xbd_chap08.html\fR.
.PP
+If the Posix time zone string contains a DST (Daylight Savings Time)
+part, but doesn't contain a rule stating when DST starts or ends,
+then default rules are used. For Timezones with an offset between 0
+and +12, the current European/Russian rules are used, otherwise the
+current US rules are used. In Europe (offset +0 to +2) the switch
+to summertime is done each last Sunday in March at 1:00 GMT, and
+the switch back is each last Sunday in October at 2:00 GMT. In
+Russia (offset +3 to +12), the switch dates are the same, only
+the switch to summertime is at 2:00 local time, and the switch
+back is at 3:00 local time in all time zones. The US switch to
+summertime takes place each second Sunday in March at 2:00 local
+time, and the switch back is each first Sunday in November at
+3:00 local time. These default rules mean that in all European,
+Russian and US (or compatible) time zones, DST calculations will
+be correct for dates in 2007 and later, unless in the future the
+rules change again.
+.PP
Any other time zone string is processed by prefixing a colon and attempting
to use it as a location name, as above.
.SH "LOCALIZATION"
+.PP
Developers wishing to localize the date and time formatting and parsing
are referred to \fIhttp://tip.tcl.tk/173\fR for a
specification.
.SH "FREE FORM SCAN"
+.PP
If the \fBclock scan\fR command is invoked without a \fB\-format\fR
option, then it requests a \fIfree-form scan.\fR \fI
This form of scan is deprecated.\fR The reason for the deprecation
@@ -871,7 +904,7 @@ or
Note that only these three formats are accepted.
The command does \fInot\fR accept the full range of point-in-time
specifications specified in ISO8601. Other formats can be recognized by
-giving an explicit \fI\-format\fR option to the \fBclock scan\fR command.
+giving an explicit \fB\-format\fR option to the \fBclock scan\fR command.
.TP
\fIrelative time\fR
A specification relative to the current time. The format is \fBnumber
@@ -899,3 +932,6 @@ msgcat(n)
clock, date, time
.SH "COPYRIGHT"
Copyright (c) 2004 Kevin B. Kenny <kennykb@acm.org>. All rights reserved.
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/close.n b/doc/close.n
index 4ef3c7d..2826d82 100644
--- a/doc/close.n
+++ b/doc/close.n
@@ -12,19 +12,20 @@
.SH NAME
close \- Close an open channel
.SH SYNOPSIS
-\fBclose \fIchannelId\fR
+\fBclose \fIchannelId\fR ?r(ead)|w(rite)?
.BE
-
.SH DESCRIPTION
.PP
-Closes the channel given by \fIchannelId\fR.
+Closes or half-closes the channel given by \fIchannelId\fR.
.PP
\fIChannelId\fR must be an identifier for an open channel such as a
Tcl standard channel (\fBstdin\fR, \fBstdout\fR, or \fBstderr\fR),
the return value from an invocation of \fBopen\fR or \fBsocket\fR, or
the result of a channel creation command provided by a Tcl extension.
.PP
-All buffered output is flushed to the channel's output device,
+The single-argument form is a simple
+.QW "full-close" :
+all buffered output is flushed to the channel's output device,
any buffered input is discarded, the underlying file or device is closed,
and \fIchannelId\fR becomes unavailable for use.
.PP
@@ -47,17 +48,45 @@ When the last interpreter in which the channel is registered invokes
\fBinterp\fR command for a description of channel sharing.
.PP
Channels are automatically closed when an interpreter is destroyed and
-when the process exits. Channels are switched to blocking mode, to ensure
-that all output is correctly flushed before the process exits.
+when the process exits.
+.VS 8.6
+From 8.6 on (TIP#398), nonblocking channels are no longer switched to blocking mode when exiting; this guarantees a timely exit even when the peer or a communication channel is stalled. To ensure proper flushing of stalled nonblocking channels on exit, one must now either (a) actively switch them back to blocking or (b) use the environment variable TCL_FLUSH_NONBLOCKING_ON_EXIT, which when set and not equal to "0" restores the previous behavior.
+.VE 8.6
.PP
The command returns an empty string, and may generate an error if
an error occurs while flushing output. If a command in a command
pipeline created with \fBopen\fR returns an error, \fBclose\fR
generates an error (similar to the \fBexec\fR command.)
+.PP
+.VS 8.6
+The two-argument form is a
+.QW "half-close" :
+given a bidirectional channel like a
+socket or command pipeline and a (possibly abbreviated) direction, it closes
+only the sub-stream going in that direction. This means a shutdown() on a
+socket, and a close() of one end of a pipe for a command pipeline. Then, the
+Tcl-level channel data structure is either kept or freed depending on whether
+the other direction is still open.
+.PP
+A single-argument close on an already half-closed bidirectional channel is
+defined to just
+.QW "finish the job" .
+A half-close on an already closed half, or on a wrong-sided unidirectional
+channel, raises an error.
+.PP
+In the case of a command pipeline, the child-reaping duty falls upon the
+shoulders of the last close or half-close, which is thus allowed to report an
+abnormal exit error.
+.PP
+Currently only sockets and command pipelines support half-close. A future
+extension will allow reflected and stacked channels to do so.
+.VE 8.6
.SH EXAMPLE
+.PP
This illustrates how you can use Tcl to ensure that files get closed
even when errors happen by combining \fBcatch\fR, \fBclose\fR and
\fBreturn\fR:
+.PP
.CS
proc withOpenFile {filename channelVar script} {
upvar 1 $channelVar chan
@@ -69,9 +98,11 @@ proc withOpenFile {filename channelVar script} {
return -options $options $result
}
.CE
-
.SH "SEE ALSO"
file(n), open(n), socket(n), eof(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
-blocking, channel, close, nonblocking
+blocking, channel, close, nonblocking, half-close
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/concat.n b/doc/concat.n
index f7317c4..b079b30 100644
--- a/doc/concat.n
+++ b/doc/concat.n
@@ -14,11 +14,10 @@ concat \- Join lists together
.SH SYNOPSIS
\fBconcat\fI \fR?\fIarg arg ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command joins each of its arguments together with spaces after
-trimming leading and trailing white-space from each of them. If all the
+trimming leading and trailing white-space from each of them. If all of the
arguments are lists, this has the same effect as concatenating them
into a single list.
It permits any number of arguments;
@@ -53,4 +52,7 @@ values, as can be seen here:
.SH "SEE ALSO"
append(n), eval(n), join(n)
.SH KEYWORDS
-concatenate, join, lists
+concatenate, join, list
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/continue.n b/doc/continue.n
index 221b7e2..de2f07c 100644
--- a/doc/continue.n
+++ b/doc/continue.n
@@ -14,13 +14,12 @@ continue \- Skip to the next iteration of a loop
.SH SYNOPSIS
\fBcontinue\fR
.BE
-
.SH DESCRIPTION
.PP
This command is typically invoked inside the body of a looping command
such as \fBfor\fR or \fBforeach\fR or \fBwhile\fR.
-It returns a \fBTCL_CONTINUE\fR code, which causes a continue exception
-to occur.
+It returns a 4 (\fBTCL_CONTINUE\fR) result code, which causes a continue
+exception to occur.
The exception causes the current script to be aborted
out to the innermost containing loop command, which then
continues with the next iteration of the loop.
@@ -28,18 +27,21 @@ Catch exceptions are also handled in a few other situations, such
as the \fBcatch\fR command and the outermost scripts of procedure
bodies.
.SH EXAMPLE
+.PP
Print a line for each of the integers from 0 to 10 \fIexcept\fR 5:
+.PP
.CS
for {set x 0} {$x<10} {incr x} {
- if {$x == 5} {
- \fBcontinue\fR
- }
- puts "x is $x"
+ if {$x == 5} {
+ \fBcontinue\fR
+ }
+ puts "x is $x"
}
.CE
-
.SH "SEE ALSO"
break(n), for(n), foreach(n), return(n), while(n)
-
.SH KEYWORDS
continue, iteration, loop
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/copy.n b/doc/copy.n
new file mode 100644
index 0000000..f5002f8
--- /dev/null
+++ b/doc/copy.n
@@ -0,0 +1,66 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH copy n 0.1 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+oo::copy \- create copies of objects and classes
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBoo::copy\fI sourceObject \fR?\fItargetObject\fR?
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+The \fBoo::copy\fR command creates a copy of an object or class. It takes the
+name of the object or class to be copied, \fIsourceObject\fR, and optionally
+the name of the object or class to create, \fItargetObject\fR, which will be
+resolved relative to the current namespace if not an absolute qualified name.
+If \fItargetObject\fR is omitted, a new name is chosen. The copied object will
+be of the same class as the source object, and will have all its per-object
+methods copied. If it is a class, it will also have all the class methods in
+the class copied, but it will not have any of its instances copied.
+.PP
+.VS
+After the \fItargetObject\fR has been created and all definitions of its
+configuration (e.g., methods, filters, mixins) copied, the \fB<cloned>\fR
+method of \fItargetObject\fR will be invoked, to allow for customization of
+the created object such as installing related variable traces. The only
+argument given will be \fIsourceObject\fR. The default implementation of this
+method (in \fBoo::object\fR) just copies the procedures and variables in the
+namespace of \fIsourceObject\fR to the namespace of \fItargetObject\fR. If
+this method call does not return a result that is successful (i.e., an error
+or other kind of exception) then the \fItargetObject\fR will be deleted and an
+error returned.
+.VE
+.PP
+The result of the \fBoo::copy\fR command will be the fully-qualified name of
+the new object or class.
+.SH EXAMPLES
+.PP
+This example creates an object, copies it, modifies the source object, and
+then demonstrates that the copied object is indeed a copy.
+.PP
+.CS
+oo::object create src
+oo::objdefine src method msg {} {puts foo}
+\fBoo::copy\fR src dst
+oo::objdefine src method msg {} {puts bar}
+src msg \fI\(-> prints "bar"\fR
+dst msg \fI\(-> prints "foo"\fR
+.CE
+.SH "SEE ALSO"
+oo::class(n), oo::define(n), oo::object(n)
+.SH KEYWORDS
+clone, copy, duplication, object
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/coroutine.n b/doc/coroutine.n
new file mode 100644
index 0000000..035d58a
--- /dev/null
+++ b/doc/coroutine.n
@@ -0,0 +1,205 @@
+'\"
+'\" Copyright (c) 2009 Donal K. Fellows.
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH coroutine n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+coroutine, yield, yieldto \- Create and produce values from coroutines
+.SH SYNOPSIS
+.nf
+\fBcoroutine \fIname command\fR ?\fIarg...\fR?
+\fByield\fR ?\fIvalue\fR?
+.VS TIP396
+\fByieldto\fR \fIcommand\fR ?\fIarg...\fR?
+\fIname\fR ?\fIvalue...\fR?
+.VE TIP396
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+The \fBcoroutine\fR command creates a new coroutine context (with associated
+command) named \fIname\fR and executes that context by calling \fIcommand\fR,
+passing in the other remaining arguments without further interpretation. Once
+\fIcommand\fR returns normally or with an exception (e.g., an error) the
+coroutine context \fIname\fR is deleted.
+.PP
+Within the context, values may be generated as results by using the
+\fByield\fR command; if no \fIvalue\fR is supplied, the empty string is used.
+When that is called, the context will suspend execution and the
+\fBcoroutine\fR command will return the argument to \fByield\fR. The execution
+of the context can then be resumed by calling the context command, optionally
+passing in the \fIsingle\fR value to use as the result of the \fByield\fR call
+that caused
+the context to be suspended. If the coroutine context never yields and instead
+returns conventionally, the result of the \fBcoroutine\fR command will be the
+result of the evaluation of the context.
+.PP
+.VS TIP396
+The coroutine may also suspend its execution by use of the \fByieldto\fR
+command, which instead of returning, cedes execution to some command called
+\fIcommand\fR (resolved in the context of the coroutine) and to which \fIany
+number\fR of arguments may be passed. Since every coroutine has a context
+command, \fByieldto\fR can be used to transfer control directly from one
+coroutine to another (this is only advisable if the two coroutines are
+expecting this to happen) but \fIany\fR command may be the target. If a
+coroutine is suspended by this mechanism, the coroutine processing can be
+resumed by calling the context command optionally passing in an arbitrary
+number of arguments. The return value of the \fByieldto\fR call will be the
+list of arguments passed to the context command; it is up to the caller to
+decide what to do with those values.
+.PP
+The recommended way of writing a version of \fByield\fR that allows resumption
+with multiple arguments is by using \fByieldto\fR and the \fBreturn\fR
+command, like this:
+.PP
+.CS
+proc yieldm {value} {
+ \fByieldto\fR return -level 0 $value
+}
+.CE
+.VE TIP396
+.PP
+The coroutine can also be deleted by destroying the command \fIname\fR, and
+the name of the current coroutine can be retrieved by using
+\fBinfo coroutine\fR.
+If there are deletion traces on variables in the coroutine's
+implementation, they will fire at the point when the coroutine is explicitly
+deleted (or, naturally, if the command returns conventionally).
+.PP
+At the point when \fIcommand\fR is called, the current namespace will be the
+global namespace and there will be no stack frames above it (in the sense of
+\fBupvar\fR and \fBuplevel\fR). However, which command to call will be
+determined in the namespace that the \fBcoroutine\fR command was called from.
+.SH EXAMPLES
+.PP
+This example shows a coroutine that will produce an infinite sequence of
+even values, and a loop that consumes the first ten of them.
+.PP
+.CS
+proc allNumbers {} {
+ \fByield\fR
+ set i 0
+ while 1 {
+ \fByield\fR $i
+ incr i 2
+ }
+}
+\fBcoroutine\fR nextNumber allNumbers
+for {set i 0} {$i < 10} {incr i} {
+ puts "received [\fInextNumber\fR]"
+}
+rename nextNumber {}
+.CE
+.PP
+In this example, the coroutine acts to add up the arguments passed to it.
+.PP
+.CS
+\fBcoroutine\fR accumulator apply {{} {
+ set x 0
+ while 1 {
+ incr x [\fByield\fR $x]
+ }
+}}
+for {set i 0} {$i < 10} {incr i} {
+ puts "$i -> [\fIaccumulator\fR $i]"
+}
+.CE
+.PP
+This example demonstrates the use of coroutines to implement the classic Sieve
+of Eratosthenes algorithm for finding prime numbers. Note the creation of
+coroutines inside a coroutine.
+.PP
+.CS
+proc filterByFactor {source n} {
+ \fByield\fR [info coroutine]
+ while 1 {
+ set x [\fI$source\fR]
+ if {$x % $n} {
+ \fByield\fR $x
+ }
+ }
+}
+\fBcoroutine\fR allNumbers apply {{} {while 1 {\fByield\fR [incr x]}}}
+\fBcoroutine\fR eratosthenes apply {c {
+ \fByield\fR
+ while 1 {
+ set n [\fI$c\fR]
+ \fByield\fR $n
+ set c [\fBcoroutine\fR prime$n filterByFactor $c $n]
+ }
+}} allNumbers
+for {set i 1} {$i <= 20} {incr i} {
+ puts "prime#$i = [\fIeratosthenes\fR]"
+}
+.CE
+.PP
+.VS TIP396
+This example shows how a value can be passed around a group of three
+coroutines that yield to each other:
+.PP
+.CS
+proc juggler {name target {value ""}} {
+ if {$value eq ""} {
+ set value [\fByield\fR [info coroutine]]
+ }
+ while {$value ne ""} {
+ puts "$name : $value"
+ set value [string range $value 0 end-1]
+ lassign [\fByieldto\fR $target $value] value
+ }
+}
+\fBcoroutine\fR j1 juggler Larry [
+ \fBcoroutine\fR j2 juggler Curly [
+ \fBcoroutine\fR j3 juggler Moe j1]] "Nyuck!Nyuck!Nyuck!"
+.CE
+.VE TIP396
+.SS "DETAILED SEMANTICS"
+.PP
+This example demonstrates that coroutines start from the global namespace, and
+that \fIcommand\fR resolution happens before the coroutine stack is created.
+.PP
+.CS
+proc report {where level} {
+ # Where was the caller called from?
+ set ns [uplevel 2 {namespace current}]
+ \fByield\fR "made $where $level context=$ns name=[info coroutine]"
+}
+proc example {} {
+ report outer [info level]
+}
+namespace eval demo {
+ proc example {} {
+ report inner [info level]
+ }
+ proc makeExample {} {
+ puts "making from [info level]"
+ puts [\fBcoroutine\fR coroEg example]
+ }
+ makeExample
+}
+.CE
+.PP
+Which produces the output below. In particular, we can see that stack
+manipulation has occurred (comparing the levels from the first and second
+line) and that the parent level in the coroutine is the global namespace. We
+can also see that coroutine names are local to the current namespace if not
+qualified, and that coroutines may yield at depth (e.g., in called
+procedures).
+.PP
+.CS
+making from 2
+made inner 1 context=:: name=::demo::coroEg
+.CE
+.SH "SEE ALSO"
+apply(n), info(n), proc(n), return(n)
+.SH KEYWORDS
+coroutine, generator
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/dde.n b/doc/dde.n
index 2e3c883..3fe0f87 100644
--- a/doc/dde.n
+++ b/doc/dde.n
@@ -6,20 +6,22 @@
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
-.TH dde n 1.3 dde "Tcl Bundled Packages"
+.TH dde n 1.4 dde "Tcl Bundled Packages"
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
dde \- Execute a Dynamic Data Exchange command
.SH SYNOPSIS
.sp
-\fBpackage require dde 1.3\fR
+\fBpackage require dde 1.4\fR
.sp
\fBdde servername\fR ?\fB\-force\fR? ?\fB\-handler \fIproc\fR? ?\fB\-\|\-\fR? ?\fItopic\fR?
.sp
-\fBdde execute\fR ?\fB\-async\fR? \fIservice topic data\fR
+.VS 8.6
+\fBdde execute\fR ?\fB\-async\fR? ?\fB\-binary\fR? \fIservice topic data\fR
.sp
-\fBdde poke\fR \fIservice topic item data\fR
+\fBdde poke\fR ?\fB\-binary\fR? \fIservice topic item data\fR
+.VE 8.6
.sp
\fBdde request\fR ?\fB\-binary\fR? \fIservice topic item\fR
.sp
@@ -69,7 +71,7 @@ procedure is called with all the arguments provided by the remote
call.
.RE
.TP
-\fBdde execute\fR ?\fB\-async\fR? \fIservice topic data\fR
+\fBdde execute\fR ?\fB\-async\fR? ?\fB\-binary\fR? \fIservice topic data\fR
.
\fBdde execute\fR takes the \fIdata\fR and sends it to the server indicated
by \fIservice\fR with the topic indicated by \fItopic\fR. Typically,
@@ -80,8 +82,15 @@ script is run in the application. The \fB\-async\fR option requests
asynchronous invocation. The command returns an error message if the
script did not run, unless the \fB\-async\fR flag was used, in which case
the command returns immediately with no error.
+.VS 8.6
+Without the \fB\-binary\fR option all data will be sent in unicode. For
+dde clients which don't implement the CF_UNICODE clipboard format, this
+will automatically be translated to the system encoding. You can use
+the \fB\-binary\fR option in combination with the result of
+\fBencoding convertto\fR to send data in any other encoding.
+.VE 8.6
.TP
-\fBdde poke \fIservice topic item data\fR
+\fBdde poke\fR ?\fB\-binary\fR? \fIservice topic item data\fR
.
\fBdde poke\fR passes the \fIdata\fR to the server indicated by
\fIservice\fR using the \fItopic\fR and \fIitem\fR specified. Typically,
@@ -90,6 +99,13 @@ specific but can be a command to the server or the name of a file to work
on. The \fIitem\fR is also application specific and is often not used, but
it must always be non-null. The \fIdata\fR field is given to the remote
application.
+.VS 8.6
+Without the \fB\-binary\fR option all data will be sent in unicode. For
+dde clients which don't implement the CF_UNICODE clipboard format, this
+will automatically be translated to the system encoding. You can use
+the \fB\-binary\fR option in combination with the result of
+\fBencoding convertto\fR to send data in any other encoding.
+.VE 8.6
.TP
\fBdde request\fR ?\fB\-binary\fR? \fIservice topic item\fR
.
@@ -123,6 +139,7 @@ command returns an error message if the script did not run, unless the
\fB\-async\fR flag was used, in which case the command returns immediately
with no error. This command can be used to replace send on Windows.
.SH "DDE AND TCL"
+.PP
A Tcl interpreter always has a service name of \fBTclEval\fR. Each
different interpreter of all running Tcl applications must be
given a unique
@@ -155,8 +172,10 @@ If for any reason the event queue is not flushed, DDE commands may
hang until the event queue is flushed. This can create a deadlock
situation.
.SH EXAMPLE
+.PP
This asks Internet Explorer (which must already be running) to go to a
particularly important website:
+.PP
.CS
package require dde
\fBdde execute\fR -async iexplore WWW_OpenURL http://www.tcl.tk/
@@ -165,3 +184,6 @@ package require dde
tk(n), winfo(n), send(n)
.SH KEYWORDS
application, dde, name, remote execution
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/define.n b/doc/define.n
new file mode 100644
index 0000000..1c36ca3
--- /dev/null
+++ b/doc/define.n
@@ -0,0 +1,404 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH define n 0.3 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+oo::define, oo::objdefine \- define and configure classes and objects
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBoo::define\fI class defScript\fR
+\fBoo::define\fI class subcommand arg\fR ?\fIarg ...\fR?
+\fBoo::objdefine\fI object defScript\fR
+\fBoo::objdefine\fI object subcommand arg\fR ?\fIarg ...\fR?
+.fi
+.BE
+
+.SH DESCRIPTION
+The \fBoo::define\fR command is used to control the configuration of classes,
+and the \fBoo::objdefine\fR command is used to control the configuration of
+objects (including classes as instance objects), with the configuration being
+applied to the entity named in the \fIclass\fR or the \fIobject\fR argument.
+Configuring a class also updates the
+configuration of all subclasses of the class and all objects that are
+instances of that class or which mix it in (as modified by any per-instance
+configuration). The way in which the configuration is done is controlled by
+either the \fIdefScript\fR argument or by the \fIsubcommand\fR and following
+\fIarg\fR arguments; when the second is present, it is exactly as if all the
+arguments from \fIsubcommand\fR onwards are made into a list and that list is
+used as the \fIdefScript\fR argument.
+.SS "CONFIGURING CLASSES"
+.PP
+The following commands are supported in the \fIdefScript\fR for
+\fBoo::define\fR, each of which may also be used in the \fIsubcommand\fR form:
+.TP
+\fBconstructor\fI argList bodyScript\fR
+.
+This creates or updates the constructor for a class. The formal arguments to
+the constructor (defined using the same format as for the Tcl \fBproc\fR
+command) will be \fIargList\fR, and the body of the constructor will be
+\fIbodyScript\fR. When the body of the constructor is evaluated, the current
+namespace of the constructor will be a namespace that is unique to the object
+being constructed. Within the constructor, the \fBnext\fR command should be
+used to call the superclasses' constructors. If \fIbodyScript\fR is the empty
+string, the constructor will be deleted.
+.TP
+\fBdeletemethod\fI name\fR ?\fIname ...\fR
+.
+This deletes each of the methods called \fIname\fR from a class. The methods
+must have previously existed in that class. Does not affect the superclasses
+of the class, nor does it affect the subclasses or instances of the class
+(except when they have a call chain through the class being modified).
+.TP
+\fBdestructor\fI bodyScript\fR
+.
+This creates or updates the destructor for a class. Destructors take no
+arguments, and the body of the destructor will be \fIbodyScript\fR. The
+destructor is called when objects of the class are deleted, and when called
+will have the object's unique namespace as the current namespace. Destructors
+should use the \fBnext\fR command to call the superclasses' destructors. Note
+that destructors are not called in all situations (e.g. if the interpreter is
+destroyed). If \fIbodyScript\fR is the empty string, the destructor will be
+deleted.
+.RS
+Note that errors during the evaluation of a destructor \fIare not returned\fR
+to the code that causes the destruction of an object. Instead, they are passed
+to the currently-defined \fBbgerror\fR handler.
+.RE
+.TP
+\fBexport\fI name \fR?\fIname ...\fR?
+.
+This arranges for each of the named methods, \fIname\fR, to be exported
+(i.e. usable outside an instance through the instance object's command) by the
+class being defined. Note that the methods themselves may be actually defined
+by a superclass; subclass exports override superclass visibility, and may in
+turn be overridden by instances.
+.TP
+\fBfilter\fR ?\fI\-slotOperation\fR? ?\fImethodName ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below)
+.VE
+sets or updates the list of method names that are used to guard whether
+method call to instances of the class may be called and what the method's
+results are. Each \fImethodName\fR names a single filtering method (which may
+be exposed or not exposed); it is not an error for a non-existent method to be
+named since they may be defined by subclasses.
+.VS
+By default, this slot works by appending.
+.VE
+.TP
+\fBforward\fI name cmdName \fR?\fIarg ...\fR?
+.
+This creates or updates a forwarded method called \fIname\fR. The method is
+defined be forwarded to the command called \fIcmdName\fR, with additional
+arguments, \fIarg\fR etc., added before those arguments specified by the
+caller of the method. The \fIcmdName\fR will always be resolved using the
+rules of the invoking objects' namespaces, i.e., when \fIcmdName\fR is not
+fully-qualified, the command will be searched for in each object's namespace,
+using the instances' namespace's path, or by looking in the global namespace.
+The method will be exported if \fIname\fR starts with a lower-case letter, and
+non-exported otherwise.
+.TP
+\fBmethod\fI name argList bodyScript\fR
+.
+This creates or updates a method that is implemented as a procedure-like
+script. The name of the method is \fIname\fR, the formal arguments to the
+method (defined using the same format as for the Tcl \fBproc\fR command) will
+be \fIargList\fR, and the body of the method will be \fIbodyScript\fR. When
+the body of the method is evaluated, the current namespace of the method will
+be a namespace that is unique to the current object. The method will be
+exported if \fIname\fR starts with a lower-case letter, and non-exported
+otherwise; this behavior can be overridden via \fBexport\fR and
+\fBunexport\fR.
+.TP
+\fBmixin\fR ?\fI\-slotOperation\fR? ?\fIclassName ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below)
+.VE
+sets or updates the list of additional classes that are to be mixed into
+all the instances of the class being defined. Each \fIclassName\fR argument
+names a single class that is to be mixed in.
+.VS
+By default, this slot works by replacement.
+.VE
+.TP
+\fBrenamemethod\fI fromName toName\fR
+.
+This renames the method called \fIfromName\fR in a class to \fItoName\fR. The
+method must have previously existed in the class, and \fItoName\fR must not
+previously refer to a method in that class. Does not affect the superclasses
+of the class, nor does it affect the subclasses or instances of the class
+(except when they have a call chain through the class being modified). Does
+not change the export status of the method; if it was exported before, it will
+be afterwards.
+.TP
+\fBself\fI subcommand arg ...\fR
+.TP
+\fBself\fI script\fR
+.
+This command is equivalent to calling \fBoo::objdefine\fR on the class being
+defined (see \fBCONFIGURING OBJECTS\fR below for a description of the
+supported values of \fIsubcommand\fR). It follows the same general pattern of
+argument handling as the \fBoo::define\fR and \fBoo::objdefine\fR commands,
+and
+.QW "\fBoo::define \fIcls \fBself \fIsubcommand ...\fR"
+operates identically to
+.QW "\fBoo::objdefine \fIcls subcommand ...\fR" .
+.TP
+\fBsuperclass\fR ?\fI\-slotOperation\fR? ?\fIclassName ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below)
+.VE
+allows the alteration of the superclasses of the class being defined.
+Each \fIclassName\fR argument names one class that is to be a superclass of
+the defined class. Note that objects must not be changed from being classes to
+being non-classes or vice-versa, that an empty parent class is equivalent to
+\fBoo::object\fR, and that the parent classes of \fBoo::object\fR and
+\fBoo::class\fR may not be modified.
+.VS
+By default, this slot works by replacement.
+.VE
+.TP
+\fBunexport\fI name \fR?\fIname ...\fR?
+.
+This arranges for each of the named methods, \fIname\fR, to be not exported
+(i.e. not usable outside the instance through the instance object's command,
+but instead just through the \fBmy\fR command visible in each object's
+context) by the class being defined. Note that the methods themselves may be
+actually defined by a superclass; subclass unexports override superclass
+visibility, and may be overridden by instance unexports.
+.TP
+\fBvariable\fR ?\fI\-slotOperation\fR? ?\fIname ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below) arranges for each of the named
+variables to be automatically made
+available in the methods, constructor and destructor declared by the class
+being defined. Each variable name must not have any namespace
+separators and must not look like an array access. All variables will be
+actually present in the instance object on which the method is executed. Note
+that the variable lists declared by a superclass or subclass are completely
+disjoint, as are variable lists declared by instances; the list of variable
+names is just for methods (and constructors and destructors) declared by this
+class. By default, this slot works by appending.
+.VE
+.SS "CONFIGURING OBJECTS"
+.PP
+The following commands are supported in the \fIdefScript\fR for
+\fBoo::objdefine\fR, each of which may also be used in the \fIsubcommand\fR
+form:
+.TP
+\fBclass\fI className\fR
+.
+This allows the class of an object to be changed after creation. Note that the
+class's constructors are not called when this is done, and so the object may
+well be in an inconsistent state unless additional configuration work is done.
+.TP
+\fBdeletemethod\fI name\fR ?\fIname ...\fR
+.
+This deletes each of the methods called \fIname\fR from an object. The methods
+must have previously existed in that object. Does not affect the classes that
+the object is an instance of.
+.TP
+\fBexport\fI name \fR?\fIname ...\fR?
+.
+This arranges for each of the named methods, \fIname\fR, to be exported
+(i.e. usable outside the object through the object's command) by the object
+being defined. Note that the methods themselves may be actually defined by a
+class or superclass; object exports override class visibility.
+.TP
+\fBfilter\fR ?\fI\-slotOperation\fR? ?\fImethodName ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below)
+.VE
+sets or updates the list of method names that are used to guard whether a
+method call to the object may be called and what the method's results are.
+Each \fImethodName\fR names a single filtering method (which may be exposed or
+not exposed); it is not an error for a non-existent method to be named. Note
+that the actual list of filters also depends on the filters set upon any
+classes that the object is an instance of.
+.VS
+By default, this slot works by appending.
+.VE
+.TP
+\fBforward\fI name cmdName \fR?\fIarg ...\fR?
+.
+This creates or updates a forwarded object method called \fIname\fR. The
+method is defined be forwarded to the command called \fIcmdName\fR, with
+additional arguments, \fIarg\fR etc., added before those arguments specified
+by the caller of the method. Forwarded methods should be deleted using the
+\fBmethod\fR subcommand. The method will be exported if \fIname\fR starts with
+a lower-case letter, and non-exported otherwise.
+.TP
+\fBmethod\fI name argList bodyScript\fR
+.
+This creates, updates or deletes an object method. The name of the method is
+\fIname\fR, the formal arguments to the method (defined using the same format
+as for the Tcl \fBproc\fR command) will be \fIargList\fR, and the body of the
+method will be \fIbodyScript\fR. When the body of the method is evaluated, the
+current namespace of the method will be a namespace that is unique to the
+object. The method will be exported if \fIname\fR starts with a lower-case
+letter, and non-exported otherwise.
+.TP
+\fBmixin\fR ?\fI\-slotOperation\fR? ?\fIclassName ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below)
+.VE
+sets or updates a per-object list of additional classes that are to be
+mixed into the object. Each argument, \fIclassName\fR, names a single class
+that is to be mixed in.
+.VS
+By default, this slot works by replacement.
+.VE
+.TP
+\fBrenamemethod\fI fromName toName\fR
+.
+This renames the method called \fIfromName\fR in an object to \fItoName\fR.
+The method must have previously existed in the object, and \fItoName\fR must
+not previously refer to a method in that object. Does not affect the classes
+that the object is an instance of. Does not change the export status of the
+method; if it was exported before, it will be afterwards.
+.TP
+\fBunexport\fI name \fR?\fIname ...\fR?
+.
+This arranges for each of the named methods, \fIname\fR, to be not exported
+(i.e. not usable outside the object through the object's command, but instead
+just through the \fBmy\fR command visible in the object's context) by the
+object being defined. Note that the methods themselves may be actually defined
+by a class; instance unexports override class visibility.
+.TP
+\fBvariable\fR ?\fI\-slotOperation\fR? ?\fIname ...\fR?
+.VS
+This slot (see \fBSLOTTED DEFINITIONS\fR below) arranges for each of the named
+variables to be automatically made available in the methods declared by the
+object being defined. Each variable name must not have any namespace
+separators and must not look like an array access. All variables will be
+actually present in the object on which the method is executed. Note that the
+variable lists declared by the classes and mixins of which the object is an
+instance are completely disjoint; the list of variable names is just for
+methods declared by this object. By default, this slot works by appending.
+.SH "SLOTTED DEFINITIONS"
+Some of the configurable definitions of a class or object are \fIslotted
+definitions\fR. This means that the configuration is implemented by a slot
+object, that is an instance of the class \fBoo::Slot\fR, which manages a list
+of values (class names, variable names, etc.) that comprises the contents of
+the slot. The class defines three operations (as methods) that may be done on
+the slot:
+.VE
+.TP
+\fIslot\fR \fB\-append\fR ?\fImember ...\fR?
+.VS
+This appends the given \fImember\fR elements to the slot definition.
+.VE
+.TP
+\fIslot\fR \fB\-clear\fR
+.VS
+This sets the slot definition to the empty list.
+.VE
+.TP
+\fIslot\fR \fB\-set\fR ?\fImember ...\fR?
+.VS
+This replaces the slot definition with the given \fImember\fR elements.
+.PP
+A consequence of this is that any use of a slot's default operation where the
+first member argument begins with a hyphen will be an error. One of the above
+operations should be used explicitly in those circumstances.
+.SS "SLOT IMPLEMENTATION"
+Internally, slot objects also define a method \fB\-\-default\-operation\fR
+which is forwarded to the default operation of the slot (thus, for the class
+.QW \fBvariable\fR
+slot, this is forwarded to
+.QW "\fBmy \-append\fR" ),
+and these methods which provide the implementation interface:
+.VE
+.TP
+\fIslot\fR \fBGet\fR
+.VS
+Returns a list that is the current contents of the slot. This method must
+always be called from a stack frame created by a call to \fBoo::define\fR or
+\fBoo::objdefine\fR.
+.VE
+.TP
+\fIslot\fR \fBSet \fIelementList\fR
+.VS
+Sets the contents of the slot to the list \fIelementList\fR and returns the
+empty string. This method must always be called from a stack frame created by
+a call to \fBoo::define\fR or \fBoo::objdefine\fR.
+.PP
+The implementation of these methods is slot-dependent (and responsible for
+accessing the correct part of the class or object definition). Slots also have
+an unknown method handler to tie all these pieces together, and they hide
+their \fBdestroy\fR method so that it is not invoked inadvertently. It is
+\fIrecommended\fR that any user changes to the slot mechanism be restricted to
+defining new operations whose names start with a hyphen.
+.VE
+.SH EXAMPLES
+This example demonstrates how to use both forms of the \fBoo::define\fR and
+\fBoo::objdefine\fR commands (they work in the same way), as well as
+illustrating four of the subcommands of them.
+.PP
+.CS
+oo::class create c
+c create o
+\fBoo::define\fR c \fBmethod\fR foo {} {
+ puts "world"
+}
+\fBoo::objdefine\fR o {
+ \fBmethod\fR bar {} {
+ my Foo "hello "
+ my foo
+ }
+ \fBforward\fR Foo ::puts -nonewline
+ \fBunexport\fR foo
+}
+o bar \fI\(-> prints "hello world"\fR
+o foo \fI\(-> error "unknown method foo"\fR
+o Foo Bar \fI\(-> error "unknown method Foo"\fR
+\fBoo::objdefine\fR o \fBrenamemethod\fR bar lollipop
+o lollipop \fI\(-> prints "hello world"\fR
+.CE
+.PP
+This example shows how additional classes can be mixed into an object. It also
+shows how \fBmixin\fR is a slot that supports appending:
+.PP
+.CS
+oo::object create inst
+inst m1 \fI\(-> error "unknown method m1"\fR
+inst m2 \fI\(-> error "unknown method m2"\fR
+
+oo::class create A {
+ \fBmethod\fR m1 {} {
+ puts "red brick"
+ }
+}
+\fBoo::objdefine\fR inst {
+ \fBmixin\fR A
+}
+inst m1 \fI\(-> prints "red brick"\fR
+inst m2 \fI\(-> error "unknown method m2"\fR
+
+oo::class create B {
+ \fBmethod\fR m2 {} {
+ puts "blue brick"
+ }
+}
+\fBoo::objdefine\fR inst {
+ \fBmixin -append\fR B
+}
+inst m1 \fI\(-> prints "red brick"\fR
+inst m2 \fI\(-> prints "blue brick"\fR
+.CE
+.SH "SEE ALSO"
+next(n), oo::class(n), oo::object(n)
+.SH KEYWORDS
+class, definition, method, object, slot
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/dict.n b/doc/dict.n
index 28c4f7c..c014448 100644
--- a/doc/dict.n
+++ b/doc/dict.n
@@ -21,33 +21,40 @@ below for a description), depending on \fIoption\fR. The legal
\fIoption\fRs (which may be abbreviated) are:
.TP
\fBdict append \fIdictionaryVariable key \fR?\fIstring ...\fR?
+.
This appends the given string (or strings) to the value that the given
key maps to in the dictionary value contained in the given variable,
writing the resulting dictionary value back to that variable.
Non-existent keys are treated as if they map to an empty string.
.TP
\fBdict create \fR?\fIkey value ...\fR?
+.
Create a new dictionary that contains each of the key/value mappings
listed as arguments (keys and values alternating, with each key being
followed by its associated value.)
.TP
\fBdict exists \fIdictionaryValue key \fR?\fIkey ...\fR?
+.
This returns a boolean value indicating whether the given key (or path
of keys through a set of nested dictionaries) exists in the given
dictionary value. This returns a true value exactly when \fBdict
get\fR on that path will succeed.
.TP
\fBdict filter \fIdictionaryValue filterType arg \fR?\fIarg ...\fR?
+.
This takes a dictionary value and returns a new dictionary that
contains just those key/value pairs that match the specified filter
type (which may be abbreviated.) Supported filter types are:
.RS
.TP
-\fBdict filter \fIdictionaryValue \fBkey \fIglobPattern\fR
-The key rule only matches those key/value pairs whose keys match the
-given pattern (in the style of \fBstring match\fR.)
+\fBdict filter \fIdictionaryValue \fBkey\fR ?\fIglobPattern ...\fR?
+.VS 8.6
+The key rule only matches those key/value pairs whose keys match any
+of the given patterns (in the style of \fBstring match\fR.)
+.VE 8.6
.TP
\fBdict filter \fIdictionaryValue \fBscript {\fIkeyVar valueVar\fB} \fIscript\fR
+.
The script rule tests for matching by assigning the key to the
\fIkeyVar\fR and the value to the \fIvalueVar\fR, and then evaluating
the given script which should return a boolean value (with the
@@ -60,12 +67,15 @@ dictionary, and a condition of \fBTCL_CONTINUE\fR is equivalent to a false
result. The key/value pairs are tested in the order in which the keys
were inserted into the dictionary.
.TP
-\fBdict filter \fIdictionaryValue \fBvalue \fIglobPattern\fR
-The value rule only matches those key/value pairs whose values match
-the given pattern (in the style of \fBstring match\fR.)
+\fBdict filter \fIdictionaryValue \fBvalue \fR?\fIglobPattern ...\fR?
+.VS 8.6
+The value rule only matches those key/value pairs whose values match any
+of the given patterns (in the style of \fBstring match\fR.)
+.VE 8.6
.RE
.TP
\fBdict for {\fIkeyVar valueVar\fB} \fIdictionaryValue body\fR
+.
This command takes three arguments, the first a two-element list of
variable names (for the key and value respectively of each mapping in
the dictionary), the second the dictionary value to iterate across,
@@ -80,6 +90,7 @@ normal \fBTCL_OK\fR result. The order of iteration is the order in
which the keys were inserted into the dictionary.
.TP
\fBdict get \fIdictionaryValue \fR?\fIkey ...\fR?
+.
Given a dictionary value (first argument) and a key (second argument),
this will retrieve the value for that key. Where several keys are
supplied, the behaviour of the command shall be as if the result of
@@ -104,6 +115,7 @@ present in the dictionary.
.RE
.TP
\fBdict incr \fIdictionaryVariable key \fR?\fIincrement\fR?
+.
This adds the given increment value (an integer that defaults to 1 if
not specified) to the value that the given key maps to in the
dictionary value contained in the given variable, writing the
@@ -112,6 +124,7 @@ are treated as if they map to 0. It is an error to increment a value
for an existing key if that value is not an integer.
.TP
\fBdict info \fIdictionaryValue\fR
+.
This returns information (intended for display to people) about the
given dictionary though the format of this data is dependent on the
implementation of the dictionary. For dictionaries that are
@@ -119,12 +132,14 @@ implemented by hash tables, it is expected that this will return the
string produced by \fBTcl_HashStats\fR, similar to \fBarray statistics\fR.
.TP
\fBdict keys \fIdictionaryValue \fR?\fIglobPattern\fR?
+.
Return a list of all keys in the given dictionary value. If a pattern
is supplied, only those keys that match it (according to the rules of
\fBstring match\fR) will be returned. The returned keys will be in the
order that they were inserted into the dictionary.
.TP
\fBdict lappend \fIdictionaryVariable key \fR?\fIvalue ...\fR?
+.
This appends the given items to the list value that the given key maps
to in the dictionary value contained in the given variable, writing
the resulting dictionary value back to that variable. Non-existent
@@ -132,7 +147,33 @@ keys are treated as if they map to an empty list, and it is legal for
there to be no items to append to the list. It is an error for the
value that the key maps to to not be representable as a list.
.TP
+\fBdict map \fR{\fIkeyVar valueVar\fR} \fIdictionaryValue body\fR
+.
+This command applies a transformation to each element of a dictionary,
+returning a new dictionary. It takes three arguments: the first is a
+two-element list of variable names (for the key and value respectively of each
+mapping in the dictionary), the second the dictionary value to iterate across,
+and the third a script to be evaluated for each mapping with the key and value
+variables set appropriately (in the manner of \fBlmap\fR). In an iteration
+where the evaluated script completes normally (\fBTCL_OK\fR, as opposed to an
+\fBerror\fR, etc.) the result of the script is put into an accumulator
+dictionary using the key that is the current contents of the \fIkeyVar\fR
+variable at that point. The result of the \fBdict map\fR command is the
+accumulator dictionary after all keys have been iterated over.
+.RS
+.PP
+If the evaluation of the body for any particular step generates a \fBbreak\fR,
+no further pairs from the dictionary will be iterated over and the \fBdict
+map\fR command will terminate successfully immediately. If the evaluation of
+the body for a particular step generates a \fBcontinue\fR result, the current
+iteration is aborted and the accumulator dictionary is not modified. The order
+of iteration is the natural order of the dictionary (typically the order in
+which the keys were added to the dictionary; the order is the same as that
+used in \fBdict for\fR).
+.RE
+.TP
\fBdict merge \fR?\fIdictionaryValue ...\fR?
+.
Return a dictionary that contains the contents of each of the
\fIdictionaryValue\fR arguments. Where two (or more) dictionaries
contain a mapping for the same key, the resulting dictionary maps that
@@ -140,6 +181,7 @@ key to the value according to the last dictionary on the command line
containing a mapping for that key.
.TP
\fBdict remove \fIdictionaryValue \fR?\fIkey ...\fR?
+.
Return a new dictionary that is a copy of an old one passed in as
first argument except without mappings for each of the keys listed.
It is legal for there to be no keys to remove, and it also legal for
@@ -147,6 +189,7 @@ any of the keys to be removed to not be present in the input
dictionary in the first place.
.TP
\fBdict replace \fIdictionaryValue \fR?\fIkey value ...\fR?
+.
Return a new dictionary that is a copy of an old one passed in as
first argument except with some values different or some extra
key/value pairs added. It is legal for this command to be called with
@@ -154,6 +197,7 @@ no key/value pairs, but illegal for this command to be called with a
key but no value.
.TP
\fBdict set \fIdictionaryVariable key \fR?\fIkey ...\fR? \fIvalue\fR
+.
This operation takes the name of a variable containing a dictionary
value and places an updated dictionary value in that variable
containing a mapping from the given key to the given value. When
@@ -161,9 +205,11 @@ multiple keys are present, this operation creates or updates a chain
of nested dictionaries.
.TP
\fBdict size \fIdictionaryValue\fR
+.
Return the number of key/value mappings in the given dictionary value.
.TP
\fBdict unset \fIdictionaryVariable key \fR?\fIkey ...\fR?
+.
This operation (the companion to \fBdict set\fR) takes the name of a
variable containing a dictionary value and places an updated
dictionary value in that variable that does not contain a mapping for
@@ -173,6 +219,7 @@ must be specified, but the last key on the key-path need not exist.
All other components on the path must exist.
.TP
\fBdict update \fIdictionaryVariable key varName \fR?\fIkey varName ...\fR? \fIbody\fR
+.
Execute the Tcl script in \fIbody\fR with the value for each \fIkey\fR
(as found by reading the dictionary value in \fIdictionaryVariable\fR)
mapped to the variable \fIvarName\fR. There may be multiple
@@ -189,7 +236,7 @@ evaluation of \fIbody\fR.
.PP
Each \fIvarName\fR is mapped in the scope enclosing the \fBdict update\fR;
it is recommended that this command only be used in a local scope
-(\fBproc\fRedure or lambda term for \fBapply\fR). Because of
+(\fBproc\fRedure, lambda term for \fBapply\fR, or method). Because of
this, the variables set by \fBdict update\fR will continue to
exist after the command finishes (unless explicitly \fBunset\fR).
Note that the mapping of values to variables
@@ -198,6 +245,7 @@ contents only happen when \fIbody\fR terminates.
.RE
.TP
\fBdict values \fIdictionaryValue \fR?\fIglobPattern\fR?
+.
Return a list of all values in the given dictionary value. If a
pattern is supplied, only those values that match it (according to the
rules of \fBstring match\fR) will be returned. The returned values
@@ -205,6 +253,7 @@ will be in the order of that the keys associated with those values
were inserted into the dictionary.
.TP
\fBdict with \fIdictionaryVariable \fR?\fIkey ...\fR? \fIbody\fR
+.
Execute the Tcl script in \fIbody\fR with the value for each key in
\fIdictionaryVariable\fR mapped (in a manner similarly to \fBdict
update\fR) to a variable with the same name. Where one or more
@@ -221,7 +270,7 @@ dictionaries no longer exists. The result of \fBdict with\fR is
.PP
The variables are mapped in the scope enclosing the \fBdict with\fR;
it is recommended that this command only be used in a local scope
-(\fBproc\fRedure or lambda term for \fBapply\fR). Because of
+(\fBproc\fRedure, lambda term for \fBapply\fR, or method). Because of
this, the variables set by \fBdict with\fR will continue to
exist after the command finishes (unless explicitly \fBunset\fR).
Note that the mapping of values to variables does not use
@@ -311,16 +360,16 @@ Constructing and using nested dictionaries:
set i 0
puts "There are [\fBdict size\fR $employeeInfo] employees"
\fBdict for\fR {id info} $employeeInfo {
- puts "Employee #[incr i]: $id"
- \fBdict with\fR info {
- puts " Name: $forenames $surname"
- puts " Address: $street, $city"
- puts " Telephone: $phone"
- }
+ puts "Employee #[incr i]: $id"
+ \fBdict with\fR info {
+ puts " Name: $forenames $surname"
+ puts " Address: $street, $city"
+ puts " Telephone: $phone"
+ }
}
# Another way to iterate and pick out names...
foreach id [\fBdict keys\fR $employeeInfo] {
- puts "Hello, [\fBdict get\fR $employeeInfo $id forenames]!"
+ puts "Hello, [\fBdict get\fR $employeeInfo $id forenames]!"
}
.CE
.PP
@@ -330,7 +379,7 @@ A localizable version of \fBstring toupper\fR:
# Set up the basic C locale
set capital [\fBdict create\fR C [\fBdict create\fR]]
foreach c [split {abcdefghijklmnopqrstuvwxyz} ""] {
- \fBdict set\fR capital C $c [string toupper $c]
+ \fBdict set\fR capital C $c [string toupper $c]
}
# English locales can luckily share the "C" locale
@@ -349,22 +398,22 @@ Showing the detail of \fBdict with\fR:
.PP
.CS
proc sumDictionary {varName} {
- upvar 1 $varName vbl
- foreach key [\fBdict keys\fR $vbl] {
- # Manufacture an entry in the subdictionary
- \fBdict set\fR vbl $key total 0
- # Add the values and remove the old
- \fBdict with\fR vbl $key {
- set total [expr {$x + $y + $z}]
- unset x y z
- }
- }
- puts "last total was $total, for key $key"
+ upvar 1 $varName vbl
+ foreach key [\fBdict keys\fR $vbl] {
+ # Manufacture an entry in the subdictionary
+ \fBdict set\fR vbl $key total 0
+ # Add the values and remove the old
+ \fBdict with\fR vbl $key {
+ set total [expr {$x + $y + $z}]
+ unset x y z
+ }
+ }
+ puts "last total was $total, for key $key"
}
set myDict {
- a {x 1 y 2 z 3}
- b {x 6 y 5 z 4}
+ a {x 1 y 2 z 3}
+ b {x 6 y 5 z 4}
}
sumDictionary myDict
@@ -384,6 +433,9 @@ puts $foo
# prints: \fIa b foo {a b} bar 2 baz 3\fR
.CE
.SH "SEE ALSO"
-append(n), array(n), foreach(n), incr(n), list(n), lappend(n), set(n)
+append(n), array(n), foreach(n), mapeach(n), incr(n), list(n), lappend(n), set(n)
.SH KEYWORDS
-dictionary, create, update, lookup, iterate, filter
+dictionary, create, update, lookup, iterate, filter, map
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/encoding.n b/doc/encoding.n
index f8f3d54..5269a18 100644
--- a/doc/encoding.n
+++ b/doc/encoding.n
@@ -12,7 +12,6 @@ encoding \- Manipulate encodings
.SH SYNOPSIS
\fBencoding \fIoption\fR ?\fIarg arg ...\fR?
.BE
-
.SH INTRODUCTION
.PP
Strings in Tcl are encoded using 16-bit Unicode characters. Different
@@ -25,6 +24,7 @@ Performs one of several encoding related operations, depending on
\fIoption\fR. The legal \fIoption\fRs are:
.TP
\fBencoding convertfrom\fR ?\fIencoding\fR? \fIdata\fR
+.
Convert \fIdata\fR to Unicode from the specified \fIencoding\fR. The
characters in \fIdata\fR are treated as binary data where the lower
8-bits of each character is taken as a single byte. The resulting
@@ -33,6 +33,7 @@ sequence of bytes is treated as a string in the specified
system encoding is used.
.TP
\fBencoding convertto\fR ?\fIencoding\fR? \fIstring\fR
+.
Convert \fIstring\fR from Unicode to the specified \fIencoding\fR.
The result is a sequence of bytes that represents the converted
string. Each byte is stored in the lower 8-bits of a Unicode
@@ -40,7 +41,7 @@ character. If \fIencoding\fR is not specified, the current
system encoding is used.
.TP
\fBencoding dirs\fR ?\fIdirectoryList\fR?
-.VS 8.5
+.
Tcl can load encoding data files from the file system that describe
additional encodings for it to work with. This command sets the search
path for \fB*.enc\fR encoding data files to the list of directories
@@ -50,13 +51,14 @@ search path. It is an error for \fIdirectoryList\fR to not be a valid
list. If, when a search for an encoding data file is happening, an
element in \fIdirectoryList\fR does not refer to a readable,
searchable directory, that element is ignored.
-.VE 8.5
.TP
\fBencoding names\fR
+.
Returns a list containing the names of all of the encodings that are
currently available.
.TP
\fBencoding system\fR ?\fIencoding\fR?
+.
Set the system encoding to \fIencoding\fR. If \fIencoding\fR is
omitted then the command returns the current system encoding. The
system encoding is used whenever Tcl passes strings to system calls.
@@ -79,15 +81,15 @@ contain a sequence of Latin-1 characters that correspond to the bytes
of the original string. The \fBencoding\fR command can be used to
convert this string to the expected Japanese Unicode characters. For
example,
+.PP
.CS
set s [\fBencoding convertfrom\fR euc-jp "\exA4\exCF"]
.CE
+.PP
would return the Unicode string
.QW "\eu306F" ,
which is the Hiragana letter HA.
-
.SH "SEE ALSO"
Tcl_GetEncoding(3)
-
.SH KEYWORDS
-encoding
+encoding, unicode
diff --git a/doc/eof.n b/doc/eof.n
index 14cf8f9..017b10e 100644
--- a/doc/eof.n
+++ b/doc/eof.n
@@ -14,7 +14,6 @@ eof \- Check for end of file condition on channel
.SH SYNOPSIS
\fBeof \fIchannelId\fR
.BE
-
.SH DESCRIPTION
.PP
Returns 1 if an end of file condition occurred during the most
@@ -26,7 +25,9 @@ Tcl standard channel (\fBstdin\fR, \fBstdout\fR, or \fBstderr\fR),
the return value from an invocation of \fBopen\fR or \fBsocket\fR, or
the result of a channel creation command provided by a Tcl extension.
.SH EXAMPLES
+.PP
Read and print out the contents of a file line-by-line:
+.PP
.CS
set f [open somefile.txt]
while {1} {
@@ -40,6 +41,7 @@ while {1} {
.CE
.PP
Read and print out the contents of a file by fixed-size records:
+.PP
.CS
set f [open somefile.dat]
fconfigure $f -translation binary
@@ -53,9 +55,7 @@ while {1} {
puts "Read record: $record"
}
.CE
-
.SH "SEE ALSO"
file(n), open(n), close(n), fblocked(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
channel, end of file
diff --git a/doc/error.n b/doc/error.n
index 77391e5..d61bd7b 100644
--- a/doc/error.n
+++ b/doc/error.n
@@ -37,18 +37,21 @@ with the \fBcatch\fR command:
if a caught error cannot be handled successfully, \fIinfo\fR can be used
to return a stack trace reflecting the original point of occurrence
of the error:
+.PP
.CS
-\fBcatch {...} errMsg
+catch {...} errMsg
set savedInfo $::errorInfo
\&...
-error $errMsg $savedInfo\fR
+\fBerror\fR $errMsg $savedInfo
.CE
+.PP
When working with Tcl 8.5 or later, the following code
should be used instead:
+.PP
.CS
-\fBcatch {...} errMsg options
+catch {...} errMsg options
\&...
-return -options $options $errMsg\fR
+return -options $options $errMsg
.CE
.PP
If the \fIcode\fR argument is present, then its value is stored
@@ -58,15 +61,18 @@ of the error in cases where such information is available; see
the \fBreturn\fR manual page for information on the proper format
for this option's value.
.SH EXAMPLE
+.PP
Generate an error if a basic mathematical operation fails:
+.PP
.CS
if {1+2 != 3} {
\fBerror\fR "something is very wrong with addition"
}
.CE
-
.SH "SEE ALSO"
catch(n), return(n)
-
.SH KEYWORDS
-error
+error, exception
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/eval.n b/doc/eval.n
index a642d23..13b54be 100644
--- a/doc/eval.n
+++ b/doc/eval.n
@@ -14,7 +14,6 @@ eval \- Evaluate a Tcl script
.SH SYNOPSIS
\fBeval \fIarg \fR?\fIarg ...\fR?
.BE
-
.SH DESCRIPTION
.PP
\fBEval\fR takes one or more arguments, which together comprise a Tcl
@@ -26,11 +25,13 @@ evaluation (or any error generated by it).
Note that the \fBlist\fR command quotes sequences of words in such a
way that they are not further expanded by the \fBeval\fR command.
.SH EXAMPLES
+.PP
Often, it is useful to store a fragment of a script in a variable and
execute it later on with extra values appended. This technique is used
in a number of places throughout the Tcl core (e.g. in \fBfcopy\fR,
\fBlsort\fR and \fBtrace\fR command callbacks). This example shows how
to do this using core Tcl commands:
+.PP
.CS
set script {
puts "logging now"
@@ -48,35 +49,36 @@ for {set i 0} {$i<10} {incr i} {
}
.CE
.PP
-.VS 8.5
Note that in the most common case (where the script fragment is
actually just a list of words forming a command prefix), it is better
to use \fB{*}$script\fR when doing this sort of invocation
pattern. It is less general than the \fBeval\fR command, and hence
easier to make robust in practice.
-.VE 8.5
The following procedure acts in a way that is analogous to the
\fBlappend\fR command, except it inserts the argument values at the
start of the list in the variable:
+.PP
.CS
proc lprepend {varName args} {
- upvar 1 $varName var
- # Ensure that the variable exists and contains a list
- lappend var
- # Now we insert all the arguments in one go
- set var [\fBeval\fR [list linsert $var 0] $args]
+ upvar 1 $varName var
+ # Ensure that the variable exists and contains a list
+ lappend var
+ # Now we insert all the arguments in one go
+ set var [\fBeval\fR [list linsert $var 0] $args]
}
.CE
-.VS 8.5
+.PP
However, the last line would now normally be written without
\fBeval\fR, like this:
+.PP
.CS
set var [linsert $var 0 {*}$args]
.CE
-.VE 8.5
-
.SH "SEE ALSO"
-catch(n), concat(n), error(n), interp(n), list(n), namespace(n), subst(n), tclvars(n), uplevel(n)
-
+catch(n), concat(n), error(n), errorCode(n), errorInfo(n), interp(n), list(n),
+namespace(n), subst(n), uplevel(n)
.SH KEYWORDS
concatenate, evaluate, script
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/exec.n b/doc/exec.n
index fd4e9cf..5072d61 100644
--- a/doc/exec.n
+++ b/doc/exec.n
@@ -13,9 +13,8 @@
.SH NAME
exec \- Invoke subprocesses
.SH SYNOPSIS
-\fBexec \fR?\fIswitches\fR? \fIarg \fR?\fIarg ...\fR?
+\fBexec \fR?\fIswitches\fR? \fIarg \fR?\fIarg ...\fR? ?\fB&\fR?
.BE
-
.SH DESCRIPTION
.PP
This command treats its arguments as the specification
@@ -30,16 +29,17 @@ of the pipeline specification. The following switches are
currently supported:
.TP 13
\fB\-ignorestderr\fR
-.VS 8.5
+.
Stops the \fBexec\fR command from treating the output of messages to the
pipeline's standard error channel as an error case.
-.VE 8.5
.TP 13
\fB\-keepnewline\fR
+.
Retains a trailing newline in the pipeline's output.
Normally a trailing newline will be deleted.
.TP 13
\fB\-\|\-\fR
+.
Marks the end of switches. The argument following this one will
be treated as the first \fIarg\fR even if it starts with a \fB\-\fR.
.PP
@@ -55,64 +55,77 @@ or in the same argument with no intervening space (i.e.
.QW \fB<\fIfileName\fR ).
.TP 15
\fB|\fR
+.
Separates distinct commands in the pipeline. The standard output
of the preceding command will be piped into the standard input
of the next command.
.TP 15
\fB|&\fR
+.
Separates distinct commands in the pipeline. Both standard output
and standard error of the preceding command will be piped into
the standard input of the next command.
This form of redirection overrides forms such as 2> and >&.
.TP 15
\fB<\0\fIfileName\fR
+.
The file named by \fIfileName\fR is opened and used as the standard
input for the first command in the pipeline.
.TP 15
\fB<@\0\fIfileId\fR
+.
\fIFileId\fR must be the identifier for an open file, such as the return
value from a previous call to \fBopen\fR.
It is used as the standard input for the first command in the pipeline.
\fIFileId\fR must have been opened for reading.
.TP 15
\fB<<\0\fIvalue\fR
+.
\fIValue\fR is passed to the first command as its standard input.
.TP 15
\fB>\0\fIfileName\fR
+.
Standard output from the last command is redirected to the file named
\fIfileName\fR, overwriting its previous contents.
.TP 15
\fB2>\0\fIfileName\fR
+.
Standard error from all commands in the pipeline is redirected to the
file named \fIfileName\fR, overwriting its previous contents.
.TP 15
\fB>&\0\fIfileName\fR
+.
Both standard output from the last command and standard error from all
commands are redirected to the file named \fIfileName\fR, overwriting
its previous contents.
.TP 15
\fB>>\0\fIfileName\fR
+.
Standard output from the last command is
redirected to the file named \fIfileName\fR, appending to it rather
than overwriting it.
.TP 15
\fB2>>\0\fIfileName\fR
+.
Standard error from all commands in the pipeline is
redirected to the file named \fIfileName\fR, appending to it rather
than overwriting it.
.TP 15
\fB>>&\0\fIfileName\fR
+.
Both standard output from the last command and standard error from
all commands are redirected to the file named \fIfileName\fR,
appending to it rather than overwriting it.
.TP 15
\fB>@\0\fIfileId\fR
+.
\fIFileId\fR must be the identifier for an open file, such as the return
value from a previous call to \fBopen\fR.
Standard output from the last command is redirected to \fIfileId\fR's
file, which must have been opened for writing.
.TP 15
\fB2>@\0\fIfileId\fR
+.
\fIFileId\fR must be the identifier for an open file, such as the return
value from a previous call to \fBopen\fR.
Standard error from all commands in the pipeline is
@@ -120,11 +133,13 @@ redirected to \fIfileId\fR's file.
The file must have been opened for writing.
.TP 15
\fB2>@1\0\fR
+.
Standard error from all commands in the pipeline is redirected to the
command result. This operator is only valid at the end of the command
pipeline.
.TP 15
\fB>&@\0\fIfileId\fR
+.
\fIFileId\fR must be the identifier for an open file, such as the return
value from a previous call to \fBopen\fR.
Both standard output from the last command and standard error from
@@ -133,12 +148,9 @@ The file must have been opened for writing.
.PP
If standard output has not been redirected then the \fBexec\fR
command returns the standard output from the last command
-in the pipeline,
-.VS 8.5
-unless
+in the pipeline, unless
.QW 2>@1
was specified, in which case standard error is included as well.
-.VE 8.5
If any of the commands in the pipeline exit abnormally or
are killed or suspended, then \fBexec\fR will return an error
and the error message will include the pipeline's output followed by
@@ -147,9 +159,7 @@ error messages describing the abnormal terminations; the
about the last abnormal termination encountered.
If any of the commands writes to its standard error file and that
standard error is not redirected
-.VS 8.5
and \fB\-ignorestderr\fR is not specified,
-.VE 8.5
then \fBexec\fR will return an error; the error message
will include the pipeline's standard output, followed by messages
about abnormal terminations (if any), followed by the standard error
@@ -229,7 +239,7 @@ names must use the short, cryptic, path format (e.g., using
instead of
.QW applbakery.default ),
which can be obtained with the
-.QW "\fBfile attributes \fIfileName \fB\-shortname\fR"
+.QW "\fBfile attributes\fI fileName \fB\-shortname\fR"
command.
.PP
Two or more forward or backward slashes in a row in a path refer to a
@@ -270,17 +280,17 @@ for the longer name. If a directory name was not specified as part of the
application name, the following directories are automatically searched in
order when attempting to locate the application:
.RS
-.IP \(bu
+.IP \(bu 3
The directory from which the Tcl executable was loaded.
-.IP \(bu
+.IP \(bu 3
The current directory.
-.IP \(bu
+.IP \(bu 3
The Windows NT 32-bit system directory.
-.IP \(bu
+.IP \(bu 3
The Windows NT 16-bit system directory.
-.IP \(bu
+.IP \(bu 3
The Windows NT home directory.
-.IP \(bu
+.IP \(bu 3
The directories listed in the path.
.PP
In order to execute shell built-in commands like \fBdir\fR and \fBcopy\fR,
@@ -298,15 +308,15 @@ for the longer name. If a directory name was not specified as part of the
application name, the following directories are automatically searched in
order when attempting to locate the application:
.RS
-.IP \(bu
+.IP \(bu 3
The directory from which the Tcl executable was loaded.
-.IP \(bu
+.IP \(bu 3
The current directory.
-.IP \(bu
+.IP \(bu 3
The Windows 9x system directory.
-.IP \(bu
+.IP \(bu 3
The Windows 9x home directory.
-.IP \(bu
+.IP \(bu 3
The directories listed in the path.
.RE
.RS
@@ -350,73 +360,122 @@ output may fail, hang Tcl, or even hang the system if their own private
console window is not available to them.
.RE
.TP
-\fBUnix\fR\0\0\0\0\0\0\0
+\fBUnix\fR (including Mac OS X)
+.
The \fBexec\fR command is fully functional and works as described.
.SH "UNIX EXAMPLES"
-Here are some examples of the use of the \fBexec\fR command on Unix.
.PP
+Here are some examples of the use of the \fBexec\fR command on Unix.
To execute a simple program and get its result:
+.PP
.CS
\fBexec\fR uname -a
.CE
+.SS "WORKING WITH NON-ZERO RESULTS"
.PP
To execute a program that can return a non-zero result, you should
wrap the call to \fBexec\fR in \fBcatch\fR and check the contents
of the \fB\-errorcode\fR return option if you have an error:
+.PP
.CS
set status 0
if {[catch {\fBexec\fR grep foo bar.txt} results options]} {
- set details [dict get $options -errorcode]
- if {[lindex $details 0] eq "CHILDSTATUS"} {
- set status [lindex $details 2]
- } else {
- # Some kind of unexpected failure
- }
+ set details [dict get $options -errorcode]
+ if {[lindex $details 0] eq "CHILDSTATUS"} {
+ set status [lindex $details 2]
+ } else {
+ # Some other error; regenerate it to let caller handle
+ return -options $options -level 0 $results
+ }
+}
+.CE
+.VS 8.6
+.PP
+This is more easily written using the \fBtry\fR command, as that makes
+it simpler to trap specific types of errors. This is
+done using code like this:
+.PP
+.CS
+try {
+ set results [\fBexec\fR grep foo bar.txt]
+ set status 0
+} trap CHILDSTATUS {results options} {
+ set status [lindex [dict get $options -errorcode] 2]
}
.CE
+.VE 8.6
+.SS "WORKING WITH QUOTED ARGUMENTS"
.PP
When translating a command from a Unix shell invocation, care should
be taken over the fact that single quote characters have no special
significance to Tcl. Thus:
+.PP
.CS
awk '{sum += $1} END {print sum}' numbers.list
.CE
+.PP
would be translated into something like:
+.PP
.CS
\fBexec\fR awk {{sum += $1} END {print sum}} numbers.list
.CE
+.SS "WORKING WITH GLOBBING"
.PP
If you are converting invocations involving shell globbing, you should
remember that Tcl does not handle globbing or expand things into
multiple arguments by default. Instead you should write things like
this:
+.PP
.CS
\fBexec\fR ls -l {*}[glob *.tcl]
.CE
+.SS "WORKING WITH USER-SUPPLIED SHELL SCRIPT FRAGMENTS"
+.PP
+One useful technique can be to expose to users of a script the ability
+to specify a fragment of shell script to execute that will have some
+data passed in on standard input that was produced by the Tcl program.
+This is a common technique for using the \fIlpr\fR program for
+printing. By far the simplest way of doing this is to pass the user's
+script to the user's shell for processing, as this avoids a lot of
+complexity with parsing other languages.
+.PP
+.CS
+set lprScript [\fIget from user...\fR]
+set postscriptData [\fIgenerate somehow...\fR]
+
+\fBexec\fR $env(SHELL) -c $lprScript << $postscriptData
+.CE
.SH "WINDOWS EXAMPLES"
-Here are some examples of the use of the \fBexec\fR command on Windows.
.PP
+Here are some examples of the use of the \fBexec\fR command on Windows.
To start an instance of \fInotepad\fR editing a file without waiting
for the user to finish editing the file:
+.PP
.CS
\fBexec\fR notepad myfile.txt &
.CE
.PP
To print a text file using \fInotepad\fR:
+.PP
.CS
\fBexec\fR notepad /p myfile.txt
.CE
+.SS "WORKING WITH CONSOLE PROGRAMS"
.PP
If a program calls other programs, such as is common with compilers,
then you may need to resort to batch files to hide the console windows
that sometimes pop up:
+.PP
.CS
\fBexec\fR cmp.bat somefile.c -o somefile
.CE
+.PP
With the file \fIcmp.bat\fR looking something like:
+.PP
.CS
@gcc %1 %2 %3 %4 %5 %6 %7 %8 %9
.CE
+.SS "WORKING WITH COMMAND BUILT-INS"
.PP
Sometimes you need to be careful, as different programs may have the
same name and be in the path. It can then happen that typing a command
@@ -431,10 +490,27 @@ applies especially when you want to run
commands like
\fIdir\fR from a Tcl script (if you just want to list filenames, use
the \fBglob\fR command.) To do that, use this:
+.PP
.CS
\fBexec\fR {*}[auto_execok dir] *.tcl
.CE
+.SS "WORKING WITH NATIVE FILENAMES"
+.PP
+Many programs on Windows require filename arguments to be passed in with
+backslashes as pathname separators. This is done with the help of the
+\fBfile nativename\fR command. For example, to make a directory (on NTFS)
+encrypted so that only the current user can access it requires use of
+the \fICIPHER\fR command, like this:
+.PP
+.CS
+set secureDir "~/Desktop/Secure Directory"
+file mkdir $secureDir
+\fBexec\fR CIPHER /e /s:[file nativename $secureDir]
+.CE
.SH "SEE ALSO"
-error(n), open(n)
+error(n), file(n), open(n)
.SH KEYWORDS
execute, pipeline, redirection, subprocess
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/exit.n b/doc/exit.n
index eccd635..ceb0529 100644
--- a/doc/exit.n
+++ b/doc/exit.n
@@ -22,10 +22,12 @@ system as the exit status.
If \fIreturnCode\fR is not specified then it defaults
to 0.
