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-rw-r--r--generic/tclUtil.c2579
1 files changed, 1753 insertions, 826 deletions
diff --git a/generic/tclUtil.c b/generic/tclUtil.c
index 64d36f4..2d00adf 100644
--- a/generic/tclUtil.c
+++ b/generic/tclUtil.c
@@ -10,12 +10,11 @@
*
* See the file "license.terms" for information on usage and redistribution of
* this file, and for a DISCLAIMER OF ALL WARRANTIES.
- *
- * RCS: @(#) $Id: tclUtil.c,v 1.97.2.6 2010/08/10 20:48:21 hobbs Exp $
*/
#include "tclInt.h"
-#include <float.h>
+#include "tclParse.h"
+#include "tclStringTrim.h"
#include <math.h>
/*
@@ -28,31 +27,71 @@ static ProcessGlobalValue executableName = {
};
/*
- * The following values are used in the flags returned by Tcl_ScanElement and
- * used by Tcl_ConvertElement. The values TCL_DONT_USE_BRACES and
- * TCL_DONT_QUOTE_HASH are defined in tcl.h; make sure neither value overlaps
- * with any of the values below.
- *
- * TCL_DONT_USE_BRACES - 1 means the string mustn't be enclosed in
- * braces (e.g. it contains unmatched braces, or
- * ends in a backslash character, or user just
- * doesn't want braces); handle all special
- * characters by adding backslashes.
- * USE_BRACES - 1 means the string contains a special
- * character that can be handled simply by
- * enclosing the entire argument in braces.
- * BRACES_UNMATCHED - 1 means that braces aren't properly matched in
- * the argument.
+ * The following values are used in the flags arguments of Tcl*Scan*Element
+ * and Tcl*Convert*Element. The values TCL_DONT_USE_BRACES and
+ * TCL_DONT_QUOTE_HASH are defined in tcl.h, like so:
+ *
+#define TCL_DONT_USE_BRACES 1
+#define TCL_DONT_QUOTE_HASH 8
+ *
+ * Those are public flag bits which callers of the public routines
+ * Tcl_Convert*Element() can use to indicate:
+ *
+ * TCL_DONT_USE_BRACES - 1 means the caller is insisting that brace
+ * quoting not be used when converting the list
+ * element.
* TCL_DONT_QUOTE_HASH - 1 means the caller insists that a leading hash
- * character ('#') should *not* be quoted. This
- * is appropriate when the caller can guarantee
- * the element is not the first element of a
- * list, so [eval] cannot mis-parse the element
- * as a comment.
+ * character ('#') should *not* be quoted. This
+ * is appropriate when the caller can guarantee
+ * the element is not the first element of a
+ * list, so [eval] cannot mis-parse the element
+ * as a comment.
+ *
+ * The remaining values which can be carried by the flags of these routines
+ * are for internal use only. Make sure they do not overlap with the public
+ * values above.
+ *
+ * The Tcl*Scan*Element() routines make a determination which of 4 modes of
+ * conversion is most appropriate for Tcl*Convert*Element() to perform, and
+ * sets two bits of the flags value to indicate the mode selected.
+ *
+ * CONVERT_NONE The element needs no quoting. Its literal string is
+ * suitable as is.
+ * CONVERT_BRACE The conversion should be enclosing the literal string
+ * in braces.
+ * CONVERT_ESCAPE The conversion should be using backslashes to escape
+ * any characters in the string that require it.
+ * CONVERT_MASK A mask value used to extract the conversion mode from
+ * the flags argument.
+ * Also indicates a strange conversion mode where all
+ * special characters are escaped with backslashes
+ * *except for braces*. This is a strange and unnecessary
+ * case, but it's part of the historical way in which
+ * lists have been formatted in Tcl. To experiment with
+ * removing this case, set the value of COMPAT to 0.
+ *
+ * One last flag value is used only by callers of TclScanElement(). The flag
+ * value produced by a call to Tcl*Scan*Element() will never leave this bit
+ * set.