.SH EXAMPLE
+.PP
Since non-zero exit codes are usually interpreted as error cases by
the calling process, the \fBexit\fR command is an important part of
signaling that something fatal has gone wrong. This code fragment is
useful in scripts to act as a general problem trap:
+.PP
.CS
proc main {} {
# ... put the real main code in here ...
@@ -43,9 +45,7 @@ if {[catch {main} msg options]} {
\fBexit\fR 2
}
.CE
-
.SH "SEE ALSO"
exec(n)
-
.SH KEYWORDS
-exit, process
+abort, exit, process
diff --git a/doc/expr.n b/doc/expr.n
index dbc9026..8698f5c 100644
--- a/doc/expr.n
+++ b/doc/expr.n
@@ -26,9 +26,11 @@ as the corresponding C operators.
Expressions almost always yield numeric results
(integer or floating-point values).
For example, the expression
+.PP
.CS
-\fBexpr 8.2 + 6\fR
+\fBexpr\fR 8.2 + 6
.CE
+.PP
evaluates to 14.2.
Tcl expressions differ from C expressions in the way that
operands are specified. Also, Tcl expressions support
@@ -37,11 +39,10 @@ additional operators not found in C.
.SS OPERANDS
.PP
A Tcl expression consists of a combination of operands, operators,
-and parentheses.
+parentheses and commas.
White space may be used between the operands and operators and
-parentheses; it is ignored by the expression's instructions.
+parentheses (or commas); it is ignored by the expression's instructions.
Where possible, operands are interpreted as integer values.
-.VS 8.5
Integer values may be specified in decimal (the normal case), in binary
(if the first two characters of the operand are \fB0b\fR), in octal
(if the first two characters of the operand are \fB0o\fR), or in hexadecimal
@@ -58,7 +59,6 @@ the sign characters \fB+\fR or \fB\-\fR. For example, all of the
following are valid floating-point numbers: 2.1, 3., 6e4, 7.91e+16.
Also recognized as floating point values are the strings \fBInf\fR
and \fBNaN\fR making use of any case for each character.
-.VE 8.5
If no numeric interpretation is possible (note that all literal
operands that are not numeric or boolean must be quoted with either
braces or with double quotes), then an operand is left as a string
@@ -68,7 +68,8 @@ Operands may be specified in any of the following ways:
.IP [1]
As a numeric value, either integer or floating-point.
.IP [2]
-As a boolean value, using any form understood by \fBstring is boolean\fR.
+As a boolean value, using any form understood by \fBstring is\fR
+\fBboolean\fR.
.IP [3]
As a Tcl variable, using standard \fB$\fR notation.
The variable's value will be used as the operand.
@@ -89,7 +90,7 @@ the operand.
As a mathematical function whose arguments have any of the above
forms for operands, such as \fBsin($x)\fR. See \fBMATH FUNCTIONS\fR below for
a discussion of how mathematical functions are handled.
-.LP
+.PP
Where the above substitutions occur (e.g. inside quoted strings), they
are performed by the expression's instructions.
However, the command parser may already have performed one round of
@@ -103,6 +104,7 @@ For some examples of simple expressions, suppose the variable
the variable \fBb\fR has the value 6.
Then the command on the left side of each of the lines below
will produce the value on the right side of the line:
+.PP
.CS
.ta 6c
\fBexpr\fR 3.1 + $a \fI6.1\fR
@@ -117,16 +119,17 @@ the \fBtcl::mathop\fR namespace; see the \fBmathop\fR(n) manual page
for details) are listed below, grouped in decreasing order of precedence:
.TP 20
\fB\-\0\0+\0\0~\0\0!\fR
+.
Unary minus, unary plus, bit-wise NOT, logical NOT. None of these operators
may be applied to string operands, and bit-wise NOT may be
applied only to integers.
.TP 20
\fB**\fR
-.VS 8.5
+.
Exponentiation. Valid for any numeric operands.
-.VE 8.5
.TP 20
\fB*\0\0/\0\0%\fR
+.
Multiply, divide, remainder. None of these operators may be
applied to string operands, and remainder may be applied only
to integers.
@@ -147,80 +150,98 @@ is always 3.
.RE
.TP 20
\fB+\0\0\-\fR
+.
Add and subtract. Valid for any numeric operands.
.TP 20
\fB<<\0\0>>\fR
+.
Left and right shift. Valid for integer operands only.
A right shift always propagates the sign bit.
.TP 20
\fB<\0\0>\0\0<=\0\0>=\fR
+.
Boolean less, greater, less than or equal, and greater than or equal.
Each operator produces 1 if the condition is true, 0 otherwise.
These operators may be applied to strings as well as numeric operands,
in which case string comparison is used.
.TP 20
\fB==\0\0!=\fR
+.
Boolean equal and not equal. Each operator produces a zero/one result.
Valid for all operand types.
.TP 20
\fBeq\0\0ne\fR
+.
Boolean string equal and string not equal. Each operator produces a
zero/one result. The operand types are interpreted only as strings.
.TP 20
\fBin\0\0ni\fR
-.VS 8.5
+.
List containment and negated list containment. Each operator produces
a zero/one result and treats its first argument as a string and its
second argument as a Tcl list. The \fBin\fR operator indicates
whether the first argument is a member of the second argument list;
the \fBni\fR operator inverts the sense of the result.
-.VE 8.5
.TP 20
\fB&\fR
+.
Bit-wise AND. Valid for integer operands only.
.TP 20
\fB^\fR
+.
Bit-wise exclusive OR. Valid for integer operands only.
.TP 20
\fB|\fR
+.
Bit-wise OR. Valid for integer operands only.
.TP 20
\fB&&\fR
+.
Logical AND. Produces a 1 result if both operands are non-zero,
0 otherwise.
Valid for boolean and numeric (integers or floating-point) operands only.
.TP 20
\fB||\fR
+.
Logical OR. Produces a 0 result if both operands are zero, 1 otherwise.
Valid for boolean and numeric (integers or floating-point) operands only.
.TP 20
\fIx\fB?\fIy\fB:\fIz\fR
+.
If-then-else, as in C. If \fIx\fR
evaluates to non-zero, then the result is the value of \fIy\fR.
Otherwise the result is the value of \fIz\fR.
The \fIx\fR operand must have a boolean or numeric value.
-.LP
+.PP
See the C manual for more details on the results
produced by each operator.
-.VS 8.5
The exponentiation operator promotes types like the multiply and
divide operators, and produces a result that is the same as the output
of the \fBpow\fR function (after any type conversions.)
-.VE 8.5
-All of the binary operators group left-to-right within the same
-precedence level. For example, the command
+All of the binary operators but exponentiation group left-to-right
+within the same precedence level; exponentiation groups right-to-left. For example, the command
+.PP
.CS
\fBexpr\fR {4*2 < 7}
.CE
-returns 0.
+.PP
+returns 0, while
+.PP
+.CS
+\fBexpr\fR {2**3**2}
+.CE
+.PP
+returns 512.
.PP
The \fB&&\fR, \fB||\fR, and \fB?:\fR operators have
.QW "lazy evaluation" ,
just as in C, which means that operands are not evaluated if they are
not needed to determine the outcome. For example, in the command
+.PP
.CS
-\fBexpr {$v ? [a] : [b]}\fR
+\fBexpr\fR {$v ? [a] : [b]}
.CE
+.PP
only one of
.QW \fB[a]\fR
or
@@ -235,21 +256,25 @@ and
before invoking the \fBexpr\fR command.
.SS "MATH FUNCTIONS"
.PP
-.VS 8.5
When the expression parser encounters a mathematical function
such as \fBsin($x)\fR, it replaces it with a call to an ordinary
Tcl function in the \fBtcl::mathfunc\fR namespace. The processing
of an expression such as:
+.PP
.CS
-\fBexpr {sin($x+$y)}\fR
+\fBexpr\fR {sin($x+$y)}
.CE
+.PP
is the same in every way as the processing of:
+.PP
.CS
-\fBexpr {[tcl::mathfunc::sin [expr {$x+$y}]]}\fR
+\fBexpr\fR {[tcl::mathfunc::sin [\fBexpr\fR {$x+$y}]]}
.CE
+.PP
which in turn is the same as the processing of:
+.PP
.CS
-\fBtcl::mathfunc::sin [expr {$x+$y}]\fR
+tcl::mathfunc::sin [\fBexpr\fR {$x+$y}]
.CE
.PP
The executor will search for \fBtcl::mathfunc::sin\fR using the usual
@@ -258,12 +283,22 @@ rules for resolving functions in namespaces. Either
current]::tcl::mathfunc::sin\fR will satisfy the request, and others
may as well (depending on the current \fBnamespace path\fR setting).
.PP
+Some mathematical functions have several arguments, separated by commas like in C. Thus:
+.PP
+.CS
+\fBexpr\fR {hypot($x,$y)}
+.CE
+.PP
+ends up as
+.PP
+.CS
+tcl::mathfunc::hypot $x $y
+.CE
+.PP
See the \fBmathfunc\fR(n) manual page for the math functions that are
available by default.
-.VE 8.5
.SS "TYPES, OVERFLOW, AND PRECISION"
.PP
-.VS 8.5
All internal computations involving integers are done calling on the
LibTomMath multiple precision integer library as required so that all
integer calculations are performed exactly. Note that in Tcl releases
@@ -273,7 +308,6 @@ in those calculations where values overflowed the range of those types.
Any code that relied on these implicit truncations will need to explicitly
add \fBint()\fR or \fBwide()\fR function calls to expressions at the points
where such truncation is required to take place.
-.VE 8.5
.PP
All internal computations involving floating-point are
done with the C type \fIdouble\fR.
@@ -288,23 +322,29 @@ and string operands is done automatically as needed.
For arithmetic computations, integers are used until some
floating-point number is introduced, after which floating-point is used.
For example,
+.PP
.CS
\fBexpr\fR {5 / 4}
.CE
+.PP
returns 1, while
+.PP
.CS
\fBexpr\fR {5 / 4.0}
\fBexpr\fR {5 / ( [string length "abcd"] + 0.0 )}
.CE
+.PP
both return 1.25.
Floating-point values are always returned with a
.QW \fB.\fR
or an
.QW \fBe\fR
so that they will not look like integer values. For example,
+.PP
.CS
\fBexpr\fR {20.0/5.0}
.CE
+.PP
returns \fB4.0\fR, not \fB4\fR.
.SS "STRING OPERATIONS"
.PP
@@ -320,10 +360,12 @@ Canonical string representation for integer values is a decimal string
format. Canonical string representation for floating-point values
is that produced by the \fB%g\fR format specifier of Tcl's
\fBformat\fR command. For example, the commands
+.PP
.CS
-\fBexpr {"0x03" > "2"}\fR
-\fBexpr {"0y" > "0x12"}\fR
+\fBexpr\fR {"0x03" > "2"}
+\fBexpr\fR {"0y" > "0x12"}
.CE
+.PP
both return 1. The first comparison is done using integer
comparison, and the second is done using string comparison.
Because of Tcl's tendency to treat values as numbers whenever
@@ -340,11 +382,13 @@ This allows the Tcl bytecode compiler to generate the best code.
As mentioned above, expressions are substituted twice:
once by the Tcl parser and once by the \fBexpr\fR command.
For example, the commands
+.PP
.CS
-\fBset a 3\fR
-\fBset b {$a + 2}\fR
-\fBexpr $b*4\fR
+set a 3
+set b {$a + 2}
+\fBexpr\fR $b*4
.CE
+.PP
return 11, not a multiple of 4.
This is because the Tcl parser will first substitute \fB$a + 2\fR for
the variable \fBb\fR,
@@ -362,15 +406,15 @@ The most expensive code is required for
unbraced expressions that contain command substitutions.
These expressions must be implemented by generating new code
each time the expression is executed.
-.VS 8.5
When the expression is unbraced to allow the substitution of a function or
operator, consider using the commands documented in the \fBmathfunc\fR(n) or
\fBmathop\fR(n) manual pages directly instead.
-.VE 8.5
.SH EXAMPLES
+.PP
Define a procedure that computes an
.QW interesting
mathematical function:
+.PP
.CS
proc tcl::mathfunc::calc {x y} {
\fBexpr\fR { ($x**2 - $y**2) / exp($x**2 + $y**2) }
@@ -378,6 +422,7 @@ proc tcl::mathfunc::calc {x y} {
.CE
.PP
Convert polar coordinates into cartesian coordinates:
+.PP
.CS
# convert from ($radius,$angle)
set x [\fBexpr\fR { $radius * cos($angle) }]
@@ -385,6 +430,7 @@ set y [\fBexpr\fR { $radius * sin($angle) }]
.CE
.PP
Convert cartesian coordinates into polar coordinates:
+.PP
.CS
# convert from ($x,$y)
set radius [\fBexpr\fR { hypot($y, $x) }]
@@ -393,12 +439,14 @@ set angle [\fBexpr\fR { atan2($y, $x) }]
.PP
Print a message describing the relationship of two string values to
each other:
+.PP
.CS
puts "a and b are [\fBexpr\fR {$a eq $b ? {equal} : {different}}]"
.CE
.PP
Set a variable to whether an environment variable is both defined at
all and also set to a true boolean value:
+.PP
.CS
set isTrue [\fBexpr\fR {
[info exists ::env(SOME_ENV_VAR)] &&
@@ -407,6 +455,7 @@ set isTrue [\fBexpr\fR {
.CE
.PP
Generate a random integer in the range 0..99 inclusive:
+.PP
.CS
set randNum [\fBexpr\fR { int(100 * rand()) }]
.CE
@@ -421,3 +470,6 @@ Copyright (c) 1993 The Regents of the University of California.
Copyright (c) 1994-2000 Sun Microsystems Incorporated.
Copyright (c) 2005 by Kevin B. Kenny <kennykb@acm.org>. All rights reserved.
.fi
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/fblocked.n b/doc/fblocked.n
index d8e8af7..2841aee 100644
--- a/doc/fblocked.n
+++ b/doc/fblocked.n
@@ -4,7 +4,6 @@
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
-.so man.macros
.TH fblocked n 7.5 Tcl "Tcl Built-In Commands"
.BS
'\" Note: do not modify the .SH NAME line immediately below!
@@ -62,9 +61,7 @@ proc echoLine {chan clientName} {
socket -server connect 12345
vwait forever
.CE
-
.SH "SEE ALSO"
gets(n), open(n), read(n), socket(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
blocking, nonblocking
diff --git a/doc/fconfigure.n b/doc/fconfigure.n
index 0763232..550d071 100644
--- a/doc/fconfigure.n
+++ b/doc/fconfigure.n
@@ -39,7 +39,8 @@ The options described below are supported for all channels. In addition,
each channel type may add options that only it supports. See the manual
entry for the command that creates each type of channels for the options
that that specific type of channel supports. For example, see the manual
-entry for the \fBsocket\fR command for its additional options.
+entry for the \fBsocket\fR command for additional options for sockets, and
+the \fBopen\fR command for additional options for serial devices.
.TP
\fB\-blocking\fR \fIboolean\fR
The \fB\-blocking\fR option determines whether I/O operations on the
@@ -71,8 +72,8 @@ initially set to \fBline\fR, and \fBstderr\fR is set to \fBnone\fR.
.
\fINewvalue\fR must be an integer; its value is used to set the size of
buffers, in bytes, subsequently allocated for this channel to store input
-or output. \fINewvalue\fR must be between ten and one million, allowing
-buffers of ten to one million bytes in size.
+or output. \fINewvalue\fR must be between one and one million, allowing
+buffers of one to one million bytes in size.
.TP
\fB\-encoding\fR \fIname\fR
.
@@ -213,34 +214,38 @@ If, for example, a Tcl application is started by the \fBinet\fR
super-server common on Unix system its Tcl standard channels will be
sockets and thus support the socket options.
.SH EXAMPLES
+.PP
Instruct Tcl to always send output to \fBstdout\fR immediately,
whether or not it is to a terminal:
+.PP
.CS
\fBfconfigure\fR stdout -buffering none
.CE
.PP
Open a socket and read lines from it without ever blocking the
processing of other events:
+.PP
.CS
set s [socket some.where.com 12345]
\fBfconfigure\fR $s -blocking 0
fileevent $s readable "readMe $s"
proc readMe chan {
- if {[gets $chan line] < 0} {
- if {[eof $chan]} {
- close $chan
- return
- }
- # Could not read a complete line this time; Tcl's
- # internal buffering will hold the partial line for us
- # until some more data is available over the socket.
- } else {
- puts stdout $line
- }
+ if {[gets $chan line] < 0} {
+ if {[eof $chan]} {
+ close $chan
+ return
+ }
+ # Could not read a complete line this time; Tcl's
+ # internal buffering will hold the partial line for us
+ # until some more data is available over the socket.
+ } else {
+ puts stdout $line
+ }
}
.CE
.PP
Read a PPM-format image from a file:
+.PP
.CS
# Open the file and put it into Unix ASCII mode
set f [open teapot.ppm]
@@ -248,16 +253,16 @@ set f [open teapot.ppm]
# Get the header
if {[gets $f] ne "P6"} {
- error "not a raw\-bits PPM"
+ error "not a raw\-bits PPM"
}
# Read lines until we have got non-comment lines
# that supply us with three decimal values.
set words {}
while {[llength $words] < 3} {
- gets $f line
- if {[string match "#*" $line]} continue
- lappend words {*}[join [scan $line %d%d%d]]
+ gets $f line
+ if {[string match "#*" $line]} continue
+ lappend words {*}[join [scan $line %d%d%d]]
}
# Those words supply the size of the image and its
@@ -272,12 +277,13 @@ set data [read $f $numDataBytes]
close $f
.CE
-
.SH "SEE ALSO"
close(n), flush(n), gets(n), open(n), puts(n), read(n), socket(n),
Tcl_StandardChannels(3)
-
.SH KEYWORDS
blocking, buffering, carriage return, end of line, flushing, linemode,
newline, nonblocking, platform, translation, encoding, filter, byte array,
binary
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/fcopy.n b/doc/fcopy.n
index d583cf0..6a4bf1a 100644
--- a/doc/fcopy.n
+++ b/doc/fcopy.n
@@ -90,13 +90,13 @@ the system will assume that the incoming
bytes are valid UTF-8 characters and convert them according to the
output encoding. The behaviour of the system for bytes which are not
valid UTF-8 characters is undefined in this case.
-
.SH EXAMPLES
.PP
The first example transfers the contents of one channel exactly to
another. Note that when copying one file to another, it is better to
use \fBfile copy\fR which also copies file metadata (e.g. the file
access permissions) where possible.
+.PP
.CS
fconfigure $in -translation binary
fconfigure $out -translation binary
@@ -108,6 +108,7 @@ passed the number of bytes transferred.
It also uses vwait to put the application into the event loop.
Of course, this simplified example could be done without the command
callback.
+.PP
.CS
proc Cleanup {in out bytes {error {}}} {
global total
@@ -115,7 +116,7 @@ proc Cleanup {in out bytes {error {}}} {
close $in
close $out
if {[string length $error] != 0} {
- # error occurred during the copy
+ # error occurred during the copy
}
}
set in [open $file1]
@@ -125,17 +126,18 @@ vwait total
.CE
.PP
The third example copies in chunks and tests for end of file
-in the command callback
+in the command callback.
+.PP
.CS
proc CopyMore {in out chunk bytes {error {}}} {
global total done
incr total $bytes
if {([string length $error] != 0) || [eof $in]} {
- set done $total
- close $in
- close $out
+ set done $total
+ close $in
+ close $out
} else {
- \fBfcopy\fR $in $out -size $chunk \e
+ \fBfcopy\fR $in $out -size $chunk \e
-command [list CopyMore $in $out $chunk]
}
}
@@ -147,9 +149,7 @@ set total 0
-command [list CopyMore $in $out $chunk]
vwait done
.CE
-
.SH "SEE ALSO"
eof(n), fblocked(n), fconfigure(n), file(n)
-
.SH KEYWORDS
blocking, channel, end of line, end of file, nonblocking, read, translation
diff --git a/doc/file.n b/doc/file.n
index b62d252..c117ee1 100644
--- a/doc/file.n
+++ b/doc/file.n
@@ -104,12 +104,12 @@ within a single filesystem, \fIfile copy\fR will copy soft links (i.e.
the links themselves are copied, not the things they point to). Trying
to overwrite a non-empty directory, overwrite a directory with a file,
or overwrite a file with a directory will all result in errors even if
-\fI\-force\fR was specified. Arguments are processed in the order
+\fB\-force\fR was specified. Arguments are processed in the order
specified, halting at the first error, if any. A \fB\-\|\-\fR marks
the end of switches; the argument following the \fB\-\|\-\fR will be
treated as a \fIsource\fR even if it starts with a \fB\-\fR.
.TP
-\fBfile delete \fR?\fB\-force\fR? ?\fB\-\|\-\fR? \fIpathname\fR ?\fIpathname\fR ... ?
+\fBfile delete \fR?\fB\-force\fR? ?\fB\-\|\-\fR? ?\fIpathname\fR ... ?
.
Removes the file or directory specified by each \fIpathname\fR
argument. Non-empty directories will be removed only if the
@@ -136,20 +136,26 @@ only contains one path element, then returns
If \fIname\fR refers to a root directory, then the root directory is
returned. For example,
.RS
+.PP
.CS
-\fBfile dirname c:/\fR
+\fBfile dirname\fR c:/
.CE
+.PP
returns \fBc:/\fR.
.PP
Note that tilde substitution will only be
performed if it is necessary to complete the command. For example,
+.PP
.CS
-\fBfile dirname ~/src/foo.c\fR
+\fBfile dirname\fR ~/src/foo.c
.CE
+.PP
returns \fB~/src\fR, whereas
+.PP
.CS
-\fBfile dirname ~\fR
+\fBfile dirname\fR ~
.CE
+.PP
returns \fB/home\fR (or something similar).
.RE
.TP
@@ -185,9 +191,11 @@ relative, then it will be joined to the previous file name argument.
Otherwise, any earlier arguments will be discarded, and joining will
proceed from the current argument. For example,
.RS
+.PP
.CS
-\fBfile join a b /foo bar\fR
+\fBfile join\fR a b /foo bar
.CE
+.PP
returns \fB/foo/bar\fR.
.PP
Note that any of the names can contain separators, and that the result
@@ -219,9 +227,9 @@ If the user wishes to make a link of a specific type only, (and signal an
error if for some reason that is not possible), then the optional
\fI\-linktype\fR argument should be given. Accepted values for
\fI\-linktype\fR are
-.QW \-symbolic
+.QW \fB\-symbolic\fR
and
-.QW \-hard .
+.QW \fB\-hard\fR .
.PP
On Unix, symbolic links can be made to relative paths, and those paths
must be relative to the actual \fIlinkName\fR's location (not to the
@@ -249,7 +257,7 @@ is for the link rather than the file it refers to. On systems that
do not support symbolic links this option behaves exactly the same
as the \fBstat\fR option.
.TP
-\fBfile mkdir \fIdir\fR ?\fIdir\fR ...?
+\fBfile mkdir ?\fIdir\fR ...?
.
Creates each directory specified. For each pathname \fIdir\fR specified,
this command will create all non-existing parent directories as
@@ -370,10 +378,14 @@ All other elements will be relative. Path separators will be discarded
unless they are needed to ensure that an element is unambiguously relative.
For example, under Unix
.RS
+.PP
.CS
-file split /foo/~bar/baz
+\fBfile split\fR /foo/~bar/baz
.CE
-returns \fB/\0\0foo\0\0./~bar\0\0baz\fR to ensure that later commands
+.PP
+returns
+.QW \fB/\0\0foo\0\0./~bar\0\0baz\fR
+to ensure that later commands
that use the third component do not attempt to perform tilde
substitution.
.RE
@@ -421,6 +433,25 @@ If \fIname\fR contains no separators then returns \fIname\fR. So,
\fBfile tail a/b\fR, \fBfile tail a/b/\fR and \fBfile tail b\fR all
return \fBb\fR.
.TP
+\fBfile tempfile\fR ?\fInameVar\fR? ?\fItemplate\fR?
+'\" TIP #210
+.VS 8.6
+Creates a temporary file and returns a read-write channel opened on that file.
+If the \fInameVar\fR is given, it specifies a variable that the name of the
+temporary file will be written into; if absent, Tcl will attempt to arrange
+for the temporary file to be deleted once it is no longer required. If the
+\fItemplate\fR is present, it specifies parts of the template of the filename
+to use when creating it (such as the directory, base-name or extension) though
+some platforms may ignore some or all of these parts and use a built-in
+default instead.
+.RS
+.PP
+Note that temporary files are \fIonly\fR ever created on the native
+filesystem. As such, they can be relied upon to be used with operating-system
+native APIs and external programs that require a filename.
+.RE
+.VE 8.6
+.TP
\fBfile type \fIname\fR
.
Returns a string giving the type of file \fIname\fR, which will be one of
@@ -450,39 +481,49 @@ Returns \fB1\fR if file \fIname\fR is writable by the current user,
.
These commands always operate using the real user and group identifiers,
not the effective ones.
+.TP
+\fBWindows\fR\0\0\0\0
+.
+The \fBfile owned\fR subcommand currently always reports that the current user
+is the owner of the file, without regard for what the operating system
+believes to be true, making an ownership test useless. This issue (#3613671)
+may be fixed in a future release of Tcl.
.SH EXAMPLES
+.PP
This procedure shows how to search for C files in a given directory
that have a correspondingly-named object file in the current
directory:
+.PP
.CS
proc findMatchingCFiles {dir} {
- set files {}
- switch $::tcl_platform(platform) {
- windows {
- set ext .obj
- }
- unix {
- set ext .o
- }
- }
- foreach file [glob \-nocomplain \-directory $dir *.c] {
- set objectFile [\fBfile tail\fR [\fBfile rootname\fR $file]]$ext
- if {[\fBfile exists\fR $objectFile]} {
- lappend files $file
- }
- }
- return $files
+ set files {}
+ switch $::tcl_platform(platform) {
+ windows {
+ set ext .obj
+ }
+ unix {
+ set ext .o
+ }
+ }
+ foreach file [glob \-nocomplain \-directory $dir *.c] {
+ set objectFile [\fBfile tail\fR [\fBfile rootname\fR $file]]$ext
+ if {[\fBfile exists\fR $objectFile]} {
+ lappend files $file
+ }
+ }
+ return $files
}
.CE
.PP
Rename a file and leave a symbolic link pointing from the old location
to the new place:
+.PP
.CS
set oldName foobar.txt
set newName foo/bar.txt
# Make sure that where we're going to move to exists...
if {![\fBfile isdirectory\fR [\fBfile dirname\fR $newName]]} {
- \fBfile mkdir\fR [\fBfile dirname\fR $newName]
+ \fBfile mkdir\fR [\fBfile dirname\fR $newName]
}
\fBfile rename\fR $oldName $newName
\fBfile link\fR \-symbolic $oldName $newName
@@ -493,6 +534,7 @@ On Windows, a file can be
easily enough (equivalent to double-clicking on it in the Explorer
interface) but the name passed to the operating system must be in
native format:
+.PP
.CS
exec {*}[auto_execok start] {} [\fBfile nativename\fR ~/example.txt]
.CE
@@ -500,4 +542,9 @@ exec {*}[auto_execok start] {} [\fBfile nativename\fR ~/example.txt]
filename(n), open(n), close(n), eof(n), gets(n), tell(n), seek(n),
fblocked(n), flush(n)
.SH KEYWORDS
-attributes, copy files, delete files, directory, file, move files, name, rename files, stat
+attributes, copy files, delete files, directory, file, move files, name,
+rename files, stat, user
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/fileevent.n b/doc/fileevent.n
index eb555f5..e453748 100644
--- a/doc/fileevent.n
+++ b/doc/fileevent.n
@@ -1,6 +1,7 @@
'\"
'\" Copyright (c) 1994 The Regents of the University of California.
'\" Copyright (c) 1994-1996 Sun Microsystems, Inc.
+'\" Copyright (c) 2008 Pat Thoyts
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
@@ -79,17 +80,25 @@ A channel is considered to be writable if at least one byte of data
can be written to the underlying file or device without blocking,
or if an error condition is present on the underlying file or device.
.PP
-Event-driven I/O works best for channels that have been
-placed into nonblocking mode with the \fBfconfigure\fR command.
-In blocking mode, a \fBputs\fR command may block if you give it
-more data than the underlying file or device can accept, and a
-\fBgets\fR or \fBread\fR command will block if you attempt to read
-more data than is ready; no events will be processed while the
-commands block.
+Event-driven I/O works best for channels that have been placed into
+nonblocking mode with the \fBfconfigure\fR command. In blocking mode,
+a \fBputs\fR command may block if you give it more data than the
+underlying file or device can accept, and a \fBgets\fR or \fBread\fR
+command will block if you attempt to read more data than is ready; a
+readable underlying file or device may not even guarantee that a
+blocking [read 1] will succeed (counter-examples being multi-byte
+encodings, compression or encryption transforms ). In all such cases,
+no events will be processed while the commands block.
+.PP
In nonblocking mode \fBputs\fR, \fBread\fR, and \fBgets\fR never block.
See the documentation for the individual commands for information
on how they handle blocking and nonblocking channels.
.PP
+Testing for the end of file condition should be done after any attempts
+read the channel data. The eof flag is set once an attempt to read the
+end of data has occurred and testing before this read will require an
+additional event to be fired.
+.PP
The script for a file event is executed at global level (outside the
context of any Tcl procedure) in the interpreter in which the
\fBfileevent\fR command was invoked.
@@ -99,26 +108,49 @@ In addition, the file event handler is deleted if it ever returns
an error; this is done in order to prevent infinite loops due to
buggy handlers.
.SH EXAMPLE
+.PP
In this setup \fBGetData\fR will be called with the channel as an
-argument whenever $chan becomes readable.
+argument whenever $chan becomes readable. The \fBread\fR call will
+read whatever binary data is currently available without blocking.
+Here the channel has the fileevent removed when an end of file
+occurs to avoid being continually called (see above). Alternatively
+the channel may be closed on this condition.
+.PP
.CS
proc GetData {chan} {
- if {![eof $chan]} {
- puts [gets $chan]
+ set data [read $chan]
+ puts "[string length $data] $data"
+ if {[eof $chan]} {
+ fileevent $chan readable {}
}
}
+fconfigure $chan -blocking 0 -encoding binary
\fBfileevent\fR $chan readable [list GetData $chan]
.CE
+.PP
+The next example demonstrates use of \fBgets\fR to read line-oriented
+data.
+.PP
+.CS
+proc GetData {chan} {
+ if {[gets $chan line] >= 0} {
+ puts $line
+ }
+ if {[eof $chan]} {
+ close $chan
+ }
+}
+fconfigure $chan -blocking 0 -buffering line -translation crlf
+\fBfileevent\fR $chan readable [list GetData $chan]
+.CE
.SH CREDITS
.PP
\fBfileevent\fR is based on the \fBaddinput\fR command created
by Mark Diekhans.
-
.SH "SEE ALSO"
fconfigure(n), gets(n), interp(n), puts(n), read(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
asynchronous I/O, blocking, channel, event handler, nonblocking, readable,
script, writable.
diff --git a/doc/filename.n b/doc/filename.n
index 1fe22f0..d481fc9 100644
--- a/doc/filename.n
+++ b/doc/filename.n
@@ -38,7 +38,7 @@ type of a given path.
.SH "PATH SYNTAX"
.PP
The rules for native names depend on the value reported in the Tcl
-array element \fBtcl_platform(platform)\fR:
+\fBplatform\fR element of the \fBtcl_platform\fR array:
.TP 10
\fBUnix\fR
On Unix and Apple MacOS X platforms, Tcl uses path names where the
diff --git a/doc/flush.n b/doc/flush.n
index 1c79ea0..b8bf3e9 100644
--- a/doc/flush.n
+++ b/doc/flush.n
@@ -14,7 +14,6 @@ flush \- Flush buffered output for a channel
.SH SYNOPSIS
\fBflush \fIchannelId\fR
.BE
-
.SH DESCRIPTION
.PP
Flushes any output that has been buffered for \fIchannelId\fR.
@@ -31,16 +30,16 @@ nonblocking mode, the command may return before all buffered output has been
flushed; the remainder will be flushed in the background as fast as the
underlying file or device is able to absorb it.
.SH EXAMPLE
+.PP
Prompt for the user to type some information in on the console:
+.PP
.CS
puts -nonewline "Please type your name: "
\fBflush\fR stdout
gets stdin name
puts "Hello there, $name!"
.CE
-
.SH "SEE ALSO"
file(n), open(n), socket(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
blocking, buffer, channel, flush, nonblocking, output
diff --git a/doc/for.n b/doc/for.n
index 033903f..4c65793 100644
--- a/doc/for.n
+++ b/doc/for.n
@@ -48,10 +48,12 @@ expression is evaluated (before
each loop iteration), so changes in the variables will be visible.
See below for an example:
.SH EXAMPLES
+.PP
Print a line for each of the integers from 0 to 10:
+.PP
.CS
-for {set x 0} {$x<10} {incr x} {
- puts "x is $x"
+\fBfor\fR {set x 0} {$x<10} {incr x} {
+ puts "x is $x"
}
.CE
.PP
@@ -62,21 +64,24 @@ before the \fBfor\fR command is run and whether its value is a value
that is less than or greater than/equal to ten, and this is because
the expression will be substituted before the \fBfor\fR command is
executed.
+.PP
.CS
-for {set x 0} $x<10 {incr x} {
- puts "x is $x"
+\fBfor\fR {set x 0} $x<10 {incr x} {
+ puts "x is $x"
}
.CE
.PP
Print out the powers of two from 1 to 1024:
+.PP
.CS
-for {set x 1} {$x<=1024} {set x [expr {$x * 2}]} {
- puts "x is $x"
+\fBfor\fR {set x 1} {$x<=1024} {set x [expr {$x * 2}]} {
+ puts "x is $x"
}
.CE
-
.SH "SEE ALSO"
-break, continue, foreach, while
-
+break(n), continue(n), foreach(n), while(n)
.SH KEYWORDS
-for, iteration, looping
+boolean, for, iteration, loop
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/foreach.n b/doc/foreach.n
index 654c0cf..fb075d3 100644
--- a/doc/foreach.n
+++ b/doc/foreach.n
@@ -49,8 +49,10 @@ The \fBbreak\fR and \fBcontinue\fR statements may be
invoked inside \fIbody\fR, with the same effect as in the \fBfor\fR
command. \fBForeach\fR returns an empty string.
.SH EXAMPLES
+.PP
This loop prints every value in a list together with the square and
cube of the value:
+.PP
.CS
'\" Maintainers: notice the tab hacking below!
.ta 3i
@@ -63,6 +65,7 @@ puts "Value\etSquare\etCube" ;# Neat-looking header
.PP
The following loop uses i and j as loop variables to iterate over
pairs of elements of a single list.
+.PP
.CS
set x {}
\fBforeach\fR {i j} {a b c d e f} {
@@ -73,6 +76,7 @@ set x {}
.CE
.PP
The next loop uses i and j to iterate over two lists in parallel.
+.PP
.CS
set x {}
\fBforeach\fR i {a b c} j {d e f g} {
@@ -83,6 +87,7 @@ set x {}
.CE
.PP
The two forms are combined in the following example.
+.PP
.CS
set x {}
\fBforeach\fR i {a b c} {j k} {d e f g} {
@@ -96,4 +101,4 @@ set x {}
for(n), while(n), break(n), continue(n)
.SH KEYWORDS
-foreach, iteration, list, looping
+foreach, iteration, list, loop
diff --git a/doc/format.n b/doc/format.n
index f842f16..23dfe60 100644
--- a/doc/format.n
+++ b/doc/format.n
@@ -46,6 +46,7 @@ and a conversion character.
Any of these fields may be omitted except for the conversion character.
The fields that are present must appear in the order given above.
The paragraphs below discuss each of these fields in turn.
+.SS "OPTIONAL POSITIONAL SPECIFIER"
.PP
If the \fB%\fR is followed by a decimal number and a \fB$\fR, as in
.QW \fB%2$d\fR ,
@@ -59,6 +60,7 @@ given by the number.
This follows the XPG3 conventions for positional specifiers.
If there are any positional specifiers in \fIformatString\fR
then all of the specifiers must be positional.
+.SS "OPTIONAL FLAGS"
.PP
The second portion of a conversion specifier may contain any of the
following flag characters, in any order:
@@ -85,11 +87,14 @@ Requests an alternate output form. For \fBo\fR and \fBO\fR
conversions it guarantees that the first digit is always \fB0\fR.
For \fBx\fR or \fBX\fR conversions, \fB0x\fR or \fB0X\fR (respectively)
will be added to the beginning of the result unless it is zero.
+For \fBb\fR conversions, \fB0b\fR
+will be added to the beginning of the result unless it is zero.
For all floating-point conversions (\fBe\fR, \fBE\fR, \fBf\fR,
\fBg\fR, and \fBG\fR) it guarantees that the result always
has a decimal point.
For \fBg\fR and \fBG\fR conversions it specifies that
trailing zeroes should not be removed.
+.SS "OPTIONAL FIELD WIDTH"
.PP
The third portion of a conversion specifier is a decimal number giving a
minimum field width for this conversion.
@@ -104,6 +109,7 @@ spaces on the right, respectively.
If the minimum field width is specified as \fB*\fR rather than
a number, then the next argument to the \fBformat\fR command
determines the minimum field width; it must be an integer value.
+.SS "OPTIONAL PRECISION/BOUND"
.PP
The fourth portion of a conversion specifier is a precision,
which consists of a period followed by a number.
@@ -121,6 +127,7 @@ printed; if the string is longer than this then the trailing characters will be
If the precision is specified with \fB*\fR rather than a number
then the next argument to the \fBformat\fR command determines the precision;
it must be a numeric string.
+.SS "OPTIONAL SIZE MODIFIER"
.PP
The fifth part of a conversion specifier is a size modifier,
which must be \fBll\fR, \fBh\fR, or \fBl\fR.
@@ -134,7 +141,9 @@ function of the \fBexpr\fR command (at least a 64-bit range).
If neither \fBh\fR nor \fBl\fR are present, the integer value is
truncated to the same range as that produced by the \fBint()\fR
function of the \fBexpr\fR command (at least a 32-bit range, but
-determined by the value of \fBtcl_platform(wordSize)\fR).
+determined by the value of the \fBwordSize\fR element of the
+\fBtcl_platform\fR array).
+.SS "MANDATORY CONVERSION TYPE"
.PP
The last thing in a conversion specifier is an alphabetic character
that determines what kind of conversion to perform.
@@ -159,6 +168,9 @@ for \fBx\fR and
.QW 0123456789ABCDEF
for \fBX\fR).
.TP 10
+\fBb\fR
+Convert integer to binary string, using digits 0 and 1.
+.TP 10
\fBc\fR
Convert integer to the Unicode character it represents.
.TP 10
@@ -194,16 +206,21 @@ The behavior of the format command is the same as the
ANSI C \fBsprintf\fR procedure except for the following
differences:
.IP [1]
-\fB%p\fR and \fB%n\fR specifiers are not supported.
+Tcl guarantees that it will be working with UNICODE characters.
.IP [2]
+\fB%p\fR and \fB%n\fR specifiers are not supported.
+.IP [3]
For \fB%c\fR conversions the argument must be an integer value,
which will then be converted to the corresponding character value.
-.IP [3]
+.IP [4]
The size modifiers are ignored when formatting floating-point values.
The \fBll\fR modifier has no \fBsprintf\fR counterpart.
+The \fBb\fR specifier has no \fBsprintf\fR counterpart.
.SH EXAMPLES
+.PP
Convert the numeric value of a UNICODE character to the character
itself:
+.PP
.CS
set value 120
set char [\fBformat\fR %c $value]
@@ -211,12 +228,14 @@ set char [\fBformat\fR %c $value]
.PP
Convert the output of \fBtime\fR into seconds to an accuracy of
hundredths of a second:
+.PP
.CS
set us [lindex [time $someTclCode] 0]
puts [\fBformat\fR "%.2f seconds to execute" [expr {$us / 1e6}]]
.CE
.PP
Create a packed X11 literal color specification:
+.PP
.CS
# Each color-component should be in range (0..255)
set color [\fBformat\fR "#%02x%02x%02x" $r $g $b]
@@ -225,6 +244,7 @@ set color [\fBformat\fR "#%02x%02x%02x" $r $g $b]
Use XPG3 format codes to allow reordering of fields (a technique that
is often used in localized message catalogs; see \fBmsgcat\fR) without
reordering the data values passed to \fBformat\fR:
+.PP
.CS
set fmt1 "Today, %d shares in %s were bought at $%.2f each"
puts [\fBformat\fR $fmt1 123 "Global BigCorp" 19.37]
@@ -234,6 +254,7 @@ puts [\fBformat\fR $fmt2 123 "Global BigCorp" 19.37]
.CE
.PP
Print a small table of powers of three:
+.PP
.CS
# Set up the column widths
set w1 5
@@ -248,8 +269,8 @@ puts $sep
# Print the contents of the table
set p 1
for {set i 0} {$i<=20} {incr i} {
- puts [\fBformat\fR "| %*d | %*ld |" $w1 $i $w2 $p]
- set p [expr {wide($p) * 3}]
+ puts [\fBformat\fR "| %*d | %*ld |" $w1 $i $w2 $p]
+ set p [expr {wide($p) * 3}]
}
# Finish off by printing the separator again
@@ -259,3 +280,6 @@ puts $sep
scan(n), sprintf(3), string(n)
.SH KEYWORDS
conversion specifier, format, sprintf, string, substitution
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/gets.n b/doc/gets.n
index bed7e32..fe24058 100644
--- a/doc/gets.n
+++ b/doc/gets.n
@@ -35,12 +35,12 @@ returned.
.PP
If end of file occurs while scanning for an end of
line, the command returns whatever input is available up to the end of file.
-If \fIchannelId\fR is in nonblocking mode and there is not a full
+If \fIchannelId\fR is in non-blocking mode and there is not a full
line of input available, the command returns an empty string and
does not consume any input.
If \fIvarName\fR is specified and an empty string is returned in
\fIvarName\fR because of end-of-file or because of insufficient
-data in nonblocking mode, then the return count is -1.
+data in non-blocking mode, then the return count is -1.
Note that if \fIvarName\fR is not specified then the end-of-file
and no-full-line-available cases can
produce the same results as if there were an input line consisting
@@ -64,4 +64,8 @@ close $chan
file(n), eof(n), fblocked(n), Tcl_StandardChannels(3)
.SH KEYWORDS
-blocking, channel, end of file, end of line, line, nonblocking, read
+blocking, channel, end of file, end of line, line, non-blocking, read
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/glob.n b/doc/glob.n
index c257983..7b71189 100644
--- a/doc/glob.n
+++ b/doc/glob.n
@@ -4,7 +4,6 @@
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
-'\"
.so man.macros
.TH glob n 8.3 Tcl "Tcl Built-In Commands"
.BS
@@ -12,63 +11,74 @@
.SH NAME
glob \- Return names of files that match patterns
.SH SYNOPSIS
-\fBglob \fR?\fIswitches\fR? \fIpattern \fR?\fIpattern ...\fR?
+\fBglob \fR?\fIswitches\fR? ?\fIpattern ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command performs file name
.QW globbing
in a fashion similar to
-the csh shell. It returns a list of the files whose names match any
-of the \fIpattern\fR arguments. No particular order is guaranteed
-in the list, so if a sorted list is required the caller should use
+the csh shell or bash shell.
+It returns a list of the files whose names match any
+of the \fIpattern\fR arguments. No particular order is guaranteed
+in the list, so if a sorted list is required the caller should use
\fBlsort\fR.
-.LP
+.SS OPTIONS
+.PP
If the initial arguments to \fBglob\fR start with \fB\-\fR then
-they are treated as switches. The following switches are
+they are treated as switches. The following switches are
currently supported:
.TP
\fB\-directory\fR \fIdirectory\fR
+.
Search for files which match the given patterns starting in the given
-\fIdirectory\fR. This allows searching of directories whose name
+\fIdirectory\fR. This allows searching of directories whose name
contains glob-sensitive characters without the need to quote such
-characters explicitly. This option may not be used in conjunction with
+characters explicitly. This option may not be used in conjunction with
\fB\-path\fR, which is used to allow searching for complete file paths
whose names may contain glob-sensitive characters.
.TP
\fB\-join\fR
+.
The remaining pattern arguments, after option processing, are treated
as a single pattern obtained by joining the arguments with directory
separators.
.TP
\fB\-nocomplain\fR
-Allows an empty list to be returned without error; without this
+.
+Allows an empty list to be returned without error; without this
switch an error is returned if the result list would be empty.
.TP
\fB\-path\fR \fIpathPrefix\fR
+.
Search for files with the given \fIpathPrefix\fR where the rest of the name
-matches the given patterns. This allows searching for files with names
-similar to a given file (as opposed to a directory) even when the names
-contain glob-sensitive
-characters. This option may not be used in conjunction with
-\fB\-directory\fR. For example, to find all files with the same root name
-as $path, but differing extensions, you should use \fBglob
--path [file rootname $path] .*\fR which will work even if $path contains
+matches the given patterns. This allows searching for files with names
+similar to a given file (as opposed to a directory) even when the names
+contain glob-sensitive
+characters. This option may not be used in conjunction with
+\fB\-directory\fR. For example, to find all files with the same root name
+as $path, but differing extensions, you should use
+.QW "\fBglob \-path [file rootname $path] .*\fR"
+which will work even if \fB$path\fR contains
numerous glob-sensitive characters.
.TP
\fB\-tails\fR
+.
Only return the part of each file found which follows the last directory
-named in any \fB\-directory\fR or \fB\-path\fR path specification.
-Thus \fBglob -tails -directory $dir *\fR is equivalent to
-\fBset pwd [pwd] ; cd $dir ; glob *; cd $pwd\fR. For
-\fB\-path\fR specifications, the returned names will include the last
-path segment, so \fBglob -tails -path [file rootname ~/foo.tex] .*\fR
+named in any \fB\-directory\fR or \fB\-path\fR path specification.
+Thus
+.QW "\fBglob \-tails \-directory $dir *\fR"
+is equivalent to
+.QW "\fBset pwd [pwd]; cd $dir; glob *; cd $pwd\fR" .
+For \fB\-path\fR specifications, the returned names will include the last
+path segment, so
+.QW "\fBglob \-tails \-path [file rootname ~/foo.tex] .*\fR"
will return paths like \fBfoo.aux foo.bib foo.tex\fR etc.
.TP
\fB\-types\fR \fItypeList\fR
+.
Only list files or directories which match \fItypeList\fR, where the items
-in the list have two forms. The first form is like the \-type option of
+in the list have two forms. The first form is like the \-type option of
the Unix find command:
\fIb\fR (block special file),
\fIc\fR (character special file),
@@ -78,75 +88,83 @@ the Unix find command:
\fIp\fR (named pipe),
or \fIs\fR (socket), where multiple types may be specified in the list.
\fBGlob\fR will return all files which match at least one of the types given.
-Note that symbolic links will be returned both if \fB\-types l\fR is given,
-or if the target of a link matches the requested type. So, a link to
+Note that symbolic links will be returned both if \fB\-types l\fR is given,
+or if the target of a link matches the requested type. So, a link to
a directory will be returned if \fB\-types d\fR was specified.
.RS
.PP
The second form specifies types where all the types given must match.
These are \fIr\fR, \fIw\fR, \fIx\fR as file permissions, and
-\fIreadonly\fR, \fIhidden\fR as special permission cases. On the
+\fIreadonly\fR, \fIhidden\fR as special permission cases. On the
Macintosh, MacOS types and creators are also supported, where any item
which is four characters long is assumed to be a MacOS type
-(e.g. \fBTEXT\fR). Items which are of the form \fI{macintosh type XXXX}\fR
+(e.g. \fBTEXT\fR). Items which are of the form \fI{macintosh type XXXX}\fR
or \fI{macintosh creator XXXX}\fR will match types or creators
-respectively. Unrecognized types, or specifications of multiple MacOS
+respectively. Unrecognized types, or specifications of multiple MacOS
types/creators will signal an error.
.PP
The two forms may be mixed, so \fB\-types {d f r w}\fR will find all
regular files OR directories that have both read AND write permissions.
The following are equivalent:
-.RS
+.PP
.CS
\fBglob \-type d *\fR
\fBglob */\fR
.CE
-.RE
+.PP
except that the first case doesn't return the trailing
.QW /
and is more platform independent.
.RE
.TP
\fB\-\|\-\fR
-Marks the end of switches. The argument following this one will
+.
+Marks the end of switches. The argument following this one will
be treated as a \fIpattern\fR even if it starts with a \fB\-\fR.
+.SS "GLOBBING PATTERNS"
.PP
The \fIpattern\fR arguments may contain any of the following
-special characters:
+special characters, which are a superset of those supported by
+\fBstring match\fR:
.TP 10
\fB?\fR
+.
Matches any single character.
.TP 10
\fB*\fR
+.
Matches any sequence of zero or more characters.
.TP 10
\fB[\fIchars\fB]\fR
-Matches any single character in \fIchars\fR. If \fIchars\fR
+.
+Matches any single character in \fIchars\fR. If \fIchars\fR
contains a sequence of the form \fIa\fB\-\fIb\fR then any
character between \fIa\fR and \fIb\fR (inclusive) will match.
.TP 10
\fB\e\fIx\fR
+.
Matches the character \fIx\fR.
.TP 10
\fB{\fIa\fB,\fIb\fB,\fI...\fR}
-Matches any of the strings \fIa\fR, \fIb\fR, etc.
-.LP
+.
+Matches any of the sub-patterns \fIa\fR, \fIb\fR, etc.
+.PP
On Unix, as with csh, a
-.QW .
+.QW . \|
at the beginning of a file's name or just after a
.QW /
must be matched explicitly or with a {} construct, unless the
\fB\-types hidden\fR flag is given (since
-.QW .
-at the beginning of a file's name indicates that it is hidden). On
+.QW . \|
+at the beginning of a file's name indicates that it is hidden). On
other platforms, files beginning with a
-.QW .
+.QW . \|
are handled no differently to any others, except the special directories
-.QW .
+.QW . \|
and
-.QW ..
+.QW .. \|
which must be matched explicitly (this is to avoid a recursive pattern like
-.QW "glob -join * * * *"
+.QW "glob \-join * * * *"
from recursing up the directory hierarchy as well as down). In addition, all
.QW /
characters must be matched explicitly.
@@ -160,63 +178,78 @@ If the
is followed immediately by
.QW /
then the value of the HOME environment variable is used.
-.LP
+.PP
The \fBglob\fR command differs from csh globbing in two ways.
First, it does not sort its result list (use the \fBlsort\fR
command if you want the list sorted).
Second, \fBglob\fR only returns the names of files that actually
-exist; in csh no check for existence is made unless a pattern
+exist; in csh no check for existence is made unless a pattern
contains a ?, *, or [] construct.
.LP
When the \fBglob\fR command returns relative paths whose filenames
start with a tilde
.QW ~
-(for example through \fBglob *\fR or \fBglob -tails\fR, the returned
+(for example through \fBglob *\fR or \fBglob \-tails\fR, the returned
list will not quote the tilde with
.QW ./ .
This means care must be taken if those names are later to
be used with \fBfile join\fR, to avoid them being interpreted as
absolute paths pointing to a given user's home directory.
-.SH "PORTABILITY ISSUES"
+.SH "WINDOWS PORTABILITY ISSUES"
.PP
-\fBWindows\fR
-.
For Windows UNC names, the servername and sharename components of the path
-may not contain ?, *, or [] constructs. On Windows NT, if \fIpattern\fR is
+may not contain ?, *, or [] constructs. On Windows NT, if \fIpattern\fR is
of the form
.QW \fB~\fIusername\fB@\fIdomain\fR ,
it refers to the home
directory of the user whose account information resides on the specified NT
-domain server. Otherwise, user account information is obtained from
-the local computer. On Windows 95 and 98, \fBglob\fR accepts patterns
+domain server. Otherwise, user account information is obtained from
+the local computer. On Windows 95 and 98, \fBglob\fR accepted patterns
like
.QW .../
and
.QW ..../
-for successively higher up parent directories.
-.PP
-Since the backslash character has a special meaning to the glob
-command, glob patterns containing Windows style path separators need
-special care. The pattern \fIC:\e\efoo\e\e*\fR is interpreted as
-\fIC:\efoo\e*\fR where \fI\ef\fR will match the single character \fIf\fR
-and \fI\e*\fR will match the single character \fI*\fR and will not be
-interpreted as a wildcard character. One solution to this problem is
-to use the Unix style forward slash as a path separator. Windows style
-paths can be converted to Unix style paths with the command \fBfile
-join $path\fR (or \fBfile normalize $path\fR in Tcl 8.4).
+for successively higher up parent directories, but later versions of
+Windows do not accept these forms.
+.PP
+Since the backslash character has a special meaning to the glob
+command, glob patterns containing Windows style path separators need
+special care. The pattern
+.QW \fIC:\e\efoo\e\e*\fR
+is interpreted as
+.QW \fIC:\efoo\e*\fR
+where
+.QW \fI\ef\fR
+will match the single character
+.QW \fIf\fR
+and
+.QW \fI\e*\fR
+will match the single character
+.QW \fI*\fR
+and will not be
+interpreted as a wildcard character. One solution to this problem is
+to use the Unix style forward slash as a path separator. Windows style
+paths can be converted to Unix style paths with the command
+.QW "\fBfile join\fR \fB$path\fR"
+or
+.QW "\fBfile normalize\fR \fB$path\fR" .
.SH EXAMPLES
+.PP
Find all the Tcl files in the current directory:
+.PP
.CS
\fBglob\fR *.tcl
.CE
.PP
Find all the Tcl files in the user's home directory, irrespective of
what the current directory is:
+.PP
.CS
\fBglob\fR \-directory ~ *.tcl
.CE
.PP
Find all subdirectories of the current directory:
+.PP
.CS
\fBglob\fR \-type d *
.CE
@@ -227,12 +260,14 @@ a
.QW b
or the sequence
.QW cde :
+.PP
.CS
\fBglob\fR \-type f *{a,b,cde}*
.CE
-
.SH "SEE ALSO"
file(n)
-
.SH KEYWORDS
exist, file, glob, pattern
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/global.n b/doc/global.n
index c9d7a36..c17c370 100644
--- a/doc/global.n
+++ b/doc/global.n
@@ -12,9 +12,8 @@
.SH NAME
global \- Access global variables
.SH SYNOPSIS
-\fBglobal \fIvarname \fR?\fIvarname ...\fR?
+\fBglobal \fR?\fIvarname ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command has no effect unless executed in the context of a proc body.
@@ -31,7 +30,9 @@ the unqualified name of the global variable, as determined by the
array element. An error is returned if the name looks like an array element,
such as \fBa(b)\fR.
.SH EXAMPLES
+.PP
This procedure sets the namespace variable \fI::a::x\fR
+.PP
.CS
proc reset {} {
\fBglobal\fR a::x
@@ -44,15 +45,14 @@ buffer, separated by newlines. It is useful for situations when you
want to build a message piece-by-piece (as if with \fBputs\fR) but
send that full message in a single piece (e.g. over a connection
opened with \fBsocket\fR or as part of a counted HTTP response).
+.PP
.CS
proc accum {string} {
\fBglobal\fR accumulator
append accumulator $string \en
}
.CE
-
.SH "SEE ALSO"
namespace(n), upvar(n), variable(n)
-
.SH KEYWORDS
global, namespace, procedure, variable
diff --git a/doc/http.n b/doc/http.n
index 24b5f6a..631a141 100644
--- a/doc/http.n
+++ b/doc/http.n
@@ -16,9 +16,9 @@ http \- Client-side implementation of the HTTP/1.1 protocol
\fBpackage require http ?2.7?\fR
.\" See Also -useragent option documentation in body!
.sp
-\fB::http::config \fI?options?\fR
+\fB::http::config ?\fI\-option value\fR ...?
.sp
-\fB::http::geturl \fIurl ?options?\fR
+\fB::http::geturl \fIurl\fR ?\fI\-option value\fR ...?
.sp
\fB::http::formatQuery\fR \fIkey value\fR ?\fIkey value\fR ...?
.sp
@@ -77,6 +77,7 @@ applications, the caller can use \fB::http::wait\fR after calling
.SH COMMANDS
.TP
\fB::http::config\fR ?\fIoptions\fR?
+.
The \fB::http::config\fR command is used to set and query the name of the
proxy server and port, and the User-Agent name used in the HTTP
requests. If no options are specified, then the current configuration
@@ -87,6 +88,7 @@ flags and values that define the configuration:
.RS
.TP
\fB\-accept\fR \fImimetypes\fR
+.
The Accept header of the request. The default is */*, which means that
all types of documents are accepted. Otherwise you can supply a
comma-separated list of mime type patterns that you are
@@ -94,13 +96,16 @@ willing to receive. For example,
.QW "image/gif, image/jpeg, text/*" .
.TP
\fB\-proxyhost\fR \fIhostname\fR
+.
The name of the proxy host, if any. If this value is the
empty string, the URL host is contacted directly.
.TP
\fB\-proxyport\fR \fInumber\fR
+.
The proxy port number.
.TP
\fB\-proxyfilter\fR \fIcommand\fR
+.
The command is a callback that is made during
\fB::http::geturl\fR
to determine if a proxy is required for a given host. One argument, a
@@ -112,6 +117,7 @@ an empty list. The default filter returns the values of the
non-empty.
.TP
\fB\-urlencoding\fR \fIencoding\fR
+.
The \fIencoding\fR used for creating the x-url-encoded URLs with
\fB::http::formatQuery\fR. The default is \fButf-8\fR, as specified by RFC
2718. Prior to http 2.5 this was unspecified, and that behavior can be
@@ -121,11 +127,13 @@ returned by specifying the empty string (\fB{}\fR), although
characters.
.TP
\fB\-useragent\fR \fIstring\fR
+.
The value of the User-Agent header in the HTTP request. The default is
.QW "\fBTcl http client package 2.7\fR" .
.RE
.TP
\fB::http::geturl\fR \fIurl\fR ?\fIoptions\fR?
+.
The \fB::http::geturl\fR command is the main procedure in the package.
The \fB\-query\fR option causes a POST operation and
the \fB\-validate\fR option causes a HEAD operation;
@@ -140,21 +148,25 @@ that is invoked when the HTTP transaction completes.
.RS
.TP
\fB\-binary\fR \fIboolean\fR
+.
Specifies whether to force interpreting the URL data as binary. Normally
this is auto-detected (anything not beginning with a \fBtext\fR content
type or whose content encoding is \fBgzip\fR or \fBcompress\fR is
considered binary data).
.TP
\fB\-blocksize\fR \fIsize\fR
+.
The block size used when reading the URL.
At most \fIsize\fR bytes are read at once. After each block, a call to the
\fB\-progress\fR callback is made (if that option is specified).
.TP
\fB\-channel\fR \fIname\fR
+.
Copy the URL contents to channel \fIname\fR instead of saving it in
\fBstate(body)\fR.
.TP
\fB\-command\fR \fIcallback\fR
+.
Invoke \fIcallback\fR after the HTTP transaction completes.
This option causes \fB::http::geturl\fR to return immediately.
The \fIcallback\fR gets an additional argument that is the \fItoken\fR returned
@@ -162,6 +174,7 @@ from \fB::http::geturl\fR. This token is the name of an array that is
described in the \fBSTATE ARRAY\fR section. Here is a template for the
callback:
.RS
+.PP
.CS
proc httpCallback {token} {
upvar #0 $token state
@@ -171,6 +184,7 @@ proc httpCallback {token} {
.RE
.TP
\fB\-handler\fR \fIcallback\fR
+.
Invoke \fIcallback\fR whenever HTTP data is available; if present, nothing
else will be done with the HTTP data. This procedure gets two additional
arguments: the socket for the HTTP data and the \fItoken\fR returned from
@@ -179,6 +193,7 @@ described in the \fBSTATE ARRAY\fR section. The procedure is expected
to return the number of bytes read from the socket. Here is a
template for the callback:
.RS
+.PP
.CS
proc httpHandlerCallback {socket token} {
upvar #0 $token state
@@ -194,6 +209,7 @@ proc httpHandlerCallback {socket token} {
.RE
.TP
\fB\-headers\fR \fIkeyvaluelist\fR
+.
This option is used to add extra headers to the HTTP request. The
\fIkeyvaluelist\fR argument must be a list with an even number of
elements that alternate between keys and values. The keys become
@@ -201,24 +217,31 @@ header field names. Newlines are stripped from the values so the
header cannot be corrupted. For example, if \fIkeyvaluelist\fR is
\fBPragma no-cache\fR then the following header is included in the
HTTP request:
+.RS
+.PP
.CS
Pragma: no-cache
.CE
+.RE
.TP
\fB\-keepalive\fR \fIboolean\fR
+.
If true, attempt to keep the connection open for servicing
multiple requests. Default is 0.
.TP
\fB\-method\fR \fItype\fR
+.
Force the HTTP request method to \fItype\fR. \fB::http::geturl\fR will
auto-select GET, POST or HEAD based on other options, but this option
enables choices like PUT and DELETE for webdav support.
.TP
\fB\-myaddr\fR \fIaddress\fR
+.
Pass an specific local address to the underlying \fBsocket\fR call in case
multiple interfaces are available.
.TP
\fB\-progress\fR \fIcallback\fR
+.
The \fIcallback\fR is made after each transfer of data from the URL.
The callback gets three additional arguments: the \fItoken\fR from
\fB::http::geturl\fR, the expected total size of the contents from the
@@ -227,6 +250,7 @@ transferred so far. The expected total size may be unknown, in which
case zero is passed to the callback. Here is a template for the
progress callback:
.RS
+.PP
.CS
proc httpProgress {token total current} {
upvar #0 $token state
@@ -235,17 +259,20 @@ proc httpProgress {token total current} {
.RE
.TP
\fB\-protocol\fR \fIversion\fR
+.
Select the HTTP protocol version to use. This should be 1.0 or 1.1 (the
default). Should only be necessary for servers that do not understand or
otherwise complain about HTTP/1.1.
.TP
\fB\-query\fR \fIquery\fR
+.
This flag causes \fB::http::geturl\fR to do a POST request that passes the
\fIquery\fR to the server. The \fIquery\fR must be an x-url-encoding
formatted query. The \fB::http::formatQuery\fR procedure can be used to
do the formatting.
.TP
\fB\-queryblocksize\fR \fIsize\fR
+.
The block size used when posting query data to the URL.
At most
\fIsize\fR
@@ -254,6 +281,7 @@ bytes are written at once. After each block, a call to the
callback is made (if that option is specified).
.TP
\fB\-querychannel\fR \fIchannelID\fR
+.
This flag causes \fB::http::geturl\fR to do a POST request that passes the
data contained in \fIchannelID\fR to the server. The data contained in
\fIchannelID\fR must be an x-url-encoding
@@ -264,14 +292,17 @@ in order to create that header. If it is
unable to determine the size, it returns an error.
.TP
\fB\-queryprogress\fR \fIcallback\fR
+.
The \fIcallback\fR is made after each transfer of data to the URL
(i.e. POST) and acts exactly like the \fB\-progress\fR option (the
callback format is the same).
.TP
\fB\-strict\fR \fIboolean\fR
+.
Whether to enforce RFC 3986 URL validation on the request. Default is 1.
.TP
\fB\-timeout\fR \fImilliseconds\fR
+.
If \fImilliseconds\fR is non-zero, then \fB::http::geturl\fR sets up a timeout
to occur after the specified number of milliseconds.
A timeout results in a call to \fB::http::reset\fR and to
@@ -280,11 +311,13 @@ The return value of \fB::http::status\fR is \fBtimeout\fR
after a timeout has occurred.
.TP
\fB\-type\fR \fImime-type\fR
+.
Use \fImime-type\fR as the \fBContent-Type\fR value, instead of the
default value (\fBapplication/x-www-form-urlencoded\fR) during a
POST operation.
.TP
\fB\-validate\fR \fIboolean\fR
+.
If \fIboolean\fR is non-zero, then \fB::http::geturl\fR does an HTTP HEAD
request. This request returns meta information about the URL, but the
contents are not returned. The meta information is available in the
@@ -293,6 +326,7 @@ contents are not returned. The meta information is available in the
.RE
.TP
\fB::http::formatQuery\fR \fIkey value\fR ?\fIkey value\fR ...?
+.
This procedure does x-url-encoding of query data. It takes an even
number of arguments that are the keys and values of the query. It
encodes the keys and values, and generates one string that has the
@@ -300,10 +334,13 @@ proper & and = separators. The result is suitable for the
\fB\-query\fR value passed to \fB::http::geturl\fR.
.TP
\fB::http::reset\fR \fItoken\fR ?\fIwhy\fR?
-This command resets the HTTP transaction identified by \fItoken\fR, if
-any. This sets the \fBstate(status)\fR value to \fIwhy\fR, which defaults to \fBreset\fR, and then calls the registered \fB\-command\fR callback.
+.
+This command resets the HTTP transaction identified by \fItoken\fR, if any.
+This sets the \fBstate(status)\fR value to \fIwhy\fR, which defaults to
+\fBreset\fR, and then calls the registered \fB\-command\fR callback.
.TP
\fB::http::wait\fR \fItoken\fR
+.
This is a convenience procedure that blocks and waits for the
transaction to complete. This only works in trusted code because it
uses \fBvwait\fR. Also, it is not useful for the case where
@@ -313,36 +350,44 @@ until the HTTP transaction is complete, and thus there is nothing to
wait for.
.TP
\fB::http::data\fR \fItoken\fR
+.
This is a convenience procedure that returns the \fBbody\fR element
(i.e., the URL data) of the state array.
.TP
\fB::http::error\fR \fItoken\fR
+.
This is a convenience procedure that returns the \fBerror\fR element
of the state array.
.TP
\fB::http::status\fR \fItoken\fR
+.
This is a convenience procedure that returns the \fBstatus\fR element of
the state array.
.TP
\fB::http::code\fR \fItoken\fR
+.
This is a convenience procedure that returns the \fBhttp\fR element of the
state array.
.TP
\fB::http::ncode\fR \fItoken\fR
+.
This is a convenience procedure that returns just the numeric return
code (200, 404, etc.) from the \fBhttp\fR element of the state array.
.TP
\fB::http::size\fR \fItoken\fR
+.
This is a convenience procedure that returns the \fBcurrentsize\fR
element of the state array, which represents the number of bytes
received from the URL in the \fB::http::geturl\fR call.
.TP
\fB::http::meta\fR \fItoken\fR
+.
This is a convenience procedure that returns the \fBmeta\fR
element of the state array which contains the HTTP response
headers. See below for an explanation of this element.
.TP
\fB::http::cleanup\fR \fItoken\fR
+.
This procedure cleans up the state associated with the connection
identified by \fItoken\fR. After this call, the procedures
like \fB::http::data\fR cannot be used to get information
@@ -353,10 +398,12 @@ so will result in memory not being freed, and if your app calls
performance hit...or worse.
.TP
\fB::http::register\fR \fIproto port command\fR
+.
This procedure allows one to provide custom HTTP transport types
such as HTTPS, by registering a prefix, the default port, and the
command to execute to create the Tcl \fBchannel\fR. E.g.:
.RS
+.PP
.CS
package require http
package require tls
@@ -368,6 +415,7 @@ set token [::http::geturl https://my.secure.site/]
.RE
.TP
\fB::http::unregister\fR \fIproto\fR
+.
This procedure unregisters a protocol handler that was previously
registered via \fB::http::register\fR.
.SH ERRORS
@@ -408,7 +456,8 @@ There are other possible results of the HTTP transaction
determined by examining the status from \fB::http::status\fR.
These are described below.
.TP
-ok
+\fBok\fR
+.
If the HTTP transaction completes entirely, then status will be \fBok\fR.
However, you should still check the \fB::http::code\fR value to get
the HTTP status. The \fB::http::ncode\fR procedure provides just
@@ -416,11 +465,13 @@ the numeric error (e.g., 200, 404 or 500) while the \fB::http::code\fR
procedure returns a value like
.QW "HTTP 404 File not found" .
.TP
-eof
+\fBeof\fR
+.
If the server closes the socket without replying, then no error
is raised, but the status of the transaction will be \fBeof\fR.
.TP
-error
+\fBerror\fR
+.
The error message will also be stored in the \fBerror\fR status
array element, accessible via \fB::http::error\fR.
.PP
@@ -437,9 +488,11 @@ an \fBeof\fR status.
The \fB::http::geturl\fR procedure returns a \fItoken\fR that can be used to
get to the state of the HTTP transaction in the form of a Tcl array.
Use this construct to create an easy-to-use array variable:
+.PP
.CS
upvar #0 $token state
.CE
+.PP
Once the data associated with the URL is no longer needed, the state
array should be unset to free up storage.
The \fB::http::cleanup\fR procedure is provided for that purpose.
@@ -448,33 +501,41 @@ the array are supported:
.RS
.TP
\fBbody\fR
+.
The contents of the URL. This will be empty if the \fB\-channel\fR
option has been specified. This value is returned by the \fB::http::data\fR command.
.TP
\fBcharset\fR
+.
The value of the charset attribute from the \fBContent-Type\fR meta-data
value. If none was specified, this defaults to the RFC standard
\fBiso8859-1\fR, or the value of \fB$::http::defaultCharset\fR. Incoming
text data will be automatically converted from this charset to utf-8.
.TP
\fBcoding\fR
+.
A copy of the \fBContent-Encoding\fR meta-data value.
.TP
\fBcurrentsize\fR
+.
The current number of bytes fetched from the URL.
This value is returned by the \fB::http::size\fR command.
.TP
\fBerror\fR
+.
If defined, this is the error string seen when the HTTP transaction
was aborted.
.TP
\fBhttp\fR
+.
The HTTP status reply from the server. This value
is returned by the \fB::http::code\fR command. The format of this value is:
.RS
+.PP
.CS
\fIHTTP/1.1 code string\fR
.CE
+.PP
The \fIcode\fR is a three-digit number defined in the HTTP standard.
A code of 200 is OK. Codes beginning with 4 or 5 indicate errors.
Codes beginning with 3 are redirection errors. In this case the
@@ -483,86 +544,103 @@ requested information.
.RE
.TP
\fBmeta\fR
+.
The HTTP protocol returns meta-data that describes the URL contents.
The \fBmeta\fR element of the state array is a list of the keys and
values of the meta-data. This is in a format useful for initializing
an array that just contains the meta-data:
.RS
+.PP
.CS
array set meta $state(meta)
.CE
+.PP
Some of the meta-data keys are listed below, but the HTTP standard defines
more, and servers are free to add their own.
.TP
\fBContent-Type\fR
+.
The type of the URL contents. Examples include \fBtext/html\fR,
\fBimage/gif,\fR \fBapplication/postscript\fR and
\fBapplication/x-tcl\fR.
.TP
\fBContent-Length\fR
+.
The advertised size of the contents. The actual size obtained by
-\fB::http::geturl\fR is available as \fBstate(size)\fR.
+\fB::http::geturl\fR is available as \fBstate(currentsize)\fR.
.TP
\fBLocation\fR
+.
An alternate URL that contains the requested data.
.RE
.TP
\fBposterror\fR
+.
The error, if any, that occurred while writing
the post query data to the server.
.TP
\fBstatus\fR
+.
Either \fBok\fR, for successful completion, \fBreset\fR for
user-reset, \fBtimeout\fR if a timeout occurred before the transaction
could complete, or \fBerror\fR for an error condition. During the
transaction this value is the empty string.
.TP
\fBtotalsize\fR
+.
A copy of the \fBContent-Length\fR meta-data value.
.TP
\fBtype\fR
+.
A copy of the \fBContent-Type\fR meta-data value.
.TP
\fBurl\fR
+.
The requested URL.
.RE
.SH EXAMPLE
+.PP
+This example creates a procedure to copy a URL to a file while printing a
+progress meter, and prints the meta-data associated with the URL.
+.PP
.CS
-# Copy a URL to a file and print meta-data
proc httpcopy { url file {chunk 4096} } {
- set out [open $file w]
- set token [\fB::http::geturl\fR $url -channel $out \e
- -progress httpCopyProgress -blocksize $chunk]
- close $out
+ set out [open $file w]
+ set token [\fB::http::geturl\fR $url -channel $out \e
+ -progress httpCopyProgress -blocksize $chunk]
+ close $out
- # This ends the line started by httpCopyProgress
- puts stderr ""
+ # This ends the line started by httpCopyProgress
+ puts stderr ""
- upvar #0 $token state
- set max 0
- foreach {name value} $state(meta) {
- if {[string length $name] > $max} {
- set max [string length $name]
- }
- if {[regexp -nocase ^location$ $name]} {
- # Handle URL redirects
- puts stderr "Location:$value"
- return [httpcopy [string trim $value] $file $chunk]
- }
- }
- incr max
- foreach {name value} $state(meta) {
- puts [format "%-*s %s" $max $name: $value]
- }
+ upvar #0 $token state
+ set max 0
+ foreach {name value} $state(meta) {
+ if {[string length $name] > $max} {
+ set max [string length $name]
+ }
+ if {[regexp -nocase ^location$ $name]} {
+ # Handle URL redirects
+ puts stderr "Location:$value"
+ return [httpcopy [string trim $value] $file $chunk]
+ }
+ }
+ incr max
+ foreach {name value} $state(meta) {
+ puts [format "%-*s %s" $max $name: $value]
+ }
- return $token
+ return $token
}
proc httpCopyProgress {args} {
- puts -nonewline stderr .
- flush stderr
+ puts -nonewline stderr .
+ flush stderr
}
.CE
.SH "SEE ALSO"
safe(n), socket(n), safesock(n)
.SH KEYWORDS
-security policy, socket
+internet, security policy, socket, www
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/if.n b/doc/if.n
index d84cf08..700f325 100644
--- a/doc/if.n
+++ b/doc/if.n
@@ -38,43 +38,51 @@ The return value from the command is the result of the body script
that was executed, or an empty string
if none of the expressions was non-zero and there was no \fIbodyN\fR.
.SH EXAMPLES
+.PP
A simple conditional:
+.PP
.CS
\fBif\fR {$vbl == 1} { puts "vbl is one" }
.CE
.PP
With an \fBelse\fR-clause:
+.PP
.CS
\fBif\fR {$vbl == 1} {
- puts "vbl is one"
+ puts "vbl is one"
} \fBelse\fR {
- puts "vbl is not one"
+ puts "vbl is not one"
}
.CE
.PP
With an \fBelseif\fR-clause too:
+.PP
.CS
\fBif\fR {$vbl == 1} {
- puts "vbl is one"
+ puts "vbl is one"
} \fBelseif\fR {$vbl == 2} {
- puts "vbl is two"
+ puts "vbl is two"
} \fBelse\fR {
- puts "vbl is not one or two"
+ puts "vbl is not one or two"
}
.CE
.PP
Remember, expressions can be multi-line, but in that case it can be a
good idea to use the optional \fBthen\fR keyword for clarity:
+.PP
.CS
\fBif\fR {
- $vbl == 1 || $vbl == 2 || $vbl == 3
+ $vbl == 1
+ || $vbl == 2
+ || $vbl == 3
} \fBthen\fR {
- puts "vbl is one, two or three"
+ puts "vbl is one, two or three"
}
.CE
-
.SH "SEE ALSO"
expr(n), for(n), foreach(n)
-
.SH KEYWORDS
boolean, conditional, else, false, if, true
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/incr.n b/doc/incr.n
index 72b3ff8..595cc27 100644
--- a/doc/incr.n
+++ b/doc/incr.n
@@ -14,7 +14,6 @@ incr \- Increment the value of a variable
.SH SYNOPSIS
\fBincr \fIvarName \fR?\fIincrement\fR?
.BE
-
.SH DESCRIPTION
.PP
Increments the value stored in the variable whose name is \fIvarName\fR.
@@ -25,24 +24,26 @@ integer) is added to the value of variable \fIvarName\fR; otherwise
The new value is stored as a decimal string in variable \fIvarName\fR
and also returned as result.
.PP
-.VS 8.5
Starting with the Tcl 8.5 release, the variable \fIvarName\fR passed
to \fBincr\fR may be unset, and in that case, it will be set to
the value \fIincrement\fR or to the default increment value of \fB1\fR.
-.VE 8.5
.SH EXAMPLES
+.PP
Add one to the contents of the variable \fIx\fR:
+.PP
.CS
\fBincr\fR x
.CE
.PP
Add 42 to the contents of the variable \fIx\fR:
+.PP
.CS
\fBincr\fR x 42
.CE
.PP
Add the contents of the variable \fIy\fR to the contents of the
variable \fIx\fR:
+.PP
.CS
\fBincr\fR x $y
.CE
@@ -50,12 +51,11 @@ variable \fIx\fR:
Add nothing at all to the variable \fIx\fR (often useful for checking
whether an argument to a procedure is actually integral and generating
an error if it is not):
+.PP
.CS
\fBincr\fR x 0
.CE
-
.SH "SEE ALSO"
-expr(n)
-
+expr(n), set(n)
.SH KEYWORDS
add, increment, variable, value
diff --git a/doc/info.n b/doc/info.n
index fae0d43..14a9e50 100644
--- a/doc/info.n
+++ b/doc/info.n
@@ -3,6 +3,7 @@
'\" Copyright (c) 1994-1997 Sun Microsystems, Inc.
'\" Copyright (c) 1993-1997 Bell Labs Innovations for Lucent Technologies
'\" Copyright (c) 1998-2000 Ajuba Solutions
+'\" Copyright (c) 2007-2012 Donal K. Fellows
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
@@ -16,7 +17,6 @@ info \- Return information about the state of the Tcl interpreter
.SH SYNOPSIS
\fBinfo \fIoption \fR?\fIarg arg ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command provides information about various internals of the Tcl
@@ -24,22 +24,30 @@ interpreter.
The legal \fIoption\fRs (which may be abbreviated) are:
.TP
\fBinfo args \fIprocname\fR
+.
Returns a list containing the names of the arguments to procedure
\fIprocname\fR, in order. \fIProcname\fR must be the name of a
Tcl command procedure.
.TP
\fBinfo body \fIprocname\fR
+.
Returns the body of procedure \fIprocname\fR. \fIProcname\fR must be
the name of a Tcl command procedure.
.TP
+\fBinfo class\fI subcommand class\fR ?\fIarg ...\fR
+.VS 8.6
+Returns information about the class, \fIclass\fR. The \fIsubcommand\fRs are
+described in \fBCLASS INTROSPECTION\fR below.
+.VE 8.6
+.TP
\fBinfo cmdcount\fR
+.
Returns a count of the total number of commands that have been invoked
in this interpreter.
.TP
\fBinfo commands \fR?\fIpattern\fR?
+.
If \fIpattern\fR is not specified,
-.\" Do not move this .VS above the .TP
-.VS 8.5
returns a list of names of all the Tcl commands visible
(i.e. executable without using a qualified name) to the current namespace,
including both the built-in commands written in C and
@@ -58,9 +66,9 @@ of the specified namespace, and only the commands defined in the named
namespace are returned.
.\" Technically, most of this hasn't changed; that's mostly just the
.\" way it always worked. Hardly anyone knew that though.
-.VE 8.5
.TP
\fBinfo complete \fIcommand\fR
+.
Returns 1 if \fIcommand\fR is a complete Tcl command in the sense of
having no unclosed quotes, braces, brackets or array element names.
If the command does not appear to be complete then 0 is returned.
@@ -69,19 +77,57 @@ to allow users to type in commands that span multiple lines; if the
command is not complete, the script can delay evaluating it until additional
lines have been typed to complete the command.
.TP
+\fBinfo coroutine\fR
+.VS 8.6
+Returns the name of the currently executing \fBcoroutine\fR, or the empty
+string if either no coroutine is currently executing, or the current coroutine
+has been deleted (but has not yet returned or yielded since deletion).
+.VE 8.6
+.TP
\fBinfo default \fIprocname arg varname\fR
+.
\fIProcname\fR must be the name of a Tcl command procedure and \fIarg\fR
must be the name of an argument to that procedure. If \fIarg\fR
does not have a default value then the command returns \fB0\fR.
Otherwise it returns \fB1\fR and places the default value of \fIarg\fR
into variable \fIvarname\fR.
.TP
+\fBinfo errorstack \fR?\fIinterp\fR?
+.VS 8.6
+Returns, in a form that is programmatically easy to parse, the function names
+and arguments at each level from the call stack of the last error in the given
+\fIinterp\fR, or in the current one if not specified.
+.RS
+.PP
+This form is an even-sized list alternating tokens and parameters. Tokens are
+currently either \fBCALL\fR, \fBUP\fR, or \fBINNER\fR, but other values may be
+introduced in the future. \fBCALL\fR indicates a procedure call, and its
+parameter is the corresponding \fBinfo level\fR \fB0\fR. \fBUP\fR indicates a
+shift in variable frames generated by \fBuplevel\fR or similar, and applies to
+the previous \fBCALL\fR item. Its parameter is the level offset. \fBINNER\fR
+identifies the
+.QW "inner context" ,
+which is the innermost atomic command or bytecode instruction that raised the
+error, along with its arguments when available. While \fBCALL\fR and \fBUP\fR
+allow to follow complex call paths, \fBINNER\fR homes in on the offending
+operation in the innermost procedure call, even going to sub-expression
+granularity.
+.PP
+This information is also present in the \fB\-errorstack\fR entry of the
+options dictionary returned by 3-argument \fBcatch\fR; \fBinfo errorstack\fR
+is a convenient way of retrieving it for uncaught errors at top-level in an
+interactive \fBtclsh\fR.
+.RE
+.VE 8.6
+.TP
\fBinfo exists \fIvarName\fR
+.
Returns \fB1\fR if the variable named \fIvarName\fR exists in the
current context (either as a global or local variable) and has been
defined by being given a value, returns \fB0\fR otherwise.
.TP
\fBinfo frame\fR ?\fInumber\fR?
+.
This command provides access to all frames on the stack, even those
hidden from \fBinfo level\fR. If \fInumber\fR is not specified, this
command returns a number giving the frame level of the command. This
@@ -91,10 +137,11 @@ information for the command at the \fInumber\fRed level on the stack.
.RS
.PP
If \fInumber\fR is positive (> 0) then it selects a particular stack
-level (1 refers to the top-most active command, i.e., \fBinfo frame\fR
-itself, 2 to the command it was called from, and so on); otherwise it
-gives a level relative to the current command (0 refers to the current
-command, i.e., \fBinfo frame\fR itself, -1 to its caller, and so on).
+level (1 refers to the outer-most active command, 2 to the command it
+called, and so on, up to the current frame level which refers to
+\fBinfo frame\fR itself); otherwise it gives a level relative to the
+current command (0 refers to the current command, i.e., \fBinfo
+frame\fR itself, -1 to its caller, and so on).
.PP
This is similar to how \fBinfo level\fR works, except that this
subcommand reports all frames, like \fBsource\fRd scripts,
@@ -112,28 +159,34 @@ The result dictionary may contain the keys listed below, with the
specified meanings for their values:
.TP
\fBtype\fR
+.
This entry is always present and describes the nature of the location
for the command. The recognized values are \fBsource\fR, \fBproc\fR,
\fBeval\fR, and \fBprecompiled\fR.
.RS
.TP
\fBsource\fR\0\0\0\0\0\0\0\0
+.
means that the command is found in a script loaded by the \fBsource\fR
command.
.TP
\fBproc\fR\0\0\0\0\0\0\0\0
+.
means that the command is found in dynamically created procedure body.
.TP
\fBeval\fR\0\0\0\0\0\0\0\0
+.
means that the command is executed by \fBeval\fR or \fBuplevel\fR.
.TP
\fBprecompiled\fR\0\0\0\0\0\0\0\0
-means that the command is found in a precompiled script (loadable by
+.
+means that the command is found in a pre-compiled script (loadable by
the package \fBtbcload\fR), and no further information will be
available.
.RE
.TP
\fBline\fR
+.
This entry provides the number of the line the command is at inside of
the script it is a part of. This information is not present for type
\fBprecompiled\fR. For type \fBsource\fR this information is counted
@@ -141,26 +194,32 @@ relative to the beginning of the file, whereas for the last two types
the line is counted relative to the start of the script.
.TP
\fBfile\fR
+.
This entry is present only for type \fBsource\fR. It provides the
normalized path of the file the command is in.
.TP
\fBcmd\fR
+.
This entry provides the string representation of the command. This is
-usually the unsubstituted form, however for commands which are a pure
-list executed by eval it is the substituted form as they have no other
-string representation. Care is taken that the pure-List property of
+usually the unsubstituted form, however for commands which are a
+canonically-constructed list (e.g., as produced by the \fBlist\fR command)
+executed by \fBeval\fR it is the substituted form as they have no other
+string representation. Care is taken that the canonicality property of
the latter is not spoiled.
.TP
\fBproc\fR
+.
This entry is present only if the command is found in the body of a
regular Tcl procedure. It then provides the name of that procedure.
.TP
\fBlambda\fR
+.
This entry is present only if the command is found in the body of an
anonymous Tcl procedure, i.e. a lambda. It then provides the entire
definition of the lambda in question.
.TP
\fBlevel\fR
+.
This entry is present only if the queried frame has a corresponding
frame returned by \fBinfo level\fR. It provides the index of this
frame, relative to the current level (0 and negative numbers).
@@ -172,8 +231,8 @@ locations of commands in their bodies will be reported with type
defined procedures, and literal eval scripts in files or statically
defined procedures.
.PP
-In contrast, a procedure definition or \fBeval\fR within a dynamically
-\fBeval\fRuated environment count linenumbers relative to the start of
+In contrast, procedure definitions and \fBeval\fR within a dynamically
+\fBeval\fRuated environment count line numbers relative to the start of
their script, even if they would be able to count relative to the
start of the outer dynamic script. That type of number usually makes
more sense.
@@ -185,12 +244,13 @@ possible the lines are counted based on the smallest possible
than any dynamic outer scope.
.PP
The syntactic form \fB{*}\fR is handled like \fBeval\fR. I.e. if it
-is given a literal list argument the system tracks the linenumber
-within the list words as well, and otherwise all linenumbers are
+is given a literal list argument the system tracks the line number
+within the list words as well, and otherwise all line numbers are
counted relative to the start of each word (smallest scope)
.RE
.TP
\fBinfo functions \fR?\fIpattern\fR?
+.
If \fIpattern\fR is not specified, returns a list of all the math
functions currently defined.
If \fIpattern\fR is specified, only those functions whose name matches
@@ -198,6 +258,7 @@ If \fIpattern\fR is specified, only those functions whose name matches
rules as for \fBstring match\fR.
.TP
\fBinfo globals \fR?\fIpattern\fR?
+.
If \fIpattern\fR is not specified, returns a list of all the names
of currently-defined global variables.
Global variables are variables in the global namespace.
@@ -206,6 +267,7 @@ are returned. Matching is determined using the same rules as for
\fBstring match\fR.
.TP
\fBinfo hostname\fR
+.
Returns the name of the computer on which this invocation is being
executed.
Note that this name is not guaranteed to be the fully qualified domain
@@ -215,6 +277,7 @@ installed,) it is the name that is suitable for TCP/IP networking that
is returned.
.TP
\fBinfo level\fR ?\fInumber\fR?
+.
If \fInumber\fR is not specified, this command returns a number
giving the stack level of the invoking procedure, or 0 if the
command is invoked at top-level. If \fInumber\fR is specified,
@@ -228,13 +291,14 @@ See the \fBuplevel\fR command for more information on what stack
levels mean.
.TP
\fBinfo library\fR
+.
Returns the name of the library directory in which standard Tcl
scripts are stored.
This is actually the value of the \fBtcl_library\fR
variable and may be changed by setting \fBtcl_library\fR.
-See the \fBtclvars\fR manual entry for more information.
.TP
\fBinfo loaded \fR?\fIinterp\fR?
+.
Returns a list describing all of the packages that have been loaded into
\fIinterp\fR with the \fBload\fR command.
Each list element is a sub-list with two elements consisting of the
@@ -247,6 +311,7 @@ To get a list of just the packages in the current interpreter, specify
an empty string for the \fIinterp\fR argument.
.TP
\fBinfo locals \fR?\fIpattern\fR?
+.
If \fIpattern\fR is not specified, returns a list of all the names
of currently-defined local variables, including arguments to the
current procedure, if any.
@@ -257,15 +322,24 @@ are returned. Matching is determined using the same rules as for
\fBstring match\fR.
.TP
\fBinfo nameofexecutable\fR
+.
Returns the full path name of the binary file from which the application
was invoked. If Tcl was unable to identify the file, then an empty
string is returned.
.TP
+\fBinfo object\fI subcommand object\fR ?\fIarg ...\fR
+.VS 8.6
+Returns information about the object, \fIobject\fR. The \fIsubcommand\fRs are
+described in \fBOBJECT INTROSPECTION\fR below.
+.VE 8.6
+.TP
\fBinfo patchlevel\fR
-Returns the value of the global variable \fBtcl_patchLevel\fR; see
-the \fBtclvars\fR manual entry for more information.
+.
+Returns the value of the global variable \fBtcl_patchLevel\fR, which holds
+the exact version of the Tcl library by default.
.TP
\fBinfo procs \fR?\fIpattern\fR?
+.
If \fIpattern\fR is not specified, returns a list of all the
names of Tcl command procedures in the current namespace.
If \fIpattern\fR is specified,
@@ -280,6 +354,7 @@ within; the matching pattern is taken to be the part after the last
namespace separator.
.TP
\fBinfo script\fR ?\fIfilename\fR?
+.
If a Tcl script file is currently being evaluated (i.e. there is a
call to \fBTcl_EvalFile\fR active or there is an active invocation
of the \fBsource\fR command), then this command returns the name
@@ -290,16 +365,19 @@ useful in virtual file system applications.
Otherwise the command returns an empty string.
.TP
\fBinfo sharedlibextension\fR
+.
Returns the extension used on this platform for the names of files
containing shared libraries (for example, \fB.so\fR under Solaris).
If shared libraries are not supported on this platform then an empty
string is returned.
.TP
\fBinfo tclversion\fR
-Returns the value of the global variable \fBtcl_version\fR; see
-the \fBtclvars\fR manual entry for more information.
+.
+Returns the value of the global variable \fBtcl_version\fR, which holds the
+major and minor version of the Tcl library by default.
.TP
\fBinfo vars\fR ?\fIpattern\fR?
+.
If \fIpattern\fR is not specified,
returns a list of all the names of currently-visible variables.
This includes locals and currently-visible globals.
@@ -319,7 +397,291 @@ Note that a currently-visible variable may not yet
.QW exist
if it has not
been set (e.g. a variable declared but not set by \fBvariable\fR).
-.SH EXAMPLE
+.SS "CLASS INTROSPECTION"
+.VS 8.6
+.PP
+The following \fIsubcommand\fR values are supported by \fBinfo class\fR:
+.VE 8.6
+.TP
+\fBinfo class call\fI class method\fR
+.VS
+Returns a description of the method implementations that are used to provide a
+stereotypical instance of \fIclass\fR's implementation of \fImethod\fR
+(stereotypical instances being objects instantiated by a class without having
+any object-specific definitions added). This consists of a list of lists of
+four elements, where each sublist consists of a word that describes the
+general type of method implementation (being one of \fBmethod\fR for an
+ordinary method, \fBfilter\fR for an applied filter, and \fBunknown\fR for a
+method that is invoked as part of unknown method handling), a word giving the
+name of the particular method invoked (which is always the same as
+\fImethod\fR for the \fBmethod\fR type, and
+.QW \fBunknown\fR
+for the \fBunknown\fR type), a word giving the fully qualified name of the
+class that defined the method, and a word describing the type of method
+implementation (see \fBinfo class methodtype\fR).
+.RS
+.PP
+Note that there is no inspection of whether the method implementations
+actually use \fBnext\fR to transfer control along the call chain.
+.RE
+.VE 8.6
+.TP
+\fBinfo class constructor\fI class\fR
+.VS 8.6
+This subcommand returns a description of the definition of the constructor of
+class \fIclass\fR. The definition is described as a two element list; the first
+element is the list of arguments to the constructor in a form suitable for
+passing to another call to \fBproc\fR or a method definition, and the second
+element is the body of the constructor. If no constructor is present, this
+returns the empty list.
+.VE 8.6
+.TP
+\fBinfo class definition\fI class method\fR
+.VS 8.6
+This subcommand returns a description of the definition of the method named
+\fImethod\fR of class \fIclass\fR. The definition is described as a two element
+list; the first element is the list of arguments to the method in a form
+suitable for passing to another call to \fBproc\fR or a method definition, and
+the second element is the body of the method.
+.VE 8.6
+.TP
+\fBinfo class destructor\fI class\fR
+.VS 8.6
+This subcommand returns the body of the destructor of class \fIclass\fR. If no
+destructor is present, this returns the empty string.
+.VE 8.6
+.TP
+\fBinfo class filters\fI class\fR
+.VS 8.6
+This subcommand returns the list of filter methods set on the class.
+.VE 8.6
+.TP
+\fBinfo class forward\fI class method\fR
+.VS 8.6
+This subcommand returns the argument list for the method forwarding called
+\fImethod\fR that is set on the class called \fIclass\fR.
+.VE 8.6
+.TP
+\fBinfo class instances\fI class\fR ?\fIpattern\fR?
+.VS 8.6
+This subcommand returns a list of instances of class \fIclass\fR. If the
+optional \fIpattern\fR argument is present, it constrains the list of returned
+instances to those that match it according to the rules of \fBstring match\fR.
+.VE 8.6
+.TP
+\fBinfo class methods\fI class\fR ?\fIoptions...\fR?
+.VS 8.6
+This subcommand returns a list of all public (i.e. exported) methods of the
+class called \fIclass\fR. Any of the following \fIoption\fRs may be
+specified, controlling exactly which method names are returned:
+.RS
+.VE 8.6
+.TP
+\fB\-all\fR
+.VS 8.6
+If the \fB\-all\fR flag is given, the list of methods will include those
+methods defined not just by the class, but also by the class's superclasses
+and mixins.
+.VE 8.6
+.TP
+\fB\-private\fR
+.VS 8.6
+If the \fB\-private\fR flag is given, the list of methods will also include
+the private (i.e. non-exported) methods of the class (and superclasses and
+mixins, if \fB\-all\fR is also given).
+.RE
+.VE 8.6
+.TP
+\fBinfo class methodtype\fI class method\fR
+.VS 8.6
+This subcommand returns a description of the type of implementation used for
+the method named \fImethod\fR of class \fIclass\fR. When the result is
+\fBmethod\fR, further information can be discovered with \fBinfo class
+definition\fR, and when the result is \fBforward\fR, further information can
+be discovered with \fBinfo class forward\fR.
+.VE 8.6
+.TP
+\fBinfo class mixins\fI class\fR
+.VS 8.6
+This subcommand returns a list of all classes that have been mixed into the
+class named \fIclass\fR.
+.VE 8.6
+.TP
+\fBinfo class subclasses\fI class\fR ?\fIpattern\fR?
+.VS 8.6
+This subcommand returns a list of direct subclasses of class \fIclass\fR. If
+the optional \fIpattern\fR argument is present, it constrains the list of
+returned classes to those that match it according to the rules of
+\fBstring match\fR.
+.VE 8.6
+.TP
+\fBinfo class superclasses\fI class\fR
+.VS 8.6
+This subcommand returns a list of direct superclasses of class \fIclass\fR in
+inheritance precedence order.
+.VE 8.6
+.TP
+\fBinfo class variables\fI class\fR
+.VS 8.6
+This subcommand returns a list of all variables that have been declared for
+the class named \fIclass\fR (i.e. that are automatically present in the
+class's methods, constructor and destructor).
+.SS "OBJECT INTROSPECTION"
+.PP
+The following \fIsubcommand\fR values are supported by \fBinfo object\fR:
+.VE 8.6
+.TP
+\fBinfo object call\fI object method\fR
+.VS 8.6
+Returns a description of the method implementations that are used to provide
+\fIobject\fR's implementation of \fImethod\fR. This consists of a list of
+lists of four elements, where each sublist consists of a word that describes
+the general type of method implementation (being one of \fBmethod\fR for an
+ordinary method, \fBfilter\fR for an applied filter, and \fBunknown\fR for a
+method that is invoked as part of unknown method handling), a word giving the
+name of the particular method invoked (which is always the same as
+\fImethod\fR for the \fBmethod\fR type, and
+.QW \fBunknown\fR
+for the \fBunknown\fR type), a word giving what defined the method (the fully
+qualified name of the class, or the literal string \fBobject\fR if the method
+implementation is on an instance), and a word describing the type of method
+implementation (see \fBinfo object methodtype\fR).
+.RS
+.PP
+Note that there is no inspection of whether the method implementations
+actually use \fBnext\fR to transfer control along the call chain.
+.RE
+.VE 8.6
+.TP
+\fBinfo object class\fI object\fR ?\fIclassName\fR?
+.VS 8.6
+If \fIclassName\fR is unspecified, this subcommand returns class of the
+\fIobject\fR object. If \fIclassName\fR is present, this subcommand returns a
+boolean value indicating whether the \fIobject\fR is of that class.
+.VE 8.6
+.TP
+\fBinfo object definition\fI object method\fR
+.VS 8.6
+This subcommand returns a description of the definition of the method named
+\fImethod\fR of object \fIobject\fR. The definition is described as a two
+element list; the first element is the list of arguments to the method in a
+form suitable for passing to another call to \fBproc\fR or a method definition,
+and the second element is the body of the method.
+.VE 8.6
+.TP
+\fBinfo object filters\fI object\fR
+.VS 8.6
+This subcommand returns the list of filter methods set on the object.
+.VE 8.6
+.TP
+\fBinfo object forward\fI object method\fR
+.VS 8.6
+This subcommand returns the argument list for the method forwarding called
+\fImethod\fR that is set on the object called \fIobject\fR.
+.VE 8.6
+.TP
+\fBinfo object isa\fI category object\fR ?\fIarg\fR?
+.VS 8.6
+This subcommand tests whether an object belongs to a particular category,
+returning a boolean value that indicates whether the \fIobject\fR argument
+meets the criteria for the category. The supported categories are:
+.VE 8.6
+.RS
+.TP
+\fBinfo object isa class\fI object\fR
+.VS 8.6
+This returns whether \fIobject\fR is a class (i.e. an instance of
+\fBoo::class\fR or one of its subclasses).
+.VE 8.6
+.TP
+\fBinfo object isa metaclass\fI object\fR
+.VS 8.6
+This returns whether \fIobject\fR is a class that can manufacture classes
+(i.e. is \fBoo::class\fR or a subclass of it).
+.VE 8.6
+.TP
+\fBinfo object isa mixin\fI object class\fR
+.VS 8.6
+This returns whether \fIclass\fR is directly mixed into \fIobject\fR.
+.VE 8.6
+.TP
+\fBinfo object isa object\fI object\fR
+.VS 8.6
+This returns whether \fIobject\fR really is an object.
+.VE 8.6
+.TP
+\fBinfo object isa typeof\fI object class\fR
+.VS 8.6
+This returns whether \fIclass\fR is the type of \fIobject\fR (i.e. whether
+\fIobject\fR is an instance of \fIclass\fR or one of its subclasses, whether
+direct or indirect).
+.RE
+.VE 8.6
+.TP
+\fBinfo object methods\fI object\fR ?\fIoption...\fR?
+.VS 8.6
+This subcommand returns a list of all public (i.e. exported) methods of the
+object called \fIobject\fR. Any of the following \fIoption\fRs may be
+specified, controlling exactly which method names are returned:
+.RS
+.VE 8.6
+.TP
+\fB\-all\fR
+.VS 8.6
+If the \fB\-all\fR flag is given, the list of methods will include those
+methods defined not just by the object, but also by the object's class and
+mixins, plus the superclasses of those classes.
+.VE 8.6
+.TP
+\fB\-private\fR
+.VS 8.6
+If the \fB\-private\fR flag is given, the list of methods will also include
+the private (i.e. non-exported) methods of the object (and classes, if
+\fB\-all\fR is also given).
+.RE
+.VE 8.6
+.TP
+\fBinfo object methodtype\fI object method\fR
+.VS 8.6
+This subcommand returns a description of the type of implementation used for
+the method named \fImethod\fR of object \fIobject\fR. When the result is
+\fBmethod\fR, further information can be discovered with \fBinfo object
+definition\fR, and when the result is \fBforward\fR, further information can
+be discovered with \fBinfo object forward\fR.
+.VE 8.6
+.TP
+\fBinfo object mixins\fI object\fR
+.VS 8.6
+This subcommand returns a list of all classes that have been mixed into the
+object named \fIobject\fR.
+.VE 8.6
+.TP
+\fBinfo object namespace\fI object\fR
+.VS 8.6
+This subcommand returns the name of the internal namespace of the object named
+\fIobject\fR.
+.VE 8.6
+.TP
+\fBinfo object variables\fI object\fR
+.VS 8.6
+This subcommand returns a list of all variables that have been declared for
+the object named \fIobject\fR (i.e. that are automatically present in the
+object's methods).
+.VE 8.6
+.TP
+\fBinfo object vars\fI object\fR ?\fIpattern\fR?
+.VS 8.6
+This subcommand returns a list of all variables in the private namespace of
+the object named \fIobject\fR. If the optional \fIpattern\fR argument is
+given, it is a filter (in the syntax of a \fBstring match\fR glob pattern)
+that constrains the list of variables returned. Note that this is different
+from the list returned by \fBinfo object variables\fR; that can include
+variables that are currently unset, whereas this can include variables that
+are not automatically included by any of \fIobject\fR's methods (or those of
+its class, superclasses or mixins).
+.VE 8.6
+.SH EXAMPLES
+.PP
This command prints out a procedure suitable for saving in a Tcl
script:
.PP
@@ -339,10 +701,77 @@ proc printProc {procName} {
puts [lappend result $formals [\fBinfo body\fR $procName]]
}
.CE
+.SS "EXAMPLES WITH OBJECTS"
+.VS 8.6
+.PP
+Every object necessarily knows what its class is; this information is
+trivially extractable through introspection:
+.PP
+.CS
+oo::class create c
+c create o
+puts [\fBinfo object class\fR o]
+ \fI\(-> prints "::c"\fR
+puts [\fBinfo object class\fR c]
+ \fI\(-> prints "::oo::class"\fR
+.CE
+.PP
+The introspection capabilities can be used to discover what class implements a
+method and get how it is defined. This procedure illustrates how:
+.PP
+.CS
+proc getDef {obj method} {
+ foreach inf [\fBinfo object call\fR $obj $method] {
+ lassign $inf calltype name locus methodtype
+ # Assume no forwards or filters, and hence no $calltype
+ # or $methodtype checks...
+ if {$locus eq "object"} {
+ return [\fBinfo object definition\fR $obj $name]
+ } else {
+ return [\fBinfo class definition\fR $locus $name]
+ }
+ }
+ error "no definition for $method"
+}
+.CE
+.PP
+This is an alternate way of looking up the definition; it is implemented by
+manually scanning the list of methods up the inheritance tree. This code
+assumes that only single inheritance is in use, and that there is no complex
+use of mixed-in classes (in such cases, using \fBinfo object call\fR as above
+is the simplest way of doing this by far):
+.PP
+.CS
+proc getDef {obj method} {
+ if {$method in [\fBinfo object methods\fR $obj]} {
+ # Assume no forwards
+ return [\fBinfo object definition\fR $obj $method]
+ }
+ set cls [\fBinfo object class\fR $obj]
+ while {$method ni [\fBinfo class methods\fR $cls]} {
+ # Assume the simple case
+ set cls [lindex [\fBinfo class superclass\fR $cls] 0]
+ if {$cls eq ""} {
+ error "no definition for $method"
+ }
+ }
+ # Assume no forwards
+ return [\fBinfo class definition\fR $cls $method]
+}
+.CE
+.VE 8.6
.SH "SEE ALSO"
-global(n), proc(n)
+.VS 8.6
+global(n), oo::class(n), oo::define(n), oo::object(n), proc(n), self(n),
+.VE 8.6
+tcl_library(n), tcl_patchLevel(n), tcl_version(n)
.SH KEYWORDS
-command, information, interpreter, level, namespace, procedure, variable
-.\" Local Variables:
-.\" mode: nroff
-.\" End:
+command, information, interpreter, introspection, level, namespace,
+.VS 8.6
+object,
+.VE 8.6
+procedure, variable
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/interp.n b/doc/interp.n
index c753ee9..6ce10ee 100644
--- a/doc/interp.n
+++ b/doc/interp.n
@@ -1,12 +1,13 @@
'\"
'\" Copyright (c) 1995-1996 Sun Microsystems, Inc.
'\" Copyright (c) 2004 Donal K. Fellows
+'\" Copyright (c) 2006-2008 Joe Mistachkin.
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
-.TH interp n 7.6 Tcl "Tcl Built-In Commands"
+.TH interp n 8.6 Tcl "Tcl Built-In Commands"
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
@@ -33,10 +34,7 @@ command to be invoked in its master interpreter or in another slave
interpreter. The only other connections between interpreters are
through environment variables (the \fBenv\fR variable), which are
normally shared among all interpreters in the application,
-.VS 8.5
-and by resource limit exceeded callbacks.
-.VE 8.5
-Note that the
+and by resource limit exceeded callbacks. Note that the
name space for files (such as the names returned by the \fBopen\fR command)
is no longer shared between interpreters. Explicit commands are provided to
share files and to transfer references to open files from one interpreter
@@ -63,10 +61,18 @@ on how the alias mechanism works.
A qualified interpreter name is a proper Tcl lists containing a subset of its
ancestors in the interpreter hierarchy, terminated by the string naming the
interpreter in its immediate master. Interpreter names are relative to the
-interpreter in which they are used. For example, if \fBa\fR is a slave of
-the current interpreter and it has a slave \fBa1\fR, which in turn has a
-slave \fBa11\fR, the qualified name of \fBa11\fR in \fBa\fR is the list
-\fBa1 a11\fR.
+interpreter in which they are used. For example, if
+.QW \fBa\fR
+is a slave of the current interpreter and it has a slave
+.QW \fBa1\fR ,
+which in turn has a slave
+.QW \fBa11\fR ,
+the qualified name of
+.QW \fBa11\fR
+in
+.QW \fBa\fR
+is the list
+.QW "\fBa1 a11\fR" .
.PP
The \fBinterp\fR command, described below, accepts qualified interpreter
names as arguments; the interpreter in which the command is being evaluated
@@ -83,6 +89,7 @@ channels between interpreters. It can have any of several forms, depending
on the \fIsubcommand\fR argument:
.TP
\fBinterp\fR \fBalias\fR \fIsrcPath\fR \fIsrcToken\fR
+.
Returns a Tcl list whose elements are the \fItargetCmd\fR and
\fIarg\fRs associated with the alias represented by \fIsrcToken\fR
(this is the value returned when the alias was
@@ -90,6 +97,7 @@ created; it is possible that the name of the source command in the
slave is different from \fIsrcToken\fR).
.TP
\fBinterp\fR \fBalias\fR \fIsrcPath\fR \fIsrcToken\fR \fB{}\fR
+.
Deletes the alias for \fIsrcToken\fR in the slave interpreter identified by
\fIsrcPath\fR.
\fIsrcToken\fR refers to the value returned when the alias
@@ -97,6 +105,7 @@ was created; if the source command has been renamed, the renamed
command will be deleted.
.TP
\fBinterp\fR \fBalias\fR \fIsrcPath\fR \fIsrcCmd\fR \fItargetPath\fR \fItargetCmd \fR?\fIarg arg ...\fR?
+.
This command creates an alias between one slave and another (see the
\fBalias\fR slave command below for creating aliases between a slave
and its master). In this command, either of the slave interpreters
@@ -107,10 +116,12 @@ invoking the command.
interpreter. For example,
.QW "\fBa b\fR"
identifies an interpreter
-\fBb\fR, which is a slave of interpreter \fBa\fR, which is a slave
-of the invoking interpreter. An empty list specifies the interpreter
-invoking the command. \fIsrcCmd\fR gives the name of a new
-command, which will be created in the source interpreter.
+.QW \fBb\fR ,
+which is a slave of interpreter
+.QW \fBa\fR ,
+which is a slave of the invoking interpreter. An empty list specifies
+the interpreter invoking the command. \fIsrcCmd\fR gives the name of
+a new command, which will be created in the source interpreter.
\fITargetPath\fR and \fItargetCmd\fR specify a target interpreter
and command, and the \fIarg\fR arguments, if any, specify additional
arguments to \fItargetCmd\fR which are prepended to any arguments specified
@@ -126,6 +137,7 @@ The command returns a token that uniquely identifies the command created
does not have to be equal to \fIsrcCmd\fR.
.TP
\fBinterp\fR \fBaliases \fR?\fIpath\fR?
+.
This command returns a Tcl list of the tokens of all the source commands for
aliases defined in the interpreter identified by \fIpath\fR. The tokens
correspond to the values returned when
@@ -133,16 +145,32 @@ the aliases were created (which may not be the same
as the current names of the commands).
.TP
\fBinterp bgerror \fIpath\fR ?\fIcmdPrefix\fR?
-.VS 8.5
-This command either gets or sets the current background error handler
+.
+This command either gets or sets the current background exception handler
for the interpreter identified by \fIpath\fR. If \fIcmdPrefix\fR is
-absent, the current background error handler is returned, and if it is
+absent, the current background exception handler is returned, and if it is
present, it is a list of words (of minimum length one) that describes
-what to set the interpreter's background error to. See the
-\fBBACKGROUND ERROR HANDLING\fR section for more details.
-.VE 8.5
+what to set the interpreter's background exception handler to. See the
+\fBBACKGROUND EXCEPTION HANDLING\fR section for more details.
+.TP
+\fBinterp\fR \fBcancel \fR?\fB\-unwind\fR? ?\fB\-\|\-\fR? ?\fIpath\fR? ?\fIresult\fR?
+.VS 8.6
+Cancels the script being evaluated in the interpreter identified by
+\fIpath\fR. Without the \fB\-unwind\fR switch the evaluation stack for
+the interpreter is unwound until an enclosing catch command is found or
+there are no further invocations of the interpreter left on the call
+stack. With the \fB\-unwind\fR switch the evaluation stack for the
+interpreter is unwound without regard to any intervening catch command
+until there are no further invocations of the interpreter left on the
+call stack. The \fB\-\|\-\fR switch can be used to mark the end of
+switches; it may be needed if \fIpath\fR is an unusual value such
+as \fB\-safe\fR. If \fIresult\fR is present, it will be used as the
+error message string; otherwise, a default error message string will be
+used.
+.VE 8.6
.TP
\fBinterp\fR \fBcreate \fR?\fB\-safe\fR? ?\fB\-\|\-\fR? ?\fIpath\fR?
+.
Creates a slave interpreter identified by \fIpath\fR and a new command,
called a \fIslave command\fR. The name of the slave command is the last
component of \fIpath\fR. The new slave interpreter and the slave command
@@ -166,18 +194,18 @@ given name already exists in this master.
The initial recursion limit of the slave interpreter is set to the
current recursion limit of its parent interpreter.
.TP
-\fBinterp\fR \fBdebug \fIpath\fR ?\fI\-frame\fR ?\fIbool\fR??
+\fBinterp\fR \fBdebug \fIpath\fR ?\fB\-frame\fR ?\fIbool\fR??
.
Controls whether frame-level stack information is captured in the
slave interpreter identified by \fIpath\fR. If no arguments are
-given, option and current setting are returned. If \fI\-frame\fR
+given, option and current setting are returned. If \fB\-frame\fR
is given, the debug setting is set to the given boolean if provided
and the current setting is returned.
This only effects the output of \fBinfo frame\fR, in that exact
frame-level information for command invocation at the bytecode level
is only captured with this setting on.
-.PP
.RS
+.PP
For example, with code like
.PP
.CS
@@ -202,9 +230,14 @@ extends so far that the system will be able to determine the file and
absolute line number of this command, and return a frame of type
\fBsource\fR. This more exact information is paid for with slower
execution of all commands.
+.PP
+Note that once it is on, this flag cannot be switched back off: such
+attempts are silently ignored. This is needed to maintain the
+consistency of the underlying interpreter's state.
.RE
.TP
\fBinterp\fR \fBdelete \fR?\fIpath ...?\fR
+.
Deletes zero or more interpreters given by the optional \fIpath\fR
arguments, and for each interpreter, it also deletes its slaves. The
command also deletes the slave command for each interpreter deleted.
@@ -212,6 +245,7 @@ For each \fIpath\fR argument, if no interpreter by that name
exists, the command raises an error.
.TP
\fBinterp\fR \fBeval\fR \fIpath arg \fR?\fIarg ...\fR?
+.
This command concatenates all of the \fIarg\fR arguments in the same
fashion as the \fBconcat\fR command, then evaluates the resulting string as
a Tcl script in the slave interpreter identified by \fIpath\fR. The result
@@ -225,11 +259,13 @@ the slave that find out information about the slave's current state
and stack frame.
.TP
\fBinterp exists \fIpath\fR
+.
Returns \fB1\fR if a slave interpreter by the specified \fIpath\fR
exists in this master, \fB0\fR otherwise. If \fIpath\fR is omitted, the
invoking interpreter is used.
.TP
\fBinterp expose \fIpath\fR \fIhiddenName\fR ?\fIexposedCmdName\fR?
+.
Makes the hidden command \fIhiddenName\fR exposed, eventually bringing
it back under a new \fIexposedCmdName\fR name (this name is currently
accepted only if it is a valid global name space name without any ::),
@@ -240,6 +276,7 @@ fails.
Hidden commands are explained in more detail in \fBHIDDEN COMMANDS\fR, below.
.TP
\fBinterp\fR \fBhide\fR \fIpath\fR \fIexposedCmdName\fR ?\fIhiddenCmdName\fR?
+.
Makes the exposed command \fIexposedCmdName\fR hidden, renaming
it to the hidden command \fIhiddenCmdName\fR, or keeping the same name if
\fIhiddenCmdName\fR is not given, in the interpreter denoted
@@ -255,10 +292,12 @@ command, by making the current namespace be different from the global one.
Hidden commands are explained in more detail in \fBHIDDEN COMMANDS\fR, below.
.TP
\fBinterp\fR \fBhidden\fR \fIpath\fR
+.
Returns a list of the names of all hidden commands in the interpreter
identified by \fIpath\fR.
.TP
\fBinterp\fR \fBinvokehidden\fR \fIpath\fR ?\fI\-option ...\fR? \fIhiddenCmdName\fR ?\fIarg ...\fR?
+.
Invokes the hidden command \fIhiddenCmdName\fR with the arguments supplied
in the interpreter denoted by \fIpath\fR. No substitutions or evaluation
are applied to the arguments. Three \fI\-option\fRs are supported, all
@@ -279,8 +318,13 @@ Note that the hidden command will be executed (by default) in the
current context stack frame of the \fIpath\fR interpreter.
Hidden commands are explained in more detail in \fBHIDDEN COMMANDS\fR, below.
.TP
+\fBinterp issafe\fR ?\fIpath\fR?
+.
+Returns \fB1\fR if the interpreter identified by the specified \fIpath\fR
+is safe, \fB0\fR otherwise.
+.TP
\fBinterp\fR \fBlimit\fR \fIpath\fR \fIlimitType\fR ?\fI\-option\fR? ?\fIvalue\fR \fI...\fR?
-.VS 8.5
+.
Sets up, manipulates and queries the configuration of the resource
limit \fIlimitType\fR for the interpreter denoted by \fIpath\fR. If
no \fI\-option\fR is specified, return the current configuration of the
@@ -288,13 +332,9 @@ limit. If \fI\-option\fR is the sole argument, return the value of that
option. Otherwise, a list of \fI\-option\fR/\fIvalue\fR argument pairs
must supplied. See \fBRESOURCE LIMITS\fR below for a more detailed
explanation of what limits and options are supported.
-.VE 8.5
-.TP
-\fBinterp issafe\fR ?\fIpath\fR?
-Returns \fB1\fR if the interpreter identified by the specified \fIpath\fR
-is safe, \fB0\fR otherwise.
.TP
\fBinterp marktrusted\fR \fIpath\fR
+.
Marks the interpreter identified by \fIpath\fR as trusted. Does
not expose the hidden commands. This command can only be invoked from a
trusted interpreter.
@@ -302,10 +342,11 @@ The command has no effect if the interpreter identified by \fIpath\fR is
already trusted.
.TP
\fBinterp\fR \fBrecursionlimit\fR \fIpath\fR ?\fInewlimit\fR?
+.
Returns the maximum allowable nesting depth for the interpreter
specified by \fIpath\fR. If \fInewlimit\fR is specified,
the interpreter recursion limit will be set so that nesting
-of more than \fInewlimit\fR calls to \fBTcl_Eval()\fR
+of more than \fInewlimit\fR calls to \fBTcl_Eval\fR
and related procedures in that interpreter will return an error.
The \fInewlimit\fR value is also returned.
The \fInewlimit\fR value must be a positive integer between 1 and the
@@ -321,6 +362,7 @@ the maximum size of the C stack.
.RE
.TP
\fBinterp\fR \fBshare\fR \fIsrcPath channelId destPath\fR
+.
Causes the IO channel identified by \fIchannelId\fR to become shared
between the interpreter identified by \fIsrcPath\fR and the interpreter
identified by \fIdestPath\fR. Both interpreters have the same permissions
@@ -330,11 +372,13 @@ channels accessible in an interpreter are automatically closed when an
interpreter is destroyed.
.TP
\fBinterp\fR \fBslaves\fR ?\fIpath\fR?
+.
Returns a Tcl list of the names of all the slave interpreters associated
with the interpreter identified by \fIpath\fR. If \fIpath\fR is omitted,
the invoking interpreter is used.
.TP
\fBinterp\fR \fBtarget\fR \fIpath alias\fR
+.
Returns a Tcl list describing the target interpreter for an alias. The
alias is specified with an interpreter path and source command name, just
as in \fBinterp alias\fR above. The name of the target interpreter is
@@ -345,6 +389,7 @@ invoking interpreter or one of its descendants then an error is generated.
The target command does not have to be defined at the time of this invocation.
.TP
\fBinterp\fR \fBtransfer\fR \fIsrcPath channelId destPath\fR
+.
Causes the IO channel identified by \fIchannelId\fR to become available in
the interpreter identified by \fIdestPath\fR and unavailable in the
interpreter identified by \fIsrcPath\fR.
@@ -355,20 +400,24 @@ new Tcl command is created in the master interpreter with the same
name as the new interpreter. This command may be used to invoke
various operations on the interpreter. It has the following
general form:
+.PP
.CS
\fIslave command \fR?\fIarg arg ...\fR?
.CE
+.PP
\fISlave\fR is the name of the interpreter, and \fIcommand\fR
and the \fIarg\fRs determine the exact behavior of the command.
The valid forms of this command are:
.TP
\fIslave \fBaliases\fR
+.
Returns a Tcl list whose elements are the tokens of all the
aliases in \fIslave\fR. The tokens correspond to the values returned when
the aliases were created (which may not be the same
as the current names of the commands).
.TP
\fIslave \fBalias \fIsrcToken\fR
+.
Returns a Tcl list whose elements are the \fItargetCmd\fR and
\fIarg\fRs associated with the alias represented by \fIsrcToken\fR
(this is the value returned when the alias was
@@ -376,12 +425,14 @@ created; it is possible that the actual source command in the
slave is different from \fIsrcToken\fR).
.TP
\fIslave \fBalias \fIsrcToken \fB{}\fR
+.
Deletes the alias for \fIsrcToken\fR in the slave interpreter.
\fIsrcToken\fR refers to the value returned when the alias
was created; if the source command has been renamed, the renamed
command will be deleted.
.TP
\fIslave \fBalias \fIsrcCmd targetCmd \fR?\fIarg ..\fR?
+.
Creates an alias such that whenever \fIsrcCmd\fR is invoked
in \fIslave\fR, \fItargetCmd\fR is invoked in the master.
The \fIarg\fR arguments will be passed to \fItargetCmd\fR as additional
@@ -393,16 +444,16 @@ The command returns a token that uniquely identifies the command created
does not have to be equal to \fIsrcCmd\fR.
.TP
\fIslave \fBbgerror\fR ?\fIcmdPrefix\fR?
-.VS 8.5
-This command either gets or sets the current background error handler
+.
+This command either gets or sets the current background exception handler
for the \fIslave\fR interpreter. If \fIcmdPrefix\fR is
-absent, the current background error handler is returned, and if it is
+absent, the current background exception handler is returned, and if it is
present, it is a list of words (of minimum length one) that describes
-what to set the interpreter's background error to. See the
-\fBBACKGROUND ERROR HANDLING\fR section for more details.
-.VE 8.5
+what to set the interpreter's background exception handler to. See the
+\fBBACKGROUND EXCEPTION HANDLING\fR section for more details.
.TP
\fIslave \fBeval \fIarg \fR?\fIarg ..\fR?
+.
This command concatenates all of the \fIarg\fR arguments in
the same fashion as the \fBconcat\fR command, then evaluates
the resulting string as a Tcl script in \fIslave\fR.
@@ -416,6 +467,7 @@ the slave that find out information about the slave's current state
and stack frame.
.TP
\fIslave \fBexpose \fIhiddenName \fR?\fIexposedCmdName\fR?
+.
This command exposes the hidden command \fIhiddenName\fR, eventually bringing
it back under a new \fIexposedCmdName\fR name (this name is currently
accepted only if it is a valid global name space name without any ::),
@@ -425,6 +477,7 @@ fails.
For more details on hidden commands, see \fBHIDDEN COMMANDS\fR, below.
.TP
\fIslave \fBhide \fIexposedCmdName\fR ?\fIhiddenCmdName\fR?
+.
This command hides the exposed command \fIexposedCmdName\fR, renaming it to
the hidden command \fIhiddenCmdName\fR, or keeping the same name if the
argument is not given, in the \fIslave\fR interpreter.
@@ -439,9 +492,11 @@ command, by making the current namespace be different from the global one.
For more details on hidden commands, see \fBHIDDEN COMMANDS\fR, below.
.TP
\fIslave \fBhidden\fR
+.
Returns a list of the names of all hidden commands in \fIslave\fR.
.TP
\fIslave \fBinvokehidden\fR ?\fI\-option ...\fR? \fIhiddenName \fR?\fIarg ..\fR?
+.
This command invokes the hidden command \fIhiddenName\fR with the
supplied arguments, in \fIslave\fR. No substitutions or evaluations are
applied to the arguments. Three \fI\-option\fRs are supported, all
@@ -463,10 +518,11 @@ For more details on hidden commands,
see \fBHIDDEN COMMANDS\fR, below.
.TP
\fIslave \fBissafe\fR
+.
Returns \fB1\fR if the slave interpreter is safe, \fB0\fR otherwise.
.TP
\fIslave \fBlimit\fR \fIlimitType\fR ?\fI\-option\fR? ?\fIvalue\fR \fI...\fR?
-.VS 8.5
+.
Sets up, manipulates and queries the configuration of the resource
limit \fIlimitType\fR for the slave interpreter. If no \fI\-option\fR
is specified, return the current configuration of the limit. If
@@ -474,15 +530,16 @@ is specified, return the current configuration of the limit. If
Otherwise, a list of \fI\-option\fR/\fIvalue\fR argument pairs must
supplied. See \fBRESOURCE LIMITS\fR below for a more detailed explanation of
what limits and options are supported.
-.VE 8.5
.TP
\fIslave \fBmarktrusted\fR
+.
Marks the slave interpreter as trusted. Can only be invoked by a
trusted interpreter. This command does not expose any hidden
commands in the slave interpreter. The command has no effect if the slave
is already trusted.
.TP
\fIslave\fR \fBrecursionlimit\fR ?\fInewlimit\fR?
+.
Returns the maximum allowable nesting depth for the \fIslave\fR interpreter.
If \fInewlimit\fR is specified, the recursion limit in \fIslave\fR will be
set so that nesting of more than \fInewlimit\fR calls to \fBTcl_Eval()\fR
@@ -710,7 +767,6 @@ namespace even if the current namespace is not the global one. This
prevents slaves from fooling a master interpreter into hiding the wrong
command, by making the current namespace be different from the global one.
.SH "RESOURCE LIMITS"
-.VS 8.5
.PP
Every interpreter has two kinds of resource limits that may be imposed by any
master interpreter upon its slaves. Command limits (of type \fBcommand\fR)
@@ -735,50 +791,46 @@ catch and handle.
Every limit has a number of options associated with it, some of which are
common across all kinds of limits, and others of which are particular to the
kind of limit.
-.VE 8.5
.TP
\fB\-command\fR
-.VS 8.5
+.
This option (common for all limit types) specifies (if non-empty) a Tcl script
to be executed in the global namespace of the interpreter reading and writing
the option when the particular limit in the limited interpreter is exceeded.
The callback may modify the limit on the interpreter if it wishes the limited
-interpreter to continue executing. If the callback generates an error, it is
-reported through the background error mechanism (see \fBBACKGROUND ERROR
-HANDLING\fR). Note that the callbacks defined by one interpreter are
+interpreter to continue executing. If the callback generates an exception, it
+is reported through the background exception mechanism (see
+\fBBACKGROUND EXCEPTION HANDLING\fR).
+Note that the callbacks defined by one interpreter are
completely isolated from the callbacks defined by another, and that the order
in which those callbacks are called is undefined.
-.VE 8.5
.TP
\fB\-granularity\fR
-.VS 8.5
+.
This option (common for all limit types) specifies how frequently (out of the
points when the Tcl interpreter is in a consistent state where limit checking
is possible) that the limit is actually checked. This allows the tuning of how
frequently a limit is checked, and hence how often the limit-checking overhead
(which may be substantial in the case of time limits) is incurred.
-.VE 8.5
.TP
\fB\-milliseconds\fR
-.VS 8.5
+.
This option specifies the number of milliseconds after the moment defined in
the \fB\-seconds\fR option that the time limit will fire. It should only ever
be specified in conjunction with the \fB\-seconds\fR option (whether it was
set previously or is being set this invocation.)
-.VE 8.5
.TP
\fB\-seconds\fR
-.VS 8.5
+.
This option specifies the number of seconds after the epoch (see \fBclock
seconds\fR) that the time limit for the interpreter will be triggered. The
limit will be triggered at the start of the second unless specified at a
sub-second level using the \fB\-milliseconds\fR option. This option may be the
empty string, which indicates that a time limit is not set for the
interpreter.
-.VE 8.5
.TP
\fB\-value\fR
-.VS 8.5
+.
This option specifies the number of commands that the interpreter may execute
before triggering the command limit. This option may be the empty string,
which indicates that a command limit is not set for the interpreter.
@@ -791,29 +843,32 @@ these conditions, it should hide the \fBinterp\fR command in the child and
then use aliases and the \fBinterp invokehidden\fR subcommand to provide such
access as it chooses to the \fBinterp\fR command to the limited master as
necessary.
-.SH "BACKGROUND ERROR HANDLING"
+.SH "BACKGROUND EXCEPTION HANDLING"
.PP
-When an error happens in a situation where it cannot be reported directly up
+When an exception happens in a situation where it cannot be reported directly up
the stack (e.g. when processing events in an \fBupdate\fR or \fBvwait\fR call)
-the error is instead reported through the background error handling mechanism.
-Every interpreter has a background error handler registered; the default error
+the exception is instead reported through the background exception handling mechanism.
+Every interpreter has a background exception handler registered; the default exception
handler arranges for the \fBbgerror\fR command in the interpreter's global
-namespace to be called, but other error handlers may be installed and process
-background errors in substantially different ways.
+namespace to be called, but other exception handlers may be installed and process
+background exceptions in substantially different ways.
.PP
-A background error handler consists of a non-empty list of words to which will
+A background exception handler consists of a non-empty list of words to which will
be appended two further words at invocation time. The first word will be the
-error message string, and the second will a dictionary of return options (this
-is also the sort of information that can be obtained by trapping a normal
-error using \fBcatch\fR of course.) The resulting list will then be executed
+interpreter result at time of the exception, typically an error message,
+and the second will be the dictionary of return options at the time of
+the exception. These are the same values that \fBcatch\fR can capture
+when it controls script evaluation in a non-background situation.
+The resulting list will then be executed
in the interpreter's global namespace without further substitutions being
performed.
-.VE 8.5
.SH CREDITS
The safe interpreter mechanism is based on the Safe-Tcl prototype implemented
by Nathaniel Borenstein and Marshall Rose.
.SH EXAMPLES
+.PP
Creating and using an alias for a command in the current interpreter:
+.PP
.CS
\fBinterp alias\fR {} getIndex {} lsearch {alpha beta gamma delta}
set idx [getIndex delta]
@@ -821,32 +876,35 @@ set idx [getIndex delta]
.PP
Executing an arbitrary command in a safe interpreter where every
invocation of \fBlappend\fR is logged:
+.PP
.CS
set i [\fBinterp create\fR -safe]
\fBinterp hide\fR $i lappend
\fBinterp alias\fR $i lappend {} loggedLappend $i
proc loggedLappend {i args} {
- puts "logged invocation of lappend $args"
- \fBinterp invokehidden\fR $i lappend {*}$args
+ puts "logged invocation of lappend $args"
+ \fBinterp invokehidden\fR $i lappend {*}$args
}
\fBinterp eval\fR $i $someUntrustedScript
.CE
.PP
-.VS 8.5
Setting a resource limit on an interpreter so that an infinite loop
terminates.
+.PP
.CS
set i [\fBinterp create\fR]
\fBinterp limit\fR $i command -value 1000
\fBinterp eval\fR $i {
- set x 0
- while {1} {
- puts "Counting up... [incr x]"
- }
+ set x 0
+ while {1} {
+ puts "Counting up... [incr x]"
+ }
}
.CE
-.VE 8.5
.SH "SEE ALSO"
-bgerror(n), load(n), safe(n), Tcl_CreateSlave(3)
+bgerror(n), load(n), safe(n), Tcl_CreateSlave(3), Tcl_Eval(3), Tcl_BackgroundException(3)
.SH KEYWORDS
alias, master interpreter, safe interpreter, slave interpreter
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/join.n b/doc/join.n
index 582b730..1b23667 100644
--- a/doc/join.n
+++ b/doc/join.n
@@ -14,7 +14,6 @@ join \- Create a string by joining together list elements
.SH SYNOPSIS
\fBjoin \fIlist \fR?\fIjoinString\fR?
.BE
-
.SH DESCRIPTION
.PP
The \fIlist\fR argument must be a valid Tcl list.
@@ -23,7 +22,9 @@ formed by joining all of the elements of \fIlist\fR together with
\fIjoinString\fR separating each adjacent pair of elements.
The \fIjoinString\fR argument defaults to a space character.
.SH EXAMPLES
+.PP
Making a comma-separated list:
+.PP
.CS
set data {1 2 3 4 5}
\fBjoin\fR $data ", "
@@ -31,14 +32,13 @@ set data {1 2 3 4 5}
.CE
.PP
Using \fBjoin\fR to flatten a list by a single level:
+.PP
.CS
set data {1 {2 3} 4 {5 {6 7} 8}}
\fBjoin\fR $data
\fB\(-> 1 2 3 4 5 {6 7} 8\fR
.CE
-
.SH "SEE ALSO"
list(n), lappend(n), split(n)
-
.SH KEYWORDS
element, join, list, separator
diff --git a/doc/lappend.n b/doc/lappend.n
index dbed3bb..9bfab72 100644
--- a/doc/lappend.n
+++ b/doc/lappend.n
@@ -15,7 +15,6 @@ lappend \- Append list elements onto a variable
.SH SYNOPSIS
\fBlappend \fIvarName \fR?\fIvalue value value ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command treats the variable given by \fIvarName\fR as a list
@@ -32,7 +31,9 @@ is much more efficient than
.QW "\fBset a [concat $a [list $b]]\fR"
when \fB$a\fR is long.
.SH EXAMPLE
+.PP
Using \fBlappend\fR to build up a list of numbers.
+.PP
.CS
% set var 1
1
@@ -41,10 +42,8 @@ Using \fBlappend\fR to build up a list of numbers.
% \fBlappend\fR var 3 4 5
1 2 3 4 5
.CE
-
.SH "SEE ALSO"
list(n), lindex(n), linsert(n), llength(n), lset(n),
lsort(n), lrange(n)
-
.SH KEYWORDS
append, element, list, variable
diff --git a/doc/lassign.n b/doc/lassign.n
index b791feb..6f5042b 100644
--- a/doc/lassign.n
+++ b/doc/lassign.n
@@ -12,9 +12,8 @@
.SH NAME
lassign \- Assign list elements to variables
.SH SYNOPSIS
-\fBlassign \fIlist varName \fR?\fIvarName ...\fR?
+\fBlassign \fIlist \fR?\fIvarName ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command treats the value \fIlist\fR as a list and assigns
@@ -24,32 +23,38 @@ than list elements, the remaining variables are set to the empty
string. If there are more list elements than variables, a list of
unassigned elements is returned.
.SH EXAMPLES
+.PP
An illustration of how multiple assignment works, and what happens
when there are either too few or too many elements.
+.PP
.CS
-lassign {a b c} x y z ;# Empty return
+\fBlassign\fR {a b c} x y z ;# Empty return
puts $x ;# Prints "a"
puts $y ;# Prints "b"
puts $z ;# Prints "c"
-lassign {d e} x y z ;# Empty return
+\fBlassign\fR {d e} x y z ;# Empty return
puts $x ;# Prints "d"
puts $y ;# Prints "e"
puts $z ;# Prints ""
-lassign {f g h i} x y ;# Returns "h i"
+\fBlassign\fR {f g h i} x y ;# Returns "h i"
puts $x ;# Prints "f"
puts $y ;# Prints "g"
.CE
+.PP
The \fBlassign\fR command has other uses. It can be used to create
the analogue of the
.QW shift
command in many shell languages like this:
+.PP
.CS
-set ::argv [lassign $::argv argumentToReadOff]
+set ::argv [\fBlassign\fR $::argv argumentToReadOff]
.CE
.SH "SEE ALSO"
-lindex(n), list(n), lset(n), set(n)
-
+lindex(n), list(n), lrange(n), lset(n), set(n)
.SH KEYWORDS
assign, element, list, multiple, set, variable
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/library.n b/doc/library.n
index f29af8b..98dcb35 100644
--- a/doc/library.n
+++ b/doc/library.n
@@ -9,14 +9,13 @@
.TH library n "8.0" Tcl "Tcl Built-In Commands"
.BS
.SH NAME
-auto_execok, auto_import, auto_load, auto_mkindex, auto_mkindex_old, auto_qualify, auto_reset, tcl_findLibrary, parray, tcl_endOfWord, tcl_startOfNextWord, tcl_startOfPreviousWord, tcl_wordBreakAfter, tcl_wordBreakBefore \- standard library of Tcl procedures
+auto_execok, auto_import, auto_load, auto_mkindex, auto_qualify, auto_reset, tcl_findLibrary, parray, tcl_endOfWord, tcl_startOfNextWord, tcl_startOfPreviousWord, tcl_wordBreakAfter, tcl_wordBreakBefore \- standard library of Tcl procedures
.SH SYNOPSIS
.nf
\fBauto_execok \fIcmd\fR
\fBauto_import \fIpattern\fR
\fBauto_load \fIcmd\fR
\fBauto_mkindex \fIdir pattern pattern ...\fR
-\fBauto_mkindex_old \fIdir pattern pattern ...\fR
\fBauto_qualify \fIcommand namespace\fR
\fBauto_reset\fR
\fBtcl_findLibrary \fIbasename version patch initScript enVarName varName\fR
@@ -39,14 +38,16 @@ its own library of support procedures as well; the location of this
library is normally given by the value of the \fB$\fIapp\fB_library\fR
global variable, where \fIapp\fR is the name of the application.
For example, the location of the Tk library is kept in the variable
-\fB$tk_library\fR.
+\fBtk_library\fR.
.PP
To access the procedures in the Tcl library, an application should
source the file \fBinit.tcl\fR in the library, for example with
the Tcl command
+.PP
.CS
\fBsource [file join [info library] init.tcl]\fR
.CE
+.PP
If the library procedure \fBTcl_Init\fR is invoked from an application's
\fBTcl_AppInit\fR procedure, this happens automatically.
The code in \fBinit.tcl\fR will define the \fBunknown\fR procedure
@@ -83,8 +84,8 @@ matching rules of \fBnamespace import\fR.
This command attempts to load the definition for a Tcl command named
\fIcmd\fR. To do this, it searches an \fIauto-load path\fR, which is
a list of one or more directories. The auto-load path is given by the
-global variable \fB$auto_path\fR if it exists. If there is no
-\fB$auto_path\fR variable, then the TCLLIBPATH environment variable is
+global variable \fBauto_path\fR if it exists. If there is no
+\fBauto_path\fR variable, then the TCLLIBPATH environment variable is
used, if it exists. Otherwise the auto-load path consists of just the
Tcl library directory. Within each directory in the auto-load path
there must be a file \fBtclIndex\fR that describes one or more
@@ -105,6 +106,7 @@ cached index information may be deleted with the command
reload the index database from disk.
.TP
\fBauto_mkindex \fIdir pattern pattern ...\fR
+.
Generates an index suitable for use by \fBauto_load\fR. The command
searches \fIdir\fR for all files whose names match any of the
\fIpattern\fR arguments (matching is done with the \fBglob\fR
@@ -113,10 +115,11 @@ in all the matching files, and stores the index information in a file
named \fBtclIndex\fR in \fIdir\fR. If no pattern is given a pattern of
\fB*.tcl\fR will be assumed. For example, the command
.RS
+.PP
.CS
\fBauto_mkindex foo *.tcl\fR
.CE
-.LP
+.PP
will read all the \fB.tcl\fR files in subdirectory \fBfoo\fR and
generate a new index file \fBfoo/tclIndex\fR.
.PP
@@ -127,21 +130,25 @@ auto_mkindex_parser package to register other commands that can
contribute to the auto_load index. You will have to read through
auto.tcl to see how this works.
.PP
-\fBAuto_mkindex_old\fR parses the Tcl scripts in a relatively
-unsophisticated way: if any line contains the word \fBproc\fR
+\fBAuto_mkindex_old\fR
+(which has the same syntax as \fBauto_mkindex\fR)
+parses the Tcl scripts in a relatively
+unsophisticated way: if any line contains the word
+.QW \fBproc\fR
as its first characters then it is assumed to be a procedure
definition and the next word of the line is taken as the
procedure's name.
-Procedure definitions that do not appear in this way (e.g. they
+Procedure definitions that do not appear in this way (e.g.\ they
have spaces before the \fBproc\fR) will not be indexed. If your
script contains
.QW dangerous
code, such as global initialization
code or procedure names with special characters like \fB$\fR,
-\fB*\fR, \fB[\fR or \fB]\fR, you are safer using auto_mkindex_old.
+\fB*\fR, \fB[\fR or \fB]\fR, you are safer using \fBauto_mkindex_old\fR.
.RE
.TP
\fBauto_reset\fR
+.
Destroys all the information cached by \fBauto_execok\fR and
\fBauto_load\fR. This information will be re-read from disk the next
time it is needed. \fBAuto_reset\fR also deletes any procedures
@@ -192,7 +199,7 @@ relative to the executable file in a parallel build tree.
\fBparray \fIarrayName\fR
Prints on standard output the names and values of all the elements
in the array \fIarrayName\fR.
-\fBArrayName\fR must be an array accessible to the caller of \fBparray\fR.
+\fIArrayName\fR must be an array accessible to the caller of \fBparray\fR.
It may be either local or global.
.TP
\fBtcl_endOfWord \fIstr start\fR
@@ -234,7 +241,9 @@ boundary.
.SH "VARIABLES"
.PP
The following global variables are defined or used by the procedures in
-the Tcl library:
+the Tcl library. They fall into two broad classes, handling unknown
+commands and packages, and determining what are words.
+.SS "AUTOLOADING AND PACKAGE MANAGEMENT VARIABLES"
.TP
\fBauto_execs\fR
Used by \fBauto_execok\fR to record information about whether
@@ -253,13 +262,17 @@ If set to any value, then \fBunknown\fR will not attempt to auto-load
any commands.
.TP
\fBauto_path\fR
+.
If set, then it must contain a valid Tcl list giving directories to
-search during auto-load operations.