+ *
+ * CONVERT_ANY The caller of TclScanElement() declares it can make no
+ * promise about what public flags will be passed to the
+ * matching call of TclConvertElement(). As such,
+ * TclScanElement() has to determine the worst case
+ * destination buffer length over all possibilities, and
+ * in other cases this means an overestimate of the
+ * required size.
+ *
+ * For more details, see the comments on the Tcl*Scan*Element and
+ * Tcl*Convert*Element routines.
*/
-#define USE_BRACES 2
-#define BRACES_UNMATCHED 4
+#define COMPAT 1
+#define CONVERT_NONE 0
+#define CONVERT_BRACE 2
+#define CONVERT_ESCAPE 4
+#define CONVERT_MASK (CONVERT_BRACE | CONVERT_ESCAPE)
+#define CONVERT_ANY 16
/*
* The following key is used by Tcl_PrintDouble and TclPrecTraceProc to
@@ -69,9 +108,9 @@ static void ClearHash(Tcl_HashTable *tablePtr);
static void FreeProcessGlobalValue(ClientData clientData);
static void FreeThreadHash(ClientData clientData);
static Tcl_HashTable * GetThreadHash(Tcl_ThreadDataKey *keyPtr);
-static int SetEndOffsetFromAny(Tcl_Interp* interp,
- Tcl_Obj* objPtr);
-static void UpdateStringOfEndOffset(Tcl_Obj* objPtr);
+static int SetEndOffsetFromAny(Tcl_Interp *interp,
+ Tcl_Obj *objPtr);
+static void UpdateStringOfEndOffset(Tcl_Obj *objPtr);
/*
* The following is the Tcl object type definition for an object that
@@ -80,7 +119,7 @@ static void UpdateStringOfEndOffset(Tcl_Obj* objPtr);
* integer, so no memory management is required for it.
*/
-Tcl_ObjType tclEndOffsetType = {
+const Tcl_ObjType tclEndOffsetType = {
"end-offset", /* name */
NULL, /* freeIntRepProc */
NULL, /* dupIntRepProc */
@@ -89,6 +128,322 @@ Tcl_ObjType tclEndOffsetType = {
};
/*
+ * * STRING REPRESENTATION OF LISTS * * *
+ *
+ * The next several routines implement the conversions of strings to and from
+ * Tcl lists. To understand their operation, the rules of parsing and
+ * generating the string representation of lists must be known. Here we
+ * describe them in one place.
+ *
+ * A list is made up of zero or more elements. Any string is a list if it is
+ * made up of alternating substrings of element-separating ASCII whitespace
+ * and properly formatted elements.
+ *
+ * The ASCII characters which can make up the whitespace between list elements
+ * are:
+ *
+ * \u0009 \t TAB
+ * \u000A \n NEWLINE
+ * \u000B \v VERTICAL TAB
+ * \u000C \f FORM FEED
+ * \u000D \r CARRIAGE RETURN
+ * \u0020 SPACE
+ *
+ * NOTE: differences between this and other places where Tcl defines a role
+ * for "whitespace".
+ *
+ * * Unlike command parsing, here NEWLINE is just another whitespace
+ * character; its role as a command terminator in a script has no
+ * importance here.
+ *
+ * * Unlike command parsing, the BACKSLASH NEWLINE sequence is not
+ * considered to be a whitespace character.
+ *
+ * * Other Unicode whitespace characters (recognized by [string is space]
+ * or Tcl_UniCharIsSpace()) do not play any role as element separators
+ * in Tcl lists.
+ *
+ * * The NUL byte ought not appear, as it is not in strings properly
+ * encoded for Tcl, but if it is present, it is not treated as
+ * separating whitespace, or a string terminator. It is just another
+ * character in a list element.