+search during auto-load operations (including for package index
+files when using the default \fBpackage unknown\fR handler).
This variable is initialized during startup to contain, in order:
-the directories listed in the TCLLIBPATH environment variable,
-the directory named by the $tcl_library variable,
-the parent directory of $tcl_library,
-the directories listed in the $tcl_pkgPath variable.
+the directories listed in the \fBTCLLIBPATH\fR environment variable,
+the directory named by the \fBtcl_library\fR global variable,
+the parent directory of \fBtcl_library\fR,
+the directories listed in the \fBtcl_pkgPath\fR variable.
+Additional locations to look for files and package indices should
+normally be added to this variable using \fBlappend\fR.
.TP
\fBenv(TCL_LIBRARY)\fR
If set, then it specifies the location of the directory containing
@@ -275,6 +288,10 @@ Tcl format, using
.QW /
as the path separator, regardless of platform.
This variable is only used when initializing the \fBauto_path\fR variable.
+.SS "WORD BOUNDARY DETERMINATION VARIABLES"
+These variables are only used in the \fBtcl_endOfWord\fR,
+\fBtcl_startOfNextWord\fR, \fBtcl_startOfPreviousWord\fR,
+\fBtcl_wordBreakAfter\fR, and \fBtcl_wordBreakBefore\fR commands.
.TP
\fBtcl_nonwordchars\fR
This variable contains a regular expression that is used by routines
@@ -293,6 +310,9 @@ considered to be a word character. On Windows platforms, words are
comprised of any character that is not a space, tab, or newline. Under
Unix, words are comprised of numbers, letters or underscores.
.SH "SEE ALSO"
-info(n), re_syntax(n)
+env(n), info(n), re_syntax(n)
.SH KEYWORDS
auto-exec, auto-load, library, unknown, word, whitespace
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/lindex.n b/doc/lindex.n
index f0417ac..bb272a6 100644
--- a/doc/lindex.n
+++ b/doc/lindex.n
@@ -13,7 +13,7 @@
.SH NAME
lindex \- Retrieve an element from a list
.SH SYNOPSIS
-\fBlindex \fIlist ?index...?\fR
+\fBlindex \fIlist ?index ...?\fR
.BE
.SH DESCRIPTION
.PP
@@ -24,13 +24,17 @@ command line, or grouped in a
Tcl list and presented as a single argument.
.PP
If no indices are presented, the command takes the form:
+.PP
.CS
-lindex list
+\fBlindex \fIlist\fR
.CE
+.PP
or
+.PP
.CS
-lindex list {}
+\fBlindex \fIlist\fR {}
.CE
+.PP
In this case, the return value of \fBlindex\fR is simply the value of the
\fIlist\fR parameter.
.PP
@@ -44,32 +48,34 @@ substitution and command substitution do not occur.
If \fIindex\fR is negative or greater than or equal to the number
of elements in \fIvalue\fR, then an empty
string is returned.
-.VS 8.5
The interpretation of each simple \fIindex\fR value is the same as
for the command \fBstring index\fR, supporting simple index
arithmetic and indices relative to the end of the list.
-.VE 8.5
.PP
If additional \fIindex\fR arguments are supplied, then each argument is
used in turn to select an element from the previous indexing operation,
allowing the script to select elements from sublists. The command,
+.PP
.CS
-lindex $a 1 2 3
+\fBlindex\fR $a 1 2 3
.CE
+.PP
or
+.PP
.CS
-lindex $a {1 2 3}
+\fBlindex\fR $a {1 2 3}
.CE
+.PP
is synonymous with
+.PP
.CS
-lindex [lindex [lindex $a 1] 2] 3
+\fBlindex\fR [\fBlindex\fR [\fBlindex\fR $a 1] 2] 3
.CE
.SH EXAMPLES
+.PP
+Lists can be indexed into from either end:
+.PP
.CS
-\fBlindex\fR {a b c}
- \fI\(-> a b c\fR
-\fBlindex\fR {a b c} {}
- \fI\(-> a b c\fR
\fBlindex\fR {a b c} 0
\fI\(-> a\fR
\fBlindex\fR {a b c} 2
@@ -78,6 +84,15 @@ lindex [lindex [lindex $a 1] 2] 3
\fI\(-> c\fR
\fBlindex\fR {a b c} end-1
\fI\(-> b\fR
+.CE
+.PP
+Lists or sequences of indices allow selection into lists of lists:
+.PP
+.CS
+\fBlindex\fR {a b c}
+ \fI\(-> a b c\fR
+\fBlindex\fR {a b c} {}
+ \fI\(-> a b c\fR
\fBlindex\fR {{a b c} {d e f} {g h i}} 2 1
\fI\(-> h\fR
\fBlindex\fR {{a b c} {d e f} {g h i}} {2 1}
@@ -87,12 +102,24 @@ lindex [lindex [lindex $a 1] 2] 3
\fBlindex\fR {{{a b} {c d}} {{e f} {g h}}} {1 1 0}
\fI\(-> g\fR
.CE
+.PP
+List indices may also perform limited computation, adding or subtracting fixed
+amounts from other indices:
+.PP
+.CS
+set idx 1
+\fBlindex\fR {a b c d e f} $idx+2
+ \fI\(-> d\fR
+set idx 3
+\fBlindex\fR {a b c d e f} $idx+2
+ \fI\(-> f\fR
+.CE
.SH "SEE ALSO"
list(n), lappend(n), linsert(n), llength(n), lsearch(n),
lset(n), lsort(n), lrange(n), lreplace(n),
-.VS 8.5
string(n)
-.VE
-
.SH KEYWORDS
element, index, list
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/linsert.n b/doc/linsert.n
index 9f37fcd..c722e4f 100644
--- a/doc/linsert.n
+++ b/doc/linsert.n
@@ -13,24 +13,30 @@
.SH NAME
linsert \- Insert elements into a list
.SH SYNOPSIS
-\fBlinsert \fIlist index element \fR?\fIelement element ...\fR?
+\fBlinsert \fIlist index \fR?\fIelement element ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command produces a new list from \fIlist\fR by inserting all of the
\fIelement\fR arguments just before the \fIindex\fR'th element of
\fIlist\fR. Each \fIelement\fR argument will become a separate element of
the new list. If \fIindex\fR is less than or equal to zero, then the new
-elements are inserted at the beginning of the list.
-.VS 8.5
-The interpretation of the \fIindex\fR value is the same as
-for the command \fBstring index\fR, supporting simple index
-arithmetic and indices relative to the end of the list.
-.VE
+elements are inserted at the beginning of the list, and if \fIindex\fR is
+greater or equal to the length of \fIlist\fR, it is as if it was \fBend\fR.
+As with \fBstring index\fR, the \fIindex\fR value supports both simple index
+arithmetic and end-relative indexing.
+.PP
+Subject to the restrictions that indices must refer to locations inside the
+list and that the \fIelement\fRs will always be inserted in order, insertions
+are done so that when \fIindex\fR is start-relative, the first \fIelement\fR
+will be at that index in the resulting list, and when \fIindex\fR is
+end-relative, the last \fIelement\fR will be at that index in the resulting
+list.
.SH EXAMPLE
+.PP
Putting some values into a list, first indexing from the start and
then indexing from the end, and then chaining them together:
+.PP
.CS
set oldList {the fox jumps over the dog}
set midList [\fBlinsert\fR $oldList 1 quick]
@@ -38,13 +44,12 @@ set newList [\fBlinsert\fR $midList end-1 lazy]
# The old lists still exist though...
set newerList [\fBlinsert\fR [\fBlinsert\fR $oldList end-1 quick] 1 lazy]
.CE
-
.SH "SEE ALSO"
list(n), lappend(n), lindex(n), llength(n), lsearch(n),
lset(n), lsort(n), lrange(n), lreplace(n),
-.VS 8.5
string(n)
-.VE
-
.SH KEYWORDS
element, insert, list
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/list.n b/doc/list.n
index 2bcdafb..5705254 100644
--- a/doc/list.n
+++ b/doc/list.n
@@ -15,7 +15,6 @@ list \- Create a list
.SH SYNOPSIS
\fBlist \fR?\fIarg arg ...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command returns a list comprised of all the \fIarg\fRs,
@@ -28,25 +27,30 @@ its arguments. \fBList\fR produces slightly different results than
\fBconcat\fR: \fBconcat\fR removes one level of grouping before forming
the list, while \fBlist\fR works directly from the original arguments.
.SH EXAMPLE
+.PP
The command
+.PP
.CS
\fBlist\fR a b "c d e " " f {g h}"
.CE
+.PP
will return
+.PP
.CS
\fBa b {c d e } { f {g h}}\fR
.CE
+.PP
while \fBconcat\fR with the same arguments will return
+.PP
.CS
\fBa b c d e f {g h}\fR
.CE
-
.SH "SEE ALSO"
lappend(n), lindex(n), linsert(n), llength(n), lrange(n),
-.VS 8.5
lrepeat(n),
-.VE 8.5
lreplace(n), lsearch(n), lset(n), lsort(n)
-
.SH KEYWORDS
-element, list
+element, list, quoting
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/llength.n b/doc/llength.n
index 627800f..b0ee4d9 100644
--- a/doc/llength.n
+++ b/doc/llength.n
@@ -15,14 +15,14 @@ llength \- Count the number of elements in a list
.SH SYNOPSIS
\fBllength \fIlist\fR
.BE
-
.SH DESCRIPTION
.PP
Treats \fIlist\fR as a list and returns a decimal string giving
the number of elements in it.
-
.SH EXAMPLES
+.PP
The result is the number of elements:
+.PP
.CS
% \fBllength\fR {a b c d e}
5
@@ -34,6 +34,7 @@ The result is the number of elements:
.PP
Elements are not guaranteed to be exactly words in a dictionary sense
of course, especially when quoting is used:
+.PP
.CS
% \fBllength\fR {a b {c d} e}
4
@@ -42,14 +43,13 @@ of course, especially when quoting is used:
.CE
.PP
An empty list is not necessarily an empty string:
+.PP
.CS
% set var { }; puts "[string length $var],[\fBllength\fR $var]"
1,0
.CE
-
.SH "SEE ALSO"
list(n), lappend(n), lindex(n), linsert(n), lsearch(n),
lset(n), lsort(n), lrange(n), lreplace(n)
-
.SH KEYWORDS
element, list, length
diff --git a/doc/lmap.n b/doc/lmap.n
new file mode 100644
index 0000000..880b05a
--- /dev/null
+++ b/doc/lmap.n
@@ -0,0 +1,85 @@
+'\"
+'\" Copyright (c) 2012 Trevor Davel
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH lmap n "" Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+lmap \- Iterate over all elements in one or more lists and collect results
+.SH SYNOPSIS
+\fBlmap \fIvarname list body\fR
+.br
+\fBlmap \fIvarlist1 list1\fR ?\fIvarlist2 list2 ...\fR? \fIbody\fR
+.BE
+.SH DESCRIPTION
+.PP
+The \fBlmap\fR command implements a loop where the loop variable(s) take on
+values from one or more lists, and the loop returns a list of results
+collected from each iteration.
+.PP
+In the simplest case there is one loop variable, \fIvarname\fR, and one list,
+\fIlist\fR, that is a list of values to assign to \fIvarname\fR. The
+\fIbody\fR argument is a Tcl script. For each element of \fIlist\fR (in order
+from first to last), \fBlmap\fR assigns the contents of the element to
+\fIvarname\fR as if the \fBlindex\fR command had been used to extract the
+element, then calls the Tcl interpreter to execute \fIbody\fR. If execution of
+the body completes normally then the result of the body is appended to an
+accumulator list. \fBlmap\fR returns the accumulator list.
+.PP
+In the general case there can be more than one value list (e.g., \fIlist1\fR
+and \fIlist2\fR), and each value list can be associated with a list of loop
+variables (e.g., \fIvarlist1\fR and \fIvarlist2\fR). During each iteration of
+the loop the variables of each \fIvarlist\fR are assigned consecutive values
+from the corresponding \fIlist\fR. Values in each \fIlist\fR are used in order
+from first to last, and each value is used exactly once. The total number of
+loop iterations is large enough to use up all the values from all the value
+lists. If a value list does not contain enough elements for each of its loop
+variables in each iteration, empty values are used for the missing elements.
+.PP
+The \fBbreak\fR and \fBcontinue\fR statements may be invoked inside
+\fIbody\fR, with the same effect as in the \fBfor\fR and \fBforeach\fR
+commands. In these cases the body does not complete normally and the result is
+not appended to the accumulator list.
+.SH EXAMPLES
+.PP
+Zip lists together:
+.PP
+.CS
+set list1 {a b c d}
+set list2 {1 2 3 4}
+set zipped [\fBlmap\fR a $list1 b $list2 {list $a $b}]
+# The value of zipped is "{a 1} {b 2} {c 3} {d 4}"
+.CE
+.PP
+Filter a list to remove odd values:
+.PP
+.CS
+set values {1 2 3 4 5 6 7 8}
+proc isEven {n} {expr {($n % 2) == 0}}
+set goodOnes [\fBlmap\fR x $values {expr {
+ [isEven $x] ? $x : [continue]
+}}]
+# The value of goodOnes is "2 4 6 8"
+.CE
+.PP
+Take a prefix from a list based on the contents of the list:
+.PP
+.CS
+set values {8 7 6 5 4 3 2 1}
+proc isGood {counter} {expr {$n > 3}}
+set prefix [\fBlmap\fR x $values {expr {
+ [isGood $x] ? $x : [break]
+}}]
+# The value of prefix is "8 7 6 5 4"
+.CE
+.SH "SEE ALSO"
+break(n), continue(n), for(n), foreach(n), while(n)
+.SH KEYWORDS
+foreach, iteration, list, loop, map
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/load.n b/doc/load.n
index e5501f6..350a2ae 100644
--- a/doc/load.n
+++ b/doc/load.n
@@ -11,13 +11,12 @@
.SH NAME
load \- Load machine code and initialize new commands
.SH SYNOPSIS
-\fBload \fIfileName\fR
+\fBload\fR ?\fB\-global\fR? ?\fB\-lazy\fR? ?\fB\-\-\fR? \fIfileName\fR
.br
-\fBload \fIfileName packageName\fR
+\fBload\fR ?\fB\-global\fR? ?\fB\-lazy\fR? ?\fB\-\-\fR? \fIfileName packageName\fR
.br
-\fBload \fIfileName packageName interp\fR
+\fBload\fR ?\fB\-global\fR? ?\fB\-lazy\fR? ?\fB\-\-\fR? \fIfileName packageName interp\fR
.BE
-
.SH DESCRIPTION
.PP
This command loads binary code from a file into the
@@ -56,9 +55,12 @@ by the package that is safe for use by untrusted code. For more information
on Safe\-Tcl, see the \fBsafe\fR manual entry.
.PP
The initialization procedure must match the following prototype:
+.PP
.CS
-typedef int Tcl_PackageInitProc(Tcl_Interp *\fIinterp\fR);
+typedef int \fBTcl_PackageInitProc\fR(
+ Tcl_Interp *\fIinterp\fR);
.CE
+.PP
The \fIinterp\fR argument identifies the interpreter in which the
package is to be loaded. The initialization procedure must return
\fBTCL_OK\fR or \fBTCL_ERROR\fR to indicate whether or not it completed
@@ -71,12 +73,10 @@ in an application. If a given \fIfileName\fR is loaded into multiple
interpreters, then the first \fBload\fR will load the code and
call the initialization procedure; subsequent \fBload\fRs will
call the initialization procedure without loading the code again.
-.VS 8.5
For Tcl versions lower than 8.5, it is not possible to unload or reload a
package. From version 8.5 however, the \fBunload\fR command allows the unloading
of libraries loaded with \fBload\fR, for libraries that are aware of the
Tcl's unloading mechanism.
-.VE 8.5
.PP
The \fBload\fR command also supports packages that are statically
linked with the application, if those packages have been registered
@@ -104,6 +104,22 @@ Otherwise, the \fBload\fR command searches for a dynamically loaded
package by that name, and uses it if it is found. If several
different files have been \fBload\fRed with different versions of
the package, Tcl picks the file that was loaded first.
+.PP
+If \fB\-global\fR is specified preceding the filename, all symbols
+found in the shared library are exported for global use by other
+libraries. The option \fB\-lazy\fR delays the actual loading of
+symbols until their first actual use. The options may be abbreviated.
+The option \fB\-\-\fR indicates the end of the options, and should
+be used if you wish to use a filename which starts with \fB\-\fR
+and you provide a packageName to the \fBload\fR command.
+.PP
+On platforms which do not support the \fB\-global\fR or \fB\-lazy\fR
+options, the options still exist but have no effect. Note that use
+of the \fB\-global\fR or \fB\-lazy\fR option may lead to crashes
+in your application later (in case of symbol conflicts resp. missing
+symbols), which cannot be detected during the \fBload\fR. So, only
+use this when you know what you are doing, you will not get a nice
+error message when something is wrong with the loaded library.
.SH "PORTABILITY ISSUES"
.TP
\fBWindows\fR\0\0\0\0\0
@@ -119,9 +135,12 @@ When loading a DLL in the current directory, Windows will ignore
.QW ./
as a path specifier and use a search heuristic to find the DLL instead.
To avoid this, load the DLL with:
+.RS
+.PP
.CS
\fBload\fR [file join [pwd] mylib.DLL]
.CE
+.RE
.SH BUGS
.PP
If the same file is \fBload\fRed by different \fIfileName\fRs, it will
@@ -129,6 +148,7 @@ be loaded into the process's address space multiple times. The
behavior of this varies from system to system (some systems may
detect the redundant loads, others may not).
.SH EXAMPLE
+.PP
The following is a minimal extension:
.PP
.CS
@@ -156,20 +176,21 @@ it can then be loaded into Tcl with the following:
.CS
# Load the extension
switch $tcl_platform(platform) {
- windows {
- \fBload\fR [file join [pwd] foo.dll]
- }
- unix {
- \fBload\fR [file join [pwd] libfoo[info sharedlibextension]]
- }
+ windows {
+ \fBload\fR [file join [pwd] foo.dll]
+ }
+ unix {
+ \fBload\fR [file join [pwd] libfoo[info sharedlibextension]]
+ }
}
# Now execute the command defined by the extension
foo
.CE
-
.SH "SEE ALSO"
-info sharedlibextension, Tcl_StaticPackage(3), safe(n)
-
+info sharedlibextension, package(n), Tcl_StaticPackage(3), safe(n)
.SH KEYWORDS
-binary code, loading, safe interpreter, shared library
+binary code, dynamic library, load, safe interpreter, shared library
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/lrange.n b/doc/lrange.n
index 34f0150..4f4816a 100644
--- a/doc/lrange.n
+++ b/doc/lrange.n
@@ -15,18 +15,15 @@ lrange \- Return one or more adjacent elements from a list
.SH SYNOPSIS
\fBlrange \fIlist first last\fR
.BE
-
.SH DESCRIPTION
.PP
\fIList\fR must be a valid Tcl list. This command will
return a new list consisting of elements
\fIfirst\fR through \fIlast\fR, inclusive.
-.VS 8.5
The index values \fIfirst\fR and \fIlast\fR are interpreted
the same as index values for the command \fBstring index\fR,
supporting simple index arithmetic and indices relative to the
end of the list.
-.VE
If \fIfirst\fR is less than zero, it is treated as if it were zero.
If \fIlast\fR is greater than or equal to the number of elements
in the list, then it is treated as if it were \fBend\fR.
@@ -40,19 +37,23 @@ does not always produce the same result as
braces); it does, however, produce exactly the same results as
.QW "\fBlist [lindex \fIlist first\fB]\fR"
.SH EXAMPLES
+.PP
Selecting the first two elements:
+.PP
.CS
% \fBlrange\fR {a b c d e} 0 1
a b
.CE
.PP
Selecting the last three elements:
+.PP
.CS
% \fBlrange\fR {a b c d e} end-2 end
c d e
.CE
.PP
Selecting everything except the first and last element:
+.PP
.CS
% \fBlrange\fR {a b c d e} 1 end-1
b c d
@@ -60,6 +61,7 @@ b c d
.PP
Selecting a single element with \fBlrange\fR is not the same as doing
so with \fBlindex\fR:
+.PP
.CS
% set var {some {elements to} select}
some {elements to} select
@@ -68,13 +70,9 @@ elements to
% \fBlrange\fR $var 1 1
{elements to}
.CE
-
.SH "SEE ALSO"
list(n), lappend(n), lindex(n), linsert(n), llength(n), lsearch(n),
lset(n), lreplace(n), lsort(n),
-.VS 8.5
string(n)
-.VE
-
.SH KEYWORDS
element, list, range, sublist
diff --git a/doc/lrepeat.n b/doc/lrepeat.n
index ac78690..59a1edf 100644
--- a/doc/lrepeat.n
+++ b/doc/lrepeat.n
@@ -11,16 +11,15 @@
.SH NAME
lrepeat \- Build a list by repeating elements
.SH SYNOPSIS
-\fBlrepeat \fInumber element1 \fR?\fIelement2 element3 ...\fR?
+\fBlrepeat \fIcount \fR?\fIelement ...\fR?
.BE
.SH DESCRIPTION
.PP
-The \fBlrepeat\fR command creates a list of size \fInumber * number of
-elements\fR by repeating \fInumber\fR times the sequence of elements
-\fIelement1 element2 ...\fR. \fInumber\fR must be a positive integer,
-\fIelementn\fR can be any Tcl value. Note that \fBlrepeat 1 arg ...\fR
-is identical to \fBlist arg ...\fR, though the \fIarg\fR is required
-with \fBlrepeat\fR.
+The \fBlrepeat\fR command creates a list of size \fIcount * number of
+elements\fR by repeating \fIcount\fR times the sequence of elements
+\fIelement ...\fR. \fIcount\fR must be a non-negative integer,
+\fIelement\fR can be any Tcl value. Note that \fBlrepeat 1 element ...\fR
+is identical to \fBlist element ...\fR.
.SH EXAMPLES
.CS
\fBlrepeat\fR 3 a
diff --git a/doc/lreplace.n b/doc/lreplace.n
index 2cd79d8..6e6c3ea 100644
--- a/doc/lreplace.n
+++ b/doc/lreplace.n
@@ -19,7 +19,6 @@ lreplace \- Replace elements in a list with new elements
.PP
\fBlreplace\fR returns a new list formed by replacing one or more elements of
\fIlist\fR with the \fIelement\fR arguments.
-.VS 8.5
\fIfirst\fR and \fIlast\fR are index values specifying the first and
last elements of the range to replace.
The index values \fIfirst\fR and \fIlast\fR are interpreted
@@ -29,7 +28,6 @@ end of the list.
0 refers to the first element of the
list, and \fBend\fR refers to the last element of the list.
If \fIlist\fR is empty, then \fIfirst\fR and \fIlast\fR are ignored.
-.VE
.PP
If \fIfirst\fR is less than zero, it is considered to refer to before the
first element of the list. For non-empty lists, the element indicated
@@ -47,19 +45,23 @@ the list. If no \fIelement\fR arguments are specified, then the elements
between \fIfirst\fR and \fIlast\fR are simply deleted. If \fIlist\fR
is empty, any \fIelement\fR arguments are added to the end of the list.
.SH EXAMPLES
+.PP
Replacing an element of a list with another:
+.PP
.CS
% \fBlreplace\fR {a b c d e} 1 1 foo
a foo c d e
.CE
.PP
Replacing two elements of a list with three:
+.PP
.CS
% \fBlreplace\fR {a b c d e} 1 2 three more elements
a three more elements d e
.CE
.PP
Deleting the last element from a list in a variable:
+.PP
.CS
% set var {a b c d e}
a b c d e
@@ -68,6 +70,7 @@ a b c d
.CE
.PP
A procedure to delete a given element from a list:
+.PP
.CS
proc lremove {listVariable value} {
upvar 1 $listVariable var
@@ -78,8 +81,6 @@ proc lremove {listVariable value} {
.SH "SEE ALSO"
list(n), lappend(n), lindex(n), linsert(n), llength(n), lsearch(n),
lset(n), lrange(n), lsort(n),
-.VS 8.5
string(n)
-.VE
.SH KEYWORDS
element, list, replace
diff --git a/doc/lreverse.n b/doc/lreverse.n
index da5e489..f52db9b 100644
--- a/doc/lreverse.n
+++ b/doc/lreverse.n
@@ -1,4 +1,4 @@
-'\" -*- nroff -*-
+'\"
'\" Copyright (c) 2006 by Donal K. Fellows. All rights reserved.
'\"
'\" See the file "license.terms" for information on usage and redistribution
@@ -29,3 +29,6 @@ list(n), lsearch(n), lsort(n)
.SH KEYWORDS
element, list, reverse
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/lsearch.n b/doc/lsearch.n
index b046ba2..7835352 100644
--- a/doc/lsearch.n
+++ b/doc/lsearch.n
@@ -8,7 +8,7 @@
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
-.TH lsearch n 8.5 Tcl "Tcl Built-In Commands"
+.TH lsearch n 8.6 Tcl "Tcl Built-In Commands"
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
@@ -16,7 +16,6 @@ lsearch \- See if a list contains a particular element
.SH SYNOPSIS
\fBlsearch \fR?\fIoptions\fR? \fIlist pattern\fR
.BE
-
.SH DESCRIPTION
.PP
This command searches the elements of \fIlist\fR to see if one
@@ -27,24 +26,29 @@ If not, the command returns \fB\-1\fR. The \fIoption\fR arguments
indicates how the elements of the list are to be matched against
\fIpattern\fR and must have one of the values below:
.SS "MATCHING STYLE OPTIONS"
+.PP
If all matching style options are omitted, the default matching style
is \fB\-glob\fR. If more than one matching style is specified, the
last matching style given takes precedence.
.TP
\fB\-exact\fR
+.
\fIPattern\fR is a literal string that is compared for exact equality
against each list element.
.TP
\fB\-glob\fR
+.
\fIPattern\fR is a glob-style pattern which is matched against each list
element using the same rules as the \fBstring match\fR command.
.TP
\fB\-regexp\fR
+.
\fIPattern\fR is treated as a regular expression and matched against
each list element using the rules described in the \fBre_syntax\fR
reference page.
.TP
\fB\-sorted\fR
+.
The list elements are in sorted order. If this option is specified,
\fBlsearch\fR will use a more efficient searching algorithm to search
\fIlist\fR. If no other options are specified, \fIlist\fR is assumed
@@ -53,6 +57,7 @@ option is mutually exclusive with \fB\-glob\fR and \fB\-regexp\fR, and
is treated exactly like \fB\-exact\fR when either \fB\-all\fR or
\fB\-not\fR are specified.
.SS "GENERAL MODIFIER OPTIONS"
+.PP
These options may be given with all matching styles.
.TP
\fB\-all\fR
@@ -63,32 +68,36 @@ indices will be in numeric order. If values are returned, the order of the
values will be the order of those values within the input \fIlist\fR.
.TP
\fB\-inline\fR
+.
The matching value is returned instead of its index (or an empty
string if no value matches.) If \fB\-all\fR is also specified, then
the result of the command is the list of all values that matched.
.TP
\fB\-not\fR
+.
This negates the sense of the match, returning the index of the first
non-matching value in the list.
.TP
\fB\-start\fR\0\fIindex\fR
+.
The list is searched starting at position \fIindex\fR.
-.VS 8.5
The interpretation of the \fIindex\fR value is the same as
for the command \fBstring index\fR, supporting simple index
arithmetic and indices relative to the end of the list.
-.VE 8.5
.SS "CONTENTS DESCRIPTION OPTIONS"
+.PP
These options describe how to interpret the items in the list being
searched. They are only meaningful when used with the \fB\-exact\fR
and \fB\-sorted\fR options. If more than one is specified, the last
one takes precedence. The default is \fB\-ascii\fR.
.TP
\fB\-ascii\fR
+.
The list elements are to be examined as Unicode strings (the name is
for backward-compatibility reasons.)
.TP
\fB\-dictionary\fR
+.
The list elements are to be compared using dictionary-style
comparisons (see \fBlsort\fR for a fuller description). Note that this
only makes a meaningful difference from the \fB\-ascii\fR option when
@@ -96,49 +105,67 @@ the \fB\-sorted\fR option is given, because values are only
dictionary-equal when exactly equal.
.TP
\fB\-integer\fR
+.
The list elements are to be compared as integers.
-.VS 8.5
.TP
\fB\-nocase\fR
+.
Causes comparisons to be handled in a case-insensitive manner. Has no
effect if combined with the \fB\-dictionary\fR, \fB\-integer\fR, or
\fB\-real\fR options.
-.VE 8.5
.TP
\fB\-real\fR
+.
The list elements are to be compared as floating-point values.
.SS "SORTED LIST OPTIONS"
+.PP
These options (only meaningful with the \fB\-sorted\fR option) specify
how the list is sorted. If more than one is given, the last one takes
precedence. The default option is \fB\-increasing\fR.
.TP
\fB\-decreasing\fR
+.
The list elements are sorted in decreasing order. This option is only
meaningful when used with \fB\-sorted\fR.
.TP
\fB\-increasing\fR
+.
The list elements are sorted in increasing order. This option is only
meaningful when used with \fB\-sorted\fR.
+.TP
+\fB\-bisect\fR
+.VS 8.6
+Inexact search when the list elements are in sorted order. For an increasing
+list the last index where the element is less than or equal to the pattern
+is returned. For a decreasing list the last index where the element is greater
+than or equal to the pattern is returned. If the pattern is before the first
+element or the list is empty, -1 is returned.
+This option implies \fB\-sorted\fR and cannot be used with either \fB\-all\fR
+or \fB\-not\fR.
+.VE 8.6
.SS "NESTED LIST OPTIONS"
-.VS 8.5
+.PP
These options are used to search lists of lists. They may be used
with any other options.
.TP
\fB\-index\fR\0\fIindexList\fR
+.
This option is designed for use when searching within nested lists.
The \fIindexList\fR argument gives a path of indices (much as might be
used with the \fBlindex\fR or \fBlset\fR commands) within each element
to allow the location of the term being matched against.
.TP
\fB\-subindices\fR
+.
If this option is given, the index result from this command (or every
index result when \fB\-all\fR is also specified) will be a complete
path (suitable for use with \fBlindex\fR or \fBlset\fR) within the
overall list to the term found. This option has no effect unless the
-\fI\-index\fR is also specified, and is just a convenience short-cut.
-.VE 8.5
+\fB\-index\fR is also specified, and is just a convenience short-cut.
.SH EXAMPLES
+.PP
Basic searching:
+.PP
.CS
\fBlsearch\fR {a b c d e} c
\fI\(-> 2\fR
@@ -147,6 +174,7 @@ Basic searching:
.CE
.PP
Using \fBlsearch\fR to filter lists:
+.PP
.CS
\fBlsearch\fR -inline {a20 b35 c47} b*
\fI\(-> b35\fR
@@ -161,18 +189,21 @@ Using \fBlsearch\fR to filter lists:
This can even do a
.QW set-like
removal operation:
+.PP
.CS
\fBlsearch\fR -all -inline -not -exact {a b c a d e a f g a} a
\fI\(-> b c d e f g\fR
.CE
.PP
Searching may start part-way through the list:
+.PP
.CS
\fBlsearch\fR -start 3 {a b c a b c} c
\fI\(-> 5\fR
.CE
.PP
It is also possible to search inside elements:
+.PP
.CS
\fBlsearch\fR -index 1 -all -inline {{a abc} {b bcd} {c cde}} *bc*
\fI\(-> {a abc} {b bcd}\fR
@@ -180,10 +211,9 @@ It is also possible to search inside elements:
.SH "SEE ALSO"
foreach(n), list(n), lappend(n), lindex(n), linsert(n), llength(n),
lset(n), lsort(n), lrange(n), lreplace(n),
-.VS 8.5
string(n)
-.VE
.SH KEYWORDS
+binary search, linear search,
list, match, pattern, regular expression, search, string
'\" Local Variables:
'\" mode: nroff
diff --git a/doc/lset.n b/doc/lset.n
index 5efcbae..805de16 100644
--- a/doc/lset.n
+++ b/doc/lset.n
@@ -11,7 +11,7 @@
.SH NAME
lset \- Change an element in a list
.SH SYNOPSIS
-\fBlset \fIvarName ?index...? newValue\fR
+\fBlset \fIvarName ?index ...? newValue\fR
.BE
.SH DESCRIPTION
.PP
@@ -24,13 +24,17 @@ Tcl list and presented as a single argument.
Finally, it accepts a new value for an element of \fIvarName\fR.
.PP
If no indices are presented, the command takes the form:
+.PP
.CS
-lset varName newValue
+\fBlset\fR varName newValue
.CE
+.PP
or
+.PP
.CS
-lset varName {} newValue
+\fBlset\fR varName {} newValue
.CE
+.PP
In this case, \fInewValue\fR replaces the old value of the variable
\fIvarName\fR.
.PP
@@ -47,42 +51,53 @@ replaced with \fInewValue\fR. This new list is stored in the
variable \fIvarName\fR, and is also the return value from the \fBlset\fR
command.
.PP
-If \fIindex\fR is negative or greater than or equal to the number
+If \fIindex\fR is negative or greater than the number
of elements in \fI$varName\fR, then an error occurs.
.PP
-.VS 8.5
+If \fIindex\fR is equal to the number of elements in \fI$varName\fR,
+then the given element is appended to the list.
+.PP
The interpretation of each simple \fIindex\fR value is the same as
for the command \fBstring index\fR, supporting simple index
arithmetic and indices relative to the end of the list.
-.VE 8.5
.PP
If additional \fIindex\fR arguments are supplied, then each argument is
used in turn to address an element within a sublist designated
by the previous indexing operation,
-allowing the script to alter elements in sublists. The command,
+allowing the script to alter elements in sublists (or append elements
+to sublists). The command,
+.PP
.CS
-lset a 1 2 newValue
+\fBlset\fR a 1 2 newValue
.CE
+.PP
or
+.PP
.CS
-lset a {1 2} newValue
+\fBlset\fR a {1 2} newValue
.CE
+.PP
replaces element 2 of sublist 1 with \fInewValue\fR.
.PP
The integer appearing in each \fIindex\fR argument must be greater
than or equal to zero. The integer appearing in each \fIindex\fR
-argument must be strictly less than the length of the corresponding
-list. In other words, the \fBlset\fR command cannot change the size
-of a list. If an index is outside the permitted range, an error is reported.
+argument must be less than or equal to the length of the corresponding
+list. In other words, the \fBlset\fR command can change the size
+of a list only by appending an element (setting the one after the current
+end). If an index is outside the permitted range, an error is reported.
.SH EXAMPLES
+.PP
In each of these examples, the initial value of \fIx\fR is:
+.PP
.CS
set x [list [list a b c] [list d e f] [list g h i]]
\fI\(-> {a b c} {d e f} {g h i}\fR
.CE
+.PP
The indicated return value also becomes the new value of \fIx\fR
(except in the last case, which is an error which leaves the value of
\fIx\fR unchanged.)
+.PP
.CS
\fBlset\fR x {j k l}
\fI\(-> j k l\fR
@@ -103,13 +118,17 @@ The indicated return value also becomes the new value of \fIx\fR
\fBlset\fR x {2 3} j
\fI\(-> list index out of range\fR
.CE
+.PP
In the following examples, the initial value of \fIx\fR is:
+.PP
.CS
set x [list [list [list a b] [list c d]] \e
[list [list e f] [list g h]]]
\fI\(-> {{a b} {c d}} {{e f} {g h}}\fR
.CE
+.PP
The indicated return value also becomes the new value of \fIx\fR.
+.PP
.CS
\fBlset\fR x 1 1 0 j
\fI\(-> {{a b} {c d}} {{e f} {j h}}\fR
@@ -119,10 +138,9 @@ The indicated return value also becomes the new value of \fIx\fR.
.SH "SEE ALSO"
list(n), lappend(n), lindex(n), linsert(n), llength(n), lsearch(n),
lsort(n), lrange(n), lreplace(n),
-.VS 8.5
string(n)
-.VE
-
-
.SH KEYWORDS
element, index, list, replace, set
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/lsort.n b/doc/lsort.n
index 1726e92..312048e 100644
--- a/doc/lsort.n
+++ b/doc/lsort.n
@@ -16,7 +16,6 @@ lsort \- Sort the elements of a list
.SH SYNOPSIS
\fBlsort \fR?\fIoptions\fR? \fIlist\fR
.BE
-
.SH DESCRIPTION
.PP
This command sorts the elements of \fIlist\fR, returning a new
@@ -28,26 +27,31 @@ By default ASCII sorting is used with the result returned in
increasing order. However, any of the following options may be
specified before \fIlist\fR to control the sorting process (unique
abbreviations are accepted):
-.TP 20
+.TP
\fB\-ascii\fR
+.
Use string comparison with Unicode code-point collation order (the
name is for backward-compatibility reasons.) This is the default.
-.TP 20
+.TP
\fB\-dictionary\fR
+.
Use dictionary-style comparison. This is the same as \fB\-ascii\fR
except (a) case is ignored except as a tie-breaker and (b) if two
strings contain embedded numbers, the numbers compare as integers,
not characters. For example, in \fB\-dictionary\fR mode, \fBbigBoy\fR
sorts between \fBbigbang\fR and \fBbigboy\fR, and \fBx10y\fR
sorts between \fBx9y\fR and \fBx11y\fR.
-.TP 20
+.TP
\fB\-integer\fR
+.
Convert list elements to integers and use integer comparison.
-.TP 20
+.TP
\fB\-real\fR
+.
Convert list elements to floating-point values and use floating comparison.
-.TP 20
+.TP
\fB\-command\0\fIcommand\fR
+.
Use \fIcommand\fR as a comparison command.
To compare two elements, evaluate a Tcl script consisting of
\fIcommand\fR with the two elements appended as additional
@@ -55,74 +59,109 @@ arguments. The script should return an integer less than,
equal to, or greater than zero if the first element is to
be considered less than, equal to, or greater than the second,
respectively.
-.TP 20
+.TP
\fB\-increasing\fR
+.
Sort the list in increasing order
.PQ smallest "items first" .
This is the default.
-.TP 20
+.TP
\fB\-decreasing\fR
+.
Sort the list in decreasing order
.PQ largest "items first" .
-.TP 20
+.TP
\fB\-indices\fR
-.VS "8.5 (TIP#217)"
+.
Return a list of indices into \fIlist\fR in sorted order instead of
the values themselves.
-.VE "8.5 (TIP#217)"
-.TP 20
+.TP
\fB\-index\0\fIindexList\fR
+.
If this option is specified, each of the elements of \fIlist\fR must
-itself be a proper Tcl sublist. Instead of sorting based on whole
-sublists, \fBlsort\fR will extract the \fIindexList\fR'th element from
-each sublist
-.VS 8.5
-(as if the overall element and the \fIindexList\fR were passed to
-\fBlindex\fR) and sort based on the given element.
-.VE 8.5
+itself be a proper Tcl sublist (unless \fB\-stride\fR is used).
+Instead of sorting based on whole sublists, \fBlsort\fR will extract
+the \fIindexList\fR'th element from each sublist (as if the overall
+element and the \fIindexList\fR were passed to \fBlindex\fR) and sort
+based on the given element.
For example,
.RS
+.PP
.CS
-lsort -integer -index 1 \e
+\fBlsort\fR -integer -index 1 \e
{{First 24} {Second 18} {Third 30}}
.CE
-returns \fB{Second 18} {First 24} {Third 30}\fR, and
+.PP
+returns \fB{Second 18} {First 24} {Third 30}\fR,
+.PP
'\"
'\" This example is from the test suite!
'\"
.CS
-lsort -index end-1 \e
- {{a 1 e i} {b 2 3 f g} {c 4 5 6 d h}}
+\fBlsort\fR -index end-1 \e
+ {{a 1 e i} {b 2 3 f g} {c 4 5 6 d h}}
.CE
+.PP
returns \fB{c 4 5 6 d h} {a 1 e i} {b 2 3 f g}\fR,
-.VS 8.5
and
+.PP
.CS
-lsort -index {0 1} {
- {{b i g} 12345}
- {{d e m o} 34512}
- {{c o d e} 54321}
+\fBlsort\fR -index {0 1} {
+ {{b i g} 12345}
+ {{d e m o} 34512}
+ {{c o d e} 54321}
}
.CE
+.PP
returns \fB{{d e m o} 34512} {{b i g} 12345} {{c o d e} 54321}\fR
(because \fBe\fR sorts before \fBi\fR which sorts before \fBo\fR.)
-.VE 8.5
This option is much more efficient than using \fB\-command\fR
to achieve the same effect.
.RE
-.VS 8.5
-.TP 20
+.TP
+\fB\-stride\0\fIstrideLength\fR
+.
+If this option is specified, the list is treated as consisting of
+groups of \fIstrideLength\fR elements and the groups are sorted by
+either their first element or, if the \fB\-index\fR option is used,
+by the element within each group given by the first index passed to
+\fB\-index\fR (which is then ignored by \fB\-index\fR). Elements
+always remain in the same position within their group.
+.RS
+.PP
+The list length must be an integer multiple of \fIstrideLength\fR, which
+in turn must be at least 2.
+.PP
+For example,
+.PP
+.CS
+\fBlsort\fR \-stride 2 {carrot 10 apple 50 banana 25}
+.CE
+.PP
+returns
+.QW "apple 50 banana 25 carrot 10" ,
+and
+.PP
+.CS
+\fBlsort\fR \-stride 2 \-index 1 \-integer {carrot 10 apple 50 banana 25}
+.CE
+.PP
+returns
+.QW "carrot 10 banana 25 apple 50" .
+.RE
+.TP
\fB\-nocase\fR
+.
Causes comparisons to be handled in a case-insensitive manner. Has no
effect if combined with the \fB\-dictionary\fR, \fB\-integer\fR, or
\fB\-real\fR options.
-.VE 8.5
-.TP 20
+.TP
\fB\-unique\fR
+.
If this option is specified, then only the last set of duplicate
elements found in the list will be retained. Note that duplicates are
determined relative to the comparison used in the sort. Thus if
-\fI\-index 0\fR is used, \fB{1 a}\fR and \fB{1 b}\fR would be
+\fB\-index 0\fR is used, \fB{1 a}\fR and \fB{1 b}\fR would be
considered duplicates and only the second element, \fB{1 b}\fR, would
be retained.
.SH "NOTES"
@@ -138,53 +177,80 @@ option.
.SH "EXAMPLES"
.PP
Sorting a list using ASCII sorting:
+.PP
.CS
-% \fBlsort\fR {a10 B2 b1 a1 a2}
+\fI%\fR \fBlsort\fR {a10 B2 b1 a1 a2}
B2 a1 a10 a2 b1
.CE
.PP
Sorting a list using Dictionary sorting:
+.PP
.CS
-% \fBlsort\fR -dictionary {a10 B2 b1 a1 a2}
+\fI%\fR \fBlsort\fR -dictionary {a10 B2 b1 a1 a2}
a1 a2 a10 b1 B2
.CE
.PP
Sorting lists of integers:
+.PP
.CS
-% \fBlsort\fR -integer {5 3 1 2 11 4}
+\fI%\fR \fBlsort\fR -integer {5 3 1 2 11 4}
1 2 3 4 5 11
-% \fBlsort\fR -integer {1 2 0x5 7 0 4 -1}
+\fI%\fR \fBlsort\fR -integer {1 2 0x5 7 0 4 -1}
-1 0 1 2 4 0x5 7
.CE
.PP
Sorting lists of floating-point numbers:
+.PP
.CS
-% \fBlsort\fR -real {5 3 1 2 11 4}
+\fI%\fR \fBlsort\fR -real {5 3 1 2 11 4}
1 2 3 4 5 11
-% \fBlsort\fR -real {.5 0.07e1 0.4 6e-1}
+\fI%\fR \fBlsort\fR -real {.5 0.07e1 0.4 6e-1}
0.4 .5 6e-1 0.07e1
.CE
.PP
Sorting using indices:
+.PP
.CS
-% # Note the space character before the c
-% \fBlsort\fR {{a 5} { c 3} {b 4} {e 1} {d 2}}
+\fI%\fR # Note the space character before the c
+\fI%\fR \fBlsort\fR {{a 5} { c 3} {b 4} {e 1} {d 2}}
{ c 3} {a 5} {b 4} {d 2} {e 1}
-% \fBlsort\fR -index 0 {{a 5} { c 3} {b 4} {e 1} {d 2}}
+\fI%\fR \fBlsort\fR -index 0 {{a 5} { c 3} {b 4} {e 1} {d 2}}
{a 5} {b 4} { c 3} {d 2} {e 1}
-% \fBlsort\fR -index 1 {{a 5} { c 3} {b 4} {e 1} {d 2}}
+\fI%\fR \fBlsort\fR -index 1 {{a 5} { c 3} {b 4} {e 1} {d 2}}
{e 1} {d 2} { c 3} {b 4} {a 5}
.CE
.PP
+.VS 8.6
+Sorting a dictionary:
+.PP
+.CS
+\fI%\fR set d [dict create c d a b h i f g c e]
+c e a b h i f g
+\fI%\fR \fBlsort\fR -stride 2 $d
+a b c e f g h i
+.CE
+.PP
+Sorting using striding and multiple indices:
+.PP
+.CS
+\fI%\fR # Note the first index value is relative to the group
+\fI%\fR \fBlsort\fR \-stride 3 \-index {0 1} \e
+ {{Bob Smith} 25 Audi {Jane Doe} 40 Ford}
+{{Jane Doe} 40 Ford {Bob Smith} 25 Audi}
+.CE
+.VE 8.6
+.PP
Stripping duplicate values using sorting:
+.PP
.CS
-% \fBlsort\fR -unique {a b c a b c a b c}
+\fI%\fR \fBlsort\fR -unique {a b c a b c a b c}
a b c
.CE
.PP
More complex sorting using a comparison function:
+.PP
.CS
-% proc compare {a b} {
+\fI%\fR proc compare {a b} {
set a0 [lindex $a 0]
set b0 [lindex $b 0]
if {$a0 < $b0} {
@@ -194,14 +260,15 @@ More complex sorting using a comparison function:
}
return [string compare [lindex $a 1] [lindex $b 1]]
}
-% \fBlsort\fR -command compare \e
+\fI%\fR \fBlsort\fR -command compare \e
{{3 apple} {0x2 carrot} {1 dingo} {2 banana}}
{1 dingo} {2 banana} {0x2 carrot} {3 apple}
.CE
-
.SH "SEE ALSO"
list(n), lappend(n), lindex(n), linsert(n), llength(n), lsearch(n),
lset(n), lrange(n), lreplace(n)
-
.SH KEYWORDS
element, list, order, sort
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/mathfunc.n b/doc/mathfunc.n
index 4ba25e4..14b448e 100644
--- a/doc/mathfunc.n
+++ b/doc/mathfunc.n
@@ -35,10 +35,8 @@ package require \fBTcl 8.5\fR
.br
\fB::tcl::mathfunc::double\fR \fIarg\fR
.br
-.VS 8.5
\fB::tcl::mathfunc::entier\fR \fIarg\fR
.br
-.VE 8.5
\fB::tcl::mathfunc::exp\fR \fIarg\fR
.br
\fB::tcl::mathfunc::floor\fR \fIarg\fR
@@ -115,28 +113,34 @@ for new implementations.
.SS "DETAILED DEFINITIONS"
.TP
\fBabs \fIarg\fR
+.
Returns the absolute value of \fIarg\fR. \fIArg\fR may be either
integer or floating-point, and the result is returned in the same form.
.TP
\fBacos \fIarg\fR
+.
Returns the arc cosine of \fIarg\fR, in the range [\fI0\fR,\fIpi\fR]
radians. \fIArg\fR should be in the range [\fI\-1\fR,\fI1\fR].
.TP
\fBasin \fIarg\fR
+.
Returns the arc sine of \fIarg\fR, in the range [\fI\-pi/2\fR,\fIpi/2\fR]
radians. \fIArg\fR should be in the range [\fI\-1\fR,\fI1\fR].
.TP
\fBatan \fIarg\fR
+.
Returns the arc tangent of \fIarg\fR, in the range [\fI\-pi/2\fR,\fIpi/2\fR]
radians.
.TP
\fBatan2 \fIy x\fR
+.
Returns the arc tangent of \fIy\fR/\fIx\fR, in the range [\fI\-pi\fR,\fIpi\fR]
radians. \fIx\fR and \fIy\fR cannot both be 0. If \fIx\fR is greater
than \fI0\fR, this is equivalent to
.QW "\fBatan \fR[\fBexpr\fR {\fIy\fB/\fIx\fR}]" .
.TP
\fBbool \fIarg\fR
+.
Accepts any numeric value, or any string acceptable to
\fBstring is boolean\fR, and returns the corresponding
boolean value \fB0\fR or \fB1\fR. Non-zero numbers are true.
@@ -144,18 +148,22 @@ Other numbers are false. Non-numeric strings produce boolean value in
agreement with \fBstring is true\fR and \fBstring is false\fR.
.TP
\fBceil \fIarg\fR
+.
Returns the smallest integral floating-point value (i.e. with a zero
fractional part) not less than \fIarg\fR. The argument may be any
numeric value.
.TP
\fBcos \fIarg\fR
+.
Returns the cosine of \fIarg\fR, measured in radians.
.TP
\fBcosh \fIarg\fR
+.
Returns the hyperbolic cosine of \fIarg\fR. If the result would cause
an overflow, an error is returned.
.TP
\fBdouble \fIarg\fR
+.
The argument may be any numeric value,
If \fIarg\fR is a floating-point value, returns \fIarg\fR, otherwise converts
\fIarg\fR to floating-point and returns the converted value. May return
@@ -163,64 +171,78 @@ If \fIarg\fR is a floating-point value, returns \fIarg\fR, otherwise converts
the floating-point range.
.TP
\fBentier \fIarg\fR
-.VS 8.5
+.
The argument may be any numeric value. The integer part of \fIarg\fR
is determined and returned. The integer range returned by this function
is unlimited, unlike \fBint\fR and \fBwide\fR which
truncate their range to fit in particular storage widths.
-.VE 8.5
.TP
\fBexp \fIarg\fR
+.
Returns the exponential of \fIarg\fR, defined as \fIe\fR**\fIarg\fR.
If the result would cause an overflow, an error is returned.
.TP
\fBfloor \fIarg\fR
+.
Returns the largest integral floating-point value (i.e. with a zero
fractional part) not greater than \fIarg\fR. The argument may be
any numeric value.
.TP
\fBfmod \fIx y\fR
+.
Returns the floating-point remainder of the division of \fIx\fR by
\fIy\fR. If \fIy\fR is 0, an error is returned.
.TP
\fBhypot \fIx y\fR
-Computes the length of the hypotenuse of a right-angled triangle
-.QW "\fBsqrt\fR [\fBexpr\fR {\fIx\fB*\fIx\fB+\fIy\fB*\fIy\fR}]".
+.
+Computes the length of the hypotenuse of a right-angled triangle,
+approximately
+.QW "\fBsqrt\fR [\fBexpr\fR {\fIx\fB*\fIx\fB+\fIy\fB*\fIy\fR}]"
+except for being more numerically stable when the two arguments have
+substantially different magnitudes.
.TP
\fBint \fIarg\fR
+.
The argument may be any numeric value. The integer part of \fIarg\fR
is determined, and then the low order bits of that integer value up
to the machine word size are returned as an integer value. For reference,
-the number of bytes in the machine word are stored in
-\fBtcl_platform(wordSize)\fR.
+the number of bytes in the machine word are stored in the \fBwordSize\fR
+element of the \fBtcl_platform\fR array.
.TP
\fBisqrt \fIarg\fR
+.
Computes the integer part of the square root of \fIarg\fR. \fIArg\fR must be
a positive value, either an integer or a floating point number.
Unlike \fBsqrt\fR, which is limited to the precision of a floating point
number, \fIisqrt\fR will return a result of arbitrary precision.
.TP
\fBlog \fIarg\fR
+.
Returns the natural logarithm of \fIarg\fR. \fIArg\fR must be a
positive value.
.TP
\fBlog10 \fIarg\fR
+.
Returns the base 10 logarithm of \fIarg\fR. \fIArg\fR must be a
positive value.
.TP
\fBmax \fIarg\fB \fI...\fR
+.
Accepts one or more numeric arguments. Returns the one argument
with the greatest value.
.TP
\fBmin \fIarg\fB \fI...\fR
+.
Accepts one or more numeric arguments. Returns the one argument
with the least value.
.TP
\fBpow \fIx y\fR
+.
Computes the value of \fIx\fR raised to the power \fIy\fR. If \fIx\fR
is negative, \fIy\fR must be an integer value.
.TP
\fBrand\fR
+.
Returns a pseudo-random floating-point value in the range (\fI0\fR,\fI1\fR).
The generator algorithm is a simple linear congruential generator that
is not cryptographically secure. Each result from \fBrand\fR completely
@@ -230,34 +252,42 @@ one-time passwords. The seed of the generator is initialized from the
internal clock of the machine or may be set with the \fBsrand\fR function.
.TP
\fBround \fIarg\fR
+.
If \fIarg\fR is an integer value, returns \fIarg\fR, otherwise converts
\fIarg\fR to integer by rounding and returns the converted value.
.TP
\fBsin \fIarg\fR
+.
Returns the sine of \fIarg\fR, measured in radians.
.TP
\fBsinh \fIarg\fR
+.
Returns the hyperbolic sine of \fIarg\fR. If the result would cause
an overflow, an error is returned.
.TP
\fBsqrt \fIarg\fR
+.
The argument may be any non-negative numeric value. Returns a floating-point
value that is the square root of \fIarg\fR. May return \fBInf\fR when the
argument is a numeric value that exceeds the square of the maximum value of
the floating-point range.
.TP
\fBsrand \fIarg\fR
+.
The \fIarg\fR, which must be an integer, is used to reset the seed for
the random number generator of \fBrand\fR. Returns the first random
number (see \fBrand\fR) from that seed. Each interpreter has its own seed.
.TP
\fBtan \fIarg\fR
+.
Returns the tangent of \fIarg\fR, measured in radians.
.TP
\fBtanh \fIarg\fR
+.
Returns the hyperbolic tangent of \fIarg\fR.
.TP
\fBwide \fIarg\fR
+.
The argument may be any numeric value. The integer part of \fIarg\fR
is determined, and then the low order 64 bits of that integer value
are returned as an integer value.
@@ -269,3 +299,7 @@ Copyright (c) 1993 The Regents of the University of California.
Copyright (c) 1994-2000 Sun Microsystems Incorporated.
Copyright (c) 2005, 2006 by Kevin B. Kenny <kennykb@acm.org>.
.fi
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/mathop.n b/doc/mathop.n
index 5757f87..ac2ebc1 100644
--- a/doc/mathop.n
+++ b/doc/mathop.n
@@ -1,4 +1,4 @@
-.\" -*- nroff -*-
+.\"
.\" Copyright (c) 2006-2007 Donal K. Fellows.
.\"
.\" See the file "license.terms" for information on usage and redistribution
@@ -138,7 +138,7 @@ that the following command returns a true value (omitting the namespace for
clarity):
.PP
.CS
-\fB==\fR [\fB*\fR [\fB/\fI x y\fR] \fIy\fR] [\fB-\fI x\fR [\fB%\fI x y\fR]]
+\fB==\fR [\fB*\fR [\fB/\fI x y\fR] \fIy\fR] [\fB\-\fI x\fR [\fB%\fI x y\fR]]
.CE
.RE
.TP
@@ -277,9 +277,11 @@ Returns whether the value \fIarg\fR is present in the list \fIlist\fR
Returns whether the value \fIarg\fR is not present in the list \fIlist\fR
(according to exact string comparison of elements).
.SH EXAMPLES
+.PP
The simplest way to use the operators is often by using \fBnamespace path\fR
to make the commands available. This has the advantage of not affecting the
set of commands defined by the current namespace.
+.PP
.CS
namespace path {\fB::tcl::mathop\fR ::tcl::mathfunc}
@@ -303,3 +305,6 @@ set sorted [\fB<=\fR {*}$list]
expr(n), mathfunc(n), namespace(n)
.SH KEYWORDS
command, expression, operator
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/memory.n b/doc/memory.n
index 4ff681d..f82c5b4 100644
--- a/doc/memory.n
+++ b/doc/memory.n
@@ -110,3 +110,6 @@ occur long after the overwrite occurred.
ckalloc, ckfree, Tcl_ValidateAllMemory, Tcl_DumpActiveMemory, TCL_MEM_DEBUG
.SH KEYWORDS
memory, debug
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/my.n b/doc/my.n
new file mode 100644
index 0000000..b5afc67
--- /dev/null
+++ b/doc/my.n
@@ -0,0 +1,56 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH my n 0.1 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+my \- invoke any method of current object
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBmy\fI methodName\fR ?\fIarg ...\fR?
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+The \fBmy\fR command is used to allow methods of objects to invoke any method
+of the object (or its class). In particular, the set of valid values for
+\fImethodName\fR is the set of all methods supported by an object and its
+superclasses, including those that are not exported. The object upon which the
+method is invoked is always the one that is the current context of the method
+(i.e. the object that is returned by \fBself object\fR) from which the
+\fBmy\fR command is invoked.
+.PP
+Each object has its own \fBmy\fR command, contained in its instance namespace.
+.SH EXAMPLES
+.PP
+This example shows basic use of \fBmy\fR to use the \fBvariables\fR method of
+the \fBoo::object\fR class, which is not publicly visible by default:
+.PP
+.CS
+oo::class create c {
+ method count {} {
+ \fBmy\fR variable counter
+ print [incr counter]
+ }
+}
+c create o
+o count \fI\(-> prints "1"\fR
+o count \fI\(-> prints "2"\fR
+o count \fI\(-> prints "3"\fR
+.CE
+.SH "SEE ALSO"
+next(n), oo::object(n), self(n)
+.SH KEYWORDS
+method, method visibility, object, private method, public method
+
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/namespace.n b/doc/namespace.n
index 8b26786..f2812b2 100644
--- a/doc/namespace.n
+++ b/doc/namespace.n
@@ -26,6 +26,7 @@ The legal values of \fIsubcommand\fR are listed below.
Note that you can abbreviate the \fIsubcommand\fRs.
.TP
\fBnamespace children \fR?\fInamespace\fR? ?\fIpattern\fR?
+.
Returns a list of all child namespaces that belong to the
namespace \fInamespace\fR.
If \fInamespace\fR is not specified,
@@ -41,6 +42,7 @@ otherwise the namespace \fInamespace\fR
is prepended onto the pattern.
.TP
\fBnamespace code \fIscript\fR
+.
Captures the current namespace context for later execution
of the script \fIscript\fR.
It returns a new script in which \fIscript\fR has been wrapped
@@ -68,6 +70,7 @@ See the section \fBSCOPED SCRIPTS\fR for some examples
of how this is used to create callback scripts.
.TP
\fBnamespace current\fR
+.
Returns the fully-qualified name for the current namespace.
The actual name of the global namespace is
.MT
@@ -76,6 +79,7 @@ but this command returns \fB::\fR for the global namespace
as a convenience to programmers.
.TP
\fBnamespace delete \fR?\fInamespace namespace ...\fR?
+.
Each namespace \fInamespace\fR is deleted
and all variables, procedures, and child namespaces
contained in the namespace are deleted.
@@ -87,13 +91,13 @@ If a namespace does not exist, this command returns an error.
If no namespace names are given, this command does nothing.
.TP
\fBnamespace ensemble\fR \fIsubcommand\fR ?\fIarg ...\fR?
-.VS 8.5
+.
Creates and manipulates a command that is formed out of an ensemble of
subcommands. See the section \fBENSEMBLES\fR below for further
details.
-.VE 8.5
.TP
\fBnamespace eval\fR \fInamespace arg\fR ?\fIarg ...\fR?
+.
Activates a namespace called \fInamespace\fR and evaluates some code
in that context.
If the namespace does not already exist, it is created.
@@ -109,10 +113,12 @@ they are automatically created.
.RE
.TP
\fBnamespace exists\fR \fInamespace\fR
+.
Returns \fB1\fR if \fInamespace\fR is a valid namespace in the current
context, returns \fB0\fR otherwise.
.TP
-\fBnamespace export \fR?\-\fBclear\fR? ?\fIpattern pattern ...\fR?
+\fBnamespace export \fR?\fB\-clear\fR? ?\fIpattern pattern ...\fR?
+.
Specifies which commands are exported from a namespace.
The exported commands are those that can be later imported
into another namespace using a \fBnamespace import\fR command.
@@ -133,6 +139,7 @@ If no \fIpattern\fRs are given and the \fB\-clear\fR flag is not given,
this command returns the namespace's current export list.
.TP
\fBnamespace forget \fR?\fIpattern pattern ...\fR?
+.
Removes previously imported commands from a namespace.
Each \fIpattern\fR is a simple or qualified name such as
\fBx\fR, \fBfoo::x\fR or \fBa::b::p*\fR.
@@ -157,7 +164,7 @@ If so, this command deletes the corresponding imported commands.
In effect, this un-does the action of a \fBnamespace import\fR command.
.TP
\fBnamespace import \fR?\fB\-force\fR? ?\fIpattern\fR \fIpattern ...\fR?
-.VS 8.5
+.
Imports commands into a namespace, or queries the set of imported
commands in a namespace. When no arguments are present,
\fBnamespace import\fR returns the list of commands in
@@ -166,7 +173,8 @@ namespaces. The commands in the returned list are in
the format of simple names, with no namespace qualifiers at all.
This format is suitable for composition with \fBnamespace forget\fR
(see \fBEXAMPLES\fR below).
-.VE 8.5
+.RS
+.PP
When \fIpattern\fR arguments are present,
each \fIpattern\fR is a qualified name like
\fBfoo::x\fR or \fBa::p*\fR.
@@ -174,6 +182,11 @@ That is, it includes the name of an exporting namespace
and may have glob-style special characters in the command name
at the end of the qualified name.
Glob characters may not appear in a namespace name.
+When the namespace name is not fully qualified (i.e., does not start
+with a namespace separator) it is resolved as a namespace name in the
+way described in the \fBNAME RESOLUTION\fR section; it is an error if
+no namespace with that name can be found.
+.PP
All the commands that match a \fIpattern\fR string
and which are currently exported from their namespace
are added to the current namespace.
@@ -182,7 +195,7 @@ that points to the exported command in its original namespace;
when the new imported command is called, it invokes the exported command.
This command normally returns an error
if an imported command conflicts with an existing command.
-However, if the \-\fBforce\fR option is given,
+However, if the \fB\-force\fR option is given,
imported commands will silently replace existing commands.
The \fBnamespace import\fR command has snapshot semantics:
that is, only requested commands that are currently defined
@@ -191,8 +204,10 @@ In other words, you can import only the commands that are in a namespace
at the time when the \fBnamespace import\fR command is executed.
If another command is defined and exported in this namespace later on,
it will not be imported.
+.RE
.TP
\fBnamespace inscope\fR \fInamespace\fR \fIscript\fR ?\fIarg ...\fR?
+.
Executes a script in the context of the specified \fInamespace\fR.
This command is not expected to be used directly by programmers;
calls to it are generated implicitly when applications
@@ -207,15 +222,19 @@ as proper list elements.
.CS
\fBnamespace inscope ::foo $script $x $y $z\fR
.CE
+.PP
is equivalent to
+.PP
.CS
\fBnamespace eval ::foo [concat $script [list $x $y $z]]\fR
.CE
+.PP
thus additional arguments will not undergo a second round of substitution,
as is the case with \fBnamespace eval\fR.
.RE
.TP
\fBnamespace origin \fIcommand\fR
+.
Returns the fully-qualified name of the original command
to which the imported command \fIcommand\fR refers.
When a command is imported into a namespace,
@@ -230,23 +249,23 @@ If \fIcommand\fR does not refer to an imported command,
the command's own fully-qualified name is returned.
.TP
\fBnamespace parent\fR ?\fInamespace\fR?
+.
Returns the fully-qualified name of the parent namespace
for namespace \fInamespace\fR.
If \fInamespace\fR is not specified,
the fully-qualified name of the current namespace's parent is returned.
.TP
\fBnamespace path\fR ?\fInamespaceList\fR?
-.\" Should really have the .TP inside the .VS, but that triggers a groff bug
-.VS 8.5
+.
Returns the command resolution path of the current namespace. If
\fInamespaceList\fR is specified as a list of named namespaces, the
current namespace's command resolution path is set to those namespaces
and returns the empty list. The default command resolution path is
always empty. See the section \fBNAME RESOLUTION\fR below for an
explanation of the rules regarding name resolution.
-.VE 8.5
.TP
\fBnamespace qualifiers\fR \fIstring\fR
+.
Returns any leading namespace qualifiers for \fIstring\fR.
Qualifiers are namespace names separated by double colons (\fB::\fR).
For the \fIstring\fR \fB::foo::bar::x\fR,
@@ -258,6 +277,7 @@ namespace names are, in fact,
the names of currently defined namespaces.
.TP
\fBnamespace tail\fR \fIstring\fR
+.
Returns the simple name at the end of a qualified string.
Qualifiers are namespace names separated by double colons (\fB::\fR).
For the \fIstring\fR \fB::foo::bar::x\fR,
@@ -267,8 +287,9 @@ This command is the complement of the \fBnamespace qualifiers\fR command.
It does not check whether the namespace names are, in fact,
the names of currently defined namespaces.
.TP
-\fBnamespace upvar\fR \fInamespace\fR \fIotherVar myVar \fR?\fIotherVar myVar \fR...
-This command arranges for one or more local variables in the current
+\fBnamespace upvar\fR \fInamespace\fR ?\fIotherVar myVar \fR...?
+.
+This command arranges for zero or more local variables in the current
procedure to refer to variables in \fInamespace\fR. The namespace name is
resolved as described in section \fBNAME RESOLUTION\fR.
The command
@@ -278,9 +299,11 @@ used for qualified namespace or variable names.
\fBnamespace upvar\fR returns an empty string.
.TP
\fBnamespace unknown\fR ?\fIscript\fR?
+.
Sets or returns the unknown command handler for the current namespace.
The handler is invoked when a command called from within the namespace
-cannot be found (in either the current namespace or the global namespace).
+cannot be found in the current namespace, the namespace's path nor in
+the global namespace.
The \fIscript\fR argument, if given, should be a well
formed list representing a command name and optional arguments. When
the handler is invoked, the full invocation line will be appended to the
@@ -288,7 +311,8 @@ script and the result evaluated in the context of the namespace. The
default handler for all namespaces is \fB::unknown\fR. If no argument
is given, it returns the handler for the current namespace.
.TP
-\fBnamespace which\fR ?\-\fBcommand\fR? ?\-\fBvariable\fR? \fIname\fR
+\fBnamespace which\fR ?\fB\-command\fR? ?\fB\-variable\fR? \fIname\fR
+.
Looks up \fIname\fR as either a command or variable
and returns its fully-qualified name.
For example, if \fIname\fR does not exist in the current namespace
@@ -312,17 +336,19 @@ which we refer to as the \fIglobal namespace\fR.
The global namespace holds all global variables and commands.
The \fBnamespace eval\fR command lets you create new namespaces.
For example,
+.PP
.CS
\fBnamespace eval\fR Counter {
- \fBnamespace export\fR bump
- variable num 0
+ \fBnamespace export\fR bump
+ variable num 0
- proc bump {} {
- variable num
- incr num
- }
+ proc bump {} {
+ variable num
+ incr num
+ }
}
.CE
+.PP
creates a new namespace containing the variable \fBnum\fR and
the procedure \fBbump\fR.
The commands and variables in this namespace are separate from
@@ -342,23 +368,25 @@ so you can build up the contents of a
namespace over time using a series of \fBnamespace eval\fR commands.
For example, the following series of commands has the same effect
as the namespace definition shown above:
+.PP
.CS
\fBnamespace eval\fR Counter {
- variable num 0
- proc bump {} {
- variable num
- return [incr num]
- }
+ variable num 0
+ proc bump {} {
+ variable num
+ return [incr num]
+ }
}
\fBnamespace eval\fR Counter {
- proc test {args} {
- return $args
- }
+ proc test {args} {
+ return $args
+ }
}
\fBnamespace eval\fR Counter {
- rename test ""
+ rename test ""
}
.CE
+.PP
Note that the \fBtest\fR procedure is added to the \fBCounter\fR namespace,
and later removed via the \fBrename\fR command.
.PP
@@ -390,19 +418,24 @@ you must use some extra syntax.
Names must be qualified by the namespace that contains them.
From the global namespace,
we might access the \fBCounter\fR procedures like this:
+.PP
.CS
Counter::bump 5
Counter::Reset
.CE
+.PP
We could access the current count like this:
+.PP
.CS
puts "count = $Counter::num"
.CE
+.PP
When one namespace contains another, you may need more than one
qualifier to reach its elements.
If we had a namespace \fBFoo\fR that contained the namespace \fBCounter\fR,
you could invoke its \fBbump\fR procedure
from the global namespace like this:
+.PP
.CS
Foo::Counter::bump 3
.CE
@@ -410,10 +443,13 @@ Foo::Counter::bump 3
You can also use qualified names when you create and rename commands.
For example, you could add a procedure to the \fBFoo\fR
namespace like this:
+.PP
.CS
proc Foo::Test {args} {return $args}
.CE
+.PP
And you could move the same procedure to another namespace like this:
+.PP
.CS
rename Foo::Test Bar::Test
.CE
@@ -440,43 +476,46 @@ you mean.
However, if the name does not start with a \fB::\fR
(i.e., is \fIrelative\fR),
Tcl follows basic rules for looking it up:
-Variable names are always resolved
-by looking first in the current namespace,
-and then in the global namespace.
-.VS 8.5
-Command names are also always resolved by looking in the current
-namespace first. If not found there, they are searched for in every
-namespace on the current namespace's command path (which is empty by
-default). If not found there, command names are looked up in the
-global namespace (or, failing that, are processed by the \fBunknown\fR
-command.)
-.VE 8.5
-Namespace names, on the other hand, are always resolved
-by looking in only the current namespace.
+.IP \(bu
+\fBVariable names\fR are always resolved by looking first in the current
+namespace, and then in the global namespace.