+ *
+ * The interpretation of a formatted substring as a list element follows rules
+ * similar to the parsing of the words of a command in a Tcl script. Backslash
+ * substitution plays a key role, and is defined exactly as it is in command
+ * parsing. The same routine, TclParseBackslash() is used in both command
+ * parsing and list parsing.
+ *
+ * NOTE: This means that if and when backslash substitution rules ever change
+ * for command parsing, the interpretation of strings as lists also changes.
+ *
+ * Backslash substitution replaces an "escape sequence" of one or more
+ * characters starting with
+ * \u005c \ BACKSLASH
+ * with a single character. The one character escape sequence case happens only
+ * when BACKSLASH is the last character in the string. In all other cases, the
+ * escape sequence is at least two characters long.
+ *
+ * The formatted substrings are interpreted as element values according to the
+ * following cases:
+ *
+ * * If the first character of a formatted substring is
+ * \u007b { OPEN BRACE
+ * then the end of the substring is the matching
+ * \u007d } CLOSE BRACE
+ * character, where matching is determined by counting nesting levels, and
+ * not including any brace characters that are contained within a backslash
+ * escape sequence in the nesting count. Having found the matching brace,
+ * all characters between the braces are the string value of the element.
+ * If no matching close brace is found before the end of the string, the
+ * string is not a Tcl list. If the character following the close brace is
+ * not an element separating whitespace character, or the end of the string,
+ * then the string is not a Tcl list.
+ *
+ * NOTE: this differs from a brace-quoted word in the parsing of a Tcl
+ * command only in its treatment of the backslash-newline sequence. In a
+ * list element, the literal characters in the backslash-newline sequence
+ * become part of the element value. In a script word, conversion to a
+ * single SPACE character is done.
+ *
+ * NOTE: Most list element values can be represented by a formatted
+ * substring using brace quoting. The exceptions are any element value that
+ * includes an unbalanced brace not in a backslash escape sequence, and any
+ * value that ends with a backslash not itself in a backslash escape
+ * sequence.
+ *
+ * * If the first character of a formatted substring is
+ * \u0022 " QUOTE
+ * then the end of the substring is the next QUOTE character, not counting
+ * any QUOTE characters that are contained within a backslash escape
+ * sequence. If no next QUOTE is found before the end of the string, the
+ * string is not a Tcl list. If the character following the closing QUOTE is
+ * not an element separating whitespace character, or the end of the string,
+ * then the string is not a Tcl list. Having found the limits of the
+ * substring, the element value is produced by performing backslash
+ * substitution on the character sequence between the open and close QUOTEs.
+ *
+ * NOTE: Any element value can be represented by this style of formatting,
+ * given suitable choice of backslash escape sequences.
+ *
+ * * All other formatted substrings are terminated by the next element
+ * separating whitespace character in the string. Having found the limits
+ * of the substring, the element value is produced by performing backslash
+ * substitution on it.
+ *
+ * NOTE: Any element value can be represented by this style of formatting,
+ * given suitable choice of backslash escape sequences, with one exception.
+ * The empty string cannot be represented as a list element without the use
+ * of either braces or quotes to delimit it.
+ *
+ * This collection of parsing rules is implemented in the routine
+ * TclFindElement().
+ *
+ * In order to produce lists that can be parsed by these rules, we need the
+ * ability to distinguish between characters that are part of a list element
+ * value from characters providing syntax that define the structure of the
+ * list. This means that our code that generates lists must at a minimum be
+ * able to produce escape sequences for the 10 characters identified above
+ * that have significance to a list parser.
+ *
+ * * * CANONICAL LISTS * * * * *
+ *
+ * In addition to the basic rules for parsing strings into Tcl lists, there
+ * are additional properties to be met by the set of list values that are
+ * generated by Tcl. Such list values are often said to be in "canonical
+ * form":
+ *
+ * * When any canonical list is evaluated as a Tcl script, it is a script of
+ * either zero commands (an empty list) or exactly one command. The command
+ * word is exactly the first element of the list, and each argument word is
+ * exactly one of the following elements of the list. This means that any
+ * characters that have special meaning during script evaluation need
+ * special treatment when canonical lists are produced:
+ *
+ * * Whitespace between elements may not include NEWLINE.