+.IP \(bu
+\fBCommand names\fR are always resolved by looking in the current namespace
+first. If not found there, they are searched for in every namespace on the
+current namespace's command path (which is empty by default). If not found
+there, command names are looked up in the global namespace (or, failing that,
+are processed by the appropriate \fBnamespace unknown\fR handler.)
+.IP \(bu
+\fBNamespace names\fR are always resolved by looking in only the current
+namespace.
.PP
In the following example,
+.PP
.CS
set traceLevel 0
\fBnamespace eval\fR Debug {
- printTrace $traceLevel
+ printTrace $traceLevel
}
.CE
+.PP
Tcl looks for \fBtraceLevel\fR in the namespace \fBDebug\fR
and then in the global namespace.
It looks up the command \fBprintTrace\fR in the same way.
If a variable or command name is not found in either context,
the name is undefined.
To make this point absolutely clear, consider the following example:
+.PP
.CS
set traceLevel 0
\fBnamespace eval\fR Foo {
- variable traceLevel 3
+ variable traceLevel 3
- \fBnamespace eval\fR Debug {
- printTrace $traceLevel
- }
+ \fBnamespace eval\fR Debug {
+ printTrace $traceLevel
+ }
}
.CE
+.PP
Here Tcl looks for \fBtraceLevel\fR first in the namespace \fBFoo::Debug\fR.
Since it is not found there, Tcl then looks for it
in the global namespace.
@@ -486,14 +525,18 @@ during the name resolution process.
You can use the \fBnamespace which\fR command to clear up any question
about name resolution.
For example, the command:
+.PP
.CS
\fBnamespace eval\fR Foo::Debug {\fBnamespace which\fR \-variable traceLevel}
.CE
+.PP
returns \fB::traceLevel\fR.
On the other hand, the command,
+.PP
.CS
\fBnamespace eval\fR Foo {\fBnamespace which\fR \-variable traceLevel}
.CE
+.PP
returns \fB::Foo::traceLevel\fR.
.PP
As mentioned above,
@@ -531,23 +574,29 @@ that it is a nuisance to type their qualified names.
For example, suppose that all of the commands in a package
like BLT are contained in a namespace called \fBBlt\fR.
Then you might access these commands like this:
+.PP
.CS
Blt::graph .g \-background red
Blt::table . .g 0,0
.CE
+.PP
If you use the \fBgraph\fR and \fBtable\fR commands frequently,
you may want to access them without the \fBBlt::\fR prefix.
You can do this by importing the commands into the current namespace,
like this:
+.PP
.CS
\fBnamespace import\fR Blt::*
.CE
+.PP
This adds all exported commands from the \fBBlt\fR namespace
into the current namespace context, so you can write code like this:
+.PP
.CS
graph .g \-background red
table . .g 0,0
.CE
+.PP
The \fBnamespace import\fR command only imports commands
from a namespace that that namespace exported
with a \fBnamespace export\fR command.
@@ -556,9 +605,11 @@ Importing \fIevery\fR command from a namespace is generally
a bad idea since you do not know what you will get.
It is better to import just the specific commands you need.
For example, the command
+.PP
.CS
\fBnamespace import\fR Blt::graph Blt::table
.CE
+.PP
imports only the \fBgraph\fR and \fBtable\fR commands into the
current context.
.PP
@@ -569,57 +620,67 @@ you may want to get around this restriction. You may want to
reissue the \fBnamespace import\fR command to pick up new commands
that have appeared in a namespace. In that case, you can use the
\fB\-force\fR option, and existing commands will be silently overwritten:
+.PP
.CS
\fBnamespace import\fR \-force Blt::graph Blt::table
.CE
+.PP
If for some reason, you want to stop using the imported commands,
you can remove them with a \fBnamespace forget\fR command, like this:
+.PP
.CS
\fBnamespace forget\fR Blt::*
.CE
+.PP
This searches the current namespace for any commands imported from \fBBlt\fR.
If it finds any, it removes them. Otherwise, it does nothing.
After this, the \fBBlt\fR commands must be accessed with the \fBBlt::\fR
prefix.
.PP
When you delete a command from the exporting namespace like this:
+.PP
.CS
rename Blt::graph ""
.CE
+.PP
the command is automatically removed from all namespaces that import it.
.SH "EXPORTING COMMANDS"
You can export commands from a namespace like this:
+.PP
.CS
\fBnamespace eval\fR Counter {
- \fBnamespace export\fR bump reset
- variable Num 0
- variable Max 100
+ \fBnamespace export\fR bump reset
+ variable Num 0
+ variable Max 100
- proc bump {{by 1}} {
- variable Num
- incr Num $by
- Check
- return $Num
- }
- proc reset {} {
- variable Num
- set Num 0
- }
- proc Check {} {
- variable Num
- variable Max
- if {$Num > $Max} {
- error "too high!"
- }
- }
+ proc bump {{by 1}} {
+ variable Num
+ incr Num $by
+ Check
+ return $Num
+ }
+ proc reset {} {
+ variable Num
+ set Num 0
+ }
+ proc Check {} {
+ variable Num
+ variable Max
+ if {$Num > $Max} {
+ error "too high!"
+ }
+ }
}
.CE
+.PP
The procedures \fBbump\fR and \fBreset\fR are exported,
so they are included when you import from the \fBCounter\fR namespace,
like this:
+.PP
.CS
\fBnamespace import\fR Counter::*
.CE
+.PP
However, the \fBCheck\fR procedure is not exported,
so it is ignored by the import operation.
.PP
@@ -640,13 +701,13 @@ namespace:
.PP
.CS
\fBnamespace eval\fR a {
- variable b
- proc theTraceCallback { n1 n2 op } {
- upvar 1 $n1 var
- puts "the value of $n1 has changed to $var"
- return
- }
- trace add variable b write [\fBnamespace code\fR theTraceCallback]
+ variable b
+ proc theTraceCallback { n1 n2 op } {
+ upvar 1 $n1 var
+ puts "the value of $n1 has changed to $var"
+ return
+ }
+ trace add variable b write [\fBnamespace code\fR theTraceCallback]
}
set a::b c
.CE
@@ -658,7 +719,6 @@ the value of a::b has changed to c
.CE
.SH ENSEMBLES
.PP
-.VS 8.5
The \fBnamespace ensemble\fR is used to create and manipulate ensemble
commands, which are commands formed by grouping subcommands together.
The commands typically come from the current namespace when the
@@ -672,6 +732,7 @@ namespace is maintained however the ensemble is renamed.
Three subcommands of the \fBnamespace ensemble\fR command are defined:
.TP
\fBnamespace ensemble create\fR ?\fIoption value ...\fR?
+.
Creates a new ensemble command linked to the current namespace,
returning the fully qualified name of the command created. The
arguments to \fBnamespace ensemble create\fR allow the configuration
@@ -682,12 +743,14 @@ namespace. See the section \fBENSEMBLE OPTIONS\fR below for a full
list of options supported and their effects.
.TP
\fBnamespace ensemble configure \fIcommand\fR ?\fIoption\fR? ?\fIvalue ...\fR?
+.
Retrieves the value of an option associated with the ensemble command
named \fIcommand\fR, or updates some options associated with that
ensemble command. See the section \fBENSEMBLE OPTIONS\fR below for a
full list of options supported and their effects.
.TP
\fBnamespace ensemble exists\fR \fIcommand\fR
+.
Returns a boolean value that describes whether the command
\fIcommand\fR exists and is an ensemble command. This command only
ever returns an error if the number of arguments to the command is
@@ -710,6 +773,7 @@ create\fR and \fBnamespace ensemble configure\fR commands, control how
an ensemble command behaves:
.TP
\fB\-map\fR
+.
When non-empty, this option supplies a dictionary that provides a
mapping from subcommand names to a list of prefix words to substitute
in place of the ensemble command and subcommand words (in a manner
@@ -723,13 +787,23 @@ name. Note that when this option is non-empty and the
\fB\-subcommands\fR option is empty, the ensemble subcommand names
will be exactly those words that have mappings in the dictionary.
.TP
+\fB\-parameters\fR
+.VS 8.6
+This option gives a list of named arguments (the names being used during
+generation of error messages) that are passed by the caller of the ensemble
+between the name of the ensemble and the subcommand argument. By default, it
+is the empty list.
+.VE 8.6
+.TP
\fB\-prefixes\fR
+.
This option (which is enabled by default) controls whether the
ensemble command recognizes unambiguous prefixes of its subcommands.
When turned off, the ensemble command requires exact matching of
subcommand names.
.TP
\fB\-subcommands\fR
+.
When non-empty, this option lists exactly what subcommands are in the
ensemble. The mapping for each of those commands will be either whatever
is defined in the \fB\-map\fR option, or to the command with the same
@@ -740,6 +814,7 @@ of the linked namespace at the time of the invocation of the ensemble
command.
.TP
\fB\-unknown\fR
+.
When non-empty, this option provides a partial command (to which all
the words that are arguments to the ensemble command, including the
fully-qualified name of the ensemble, are appended) to handle the case
@@ -753,6 +828,7 @@ The following extra option is allowed by \fBnamespace ensemble
create\fR:
.TP
\fB\-command\fR
+.
This write-only option allows the name of the ensemble created by
\fBnamespace ensemble create\fR to be anything in any existing
namespace. The default value for this option is the fully-qualified
@@ -763,6 +839,7 @@ The following extra option is allowed by \fBnamespace ensemble
configure\fR:
.TP
\fB\-namespace\fR
+.
This read-only option allows the retrieval of the fully-qualified name
of the namespace which the ensemble was created within.
.SS "UNKNOWN HANDLER BEHAVIOUR"
@@ -814,29 +891,30 @@ error message from \fBTcl_GetIndexFromObj\fR). This is the error that
will be thrown when the subcommand is still not recognized during
reparsing. It is also an error for an \fB\-unknown\fR handler to
delete its namespace.
-.VE 8.5
.SH EXAMPLES
Create a namespace containing a variable and an exported command:
+.PP
.CS
\fBnamespace eval\fR foo {
- variable bar 0
- proc grill {} {
- variable bar
- puts "called [incr bar] times"
- }
- \fBnamespace export\fR grill
+ variable bar 0
+ proc grill {} {
+ variable bar
+ puts "called [incr bar] times"
+ }
+ \fBnamespace export\fR grill
}
.CE
.PP
Call the command defined in the previous example in various ways.
+.PP
.CS
# Direct call
::foo::grill
# Use the command resolution path to find the name
\fBnamespace eval\fR boo {
- \fBnamespace path\fR ::foo
- grill
+ \fBnamespace path\fR ::foo
+ grill
}
# Import into current namespace, then call local alias
@@ -846,23 +924,46 @@ grill
# Create two ensembles, one with the default name and one with a
# specified name. Then call through the ensembles.
\fBnamespace eval\fR foo {
- \fBnamespace ensemble\fR create
- \fBnamespace ensemble\fR create -command ::foobar
+ \fBnamespace ensemble\fR create
+ \fBnamespace ensemble\fR create -command ::foobar
}
foo grill
foobar grill
.CE
.PP
Look up where the command imported in the previous example came from:
+.PP
.CS
puts "grill came from [\fBnamespace origin\fR grill]"
.CE
.PP
Remove all imported commands from the current namespace:
+.PP
.CS
namespace forget {*}[namespace import]
.CE
+.PP
+.VS 8.6
+Create an ensemble for simple working with numbers, using the
+\fB\-parameters\fR option to allow the operator to be put between the first
+and second arguments.
+.PP
+.CS
+\fBnamespace eval\fR do {
+ \fBnamespace export\fR *
+ \fBnamespace ensemble\fR create -parameters x
+ proc plus {x y} {expr { $x + $y }}
+ proc minus {x y} {expr { $x - $y }}
+}
+
+# In use, the ensemble works like this:
+puts [do 1 plus [do 9 minus 7]]
+.CE
+.VE 8.6
.SH "SEE ALSO"
interp(n), upvar(n), variable(n)
.SH KEYWORDS
command, ensemble, exported, internal, variable
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/next.n b/doc/next.n
new file mode 100644
index 0000000..fe7bddf
--- /dev/null
+++ b/doc/next.n
@@ -0,0 +1,206 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH next n 0.1 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+next, nextto \- invoke superclass method implementations
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBnext\fR ?\fIarg ...\fR?
+\fBnextto\fI class\fR ?\fIarg ...\fR?
+.fi
+.BE
+
+.SH DESCRIPTION
+.PP
+The \fBnext\fR command is used to call implementations of a method by a class,
+superclass or mixin that are overridden by the current method. It can only be
+used from within a method. It is also used within filters to indicate the
+point where a filter calls the actual implementation (the filter may decide to
+not go along the chain, and may process the results of going along the chain
+of methods as it chooses). The result of the \fBnext\fR command is the result
+of the next method in the method chain; if there are no further methods in the
+method chain, the result of \fBnext\fR will be an error. The arguments,
+\fIarg\fR, to \fBnext\fR are the arguments to pass to the next method in the
+chain.
+.PP
+The \fBnextto\fR command is the same as the \fBnext\fR command, except that it
+takes an additional \fIclass\fR argument that identifies a class whose
+implementation of the current method chain (see \fBinfo object\fR \fBcall\fR) should
+be used; the method implementation selected will be the one provided by the
+given class, and it must refer to an existing non-filter invocation that lies
+further along the chain than the current implementation.
+.SH "THE METHOD CHAIN"
+.PP
+When a method of an object is invoked, things happen in several stages:
+.IP [1]
+The structure of the object, its class, superclasses, filters, and mixins, are
+examined to build a \fImethod chain\fR, which contains a list of method
+implementations to invoke.
+.IP [2]
+The first method implementation on the chain is invoked.
+.IP [3]
+If that method implementation invokes the \fBnext\fR command, the next method
+implementation is invoked (with its arguments being those that were passed to
+\fBnext\fR).
+.IP [4]
+The result from the overall method call is the result from the outermost
+method implementation; inner method implementations return their results
+through \fBnext\fR.
+.IP [5]
+The method chain is cached for future use.
+.SS "METHOD SEARCH ORDER"
+.PP
+When constructing the method chain, method implementations are searched for in
+the following order:
+.IP [1]
+In the classes mixed into the object, in class traversal order. The list of
+mixins is checked in natural order.
+.IP [2]
+In the classes mixed into the classes of the object, with sources of mixing in
+being searched in class traversal order. Within each class, the list of mixins
+is processed in natural order.
+.IP [3]
+In the object itself.
+.IP [4]
+In the object's class.
+.IP [5]
+In the superclasses of the class, following each superclass in a depth-first
+fashion in the natural order of the superclass list.
+.PP
+Any particular method implementation always comes as \fIlate\fR in the
+resulting list of implementations as possible; this means that if some class,
+A, is both mixed into a class, B, and is also a superclass of B, the instances
+of B will always treat A as a superclass from the perspective of inheritance.
+This is true even when the multiple inheritance is processed indirectly.
+.SS FILTERS
+.PP
+When an object has a list of filter names set upon it, or is an instance of a
+class (or has mixed in a class) that has a list of filter names set upon it,
+before every invocation of any method the filters are processed. Filter
+implementations are found in class traversal order, as are the lists of filter
+names (each of which is traversed in natural list order). Explicitly invoking
+a method used as a filter will cause that method to be invoked twice, once as
+a filter and once as a normal method.
+.PP
+Each filter should decide for itself whether to permit the execution to go
+forward to the proper implementation of the method (which it does by invoking
+the \fBnext\fR command as filters are inserted into the front of the method
+call chain) and is responsible for returning the result of \fBnext\fR.
+.PP
+Filters are not invoked when processing an invocation of the \fBunknown\fR
+method because of a failure to locate a method implementation, or when
+invoking either constructors or destructors.
+.SH EXAMPLES
+.PP
+This example demonstrates how to use the \fBnext\fR command to call the
+(super)class's implementation of a method. The script:
+.PP
+.CS
+oo::class create theSuperclass {
+ method example {args} {
+ puts "in the superclass, args = $args"
+ }
+}
+oo::class create theSubclass {
+ superclass theSuperclass
+ method example {args} {
+ puts "before chaining from subclass, args = $args"
+ \fBnext\fR a {*}$args b
+ \fBnext\fR pureSynthesis
+ puts "after chaining from subclass"
+ }
+}
+theSubclass create obj
+oo::define obj method example args {
+ puts "per-object method, args = $args"
+ \fBnext\fR x {*}$args y
+ \fBnext\fR
+}
+obj example 1 2 3
+.CE
+.PP
+prints the following:
+.PP
+.CS
+per-object method, args = 1 2 3
+before chaining from subclass, args = x 1 2 3 y
+in the superclass, args = a x 1 2 3 y b
+in the superclass, args = pureSynthesis
+after chaining from subclass
+before chaining from subclass, args =
+in the superclass, args = a b
+in the superclass, args = pureSynthesis
+after chaining from subclass
+.CE
+.PP
+This example demonstrates how to build a simple cache class that applies
+memoization to all the method calls of the objects it is mixed into, and shows
+how it can make a difference to computation times:
+.PP
+.CS
+oo::class create cache {
+ filter Memoize
+ method Memoize args {
+ \fI# Do not filter the core method implementations\fR
+ if {[lindex [self target] 0] eq "::oo::object"} {
+ return [\fBnext\fR {*}$args]
+ }
+
+ \fI# Check if the value is already in the cache\fR
+ my variable ValueCache
+ set key [self target],$args
+ if {[info exist ValueCache($key)]} {
+ return $ValueCache($key)
+ }
+
+ \fI# Compute value, insert into cache, and return it\fR
+ return [set ValueCache($key) [\fBnext\fR {*}$args]]
+ }
+ method flushCache {} {
+ my variable ValueCache
+ unset ValueCache
+ \fI# Skip the caching\fR
+ return -level 2 ""
+ }
+}
+
+oo::object create demo
+oo::define demo {
+ mixin cache
+ method compute {a b c} {
+ after 3000 \fI;# Simulate deep thought\fR
+ return [expr {$a + $b * $c}]
+ }
+ method compute2 {a b c} {
+ after 3000 \fI;# Simulate deep thought\fR
+ return [expr {$a * $b + $c}]
+ }
+}
+
+puts [demo compute 1 2 3] \fI\(-> prints "7" after delay\fR
+puts [demo compute2 4 5 6] \fI\(-> prints "26" after delay\fR
+puts [demo compute 1 2 3] \fI\(-> prints "7" instantly\fR
+puts [demo compute2 4 5 6] \fI\(-> prints "26" instantly\fR
+puts [demo compute 4 5 6] \fI\(-> prints "34" after delay\fR
+puts [demo compute 4 5 6] \fI\(-> prints "34" instantly\fR
+puts [demo compute 1 2 3] \fI\(-> prints "7" instantly\fR
+demo flushCache
+puts [demo compute 1 2 3] \fI\(-> prints "7" after delay\fR
+.CE
+.SH "SEE ALSO"
+oo::class(n), oo::define(n), oo::object(n), self(n)
+.SH KEYWORDS
+call, method, method chain
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/object.n b/doc/object.n
new file mode 100644
index 0000000..6737e7e
--- /dev/null
+++ b/doc/object.n
@@ -0,0 +1,128 @@
+'\"
+'\" Copyright (c) 2007-2008 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH object n 0.1 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+oo::object \- root class of the class hierarchy
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBoo::object\fI method \fR?\fIarg ...\fR?
+.fi
+.SH "CLASS HIERARCHY"
+.nf
+\fBoo::object\fR
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+The \fBoo::object\fR class is the root class of the object hierarchy; every
+object is an instance of this class. Since classes are themselves objects,
+they are instances of this class too. Objects are always referred to by their
+name, and may be \fBrename\fRd while maintaining their identity.
+.PP
+Instances of objects may be made with either the \fBcreate\fR or \fBnew\fR
+methods of the \fBoo::object\fR object itself, or by invoking those methods on
+any of the subclass objects; see \fBoo::class\fR for more details. The
+configuration of individual objects (i.e., instance-specific methods, mixed-in
+classes, etc.) may be controlled with the \fBoo::objdefine\fR command.
+.PP
+Each object has a unique namespace associated with it, the instance namespace.
+This namespace holds all the instance variables of the object, and will be the
+current namespace whenever a method of the object is invoked (including a
+method of the class of the object). When the object is destroyed, its instance
+namespace is deleted. The instance namespace contains the object's \fBmy\fR
+command, which may be used to invoke non-exported methods of the object or to
+create a reference to the object for the purpose of invocation which persists
+across renamings of the object.
+.SS CONSTRUCTOR
+The \fBoo::object\fR class does not define an explicit constructor.
+.SS DESTRUCTOR
+The \fBoo::object\fR class does not define an explicit destructor.
+.SS "EXPORTED METHODS"
+The \fBoo::object\fR class supports the following exported methods:
+.TP
+\fIobj \fBdestroy\fR
+.
+This method destroys the object, \fIobj\fR, that it is invoked upon, invoking
+any destructors on the object's class in the process. It is equivalent to
+using \fBrename\fR to delete the object command. The result of this method is
+always the empty string.
+.SS "NON-EXPORTED METHODS"
+.PP
+The \fBoo::object\fR class supports the following non-exported methods:
+.TP
+\fIobj \fBeval\fR ?\fIarg ...\fR?
+.
+This method concatenates the arguments, \fIarg\fR, as if with \fBconcat\fR,
+and then evaluates the resulting script in the namespace that is uniquely
+associated with \fIobj\fR, returning the result of the evaluation.
+.TP
+\fIobj \fBunknown ?\fImethodName\fR? ?\fIarg ...\fR?
+.
+This method is called when an attempt to invoke the method \fImethodName\fR on
+object \fIobj\fR fails. The arguments that the user supplied to the method are
+given as \fIarg\fR arguments.
+.VS
+If \fImethodName\fR is absent, the object was invoked with no method name at
+all (or any other arguments).
+.VE
+The default implementation (i.e., the one defined by the \fBoo::object\fR
+class) generates a suitable error, detailing what methods the object supports
+given whether the object was invoked by its public name or through the
+\fBmy\fR command.
+.TP
+\fIobj \fBvariable \fR?\fIvarName ...\fR?
+.
+This method arranges for each variable called \fIvarName\fR to be linked from
+the object \fIobj\fR's unique namespace into the caller's context. Thus, if it
+is invoked from inside a procedure then the namespace variable in the object
+is linked to the local variable in the procedure. Each \fIvarName\fR argument
+must not have any namespace separators in it. The result is the empty string.
+.TP
+\fIobj \fBvarname \fIvarName\fR
+.
+This method returns the globally qualified name of the variable \fIvarName\fR
+in the unique namespace for the object \fIobj\fR.
+.TP
+\fIobj \fB<cloned> \fIsourceObjectName\fR
+.VS
+This method is used by the \fBoo::object\fR command to copy the state of one
+object to another. It is responsible for copying the procedures and variables
+of the namespace of the source object (\fIsourceObjectName\fR) to the current
+object. It does not copy any other types of commands or any traces on the
+variables; that can be added if desired by overriding this method in a
+subclass.
+.VE
+.SH EXAMPLES
+.PP
+This example demonstrates basic use of an object.
+.PP
+.CS
+set obj [\fBoo::object\fR new]
+$obj foo \fI\(-> error "unknown method foo"\fR
+oo::objdefine $obj method foo {} {
+ my \fBvariable\fR count
+ puts "bar[incr count]"
+}
+$obj foo \fI\(-> prints "bar1"\fR
+$obj foo \fI\(-> prints "bar2"\fR
+$obj variable count \fI\(-> error "unknown method variable"\fR
+$obj \fBdestroy\fR
+$obj foo \fI\(-> error "unknown command obj"\fR
+.CE
+.SH "SEE ALSO"
+my(n), oo::class(n)
+.SH KEYWORDS
+base class, class, object, root class
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/open.n b/doc/open.n
index 88283bb..d4842f2 100644
--- a/doc/open.n
+++ b/doc/open.n
@@ -34,73 +34,84 @@ The \fIaccess\fR argument, if present, indicates the way in which the file
In the first form \fIaccess\fR may have any of the following values:
.TP 15
\fBr\fR
+.
Open the file for reading only; the file must already exist. This is the
default value if \fIaccess\fR is not specified.
.TP 15
\fBr+\fR
+.
Open the file for both reading and writing; the file must
already exist.
.TP 15
\fBw\fR
+.
Open the file for writing only. Truncate it if it exists. If it does not
exist, create a new file.
.TP 15
\fBw+\fR
+.
Open the file for reading and writing. Truncate it if it exists.
If it does not exist, create a new file.
.TP 15
\fBa\fR
+.
Open the file for writing only. If the file does not exist,
create a new empty file.
Set the file pointer to the end of the file prior to each write.
.TP 15
\fBa+\fR
+.
Open the file for reading and writing. If the file does not exist,
create a new empty file.
Set the initial access position to the end of the file.
-.VS 8.5
.PP
All of the legal \fIaccess\fR values above may have the character
\fBb\fR added as the second or third character in the value to
-indicate that the opened channel should be configured with the
-\fB\-translation binary\fR option, making the channel suitable for
+indicate that the opened channel should be configured as if with the
+\fBfconfigure\fR \fB\-translation binary\fR option, making the channel suitable for
reading or writing of binary data.
-.VE 8.5
.PP
In the second form, \fIaccess\fR consists of a list of any of the
following flags, all of which have the standard POSIX meanings.
One of the flags must be either \fBRDONLY\fR, \fBWRONLY\fR or \fBRDWR\fR.
.TP 15
\fBRDONLY\fR
+.
Open the file for reading only.
.TP 15
\fBWRONLY\fR
+.
Open the file for writing only.
.TP 15
\fBRDWR\fR
+.
Open the file for both reading and writing.
.TP 15
\fBAPPEND\fR
+.
Set the file pointer to the end of the file prior to each write.
-.VS 8.5
.TP 15
\fBBINARY\fR
+.
Configure the opened channel with the \fB\-translation binary\fR option.
-.VE 8.5
.TP 15
\fBCREAT\fR
+.
Create the file if it does not already exist (without this flag it
is an error for the file not to exist).
.TP 15
\fBEXCL\fR
+.
If \fBCREAT\fR is also specified, an error is returned if the
file already exists.
.TP 15
\fBNOCTTY\fR
+.
If the file is a terminal device, this flag prevents the file from
becoming the controlling terminal of the process.
.TP 15
\fBNONBLOCK\fR
+.
Prevents the process from blocking while opening the file, and
possibly in subsequent I/O operations. The exact behavior of
this flag is system- and device-dependent; its use is discouraged
@@ -110,6 +121,7 @@ For details refer to your system documentation on the \fBopen\fR system
call's \fBO_NONBLOCK\fR flag.
.TP 15
\fBTRUNC\fR
+.
If the file exists it is truncated to zero length.
.PP
If a new file is created as part of opening it, \fIpermissions\fR
@@ -119,7 +131,7 @@ conjunction with the process's file mode creation mask.
.SH "COMMAND PIPELINES"
.PP
If the first character of \fIfileName\fR is
-.QW |
+.QW \fB|\fR
then the
remaining characters of \fIfileName\fR are treated as a list of arguments
that describe a command pipeline to invoke, in the same style as the
@@ -127,10 +139,12 @@ arguments for \fBexec\fR.
In this case, the channel identifier returned by \fBopen\fR may be used
to write to the command's input pipe or read from its output pipe,
depending on the value of \fIaccess\fR.
-If write-only access is used (e.g. \fIaccess\fR is \fBw\fR), then
-standard output for the pipeline is directed to the current standard
+If write-only access is used (e.g. \fIaccess\fR is
+.QW \fBw\fR ),
+then standard output for the pipeline is directed to the current standard
output unless overridden by the command.
-If read-only access is used (e.g. \fIaccess\fR is \fBr\fR),
+If read-only access is used (e.g. \fIaccess\fR is
+.QW \fBr\fR ),
standard input for the pipeline is taken from the current standard
input unless overridden by the command.
The id of the spawned process is accessible through the \fBpid\fR
@@ -156,6 +170,7 @@ The \fBfconfigure\fR command can be used to query and set additional
configuration options specific to serial ports (where supported):
.TP
\fB\-mode\fR \fIbaud\fB,\fIparity\fB,\fIdata\fB,\fIstop\fR
+.
This option is a set of 4 comma-separated values: the baud rate, parity,
number of data bits, and number of stop bits for this serial port. The
\fIbaud\fR rate is a simple integer that specifies the connection speed.
@@ -172,6 +187,7 @@ data bits and should be an integer from 5 to 8, while \fIstop\fR is the
number of stop bits and should be the integer 1 or 2.
.TP
\fB\-handshake\fR \fItype\fR
+.
(Windows and Unix). This option is used to setup automatic handshake
control. Note that not all handshake types maybe supported by your operating
system. The \fItype\fR parameter is case-independent.
@@ -189,11 +205,13 @@ The \fB\-handshake\fR option cannot be queried.
.RE
.TP
\fB\-queue\fR
+.
(Windows and Unix). The \fB\-queue\fR option can only be queried.
It returns a list of two integers representing the current number
of bytes in the input and output queue respectively.
.TP
\fB\-timeout\fR \fImsec\fR
+.
(Windows and Unix). This option is used to set the timeout for blocking
read operations. It specifies the maximum interval between the
reception of two bytes in milliseconds.
@@ -203,6 +221,7 @@ nonblocking reads.
This option cannot be queried.
.TP
\fB\-ttycontrol\fR \fI{signal boolean signal boolean ...}\fR
+.
(Windows and Unix). This option is used to setup the handshake
output lines (see below) permanently or to send a BREAK over the serial line.
The \fIsignal\fR names are case-independent.
@@ -215,6 +234,7 @@ The result is unpredictable.
The \fB\-ttycontrol\fR option cannot be queried.
.TP
\fB\-ttystatus\fR
+.
(Windows and Unix). The \fB\-ttystatus\fR option can only be
queried. It returns the current modem status and handshake input signals
(see below).
@@ -223,12 +243,14 @@ e.g. \fB{CTS 1 DSR 0 RING 1 DCD 0}\fR.
The \fIsignal\fR names are returned upper case.
.TP
\fB\-xchar\fR \fI{xonChar xoffChar}\fR
+.
(Windows and Unix). This option is used to query or change the software
handshake characters. Normally the operating system default should be
DC1 (0x11) and DC3 (0x13) representing the ASCII standard
XON and XOFF characters.
.TP
\fB\-pollinterval\fR \fImsec\fR
+.
(Windows only). This option is used to set the maximum time between
polling for fileevents.
This affects the time interval between checking for events throughout the Tcl
@@ -239,6 +261,7 @@ you want to poll the serial port more or less often than 10 msec
\fB\-sysbuffer\fR \fIinSize\fR
.TP
\fB\-sysbuffer\fR \fI{inSize outSize}\fR
+.
(Windows only). This option is used to change the size of Windows
system buffers for a serial channel. Especially at higher communication
rates the default input buffer size of 4096 bytes can overrun
@@ -246,10 +269,11 @@ for latent systems. The first form specifies the input buffer size,
in the second form both input and output buffers are defined.
.TP
\fB\-lasterror\fR
+.
(Windows only). This option is query only.
In case of a serial communication error, \fBread\fR or \fBputs\fR
returns a general Tcl file I/O error.
-\fBfconfigure -lasterror\fR can be called to get a list of error details.
+\fBfconfigure\fR \fB\-lasterror\fR can be called to get a list of error details.
See below for an explanation of the various error codes.
.SH "SERIAL PORT SIGNALS"
.PP
@@ -261,29 +285,29 @@ lines and handshaking. Here we are using the terms \fIworkstation\fR for
your computer and \fImodem\fR for the external device, because some signal
names (DCD, RI) come from modems. Of course your external device may use
these signal lines for other purposes.
-.IP \fBTXD(output)\fR
+.IP \fBTXD\fR(output)
\fBTransmitted Data:\fR Outgoing serial data.
-.IP \fBRXD(input)\fR
+.IP \fBRXD\fR(input)
\fBReceived Data:\fRIncoming serial data.
-.IP \fBRTS(output)\fR
+.IP \fBRTS\fR(output)
\fBRequest To Send:\fR This hardware handshake line informs the modem that
your workstation is ready to receive data. Your workstation may
automatically reset this signal to indicate that the input buffer is full.
-.IP \fBCTS(input)\fR
+.IP \fBCTS\fR(input)
\fBClear To Send:\fR The complement to RTS. Indicates that the modem is
ready to receive data.
-.IP \fBDTR(output)\fR
+.IP \fBDTR\fR(output)
\fBData Terminal Ready:\fR This signal tells the modem that the workstation
is ready to establish a link. DTR is often enabled automatically whenever a
serial port is opened.
-.IP \fBDSR(input)\fR
+.IP \fBDSR\fR(input)
\fBData Set Ready:\fR The complement to DTR. Tells the workstation that the
modem is ready to establish a link.
-.IP \fBDCD(input)\fR
+.IP \fBDCD\fR(input)
\fBData Carrier Detect:\fR This line becomes active when a modem detects a
.QW Carrier
signal.
-.IP \fBRI(input)\fR
+.IP \fBRI\fR(input)
\fBRing Indicator:\fR Goes active when the modem detects an incoming call.
.IP \fBBREAK\fR
A BREAK condition is not a hardware signal line, but a logical zero on the
@@ -299,39 +323,46 @@ event polling in background. The external device may have been switched
off, the data lines may be noisy, system buffers may overrun or your mode
settings may be wrong. That is why a reliable software should always
\fBcatch\fR serial read operations. In cases of an error Tcl returns a
-general file I/O error. Then \fBfconfigure -lasterror\fR may help to
+general file I/O error. Then \fBfconfigure\fR \fB\-lasterror\fR may help to
locate the problem. The following error codes may be returned.
.TP 10
\fBRXOVER\fR
+.
Windows input buffer overrun. The data comes faster than your scripts reads
-it or your system is overloaded. Use \fBfconfigure -sysbuffer\fR to avoid a
+it or your system is overloaded. Use \fBfconfigure\fR \fB\-sysbuffer\fR to avoid a
temporary bottleneck and/or make your script faster.
.TP 10
\fBTXFULL\fR
+.
Windows output buffer overrun. Complement to RXOVER. This error should
practically not happen, because Tcl cares about the output buffer status.
.TP 10
\fBOVERRUN\fR
+.
UART buffer overrun (hardware) with data lost.
The data comes faster than the system driver receives it.
Check your advanced serial port settings to enable the FIFO (16550) buffer
and/or setup a lower(1) interrupt threshold value.
.TP 10
\fBRXPARITY\fR
+.
A parity error has been detected by your UART.
-Wrong parity settings with \fBfconfigure -mode\fR or a noisy data line (RXD)
+Wrong parity settings with \fBfconfigure\fR \fB\-mode\fR or a noisy data line (RXD)
may cause this error.
.TP 10
\fBFRAME\fR
+.
A stop-bit error has been detected by your UART.
-Wrong mode settings with \fBfconfigure -mode\fR or a noisy data line (RXD)
+Wrong mode settings with \fBfconfigure\fR \fB\-mode\fR or a noisy data line (RXD)
may cause this error.
.TP 10
\fBBREAK\fR
+.
A BREAK condition has been detected by your UART (see above).
.SH "PORTABILITY ISSUES"
.TP
\fBWindows \fR(all versions)
+.
Valid values for \fIfileName\fR to open a serial port are of the form
\fBcom\fIX\fB:\fR, where \fIX\fR is a number, generally from 1 to 4.
This notation only works for serial ports from 1 to 9, if the system
@@ -342,6 +373,7 @@ where X is any number that corresponds to a serial port; please note
that this method is considerably slower on Windows 95 and Windows 98.
.TP
\fBWindows NT\fR
+.
When running Tcl interactively, there may be some strange interactions
between the real console, if one is present, and a command pipeline that uses
standard input or output. If a command pipeline is opened for reading, some
@@ -357,6 +389,7 @@ standard input or output, but is redirected from or to a file, then the
above problems do not occur.
.TP
\fBWindows 95\fR
+.
A command pipeline that executes a 16-bit DOS application cannot be opened
for both reading and writing, since 16-bit DOS applications that receive
standard input from a pipe and send standard output to a pipe run
@@ -388,6 +421,7 @@ applications are run synchronously, as described above.
.RE
.TP
\fBUnix\fR\0\0\0\0\0\0\0
+.
Valid values for \fIfileName\fR to open a serial port are generally of the
form \fB/dev/tty\fIX\fR, where \fIX\fR is \fBa\fR or \fBb\fR, but the name
of any pseudo-file that maps to a serial port may be used.
@@ -410,7 +444,9 @@ See the \fBPORTABILITY ISSUES\fR section of the \fBexec\fR command for
additional information not specific to command pipelines about executing
applications on the various platforms
.SH "EXAMPLE"
+.PP
Open a command pipeline and catch any errors:
+.PP
.CS
set fl [\fBopen\fR "| ls this_file_does_not_exist"]
set data [read $fl]
@@ -424,3 +460,6 @@ puts(n), exec(n), pid(n), fopen(3)
.SH KEYWORDS
access mode, append, create, file, non-blocking, open, permissions,
pipeline, process, serial
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/package.n b/doc/package.n
index d4fe657..6cf8991 100644
--- a/doc/package.n
+++ b/doc/package.n
@@ -12,7 +12,7 @@
package \- Facilities for package loading and version control
.SH SYNOPSIS
.nf
-\fBpackage forget ?\fIpackage package ...\fR?
+\fBpackage forget\fR ?\fIpackage package ...\fR?
\fBpackage ifneeded \fIpackage version\fR ?\fIscript\fR?
\fBpackage names\fR
\fBpackage present \fIpackage \fR?\fIrequirement...\fR?
@@ -27,7 +27,6 @@ package \- Facilities for package loading and version control
\fBpackage prefer \fR?\fBlatest\fR|\fBstable\fR?
.fi
.BE
-
.SH DESCRIPTION
.PP
This command keeps a simple database of the packages available for
@@ -44,12 +43,14 @@ primarily by system scripts that maintain the package database.
The behavior of the \fBpackage\fR command is determined by its first argument.
The following forms are permitted:
.TP
-\fBpackage forget ?\fIpackage package ...\fR?
+\fBpackage forget\fR ?\fIpackage package ...\fR?
+.
Removes all information about each specified package from this interpreter,
including information provided by both \fBpackage ifneeded\fR and
\fBpackage provide\fR.
.TP
\fBpackage ifneeded \fIpackage version\fR ?\fIscript\fR?
+.
This command typically appears only in system configuration
scripts to set up the package database.
It indicates that a particular version of
@@ -71,6 +72,7 @@ or an empty string if no \fBpackage ifneeded\fR command has
been invoked for this \fIpackage\fR and \fIversion\fR.
.TP
\fBpackage names\fR
+.
Returns a list of the names of all packages in the
interpreter for which a version has been provided (via
\fBpackage provide\fR) or for which a \fBpackage ifneeded\fR
@@ -83,6 +85,7 @@ This command is equivalent to \fBpackage require\fR except that it
does not try and load the package if it is not already loaded.
.TP
\fBpackage provide \fIpackage \fR?\fIversion\fR?
+.
This command is invoked to indicate that version \fIversion\fR
of package \fIpackage\fR is now present in the interpreter.
It is typically invoked once as part of an \fBifneeded\fR script,
@@ -94,7 +97,8 @@ returns the version number that is currently provided, or an
empty string if no \fBpackage provide\fR command has been
invoked for \fIpackage\fR in this interpreter.
.TP
-\fBpackage require\fR \fIpackage \fR?\fIrequirement...\fR?
+\fBpackage require \fR\fIpackage \fR?\fIrequirement...\fR?
+.
This command is typically invoked by Tcl code that wishes to use
a particular version of a particular package. The arguments
indicate which package is wanted, and the command ensures that
@@ -140,11 +144,13 @@ package, then the command returns an error.
.RE
.TP
\fBpackage require \-exact \fIpackage version\fR
+.
This form of the command is used when only the given \fIversion\fR
of \fIpackage\fR is acceptable to the caller. This command is
equivalent to \fBpackage require \fIpackage version\fR-\fIversion\fR.
.TP
\fBpackage unknown \fR?\fIcommand\fR?
+.
This command supplies a
.QW "last resort"
command to invoke during
@@ -166,30 +172,36 @@ If \fIcommand\fR is specified as an empty string, then the current
\fBpackage unknown\fR script is removed, if there is one.
.TP
\fBpackage vcompare \fIversion1 version2\fR
+.
Compares the two version numbers given by \fIversion1\fR and \fIversion2\fR.
Returns -1 if \fIversion1\fR is an earlier version than \fIversion2\fR,
-0 if they are equal, and 1 if \fIversion1\fR is later than \fBversion2\fR.
+0 if they are equal, and 1 if \fIversion1\fR is later than \fIversion2\fR.
.TP
\fBpackage versions \fIpackage\fR
+.
Returns a list of all the version numbers of \fIpackage\fR
for which information has been provided by \fBpackage ifneeded\fR
commands.
.TP
\fBpackage vsatisfies \fIversion requirement...\fR
+.
Returns 1 if the \fIversion\fR satisfies at least one of the given
requirements, and 0 otherwise. Each \fIrequirement\fR is allowed to
have any of the forms:
.RS
.TP
min
+.
This form is called
.QW min-bounded .
.TP
min-
+.
This form is called
.QW min-unbound .
.TP
min-max
+.
This form is called
.QW bounded .
.RE
@@ -328,8 +340,10 @@ Once you have done this, packages will be loaded automatically
in response to \fBpackage require\fR commands.
See the documentation for \fBpkg_mkIndex\fR for details.
.SH EXAMPLES
+.PP
To state that a Tcl script requires the Tk and http packages, put this
at the top of the script:
+.PP
.CS
\fBpackage require\fR Tk
\fBpackage require\fR http
@@ -338,15 +352,19 @@ at the top of the script:
To test to see if the Snack package is available and load if it is
(often useful for optional enhancements to programs where the loss of
the functionality is not critical) do this:
+.PP
.CS
if {[catch {\fBpackage require\fR Snack}]} {
- # Error thrown - package not found.
- # Set up a dummy interface to work around the absence
+ # Error thrown - package not found.
+ # Set up a dummy interface to work around the absence
} else {
- # We have the package, configure the app to use it
+ # We have the package, configure the app to use it
}
.CE
.SH "SEE ALSO"
msgcat(n), packagens(n), pkgMkIndex(n)
.SH KEYWORDS
package, version
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/packagens.n b/doc/packagens.n
index 1220b20..30617a3 100644
--- a/doc/packagens.n
+++ b/doc/packagens.n
@@ -9,7 +9,7 @@
.SH NAME
pkg::create \- Construct an appropriate 'package ifneeded' command for a given package specification
.SH SYNOPSIS
-\fB::pkg::create \fI\-name packageName\fR \fI\-version packageVersion\fR ?\fI\-load filespec\fR? ... ?\fI\-source filespec\fR? ...
+\fB::pkg::create\fR \fB\-name \fIpackageName \fB\-version \fIpackageVersion\fR ?\fB\-load \fIfilespec\fR? ... ?\fB\-source \fIfilespec\fR? ...
.BE
.SH DESCRIPTION
@@ -22,13 +22,13 @@ command for a given package specification. It can be used to construct a
.SH OPTIONS
The parameters supported are:
.TP
-\fB\-name\fR\0\fIpackageName\fR
+\fB\-name \fIpackageName\fR
This parameter specifies the name of the package. It is required.
.TP
-\fB\-version\fR\0\fIpackageVersion\fR
+\fB\-version \fIpackageVersion\fR
This parameter specifies the version of the package. It is required.
.TP
-\fB\-load\fR\0\fIfilespec\fR
+\fB\-load \fIfilespec\fR
This parameter specifies a binary library that must be loaded with the
\fBload\fR command. \fIfilespec\fR is a list with two elements. The
first element is the name of the file to load. The second, optional
@@ -37,7 +37,7 @@ list of procedures is empty or omitted, \fB::pkg::create\fR will
set up the library for direct loading (see \fBpkg_mkIndex\fR). Any
number of \fB\-load\fR parameters may be specified.
.TP
-\fB\-source\fR\0\fIfilespec\fR
+\fB\-source \fIfilespec\fR
This parameter is similar to the \fB\-load\fR parameter, except that it
specifies a Tcl library that must be loaded with the
\fBsource\fR command. Any number of \fB\-source\fR parameters may be
diff --git a/doc/pkgMkIndex.n b/doc/pkgMkIndex.n
index 5895407..2753208 100644
--- a/doc/pkgMkIndex.n
+++ b/doc/pkgMkIndex.n
@@ -12,7 +12,7 @@
pkg_mkIndex \- Build an index for automatic loading of packages
.SH SYNOPSIS
.nf
-\fBpkg_mkIndex ?\fI\-direct\fR? ?\fI\-lazy\fR? ?\fI\-load pkgPat\fR? ?\fI\-verbose\fR? \fIdir\fR ?\fIpattern pattern ...\fR?
+\fBpkg_mkIndex\fR ?\fIoptions...\fR? \fIdir\fR ?\fIpattern pattern ...\fR?
.fi
.BE
.SH DESCRIPTION
@@ -112,7 +112,7 @@ The index process will pre-load any packages that exist in the
current interpreter and match \fIpkgPat\fR into the slave interpreter used to
generate the index. The pattern match uses string match rules, but without
making case distinctions.
-See COMPLEX CASES below.
+See \fBCOMPLEX CASES\fR below.
.TP 15
\fB\-verbose\fR
Generate output during the indexing process. Output is via
@@ -153,7 +153,7 @@ commands for each version of each available package; these commands
invoke \fBpackage provide\fR commands to announce the
availability of the package, and they setup auto-loader
information to load the files of the package.
-If the \fI\-lazy\fR flag was provided when the \fBpkgIndex.tcl\fR
+If the \fB\-lazy\fR flag was provided when the \fBpkgIndex.tcl\fR
was generated,
a given file of a given version of a given package is not
actually loaded until the first time one of its commands
@@ -168,7 +168,7 @@ commands or those which require special initialization, might select
that their package files be loaded immediately upon \fBpackage require\fR
instead of delaying the actual loading to the first use of one of the
package's command. This is the default mode when generating the package
-index. It can be overridden by specifying the \fI\-lazy\fR argument.
+index. It can be overridden by specifying the \fB\-lazy\fR argument.
.SH "COMPLEX CASES"
Most complex cases of dependencies among scripts
and binary files, and packages being split among scripts and
@@ -228,3 +228,6 @@ the binary file may mask the package defined by the scripts.
package(n)
.SH KEYWORDS
auto-load, index, package, version
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/platform.n b/doc/platform.n
index 053448d..1553698 100644
--- a/doc/platform.n
+++ b/doc/platform.n
@@ -12,7 +12,7 @@
platform \- System identification support code and utilities
.SH SYNOPSIS
.nf
-\fBpackage require platform ?1.0.4?\fR
+\fBpackage require platform ?1.0.10?\fR
.sp
\fBplatform::generic\fR
\fBplatform::identify\fR
@@ -45,6 +45,7 @@ architecture a Tcl program is running on.
.SH COMMANDS
.TP
\fBplatform::identify\fR
+.
This command returns an identifier describing the platform the Tcl
core is running on. The returned identifier has the general format
\fIOS\fR-\fICPU\fR. The \fIOS\fR part of the identifier may contain
@@ -53,14 +54,33 @@ may contain dashes as well. The \fICPU\fR part will not contain
dashes, making the preceding dash the last dash in the result.
.TP
\fBplatform::generic\fR
+.
This command returns a simplified identifier describing the platform
the Tcl core is running on. In contrast to \fBplatform::identify\fR it
leaves out details like kernel version, libc version, etc. The
returned identifier has the general format \fIOS\fR-\fICPU\fR.
.TP
-\fBplatform::patterns \fIidentifier\fR
+\fBplatform::patterns \fIidentifier\fR
+.
This command takes an identifier as returned by
\fBplatform::identify\fR and returns a list of identifiers describing
compatible architectures.
+.SH EXAMPLE
+.PP
+This can be used to allow an application to be shipped with multiple builds of
+a shared library, so that the same package works on many versions of an
+operating system. For example:
+.PP
+.CS
+\fBpackage require platform\fR
+# Assume that app script is .../theapp/bin/theapp.tcl
+set binDir [file dirname [file normalize [info script]]]
+set libDir [file join $binDir .. lib]
+set platLibDir [file join $libDir [\fBplatform::identify\fR]]
+load [file join $platLibDir support[info sharedlibextension]]
+.CE
.SH KEYWORDS
operating system, cpu architecture, platform, architecture
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/prefix.n b/doc/prefix.n
new file mode 100644
index 0000000..eb79996
--- /dev/null
+++ b/doc/prefix.n
@@ -0,0 +1,116 @@
+'\"
+'\" Copyright (c) 2008 Peter Spjuth <pspjuth@users.sourceforge.net>
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH prefix n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+tcl::prefix \- facilities for prefix matching
+.SH SYNOPSIS
+.nf
+\fB::tcl::prefix all\fR \fItable\fR \fIstring\fR
+\fB::tcl::prefix longest\fR \fItable\fR \fIstring\fR
+\fB::tcl::prefix match\fR \fI?option ...?\fR \fItable\fR \fIstring\fR
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+This document describes commands looking up a prefix in a list of strings.
+The following commands are supported:
+.TP
+\fB::tcl::prefix all\fR \fItable\fR \fIstring\fR
+.
+Returns a list of all elements in \fItable\fR that begin with the prefix
+\fIstring\fR.
+.TP
+\fB::tcl::prefix longest\fR \fItable\fR \fIstring\fR
+.
+Returns the longest common prefix of all elements in \fItable\fR that
+begin with the prefix \fIstring\fR.
+.TP
+\fB::tcl::prefix match\fR ?\fIoptions\fR? \fItable\fR \fIstring\fR
+.
+If \fIstring\fR equals one element in \fItable\fR or is a prefix to exactly
+one element, the matched element is returned. If not, the result depends
+on the \fB\-error\fR option. (It is recommended that the \fItable\fR be sorted
+before use with this subcommand, so that the list of matches presented in the
+error message also becomes sorted, though this is not strictly necessary for
+the operation of this subcommand itself.)
+.RS
+.TP
+\fB\-exact\fR\0
+.
+Accept only exact matches.
+.TP
+\fB\-message\0\fIstring\fR
+.
+Use \fIstring\fR in the error message at a mismatch. Default is
+.QW option .
+.TP
+\fB\-error\0\fIoptions\fR
+.
+The \fIoptions\fR are used when no match is found. If \fIoptions\fR is empty,
+no error is generated and an empty string is returned. Otherwise the
+\fIoptions\fR are used as \fBreturn\fR options when generating the error
+message. The default corresponds to setting
+.QW "\-level 0" .
+Example: If
+.QW "\fB\-error\fR {\-errorcode MyError \-level 1}"
+is used, an error would be generated as:
+.RS
+.PP
+.CS
+return \-errorcode MyError \-level 1 \-code error \e
+ "ambiguous option ..."
+.CE
+.RE
+.RE
+.SH "EXAMPLES"
+.PP
+Basic use:
+.PP
+.CS
+namespace import ::tcl::prefix
+\fBprefix match\fR {apa bepa cepa} apa
+ \fI\(-> apa\fR
+\fBprefix match\fR {apa bepa cepa} a
+ \fI\(-> apa\fR
+\fBprefix match\fR \-exact {apa bepa cepa} a
+ \fI\(-> bad option "a": must be apa, bepa, or cepa\fR
+\fBprefix match\fR \-message "switch" {apa ada bepa cepa} a
+ \fI\(-> ambiguous switch "a": must be apa, ada, bepa, or cepa\fR
+\fBprefix longest\fR {fblocked fconfigure fcopy file fileevent flush} fc
+ \fI\(-> fco\fR
+\fBprefix all\fR {fblocked fconfigure fcopy file fileevent flush} fc
+ \fI\(-> fconfigure fcopy\fR
+.CE
+.PP
+Simplifying option matching:
+.PP
+.CS
+array set opts {\-apa 1 \-bepa "" \-cepa 0}
+foreach {arg val} $args {
+ set opts([\fBprefix match\fR {\-apa \-bepa \-cepa} $arg]) $val
+}
+.CE
+.PP
+Creating a \fBswitch\fR that supports prefixes:
+.PP
+.CS
+switch [\fBprefix match\fR {apa bepa cepa} $arg] {
+ apa { }
+ bepa { }
+ cepa { }
+}
+.CE
+.SH "SEE ALSO"
+lsearch(n), namespace(n), string(n), Tcl_GetIndexFromObj(3)
+.SH "KEYWORDS"
+prefix, table lookup
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/proc.n b/doc/proc.n
index 4525207..570a37d 100644
--- a/doc/proc.n
+++ b/doc/proc.n
@@ -14,7 +14,6 @@ proc \- Create a Tcl procedure
.SH SYNOPSIS
\fBproc \fIname args body\fR
.BE
-
.SH DESCRIPTION
.PP
The \fBproc\fR command creates a new Tcl procedure named
@@ -54,7 +53,7 @@ error).
There is one special case to permit procedures with
variable numbers of arguments. If the last formal argument has the name
\fBargs\fR, then a call to the procedure may contain more actual arguments
-than the procedure has formals. In this case, all of the actual arguments
+than the procedure has formal arguments. In this case, all of the actual arguments
starting at the one that would be assigned to \fBargs\fR are combined into
a list (as if the \fBlist\fR command had been used); this combined value
is assigned to the local variable \fBargs\fR.
@@ -65,6 +64,12 @@ deleted when the procedure returns. One local variable is automatically
created for each of the procedure's arguments.
Other variables can only be accessed by invoking one of the \fBglobal\fR,
\fBvariable\fR, \fBupvar\fR or \fBnamespace upvar\fR commands.
+The current namespace when \fIbody\fR is executed will be the
+namespace that the procedure's name exists in, which will be the
+namespace that it was created in unless it has been changed with
+\fBrename\fR.
+'\" We may change this! It makes [variable] unstable when renamed and is
+'\" frankly pretty crazy, but doing it right is harder than it looks.
.PP
The \fBproc\fR command returns an empty string. When a procedure is
invoked, the procedure's return value is the value specified in a
@@ -74,28 +79,32 @@ executed in the procedure's body.
If an error occurs while executing the procedure
body, then the procedure-as-a-whole will return that same error.
.SH EXAMPLES
+.PP
This is a procedure that accepts arbitrarily many arguments and prints
them out, one by one.
+.PP
.CS
\fBproc\fR printArguments args {
- foreach arg $args {
- puts $arg
- }
+ foreach arg $args {
+ puts $arg
+ }
}
.CE
.PP
This procedure is a bit like the \fBincr\fR command, except it
multiplies the contents of the named variable by the value, which
defaults to \fB2\fR:
+.PP
.CS
\fBproc\fR mult {varName {multiplier 2}} {
- upvar 1 $varName var
- set var [expr {$var * $multiplier}]
+ upvar 1 $varName var
+ set var [expr {$var * $multiplier}]
}
.CE
-
.SH "SEE ALSO"
info(n), unknown(n)
-
.SH KEYWORDS
argument, procedure
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/puts.n b/doc/puts.n
index 5cd8721..4a53d44 100644
--- a/doc/puts.n
+++ b/doc/puts.n
@@ -14,7 +14,6 @@ puts \- Write to a channel
.SH SYNOPSIS
\fBputs \fR?\fB\-nonewline\fR? ?\fIchannelId\fR? \fIstring\fR
.BE
-
.SH DESCRIPTION
.PP
Writes the characters given by \fIstring\fR to the channel given
@@ -64,33 +63,36 @@ be used in an event-driven fashion with the \fBfileevent\fR command
(do not invoke \fBputs\fR unless you have recently been notified
via a file event that the channel is ready for more output data).
.SH EXAMPLES
+.PP
Write a short message to the console (or wherever \fBstdout\fR is
directed):
+.PP
.CS
\fBputs\fR "Hello, World!"
.CE
.PP
Print a message in several parts:
+.PP
.CS
\fBputs\fR -nonewline "Hello, "
\fBputs\fR "World!"
.CE
.PP
Print a message to the standard error channel:
+.PP
.CS
\fBputs\fR stderr "Hello, World!"
.CE
.PP
Append a log message to a file:
+.PP
.CS
set chan [open my.log a]
set timestamp [clock format [clock seconds]]
\fBputs\fR $chan "$timestamp - Hello, World!"
close $chan
.CE
-
.SH "SEE ALSO"
file(n), fileevent(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
channel, newline, output, write
diff --git a/doc/pwd.n b/doc/pwd.n
index e63b815..65fed84 100644
--- a/doc/pwd.n
+++ b/doc/pwd.n
@@ -14,17 +14,18 @@ pwd \- Return the absolute path of the current working directory
.SH SYNOPSIS
\fBpwd\fR
.BE
-
.SH DESCRIPTION
.PP
Returns the absolute path name of the current working directory.
.SH EXAMPLE
+.PP
Sometimes it is useful to change to a known directory when running
some external command using \fBexec\fR, but it is important to keep
the application usually running in the directory that it was started
in (unless the user specifies otherwise) since that minimizes user
confusion. The way to do this is to save the current directory while
the external command is being run:
+.PP
.CS
set tarFile [file normalize somefile.tar]
set savedDir [\fBpwd\fR]
@@ -34,6 +35,5 @@ cd $savedDir
.CE
.SH "SEE ALSO"
file(n), cd(n), glob(n), filename(n)
-
.SH KEYWORDS
working directory
diff --git a/doc/re_syntax.n b/doc/re_syntax.n
index 8701641..46a180d 100644
--- a/doc/re_syntax.n
+++ b/doc/re_syntax.n
@@ -6,6 +6,8 @@
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
+.ie '\w'o''\w'\C'^o''' .ds qo \C'^o'
+.el .ds qo u
.TH re_syntax n "8.1" Tcl "Tcl Built-In Commands"
.BS
.SH NAME
@@ -176,7 +178,7 @@ endpoint, so e.g.
.QW \fBa\-c\-e\fR
is illegal. Ranges in Tcl always use the
Unicode collating sequence, but other programs may use other collating
-sequences and this can be a source of incompatability between programs.
+sequences and this can be a source of incompatibility between programs.
.PP
To include a literal \fB]\fR or \fB\-\fR in the list, the simplest
method is to enclose it in \fB[.\fR and \fB.]\fR to make it a
@@ -221,7 +223,8 @@ A character producing white space in displayed text.
.IP \fBpunct\fR 8
A punctuation character.
.IP \fBgraph\fR 8
-A character with a visible representation (includes both alnum and punct).
+A character with a visible representation (includes both \fBalnum\fR
+and \fBpunct\fR).
.IP \fBcntrl\fR 8
A control character.
.PP
@@ -290,12 +293,12 @@ treatment is as if the enclosing delimiters were
.QW \fB[.\fR \&
and
.QW \fB.]\fR .)
-For example, if \fBo\fR and \fB\N'244'\fR are the members of an
+For example, if \fBo\fR and \fB\*(qo\fR are the members of an
equivalence class, then
.QW \fB[[=o=]]\fR ,
-.QW \fB[[=\N'244'=]]\fR ,
+.QW \fB[[=\*(qo=]]\fR ,
and
-.QW \fB[o\N'244']\fR \&
+.QW \fB[o\*(qo]\fR \&
are all synonymous. An equivalence class may not be an endpoint of a range.
.RS
.PP
@@ -359,39 +362,42 @@ horizontal tab, as in C
.TP
\fB\eu\fIwxyz\fR
.
-(where \fIwxyz\fR is exactly four hexadecimal digits) the Unicode
+(where \fIwxyz\fR is one up to four hexadecimal digits) the Unicode
character \fBU+\fIwxyz\fR in the local byte ordering
.TP
\fB\eU\fIstuvwxyz\fR
.
-(where \fIstuvwxyz\fR is exactly eight hexadecimal digits) reserved
-for a somewhat-hypothetical Unicode extension to 32 bits
+(where \fIstuvwxyz\fR is one up to eight hexadecimal digits) reserved
+for a Unicode extension up to 21 bits. The digits are parsed until the
+first non-hexadecimal character is encountered, the maximun of eight
+hexadecimal digits are reached, or an overflow would occur in the maximum
+value of \fBU+\fI10ffff\fR.
.TP
\fB\ev\fR
.
vertical tab, as in C are all available.
.TP
-\fB\ex\fIhhh\fR
+\fB\ex\fIhh\fR
.
-(where \fIhhh\fR is any sequence of hexadecimal digits) the character
-whose hexadecimal value is \fB0x\fIhhh\fR (a single character no
-matter how many hexadecimal digits are used).
+(where \fIhh\fR is one or two hexadecimal digits) the character
+whose hexadecimal value is \fB0x\fIhh\fR.
.TP
\fB\e0\fR
.
the character whose value is \fB0\fR
.TP
+\fB\e\fIxyz\fR
+.
+(where \fIxyz\fR is exactly three octal digits, and is not a \fIback
+reference\fR (see below)) the character whose octal value is
+\fB0\fIxyz\fR. The first digit must be in the range 0-3, otherwise
+the two-digit form is assumed.
+.TP
\fB\e\fIxy\fR
.
(where \fIxy\fR is exactly two octal digits, and is not a \fIback
reference\fR (see below)) the character whose octal value is
\fB0\fIxy\fR
-.TP
-\fB\e\fIxyz\fR
-.
-(where \fIxyz\fR is exactly three octal digits, and is not a back
-reference (see below)) the character whose octal value is
-\fB0\fIxyz\fR
.RE
.PP
Hexadecimal digits are
diff --git a/doc/read.n b/doc/read.n
index 5398b08..007c0ac 100644
--- a/doc/read.n
+++ b/doc/read.n
@@ -16,7 +16,6 @@ read \- Read from a channel
.sp
\fBread \fIchannelId numChars\fR
.BE
-
.SH DESCRIPTION
.PP
In the first form, the \fBread\fR command reads all of the data from
@@ -51,36 +50,40 @@ newline characters according to the \fB\-translation\fR option
for the channel.
See the \fBfconfigure\fR manual entry for a discussion on ways in
which \fBfconfigure\fR will alter input.
-
.SH "USE WITH SERIAL PORTS"
'\" Note: this advice actually applies to many versions of Tcl
-
+.PP
For most applications a channel connected to a serial port should be
-configured to be nonblocking: \fBfconfigure \fIchannelId \fB\-blocking
+configured to be nonblocking: \fBfconfigure\fI channelId \fB\-blocking
\fI0\fR. Then \fBread\fR behaves much like described above. Care
must be taken when using \fBread\fR on blocking serial ports:
.TP
\fBread \fIchannelId numChars\fR
+.
In this form \fBread\fR blocks until \fInumChars\fR have been received
from the serial port.
.TP
\fBread \fIchannelId\fR
+.
In this form \fBread\fR blocks until the reception of the end-of-file
-character, see \fBfconfigure -eofchar\fR. If there no end-of-file
+character, see \fBfconfigure\fR \fB\-eofchar\fR. If there no end-of-file
character has been configured for the channel, then \fBread\fR will
block forever.
.SH "EXAMPLE"
+.PP
This example code reads a file all at once, and splits it into a list,
with each line in the file corresponding to an element in the list:
+.PP
.CS
set fl [open /proc/meminfo]
set data [\fBread\fR $fl]
close $fl
set lines [split $data \en]
.CE
-
.SH "SEE ALSO"
file(n), eof(n), fblocked(n), fconfigure(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
blocking, channel, end of line, end of file, nonblocking, read, translation, encoding
+'\"Local Variables:
+'\"mode: nroff
+'\"End:
diff --git a/doc/refchan.n b/doc/refchan.n
index 577c78a..a51c3d7 100644
--- a/doc/refchan.n
+++ b/doc/refchan.n
@@ -9,7 +9,7 @@
.BS
.\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
-refchan \- Command handler API of reflected channels, version 1
+refchan \- command handler API of reflected channels
.SH SYNOPSIS
\fBcmdPrefix \fIoption\fR ?\fIarg arg ...\fR?
.BE
@@ -17,9 +17,10 @@ refchan \- Command handler API of reflected channels, version 1
.PP
The Tcl-level handler for a reflected channel has to be a command with
subcommands (termed an \fIensemble\fR, as it is a command such as that
-created by \fBnamespace ensemble create\fR, though the implementation
+created by \fBnamespace ensemble\fR \fBcreate\fR, though the implementation
of handlers for reflected channel \fIis not\fR tied to \fBnamespace
-ensemble\fRs in any way). Note that \fIcmdPrefix\fR is whatever was
+ensemble\fRs in any way; see \fBEXAMPLE\fR below for how to build an
+\fBoo::class\fR that supports the API). Note that \fIcmdPrefix\fR is whatever was
specified in the call to \fBchan create\fR, and may consist of
multiple arguments; this will be expanded to multiple words in place
of the prefix.
@@ -45,7 +46,7 @@ this command handler.
Any error thrown by the method will abort the creation of the channel
and no channel will be created. The thrown error will appear as error
thrown by \fBchan create\fR. Any exception other than an \fBerror\fR
-(e.g. \fBbreak\fR, etc.) is treated as (and converted to) an error.
+(e.g.,\ \fBbreak\fR, etc.) is treated as (and converted to) an error.
.PP
\fBNote:\fR If the creation of the channel was aborted due to failures
here, then the \fBfinalize\fR subcommand will not be called.
@@ -73,8 +74,8 @@ cleaned up.
The return value of this subcommand is ignored.
.PP
If the subcommand throws an error the command which caused its
-invocation (usually \fBclose\fR) will appear to have thrown this
-error. Any exception beyond \fIerror\fR (e.g. \fIbreak\fR, etc.) is
+invocation (usually \fBchan close\fR) will appear to have thrown this
+error. Any exception beyond \fBerror\fR (e.g.,\ \fBbreak\fR, etc.) is
treated as (and converted to) an error.
.PP
This subcommand is not invoked if the creation of the channel was
@@ -92,7 +93,7 @@ the handler should disable event generation completely.
.RS
.PP
\fBWarning:\fR Any return value of the subcommand is ignored. This
-includes all errors thrown by the subcommand, break, continue, and
+includes all errors thrown by the subcommand, \fBbreak\fR, \fBcontinue\fR, and
custom return codes.
.PP
This subcommand interacts with \fBchan postevent\fR. Trying to post an
@@ -104,7 +105,7 @@ event which was not listed in the last call to \fBwatch\fR will cause
\fIcmdPrefix \fBread \fIchannelId count\fR
.
This \fIoptional\fR subcommand is called when the user requests data from the
-channel \fIchannelId\fR. \fIcount\fR specifies how many \fBbytes\fR have been
+channel \fIchannelId\fR. \fIcount\fR specifies how many \fIbytes\fR have been
requested. If the subcommand is not supported then it is not possible to read
from the channel handled by the command.
.RS
@@ -130,8 +131,11 @@ error EAGAIN
.PP
For extensibility any error whose value is a negative integer number
will cause the higher layers to set the C-level variable "\fBerrno\fR"
-to the absolute value of this number, signaling a system error. This
-means that both
+to the absolute value of this number, signaling a system error.
+However, note that the exact mapping between these error numbers and
+their meanings is operating system dependent.
+.PP
+For example, while on Linux both
.PP
.CS
return -code error -11
@@ -141,13 +145,17 @@ and
error -11
.CE
.PP
-are equivalent to the examples above, using the more readable string "EAGAIN".
-No other error value has such a mapping to a symbolic string.
+are equivalent to the examples above, using the more readable string "EAGAIN",
+this is not true for BSD, where the equivalent number is -35.
+.PP
+The symbolic string however is the same across systems, and internally
+translated to the correct number. No other error value has such a mapping
+to a symbolic string.
.PP
If the subcommand throws any other error, the command which caused its
invocation (usually \fBgets\fR, or \fBread\fR) will appear to have
-thrown this error. Any exception beyond \fIerror\fR, (e.g.
-\fIbreak\fR, etc.) is treated as and converted to an error.
+thrown this error. Any exception beyond \fBerror\fR, (e.g.,\ \fBbreak\fR,
+etc.) is treated as and converted to an error.
.RE
.TP
\fIcmdPrefix \fBwrite \fIchannelId data\fR
@@ -203,18 +211,20 @@ to a symbolic string.
.PP
If the subcommand throws any other error the command which caused its
invocation (usually \fBputs\fR) will appear to have thrown this error.
-Any exception beyond \fIerror\fR (e.g.\ \fIbreak\fR, etc.) is treated
+Any exception beyond \fBerror\fR (e.g.,\ \fBbreak\fR, etc.) is treated
as and converted to an error.
.RE
.TP
\fIcmdPrefix \fBseek \fIchannelId offset base\fR
.
This \fIoptional\fR subcommand is responsible for the handling of
-\fBseek\fR and \fBtell\fR requests on the channel \fIchannelId\fR. If it is not
-supported then seeking will not be possible for the channel.
+\fBchan seek\fR and \fBchan tell\fR requests on the channel
+\fIchannelId\fR. If it is not supported then seeking will not be possible for
+the channel.
.RS
.PP
-The \fIbase\fR argument is one of
+The \fIbase\fR argument is the same as the equivalent argument of the
+builtin \fBchan seek\fR, namely:
.TP 10
\fBstart\fR
.
@@ -228,27 +238,22 @@ Seeking is relative to the current seek position.
.
Seeking is relative to the end of the channel.
.PP
-The \fIbase\fR argument of the builtin \fBchan seek\fR command takes
-the same names.
-.PP
The \fIoffset\fR is an integer number specifying the amount of
\fBbytes\fR to seek forward or backward. A positive number should seek
forward, and a negative number should seek backward.
-.PP
A channel may provide only limited seeking. For example sockets can
seek forward, but not backward.
.PP
The return value of the subcommand is taken as the (new) location of
the channel, counted from the start. This has to be an integer number
greater than or equal to zero.
-.PP
If the subcommand throws an error the command which caused its
-invocation (usually \fBseek\fR, or \fBtell\fR) will appear to have
-thrown this error. Any exception beyond \fIerror\fR (e.g. \fIbreak\fR,
+invocation (usually \fBchan seek\fR, or \fBchan tell\fR) will appear to have
+thrown this error. Any exception beyond \fBerror\fR (e.g.,\ \fBbreak\fR,
etc.) is treated as and converted to an error.
.PP
-The offset/base combination of 0/\fBcurrent\fR signals a \fBtell\fR
-request, i.e. seek nothing relative to the current location, making
+The offset/base combination of 0/\fBcurrent\fR signals a \fBchan tell\fR
+request, i.e.,\ seek nothing relative to the current location, making
the new location identical to the current one, which is then returned.