+ * * The command terminating character,
+ * \u003b ; SEMICOLON
+ * must be BRACEd, QUOTEd, or escaped so that it does not terminate the
+ * command prematurely.
+ * * Any of the characters that begin substitutions in scripts,
+ * \u0024 $ DOLLAR
+ * \u005b [ OPEN BRACKET
+ * \u005c \ BACKSLASH
+ * need to be BRACEd or escaped.
+ * * In any list where the first character of the first element is
+ * \u0023 # HASH
+ * that HASH character must be BRACEd, QUOTEd, or escaped so that it
+ * does not convert the command into a comment.
+ * * Any list element that contains the character sequence BACKSLASH
+ * NEWLINE cannot be formatted with BRACEs. The BACKSLASH character
+ * must be represented by an escape sequence, and unless QUOTEs are
+ * used, the NEWLINE must be as well.
+ *
+ * * It is also guaranteed that one can use a canonical list as a building
+ * block of a larger script within command substitution, as in this example:
+ * set script "puts \[[list $cmd $arg]]"; eval $script
+ * To support this usage, any appearance of the character
+ * \u005d ] CLOSE BRACKET
+ * in a list element must be BRACEd, QUOTEd, or escaped.
+ *
+ * * Finally it is guaranteed that enclosing a canonical list in braces
+ * produces a new value that is also a canonical list. This new list has
+ * length 1, and its only element is the original canonical list. This same
+ * guarantee also makes it possible to construct scripts where an argument
+ * word is given a list value by enclosing the canonical form of that list
+ * in braces:
+ * set script "puts {[list $one $two $three]}"; eval $script
+ * This sort of coding was once fairly common, though it's become more
+ * idiomatic to see the following instead:
+ * set script [list puts [list $one $two $three]]; eval $script
+ * In order to support this guarantee, every canonical list must have
+ * balance when counting those braces that are not in escape sequences.
+ *
+ * Within these constraints, the canonical list generation routines
+ * TclScanElement() and TclConvertElement() attempt to generate the string for
+ * any list that is easiest to read. When an element value is itself
+ * acceptable as the formatted substring, it is usually used (CONVERT_NONE).
+ * When some quoting or escaping is required, use of BRACEs (CONVERT_BRACE) is
+ * usually preferred over the use of escape sequences (CONVERT_ESCAPE). There
+ * are some exceptions to both of these preferences for reasons of code
+ * simplicity, efficiency, and continuation of historical habits. Canonical
+ * lists never use the QUOTE formatting to delimit their elements because that
+ * form of quoting does not nest, which makes construction of nested lists far
+ * too much trouble. Canonical lists always use only a single SPACE character
+ * for element-separating whitespace.
+ *
+ * * * FUTURE CONSIDERATIONS * * *
+ *
+ * When a list element requires quoting or escaping due to a CLOSE BRACKET
+ * character or an internal QUOTE character, a strange formatting mode is
+ * recommended. For example, if the value "a{b]c}d" is converted by the usual
+ * modes:
+ *
+ * CONVERT_BRACE: a{b]c}d => {a{b]c}d}
+ * CONVERT_ESCAPE: a{b]c}d => a\{b\]c\}d
+ *
+ * we get perfectly usable formatted list elements. However, this is not what
+ * Tcl releases have been producing. Instead, we have:
+ *
+ * CONVERT_MASK: a{b]c}d => a{b\]c}d
+ *
+ * where the CLOSE BRACKET is escaped, but the BRACEs are not. The same effect
+ * can be seen replacing ] with " in this example. There does not appear to be
+ * any functional or aesthetic purpose for this strange additional mode. The
+ * sole purpose I can see for preserving it is to keep generating the same
+ * formatted lists programmers have become accustomed to, and perhaps written
+ * tests to expect. That is, compatibility only. The additional code
+ * complexity required to support this mode is significant. The lines of code
+ * supporting it are delimited in the routines below with #if COMPAT
+ * directives. This makes it easy to experiment with eliminating this
+ * formatting mode simply with "#define COMPAT 0" above. I believe this is
+ * worth considering.
+ *
+ * Another consideration is the treatment of QUOTE characters in list
+ * elements. TclConvertElement() must have the ability to produce the escape
+ * sequence \" so that when a list element begins with a QUOTE we do not
+ * confuse that first character with a QUOTE used as list syntax to define
+ * list structure. However, that is the only place where QUOTE characters need
+ * quoting. In this way, handling QUOTE could really be much more like the way
+ * we handle HASH which also needs quoting and escaping only in particular
+ * situations. Following up this could increase the set of list elements that
+ * can use the CONVERT_NONE formatting mode.
+ *
+ * More speculative is that the demands of canonical list form require brace
+ * balance for the list as a whole, while the current implementation achieves
+ * this by establishing brace balance for every element.
+ *
+ * Finally, a reminder that the rules for parsing and formatting lists are
+ * closely tied together with the rules for parsing and evaluating scripts,
+ * and will need to evolve in sync.
+ */
+
+/*
+ *----------------------------------------------------------------------
+ *
+ * TclMaxListLength --
+ *
+ * Given 'bytes' pointing to 'numBytes' bytes, scan through them and
+ * count the number of whitespace runs that could be list element
+ * separators. If 'numBytes' is -1, scan to the terminating '\0'. Not a
+ * full list parser. Typically used to get a quick and dirty overestimate
+ * of length size in order to allocate space for an actual list parser to
+ * operate with.
+ *
+ * Results:
+ * Returns the largest number of list elements that could possibly be in
+ * this string, interpreted as a Tcl list. If 'endPtr' is not NULL,
+ * writes a pointer to the end of the string scanned there.
+ *
+ * Side effects:
+ * None.
+ *
+ *----------------------------------------------------------------------
+ */
+
+int
+TclMaxListLength(
+ const char *bytes,
+ int numBytes,
+ const char **endPtr)
+{
+ int count = 0;
+
+ if ((numBytes == 0) || ((numBytes == -1) && (*bytes == '\0'))) {
+ /* Empty string case - quick exit */
+ goto done;
+ }
+
+ /*
+ * No list element before leading white space.
+ */
+
+ count += 1 - TclIsSpaceProc(*bytes);
+
+ /*
+ * Count white space runs as potential element separators.
+ */
+
+ while (numBytes) {
+ if ((numBytes == -1) && (*bytes == '\0')) {
+ break;
+ }
+ if (TclIsSpaceProc(*bytes)) {
+ /*
+ * Space run started; bump count.
+ */
+
+ count++;
+ do {
+ bytes++;
+ numBytes -= (numBytes != -1);
+ } while (numBytes && TclIsSpaceProc(*bytes));
+ if ((numBytes == 0) || ((numBytes == -1) && (*bytes == '\0'))) {
+ break;
+ }
+
+ /*
+ * (*bytes) is non-space; return to counting state.
+ */
+ }
+ bytes++;
+ numBytes -= (numBytes != -1);
+ }
+
+ /*
+ * No list element following trailing white space.
+ */
+
+ count -= TclIsSpaceProc(bytes[-1]);
+
+ done:
+ if (endPtr) {
+ *endPtr = bytes;
+ }
+ return count;
+}
+
+/*
*----------------------------------------------------------------------
*
* TclFindElement --
@@ -108,13 +463,18 @@ Tcl_ObjType tclEndOffsetType = {
* that's part of the element. If this is the last argument in the list,
* then *nextPtr will point just after the last character in the list
* (i.e., at the character at list+listLength). If sizePtr is non-