.RE
.TP
@@ -265,9 +270,9 @@ time; that is behavior implemented in the Tcl channel core.
The return value of the subcommand is ignored.
.PP
If the subcommand throws an error the command which performed the
-(re)configuration or query (usually \fBfconfigure\fR or \fBchan
-configure\fR) will appear to have thrown this error. Any exception
-beyond \fIerror\fR (e.g. \fIbreak\fR, etc.) is treated as and
+(re)configuration or query (usually \fBfconfigure\fR or
+\fBchan configure\fR) will appear to have thrown this error. Any exception
+beyond \fBerror\fR (e.g.,\ \fBbreak\fR, etc.) is treated as and
converted to an error.
.RE
.TP
@@ -281,9 +286,9 @@ subcommand \fBcgetall\fR must be supported as well.
The subcommand should return the value of the specified \fIoption\fR.
.PP
If the subcommand throws an error, the command which performed the
-(re)configuration or query (usually \fBfconfigure\fR) will appear to
-have thrown this error. Any exception beyond \fIerror\fR (e.g.
-\fIbreak\fR, etc.) is treated as and converted to an error.
+(re)configuration or query (usually \fBfconfigure\fR or \fBchan configure\fR)
+will appear to have thrown this error. Any exception beyond \fIerror\fR
+(e.g.,\ \fBbreak\fR, etc.) is treated as and converted to an error.
.RE
.TP
\fIcmdPrefix \fBcgetall \fIchannelId\fR
@@ -297,9 +302,9 @@ The subcommand should return a list of all options and their values.
This list must have an even number of elements.
.PP
If the subcommand throws an error the command which performed the
-(re)configuration or query (usually \fBfconfigure\fR) will appear to
-have thrown this error. Any exception beyond \fIerror\fR (e.g.
-\fIbreak\fR, etc.) is treated as and converted to an error.
+(re)configuration or query (usually \fBfconfigure\fR or \fBchan configure\fR)
+will appear to have thrown this error. Any exception beyond \fBerror\fR
+(e.g.,\ \fBbreak\fR, etc.) is treated as and converted to an error.
.RE
.TP
\fIcmdPrefix \fBblocking \fIchannelId mode\fR
@@ -313,19 +318,19 @@ channel should be non-blocking.
The return value of the subcommand is ignored.
.PP
If the subcommand throws an error the command which caused its
-invocation (usually \fBfconfigure\fR) will appear to have thrown this
-error. Any exception beyond \fIerror\fR (e.g. \fIbreak\fR, etc.) is
-treated as and converted to an error.
+invocation (usually \fBfconfigure\fR or \fBchan configure\fR) will appear to
+have thrown this error. Any exception beyond \fBerror\fR (e.g.,\ \fBbreak\fR,
+etc.) is treated as and converted to an error.
.RE
.SH NOTES
Some of the functions supported in channels defined in Tcl's C
interface are not available to channels reflected to the Tcl level.
.PP
-The function \fBTcl_DriverGetHandleProc\fR is not supported; i.e.
-reflected channels do not have OS specific handles.
+The function \fBTcl_DriverGetHandleProc\fR is not supported;
+i.e.,\ reflected channels do not have OS specific handles.
.PP
The function \fBTcl_DriverHandlerProc\fR is not supported. This driver
-function is relevant only for stacked channels, i.e. transformations.
+function is relevant only for stacked channels, i.e.,\ transformations.
Reflected channels are always base channels, not transformations.
.PP
The function \fBTcl_DriverFlushProc\fR is not supported. This is
@@ -334,7 +339,73 @@ function anywhere at all. Therefore support at the Tcl level makes no
sense either. This may be altered in the future (through extending the
API defined here and changing its version number) should the function
be used at some time in the future.
+.SH EXAMPLE
+.PP
+This demonstrates how to make a channel that reads from a string.
+.PP
+.CS
+oo::class create stringchan {
+ variable data pos
+ constructor {string {encoding {}}} {
+ if {$encoding eq ""} {set encoding [encoding system]}
+ set data [encoding convertto $encoding $string]
+ set pos 0
+ }
+
+ method \fBinitialize\fR {ch mode} {
+ return "initialize finalize watch read seek"
+ }
+ method \fBfinalize\fR {ch} {
+ my destroy
+ }
+ method \fBwatch\fR {ch events} {
+ # Must be present but we ignore it because we do not
+ # post any events
+ }
+
+ # Must be present on a readable channel
+ method \fBread\fR {ch count} {
+ set d [string range $data $pos [expr {$pos+$count-1}]]
+ incr pos [string length $d]
+ return $d
+ }
+
+ # This method is optional, but useful for the example below
+ method \fBseek\fR {ch offset base} {
+ switch $base {
+ start {
+ set pos $offset
+ }
+ current {
+ incr pos $offset
+ }
+ end {
+ set pos [string length $data]
+ incr pos $offset
+ }
+ }
+ if {$pos < 0} {
+ set pos 0
+ } elseif {$pos > [string length $data]} {
+ set pos [string length $data]
+ }
+ return $pos
+ }
+}
+
+# Now we create an instance...
+set string "The quick brown fox jumps over the lazy dog.\\n"
+set ch [\fBchan create\fR read [stringchan new $string]]
+
+puts [gets $ch]; # Prints the whole string
+
+seek $ch -5 end;
+puts [read $ch]; # Prints just the last word
+.CE
.SH "SEE ALSO"
-chan(n)
+chan(n), transchan(n)
.SH KEYWORDS
-channel, reflection
+API, channel, ensemble, prefix, reflection
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/regexp.n b/doc/regexp.n
index 100f0d8..5e857f8 100644
--- a/doc/regexp.n
+++ b/doc/regexp.n
@@ -10,11 +10,9 @@
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
regexp \- Match a regular expression against a string
-
.SH SYNOPSIS
\fBregexp \fR?\fIswitches\fR? \fIexp string \fR?\fImatchVar\fR? ?\fIsubMatchVar subMatchVar ...\fR?
.BE
-
.SH DESCRIPTION
.PP
Determines whether the regular expression \fIexp\fR matches part or
@@ -22,7 +20,7 @@ all of \fIstring\fR and returns 1 if it does, 0 if it does not, unless
\fB\-inline\fR is specified (see below).
(Regular expression matching is described in the \fBre_syntax\fR
reference page.)
-.LP
+.PP
If additional arguments are specified after \fIstring\fR then they
are treated as the names of variables in which to return
information about which part(s) of \fIstring\fR matched \fIexp\fR.
@@ -38,6 +36,7 @@ they are treated as switches. The following switches are
currently supported:
.TP 15
\fB\-about\fR
+.
Instead of attempting to match the regular expression, returns a list
containing information about the regular expression. The first
element of the list is a subexpression count. The second element is a
@@ -45,11 +44,13 @@ list of property names that describe various attributes of the regular
expression. This switch is primarily intended for debugging purposes.
.TP 15
\fB\-expanded\fR
+.
Enables use of the expanded regular expression syntax where
whitespace and comments are ignored. This is the same as specifying
the \fB(?x)\fR embedded option (see the \fBre_syntax\fR manual page).
.TP 15
\fB\-indices\fR
+.
Changes what is stored in the \fIsubMatchVar\fRs.
Instead of storing the matching characters from \fIstring\fR,
each variable
@@ -58,6 +59,7 @@ in \fIstring\fR of the first and last characters in the matching
range of characters.
.TP 15
\fB\-line\fR
+.
Enables newline-sensitive matching. By default, newline is a
completely ordinary character with no special meaning. With this
flag,
@@ -75,6 +77,7 @@ specifying both \fB\-linestop\fR and \fB\-lineanchor\fR, or the
\fB(?n)\fR embedded option (see the \fBre_syntax\fR manual page).
.TP 15
\fB\-linestop\fR
+.
Changes the behavior of
.QW [^
bracket expressions and
@@ -84,6 +87,7 @@ stop at newlines. This is the same as specifying the \fB(?p)\fR
embedded option (see the \fBre_syntax\fR manual page).
.TP 15
\fB\-lineanchor\fR
+.
Changes the behavior of
.QW ^
and
@@ -96,16 +100,19 @@ specifying the \fB(?w)\fR embedded option (see the \fBre_syntax\fR
manual page).
.TP 15
\fB\-nocase\fR
+.
Causes upper-case characters in \fIstring\fR to be treated as
lower case during the matching process.
.TP 15
\fB\-all\fR
+.
Causes the regular expression to be matched as many times as possible
in the string, returning the total number of matches found. If this
is specified with match variables, they will contain information for
the last match only.
.TP 15
\fB\-inline\fR
+.
Causes the command to return, as a list, the data that would otherwise
be placed in match variables. When using \fB\-inline\fR,
match variables may not be specified. If used with \fB\-all\fR, the
@@ -113,20 +120,22 @@ list will be concatenated at each iteration, such that a flat list is
always returned. For each match iteration, the command will append the
overall match data, plus one element for each subexpression in the
regular expression. Examples are:
+.RS
+.PP
.CS
\fBregexp\fR -inline -- {\ew(\ew)} " inlined "
\fI\(-> in n\fR
\fBregexp\fR -all -inline -- {\ew(\ew)} " inlined "
\fI\(-> in n li i ne e\fR
.CE
+.RE
.TP 15
\fB\-start\fR \fIindex\fR
+.
Specifies a character index offset into the string to start
matching the regular expression at.
-.VS 8.5
The \fIindex\fR value is interpreted in the same manner
as the \fIindex\fR argument to \fBstring index\fR.
-.VE 8.5
When using this switch,
.QW ^
will not match the beginning of the line, and \eA will still
@@ -136,6 +145,7 @@ absolute beginning of the input string.
\fIindex\fR will be constrained to the bounds of the input string.
.TP 15
\fB\-\|\-\fR
+.
Marks the end of switches. The argument following this one will
be treated as \fIexp\fR even if it starts with a \fB\-\fR.
.PP
@@ -151,9 +161,11 @@ if \fB\-indices\fR has been specified or to an empty string otherwise.
Find the first occurrence of a word starting with \fBfoo\fR in a
string that is not actually an instance of \fBfoobar\fR, and get the
letters following it up to the end of the word into a variable:
+.PP
.CS
\fBregexp\fR {\emfoo(?!bar\eM)(\ew*)} $string \-> restOfWord
.CE
+.PP
Note that the whole matched substring has been placed in the variable
.QW \fB\->\fR ,
which is a name chosen to look nice given that we are not
@@ -161,17 +173,21 @@ actually interested in its contents.
.PP
Find the index of the word \fBbadger\fR (in any case) within a string
and store that in the variable \fBlocation\fR:
+.PP
.CS
\fBregexp\fR \-indices {(?i)\embadger\eM} $string location
.CE
+.PP
This could also be written as a \fIbasic\fR regular expression (as opposed
to using the default syntax of \fIadvanced\fR regular expressions) match by
prefixing the expression with a suitable flag:
+.PP
.CS
\fBregexp\fR \-indices {(?ib)\e<badger\e>} $string location
.CE
.PP
This counts the number of octal digits in a string:
+.PP
.CS
\fBregexp\fR \-all {[0\-7]} $string
.CE
@@ -179,13 +195,14 @@ This counts the number of octal digits in a string:
This lists all words (consisting of all sequences of non-whitespace
characters) in a string, and is useful as a more powerful version of the
\fBsplit\fR command:
+.PP
.CS
\fBregexp\fR \-all \-inline {\eS+} $string
.CE
.SH "SEE ALSO"
-re_syntax(n), regsub(n),
-.VS 8.5
-string(n)
-.VE
+re_syntax(n), regsub(n), string(n)
.SH KEYWORDS
match, parsing, pattern, regular expression, splitting, string
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/registry.n b/doc/registry.n
index e4371e6..2e69b1e 100644
--- a/doc/registry.n
+++ b/doc/registry.n
@@ -13,9 +13,9 @@
registry \- Manipulate the Windows registry
.SH SYNOPSIS
.sp
-\fBpackage require registry 1.1\fR
+\fBpackage require registry 1.3\fR
.sp
-\fBregistry \fIoption\fR \fIkeyName\fR ?\fIarg arg ...\fR?
+\fBregistry \fR?\fI\-mode\fR? \fIoption\fR \fIkeyName\fR ?\fIarg arg ...\fR?
.BE
.SH DESCRIPTION
.PP
@@ -44,6 +44,14 @@ one of \fBHKEY_LOCAL_MACHINE\fR, \fBHKEY_USERS\fR,
\fBHKEY_DYN_DATA\fR. The \fIkeypath\fR can be one or more
registry key names separated by backslash (\fB\e\fR) characters.
.PP
+.VS 8.6
+The optional \fI\-mode\fR argument indicates which registry to work
+with; when it is \fB\-32bit\fR the 32-bit registry will be used, and
+when it is \fB\-64bit\fR the 64-bit registry will be used. If this
+argument is omitted, the system's default registry will be the subject
+of the requested operation.
+.VE 8.6
+.PP
\fIOption\fR indicates what to do with the registry key name. Any
unique abbreviation for \fIoption\fR is acceptable. The valid options
are:
@@ -95,7 +103,7 @@ data, see \fBSUPPORTED TYPES\fR, below.
If \fIpattern\fR is not specified, returns a list of names of all the
subkeys of \fIkeyName\fR. If \fIpattern\fR is specified, only those
names matching \fIpattern\fR are returned. Matching is determined
-using the same rules as for \fBstring\fR \fBmatch\fR. If the
+using the same rules as for \fBstring match\fR. If the
specified \fIkeyName\fR does not exist, then an error is generated.
.TP
\fBregistry set \fIkeyName\fR ?\fIvalueName data \fR?\fItype\fR??
@@ -119,7 +127,7 @@ Returns the type of the value \fIvalueName\fR in the key
If \fIpattern\fR is not specified, returns a list of names of all the
values of \fIkeyName\fR. If \fIpattern\fR is specified, only those
names matching \fIpattern\fR are returned. Matching is determined
-using the same rules as for \fBstring\fR \fBmatch\fR.
+using the same rules as for \fBstring match\fR.
.SH "SUPPORTED TYPES"
Each value under a key in the registry contains some data of a
particular type in a type-specific representation. The \fBregistry\fR
@@ -205,3 +213,6 @@ puts "$ext opens with $command"
.CE
.SH KEYWORDS
registry
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/regsub.n b/doc/regsub.n
index 5adfd61..fe473d9 100644
--- a/doc/regsub.n
+++ b/doc/regsub.n
@@ -54,8 +54,9 @@ backslashes.
If the initial arguments to \fBregsub\fR start with \fB\-\fR then
they are treated as switches. The following switches are
currently supported:
-.TP 10
+.TP
\fB\-all\fR
+.
All ranges in \fIstring\fR that match \fIexp\fR are found and
substitution is performed for each of these ranges.
Without this switch only the first
@@ -66,13 +67,15 @@ and
.QW \e\fIn\fR
sequences are handled for each substitution using the information
from the corresponding match.
-.TP 15
+.TP
\fB\-expanded\fR
+.
Enables use of the expanded regular expression syntax where
whitespace and comments are ignored. This is the same as specifying
the \fB(?x)\fR embedded option (see the \fBre_syntax\fR manual page).
-.TP 15
+.TP
\fB\-line\fR
+.
Enables newline-sensitive matching. By default, newline is a
completely ordinary character with no special meaning. With this flag,
.QW [^
@@ -87,8 +90,9 @@ matches an empty string before any newline in
addition to its normal function. This flag is equivalent to
specifying both \fB\-linestop\fR and \fB\-lineanchor\fR, or the
\fB(?n)\fR embedded option (see the \fBre_syntax\fR manual page).
-.TP 15
+.TP
\fB\-linestop\fR
+.
Changes the behavior of
.QW [^
bracket expressions and
@@ -96,8 +100,9 @@ bracket expressions and
so that they
stop at newlines. This is the same as specifying the \fB(?p)\fR
embedded option (see the \fBre_syntax\fR manual page).
-.TP 15
+.TP
\fB\-lineanchor\fR
+.
Changes the behavior of
.QW ^
and
@@ -108,26 +113,27 @@ so they match the
beginning and end of a line respectively. This is the same as
specifying the \fB(?w)\fR embedded option (see the \fBre_syntax\fR
manual page).
-.TP 10
+.TP
\fB\-nocase\fR
+.
Upper-case characters in \fIstring\fR will be converted to lower-case
before matching against \fIexp\fR; however, substitutions specified
by \fIsubSpec\fR use the original unconverted form of \fIstring\fR.
-.TP 10
+.TP
\fB\-start\fR \fIindex\fR
+.
Specifies a character index offset into the string to start
matching the regular expression at.
-.VS 8.5
The \fIindex\fR value is interpreted in the same manner
as the \fIindex\fR argument to \fBstring index\fR.
-.VE 8.5
When using this switch,
.QW ^
will not match the beginning of the line, and \eA will still
match the start of the string at \fIindex\fR.
\fIindex\fR will be constrained to the bounds of the input string.
-.TP 10
+.TP
\fB\-\|\-\fR
+.
Marks the end of switches. The argument following this one will
be treated as \fIexp\fR even if it starts with a \fB\-\fR.
.PP
@@ -140,24 +146,29 @@ of regular expressions.
.PP
Replace (in the string in variable \fIstring\fR) every instance of
\fBfoo\fR which is a word by itself with \fBbar\fR:
+.PP
.CS
\fBregsub\fR -all {\emfoo\eM} $string bar string
.CE
+.PP
or (using the
.QW "basic regular expression"
syntax):
+.PP
.CS
\fBregsub\fR -all {(?b)\e<foo\e>} $string bar string
.CE
.PP
Insert double-quotes around the first instance of the word
\fBinteresting\fR, however it is capitalized.
+.PP
.CS
\fBregsub\fR -nocase {\eyinteresting\ey} $string {"&"} string
.CE
.PP
Convert all non-ASCII and Tcl-significant characters into \eu escape
sequences by using \fBregsub\fR and \fBsubst\fR in combination:
+.PP
.CS
# This RE is just a character class for almost everything "bad"
set RE {[][{};#\e\e\e$ \er\et\eu0080-\euffff]}
@@ -173,9 +184,9 @@ set quoted [subst [string map {\en {\e\eu000a}} \e
[\fBregsub\fR -all $RE $string $substitution]]]
.CE
.SH "SEE ALSO"
-regexp(n), re_syntax(n), subst(n),
-.VS 8.5
-string(n)
-.VE
+regexp(n), re_syntax(n), subst(n), string(n)
.SH KEYWORDS
-match, pattern, quoting, regular expression, substitute
+match, pattern, quoting, regular expression, substitution
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/rename.n b/doc/rename.n
index c207523..77dc095 100644
--- a/doc/rename.n
+++ b/doc/rename.n
@@ -14,7 +14,6 @@ rename \- Rename or delete a command
.SH SYNOPSIS
\fBrename \fIoldName newName\fR
.BE
-
.SH DESCRIPTION
.PP
Rename the command that used to be called \fIoldName\fR so that it
@@ -26,9 +25,11 @@ If a command is renamed into a different namespace,
future invocations of it will execute in the new namespace.
The \fBrename\fR command returns an empty string as result.
.SH EXAMPLE
+.PP
The \fBrename\fR command can be used to wrap the standard Tcl commands
with your own monitoring machinery. For example, you might wish to
count how often the \fBsource\fR command is called:
+.PP
.CS
\fBrename\fR ::source ::theRealSource
set sourceCount 0
@@ -38,9 +39,7 @@ proc ::source args {
uplevel 1 ::theRealSource $args
}
.CE
-
.SH "SEE ALSO"
namespace(n), proc(n)
-
.SH KEYWORDS
command, delete, namespace, rename
diff --git a/doc/return.n b/doc/return.n
index b08de4a..a1abccf 100644
--- a/doc/return.n
+++ b/doc/return.n
@@ -45,32 +45,38 @@ However, the \fB\-code\fR option may be used to generate an
exceptional return from the procedure.
\fICode\fR may have any of the following values:
.TP 13
-\fBok (or 0)\fR
+\fBok\fR (or \fB0\fR)
+.
Normal return: same as if the option is omitted. The return code
of the procedure is 0 (\fBTCL_OK\fR).
.TP 13
-\fBerror (1)\fR
+\fBerror\fR (or \fB1\fR)
+.
Error return: the return code of the procedure is 1 (\fBTCL_ERROR\fR).
The procedure command behaves in its calling context as if it
-were the command \fBerror \fIresult\fR. See below for additional
+were the command \fBerror\fR \fIresult\fR. See below for additional
options.
.TP 13
-\fBreturn (2)\fR
+\fBreturn\fR (or \fB2\fR)
+.
The return code of the procedure is 2 (\fBTCL_RETURN\fR). The
procedure command behaves in its calling context as if it
were the command \fBreturn\fR (with no arguments).
.TP 13
-\fBbreak (3)\fR
+\fBbreak\fR (or \fB3\fR)
+.
The return code of the procedure is 3 (\fBTCL_BREAK\fR). The
procedure command behaves in its calling context as if it
were the command \fBbreak\fR.
.TP 13
-\fBcontinue (4)\fR
+\fBcontinue\fR (or \fB4\fR)
+.
The return code of the procedure is 4 (\fBTCL_CONTINUE\fR). The
procedure command behaves in its calling context as if it
were the command \fBcontinue\fR.
.TP 13
\fIvalue\fR
+.
\fIValue\fR must be an integer; it will be returned as the
return code for the current procedure.
.LP
@@ -87,7 +93,6 @@ an invocation of the \fBreturn \-code \fIcode\fR command will cause
the return code of \fBsource\fR to be \fIcode\fR.
.SH "RETURN OPTIONS"
.PP
-.VS 8.5
In addition to a result and a return code, evaluation of a command
in Tcl also produces a dictionary of return options. In general
usage, all \fIoption value\fR pairs given as arguments to \fBreturn\fR
@@ -96,13 +101,13 @@ are acceptable except as noted below. The \fBcatch\fR command may be
used to capture all of this information \(em the return code, the result,
and the return options dictionary \(em that arise from evaluation of a
script.
-.VE 8.5
.PP
As documented above, the \fB\-code\fR entry in the return options dictionary
receives special treatment by Tcl. There are other return options also
recognized and treated specially by Tcl. They are:
.TP
\fB\-errorcode \fIlist\fR
+.
The \fB\-errorcode\fR option receives special treatment only when the value
of the \fB\-code\fR option is \fBTCL_ERROR\fR. Then the \fIlist\fR value
is meant to be additional information about the error,
@@ -114,6 +119,7 @@ to the default value of \fBNONE\fR. The \fB\-errorcode\fR return
option will also be stored in the global variable \fBerrorCode\fR.
.TP
\fB\-errorinfo \fIinfo\fR
+.
The \fB\-errorinfo\fR option receives special treatment only when the value
of the \fB\-code\fR option is \fBTCL_ERROR\fR. Then \fIinfo\fR is the initial
stack trace, meant to provide to a human reader additional information
@@ -130,8 +136,26 @@ the value of \fB\-errorinfo\fR in a return options dictionary captured
by the \fBcatch\fR command (or from the copy of that information
stored in the global variable \fBerrorInfo\fR).
.TP
+\fB\-errorstack \fIlist\fR
+.VS 8.6
+The \fB\-errorstack\fR option receives special treatment only when the value
+of the \fB\-code\fR option is \fBTCL_ERROR\fR. Then \fIlist\fR is the initial
+error stack, recording actual argument values passed to each proc level. The error stack will
+also be reachable through \fBinfo errorstack\fR.
+If no \fB\-errorstack\fR option is provided to \fBreturn\fR when
+the \fB\-code error\fR option is provided, Tcl will provide its own
+initial error stack in the entry for \fB\-errorstack\fR. Tcl's
+initial error stack will include only the call to the procedure, and
+stack unwinding will append information about higher stack levels, but
+there will be no information about the context of the error within
+the procedure. Typically the \fIlist\fR value is supplied from
+the value of \fB\-errorstack\fR in a return options dictionary captured
+by the \fBcatch\fR command (or from the copy of that information from
+\fBinfo errorstack\fR).
+.VE 8.6
+.TP
\fB\-level \fIlevel\fR
-.VS 8.5
+.
The \fB\-level\fR and \fB\-code\fR options work together to set the return
code to be returned by one of the commands currently being evaluated.
The \fIlevel\fR value must be a non-negative integer representing a number
@@ -141,14 +165,12 @@ be \fIcode\fR. If no \fB\-level\fR option is provided, the default value
of \fIlevel\fR is 1, so that \fBreturn\fR sets the return code that the
current procedure returns to its caller, 1 level up the call stack. The
mechanism by which these options work is described in more detail below.
-.VE 8.5
.TP
\fB\-options \fIoptions\fR
-.VS 8.5
+.
The value \fIoptions\fR must be a valid dictionary. The entries of that
dictionary are treated as additional \fIoption value\fR pairs for the
\fBreturn\fR command.
-.VE 8.5
.SH "RETURN CODE HANDLING MECHANISMS"
.PP
Return codes are used in Tcl to control program flow. A Tcl script
@@ -174,7 +196,6 @@ of \fBTCL_BREAK\fR or \fBTCL_CONTINUE\fR, the loop command can react in such
a way as to give the \fBbreak\fR and \fBcontinue\fR commands
their documented interpretation in loops.
.PP
-.VS 8.5
Procedure invocation also involves evaluation of a script, the body
of the procedure. Procedure invocation provides special treatment
when evaluation of the procedure body returns the return code
@@ -202,20 +223,22 @@ of the \fB\-code\fR option (or \fBTCL_OK\fR by default). Any other value
for the \fB\-level\fR option (including the default value of 1)
will cause the return code of the \fBreturn\fR command itself
to be \fBTCL_RETURN\fR, triggering a return from the enclosing procedure.
-.VE 8.5
.SH EXAMPLES
+.PP
First, a simple example of using \fBreturn\fR to return from a
procedure, interrupting the procedure body.
+.PP
.CS
proc printOneLine {} {
- puts "line 1" ;# This line will be printed.
- \fBreturn\fR
- puts "line 2" ;# This line will not be printed.
+ puts "line 1" ;# This line will be printed.
+ \fBreturn\fR
+ puts "line 2" ;# This line will not be printed.
}
.CE
.PP
Next, an example of using \fBreturn\fR to set the value
returned by the procedure.
+.PP
.CS
proc returnX {} {\fBreturn\fR X}
puts [returnX] ;# prints "X"
@@ -223,74 +246,81 @@ puts [returnX] ;# prints "X"
.PP
Next, a more complete example, using \fBreturn -code error\fR
to report invalid arguments.
+.PP
.CS
proc factorial {n} {
- if {![string is integer $n] || ($n < 0)} {
- \fBreturn\fR -code error \e
- "expected non-negative integer,\e
- but got \e"$n\e""
- }
- if {$n < 2} {
- \fBreturn\fR 1
- }
- set m [expr {$n - 1}]
- set code [catch {factorial $m} factor]
- if {$code != 0} {
- \fBreturn\fR -code $code $factor
- }
- set product [expr {$n * $factor}]
- if {$product < 0} {
- \fBreturn\fR -code error \e
- "overflow computing factorial of $n"
- }
- \fBreturn\fR $product
+ if {![string is integer $n] || ($n < 0)} {
+ \fBreturn\fR -code error \e
+ "expected non-negative integer,\e
+ but got \e"$n\e""
+ }
+ if {$n < 2} {
+ \fBreturn\fR 1
+ }
+ set m [expr {$n - 1}]
+ set code [catch {factorial $m} factor]
+ if {$code != 0} {
+ \fBreturn\fR -code $code $factor
+ }
+ set product [expr {$n * $factor}]
+ if {$product < 0} {
+ \fBreturn\fR -code error \e
+ "overflow computing factorial of $n"
+ }
+ \fBreturn\fR $product
}
.CE
.PP
Next, a procedure replacement for \fBbreak\fR.
+.PP
.CS
proc myBreak {} {
- \fBreturn\fR -code break
+ \fBreturn\fR -code break
}
.CE
.PP
-.VS 8.5
With the \fB\-level 0\fR option, \fBreturn\fR itself can serve
-as a replacement for \fBbreak\fR.
+as a replacement for \fBbreak\fR, with the help of \fBinterp alias\fR.
+.PP
.CS
interp alias {} Break {} \fBreturn\fR -level 0 -code break
.CE
.PP
An example of using \fBcatch\fR and \fBreturn -options\fR to
re-raise a caught error:
+.PP
.CS
proc doSomething {} {
- set resource [allocate]
- catch {
- # Long script of operations
- # that might raise an error
- } result options
- deallocate $resource
- \fBreturn\fR -options $options $result
+ set resource [allocate]
+ catch {
+ # Long script of operations
+ # that might raise an error
+ } result options
+ deallocate $resource
+ \fBreturn\fR -options $options $result
}
.CE
.PP
Finally an example of advanced use of the \fBreturn\fR options
to create a procedure replacement for \fBreturn\fR itself:
+.PP
.CS
proc myReturn {args} {
- set result ""
- if {[llength $args] % 2} {
- set result [lindex $args end]
- set args [lrange $args 0 end-1]
- }
- set options [dict merge {-level 1} $args]
- dict incr options -level
- \fBreturn\fR -options $options $result
+ set result ""
+ if {[llength $args] % 2} {
+ set result [lindex $args end]
+ set args [lrange $args 0 end-1]
+ }
+ set options [dict merge {-level 1} $args]
+ dict incr options -level
+ \fBreturn\fR -options $options $result
}
.CE
-.VE 8.5
.SH "SEE ALSO"
-break(n), catch(n), continue(n), dict(n), error(n), proc(n), source(n), tclvars(n)
+break(n), catch(n), continue(n), dict(n), error(n), errorCode(n),
+errorInfo(n), proc(n), source(n), throw(n), try(n)
.SH KEYWORDS
-break, catch, continue, error, procedure, return
+break, catch, continue, error, exception, procedure, result, return
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/safe.n b/doc/safe.n
index 590f2c6..ebd9b4d 100644
--- a/doc/safe.n
+++ b/doc/safe.n
@@ -9,7 +9,7 @@
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
-Safe\ Base \- A mechanism for creating and manipulating safe interpreters
+safe \- Creating and manipulating safe interpreters
.SH SYNOPSIS
\fB::safe::interpCreate\fR ?\fIslave\fR? ?\fIoptions...\fR?
.sp
@@ -36,15 +36,15 @@ Safe Tcl is a mechanism for executing untrusted Tcl scripts
safely and for providing mediated access by such scripts to
potentially dangerous functionality.
.PP
-The Safe Base ensures that untrusted Tcl scripts cannot harm the
+Safe Tcl ensures that untrusted Tcl scripts cannot harm the
hosting application.
-The Safe Base prevents integrity and privacy attacks. Untrusted Tcl
+It prevents integrity and privacy attacks. Untrusted Tcl
scripts are prevented from corrupting the state of the hosting
application or computer. Untrusted scripts are also prevented from
disclosing information stored on the hosting computer or in the
hosting application to any party.
.PP
-The Safe Base allows a master interpreter to create safe, restricted
+Safe Tcl allows a master interpreter to create safe, restricted
interpreters that contain a set of predefined aliases for the \fBsource\fR,
\fBload\fR, \fBfile\fR, \fBencoding\fR, and \fBexit\fR commands and
are able to use the auto-loading and package mechanisms.
@@ -59,7 +59,7 @@ requested operation (see the section \fBSECURITY\fR below for details).
Different levels of security can be selected by using the optional flags
of the commands described below.
.PP
-All commands provided in the master interpreter by the Safe Base reside in
+All commands provided in the master interpreter by Safe Tcl reside in
the \fBsafe\fR namespace.
.SH COMMANDS
The following commands are provided in the master interpreter:
@@ -76,7 +76,7 @@ If the \fIslave\fR argument is omitted, a name will be generated.
\fB::safe::interpInit\fR \fIslave\fR ?\fIoptions...\fR?
This command is similar to \fBinterpCreate\fR except it that does not
create the safe interpreter. \fIslave\fR must have been created by some
-other means, like \fBinterp create \-safe\fR.
+other means, like \fBinterp create\fR \fB\-safe\fR.
.TP
\fB::safe::interpConfigure\fR \fIslave\fR ?\fIoptions...\fR?
If no \fIoptions\fR are given, returns the settings for all options for the
@@ -261,13 +261,13 @@ the system encoding, but allows all other subcommands including
The calling interpreter is deleted and its computation is stopped, but the
Tcl process in which this interpreter exists is not terminated.
.SH SECURITY
-The Safe Base does not attempt to completely prevent annoyance and
+Safe Tcl does not attempt to completely prevent annoyance and
denial of service attacks. These forms of attack prevent the
application or user from temporarily using the computer to perform
useful work, for example by consuming all available CPU time or
all available screen real estate.
These attacks, while aggravating, are deemed to be of lesser importance
-in general than integrity and privacy attacks that the Safe Base
+in general than integrity and privacy attacks that Safe Tcl
is to prevent.
.PP
The commands available in a safe interpreter, in addition to
@@ -293,9 +293,9 @@ executing.
The only valid file names arguments
for the \fBsource\fR and \fBload\fR aliases provided to the slave
are path in the form of
-\fB[file join \fR\fItoken filename\fR\fB]\fR (i.e. when using the
-native file path formats: \fItoken\fR\fB/\fR\fIfilename\fR
-on Unix and \fItoken\fR\fB\e\fIfilename\fR on Windows),
+\fB[file join \fItoken filename\fB]\fR (i.e. when using the
+native file path formats: \fItoken\fB/\fIfilename\fR
+on Unix and \fItoken\fB\e\fIfilename\fR on Windows),
where \fItoken\fR is representing one of the directories
of the \fIaccessPath\fR list and \fIfilename\fR is
one file in that directory (no sub directories access are allowed).
@@ -354,3 +354,6 @@ interp(n), library(n), load(n), package(n), source(n), unknown(n)
.SH KEYWORDS
alias, auto\-loading, auto_mkindex, load, master interpreter, safe
interpreter, slave interpreter, source
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/scan.n b/doc/scan.n
index 4ee9a59..738a470 100644
--- a/doc/scan.n
+++ b/doc/scan.n
@@ -55,6 +55,7 @@ conversion character is \fB[\fR or \fBc\fR).
Then it converts the next input characters according to the
conversion specifier and stores the result in the variable given
by the next argument to \fBscan\fR.
+.SS "OPTIONAL POSITIONAL SPECIFIER"
.PP
If the \fB%\fR is followed by a decimal number and a \fB$\fR, as in
.QW \fB%2$d\fR ,
@@ -66,8 +67,8 @@ specifiers must be positional. Every \fIvarName\fR on the argument
list must correspond to exactly one conversion specifier or an error
is generated, or in the inline case, any position can be specified
at most once and the empty positions will be filled in with empty strings.
+.SS "OPTIONAL SIZE MODIFIER"
.PP
-.VS 8.5
The size modifier field is used only when scanning a substring into
one of Tcl's integer values. The size modifier field dictates the
integer range acceptable to be stored in a variable, or, for the inline
@@ -82,26 +83,36 @@ modifier. Either one indicates the integer range to be stored is
limited to the same range produced by the \fBwide()\fR function of
the \fBexpr\fR command. The \fBll\fR size modifier indicates that
the integer range to be stored is unlimited.
-.VE 8.5
+.SS "MANDATORY CONVERSION CHARACTER"
.PP
The following conversion characters are supported:
-.TP 10
+.TP
\fBd\fR
+.
The input substring must be a decimal integer.
It is read in and the integer value is stored in the variable,
truncated as required by the size modifier value.
-.TP 10
+.TP
\fBo\fR
+.
The input substring must be an octal integer. It is read in and the
integer value is stored in the variable,
truncated as required by the size modifier value.
-.TP 10
+.TP
\fBx\fR or \fBX\fR
+.
The input substring must be a hexadecimal integer.
It is read in and the integer value is stored in the variable,
truncated as required by the size modifier value.
-.TP 10
+.TP
+\fBb\fR
+.
+The input substring must be a binary integer.
+It is read in and the integer value is stored in the variable,
+truncated as required by the size modifier value.
+.TP
\fBu\fR
+.
The input substring must be a decimal integer.
The integer value is truncated as required by the size modifier
value, and the corresponding unsigned value for that truncated
@@ -109,32 +120,37 @@ range is computed and stored in the variable as a decimal string.
The conversion makes no sense without reference to a truncation range,
so the size modifier \fBll\fR is not permitted in combination
with conversion character \fBu\fR.
-.TP 10
-\fBi\fR
+.TP
+\fBi\fR
+.
The input substring must be an integer. The base (i.e. decimal, binary,
octal, or hexadecimal) is determined in the same fashion as described in
\fBexpr\fR. The integer value is stored in the variable,
truncated as required by the size modifier value.
-.TP 10
+.TP
\fBc\fR
+.
A single character is read in and its Unicode value is stored in
the variable as an integer value.
Initial white space is not skipped in this case, so the input
substring may be a white-space character.
-.TP 10
+.TP
\fBs\fR
+.
The input substring consists of all the characters up to the next
white-space character; the characters are copied to the variable.
-.TP 10
+.TP
\fBe\fR or \fBf\fR or \fBg\fR or \fBE\fR or \fBG\fR
+.
The input substring must be a floating-point number consisting
of an optional sign, a string of decimal digits possibly
containing a decimal point, and an optional exponent consisting
of an \fBe\fR or \fBE\fR followed by an optional sign and a string of
decimal digits.
It is read in and stored in the variable as a floating-point value.
-.TP 10
+.TP
\fB[\fIchars\fB]\fR
+.
The input substring consists of one or more characters in \fIchars\fR.
The matching string is stored in the variable.
If the first character between the brackets is a \fB]\fR then
@@ -145,8 +161,9 @@ contains a sequence of the form \fIa\fB\-\fIb\fR then any
character between \fIa\fR and \fIb\fR (inclusive) will match.
If the first or last character between the brackets is a \fB\-\fR, then
it is treated as part of \fIchars\fR rather than indicating a range.
-.TP 10
+.TP
\fB[^\fIchars\fB]\fR
+.
The input substring consists of one or more characters not in \fIchars\fR.
The matching string is stored in the variable.
If the character immediately following the \fB^\fR is a \fB]\fR then it is
@@ -158,11 +175,12 @@ character between \fIa\fR and \fIb\fR (inclusive) will be excluded
from the set.
If the first or last character between the brackets is a \fB\-\fR, then
it is treated as part of \fIchars\fR rather than indicating a range value.
-.TP 10
+.TP
\fBn\fR
+.
No input is consumed from the input string. Instead, the total number
of characters scanned from the input string so far is stored in the variable.
-.LP
+.PP
The number of characters read from the input for a conversion is the
largest number that makes sense for that particular conversion (e.g.
as many decimal digits as possible for \fB%d\fR, as
@@ -192,7 +210,9 @@ modifier has no \fBsscanf\fR counterpart.
If the end of the input string is reached before any conversions have been
performed and no variables are given, an empty string is returned.
.SH EXAMPLES
+.PP
Convert a UNICODE character to its numeric value:
+.PP
.CS
set char "x"
set value [\fBscan\fR $char %c]
@@ -200,6 +220,7 @@ set value [\fBscan\fR $char %c]
.PP
Parse a simple color specification of the form \fI#RRGGBB\fR using
hexadecimal conversions with substring sizes:
+.PP
.CS
set string "#08D03F"
\fBscan\fR $string "#%2x%2x%2x" r g b
@@ -208,60 +229,65 @@ set string "#08D03F"
Parse a \fIHH:MM\fR time string, noting that this avoids problems with
octal numbers by forcing interpretation as decimals (if we did not
care, we would use the \fB%i\fR conversion instead):
+.PP
.CS
set string "08:08" ;# *Not* octal!
if {[\fBscan\fR $string "%d:%d" hours minutes] != 2} {
- error "not a valid time string"
+ error "not a valid time string"
}
# We have to understand numeric ranges ourselves...
if {$minutes < 0 || $minutes > 59} {
- error "invalid number of minutes"
+ error "invalid number of minutes"
}
.CE
.PP
Break a string up into sequences of non-whitespace characters (note
the use of the \fB%n\fR conversion so that we get skipping over
leading whitespace correct):
+.PP
.CS
set string " a string {with braced words} + leading space "
set words {}
while {[\fBscan\fR $string %s%n word length] == 2} {
- lappend words $word
- set string [string range $string $length end]
+ lappend words $word
+ set string [string range $string $length end]
}
.CE
.PP
Parse a simple coordinate string, checking that it is complete by
looking for the terminating character explicitly:
+.PP
.CS
set string "(5.2,-4e-2)"
# Note that the spaces before the literal parts of
# the scan pattern are significant, and that ")" is
# the Unicode character \eu0029
if {
- [\fBscan\fR $string " (%f ,%f %c" x y last] != 3
- || $last != 0x0029
+ [\fBscan\fR $string " (%f ,%f %c" x y last] != 3
+ || $last != 0x0029
} then {
- error "invalid coordinate string"
+ error "invalid coordinate string"
}
puts "X=$x, Y=$y"
.CE
.PP
-.VS 8.5
An interactive session demonstrating the truncation of integer
values determined by size modifiers:
+.PP
.CS
-% set tcl_platform(wordSize)
+\fI%\fR set tcl_platform(wordSize)
4
-% scan 20000000000000000000 %d
+\fI%\fR scan 20000000000000000000 %d
2147483647
-% scan 20000000000000000000 %ld
+\fI%\fR scan 20000000000000000000 %ld
9223372036854775807
-% scan 20000000000000000000 %lld
+\fI%\fR scan 20000000000000000000 %lld
20000000000000000000
.CE
-.VE 8.5
.SH "SEE ALSO"
format(n), sscanf(3)
.SH KEYWORDS
conversion specifier, parse, scan
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/seek.n b/doc/seek.n
index d4ce9b7..96d5c4e 100644
--- a/doc/seek.n
+++ b/doc/seek.n
@@ -14,7 +14,6 @@ seek \- Change the access position for an open channel
.SH SYNOPSIS
\fBseek \fIchannelId offset \fR?\fIorigin\fR?
.BE
-
.SH DESCRIPTION
.PP
Changes the current access position for \fIchannelId\fR.
@@ -30,24 +29,27 @@ for \fIchannelId\fR. \fIOffset\fR must be an integer (which may be
negative) and \fIorigin\fR must be one of the following:
.TP 10
\fBstart\fR
+.
The new access position will be \fIoffset\fR bytes from the start
of the underlying file or device.
.TP 10
\fBcurrent\fR
+.
The new access position will be \fIoffset\fR bytes from the current
access position; a negative \fIoffset\fR moves the access position
backwards in the underlying file or device.
.TP 10
\fBend\fR
+.
The new access position will be \fIoffset\fR bytes from the end of
the file or device. A negative \fIoffset\fR places the access position
before the end of file, and a positive \fIoffset\fR places the access
position after the end of file.
-.LP
+.PP
The \fIorigin\fR argument defaults to \fBstart\fR.
.PP
The command flushes all buffered output for the channel before the command
-returns, even if the channel is in nonblocking mode.
+returns, even if the channel is in non-blocking mode.
It also discards any buffered and unread input.
This command returns an empty string.
An error occurs if this command is applied to channels whose underlying
@@ -57,17 +59,20 @@ Note that \fIoffset\fR values are byte offsets, not character
offsets. Both \fBseek\fR and \fBtell\fR operate in terms of bytes,
not characters, unlike \fBread\fR.
.SH EXAMPLES
+.PP
Read a file twice:
+.PP
.CS
set f [open file.txt]
set data1 [read $f]
\fBseek\fR $f 0
set data2 [read $f]
close $f
-# $data1 == $data2 if the file wasn't updated
+# $data1 eq $data2 if the file wasn't updated
.CE
.PP
Read the last 10 bytes from a file:
+.PP
.CS
set f [open file.data]
# This is guaranteed to work with binary data but
@@ -77,9 +82,11 @@ fconfigure $f -translation binary
set data [read $f 10]
close $f
.CE
-
.SH "SEE ALSO"
file(n), open(n), close(n), gets(n), tell(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
access position, file, seek
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/self.n b/doc/self.n
new file mode 100644
index 0000000..2a04157
--- /dev/null
+++ b/doc/self.n
@@ -0,0 +1,152 @@
+'\"
+'\" Copyright (c) 2007 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH self n 0.1 TclOO "TclOO Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+self \- method call internal introspection
+.SH SYNOPSIS
+.nf
+package require TclOO
+
+\fBself\fR ?\fIsubcommand\fR?
+.fi
+.BE
+.SH DESCRIPTION
+The \fBself\fR command, which should only be used from within the context of a
+call to a method (i.e. inside a method, constructor or destructor body) is
+used to allow the method to discover information about how it was called. It
+takes an argument, \fIsubcommand\fR, that tells it what sort of information is
+actually desired; if omitted the result will be the same as if \fBself
+object\fR was invoked. The supported subcommands are:
+.TP
+\fBself call\fR
+.
+This returns a two-element list describing the method implementations used to
+implement the current call chain. The first element is the same as would be
+reported by \fBinfo object\fR \fBcall\fR for the current method (except that this
+also reports useful values from within constructors and destructors, whose
+names are reported as \fB<constructor>\fR and \fB<destructor>\fR
+respectively), and the second element is an index into the first element's
+list that indicates which actual implementation is currently executing (the
+first implementation to execute is always at index 0).
+.TP
+\fBself caller\fR
+.
+When the method was invoked from inside another object method, this subcommand
+returns a three element list describing the containing object and method. The
+first element describes the declaring object or class of the method, the
+second element is the name of the object on which the containing method was
+invoked, and the third element is the name of the method (with the strings
+\fB<constructor>\fR and \fB<destructor>\fR indicating constructors and
+destructors respectively).
+.TP
+\fBself class\fR
+.
+This returns the name of the class that the current method was defined within.
+Note that this will change as the chain of method implementations is traversed
+with \fBnext\fR, and that if the method was defined on an object then this
+will fail.
+.RS
+.PP
+If you want the class of the current object, you need to use this other
+construct:
+.PP
+.CS
+info object class [\fBself object\fR]
+.CE
+.RE
+.TP
+\fBself filter\fR
+.
+When invoked inside a filter, this subcommand returns a three element list
+describing the filter. The first element gives the name of the object or class
+that declared the filter (note that this may be different from the object or
+class that provided the implementation of the filter), the second element is
+either \fBobject\fR or \fBclass\fR depending on whether the declaring entity
+was an object or class, and the third element is the name of the filter.
+.TP
+\fBself method\fR
+.
+This returns the name of the current method (with the strings
+\fB<constructor>\fR and \fB<destructor>\fR indicating constructors and
+destructors respectively).
+.TP
+\fBself namespace\fR
+.
+This returns the name of the unique namespace of the object that the method
+was invoked upon.
+.TP
+\fBself next\fR
+.
+When invoked from a method that is not at the end of a call chain (i.e. where
+the \fBnext\fR command will invoke an actual method implementation), this
+subcommand returns a two element list describing the next element in the
+method call chain; the first element is the name of the class or object that
+declares the next part of the call chain, and the second element is the name
+of the method (with the strings \fB<constructor>\fR and \fB<destructor>\fR
+indicating constructors and destructors respectively). If invoked from a
+method that is at the end of a call chain, this subcommand returns the empty
+string.
+.TP
+\fBself object\fR
+.
+This returns the name of the object that the method was invoked upon.
+.TP
+\fBself target\fR
+.
+When invoked inside a filter implementation, this subcommand returns a two
+element list describing the method being filtered. The first element will be
+the name of the declarer of the method, and the second element will be the
+actual name of the method.
+.SH EXAMPLES
+.PP
+This example shows basic use of \fBself\fR to provide information about the
+current object:
+.PP
+.CS
+oo::class create c {
+ method foo {} {
+ puts "this is the [\fBself\fR] object"
+ }
+}
+c create a
+c create b
+a foo \fI\(-> prints "this is the ::a object"\fR
+b foo \fI\(-> prints "this is the ::b object"\fR
+.CE
+.PP
+This demonstrates what a method call chain looks like, and how traversing
+along it changes the index into it:
+.PP
+.CS
+oo::class create c {
+ method x {} {
+ puts "Cls: [\fBself call\fR]"
+ }
+}
+c create a
+oo::objdefine a {
+ method x {} {
+ puts "Obj: [\fBself call\fR]"
+ next
+ puts "Obj: [\fBself call\fR]"
+ }
+}
+a x \fI\(-> Obj: {{method x object method} {method x ::c method}} 0\fR
+ \fI\(-> Cls: {{method x object method} {method x ::c method}} 1\fR
+ \fI\(-> Obj: {{method x object method} {method x ::c method}} 0\fR
+.CE
+.SH "SEE ALSO"
+info(n), next(n)
+.SH KEYWORDS
+call, introspection, object
+.\" Local variables:
+.\" mode: nroff
+.\" fill-column: 78
+.\" End:
diff --git a/doc/set.n b/doc/set.n
index fb8dfac..32a788e 100644
--- a/doc/set.n
+++ b/doc/set.n
@@ -39,17 +39,21 @@ If a procedure is active and \fIvarName\fR is unqualified, then
unless \fIvarName\fR was declared to resolve differently through one of the
\fBglobal\fR, \fBvariable\fR or \fBupvar\fR commands.
.SH EXAMPLES
+.PP
Store a random number in the variable \fIr\fR:
+.PP
.CS
\fBset\fR r [expr {rand()}]
.CE
.PP
Store a short message in an array element:
+.PP
.CS
\fBset\fR anAry(msg) "Hello, World!"
.CE
.PP
Store a short message in an array element specified by a variable:
+.PP
.CS
\fBset\fR elemName "msg"
\fBset\fR anAry($elemName) "Hello, World!"
@@ -58,6 +62,7 @@ Store a short message in an array element specified by a variable:
Copy a value into the variable \fIout\fR from a variable whose name is
stored in the \fIvbl\fR (note that it is often easier to use arrays in
practice instead of doing double-dereferencing):
+.PP
.CS
\fBset\fR in0 "small random"
\fBset\fR in1 "large random"
diff --git a/doc/socket.n b/doc/socket.n
index c020839..0a60457 100644
--- a/doc/socket.n
+++ b/doc/socket.n
@@ -6,7 +6,7 @@
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
-.TH socket n 8.0 Tcl "Tcl Built-In Commands"
+.TH socket n 8.6 Tcl "Tcl Built-In Commands"
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
@@ -17,21 +17,19 @@ socket \- Open a TCP network connection
.sp
\fBsocket\fR \fB\-server \fIcommand\fR ?\fIoptions\fR? \fIport\fR
.BE
-
.SH DESCRIPTION
.PP
-This command opens a network socket and returns a channel
-identifier that may be used in future invocations of commands like
-\fBread\fR, \fBputs\fR and \fBflush\fR.
-At present only the TCP network protocol is supported; future
-releases may include support for additional protocols.
-The \fBsocket\fR command may be used to open either the client or
-server side of a connection, depending on whether the \fB\-server\fR
-switch is specified.
+This command opens a network socket and returns a channel identifier
+that may be used in future invocations of commands like \fBread\fR,
+\fBputs\fR and \fBflush\fR. At present only the TCP network protocol
+is supported over IPv4 and IPv6; future releases may include support
+for additional protocols. The \fBsocket\fR command may be used to
+open either the client or server side of a connection, depending on
+whether the \fB\-server\fR switch is specified.
.PP
Note that the default encoding for \fIall\fR sockets is the system
encoding, as returned by \fBencoding system\fR. Most of the time, you
-will need to use \fBfconfigure\fR to alter this to something else,
+will need to use \fBchan configure\fR to alter this to something else,
such as \fIutf\-8\fR (ideal for communicating with other Tcl
processes) or \fIiso8859\-1\fR (useful for many network protocols,
especially the older ones).
@@ -46,13 +44,14 @@ this port. \fIPort\fR is an integer port number
(or service name, where supported and understood by the host operating
system) and \fIhost\fR
is either a domain-style name such as \fBwww.tcl.tk\fR or
-a numerical IP address such as \fB127.0.0.1\fR.
+a numerical IPv4 or IPv6 address such as \fB127.0.0.1\fR or \fB2001:DB8::1\fR.
Use \fIlocalhost\fR to refer to the host on which the command is invoked.
.PP
The following options may also be present before \fIhost\fR
to specify additional information about the connection:
.TP
\fB\-myaddr\fI addr\fR
+.
\fIAddr\fR gives the domain-style name or numerical IP address of
the client-side network interface to use for the connection.
This option may be useful if the client machine has multiple network
@@ -60,6 +59,7 @@ interfaces. If the option is omitted then the client-side interface
will be chosen by the system software.
.TP
\fB\-myport\fI port\fR
+.
\fIPort\fR specifies an integer port number (or service name, where
supported and understood by the host operating system) to use for the
client's
@@ -67,48 +67,66 @@ side of the connection. If this option is omitted, the client's
port number will be chosen at random by the system software.
.TP
\fB\-async\fR
-The \fB\-async\fR option will cause the client socket to be connected
-asynchronously. This means that the socket will be created immediately but
-may not yet be connected to the server, when the call to \fBsocket\fR
-returns. When a \fBgets\fR or \fBflush\fR is done on the socket before the
-connection attempt succeeds or fails, if the socket is in blocking mode, the
-operation will wait until the connection is completed or fails. If the
-socket is in nonblocking mode and a \fBgets\fR or \fBflush\fR is done on
-the socket before the connection attempt succeeds or fails, the operation
-returns immediately and \fBfblocked\fR on the socket returns 1. Synchronous
-client sockets may be switched (after they have connected) to operating in
-asynchronous mode using:
+.
+This option will cause the client socket to be connected
+asynchronously. This means that the socket will be created immediately
+but may not yet be connected to the server, when the call to
+\fBsocket\fR returns.
.RS
+.PP
+When a \fBgets\fR or \fBflush\fR is done on the socket before the
+connection attempt succeeds or fails, if the socket is in blocking
+mode, the operation will wait until the connection is completed or
+fails. If the socket is in nonblocking mode and a \fBgets\fR or
+\fBflush\fR is done on the socket before the connection attempt
+succeeds or fails, the operation returns immediately and
+\fBfblocked\fR on the socket returns 1. Synchronous client sockets may
+be switched (after they have connected) to operating in asynchronous
+mode using:
+.PP
.CS
-\fBfconfigure \fIchan \fB\-blocking 0\fR
+\fBchan configure \fIchan \fB\-blocking 0\fR
.CE
.PP
-See the \fBfconfigure\fR command for more details.
+See the \fBchan configure\fR command for more details.
+.PP
+The Tcl event loop should be running while an asynchronous connection
+is in progress, because it may have to do several connection attempts
+in the background. Running the event loop also allows you to set up a
+writable channel event on the socket to get notified when the
+asynchronous connection has succeeded or failed. See the \fBvwait\fR
+and the \fBchan\fR commands for more details on the event loop and
+channel events.
.RE
.SH "SERVER SOCKETS"
.PP
-If the \fB\-server\fR option is specified then the new socket
-will be a server for the port given by \fIport\fR (either an integer
-or a service name, where supported and understood by the host
-operating system; if \fIport\fR is zero, the operating system will
-allocate a free port to the server socket which may be discovered by
-using \fBfconfigure\fR to read the \fB\-sockname\fR option).
-Tcl will automatically accept connections to the given port.
+If the \fB\-server\fR option is specified then the new socket will be
+a server that listens on the given \fIport\fR (either an integer or a
+service name, where supported and understood by the host operating
+system; if \fIport\fR is zero, the operating system will allocate a
+free port to the server socket which may be discovered by using
+\fBchan configure\fR to read the \fB\-sockname\fR option). If the host
+supports both, IPv4 and IPv6, the socket will listen on both address
+families. Tcl will automatically accept connections to the given port.
For each connection Tcl will create a new channel that may be used to
-communicate with the client. Tcl then invokes \fIcommand\fR
-with three additional arguments: the name of the new channel, the
-address, in network address notation, of the client's host, and
-the client's port number.
+communicate with the client. Tcl then invokes \fIcommand\fR (properly
+a command prefix list, see the \fBEXAMPLES\fR below) with three
+additional arguments: the name of the new channel, the address, in
+network address notation, of the client's host, and the client's port
+number.
.PP
The following additional option may also be specified before \fIport\fR:
.TP
\fB\-myaddr\fI addr\fR
-\fIAddr\fR gives the domain-style name or numerical IP address of
-the server-side network interface to use for the connection.
-This option may be useful if the server machine has multiple network
-interfaces. If the option is omitted then the server socket is bound
-to the special address INADDR_ANY so that it can accept connections from
-any interface.
+.
+\fIAddr\fR gives the domain-style name or numerical IP address of the
+server-side network interface to use for the connection. This option
+may be useful if the server machine has multiple network interfaces.
+If the option is omitted then the server socket is bound to the
+wildcard address so that it can accept connections from any
+interface. If \fIaddr\fR is a domain name that resolves to multiple IP
+addresses that are available on the local machine, the socket will
+listen on all of them.
.PP
Server channels cannot be used for input or output; their sole use is to
accept new client connections. The channels created for each incoming
@@ -125,28 +143,44 @@ will be accepted.
If \fIport\fR is specified as zero, the operating system will allocate
an unused port for use as a server socket. The port number actually
allocated may be retrieved from the created server socket using the
-\fBfconfigure\fR command to retrieve the \fB\-sockname\fR option as
+\fBchan configure\fR command to retrieve the \fB\-sockname\fR option as
described below.
.SH "CONFIGURATION OPTIONS"
-The \fBfconfigure\fR command can be used to query several readonly
+.PP
+The \fBchan configure\fR command can be used to query several readonly
configuration options for socket channels:
.TP
\fB\-error\fR
+.
This option gets the current error status of the given socket. This
is useful when you need to determine if an asynchronous connect
operation succeeded. If there was an error, the error message is
returned. If there was no error, an empty string is returned.
-
+.RS
+.PP
Note that the error status is reset by the read operation; this mimics
the underlying getsockopt(SO_ERROR) call.
+.RE
.TP
\fB\-sockname\fR
-This option returns a list of three elements, the address, the host name
-and the port number for the socket. If the host name cannot be computed,
-the second element is identical to the address, the first element of the
-list.
+.
+For client sockets (including the channels that get created when a
+client connects to a server socket) this option returns a list of
+three elements, the address, the host name and the port number for the
+socket. If the host name cannot be computed, the second element is
+identical to the address, the first element of the list.
+.RS
+.PP
+For server sockets this option returns a list of a multiple of three
+elements each group of which have the same meaning as described
+above. The list contains more than one group when the server socket
+was created without \fB\-myaddr\fR or with the argument to
+\fB\-myaddr\fR being a domain name that resolves multiple IP addresses
+that are local to the invoking host.
+.RE
.TP
\fB\-peername\fR
+.
This option is not supported by server sockets. For client and accepted
sockets, this option returns a list of three elements; these are the
address, the host name and the port to which the peer socket is connected
@@ -154,29 +188,40 @@ or bound. If the host name cannot be computed, the second element of the
list is identical to the address, its first element.
.PP
.SH "EXAMPLES"
+.PP
Here is a very simple time server:
+.PP
.CS
-proc Server {channel clientaddr clientport} {
- puts "Connection from $clientaddr registered"
- puts $channel [clock format [clock seconds]]
- close $channel
+proc Server {startTime channel clientaddr clientport} {
+ puts "Connection from $clientaddr registered"
+ set now [clock seconds]
+ puts $channel [clock format $now]
+ puts $channel "[expr {$now - $startTime}] since start"
+ close $channel
}
-\fBsocket\fR -server Server 9900
+\fBsocket -server\fR [list Server [clock seconds]] 9900
vwait forever
.CE
.PP
-And here is the corresponding client to talk to the server:
+And here is the corresponding client to talk to the server and extract
+some information:
+.PP
.CS
set server localhost
set sockChan [\fBsocket\fR $server 9900]
-gets $sockChan line
+gets $sockChan line1
+gets $sockChan line2
close $sockChan
-puts "The time on $server is $line"
+puts "The time on $server is $line1"
+puts "That is [lindex $line2 0]s since the server started"
.CE
-
+.SH "HISTORY"
+Support for IPv6 was added in Tcl 8.6.
.SH "SEE ALSO"
-fconfigure(n), flush(n), open(n), read(n)
-
+chan(n), flush(n), open(n), read(n)
.SH KEYWORDS
-bind, channel, connection, domain name, host, network address, socket, tcp
+asynchronous I/O, bind, channel, connection, domain name, host, network address, socket, tcp
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/source.n b/doc/source.n
index 69d383e..57a9fa2 100644
--- a/doc/source.n
+++ b/doc/source.n
@@ -15,9 +15,7 @@ source \- Evaluate a file or resource as a Tcl script
.SH SYNOPSIS
\fBsource \fIfileName\fR
.sp
-.VS 8.5
\fBsource\fR \fB\-encoding \fIencodingName fileName\fR
-.VE 8.5
.BE
.SH DESCRIPTION
.PP
@@ -45,22 +43,24 @@ or
which will be safely substituted by the Tcl interpreter into
.QW ^Z .
.PP
-.VS 8.5
The \fB\-encoding\fR option is used to specify the encoding of
the data stored in \fIfileName\fR. When the \fB\-encoding\fR option
is omitted, the system encoding is assumed.
-.VE 8.5
.SH EXAMPLE
+.PP
Run the script in the file \fBfoo.tcl\fR and then the script in the
file \fBbar.tcl\fR:
+.PP
.CS
\fBsource\fR foo.tcl
\fBsource\fR bar.tcl
.CE
+.PP
Alternatively:
+.PP
.CS
foreach scriptFile {foo.tcl bar.tcl} {
- \fBsource\fR $scriptFile
+ \fBsource\fR $scriptFile
}
.CE
.SH "SEE ALSO"
diff --git a/doc/split.n b/doc/split.n
index c289be0..e3259df 100644
--- a/doc/split.n
+++ b/doc/split.n
@@ -14,7 +14,6 @@ split \- Split a string into a proper Tcl list
.SH SYNOPSIS
\fBsplit \fIstring \fR?\fIsplitChars\fR?
.BE
-
.SH DESCRIPTION
.PP
Returns a list created by splitting \fIstring\fR at each character
@@ -29,34 +28,41 @@ If \fIsplitChars\fR is an empty string then each character of
\fIstring\fR becomes a separate element of the result list.
\fISplitChars\fR defaults to the standard white-space characters.
.SH EXAMPLES
+.PP
Divide up a USENET group name into its hierarchical components:
+.PP
.CS
-\fBsplit\fR "comp.lang.tcl.announce" .
- \fI\(-> comp lang tcl announce\fR
+\fBsplit\fR "comp.lang.tcl" .
+ \fI\(-> comp lang tcl\fR
.CE
.PP
See how the \fBsplit\fR command splits on \fIevery\fR character in
\fIsplitChars\fR, which can result in information loss if you are not
careful:
+.PP
.CS
\fBsplit\fR "alpha beta gamma" "temp"
\fI\(-> al {ha b} {} {a ga} {} a\fR
.CE
.PP
Extract the list words from a string that is not a well-formed list:
+.PP
.CS
\fBsplit\fR "Example with {unbalanced brace character"
\fI\(-> Example with \e{unbalanced brace character\fR
.CE
.PP
Split a string into its constituent characters
+.PP
.CS
\fBsplit\fR "Hello world" {}
\fI\(-> H e l l o { } w o r l d\fR
.CE
.SS "PARSING RECORD-ORIENTED FILES"
+.PP
Parse a Unix /etc/passwd file, which consists of one entry per line,
with each line consisting of a colon-separated list of fields:
+.PP
.CS
## Read the file
set fid [open /etc/passwd]
@@ -69,18 +75,19 @@ set records [\fBsplit\fR $content "\en"]
## Iterate over the records
foreach rec $records {
- ## Split into fields on colons
- set fields [\fBsplit\fR $rec ":"]
+ ## Split into fields on colons
+ set fields [\fBsplit\fR $rec ":"]
- ## Assign fields to variables and print some out...
- lassign $fields \e
- userName password uid grp longName homeDir shell
- puts "$longName uses [file tail $shell] for a login shell"
+ ## Assign fields to variables and print some out...
+ lassign $fields \e
+ userName password uid grp longName homeDir shell
+ puts "$longName uses [file tail $shell] for a login shell"
}
.CE
-
.SH "SEE ALSO"
join(n), list(n), string(n)
-
.SH KEYWORDS
list, split, string
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/string.n b/doc/string.n
index e74b8a2..351c865 100644
--- a/doc/string.n
+++ b/doc/string.n
@@ -14,13 +14,13 @@ string \- Manipulate strings
.SH SYNOPSIS
\fBstring \fIoption arg \fR?\fIarg ...?\fR
.BE
-
.SH DESCRIPTION
.PP
Performs one of several string operations, depending on \fIoption\fR.
The legal \fIoption\fRs (which may be abbreviated) are:
.TP
-\fBstring compare\fR ?\fB\-nocase\fR? ?\fB\-length int\fR? \fIstring1 string2\fR
+\fBstring compare\fR ?\fB\-nocase\fR? ?\fB\-length\fI length\fR? \fIstring1 string2\fR
+.
Perform a character-by-character comparison of strings \fIstring1\fR
and \fIstring2\fR. Returns \-1, 0, or 1, depending on whether
\fIstring1\fR is lexicographically less than, equal to, or greater
@@ -29,7 +29,8 @@ first \fIlength\fR characters are used in the comparison. If
\fB\-length\fR is negative, it is ignored. If \fB\-nocase\fR is
specified, then the strings are compared in a case-insensitive manner.
.TP
-\fBstring equal\fR ?\fB\-nocase\fR? ?\fB\-length int\fR? \fIstring1 string2\fR
+\fBstring equal\fR ?\fB\-nocase\fR? ?\fB\-length\fI length\fR? \fIstring1 string2\fR
+.
Perform a character-by-character comparison of strings \fIstring1\fR
and \fIstring2\fR. Returns 1 if \fIstring1\fR and \fIstring2\fR are
identical, or 0 when not. If \fB\-length\fR is specified, then only
@@ -38,80 +39,43 @@ the first \fIlength\fR characters are used in the comparison. If
specified, then the strings are compared in a case-insensitive manner.
.TP
\fBstring first \fIneedleString haystackString\fR ?\fIstartIndex\fR?
+.
Search \fIhaystackString\fR for a sequence of characters that exactly match
the characters in \fIneedleString\fR. If found, return the index of the
first character in the first such match within \fIhaystackString\fR. If not
found, return \-1. If \fIstartIndex\fR is specified (in any of the
-forms accepted by the \fBindex\fR method), then the search is
+forms described in \fBSTRING INDICES\fR), then the search is
constrained to start with the character in \fIhaystackString\fR specified by
the index. For example,
.RS
+.PP
.CS
\fBstring first a 0a23456789abcdef 5\fR
.CE
+.PP
will return \fB10\fR, but
+.PP
.CS
\fBstring first a 0123456789abcdef 11\fR
.CE
+.PP
will return \fB\-1\fR.
.RE
.TP
\fBstring index \fIstring charIndex\fR
+.
Returns the \fIcharIndex\fR'th character of the \fIstring\fR argument.
A \fIcharIndex\fR of 0 corresponds to the first character of the
-string. \fIcharIndex\fR may be specified as follows:
-.VS 8.5
+string. \fIcharIndex\fR may be specified as described in the
+\fBSTRING INDICES\fR section.
.RS
-.IP \fIinteger\fR 10
-For any index value that passes \fBstring is integer -strict\fR,
-the char specified at this integral index
-(e.g. \fB2\fR would refer to the
-.QW c
-in
-.QW abcd ).
-.IP \fBend\fR 10
-The last char of the string
-(e.g. \fBend\fR would refer to the
-.QW d
-in
-.QW abcd ).
-.IP \fBend\fR\-\fIN\fR 10
-The last char of the string minus the specified integer offset \fIN\fR
-(e.g. \fBend\fR\-1 would refer to the
-.QW c
-in
-.QW abcd ).
-.IP \fBend\fR+\fIN\fR 10
-The last char of the string plus the specified integer offset \fIN\fR
-(e.g. \fBend\fR+\-1 would refer to the
-.QW c
-in
-.QW abcd ).
-.IP \fIM\fR+\fIN\fR 10
-The char specified at the integral index that is the sum of
-integer values \fIM\fR and \fIN\fR
-(e.g. \fB1+1\fR would refer to the
-.QW c
-in
-.QW abcd ).
-.IP \fIM\fR\-\fIN\fR 10
-The char specified at the integral index that is the difference of
-integer values \fIM\fR and \fIN\fR
-(e.g. \fB2\-1\fR would refer to the
-.QW b
-in
-.QW abcd ).
-.PP
-In the specifications above, the integer value \fIM\fR contains no
-trailing whitespace and the integer value \fIN\fR contains no
-leading whitespace.
.PP
If \fIcharIndex\fR is less than 0 or greater than or equal to the
length of the string then this command returns an empty string.
.RE
-.VE
.TP
\fBstring is \fIclass\fR ?\fB\-strict\fR? ?\fB\-failindex \fIvarname\fR? \fIstring\fR
+.
Returns 1 if \fIstring\fR is a valid member of the specified character
class, otherwise returns 0. If \fB\-strict\fR is specified, then an
empty string returns 0, otherwise an empty string will return 1 on
@@ -139,6 +103,12 @@ outside of the [0\-9] range.
Any of the valid forms for a double in Tcl, with optional surrounding
whitespace. In case of under/overflow in the value, 0 is returned and
the \fIvarname\fR will contain \-1.
+.IP \fBentier\fR 12
+.VS 8.6
+Any of the valid string formats for an integer value of arbitrary size
+in Tcl, with optional surrounding whitespace. The formats accepted are
+exactly those accepted by the C routine \fBTcl_GetBignumFromObj\fR.
+.VE
.IP \fBfalse\fR 12
Any of the forms allowed to \fBTcl_GetBoolean\fR where the value is
false.
@@ -161,18 +131,17 @@ Any Unicode printing character, including space.
.IP \fBpunct\fR 12
Any Unicode punctuation character.
.IP \fBspace\fR 12
-Any Unicode space character.
+Any Unicode whitespace character, zero width space (U+200b),
+word joiner (U+2060) and zero width no-break space (U+feff) (=BOM).
.IP \fBtrue\fR 12
Any of the forms allowed to \fBTcl_GetBoolean\fR where the value is
true.
.IP \fBupper\fR 12
Any upper case alphabet character in the Unicode character set.
-.VS 8.5
.IP \fBwideinteger\fR 12
Any of the valid forms for a wide integer in Tcl, with optional
surrounding whitespace. In case of under/overflow in the value, 0 is
returned and the \fIvarname\fR will contain \-1.
-.VE 8.5
.IP \fBwordchar\fR 12
Any Unicode word character. That is any alphanumeric character, and
any Unicode connector punctuation characters (e.g. underscore).
@@ -185,32 +154,39 @@ function will return 0, then the \fIvarname\fR will always be set to
.RE
.TP
\fBstring last \fIneedleString haystackString\fR ?\fIlastIndex\fR?
+.
Search \fIhaystackString\fR for a sequence of characters that exactly match
the characters in \fIneedleString\fR. If found, return the index of the
first character in the last such match within \fIhaystackString\fR. If there
is no match, then return \-1. If \fIlastIndex\fR is specified (in any
-of the forms accepted by the \fBindex\fR method), then only the
+of the forms described in \fBSTRING INDICES\fR), then only the
characters in \fIhaystackString\fR at or before the specified \fIlastIndex\fR
will be considered by the search. For example,
.RS
+.PP
.CS
\fBstring last a 0a23456789abcdef 15\fR
.CE
+.PP
will return \fB10\fR, but
+.PP
.CS
\fBstring last a 0a23456789abcdef 9\fR
.CE
+.PP
will return \fB1\fR.
.RE
.TP
\fBstring length \fIstring\fR
+.
Returns a decimal string giving the number of characters in
\fIstring\fR. Note that this is not necessarily the same as the
-number of bytes used to store the string. If the object is a
-ByteArray object (such as those returned from reading a binary encoded
-channel), then this will return the actual byte length of the object.
+number of bytes used to store the string. If the value is a
+byte array value (such as those returned from reading a binary encoded
+channel), then this will return the actual byte length of the value.
.TP
\fBstring map\fR ?\fB\-nocase\fR? \fImapping string\fR
+.
Replaces substrings in \fIstring\fR based on the key-value pairs in
\fImapping\fR. \fImapping\fR is a list of \fIkey value key value ...\fR
as in the form returned by \fBarray get\fR. Each instance of a
@@ -222,21 +198,26 @@ appearing first in the list will be checked first, and so on.
\fIstring\fR is only iterated over once, so earlier key replacements
will have no affect for later key matches. For example,
.RS
+.PP
.CS
\fBstring map {abc 1 ab 2 a 3 1 0} 1abcaababcabababc\fR
.CE
+.PP
will return the string \fB01321221\fR.
.PP
Note that if an earlier \fIkey\fR is a prefix of a later one, it will
completely mask the later one. So if the previous example is
reordered like this,
+.PP
.CS
\fBstring map {1 0 ab 2 a 3 abc 1} 1abcaababcabababc\fR
.CE
+.PP
it will return the string \fB02c322c222c\fR.
.RE
.TP
\fBstring match\fR ?\fB\-nocase\fR? \fIpattern\fR \fIstring\fR
+.
See if \fIpattern\fR matches \fIstring\fR; return 1 if it does, 0 if
it does not. If \fB\-nocase\fR is specified, then the pattern attempts
to match against the string in a case insensitive manner. For the two
@@ -270,6 +251,7 @@ the special interpretation of the characters \fB*?[]\e\fR in
.RE
.TP
\fBstring range \fIstring first last\fR
+.
Returns a range of consecutive characters from \fIstring\fR, starting
with the character whose index is \fIfirst\fR and ending with the
character whose index is \fIlast\fR. An index of 0 refers to the first
@@ -281,9 +263,11 @@ equal to the length of the string then it is treated as if it were
string is returned.
.TP
\fBstring repeat \fIstring count\fR
+.
Returns \fIstring\fR repeated \fIcount\fR number of times.
.TP
\fBstring replace \fIstring first last\fR ?\fInewstring\fR?
+.
Removes a range of consecutive characters from \fIstring\fR, starting
with the character whose index is \fIfirst\fR and ending with the
character whose index is \fIlast\fR. An index of 0 refers to the
@@ -295,106 +279,171 @@ and if \fIlast\fR is greater than or equal to the length of the string
then it is treated as if it were \fBend\fR. If \fIfirst\fR is greater
than \fIlast\fR or the length of the initial string, or \fIlast\fR is
less than 0, then the initial string is returned untouched.
-.VS 8.5
.TP
\fBstring reverse \fIstring\fR
+.
Returns a string that is the same length as \fIstring\fR but with its
characters in the reverse order.
-.VE 8.5
.TP
\fBstring tolower \fIstring\fR ?\fIfirst\fR? ?\fIlast\fR?
+.
Returns a value equal to \fIstring\fR except that all upper (or title)
case letters have been converted to lower case. If \fIfirst\fR is
specified, it refers to the first char index in the string to start
modifying. If \fIlast\fR is specified, it refers to the char index in
the string to stop at (inclusive). \fIfirst\fR and \fIlast\fR may be
-specified as for the \fBindex\fR method.
+specified using the forms described in \fBSTRING INDICES\fR.
.TP
\fBstring totitle \fIstring\fR ?\fIfirst\fR? ?\fIlast\fR?
+.
Returns a value equal to \fIstring\fR except that the first character
in \fIstring\fR is converted to its Unicode title case variant (or
upper case if there is no title case variant) and the rest of the
string is converted to lower case. If \fIfirst\fR is specified, it
refers to the first char index in the string to start modifying. If
\fIlast\fR is specified, it refers to the char index in the string to
-stop at (inclusive). \fIfirst\fR and \fIlast\fR may be specified as
-for the \fBindex\fR method.
+stop at (inclusive). \fIfirst\fR and \fIlast\fR may be specified
+using the forms described in \fBSTRING INDICES\fR.
.TP
\fBstring toupper \fIstring\fR ?\fIfirst\fR? ?\fIlast\fR?
+.
Returns a value equal to \fIstring\fR except that all lower (or title)
case letters have been converted to upper case. If \fIfirst\fR is
specified, it refers to the first char index in the string to start
modifying. If \fIlast\fR is specified, it refers to the char index in
the string to stop at (inclusive). \fIfirst\fR and \fIlast\fR may be
-specified as for the \fBindex\fR method.
+specified using the forms described in \fBSTRING INDICES\fR.
.TP
\fBstring trim \fIstring\fR ?\fIchars\fR?
+.
Returns a value equal to \fIstring\fR except that any leading or
trailing characters present in the string given by \fIchars\fR are removed. If
-\fIchars\fR is not specified then white space is removed (spaces,
-tabs, newlines, and carriage returns).
+\fIchars\fR is not specified then white space is removed (any character
+for which \fBstring is space\fR returns 1, and "\0").
.TP
\fBstring trimleft \fIstring\fR ?\fIchars\fR?
+.
Returns a value equal to \fIstring\fR except that any leading
characters present in the string given by \fIchars\fR are removed. If
-\fIchars\fR is not specified then white space is removed (spaces,
-tabs, newlines, and carriage returns).
+\fIchars\fR is not specified then white space is removed (any character
+for which \fBstring is space\fR returns 1, and "\0").
.TP
\fBstring trimright \fIstring\fR ?\fIchars\fR?
+.
Returns a value equal to \fIstring\fR except that any trailing
characters present in the string given by \fIchars\fR are removed. If
-\fIchars\fR is not specified then white space is removed (spaces,
-tabs, newlines, and carriage returns).
-.SH "OBSOLETE SUBCOMMANDS"
+\fIchars\fR is not specified then white space is removed (any character
+for which \fBstring is space\fR returns 1, and "\0").
+.SS "OBSOLETE SUBCOMMANDS"
.PP
These subcommands are currently supported, but are likely to go away in a
future release as their functionality is either virtually never used or highly
misleading.
.TP
\fBstring bytelength \fIstring\fR
+.
Returns a decimal string giving the number of bytes used to represent
\fIstring\fR in memory. Because UTF\-8 uses one to three bytes to
represent Unicode characters, the byte length will not be the same as
the character length in general. The cases where a script cares about
-the byte length are rare. In almost all cases, you should use the
+the byte length are rare.
+.RS
+.PP
+In almost all cases, you should use the
\fBstring length\fR operation (including determining the length of a
-Tcl ByteArray object). Refer to the \fBTcl_NumUtfChars\fR manual
+Tcl byte array value). Refer to the \fBTcl_NumUtfChars\fR manual
entry for more details on the UTF\-8 representation.
+.PP
+\fICompatibility note:\fR it is likely that this subcommand will be
+withdrawn in a future version of Tcl. It is better to use the
+\fBencoding convertto\fR command to convert a string to a known
+encoding and then apply \fBstring length\fR to that.
+.RE
.TP
\fBstring wordend \fIstring charIndex\fR
+.
Returns the index of the character just after the last one in the word
containing character \fIcharIndex\fR of \fIstring\fR. \fIcharIndex\fR
-may be specified as for the \fBindex\fR method. A word is
+may be specified using the forms in \fBSTRING INDICES\fR. A word is
considered to be any contiguous range of alphanumeric (Unicode letters
or decimal digits) or underscore (Unicode connector punctuation)
characters, or any single character other than these.
.TP
\fBstring wordstart \fIstring charIndex\fR
-Returns the index of the first character in the word containing
-character \fIcharIndex\fR of \fIstring\fR. \fIcharIndex\fR may be
-specified as for the \fBindex\fR method. A word is considered to be any
-contiguous range of alphanumeric (Unicode letters or decimal digits)
-or underscore (Unicode connector punctuation) characters, or any
-single character other than these.
+.
+Returns the index of the first character in the word containing character
+\fIcharIndex\fR of \fIstring\fR. \fIcharIndex\fR may be specified using the
+forms in \fBSTRING INDICES\fR. A word is considered to be any contiguous
+range of alphanumeric (Unicode letters or decimal digits) or underscore
+(Unicode connector punctuation) characters, or any single character other than
+these.
+.SH "STRING INDICES"
+.PP
+When referring to indices into a string (e.g., for \fBstring index\fR
+or \fBstring range\fR) the following formats are supported:
+.IP \fIinteger\fR 10
+For any index value that passes \fBstring is integer \-strict\fR,
+the char specified at this integral index (e.g., \fB2\fR would refer to the
+.QW c
+in
+.QW abcd ).
+.IP \fBend\fR 10
+The last char of the string (e.g., \fBend\fR would refer to the
+.QW d
+in
+.QW abcd ).
+.IP \fBend\-\fIN\fR 10
+The last char of the string minus the specified integer offset \fIN\fR (e.g.,
+.QW \fBend\-1\fR
+would refer to the
+.QW c
+in
+.QW abcd ).
+.IP \fBend+\fIN\fR 10
+The last char of the string plus the specified integer offset \fIN\fR (e.g.,
+.QW \fBend+\-1\fR
+would refer to the
+.QW c
+in
+.QW abcd ).
+.IP \fIM\fB+\fIN\fR 10
+The char specified at the integral index that is the sum of
+integer values \fIM\fR and \fIN\fR (e.g.,
+.QW \fB1+1\fR
+would refer to the
+.QW c
+in
+.QW abcd ).
+.IP \fIM\fB\-\fIN\fR 10
+The char specified at the integral index that is the difference of
+integer values \fIM\fR and \fIN\fR (e.g.,
+.QW \fB2\-1\fR
+would refer to the
+.QW b
+in
+.QW abcd ).
+.PP
+In the specifications above, the integer value \fIM\fR contains no
+trailing whitespace and the integer value \fIN\fR contains no
+leading whitespace.
.SH EXAMPLE
+.PP
Test if the string in the variable \fIstring\fR is a proper non-empty
prefix of the string \fBfoobar\fR.
+.PP
.CS
set length [\fBstring length\fR $string]
if {$length == 0} {
set isPrefix 0
} else {
- set isPrefix [\fBstring equal\fR -length $length $string "foobar"]
+ set isPrefix [\fBstring equal\fR \-length $length $string "foobar"]
}
.CE
-
.SH "SEE ALSO"
expr(n), list(n)
-
.SH KEYWORDS
case conversion, compare, index, match, pattern, string, word, equal,
ctype, character, reverse
-
.\" Local Variables:
.\" mode: nroff
.\" End:
diff --git a/doc/subst.n b/doc/subst.n
index 5a162c4..aba2bc9 100644
--- a/doc/subst.n
+++ b/doc/subst.n
@@ -62,19 +62,23 @@ itself will either return an error, or will complete successfully.
When it performs its substitutions, \fIsubst\fR does not give any
special treatment to double quotes or curly braces (except within
command substitutions) so the script
+.PP
.CS
set a 44
\fBsubst\fR {xyz {$a}}
.CE
+.PP
returns
.QW "\fBxyz {44}\fR" ,
not
.QW "\fBxyz {$a}\fR"
and the script
+.PP
.CS
set a "p\e} q \e{r"
\fBsubst\fR {xyz {$a}}
.CE
+.PP
returns
.QW "\fBxyz {p} q {r}\fR" ,
not
@@ -82,10 +86,12 @@ not
.PP
When command substitution is performed, it includes any variable
substitution necessary to evaluate the script.
+.PP
.CS
set a 44
\fBsubst\fR -novariables {$a [format $a]}
.CE
+.PP
returns
.QW "\fB$a 44\fR" ,
not
@@ -93,11 +99,13 @@ not
Similarly, when
variable substitution is performed, it includes any command
substitution necessary to retrieve the value of the variable.
+.PP
.CS
proc b {} {return c}
array set a {c c [b] tricky}
\fBsubst\fR -nocommands {[b] $a([b])}
.CE
+.PP
returns
.QW "\fB[b] c\fR" ,
not
@@ -107,34 +115,42 @@ The continue and break exceptions allow command substitutions to
prevent substitution of the rest of the command substitution and the
rest of \fIstring\fR respectively, giving script authors more options
when processing text using \fIsubst\fR. For example, the script
+.PP
.CS
\fBsubst\fR {abc,[break],def}
.CE
+.PP
returns
.QW \fBabc,\fR ,
not
.QW \fBabc,,def\fR
and the script
+.PP
.CS
\fBsubst\fR {abc,[continue;expr {1+2}],def}
.CE
+.PP
returns
.QW \fBabc,,def\fR ,
not
.QW \fBabc,3,def\fR .
.PP
Other exceptional return codes substitute the returned value
+.PP
.CS
\fBsubst\fR {abc,[return foo;expr {1+2}],def}
.CE
+.PP
returns
.QW \fBabc,foo,def\fR ,
not
.QW \fBabc,3,def\fR
and
+.PP
.CS
\fBsubst\fR {abc,[return -code 10 foo;expr {1+2}],def}
.CE
+.PP
also returns
.QW \fBabc,foo,def\fR ,
not
@@ -142,4 +158,7 @@ not
.SH "SEE ALSO"
Tcl(n), eval(n), break(n), continue(n)
.SH KEYWORDS
-backslash substitution, command substitution, variable substitution
+backslash substitution, command substitution, quoting, substitution, variable substitution
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/switch.n b/doc/switch.n
index defa849..acde6cb 100644
--- a/doc/switch.n
+++ b/doc/switch.n
@@ -31,32 +31,33 @@ command returns an empty string.
.PP
If the initial arguments to \fBswitch\fR start with \fB\-\fR then
they are treated as options
-.VS 8.5
unless there are exactly two arguments to \fBswitch\fR (in which case the
first must the \fIstring\fR and the second must be the
\fIpattern\fR/\fIbody\fR list).
-.VE 8.5
The following options are currently supported:
.TP 10
\fB\-exact\fR
+.
Use exact matching when comparing \fIstring\fR to a pattern. This
is the default.
.TP 10
\fB\-glob\fR
+.
When matching \fIstring\fR to the patterns, use glob-style matching
(i.e. the same as implemented by the \fBstring match\fR command).
.TP 10
\fB\-regexp\fR
+.
When matching \fIstring\fR to the patterns, use regular
expression matching
(as described in the \fBre_syntax\fR reference page).
-'\" Options defined by TIP#75
-.VS 8.5
.TP 10
\fB\-nocase\fR
+.
Causes comparisons to be handled in a case-insensitive manner.
.TP 10
\fB\-matchvar\fR \fIvarName\fR
+.
This option (only legal when \fB\-regexp\fR is also specified)
specifies the name of a variable into which the list of matches
found by the regular expression engine will be written. The first
@@ -69,6 +70,7 @@ empty list written to it. This option may be specified at the same
time as the \fB\-indexvar\fR option.
.TP 10
\fB\-indexvar\fR \fIvarName\fR
+.
This option (only legal when \fB\-regexp\fR is also specified)
specifies the name of a variable into which the list of indices
referring to matching substrings
@@ -83,15 +85,13 @@ capturing parenthesis in the regular expression that matched, and so
on. When a \fBdefault\fR branch is taken, the variable will have the
empty list written to it. This option may be specified at the same
time as the \fB\-matchvar\fR option.
-.VE 8.5
.TP 10
\fB\-\|\-\fR
+.
Marks the end of options. The argument following this one will
be treated as \fIstring\fR even if it starts with a \fB\-\fR.
-.VS 8.5
This is not required when the matching patterns and bodies are grouped
together in a single argument.
-.VE 8.5
.PP
Two syntaxes are provided for the \fIpattern\fR and \fIbody\fR arguments.
The first uses a separate argument for each of the patterns and commands;
@@ -122,8 +122,10 @@ Beware of how you place comments in \fBswitch\fR commands. Comments
should only be placed \fBinside\fR the execution body of one of the
patterns, and not intermingled with the patterns.
.SH "EXAMPLES"
+.PP
The \fBswitch\fR command can match against variables and not just
literals, as shown here (the result is \fI2\fR):
+.PP
.CS
set foo "abc"
\fBswitch\fR abc a \- b {expr {1}} $foo {expr {2}} default {expr {3}}
@@ -132,48 +134,49 @@ set foo "abc"
Using glob matching and the fall-through body is an alternative to
writing regular expressions with alternations, as can be seen here
(this returns \fI1\fR):
+.PP
.CS
\fBswitch\fR \-glob aaab {
- a*b \-
- b {expr {1}}
- a* {expr {2}}
- default {expr {3}}
+ a*b \-
+ b {expr {1}}
+ a* {expr {2}}
+ default {expr {3}}
}
.CE
.PP
Whenever nothing matches, the \fBdefault\fR clause (which must be
last) is taken. This example has a result of \fI3\fR:
+.PP
.CS
\fBswitch\fR xyz {
- a \-
- b {
- # Correct Comment Placement
- expr {1}
- }
- c {
- expr {2}
- }
- default {
- expr {3}
- }
+ a \-
+ b {
+ # Correct Comment Placement
+ expr {1}
+ }
+ c {
+ expr {2}
+ }
+ default {
+ expr {3}
+ }
}
.CE
.PP
-.VS 8.5
When matching against regular expressions, information about what
exactly matched is easily obtained using the \fB\-matchvar\fR option:
+.PP
.CS
\fBswitch\fR \-regexp \-matchvar foo \-\- $bar {
- a(b*)c {
- puts "Found [string length [lindex $foo 1]] 'b's"
- }
- d(e*)f(g*)h {
- puts "Found [string length [lindex $foo 1]] 'e's and\e
- [string length [lindex $foo 2]] 'g's"
- }
+ a(b*)c {
+ puts "Found [string length [lindex $foo 1]] 'b's"
+ }
+ d(e*)f(g*)h {
+ puts "Found [string length [lindex $foo 1]] 'e's and\e
+ [string length [lindex $foo 2]] 'g's"
+ }
}
.CE
-.VE 8.5
.SH "SEE ALSO"
for(n), if(n), regexp(n)
.SH KEYWORDS
diff --git a/doc/tailcall.n b/doc/tailcall.n
new file mode 100644
index 0000000..6a88aca
--- /dev/null
+++ b/doc/tailcall.n
@@ -0,0 +1,69 @@
+'\"
+'\" Copyright (c) 1993 The Regents of the University of California.
+'\" Copyright (c) 1994-1996 Sun Microsystems, Inc.
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH tailcall n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+tailcall \- Replace the current procedure with another command
+.SH SYNOPSIS
+\fBtailcall \fIcommand\fR ?\fIarg ...\fR?
+.BE
+.SH DESCRIPTION
+.PP
+The \fBtailcall\fR command replaces the currently executing procedure, lambda
+application, or method with another command. The \fIcommand\fR, which will
+have \fIarg ...\fR passed as arguments if they are supplied, will be looked up
+in the current namespace context, not in the caller's. Apart from that
+difference in resolution, it is equivalent to:
+.PP
+.CS
+return [uplevel 1 [list \fIcommand\fR ?\fIarg ...\fR?]]
+.CE
+.PP
+This command may not be invoked from within an \fBuplevel\fR into a procedure
+or inside a \fBcatch\fR inside a procedure or lambda.
+'\" TODO: sort out the mess with the [try] command!
+.SH EXAMPLE
+.PP
+Compute the factorial of a number.
+.PP
+.CS
+proc factorial {n {accum 1}} {
+ if {$n < 2} {
+ return $accum
+ }
+ \fBtailcall\fR factorial [expr {$n - 1}] [expr {$accum * $n}]
+}
+.CE
+.PP
+Print the elements of a list with alternating lines having different
+indentations.
+.PP
+.CS
+proc printList {theList} {
+ if {[llength $theList]} {
+ puts "> [lindex $theList 0]"
+ \fBtailcall\fR printList2 [lrange $theList 1 end]
+ }
+}
+proc printList2 {theList} {
+ if {[llength $theList]} {
+ puts "< [lindex $theList 0]"
+ \fBtailcall\fR printList [lrange $theList 1 end]
+ }
+}
+.CE
+.SH "SEE ALSO"
+apply(n), proc(n), uplevel(n)
+.SH KEYWORDS
+call, recursion, tail recursion
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/tclsh.1 b/doc/tclsh.1
index d9fe95e..dfc2635 100644
--- a/doc/tclsh.1
+++ b/doc/tclsh.1
@@ -12,9 +12,8 @@
.SH NAME
tclsh \- Simple shell containing Tcl interpreter
.SH SYNOPSIS
-\fBtclsh\fR ?-encoding \fIname\fR? ?\fIfileName arg arg ...\fR?
+\fBtclsh\fR ?\fB\-encoding \fIname\fR? ?\fIfileName arg arg ...\fR?
.BE
-
.SH DESCRIPTION
.PP
\fBTclsh\fR is a shell-like application that reads Tcl commands
@@ -28,15 +27,11 @@ If there exists a file \fB.tclshrc\fR (or \fBtclshrc.tcl\fR on
the Windows platforms) in the home directory of
the user, interactive \fBtclsh\fR evaluates the file as a Tcl script
just before reading the first command from standard input.
-
.SH "SCRIPT FILES"
.PP
-.VS 8.5
If \fBtclsh\fR is invoked with arguments then the first few arguments
specify the name of a script file, and, optionally, the encoding of
-the text data stored in that script file.
-.VE 8.5
-Any additional arguments
+the text data stored in that script file. Any additional arguments
are made available to the script as variables (see below).
Instead of reading commands from standard input \fBtclsh\fR will
read Tcl commands from the named file; \fBtclsh\fR will exit
@@ -58,9 +53,11 @@ of a script file is presented on the \fBtclsh\fR command
line, but the script file can always \fBsource\fR it if desired.
.PP
If you create a Tcl script in a file whose first line is
+.PP
.CS
\fB#!/usr/local/bin/tclsh\fR
.CE
+.PP
then you can invoke the script file directly from your shell if
you mark the file as executable.
This assumes that \fBtclsh\fR has been installed in the default
@@ -72,11 +69,13 @@ executable can be accessed with a short file name.
.PP
An even better approach is to start your script files with the
following three lines:
+.PP
.CS
\fB#!/bin/sh
# the next line restarts using tclsh \e
exec tclsh "$0" ${1+"$@"}\fR
.CE
+.PP
This approach has three advantages over the approach in the previous
paragraph. First, the location of the \fBtclsh\fR binary does not have
to be hard-wired into the script: it can be anywhere in your shell
@@ -101,34 +100,38 @@ its version number as part of the name. This has the advantage of
allowing multiple versions of Tcl to exist on the same system at once,
but also the disadvantage of making it harder to write scripts that
start up uniformly across different versions of Tcl.
-
.SH "VARIABLES"
.PP
-\fBTclsh\fR sets the following Tcl variables:
+\fBTclsh\fR sets the following global Tcl variables in addition to those
+created by the Tcl library itself (such as \fBenv\fR, which maps
+environment variables such as \fBPATH\fR into Tcl):
.TP 15
\fBargc\fR
+.
Contains a count of the number of \fIarg\fR arguments (0 if none),
not including the name of the script file.
.TP 15
\fBargv\fR
+.
Contains a Tcl list whose elements are the \fIarg\fR arguments,
in order, or an empty string if there are no \fIarg\fR arguments.
.TP 15
\fBargv0\fR
+.
Contains \fIfileName\fR if it was specified.
Otherwise, contains the name by which \fBtclsh\fR was invoked.
.TP 15
\fBtcl_interactive\fR
+.
Contains 1 if \fBtclsh\fR is running interactively (no
\fIfileName\fR was specified and standard input is a terminal-like
device), 0 otherwise.
-
.SH PROMPTS
.PP
When \fBtclsh\fR is invoked interactively it normally prompts for each
command with
.QW "\fB% \fR" .
-You can change the prompt by setting the
+You can change the prompt by setting the global
variables \fBtcl_prompt1\fR and \fBtcl_prompt2\fR. If variable
\fBtcl_prompt1\fR exists then it must consist of a Tcl script
to output a prompt; instead of outputting a prompt \fBtclsh\fR
@@ -137,13 +140,10 @@ The variable \fBtcl_prompt2\fR is used in a similar way when
a newline is typed but the current command is not yet complete;
if \fBtcl_prompt2\fR is not set then no prompt is output for
incomplete commands.
-
.SH "STANDARD CHANNELS"
.PP
See \fBTcl_StandardChannels\fR for more explanations.
-
.SH "SEE ALSO"
-encoding(n), fconfigure(n), tclvars(n)
-
+auto_path(n), encoding(n), env(n), fconfigure(n)
.SH KEYWORDS
-argument, interpreter, prompt, script file, shell
+application, argument, interpreter, prompt, script file, shell
diff --git a/doc/tcltest.n b/doc/tcltest.n
index 9ac8f66..731bed7 100644
--- a/doc/tcltest.n
+++ b/doc/tcltest.n
@@ -16,52 +16,52 @@
tcltest \- Test harness support code and utilities
.SH SYNOPSIS
.nf
-\fBpackage require tcltest ?2.3?\fR
-.sp
-\fBtcltest::test \fIname description ?option value ...?\fR
-\fBtcltest::test \fIname description ?constraints? body result\fR
-.sp
+\fBpackage require tcltest\fR ?\fB2.3\fR?
+
+\fBtcltest::test \fIname description\fR ?\fI\-option value ...\fR?
+\fBtcltest::test \fIname description\fR ?\fIconstraints\fR? \fIbody result\fR
+
\fBtcltest::loadTestedCommands\fR
-\fBtcltest::makeDirectory \fIname ?directory?\fR
-\fBtcltest::removeDirectory \fIname ?directory?\fR
-\fBtcltest::makeFile \fIcontents name ?directory?\fR
-\fBtcltest::removeFile \fIname ?directory?\fR
-\fBtcltest::viewFile \fIname ?directory?\fR
-\fBtcltest::cleanupTests \fI?runningMultipleTests?\fR
+\fBtcltest::makeDirectory \fIname\fR ?\fIdirectory\fR?
+\fBtcltest::removeDirectory \fIname\fR ?\fIdirectory\fR?
+\fBtcltest::makeFile \fIcontents name\fR ?\fIdirectory\fR?
+\fBtcltest::removeFile \fIname\fR ?\fIdirectory\fR?
+\fBtcltest::viewFile \fIname\fR ?\fIdirectory\fR?
+\fBtcltest::cleanupTests \fR?\fIrunningMultipleTests\fR?
\fBtcltest::runAllTests\fR
-.sp
+
\fBtcltest::configure\fR
-\fBtcltest::configure \fIoption\fR
-\fBtcltest::configure \fIoption value ?option value ...?\fR
+\fBtcltest::configure \fI\-option\fR
+\fBtcltest::configure \fI\-option value\fR ?\fI\-option value ...\fR?
\fBtcltest::customMatch \fImode command\fR
-\fBtcltest::testConstraint \fIconstraint ?value?\fR
-\fBtcltest::outputChannel \fI?channelID?\fR
-\fBtcltest::errorChannel \fI?channelID?\fR
-\fBtcltest::interpreter \fI?interp?\fR
-.sp
-\fBtcltest::debug \fI?level?\fR
-\fBtcltest::errorFile \fI?filename?\fR
-\fBtcltest::limitConstraints \fI?boolean?\fR
-\fBtcltest::loadFile \fI?filename?\fR
-\fBtcltest::loadScript \fI?script?\fR
-\fBtcltest::match \fI?patternList?\fR
-\fBtcltest::matchDirectories \fI?patternList?\fR
-\fBtcltest::matchFiles \fI?patternList?\fR
-\fBtcltest::outputFile \fI?filename?\fR
-\fBtcltest::preserveCore \fI?level?\fR
-\fBtcltest::singleProcess \fI?boolean?\fR
-\fBtcltest::skip \fI?patternList?\fR
-\fBtcltest::skipDirectories \fI?patternList?\fR
-\fBtcltest::skipFiles \fI?patternList?\fR
-\fBtcltest::temporaryDirectory \fI?directory?\fR
-\fBtcltest::testsDirectory \fI?directory?\fR
-\fBtcltest::verbose \fI?level?\fR
-.sp
+\fBtcltest::testConstraint \fIconstraint\fR ?\fIvalue\fR?
+\fBtcltest::outputChannel \fR?\fIchannelID\fR?
+\fBtcltest::errorChannel \fR?\fIchannelID\fR?
+\fBtcltest::interpreter \fR?\fIinterp\fR?
+
+\fBtcltest::debug \fR?\fIlevel\fR?
+\fBtcltest::errorFile \fR?\fIfilename\fR?
+\fBtcltest::limitConstraints \fR?\fIboolean\fR?
+\fBtcltest::loadFile \fR?\fIfilename\fR?
+\fBtcltest::loadScript \fR?\fIscript\fR?
+\fBtcltest::match \fR?\fIpatternList\fR?
+\fBtcltest::matchDirectories \fR?\fIpatternList\fR?
+\fBtcltest::matchFiles \fR?\fIpatternList\fR?
+\fBtcltest::outputFile \fR?\fIfilename\fR?
+\fBtcltest::preserveCore \fR?\fIlevel\fR?
+\fBtcltest::singleProcess \fR?\fIboolean\fR?
+\fBtcltest::skip \fR?\fIpatternList\fR?
+\fBtcltest::skipDirectories \fR?\fIpatternList\fR?
+\fBtcltest::skipFiles \fR?\fIpatternList\fR?
+\fBtcltest::temporaryDirectory \fR?\fIdirectory\fR?
+\fBtcltest::testsDirectory \fR?\fIdirectory\fR?
+\fBtcltest::verbose \fR?\fIlevel\fR?
+
\fBtcltest::test \fIname description optionList\fR
\fBtcltest::bytestring \fIstring\fR
\fBtcltest::normalizeMsg \fImsg\fR
\fBtcltest::normalizePath \fIpathVar\fR
-\fBtcltest::workingDirectory \fI?dir?\fR
+\fBtcltest::workingDirectory \fR?\fIdir\fR?
.fi
.BE
.SH DESCRIPTION
@@ -90,7 +90,8 @@ of how to use the commands of \fBtcltest\fR to produce test suites
for your Tcl-enabled code.
.SH COMMANDS
.TP
-\fBtest\fR \fIname description ?option value ...?\fR
+\fBtest\fR \fIname description\fR ?\fI\-option value ...\fR?
+.
Defines and possibly runs a test with the name \fIname\fR and
description \fIdescription\fR. The name and description of a test
are used in messages reported by \fBtest\fR during the
@@ -103,7 +104,8 @@ See \fBTESTS\fR below for a complete description of the valid
options and how they define a test. The \fBtest\fR command
returns an empty string.
.TP
-\fBtest\fR \fIname description ?constraints? body result\fR
+\fBtest\fR \fIname description\fR ?\fIconstraints\fR? \fIbody result\fR
+.
This form of \fBtest\fR is provided to support test suites written
for version 1 of the \fBtcltest\fR package, and also a simpler
interface for a common usage. It is the same as
@@ -115,6 +117,7 @@ all \fIoption\fRs begin with
.QW \- .
.TP
\fBloadTestedCommands\fR
+.
Evaluates in the caller's context the script specified by
\fBconfigure \-load\fR or \fBconfigure \-loadfile\fR.
Returns the result of that script evaluation, including any error
@@ -122,7 +125,8 @@ raised by the script. Use this command and the related
configuration options to provide the commands to be tested to
the interpreter running the test suite.
.TP
-\fBmakeFile\fR \fIcontents name ?directory?\fR
+\fBmakeFile\fR \fIcontents name\fR ?\fIdirectory\fR?
+.
Creates a file named \fIname\fR relative to
directory \fIdirectory\fR and write \fIcontents\fR
to that file using the encoding \fBencoding system\fR.
@@ -137,14 +141,16 @@ of \fBcleanupTests\fR, unless it is removed by
Returns the full path of the file created. Use this command
to create any text file required by a test with contents as needed.
.TP
-\fBremoveFile\fR \fIname ?directory?\fR
+\fBremoveFile\fR \fIname\fR ?\fIdirectory\fR?
+.
Forces the file referenced by \fIname\fR to be removed. This file name
should be relative to \fIdirectory\fR. The default value of
\fIdirectory\fR is the directory \fBconfigure \-tmpdir\fR.
Returns an empty string. Use this command to delete files
created by \fBmakeFile\fR.
.TP
-\fBmakeDirectory\fR \fIname ?directory?\fR
+\fBmakeDirectory\fR \fIname\fR ?\fIdirectory\fR?
+.
Creates a directory named \fIname\fR relative to directory \fIdirectory\fR.
The directory will be removed by the next evaluation of \fBcleanupTests\fR,
unless it is removed by \fBremoveDirectory\fR first.
@@ -153,7 +159,8 @@ The default value of \fIdirectory\fR is the directory
Returns the full path of the directory created. Use this command
to create any directories that are required to exist by a test.
.TP
-\fBremoveDirectory\fR \fIname ?directory?\fR
+\fBremoveDirectory\fR \fIname\fR ?\fIdirectory\fR?
+.
Forces the directory referenced by \fIname\fR to be removed. This
directory should be relative to \fIdirectory\fR.
The default value of \fIdirectory\fR is the directory
@@ -161,7 +168,8 @@ The default value of \fIdirectory\fR is the directory
Returns an empty string. Use this command to delete any directories
created by \fBmakeDirectory\fR.
.TP
-\fBviewFile\fR \fIfile ?directory?\fR
+\fBviewFile\fR \fIfile\fR ?\fIdirectory\fR?
+.
Returns the contents of \fIfile\fR, except for any
final newline, just as \fBread \-nonewline\fR would return.
This file name should be relative to \fIdirectory\fR.
@@ -174,6 +182,7 @@ the system encoding, so its usefulness is limited to text
files.
.TP
\fBcleanupTests\fR
+.
Intended to clean up and summarize after several tests have been
run. Typically called once per test file, at the end of the file
after all tests have been completed. For best effectiveness, be
@@ -188,28 +197,32 @@ in the directory \fBconfigure \-tmpdir\fR created since
the last \fBcleanupTests\fR, but not created by
\fBmakeFile\fR or \fBmakeDirectory\fR are printed
to \fBoutputChannel\fR. This command also restores the original
-shell environment, as described by the \fB::env\fR
+shell environment, as described by the global \fBenv\fR
array. Returns an empty string.
.RE
.TP
\fBrunAllTests\fR
+.
This is a master command meant to run an entire suite of tests,
spanning multiple files and/or directories, as governed by
the configurable options of \fBtcltest\fR. See \fBRUNNING ALL TESTS\fR
below for a complete description of the many variations possible
with \fBrunAllTests\fR.
-.SH "CONFIGURATION COMMANDS"
+.SS "CONFIGURATION COMMANDS"
.TP
\fBconfigure\fR
+.
Returns the list of configurable options supported by \fBtcltest\fR.
See \fBCONFIGURABLE OPTIONS\fR below for the full list of options,
their valid values, and their effect on \fBtcltest\fR operations.
.TP
\fBconfigure \fIoption\fR
+.
Returns the current value of the supported configurable option \fIoption\fR.
Raises an error if \fIoption\fR is not a supported configurable option.
.TP
-\fBconfigure \fIoption value ?option value ...?\fR
+\fBconfigure \fIoption value\fR ?\fI\-option value ...\fR?
+.
Sets the value of each configurable option \fIoption\fR to the
corresponding value \fIvalue\fR, in order. Raises an error if
an \fIoption\fR is not a supported configurable option, or if
@@ -220,13 +233,14 @@ arguments are not processed.
.RS
.PP
If the environment variable \fB::env(TCLTEST_OPTIONS)\fR exists when
-the \fBtcltest\fR package is loaded (by \fBpackage require tcltest\fR)
+the \fBtcltest\fR package is loaded (by \fBpackage require\fR \fBtcltest\fR)
then its value is taken as a list of arguments to pass to \fBconfigure\fR.
This allows the default values of the configuration options to be
set by the environment.
.RE
.TP
\fBcustomMatch \fImode script\fR
+.
Registers \fImode\fR as a new legal value of the \fB\-match\fR option
to \fBtest\fR. When the \fB\-match \fImode\fR option is
passed to \fBtest\fR, the script \fIscript\fR will be evaluated
@@ -239,81 +253,119 @@ The completed script is expected to return a boolean value indicating
whether or not the results match. The built-in matching modes of
\fBtest\fR are \fBexact\fR, \fBglob\fR, and \fBregexp\fR.
.TP
-\fBtestConstraint \fIconstraint ?boolean?\fR
+\fBtestConstraint \fIconstraint\fR ?\fIboolean\fR?
+.
Sets or returns the boolean value associated with the named \fIconstraint\fR.
See \fBTEST CONSTRAINTS\fR below for more information.
.TP
-\fBinterpreter\fR \fI?executableName?\fR
+\fBinterpreter\fR ?\fIexecutableName\fR?
+.
Sets or returns the name of the executable to be \fBexec\fRed by
\fBrunAllTests\fR to run each test file when
\fBconfigure \-singleproc\fR is false.
The default value for \fBinterpreter\fR is the name of the
currently running program as returned by \fBinfo nameofexecutable\fR.
.TP
-\fBoutputChannel\fR \fI?channelID?\fR
-Sets or returns the output channel ID. This defaults to stdout.
+\fBoutputChannel\fR ?\fIchannelID\fR?
+.
+Sets or returns the output channel ID. This defaults to \fBstdout\fR.
Any test that prints test related output should send
that output to \fBoutputChannel\fR rather than letting
-that output default to stdout.
+that output default to \fBstdout\fR.
.TP
-\fBerrorChannel\fR \fI?channelID?\fR
-Sets or returns the error channel ID. This defaults to stderr.
+\fBerrorChannel\fR ?\fIchannelID\fR?
+.
+Sets or returns the error channel ID. This defaults to \fBstderr\fR.
Any test that prints error messages should send
that output to \fBerrorChannel\fR rather than printing
-directly to stderr.
-.SH "SHORTCUT COMMANDS"
-.TP
-\fBdebug \fI?level?\fR
-Same as \fBconfigure \-debug \fI?level?\fR.
-.TP
-\fBerrorFile \fI?filename?\fR
-Same as \fBconfigure \-errfile \fI?filename?\fR.
-.TP
-\fBlimitConstraints \fI?boolean?\fR
-Same as \fBconfigure \-limitconstraints \fI?boolean?\fR.
-.TP
-\fBloadFile \fI?filename?\fR
-Same as \fBconfigure \-loadfile \fI?filename?\fR.
-.TP
-\fBloadScript \fI?script?\fR
-Same as \fBconfigure \-load \fI?script?\fR.
-.TP
-\fBmatch \fI?patternList?\fR
-Same as \fBconfigure \-match \fI?patternList?\fR.
-.TP
-\fBmatchDirectories \fI?patternList?\fR
-Same as \fBconfigure \-relateddir \fI?patternList?\fR.
-.TP
-\fBmatchFiles \fI?patternList?\fR
-Same as \fBconfigure \-file \fI?patternList?\fR.
-.TP
-\fBoutputFile \fI?filename?\fR
-Same as \fBconfigure \-outfile \fI?filename?\fR.
-.TP
-\fBpreserveCore \fI?level?\fR
-Same as \fBconfigure \-preservecore \fI?level?\fR.
-.TP
-\fBsingleProcess \fI?boolean?\fR
-Same as \fBconfigure \-singleproc \fI?boolean?\fR.
-.TP
-\fBskip \fI?patternList?\fR
-Same as \fBconfigure \-skip \fI?patternList?\fR.
-.TP
-\fBskipDirectories \fI?patternList?\fR
-Same as \fBconfigure \-asidefromdir \fI?patternList?\fR.
-.TP
-\fBskipFiles \fI?patternList?\fR
-Same as \fBconfigure \-notfile \fI?patternList?\fR.
-.TP
-\fBtemporaryDirectory \fI?directory?\fR
-Same as \fBconfigure \-tmpdir \fI?directory?\fR.
-.TP
-\fBtestsDirectory \fI?directory?\fR
-Same as \fBconfigure \-testdir \fI?directory?\fR.
-.TP
-\fBverbose \fI?level?\fR
-Same as \fBconfigure \-verbose \fI?level?\fR.
-.SH "OTHER COMMANDS"
+directly to \fBstderr\fR.
+.SS "SHORTCUT CONFIGURATION COMMANDS"
+.TP
+\fBdebug\fR ?\fIlevel\fR?
+.
+Same as
+.QW "\fBconfigure \-debug\fR ?\fIlevel\fR?" .
+.TP
+\fBerrorFile\fR ?\fIfilename\fR?
+.
+Same as
+.QW "\fBconfigure \-errfile\fR ?\fIfilename\fR?" .
+.TP
+\fBlimitConstraints\fR ?\fIboolean\fR?
+.
+Same as
+.QW "\fBconfigure \-limitconstraints\fR ?\fIboolean\fR?" .
+.TP
+\fBloadFile\fR ?\fIfilename\fR?
+.
+Same as
+.QW "\fBconfigure \-loadfile\fR ?\fIfilename\fR?" .
+.TP
+\fBloadScript\fR ?\fIscript\fR?
+.
+Same as
+.QW "\fBconfigure \-load\fR ?\fIscript\fR?" .
+.TP
+\fBmatch\fR ?\fIpatternList\fR?
+.
+Same as
+.QW "\fBconfigure \-match\fR ?\fIpatternList\fR?" .
+.TP
+\fBmatchDirectories\fR ?\fIpatternList\fR?
+.
+Same as
+.QW "\fBconfigure \-relateddir\fR ?\fIpatternList\fR?" .
+.TP
+\fBmatchFiles\fR ?\fIpatternList\fR?
+.
+Same as
+.QW "\fBconfigure \-file\fR ?\fIpatternList\fR?" .
+.TP
+\fBoutputFile\fR ?\fIfilename\fR?
+.
+Same as
+.QW "\fBconfigure \-outfile\fR ?\fIfilename\fR?" .
+.TP
+\fBpreserveCore\fR ?\fIlevel\fR?
+.
+Same as
+.QW "\fBconfigure \-preservecore\fR ?\fIlevel\fR?" .
+.TP
+\fBsingleProcess\fR ?\fIboolean\fR?
+.
+Same as
+.QW "\fBconfigure \-singleproc\fR ?\fIboolean\fR?" .
+.TP
+\fBskip\fR ?\fIpatternList\fR?
+.
+Same as
+.QW "\fBconfigure \-skip\fR ?\fIpatternList\fR?" .
+.TP
+\fBskipDirectories\fR ?\fIpatternList\fR?
+.
+Same as
+.QW "\fBconfigure \-asidefromdir\fR ?\fIpatternList\fR?" .
+.TP
+\fBskipFiles\fR ?\fIpatternList\fR?
+.
+Same as
+.QW "\fBconfigure \-notfile\fR ?\fIpatternList\fR?" .
+.TP
+\fBtemporaryDirectory\fR ?\fIdirectory\fR?
+.
+Same as
+.QW "\fBconfigure \-tmpdir\fR ?\fIdirectory\fR?" .
+.TP
+\fBtestsDirectory\fR ?\fIdirectory\fR?
+.
+Same as
+.QW "\fBconfigure \-testdir\fR ?\fIdirectory\fR?" .
+.TP
+\fBverbose\fR ?\fIlevel\fR?
+.
+Same as
+.QW "\fBconfigure \-verbose\fR ?\fIlevel\fR?" .
+.SS "OTHER COMMANDS"
.PP
The remaining commands provided by \fBtcltest\fR have better
alternatives provided by \fBtcltest\fR or \fBTcl\fR itself. They
@@ -321,6 +373,7 @@ are retained to support existing test suites, but should be avoided
in new code.
.TP
\fBtest\fR \fIname description optionList\fR
+.
This form of \fBtest\fR was provided to enable passing many
options spanning several lines to \fBtest\fR as a single
argument quoted by braces, rather than needing to backslash quote
@@ -344,13 +397,15 @@ the source code of \fBtcltest\fR if you want to know the substitution
details, or just enclose the third through last argument
to \fBtest\fR in braces and hope for the best.
.TP
-\fBworkingDirectory\fR \fI?directoryName?\fR
+\fBworkingDirectory\fR ?\fIdirectoryName\fR?
+.
Sets or returns the current working directory when the test suite is
running. The default value for workingDirectory is the directory in
which the test suite was launched. The Tcl commands \fBcd\fR and
\fBpwd\fR are sufficient replacements.
.TP
-\fBnormalizeMsg\fR \fImsg\fR
+\fBnormalizeMsg \fImsg\fR
+.
Returns the result of removing the
.QW extra
newlines from \fImsg\fR, where
@@ -360,20 +415,23 @@ processing commands to modify strings as you wish, and
\fBcustomMatch\fR allows flexible matching of actual and expected
results.
.TP
-\fBnormalizePath\fR \fIpathVar\fR
+\fBnormalizePath \fIpathVar\fR
+.
Resolves symlinks in a path, thus creating a path without internal
redirection. It is assumed that \fIpathVar\fR is absolute.
\fIpathVar\fR is modified in place. The Tcl command \fBfile normalize\fR
is a sufficient replacement.
.TP
-\fBbytestring\fR \fIstring\fR
+\fBbytestring \fIstring\fR
+.
Construct a string that consists of the requested sequence of bytes,
as opposed to a string of properly formed UTF-8 characters using the
value supplied in \fIstring\fR. This allows the tester to create
denormalized or improperly formed strings to pass to C procedures that
are supposed to accept strings with embedded NULL types and confirm
that a string result has a certain pattern of bytes. This is
-exactly equivalent to the Tcl command \fBencoding convertfrom identity\fR.
+exactly equivalent to the Tcl command \fBencoding convertfrom\fR
+\fBidentity\fR.
.SH TESTS
.PP
The \fBtest\fR command is the heart of the \fBtcltest\fR package.
@@ -388,15 +446,15 @@ The valid options for \fBtest\fR are summarized:
.PP
.CS
\fBtest\fR \fIname\fR \fIdescription\fR
- ?-constraints \fIkeywordList|expression\fR?
- ?-setup \fIsetupScript\fR?
- ?-body \fItestScript\fR?
- ?-cleanup \fIcleanupScript\fR?
- ?-result \fIexpectedAnswer\fR?
- ?-output \fIexpectedOutput\fR?
- ?-errorOutput \fIexpectedError\fR?
- ?-returnCodes \fIcodeList\fR?
- ?-match \fImode\fR?
+ ?\fB\-constraints \fIkeywordList|expression\fR?
+ ?\fB\-setup \fIsetupScript\fR?
+ ?\fB\-body \fItestScript\fR?
+ ?\fB\-cleanup \fIcleanupScript\fR?
+ ?\fB\-result \fIexpectedAnswer\fR?
+ ?\fB\-output \fIexpectedOutput\fR?
+ ?\fB\-errorOutput \fIexpectedError\fR?
+ ?\fB\-returnCodes \fIcodeList\fR?
+ ?\fB\-match \fImode\fR?
.CE
.PP
The \fIname\fR may be any string. It is conventional to choose
@@ -432,7 +490,8 @@ a bug, include the bug ID in the description.
.PP
Valid attributes and associated values are:
.TP
-\fB\-constraints \fIkeywordList|expression\fR
+\fB\-constraints \fIkeywordList\fR|\fIexpression\fR
+.
The optional \fB\-constraints\fR attribute can be list of one or more
keywords or an expression. If the \fB\-constraints\fR value is a list of
keywords, each of these keywords should be the name of a constraint
@@ -454,24 +513,30 @@ See \fBTEST CONSTRAINTS\fR below for a list of built-in constraints
and information on how to add your own constraints.
.TP
\fB\-setup \fIscript\fR
+.
The optional \fB\-setup\fR attribute indicates a \fIscript\fR that will be run
before the script indicated by the \fB\-body\fR attribute. If evaluation
of \fIscript\fR raises an error, the test will fail. The default value
is an empty script.
.TP
\fB\-body \fIscript\fR
+.
The \fB\-body\fR attribute indicates the \fIscript\fR to run to carry out the
-test. It must return a result that can be checked for correctness.
-If evaluation of \fIscript\fR raises an error, the test will fail.
+test, which must return a result that can be checked for correctness.
+If evaluation of \fIscript\fR raises an error, the test will fail
+(unless the \fB\-returnCodes\fR option is used to state that an error
+is expected).
The default value is an empty script.
.TP
\fB\-cleanup \fIscript\fR
+.
The optional \fB\-cleanup\fR attribute indicates a \fIscript\fR that will be
run after the script indicated by the \fB\-body\fR attribute.
If evaluation of \fIscript\fR raises an error, the test will fail.
The default value is an empty script.
.TP
\fB\-match \fImode\fR
+.
The \fB\-match\fR attribute determines how expected answers supplied by
\fB\-result\fR, \fB\-output\fR, and \fB\-errorOutput\fR are compared. Valid
values for \fImode\fR are \fBregexp\fR, \fBglob\fR, \fBexact\fR, and
@@ -479,27 +544,31 @@ any value registered by a prior call to \fBcustomMatch\fR. The default
value is \fBexact\fR.
.TP
\fB\-result \fIexpectedValue\fR
+.
The \fB\-result\fR attribute supplies the \fIexpectedValue\fR against which
the return value from script will be compared. The default value is
an empty string.
.TP
\fB\-output \fIexpectedValue\fR
+.
The \fB\-output\fR attribute supplies the \fIexpectedValue\fR against which
any output sent to \fBstdout\fR or \fBoutputChannel\fR during evaluation
of the script(s) will be compared. Note that only output printed using
-\fB::puts\fR is used for comparison. If \fB\-output\fR is not specified,
-output sent to \fBstdout\fR and \fBoutputChannel\fR is not processed for
-comparison.
+the global \fBputs\fR command is used for comparison. If \fB\-output\fR is
+not specified, output sent to \fBstdout\fR and \fBoutputChannel\fR is not
+processed for comparison.
.TP
\fB\-errorOutput \fIexpectedValue\fR
+.
The \fB\-errorOutput\fR attribute supplies the \fIexpectedValue\fR against
which any output sent to \fBstderr\fR or \fBerrorChannel\fR during
evaluation of the script(s) will be compared. Note that only output
-printed using \fB::puts\fR is used for comparison. If \fB\-errorOutput\fR
-is not specified, output sent to \fBstderr\fR and \fBerrorChannel\fR is
-not processed for comparison.
+printed using the global \fBputs\fR command is used for comparison. If
+\fB\-errorOutput\fR is not specified, output sent to \fBstderr\fR and
+\fBerrorChannel\fR is not processed for comparison.
.TP
\fB\-returnCodes \fIexpectedCodeList\fR
+.
The optional \fB\-returnCodes\fR attribute supplies \fIexpectedCodeList\fR,
a list of return codes that may be accepted from evaluation of the
\fB\-body\fR script. If evaluation of the \fB\-body\fR script returns
@@ -507,7 +576,7 @@ a code not in the \fIexpectedCodeList\fR, the test fails. All
return codes known to \fBreturn\fR, in both numeric and symbolic
form, including extended return codes, are acceptable elements in
the \fIexpectedCodeList\fR. Default value is
-.QW \fBok return\fR.
+.QW "\fBok return\fR" .
.PP
To pass, a test must successfully evaluate its \fB\-setup\fR, \fB\-body\fR,
and \fB\-cleanup\fR scripts. The return code of the \fB\-body\fR script and
@@ -524,12 +593,12 @@ In default operation, a successful test produces no output. The output
messages produced by \fBtest\fR are controlled by the
\fBconfigure \-verbose\fR option as described in \fBCONFIGURABLE OPTIONS\fR
below. Any output produced by the test scripts themselves should be
-produced using \fB::puts\fR to \fBoutputChannel\fR or
+produced using \fBputs\fR to \fBoutputChannel\fR or
\fBerrorChannel\fR, so that users of the test suite may
easily capture output with the \fBconfigure \-outfile\fR and
\fBconfigure \-errfile\fR options, and so that the \fB\-output\fR
and \fB\-errorOutput\fR attributes work properly.
-.SH "TEST CONSTRAINTS"
+.SS "TEST CONSTRAINTS"
.PP
Constraints are used to determine whether or not a test should be skipped.
Each constraint has a name, which may be any string, and a boolean
@@ -557,112 +626,141 @@ The following is a list of constraints pre-defined by the
\fBtcltest\fR package itself:
.TP
\fIsingleTestInterp\fR
-test can only be run if all test files are sourced into a single interpreter
+.
+This test can only be run if all test files are sourced into a single
+interpreter.
.TP
\fIunix\fR
-test can only be run on any Unix platform
+.
+This test can only be run on any Unix platform.
.TP
\fIwin\fR
-test can only be run on any Windows platform
+.
+This test can only be run on any Windows platform.
.TP
\fInt\fR
-test can only be run on any Windows NT platform
+.
+This test can only be run on any Windows NT platform.
.TP
\fI95\fR
-test can only be run on any Windows 95 platform
+.
+This test can only be run on any Windows 95 platform.
.TP
\fI98\fR
-test can only be run on any Windows 98 platform
+.
+This test can only be run on any Windows 98 platform.
.TP
\fImac\fR
-test can only be run on any Mac platform
+.
+This test can only be run on any Mac platform.
.TP
\fIunixOrWin\fR
-test can only be run on a Unix or Windows platform
+.
+This test can only be run on a Unix or Windows platform.
.TP
\fImacOrWin\fR
-test can only be run on a Mac or Windows platform
+.
+This test can only be run on a Mac or Windows platform.
.TP
\fImacOrUnix\fR
-test can only be run on a Mac or Unix platform
+.
+This test can only be run on a Mac or Unix platform.
.TP
\fItempNotWin\fR
-test can not be run on Windows. This flag is used to temporarily
+.
+This test can not be run on Windows. This flag is used to temporarily
disable a test.
.TP
\fItempNotMac\fR
-test can not be run on a Mac. This flag is used
+.
+This test can not be run on a Mac. This flag is used
to temporarily disable a test.
.TP
\fIunixCrash\fR
-test crashes if it is run on Unix. This flag is used to temporarily
+.
+This test crashes if it is run on Unix. This flag is used to temporarily
disable a test.
.TP
\fIwinCrash\fR
-test crashes if it is run on Windows. This flag is used to temporarily
+.
+This test crashes if it is run on Windows. This flag is used to temporarily
disable a test.
.TP
\fImacCrash\fR
-test crashes if it is run on a Mac. This flag is used to temporarily
+.
+This test crashes if it is run on a Mac. This flag is used to temporarily
disable a test.
.TP
\fIemptyTest\fR
-test is empty, and so not worth running, but it remains as a
+.
+This test is empty, and so not worth running, but it remains as a
place-holder for a test to be written in the future. This constraint
has value false to cause tests to be skipped unless the user specifies
otherwise.
.TP
\fIknownBug\fR
-test is known to fail and the bug is not yet fixed. This constraint
+.
+This test is known to fail and the bug is not yet fixed. This constraint
has value false to cause tests to be skipped unless the user specifies
otherwise.
.TP
\fInonPortable\fR
-test can only be run in some known development environment.
+.
+This test can only be run in some known development environment.
Some tests are inherently non-portable because they depend on things
like word length, file system configuration, window manager, etc.
This constraint has value false to cause tests to be skipped unless
the user specifies otherwise.
.TP
\fIuserInteraction\fR
-test requires interaction from the user. This constraint has
+.
+This test requires interaction from the user. This constraint has
value false to causes tests to be skipped unless the user specifies
otherwise.
.TP
\fIinteractive\fR
-test can only be run in if the interpreter is in interactive mode
+.
+This test can only be run in if the interpreter is in interactive mode
(when the global tcl_interactive variable is set to 1).
.TP
\fInonBlockFiles\fR
-test can only be run if platform supports setting files into
-nonblocking mode
+.
+This test can only be run if platform supports setting files into
+nonblocking mode.
.TP
\fIasyncPipeClose\fR
-test can only be run if platform supports async flush and async close
-on a pipe
+.
+This test can only be run if platform supports async flush and async close
+on a pipe.
.TP
\fIunixExecs\fR
-test can only be run if this machine has Unix-style commands
+.
+This test can only be run if this machine has Unix-style commands
\fBcat\fR, \fBecho\fR, \fBsh\fR, \fBwc\fR, \fBrm\fR, \fBsleep\fR,
-\fBfgrep\fR, \fBps\fR, \fBchmod\fR, and \fBmkdir\fR available
+\fBfgrep\fR, \fBps\fR, \fBchmod\fR, and \fBmkdir\fR available.
.TP
\fIhasIsoLocale\fR
-test can only be run if can switch to an ISO locale
+.
+This test can only be run if can switch to an ISO locale.
.TP
\fIroot\fR
-test can only run if Unix user is root
+.
+This test can only run if Unix user is root.
.TP
\fInotRoot\fR
-test can only run if Unix user is not root
+.
+This test can only run if Unix user is not root.
.TP
\fIeformat\fR
-test can only run if app has a working version of sprintf with respect
+.
+This test can only run if app has a working version of sprintf with respect
to the
.QW e
format of floating-point numbers.
.TP
\fIstdio\fR
-test can only be run if \fBinterpreter\fR can be \fBopen\fRed
+.
+This test can only be run if \fBinterpreter\fR can be \fBopen\fRed
as a pipe.
.PP
The alternative mode of constraint control is enabled by setting
@@ -685,7 +783,7 @@ up a configuration with
.PP
to run exactly those tests that exercise known bugs, and discover
whether any of them pass, indicating the bug had been fixed.
-.SH "RUNNING ALL TESTS"
+.SS "RUNNING ALL TESTS"
.PP
The single command \fBrunAllTests\fR is evaluated to run an entire
test suite, spanning many files and directories. The configuration
@@ -748,17 +846,19 @@ The \fBconfigure\fR command is used to set and query the configurable
options of \fBtcltest\fR. The valid options are:
.TP
\fB\-singleproc \fIboolean\fR
+.
Controls whether or not \fBrunAllTests\fR spawns a child process for
each test file. No spawning when \fIboolean\fR is true. Default
value is false.
.TP
\fB\-debug \fIlevel\fR
+.
Sets the debug level to \fIlevel\fR, an integer value indicating how
-much debugging information should be printed to stdout. Note that
-debug messages always go to stdout, independent of the value of
+much debugging information should be printed to \fBstdout\fR. Note that
+debug messages always go to \fBstdout\fR, independent of the value of
\fBconfigure \-outfile\fR. Default value is 0. Levels are defined as:
.RS
-.IP 0
+.IP 0 4
Do not display any debug information.
.IP 1
Display information regarding whether a test is skipped because it
@@ -769,41 +869,45 @@ print warnings about possible lack of cleanup or balance in test files.
Also print warnings about any re-use of test names.
.IP 2
Display the flag array parsed by the command line processor, the
-contents of the ::env array, and all user-defined variables that exist
-in the current namespace as they are used.
+contents of the global \fBenv\fR array, and all user-defined variables
+that exist in the current namespace as they are used.
.IP 3
Display information regarding what individual procs in the test
harness are doing.
.RE
.TP
\fB\-verbose \fIlevel\fR
+.
Sets the type of output verbosity desired to \fIlevel\fR,
a list of zero or more of the elements \fBbody\fR, \fBpass\fR,
\fBskip\fR, \fBstart\fR, \fBerror\fR and \fBline\fR. Default value
-is \fB{body error}\fR.
+is
+.QW "\fBbody error\fR" .
Levels are defined as:
.RS
-.IP "body (b)"
+.IP "body (\fBb\fR)"
Display the body of failed tests
-.IP "pass (p)"
+.IP "pass (\fBp\fR)"
Print output when a test passes
-.IP "skip (s)"
+.IP "skip (\fBs\fR)"
Print output when a test is skipped
-.IP "start (t)"
+.IP "start (\fBt\fR)"
Print output whenever a test starts
-.IP "error (e)"
+.IP "error (\fBe\fR)"
Print errorInfo and errorCode, if they exist, when a test return code
does not match its expected return code
-.IP "line (l)"
+.IP "line (\fBl\fR)"
Print source file line information of failed tests
-.RE
+.PP
The single letter abbreviations noted above are also recognized
so that
.QW "\fBconfigure \-verbose pt\fR"
is the same as
.QW "\fBconfigure \-verbose {pass start}\fR" .
+.RE
.TP
\fB\-preservecore \fIlevel\fR
+.
Sets the core preservation level to \fIlevel\fR. This level
determines how stringent checks for core files are. Default
value is 0. Levels are defined as:
@@ -820,16 +924,19 @@ copy of each core file produced in \fBconfigure \-tmpdir\fR.
.RE
.TP
\fB\-limitconstraints \fIboolean\fR
+.
Sets the mode by which \fBtest\fR honors constraints as described
in \fBTESTS\fR above. Default value is false.
.TP
\fB\-constraints \fIlist\fR
+.
Sets all the constraints in \fIlist\fR to true. Also used in
combination with \fBconfigure \-limitconstraints true\fR to control an
alternative constraint mode as described in \fBTESTS\fR above.
Default value is an empty list.
.TP
\fB\-tmpdir \fIdirectory\fR
+.
Sets the temporary directory to be used by \fBmakeFile\fR,
\fBmakeDirectory\fR, \fBviewFile\fR, \fBremoveFile\fR,
and \fBremoveDirectory\fR as the default directory where
@@ -837,55 +944,66 @@ temporary files and directories created by test files should
be created. Default value is \fBworkingDirectory\fR.
.TP
\fB\-testdir \fIdirectory\fR
+.
Sets the directory searched by \fBrunAllTests\fR for test files
and subdirectories. Default value is \fBworkingDirectory\fR.
.TP
\fB\-file \fIpatternList\fR
+.
Sets the list of patterns used by \fBrunAllTests\fR to determine
what test files to evaluate. Default value is
.QW \fB*.test\fR .
.TP
\fB\-notfile \fIpatternList\fR
+.
Sets the list of patterns used by \fBrunAllTests\fR to determine
what test files to skip. Default value is
.QW \fBl.*.test\fR ,
so that any SCCS lock files are skipped.
.TP
\fB\-relateddir \fIpatternList\fR
+.
Sets the list of patterns used by \fBrunAllTests\fR to determine
what subdirectories to search for an \fBall.tcl\fR file. Default
value is
.QW \fB*\fR .
.TP
\fB\-asidefromdir \fIpatternList\fR
+.
Sets the list of patterns used by \fBrunAllTests\fR to determine
what subdirectories to skip when searching for an \fBall.tcl\fR file.
Default value is an empty list.
.TP
\fB\-match \fIpatternList\fR
+.
Set the list of patterns used by \fBtest\fR to determine whether
a test should be run. Default value is
.QW \fB*\fR .
.TP
\fB\-skip \fIpatternList\fR
+.
Set the list of patterns used by \fBtest\fR to determine whether
a test should be skipped. Default value is an empty list.
.TP
\fB\-load \fIscript\fR
+.
Sets a script to be evaluated by \fBloadTestedCommands\fR.
Default value is an empty script.
.TP
\fB\-loadfile \fIfilename\fR
+.
Sets the filename from which to read a script to be evaluated
by \fBloadTestedCommands\fR. This is an alternative to
\fB\-load\fR. They cannot be used together.
.TP
\fB\-outfile \fIfilename\fR
+.
Sets the file to which all output produced by tcltest should be
written. A file named \fIfilename\fR will be \fBopen\fRed for writing,
and the resulting channel will be set as the value of \fBoutputChannel\fR.
.TP
\fB\-errfile \fIfilename\fR
+.
Sets the file to which all error output produced by tcltest
should be written. A file named \fIfilename\fR will be \fBopen\fRed
for writing, and the resulting channel will be set as the value
@@ -948,7 +1066,9 @@ Test with a constraint.
.PP
At the next higher layer of organization, several \fBtest\fR commands
are gathered together into a single test file. Test files should have
-names with the \fB.test\fR extension, because that is the default pattern
+names with the
+.QW \fB.test\fR
+extension, because that is the default pattern
used by \fBrunAllTests\fR to find test files. It is a good rule of
thumb to have one test file for each source code file of your project.
It is good practice to edit the test file and the source code file
@@ -976,7 +1096,7 @@ guard:
.PP
.CS
if $myRequirement {
- test badConditionalTest {} {
+ \fBtest\fR badConditionalTest {} {
#body
} result
}
@@ -1066,7 +1186,7 @@ to continue to support existing test suites written to the older
interface specifications, many of those deprecated commands and
variables still work as before. For example, in many circumstances,
\fBconfigure\fR will be automatically called shortly after
-\fBpackage require tcltest 2.1\fR succeeds with arguments
+\fBpackage require\fR \fBtcltest 2.1\fR succeeds with arguments
from the variable \fB::argv\fR. This is to support test suites
that depend on the old behavior that \fBtcltest\fR was automatically
configured from command line arguments. New test files should not
@@ -1076,6 +1196,12 @@ depend on this, but should explicitly include
eval \fB::tcltest::configure\fR $::argv
.CE
.PP
+or
+.PP
+.CS
+\fB::tcltest::configure\fR {*}$::argv
+.CE
+.PP
to establish a configuration from command line arguments.
.SH "KNOWN ISSUES"
There are two known issues related to nested evaluations of \fBtest\fR.
@@ -1117,12 +1243,15 @@ and
refer to tests that were run at the same test level as test level-1.1.
.PP
Implementation of output and error comparison in the test command
-depends on usage of ::puts in your application code. Output is
-intercepted by redefining the ::puts command while the defined test
+depends on usage of \fBputs\fR in your application code. Output is
+intercepted by redefining the global \fBputs\fR command while the defined test
script is being run. Errors thrown by C procedures or printed
-directly from C applications will not be caught by the test command.
+directly from C applications will not be caught by the \fBtest\fR command.
Therefore, usage of the \fB\-output\fR and \fB\-errorOutput\fR
options to \fBtest\fR is useful only for pure Tcl applications
-that use \fB::puts\fR to produce output.
+that use \fBputs\fR to produce output.
.SH KEYWORDS
test, test harness, test suite
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/tclvars.n b/doc/tclvars.n
index 885de34..44a8e11 100644
--- a/doc/tclvars.n
+++ b/doc/tclvars.n
@@ -10,7 +10,7 @@
.BS
'\" Note: do not modify the .SH NAME line immediately below!
.SH NAME
-tclvars \- Variables used by Tcl
+argc, argv, argv0, auto_path, env, errorCode, errorInfo, tcl_interactive, tcl_library, tcl_nonwordchars, tcl_patchLevel, tcl_pkgPath, tcl_platform, tcl_precision, tcl_rcFileName, tcl_traceCompile, tcl_traceEval, tcl_wordchars, tcl_version \- Variables used by Tcl
.BE
.SH DESCRIPTION
.PP
@@ -18,7 +18,27 @@ The following global variables are created and managed automatically
by the Tcl library. Except where noted below, these variables should
normally be treated as read-only by application-specific code and by users.
.TP
+\fBauto_path\fR
+.
+If set, then it must contain a valid Tcl list giving directories to
+search during auto-load operations (including for package index
+files when using the default \fBpackage unknown\fR handler).
+This variable is initialized during startup to contain, in order:
+the directories listed in the \fBTCLLIBPATH\fR environment variable,
+the directory named by the \fBtcl_library\fR global variable,
+the parent directory of \fBtcl_library\fR,
+the directories listed in the \fBtcl_pkgPath\fR variable.
+Additional locations to look for files and package indices should
+normally be added to this variable using \fBlappend\fR.
+.RS
+.PP
+Additional variables relating to package management exist. More
+details are listed in the \fBVARIABLES\fR section of the \fBlibrary\fR
+manual page.
+.RE
+.TP
\fBenv\fR
+.
This variable is maintained by Tcl as an array
whose elements are the environment variables for the process.
Reading an element will return the value of the corresponding
@@ -80,13 +100,26 @@ Tcl format, using
as the path separator, regardless of platform.
This variable is only used when initializing the \fBauto_path\fR variable.
.TP
+\fBenv(TCL_TZ)\fR, \fBenv(TZ)\fR
+.
+These specify the default timezone used for parsing and formatting times and
+dates in the \fBclock\fR command. On many platforms, the TZ environment
+variable is set up by the operating system.
+.TP
+\fBenv(LC_ALL)\fR, \fBenv(LC_MESSAGES)\fR, \fBenv(LANG)\fR
+.
+These environment variables are used by the \fBmsgcat\fR package to
+determine what locale to format messages using.
+.TP
\fBenv(TCL_INTERP_DEBUG_FRAME)\fR
.
-If existing, it has the same effect as running \fBinterp debug {} -frame 1\fR
+If existing, it has the same effect as running \fBinterp debug\fR
+\fB{} -frame 1\fR
as the very first command of each new Tcl interpreter.
.RE
.TP
\fBerrorCode\fR
+.
This variable holds the value of the \fB\-errorcode\fR return option
set by the most recent error that occurred in this interpreter.
This list value represents additional information about the error
@@ -116,6 +149,7 @@ and system libraries.
.RE
.TP
\fBCHILDKILLED\fI pid sigName msg\fR
+.
This format is used when a child process has been killed because of
a signal. The \fIpid\fR element will be the process's identifier (in decimal).
The \fIsigName\fR element will be the symbolic name of the signal that caused
@@ -127,12 +161,14 @@ describing the signal, such as
for \fBSIGPIPE\fR.
.TP
\fBCHILDSTATUS\fI pid code\fR
+.
This format is used when a child process has exited with a non-zero
exit status. The \fIpid\fR element will be the
process's identifier (in decimal) and the \fIcode\fR element will be the exit
code returned by the process (also in decimal).
.TP
\fBCHILDSUSP\fI pid sigName msg\fR
+.
This format is used when a child process has been suspended because
of a signal.
The \fIpid\fR element will be the process's identifier, in decimal.
@@ -145,6 +181,7 @@ describing the signal, such as
for \fBSIGTTIN\fR.
.TP
\fBNONE\fR
+.
This format is used for errors where no additional information is
available for an error besides the message returned with the
error. In these cases the \fB\-errorcode\fR return option
@@ -152,6 +189,7 @@ will consist of a list containing a single element whose
contents are \fBNONE\fR.
.TP
\fBPOSIX \fIerrName msg\fR
+.
If the first element is \fBPOSIX\fR, then
the error occurred during a POSIX kernel call.
The \fIerrName\fR element will contain the symbolic name
@@ -161,6 +199,11 @@ The \fImsg\fR element will be a human-readable
message corresponding to \fIerrName\fR, such as
.QW "no such file or directory"
for the \fBENOENT\fR case.
+.TP
+\fBTCL\fR ...
+.
+Indicates some sort of problem generated in relation to Tcl itself, e.g. a
+failure to look up a channel or variable.
.PP
To set the \fB\-errorcode\fR return option, applications should use library
procedures such as \fBTcl_SetObjErrorCode\fR, \fBTcl_SetReturnOptions\fR,
@@ -170,13 +213,9 @@ If none of these methods for setting the error code has been used,
the Tcl interpreter will reset the variable to \fBNONE\fR after
the next error.
.RE
-.\" .TP
-.\" \fBTCL\fR ...
-.\" .
-.\" Indicates some sort of problem generated in relation to Tcl itself,
-.\" e.g. a failure to look up a channel or variable.
.TP
\fBerrorInfo\fR
+.
This variable holds the value of the \fB\-errorinfo\fR return option
set by the most recent error that occurred in this interpreter.
This string value will contain one or more lines
@@ -186,6 +225,7 @@ Its contents take the form of a stack trace showing the various
nested Tcl commands that had been invoked at the time of the error.
.TP
\fBtcl_library\fR
+.
This variable holds the name of a directory containing the
system library of Tcl scripts, such as those used for auto-loading.
The value of this variable is returned by the \fBinfo library\fR command.
@@ -216,14 +256,16 @@ The value of this variable is returned by the \fBinfo patchlevel\fR
command.
.TP
\fBtcl_pkgPath\fR
+.
This variable holds a list of directories indicating where packages are
normally installed. It is not used on Windows. It typically contains
either one or two entries; if it contains two entries, the first is
normally a directory for platform-dependent packages (e.g., shared library
binaries) and the second is normally a directory for platform-independent
packages (e.g., script files). Typically a package is installed as a
-subdirectory of one of the entries in \fB$tcl_pkgPath\fR. The directories
-in \fB$tcl_pkgPath\fR are included by default in the \fBauto_path\fR
+subdirectory of one of the entries in the \fBtcl_pkgPath\fR
+variable. The directories in the \fBtcl_pkgPath\fR variable are
+included by default in the \fBauto_path\fR
variable, so they and their immediate subdirectories are automatically
searched for packages during \fBpackage require\fR commands. Note:
\fBtcl_pkgPath\fR is not intended to be modified by the application. Its
@@ -233,6 +275,7 @@ directories for packages you should add the names of those directories to
\fBauto_path\fR, not \fBtcl_pkgPath\fR.
.TP
\fBtcl_platform\fR
+.
This is an associative array whose elements contain information about
the platform on which the application is running, such as the name of
the operating system, its current release number, and the machine's
@@ -244,10 +287,12 @@ predefined elements are:
.RS
.TP
\fBbyteOrder\fR
+.
The native byte order of this machine: either \fBlittleEndian\fR or
\fBbigEndian\fR.
.TP
\fBdebug\fR
+.
If this variable exists, then the interpreter was compiled with and linked
to a debug-enabled C run-time. This variable will only exist on Windows,
so extension writers can specify which package to load depending on the
@@ -255,11 +300,13 @@ C run-time library that is in use. This is not an indication that this core
contains symbols.
.TP
\fBmachine\fR
+.
The instruction set executed by this machine, such as
\fBintel\fR, \fBPPC\fR, \fB68k\fR, or \fBsun4m\fR. On UNIX machines, this
is the value returned by \fBuname -m\fR.
.TP
-\fBos\fR
+\fBos\fR
+.
The name of the operating system running on this machine,
such as \fBWindows 95\fR, \fBWindows NT\fR, or \fBSunOS\fR.
On UNIX machines, this is the value returned by \fBuname -s\fR.
@@ -268,32 +315,45 @@ On Windows 95 and Windows 98, the value returned will be \fBWindows
distinguish between the two, check the \fBosVersion\fR.
.TP
\fBosVersion\fR
+.
The version number for the operating system running on this machine.
On UNIX machines, this is the value returned by \fBuname -r\fR. On
Windows 95, the version will be 4.0; on Windows 98, the version will
be 4.10.
.TP
+\fBpathSeparator\fR
+.VS 8.6
+'\" Defined by TIP #315
+The character that should be used to \fBsplit\fR PATH-like environment
+variables into their corresponding list of directory names.
+.VE 8.6
+.TP
\fBplatform\fR
+.
Either \fBwindows\fR, or \fBunix\fR. This identifies the
general operating environment of the machine.
.TP
+\fBpointerSize\fR
+.
+This gives the size of the native-machine pointer in bytes (strictly, it
+is same as the result of evaluating \fIsizeof(void*)\fR in C.)
+.TP
\fBthreaded\fR
+.
If this variable exists, then the interpreter
was compiled with threads enabled.
.TP
\fBuser\fR
+.
This identifies the
current user based on the login information available on the platform.
This comes from the USER or LOGNAME environment variable on Unix,
and the value from GetUserName on Windows.
.TP
\fBwordSize\fR
+.
This gives the size of the native-machine word in bytes (strictly, it
is same as the result of evaluating \fIsizeof(long)\fR in C.)
-.TP
-\fBpointerSize\fR
-This gives the size of the native-machine pointer in bytes (strictly, it
-is same as the result of evaluating \fIsizeof(void*)\fR in C.)
.RE
.TP
\fBtcl_precision\fR
@@ -352,6 +412,7 @@ Valid values for \fBtcl_precision\fR range from 0 to 17.
.RE
.TP
\fBtcl_rcFileName\fR
+.
This variable is used during initialization to indicate the name of a
user-specific startup file. If it is set by application-specific
initialization, then the Tcl startup code will check for the existence
@@ -360,13 +421,14 @@ the variable is set to \fB~/.wishrc\fR for Unix and \fB~/wishrc.tcl\fR
for Windows.
.TP
\fBtcl_traceCompile\fR
+.
The value of this variable can be set to control
how much tracing information
is displayed during bytecode compilation.
-By default, tcl_traceCompile is zero and no information is displayed.
-Setting tcl_traceCompile to 1 generates a one-line summary in stdout
+By default, \fBtcl_traceCompile\fR is zero and no information is displayed.
+Setting \fBtcl_traceCompile\fR to 1 generates a one-line summary in \fBstdout\fR
whenever a procedure or top-level command is compiled.
-Setting it to 2 generates a detailed listing in stdout of the
+Setting it to 2 generates a detailed listing in \fBstdout\fR of the
bytecode instructions emitted during every compilation.
This variable is useful in
tracking down suspected problems with the Tcl compiler.
@@ -377,18 +439,19 @@ This variable and functionality only exist if
.RE
.TP
\fBtcl_traceExec\fR
+.
The value of this variable can be set to control
how much tracing information
is displayed during bytecode execution.
-By default, tcl_traceExec is zero and no information is displayed.
-Setting tcl_traceExec to 1 generates a one-line trace in stdout
+By default, \fBtcl_traceExec\fR is zero and no information is displayed.
+Setting \fBtcl_traceExec\fR to 1 generates a one-line trace in \fBstdout\fR
on each call to a Tcl procedure.
Setting it to 2 generates a line of output
whenever any Tcl command is invoked
that contains the name of the command and its arguments.
Setting it to 3 produces a detailed trace showing the result of
executing each bytecode instruction.
-Note that when tcl_traceExec is 2 or 3,
+Note that when \fBtcl_traceExec\fR is 2 or 3,
commands such as \fBset\fR and \fBincr\fR
that have been entirely replaced by a sequence
of bytecode instructions are not shown.
@@ -402,6 +465,7 @@ This variable and functionality only exist if
.RE
.TP
\fBtcl_wordchars\fR
+.
The value of this variable is a regular expression that can be set to
control what are considered
.QW word
@@ -412,6 +476,7 @@ but a Unicode space character. Otherwise it defaults to \fB\ew\fR,
which is any Unicode word character (number, letter, or underscore).
.TP
\fBtcl_nonwordchars\fR
+.
The value of this variable is a regular expression that can be set to
control what are considered
.QW non-word
@@ -422,6 +487,7 @@ character. Otherwise it defaults to \fB\eW\fR, which is anything but a
Unicode word character (number, letter, or underscore).
.TP
\fBtcl_version\fR
+.
When an interpreter is created Tcl initializes this variable to
hold the version number for this version of Tcl in the form \fIx.y\fR.
Changes to \fIx\fR represent major changes with probable
@@ -430,33 +496,71 @@ bug fixes that retain backward compatibility.
The value of this variable is returned by the \fBinfo tclversion\fR
command.
.SH "OTHER GLOBAL VARIABLES"
+.PP
The following variables are only guaranteed to exist in \fBtclsh\fR
and \fBwish\fR executables; the Tcl library does not define them
itself but many Tcl environments do.
.TP 6
\fBargc\fR
+.
The number of arguments to \fBtclsh\fR or \fBwish\fR.
.TP 6
\fBargv\fR
+.
Tcl list of arguments to \fBtclsh\fR or \fBwish\fR.
.TP 6
\fBargv0\fR
+.
The script that \fBtclsh\fR or \fBwish\fR started executing (if it was
specified) or otherwise the name by which \fBtclsh\fR or \fBwish\fR
was invoked.
.TP 6
\fBtcl_interactive\fR
+.
Contains 1 if \fBtclsh\fR or \fBwish\fR is running interactively (no
script was specified and standard input is a terminal-like device), 0
otherwise.
+.SH EXAMPLES
.PP
-The \fBwish\fR executable additionally specifies the following global
-variable:
-.TP 6
-\fBgeometry\fR
-If set, contains the user-supplied geometry specification to use for
-the main Tk window.
+To add a directory to the collection of locations searched by
+\fBpackage require\fR, e.g., because of some application-specific
+packages that are used, the \fBauto_path\fR variable needs to be
+updated:
+.PP
+.CS
+lappend ::\fBauto_path\fR [file join [pwd] "theLibDir"]
+.CE
+.PP
+A simple though not very robust way to handle command line arguments
+of the form
+.QW "\-foo 1 \-bar 2"
+is to load them into an array having first loaded in the default settings:
+.CS
+array set arguments {-foo 0 -bar 0 -grill 0}
+array set arguments $::\fBargv\fR
+puts "foo is $arguments(-foo)"
+puts "bar is $arguments(-bar)"
+puts "grill is $arguments(-grill)"
+.CE
+.PP
+The \fBargv0\fR global variable can be used (in conjunction with the
+\fBinfo script\fR command) to determine whether the current script is
+being executed as the main script or loaded as a library. This is
+useful because it allows a single script to be used as both a library
+and a demonstration of that library:
+.PP
+.CS
+if {$::\fBargv0\fR eq [info script]} {
+ # running as: tclsh example.tcl
+} else {
+ package provide Example 1.0
+}
+.CE
.SH "SEE ALSO"
-eval(n), tclsh(1), wish(1)
+eval(n), library(n), tclsh(1), tkvars(n), wish(1)
.SH KEYWORDS
-arithmetic, bytecode, compiler, error, environment, POSIX, precision, subprocess, variables
+arithmetic, bytecode, compiler, error, environment, POSIX, precision,
+subprocess, user, variables
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/tell.n b/doc/tell.n
index 282cae5..87e63b0 100644
--- a/doc/tell.n
+++ b/doc/tell.n
@@ -14,7 +14,6 @@ tell \- Return current access position for an open channel
.SH SYNOPSIS
\fBtell \fIchannelId\fR
.BE
-
.SH DESCRIPTION
.PP
Returns an integer string giving the current access position in
@@ -29,7 +28,9 @@ Tcl standard channel (\fBstdin\fR, \fBstdout\fR, or \fBstderr\fR),
the return value from an invocation of \fBopen\fR or \fBsocket\fR, or
the result of a channel creation command provided by a Tcl extension.
.SH EXAMPLE
+.PP
Read a line from a file channel only if it starts with \fBfoobar\fR:
+.PP
.CS
# Save the offset in case we need to undo the read...
set offset [\fBtell\fR $chan]
@@ -41,9 +42,7 @@ if {[read $chan 6] eq "foobar"} {
seek $chan $offset
}
.CE
-
.SH "SEE ALSO"
file(n), open(n), close(n), gets(n), seek(n), Tcl_StandardChannels(3)
-
.SH KEYWORDS
access position, channel, seeking
diff --git a/doc/throw.n b/doc/throw.n
new file mode 100644
index 0000000..b28f2e4
--- /dev/null
+++ b/doc/throw.n
@@ -0,0 +1,48 @@
+'\"
+'\" Copyright (c) 2008 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH throw n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+throw \- Generate a machine-readable error
+.SH SYNOPSIS
+\fBthrow\fI type message\fR
+.BE
+.SH DESCRIPTION
+.PP
+This command causes the current evaluation to be unwound with an error. The
+error created is described by the \fItype\fR and \fImessage\fR arguments:
+\fItype\fR must contain a list of words describing the error in a form that is
+machine-readable (and which will form the error-code part of the result
+dictionary), and \fImessage\fR should contain text that is intended for
+display to a human being.
+.PP
+The stack will be unwound until the error is trapped by a suitable \fBcatch\fR
+or \fBtry\fR command. If it reaches the event loop without being trapped, it
+will be reported through the \fBbgerror\fR mechanism. If it reaches the top
+level of script evaluation in \fBtclsh\fR, it will be printed on the console
+before, in the non-interactive case, causing an exit (the behavior in other
+programs will depend on the details of how Tcl is embedded and used).
+.PP
+By convention, the words in the \fItype\fR argument should go from most
+general to most specific.
+.SH EXAMPLES
+.PP
+The following produces an error that is identical to that produced by
+\fBexpr\fR when trying to divide a value by zero.
+.PP
+.CS
+\fBthrow\fR {ARITH DIVZERO {divide by zero}} {divide by zero}
+.CE
+.SH "SEE ALSO"
+catch(n), error(n), errorCode(n), errorInfo(n), return(n), try(n)
+.SH "KEYWORDS"
+error, exception
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/time.n b/doc/time.n
index bdd0786..52730a1 100644
--- a/doc/time.n
+++ b/doc/time.n
@@ -14,21 +14,23 @@ time \- Time the execution of a script
.SH SYNOPSIS
\fBtime \fIscript\fR ?\fIcount\fR?
.BE
-
.SH DESCRIPTION
.PP
This command will call the Tcl interpreter \fIcount\fR
times to evaluate \fIscript\fR (or once if \fIcount\fR is not
specified). It will then return a string of the form
+.PP
.CS
-\fB503 microseconds per iteration\fR
+\fB503.2 microseconds per iteration\fR
.CE
+.PP
which indicates the average amount of time required per iteration,
in microseconds.
Time is measured in elapsed time, not CPU time.
.SH EXAMPLE
Estimate how long it takes for a simple Tcl \fBfor\fR loop to count to
a thousand:
+.PP
.CS
time {
for {set i 0} {$i<1000} {incr i} {
@@ -36,9 +38,10 @@ time {
}
}
.CE
-
.SH "SEE ALSO"
clock(n)
-
.SH KEYWORDS
script, time
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/tm.n b/doc/tm.n
index aef06dd..ddfbac2 100644
--- a/doc/tm.n
+++ b/doc/tm.n
@@ -19,6 +19,7 @@ tm \- Facilities for locating and loading of Tcl Modules
.fi
.BE
.SH DESCRIPTION
+.PP
This document describes the facilities for locating and loading Tcl
Modules (see \fBMODULE DEFINITION\fR for the definition of a Tcl Module).
The following commands are supported:
@@ -75,9 +76,11 @@ The command has been exposed to allow a build system to define
additional root paths beyond those described by this document.
.RE
.SH "MODULE DEFINITION"
+.PP
A Tcl Module is a Tcl Package contained in a single file, and no other
files required by it. This file has to be \fBsource\fRable. In other
words, a Tcl Module is always imported via:
+.PP
.CS
source module_file
.CE
@@ -91,6 +94,7 @@ attached data in any it chooses to fully import and activate the
package.
.PP
The name of a module file has to match the regular expression:
+.PP
.CS
([_[:alpha:]][:_[:alnum:]]*)-([[:digit:]].*)\e.tm
.CE
@@ -99,11 +103,12 @@ The first capturing parentheses provides the name of the package, the
second clause its version. In addition to matching the pattern, the
extracted version number must not raise an error when used in the
command:
+.PP
.CS
package vcompare $version 0
.CE
-.PP
.SH "FINDING MODULES"
+.PP
The directory tree for storing Tcl modules is separate from other
parts of the filesystem and independent of \fBauto_path\fR.
.PP
@@ -164,10 +169,13 @@ Note that packages in module form have \fIno\fR control over the
\fIindex\fR and \fIprovide script\fRs entered into the package
database for them.
For a module file \fBMF\fR the \fIindex script\fR is always:
+.PP
.CS
package ifneeded \fBPNAME PVERSION\fR [list source \fBMF\fR]
.CE
+.PP
and the \fIprovide script\fR embedded in the above is:
+.PP
.CS
source \fBMF\fR
.CE
@@ -175,6 +183,7 @@ source \fBMF\fR
Both package name \fBPNAME\fR and package version \fBPVERSION\fR are
extracted from the filename \fBMF\fR according to the definition
below:
+.PP
.CS
\fBMF\fR = /module_path/\fBPNAME\(fm\fR-\fBPVERSION\fR.tm
.CE
@@ -199,6 +208,7 @@ package \fBFoo\fR is deployed in the form of a Tcl Module,
packages like \fBfoo\fR, \fBfOo\fR, etc. are not allowed
anymore.
.SH "DEFAULT PATHS"
+.PP
The default list of paths on the module path is computed by a
\fBtclsh\fR as follows, where \fIX\fR is the major version of the Tcl
interpreter and \fIy\fR is less than or equal to the minor version of
@@ -223,6 +233,7 @@ to the minor version of the interpreter.
.RS
.PP
For example for Tcl 8.4 the paths searched are:
+.PP
.CS
\fB[info library]/../tcl8/8.4\fR
\fB[info library]/../tcl8/8.3\fR
@@ -274,8 +285,9 @@ These paths are seen and therefore shared by all Tcl shells in the
\fB$::env(PATH)\fR of the user.
.PP
Note that \fIX\fR and \fIy\fR follow the general rules set out
-above. In other words, Tcl 8.4, for example, will look at these 5
+above. In other words, Tcl 8.4, for example, will look at these 10
environment variables:
+.PP
.CS
\fB$::env(TCL8.4_TM_PATH)\fR \fB$::env(TCL8_4_TM_PATH)\fR
\fB$::env(TCL8.3_TM_PATH)\fR \fB$::env(TCL8_3_TM_PATH)\fR
@@ -291,3 +303,6 @@ package(n), Tcl Improvement Proposal #189
(online at http://tip.tcl.tk/190.html)
.SH "KEYWORDS"
modules, package
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/trace.n b/doc/trace.n
index c928856..63ed1cb 100644
--- a/doc/trace.n
+++ b/doc/trace.n
@@ -54,9 +54,11 @@ execute them.
When the trace triggers, depending on the operations being traced, a number of
arguments are appended to \fIcommandPrefix\fR so that the actual command is as
follows:
+.PP
.CS
\fIcommandPrefix oldName newName op\fR
.CE
+.PP
\fIOldName\fR and \fInewName\fR give the traced command's current (old) name,
and the name to which it is being renamed (the empty string if this is a
.QW delete
@@ -121,9 +123,11 @@ number of arguments are appended to \fIcommandPrefix\fR so that the actual
command is as follows:
.PP
For \fBenter\fR and \fBenterstep\fR operations:
+.PP
.CS
\fIcommandPrefix command-string op\fR
.CE
+.PP
\fICommand-string\fR gives the complete current command being
executed (the traced command for a \fBenter\fR operation, an
arbitrary command for a \fBenterstep\fR operation), including
@@ -137,9 +141,11 @@ course when the command is subsequently executed, an
error will occur.
.PP
For \fBleave\fR and \fBleavestep\fR operations:
+.PP
.CS
\fIcommandPrefix command-string code result op\fR
.CE
+.PP
\fICommand-string\fR gives the complete current command being
executed (the traced command for a \fBenter\fR operation, an
arbitrary command for a \fBenterstep\fR operation), including
@@ -217,9 +223,11 @@ interpreter in which to execute them.
.PP
When the trace triggers, three arguments are appended to
\fIcommandPrefix\fR so that the actual command is as follows:
+.PP
.CS
\fIcommandPrefix name1 name2 op\fR
.CE
+.PP
\fIName1\fR and \fIname2\fR give the name(s) for the variable
being accessed: if the variable is a scalar then \fIname1\fR
gives the variable's name and \fIname2\fR is an empty string;
@@ -368,9 +376,11 @@ future version of Tcl. They use an older syntax in which \fBarray\fR,
list, but simply a string concatenation of the operations, such as
\fBrwua\fR.
.SH EXAMPLES
+.PP
Print a message whenever either of the global variables \fBfoo\fR and
\fBbar\fR are updated, even if they have a different local name at the
time (which can be done with the \fBupvar\fR command):
+.PP
.CS
proc tracer {varname args} {
upvar #0 $varname var
@@ -382,6 +392,7 @@ proc tracer {varname args} {
.PP
Ensure that the global variable \fBfoobar\fR always contains the
product of the global variables \fBfoo\fR and \fBbar\fR:
+.PP
.CS
proc doMult args {
global foo bar foobar
@@ -393,6 +404,7 @@ proc doMult args {
.PP
Print a trace of what commands are executed during the processing of a Tcl
procedure:
+.PP
.CS
proc x {} { y }
proc y {} { z }
@@ -409,3 +421,6 @@ x
set(n), unset(n)
.SH KEYWORDS
read, command, rename, variable, write, trace, unset
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/transchan.n b/doc/transchan.n
new file mode 100644
index 0000000..e308e13
--- /dev/null
+++ b/doc/transchan.n
@@ -0,0 +1,160 @@
+'\"
+'\" Copyright (c) 2008 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH transchan n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+transchan \- command handler API of channel transforms
+.SH SYNOPSIS
+\fBcmdPrefix \fIoption\fR ?\fIarg arg ...\fR?
+.BE
+.SH DESCRIPTION
+.PP
+The Tcl-level handler for a channel transformation has to be a command with
+subcommands (termed an \fIensemble\fR despite not implying that it must be
+created with \fBnamespace ensemble create\fR; this mechanism is not tied to
+\fBnamespace ensemble\fR in any way). Note that \fIcmdPrefix\fR is whatever
+was specified in the call to \fBchan push\fR, and may consist of multiple
+arguments; this will be expanded to multiple words in place of the prefix.
+.PP
+Of all the possible subcommands, the handler \fImust\fR support
+\fBinitialize\fR and \fBfinalize\fR. Transformations for writable channels
+must also support \fBwrite\fR, and transformations for readable channels must
+also support \fBread\fR.
+.PP
+Note that in the descriptions below \fIcmdPrefix\fR may be more than one word,
+and \fIhandle\fR is the value returned by the \fBchan push\fR call used to
+create the transformation.
+.SS "GENERIC SUBCOMMANDS"
+.PP
+The following subcommands are relevant to all types of channel.
+.TP
+\fIcmdPrefix \fBclear \fIhandle\fR
+.
+This optional subcommand is called to signify to the transformation that any
+data stored in internal buffers (either incoming or outgoing) must be
+cleared. It is called when a \fBchan seek\fR is performed on the channel being
+transformed.
+.TP
+\fIcmdPrefix \fBfinalize \fIhandle\fR
+.
+This mandatory subcommand is called last for the given \fIhandle\fR, and then
+never again, and it exists to allow for cleaning up any Tcl-level data
+structures associated with the transformation. \fIWarning!\fR Any errors
+thrown by this subcommand will be ignored. It is not guaranteed to be called
+if the interpreter is deleted.
+.TP
+\fIcmdPrefix \fBinitialize \fIhandle mode\fR
+.
+This mandatory subcommand is called first, and then never again (for the given
+\fIhandle\fR). Its responsibility is to initialize all parts of the
+transformation at the Tcl level. The \fImode\fR is a list containing any of
+\fBread \fRand \fBwrite\fR.
+.RS
+.TP
+\fBwrite\fR
+.
+implies that the channel is writable.
+.TP
+\fBread\fR
+.
+implies that the channel is readable.
+.PP
+The return value of the subcommand should be a list containing the names of
+all subcommands supported by this handler. Any error thrown by the subcommand
+will prevent the creation of the transformation. The thrown error will appear
+as error thrown by \fBchan push\fR.
+.RE
+.SS "READ-RELATED SUBCOMMANDS"
+.PP
+These subcommands are used for handling transformations applied to readable
+channels; though strictly \fBread \fRis optional, it must be supported if any
+of the others is or the channel will be made non-readable.
+.TP
+\fIcmdPrefix \fBdrain \fIhandle\fR
+.
+This optional subcommand is called whenever data in the transformation input
+(i.e. read) buffer has to be forced upward, i.e. towards the user or script.
+The result returned by the method is taken as the \fIbinary\fR data to push
+upward to the level above this transformation (the reader or a higher-level
+transformation).
+.RS
+.PP
+In other words, when this method is called the transformation cannot defer the
+actual transformation operation anymore and has to transform all data waiting
+in its internal read buffers and return the result of that action.
+.RE
+.TP
+\fIcmdPrefix \fBlimit? \fIhandle\fR
+.
+This optional subcommand is called to allow the Tcl I/O engine to determine
+how far ahead it should read. If present, it should return an integer number
+greater than zero which indicates how many bytes ahead should be read, or an
+integer less than zero to indicate that the I/O engine may read as far ahead
+as it likes.
+.TP
+\fIcmdPrefix \fBread \fIhandle buffer\fR
+.
+This subcommand, which must be present if the transformation is to work with
+readable channels, is called whenever the base channel, or a transformation
+below this transformation, pushes data upward. The \fIbuffer\fR contains the
+binary data which has been given to us from below. It is the responsibility of
+this subcommand to actually transform the data. The result returned by the
+subcommand is taken as the binary data to push further upward to the
+transformation above this transformation. This can also be the user or script
+that originally read from the channel.
+.RS
+.PP
+Note that the result is allowed to be empty, or even less than the data we
+received; the transformation is not required to transform everything given to
+it right now. It is allowed to store incoming data in internal buffers and to
+defer the actual transformation until it has more data.
+.RE
+.SS "WRITE-RELATED SUBCOMMANDS"
+.PP
+These subcommands are used for handling transformations applied to writable
+channels; though strictly \fBwrite\fR is optional, it must be supported if any
+of the others is or the channel will be made non-writable.
+.TP
+\fIcmdPrefix \fBflush \fIhandle\fR
+.
+This optional subcommand is called whenever data in the transformation 'write'
+buffer has to be forced downward, i.e. towards the base channel. The result
+returned by the subcommand is taken as the binary data to write to the
+transformation below the current transformation. This can be the base channel
+as well.
+.RS
+.PP
+In other words, when this subcommand is called the transformation cannot defer
+the actual transformation operation anymore and has to transform all data
+waiting in its internal write buffers and return the result of that action.
+.RE
+.TP
+\fIcmdPrefix \fBwrite \fIhandle buffer\fR
+.
+This subcommand, which must be present if the transformation is to work with
+writable channels, is called whenever the user, or a transformation above this
+transformation, writes data downward. The \fIbuffer\fR contains the binary
+data which has been written to us. It is the responsibility of this subcommand
+to actually transform the data.
+.RS
+.PP
+The result returned by the subcommand is taken as the binary data to write to
+the transformation below this transformation. This can be the base channel as
+well. Note that the result is allowed to be empty, or less than the data we
+got; the transformation is not required to transform everything which was
+written to it right now. It is allowed to store this data in internal buffers
+and to defer the actual transformation until it has more data.
+.RE
+.SH "SEE ALSO"
+chan(n), refchan(n)
+.SH KEYWORDS
+API, channel, ensemble, prefix, transformation
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/try.n b/doc/try.n
new file mode 100644
index 0000000..78a006d
--- /dev/null
+++ b/doc/try.n
@@ -0,0 +1,103 @@
+'\"
+'\" Copyright (c) 2008 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH try n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+try \- Trap and process errors and exceptions
+.SH SYNOPSIS
+\fBtry\fI body\fR ?\fIhandler...\fR? ?\fBfinally\fI script\fR?
+.BE
+.SH DESCRIPTION
+.PP
+This command executes the script \fIbody\fR and, depending on what the outcome
+of that script is (normal exit, error, or some other exceptional result), runs
+a handler script to deal with the case. Once that has all happened, if the
+\fBfinally\fR clause is present, the \fIscript\fR it includes will be run and
+the result of the handler (or the \fIbody\fR if no handler matched) is allowed
+to continue to propagate. Note that the \fBfinally\fR clause is processed even
+if an error occurs and irrespective of which, if any, \fIhandler\fR is used.
+.PP
+The \fIhandler\fR clauses are each expressed as several words, and must have
+one of the following forms:
+.TP
+\fBon \fIcode variableList script\fR
+.
+This clause matches if the evaluation of \fIbody\fR completed with the
+exception code \fIcode\fR. The \fIcode\fR may be expressed as an integer or
+one of the following literal words: \fBok\fR, \fBerror\fR, \fBreturn\fR,
+\fBbreak\fR, or \fBcontinue\fR. Those literals correspond to the integers 0
+through 4 respectively.
+.TP
+\fBtrap \fIpattern variableList script\fR
+.
+This clause matches if the evaluation of \fIbody\fR resulted in an error and
+the prefix of the \fB\-errorcode\fR from the interpreter's status dictionary
+is equal to the \fIpattern\fR. The number of prefix words taken from the
+\fB\-errorcode\fR is equal to the list-length of \fIpattern\fR, and inter-word
+spaces are normalized in both the \fB\-errorcode\fR and \fIpattern\fR before
+comparison.
+.PP
+The \fIvariableList\fR word in each \fIhandler\fR is always interpreted as a
+list of variable names. If the first word of the list is present and
+non-empty, it names a variable into which the result of the evaluation of
+\fIbody\fR (from the main \fBtry\fR) will be placed; this will contain the
+human-readable form of any errors. If the second word of the list is present
+and non-empty, it names a variable into which the options dictionary of the
+interpreter at the moment of completion of execution of \fIbody\fR
+will be placed.
+.PP
+The \fIscript\fR word of each \fIhandler\fR is also always interpreted the
+same: as a Tcl script to evaluate if the clause is matched. If \fIscript\fR is
+a literal
+.QW \-
+and the \fIhandler\fR is not the last one, the \fIscript\fR of the following
+\fIhandler\fR is invoked instead (just like with the \fBswitch\fR command).
+.PP
+Note that \fIhandler\fR clauses are matched against in order, and that the
+first matching one is always selected. At most one \fIhandler\fR clause will
+selected. As a consequence, an \fBon error\fR will mask any subsequent
+\fBtrap\fR in the \fBtry\fR. Also note that \fBon error\fR is equivalent to
+\fBtrap {}\fR.
+.PP
+If an exception (i.e. any non-\fBok\fR result) occurs during the evaluation of
+either the \fIhandler\fR or the \fBfinally\fR clause, the original exception's
+status dictionary will be added to the new exception's status dictionary under
+the \fB\-during\fR key.
+.SH EXAMPLES
+.PP
+Ensure that a file is closed no matter what:
+.PP
+.CS
+set f [open /some/file/name a]
+\fBtry\fR {
+ puts $f "some message"
+ # ...
+} \fBfinally\fR {
+ close $f
+}
+.CE
+.PP
+Handle different reasons for a file to not be openable for reading:
+.PP
+.CS
+\fBtry\fR {
+ set f [open /some/file/name w]
+} \fBtrap\fR {POSIX EISDIR} {} {
+ puts "failed to open /some/file/name: it's a directory"
+} \fBtrap\fR {POSIX ENOENT} {} {
+ puts "failed to open /some/file/name: it doesn't exist"
+}
+.CE
+.SH "SEE ALSO"
+catch(n), error(n), return(n), throw(n)
+.SH "KEYWORDS"
+cleanup, error, exception, final, resource management
+'\" Local Variables:
+'\" mode: nroff
+'\" End:
diff --git a/doc/unknown.n b/doc/unknown.n
index c258daa..fc2a5a1 100644
--- a/doc/unknown.n
+++ b/doc/unknown.n
@@ -88,4 +88,4 @@ proc \fBunknown\fR args {
.SH "SEE ALSO"
info(n), proc(n), interp(n), library(n), namespace(n)
.SH KEYWORDS
-error, non-existent command
+error, non-existent command, unknown
diff --git a/doc/unload.n b/doc/unload.n
index f060cd6..4c0b292 100644
--- a/doc/unload.n
+++ b/doc/unload.n
@@ -88,8 +88,11 @@ detached from the process.
.SS "UNLOAD HOOK PROTOTYPE"
.PP
The unload procedure must match the following prototype:
+.PP
.CS
-typedef int Tcl_PackageUnloadProc(Tcl_Interp *\fIinterp\fR, int \fIflags\fR);
+typedef int \fBTcl_PackageUnloadProc\fR(
+ Tcl_Interp *\fIinterp\fR,
+ int \fIflags\fR);
.CE
.PP
The \fIinterp\fR argument identifies the interpreter from which the
@@ -142,12 +145,16 @@ library is still loaded), it may be dangerous to use
\fBunload\fR on such a library (as the library will be completely detached
from the application while some interpreters will continue to use it).
.SH EXAMPLE
+.PP
If an unloadable module in the file \fBfoobar.dll\fR had been loaded
using the \fBload\fR command like this (on Windows):
+.PP
.CS
load c:/some/dir/foobar.dll
.CE
+.PP
then it would be unloaded like this:
+.PP
.CS
\fBunload\fR c:/some/dir/foobar.dll
.CE
@@ -160,3 +167,6 @@ without having to shut down the overall Tcl process.
info sharedlibextension, load(n), safe(n)
.SH KEYWORDS
binary code, unloading, safe interpreter, shared library
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/unset.n b/doc/unset.n
index 29d7e7c..64b334d 100644
--- a/doc/unset.n
+++ b/doc/unset.n
@@ -13,7 +13,7 @@
.SH NAME
unset \- Delete variables
.SH SYNOPSIS
-\fBunset \fR?\fI\-nocomplain\fR? ?\fI\-\-\fR? ?\fIname name name ...\fR?
+\fBunset \fR?\fB\-nocomplain\fR? ?\fB\-\-\fR? ?\fIname name name ...\fR?
.BE
.SH DESCRIPTION
.PP
@@ -25,19 +25,21 @@ element is removed without affecting the rest of the array.
If a \fIname\fR consists of an array name with no parenthesized
index, then the entire array is deleted.
The \fBunset\fR command returns an empty string as result.
-If \fI\-nocomplain\fR is specified as the first argument, any possible
+If \fB\-nocomplain\fR is specified as the first argument, any possible
errors are suppressed. The option may not be abbreviated, in order to
-disambiguate it from possible variable names. The option \fI\-\-\fR
+disambiguate it from possible variable names. The option \fB\-\-\fR
indicates the end of the options, and should be used if you wish to
remove a variable with the same name as any of the options.
-If an error occurs, any variables after the named one causing the error
-are not
+If an error occurs during variable deletion, any variables after the named one
+causing the error are not
deleted. An error can occur when the named variable does not exist, or the
name refers to an array element but the variable is a scalar, or the name
refers to a variable in a non-existent namespace.
.SH EXAMPLE
+.PP
Create an array containing a mapping from some numbers to their
squares and remove the array elements for non-prime numbers:
+.PP
.CS
array set squares {
1 1 6 36
@@ -60,3 +62,7 @@ parray squares
set(n), trace(n), upvar(n)
.SH KEYWORDS
remove, variable
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/update.n b/doc/update.n
index 555766c..0c77c5f 100644
--- a/doc/update.n
+++ b/doc/update.n
@@ -14,7 +14,6 @@ update \- Process pending events and idle callbacks
.SH SYNOPSIS
\fBupdate\fR ?\fBidletasks\fR?
.BE
-
.SH DESCRIPTION
.PP
This command is used to bring the application
@@ -43,7 +42,9 @@ the application to respond to events such as user interactions; if
you occasionally call \fBupdate\fR then user input will be processed
during the next call to \fBupdate\fR.
.SH EXAMPLE
+.PP
Run computations for about a second and then finish:
+.PP
.CS
set x 1000
set done 0
@@ -58,9 +59,7 @@ while {!$done} {
\fBupdate\fR
}
.CE
-
.SH "SEE ALSO"
after(n), interp(n)
-
.SH KEYWORDS
-event, flush, handler, idle, update
+asynchronous I/O, event, flush, handler, idle, update
diff --git a/doc/uplevel.n b/doc/uplevel.n
index c8ef0ff..6c8a957 100644
--- a/doc/uplevel.n
+++ b/doc/uplevel.n
@@ -40,16 +40,20 @@ at top-level (only global variables will be visible).
The \fBuplevel\fR command causes the invoking procedure to disappear
from the procedure calling stack while the command is being executed.
In the above example, suppose \fBc\fR invokes the command
+.PP
.CS
\fBuplevel\fR 1 {set x 43; d}
.CE
+.PP
where \fBd\fR is another Tcl procedure. The \fBset\fR command will
modify the variable \fBx\fR in \fBb\fR's context, and \fBd\fR will execute
at level 3, as if called from \fBb\fR. If it in turn executes
the command
+.PP
.CS
\fBuplevel\fR {set x 42}
.CE
+.PP
then the \fBset\fR command will modify the same variable \fBx\fR in \fBb\fR's
context: the procedure \fBc\fR does not appear to be on the call stack
when \fBd\fR is executing. The \fBinfo level\fR command may
@@ -75,6 +79,7 @@ control constructs. This example shows how (without error handling)
it can be used to create a \fBdo\fR command that is the counterpart of
\fBwhile\fR except for always performing the test after running the
loop body:
+.PP
.CS
proc do {body while condition} {
if {$while ne "while"} {
@@ -92,4 +97,7 @@ proc do {body while condition} {
.SH "SEE ALSO"
apply(n), namespace(n), upvar(n)
.SH KEYWORDS
-context, level, namespace, stack frame, variables
+context, level, namespace, stack frame, variable
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/upvar.n b/doc/upvar.n
index a255485..60e5324 100644
--- a/doc/upvar.n
+++ b/doc/upvar.n
@@ -21,8 +21,7 @@ This command arranges for one or more local variables in the current
procedure to refer to variables in an enclosing procedure call or
to global variables.
\fILevel\fR may have any of the forms permitted for the \fBuplevel\fR
-command, and may be omitted if the first letter of the first \fIotherVar\fR
-is not \fB#\fR or a digit (it defaults to \fB1\fR).
+command, and may be omitted (it defaults to \fB1\fR).
For each \fIotherVar\fR argument, \fBupvar\fR makes the variable
by that name in the procedure frame given by \fIlevel\fR (or at
global level, if \fIlevel\fR is \fB#0\fR) accessible
@@ -43,16 +42,18 @@ The \fBupvar\fR command simplifies the implementation of call-by-name
procedure calling and also makes it easier to build new control constructs
as Tcl procedures.
For example, consider the following procedure:
+.PP
.CS
proc \fIadd2\fR name {
- \fBupvar\fR $name x
- set x [expr {$x + 2}]
+ \fBupvar\fR $name x
+ set x [expr {$x + 2}]
}
.CE
+.PP
If \fIadd2\fR is invoked with an argument giving the name of a variable,
it adds two to the value of that variable.
Although \fIadd2\fR could have been implemented using \fBuplevel\fR
-instead of \fBupvar\fR, \fBupvar\fR makes it simpler for \fBadd2\fR
+instead of \fBupvar\fR, \fBupvar\fR makes it simpler for \fIadd2\fR
to access the variable in the caller's procedure frame.
.PP
\fBnamespace eval\fR is another way (besides procedure calls)
@@ -60,7 +61,7 @@ that the Tcl naming context can change.
It adds a call frame to the stack to represent the namespace context.
This means each \fBnamespace eval\fR command
counts as another call level for \fBuplevel\fR and \fBupvar\fR commands.
-For example, \fBinfo level 1\fR will return a list
+For example, \fBinfo level\fR \fB1\fR will return a list
describing a command that is either
the outermost procedure call or the outermost \fBnamespace eval\fR command.
Also, \fBuplevel #0\fR evaluates a script
@@ -83,13 +84,14 @@ will be
.QW "\fIlocalVar\fR"
rather than
.QW "\fIoriginalVar\fR" :
+.PP
.CS
proc \fItraceproc\fR { name index op } {
- puts $name
+ puts $name
}
proc \fIsetByUpvar\fR { name value } {
- \fBupvar\fR $name localVar
- set localVar $value
+ \fBupvar\fR $name localVar
+ set localVar $value
}
set originalVar 1
trace variable originalVar w \fItraceproc\fR
@@ -104,15 +106,17 @@ made to \fImyVar\fR will not be passed to subprocesses correctly.
.SH EXAMPLE
A \fBdecr\fR command that works like \fBincr\fR except it subtracts
the value from the variable instead of adding it:
+.PP
.CS
proc decr {varName {decrement 1}} {
\fBupvar\fR 1 $varName var
incr var [expr {-$decrement}]
}
.CE
-
.SH "SEE ALSO"
global(n), namespace(n), uplevel(n), variable(n)
-
.SH KEYWORDS
-context, frame, global, level, namespace, procedure, variable
+context, frame, global, level, namespace, procedure, upvar, variable
+.\" Local Variables:
+.\" mode: nroff
+.\" End:
diff --git a/doc/variable.n b/doc/variable.n
index 3a60485..96263b6 100644
--- a/doc/variable.n
+++ b/doc/variable.n
@@ -12,9 +12,10 @@
.SH NAME
variable \- create and initialize a namespace variable
.SH SYNOPSIS
-\fBvariable \fR?\fIname value...\fR? \fIname \fR?\fIvalue\fR?
+\fBvariable \fR\fIname\fR
+.sp
+\fBvariable \fR?\fIname value...\fR?
.BE
-
.SH DESCRIPTION
.PP
This command is normally used within a
@@ -57,7 +58,9 @@ After the variable has been declared,
elements within the array can be set using ordinary
\fBset\fR or \fBarray\fR commands.
.SH EXAMPLES
+.PP
Create a variable in a namespace:
+.PP
.CS
namespace eval foo {
\fBvariable\fR bar 12345
@@ -65,6 +68,7 @@ namespace eval foo {
.CE
.PP
Create an array in a namespace:
+.PP
.CS
namespace eval someNS {
\fBvariable\fR someAry
@@ -76,6 +80,7 @@ namespace eval someNS {
.CE
.PP
Access variables in namespaces from a procedure:
+.PP
.CS
namespace eval foo {
proc spong {} {
@@ -89,9 +94,7 @@ namespace eval foo {
}
}
.CE
-
.SH "SEE ALSO"
global(n), namespace(n), upvar(n)
-
.SH KEYWORDS
global, namespace, procedure, variable
diff --git a/doc/vwait.n b/doc/vwait.n
index e7289e1..38a8081 100644
--- a/doc/vwait.n
+++ b/doc/vwait.n
@@ -13,44 +13,57 @@ vwait \- Process events until a variable is written
.SH SYNOPSIS
\fBvwait\fR \fIvarName\fR
.BE
-
.SH DESCRIPTION
.PP
This command enters the Tcl event loop to process events, blocking
the application if no events are ready. It continues processing
-events until some event handler sets the value of variable
+events until some event handler sets the value of the global variable
\fIvarName\fR. Once \fIvarName\fR has been set, the \fBvwait\fR
command will return as soon as the event handler that modified
-\fIvarName\fR completes. \fIvarName\fR must be globally scoped
-(either with a call to \fBglobal\fR for the \fIvarName\fR, or with
-the full namespace path specification).
+\fIvarName\fR completes. The \fIvarName\fR argument is always interpreted as
+a variable name with respect to the global namespace, but can refer to any
+namespace's variables if the fully-qualified name is given.
.PP
In some cases the \fBvwait\fR command may not return immediately
-after \fIvarName\fR is set. This can happen if the event handler
+after \fIvarName\fR is set. This happens if the event handler
that sets \fIvarName\fR does not complete immediately. For example,
if an event handler sets \fIvarName\fR and then itself calls
\fBvwait\fR to wait for a different variable, then it may not return
for a long time. During this time the top-level \fBvwait\fR is
blocked waiting for the event handler to complete, so it cannot
-return either.
+return either. (See the \fBNESTED VWAITS BY EXAMPLE\fR below.)
+.PP
+To be clear, \fImultiple \fBvwait\fI calls will nest and will not happen in
+parallel\fR. The outermost call to \fBvwait\fR will not return until all the
+inner ones do. It is recommended that code should never nest \fBvwait\fR
+calls (by avoiding putting them in event callbacks) but when that is not
+possible, care should be taken to add interlock variables to the code to
+prevent all reentrant calls to \fBvwait\fR that are not \fIstrictly\fR
+necessary. Be aware that the synchronous modes of operation of some Tcl
+packages (e.g.,\ \fBhttp\fR) use \fBvwait\fR internally; if using the event
+loop, it is best to use the asynchronous callback-based modes of operation of
+those packages where available.
.SH EXAMPLES
+.PP
Run the event-loop continually until some event calls \fBexit\fR.
(You can use any variable not mentioned elsewhere, but the name
\fIforever\fR reminds you at a glance of the intent.)
+.PP
.CS
\fBvwait\fR forever
.CE
.PP
Wait five seconds for a connection to a server socket, otherwise
close the socket and continue running the script:
+.PP
.CS
# Initialise the state
after 5000 set state timeout
set server [socket -server accept 12345]
proc accept {args} {
- global state connectionInfo
- set state accepted
- set connectionInfo $args
+ global state connectionInfo
+ set state accepted
+ set connectionInfo $args
}
# Wait for something to happen
@@ -62,18 +75,172 @@ after cancel set state timeout
# Do something based on how the vwait finished...
switch $state {
- timeout {
- puts "no connection on port 12345"
- }
- accepted {
- puts "connection: $connectionInfo"
- puts [lindex $connectionInfo 0] "Hello there!"
- }
+ timeout {
+ puts "no connection on port 12345"
+ }
+ accepted {
+ puts "connection: $connectionInfo"
+ puts [lindex $connectionInfo 0] "Hello there!"
+ }
+}
+.CE
+.PP
+A command that will wait for some time delay by waiting for a namespace
+variable to be set. Includes an interlock to prevent nested waits.
+.PP
+.CS
+namespace eval example {
+ variable v done
+ proc wait {delay} {
+ variable v
+ if {$v ne "waiting"} {
+ set v waiting
+ after $delay [namespace code {set v done}]
+ \fBvwait\fR [namespace which -variable v]
+ }
+ return $v
+ }
+}
+.CE
+.PP
+When running inside a \fBcoroutine\fR, an alternative to using \fBvwait\fR is
+to \fByield\fR to an outer event loop and to get recommenced when the variable
+is set, or at an idle moment after that.
+.PP
+.CS
+coroutine task apply {{} {
+ # simulate [after 1000]
+ after 1000 [info coroutine]
+ yield
+
+ # schedule the setting of a global variable, as normal
+ after 2000 {set var 1}
+
+ # simulate [\fBvwait\fR var]
+ proc updatedVar {task args} {
+ after idle $task
+ trace remove variable ::var write "updatedVar $task"
+ }
+ trace add variable ::var write "updatedVar [info coroutine]"
+ yield
+}}
+.CE
+.SS "NESTED VWAITS BY EXAMPLE"
+.PP
+This example demonstrates what can happen when the \fBvwait\fR command is
+nested. The script will never finish because the waiting for the \fIa\fR
+variable never finishes; that \fBvwait\fR command is still waiting for a
+script scheduled with \fBafter\fR to complete, which just happens to be
+running an inner \fBvwait\fR (for \fIb\fR) even though the event that the
+outer \fBvwait\fR was waiting for (the setting of \fIa\fR) has occurred.
+.PP
+.CS
+after 500 {
+ puts "waiting for b"
+ \fBvwait\fR b
+ puts "b was set"
}
+after 1000 {
+ puts "setting a"
+ set a 10
+}
+puts "waiting for a"
+\fBvwait\fR a
+puts "a was set"
+puts "setting b"
+set b 42
+.CE
+.PP
+If you run the above code, you get this output:
+.PP
+.CS
+waiting for a
+waiting for b
+setting a
+.CE
+.PP
+The script will never print
+.QW "a was set"
+until after it has printed
+.QW "b was set"
+because of the nesting of \fBvwait\fR commands, and yet \fIb\fR will not be
+set until after the outer \fBvwait\fR returns, so the script has deadlocked.
+The only ways to avoid this are to either structure the overall program in
+continuation-passing style or to use \fBcoroutine\fR to make the continuations
+implicit. The first of these options would be written as:
+.PP
+.CS
+after 500 {
+ puts "waiting for b"
+ trace add variable b write {apply {args {
+ global a b
+ trace remove variable ::b write \e
+ [lrange [info level 0] 0 1]
+ puts "b was set"
+ set ::done ok
+ }}}
+}
+after 1000 {
+ puts "setting a"
+ set a 10
+}
+puts "waiting for a"
+trace add variable a write {apply {args {
+ global a b
+ trace remove variable a write [lrange [info level 0] 0 1]
+ puts "a was set"
+ puts "setting b"
+ set b 42
+}}}
+\fBvwait\fR done
.CE
+.PP
+The second option, with \fBcoroutine\fR and some helper procedures, is done
+like this:
+.PP
+.CS
+# A coroutine-based wait-for-variable command
+proc waitvar globalVar {
+ trace add variable ::$globalVar write \e
+ [list apply {{v c args} {
+ trace remove variable $v write \e
+ [lrange [info level 0] 0 3]
+ after 0 $c
+ }} ::$globalVar [info coroutine]]
+ yield
+}
+# A coroutine-based wait-for-some-time command
+proc waittime ms {
+ after $ms [info coroutine]
+ yield
+}
+coroutine task-1 eval {
+ puts "waiting for a"
+ waitvar a
+ puts "a was set"
+ puts "setting b"
+ set b 42
+}
+coroutine task-2 eval {
+ waittime 500
+ puts "waiting for b"
+ waitvar b
+ puts "b was set"
+ set done ok
+}
+coroutine task-3 eval {
+ waittime 1000
+ puts "setting a"
+ set a 10
+}
+\fBvwait\fR done
+.CE
.SH "SEE ALSO"
global(n), update(n)
-
.SH KEYWORDS
-event, variable, wait
+asynchronous I/O, event, variable, wait
+'\" Local Variables:
+'\" mode: nroff
+'\" fill-column: 78
+'\" End:
diff --git a/doc/while.n b/doc/while.n
index 33aa415..5416e25 100644
--- a/doc/while.n
+++ b/doc/while.n
@@ -14,7 +14,6 @@ while \- Execute script repeatedly as long as a condition is met
.SH SYNOPSIS
\fBwhile \fItest body\fR
.BE
-
.SH DESCRIPTION
.PP
The \fBwhile\fR command evaluates \fItest\fR as an expression
@@ -41,6 +40,7 @@ expression is evaluated (before
each loop iteration), so changes in the variables will be visible.
For an example, try the following script with and without the braces
around \fB$x<10\fR:
+.PP
.CS
set x 0
\fBwhile\fR {$x<10} {
@@ -49,17 +49,17 @@ set x 0
}
.CE
.SH EXAMPLE
+.PP
Read lines from a channel until we get to the end of the stream, and
print them out with a line-number prepended:
+.PP
.CS
set lineCount 0
\fBwhile\fR {[gets $chan line] >= 0} {
puts "[incr lineCount]: $line"
}
.CE
-
.SH "SEE ALSO"
break(n), continue(n), for(n), foreach(n)
-
.SH KEYWORDS
-boolean value, loop, test, while
+boolean, loop, test, while
diff --git a/doc/zlib.n b/doc/zlib.n
new file mode 100644
index 0000000..951b713
--- /dev/null
+++ b/doc/zlib.n
@@ -0,0 +1,460 @@
+'\"
+'\" Copyright (c) 2008-2012 Donal K. Fellows
+'\"
+'\" See the file "license.terms" for information on usage and redistribution
+'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
+'\"
+.so man.macros
+.TH zlib n 8.6 Tcl "Tcl Built-In Commands"
+.BS
+'\" Note: do not modify the .SH NAME line immediately below!
+.SH NAME
+zlib \- compression and decompression operations
+.SH SYNOPSIS
+.nf
+\fBzlib \fIsubcommand arg ...\fR
+.fi
+.BE
+.SH DESCRIPTION
+.PP
+The \fBzlib\fR command provides access to the compression and check-summing
+facilities of the Zlib library by Jean-loup Gailly and Mark Adler. It has the
+following subcommands.
+.SS "COMPRESSION SUBCOMMANDS"
+.TP
+\fBzlib compress\fI string\fR ?\fIlevel\fR?
+.
+Returns the zlib-format compressed binary data of the binary string in
+\fIstring\fR. If present, \fIlevel\fR gives the compression level to use (from
+0, which is uncompressed, to 9, maximally compressed).
+.TP
+\fBzlib decompress\fI string\fR ?\fIbufferSize\fR?
+.
+Returns the uncompressed version of the raw compressed binary data in
+\fIstring\fR. If present, \fIbufferSize\fR is a hint as to what size of buffer
+is to be used to receive the data.
+.TP
+\fBzlib deflate\fI string\fR ?\fIlevel\fR?
+.
+Returns the raw compressed binary data of the binary string in \fIstring\fR.
+If present, \fIlevel\fR gives the compression level to use (from 0, which is
+uncompressed, to 9, maximally compressed).
+.TP
+\fBzlib gunzip\fI string\fR ?\fB\-headerVar \fIvarName\fR?
+.
+Return the uncompressed contents of binary string \fIstring\fR, which must
+have been in gzip format. If \fB\-headerVar\fR is given, store a dictionary
+describing the contents of the gzip header in the variable called
+\fIvarName\fR. The keys of the dictionary that may be present are:
+.RS
+.TP
+\fBcomment\fR
+.
+The comment field from the header, if present.
+.TP
+\fBcrc\fR
+.
+A boolean value describing whether a CRC of the header is computed.
+.TP
+\fBfilename\fR
+.
+The filename field from the header, if present.
+.TP
+\fBos\fR
+.
+The operating system type code field from the header (if not the
+QW unknown
+value). See RFC 1952 for the meaning of these codes.
+.TP
+\fBsize\fR
+.
+The size of the uncompressed data.
+.TP
+\fBtime\fR
+.
+The time field from the header if non-zero, expected to be time that the file
+named by the \fBfilename\fR field was modified. Suitable for use with
+\fBclock format\fR.
+.TP
+\fBtype\fR
+.
+The type of the uncompressed data (\fBbinary\fR or \fBtext\fR) if known.
+.RE
+.TP
+\fBzlib gzip\fI string\fR ?\fB\-level \fIlevel\fR? ?\fB\-header \fIdict\fR?
+.
+Return the compressed contents of binary string \fIstring\fR in gzip format.
+If \fB\-level\fR is given, \fIlevel\fR gives the compression level to use
+(from 0, which is uncompressed, to 9, maximally compressed). If \fB\-header\fR
+is given, \fIdict\fR is a dictionary containing values used for the gzip
+header. The following keys may be defined:
+.RS
+.TP
+\fBcomment\fR
+.
+Add the given comment to the header of the gzip-format data.
+.TP
+\fBcrc\fR
+.
+A boolean saying whether to compute a CRC of the header. Note that if the data
+is to be interchanged with the \fBgzip\fR program, a header CRC should
+\fInot\fR be computed.
+.TP
+\fBfilename\fR
+.
+The name of the file that the data to be compressed came from.
+.TP
+\fBos\fR
+.
+The operating system type code, which should be one of the values described in
+RFC 1952.
+.TP
+\fBtime\fR
+.
+The time that the file named in the \fBfilename\fR key was last modified. This
+will be in the same as is returned by \fBclock seconds\fR or \fBfile mtime\fR.
+.TP
+\fBtype\fR
+.
+The type of the data being compressed, being \fBbinary\fR or \fBtext\fR.
+.RE
+.TP
+\fBzlib inflate\fI string\fR ?\fIbufferSize\fR?
+.
+Returns the uncompressed version of the raw compressed binary data in
+\fIstring\fR. If present, \fIbufferSize\fR is a hint as to what size of buffer
+is to be used to receive the data.
+.SS "CHANNEL SUBCOMMAND"
+.TP
+\fBzlib push\fI mode channel\fR ?\fIoptions ...\fR?
+.
+Pushes a compressing or decompressing transformation onto the channel
+\fIchannel\fR.
+The transformation can be removed again with \fBchan pop\fR.
+The \fImode\fR argument determines what type of transformation
+is pushed; the following are supported:
+.RS
+.TP
+\fBcompress\fR
+.
+The transformation will be a compressing transformation that produces
+zlib-format data on \fIchannel\fR, which must be writable.
+.TP
+\fBdecompress\fR
+.
+The transformation will be a decompressing transformation that reads
+zlib-format data from \fIchannel\fR, which must be readable.
+.TP
+\fBdeflate\fR
+.
+The transformation will be a compressing transformation that produces raw
+compressed data on \fIchannel\fR, which must be writable.
+.TP
+\fBgunzip\fR
+.
+The transformation will be a decompressing transformation that reads
+gzip-format data from \fIchannel\fR, which must be readable.
+.TP
+\fBgzip\fR
+.
+The transformation will be a compressing transformation that produces
+gzip-format data on \fIchannel\fR, which must be writable.
+.TP
+\fBinflate\fR
+.
+The transformation will be a decompressing transformation that reads raw
+compressed data from \fIchannel\fR, which must be readable.
+.PP
+The following options may be set when creating a transformation via
+the
+.QW "\fIoptions ...\fR"
+to the \fBzlib push\fR command:
+.TP
+\fB\-dictionary\fI binData\fR
+.VS "TIP 400"
+Sets the compression dictionary to use when working with compressing or
+decompressing the data to be \fIbinData\fR. Not valid for transformations that
+work with gzip-format data.
+.VE
+.TP
+\fB\-header\fI dictionary\fR
+.
+Passes a description of the gzip header to create, in the same format that
+\fBzlib gzip\fR understands.
+.TP
+\fB\-level\fI compressionLevel\fR
+.
+How hard to compress the data. Must be an integer from 0 (uncompressed) to 9
+(maximally compressed).
+.TP
+\fB\-limit\fI readaheadLimit\fR
+.
+The maximum number of bytes ahead to read when decompressing. This defaults to
+1, which ensures that data is always decompressed correctly, but may be
+increased to improve performance. This is more useful when the channel is
+non-blocking.
+.PP
+Both compressing and decompressing channel transformations add extra
+configuration options that may be accessed through \fBchan configure\fR. The
+options are:
+.TP
+\fB\-checksum\fI checksum\fR
+.
+This read-only option gets the current checksum for the uncompressed data that
+the compression engine has seen so far. It is valid for both compressing and
+decompressing transforms, but not for the raw inflate and deflate formats. The
+compression algorithm depends on what format is being produced or consumed.
+.TP
+\fB\-dictionary\fI binData\fR
+.VS "TIP 400"
+This read-write options gets or sets the compression dictionary to use when
+working with compressing or decompressing the data to be \fIbinData\fR. It is
+not valid for transformations that work with gzip-format data, and should not
+normally be set on compressing transformations other than at the point where
+the transformation is stacked.
+.VE
+.TP
+\fB\-flush\fI type\fR
+.
+This write-only operation flushes the current state of the compressor to the
+underlying channel. It is only valid for compressing transformations. The
+\fItype\fR must be either \fBsync\fR or \fBfull\fR for a normal flush or an
+expensive flush respectively. Flushing degrades the compression ratio, but
+makes it easier for a decompressor to recover more of the file in the case of
+data corruption.
+.TP
+\fB\-header\fI dictionary\fR
+.
+This read-only option, only valid for decompressing transforms that are
+processing gzip-format data, returns the dictionary describing the header read
+off the data stream.
+.TP
+\fB\-limit\fI readaheadLimit\fR
+.
+This read-write option is used by decompressing channels to control the
+maximum number of bytes ahead to read from the underlying data source. This
+defaults to 1, which ensures that data is always decompressed correctly, but
+may be increased to improve performance. This is more useful when the channel
+is non-blocking.
+.RE
+.SS "STREAMING SUBCOMMAND"
+.TP
+\fBzlib stream\fI mode\fR ?\fIoptions\fR?
+.
+Creates a streaming compression or decompression command based on the
+\fImode\fR, and return the name of the command. For a description of how that
+command works, see \fBSTREAMING INSTANCE COMMAND\fR below. The following modes
+and \fIoptions\fR are supported:
+.RS
+.TP
+\fBzlib stream compress\fR ?\fB\-dictionary \fIbindata\fR? ?\fB\-level \fIlevel\fR?
+.
+The stream will be a compressing stream that produces zlib-format output,
+using compression level \fIlevel\fR (if specified) which will be an integer
+from 0 to 9,
+.VS "TIP 400"
+and the compression dictionary \fIbindata\fR (if specified).
+.VE
+.TP
+\fBzlib stream decompress\fR ?\fB\-dictionary \fIbindata\fR?
+.
+The stream will be a decompressing stream that takes zlib-format input and
+produces uncompressed output.
+.VS "TIP 400"
+If \fIbindata\fR is supplied, it is a compression dictionary to use if
+required.
+.VE
+.TP
+\fBzlib stream deflate\fR ?\fB\-dictionary \fIbindata\fR? ?\fB\-level \fIlevel\fR?
+.
+The stream will be a compressing stream that produces raw output, using
+compression level \fIlevel\fR (if specified) which will be an integer from 0
+to 9,
+.VS "TIP 400"
+and the compression dictionary \fIbindata\fR (if specified). Note that
+the raw compressed data includes no metadata about what compression
+dictionary was used, if any; that is a feature of the zlib-format data.
+.VE
+.TP
+\fBzlib stream gunzip\fR
+.
+The stream will be a decompressing stream that takes gzip-format input and
+produces uncompressed output.
+.TP
+\fBzlib stream gzip\fR ?\fB\-header \fIheader\fR? ?\fB\-level \fIlevel\fR?
+.
+The stream will be a compressing stream that produces gzip-format output,
+using compression level \fIlevel\fR (if specified) which will be an integer
+from 0 to 9, and the header descriptor dictionary \fIheader\fR (if specified;
+for keys see \fBzlib gzip\fR).
+.TP
+\fBzlib stream inflate\fR ?\fB\-dictionary \fIbindata\fR?
+.
+The stream will be a decompressing stream that takes raw compressed input and
+produces uncompressed output.
+.VS "TIP 400"
+If \fIbindata\fR is supplied, it is a compression dictionary to use. Note that
+there are no checks in place to determine whether the compression dictionary
+is correct.
+.VE
+.RE
+.SS "CHECKSUMMING SUBCOMMANDS"
+.TP
+\fBzlib adler32\fI string\fR ?\fIinitValue\fR?
+.
+Compute a checksum of binary string \fIstring\fR using the Adler-32 algorithm.
+If given, \fIinitValue\fR is used to initialize the checksum engine.
+.TP
+\fBzlib crc32\fI string\fR ?\fIinitValue\fR?
+.
+Compute a checksum of binary string \fIstring\fR using the CRC-32 algorithm.
+If given, \fIinitValue\fR is used to initialize the checksum engine.
+.SH "STREAMING INSTANCE COMMAND"
+.PP
+Streaming compression instance commands are produced by the \fBzlib stream\fR
+command. They are used by calling their \fBput\fR subcommand one or more times
+to load data in, and their \fBget\fR subcommand one or more times to extract
+the transformed data.
+.PP
+The full set of subcommands supported by a streaming instance command,
+\fIstream\fR, is as follows:
+.TP
+\fIstream \fBadd\fR ?\fIoption...\fR? \fIdata\fR
+.
+A short-cut for
+.QW "\fIstream \fBput \fR?\fIoption...\fR? \fIdata\fR"
+followed by
+.QW "\fIstream \fBget\fR" .
+.TP
+\fIstream \fBchecksum\fR
+.
+Returns the checksum of the uncompressed data seen so far by this stream.
+.TP
+\fIstream \fBclose\fR
+.
+Deletes this stream and frees up all resources associated with it.
+.TP
+\fIstream \fBeof\fR
+.
+Returns a boolean indicating whether the end of the stream (as determined by
+the compressed data itself) has been reached. Not all formats support
+detection of the end of the stream.
+.TP
+\fIstream \fBfinalize\fR
+.
+A short-cut for
+.QW "\fIstream \fBput \-finalize {}\fR" .
+.TP
+\fIstream \fBflush\fR
+.
+A short-cut for
+.QW "\fIstream \fBput \-flush {}\fR" .
+.TP
+\fIstream \fBfullflush\fR
+.
+A short-cut for
+.QW "\fIstream \fBput \-fullflush {}\fR" .
+.TP
+\fIstream \fBget \fR?\fIcount\fR?
+.
+Return up to \fIcount\fR bytes from \fIstream\fR's internal buffers with the
+transformation applied. If \fIcount\fR is omitted, the entire contents of the
+buffers are returned.
+.
+\fIstream \fBheader\fR
+.
+Return the gzip header description dictionary extracted from the stream. Only
+supported for streams created with their \fImode\fR parameter set to
+\fBgunzip\fR.
+.TP
+\fIstream \fBput\fR ?\fIoption...\fR? \fIdata\fR
+.
+Append the contents of the binary string \fIdata\fR to \fIstream\fR's internal
+buffers while applying the transformation. The following \fIoption\fRs are
+supported (or an unambiguous prefix of them), which are used to modify the
+way in which the transformation is applied:
+.RS
+.TP
+\fB\-dictionary\fI binData\fR
+.VS "TIP 400"
+Sets the compression dictionary to use when working with compressing or
+decompressing the data to be \fIbinData\fR.
+.VE
+.TP
+\fB\-finalize\fR
+.
+Mark the stream as finished, ensuring that all bytes have been wholly
+compressed or decompressed. For gzip streams, this also ensures that the
+footer is written to the stream. The stream will need to be reset before
+having more data written to it after this, though data can still be read out
+of the stream with the \fBget\fR subcommand.
+.RS
+.PP
+This option is mutually exclusive with the \fB\-flush\fR and \fB\-fullflush\fR
+options.
+.RE
+.TP
+\fB\-flush\fR
+.
+Ensure that a decompressor consuming the bytes that the current (compressing)
+stream is producing will be able to produce all the bytes that have been
+compressed so far, at some performance penalty.
+.RS
+.PP
+This option is mutually exclusive with the \fB\-finalize\fR and
+\fB\-fullflush\fR options.
+.RE
+.TP
+\fB\-fullflush\fR
+.
+Ensure that not only can a decompressor handle all the bytes produced so far
+(as with \fB\-flush\fR above) but also that it can restart from this point if
+it detects that the stream is partially corrupt. This incurs a substantial
+performance penalty.
+.RS
+.PP
+This option is mutually exclusive with the \fB\-finalize\fR and \fB\-flush\fR
+options.
+.RE
+.RE
+.TP
+\fIstream \fBreset\fR
+.
+Puts any stream, including those that have been finalized or that have reached
+eof, back into a state where it can process more data. Throws away all
+internally buffered data.
+.SH EXAMPLES
+.PP
+To compress a Tcl string, it should be first converted to a particular charset
+encoding since the \fBzlib\fR command always operates on binary strings.
+.PP
+.CS
+set binData [encoding convertto utf-8 $string]
+set compData [\fBzlib compress\fR $binData]
+.CE
+.PP
+When converting back, it is also important to reverse the charset encoding:
+.PP
+.CS
+set binData [\fBzlib decompress\fR $compData]
+set string [encoding convertfrom utf-8 $binData]
+.CE
+.PP
+The compression operation from above can also be done with streams, which is
+especially helpful when you want to accumulate the data by stages:
+.PP
+.CS
+set strm [\fBzlib stream\fR compress]
+$\fIstrm \fBput\fR [encoding convertto utf-8 $string]
+# ...
+$\fIstrm \fBfinalize\fR
+set compData [$\fIstrm \fBget\fR]
+$\fIstrm \fBclose\fR
+.CE
+.SH "SEE ALSO"
+binary(n), chan(n), encoding(n), Tcl_ZlibDeflate(3), RFC1950 \- RFC1952
+.SH "KEYWORDS"
+compress, decompress, deflate, gzip, inflate, zlib
+'\" Local Variables:
+'\" mode: nroff
+'\" End: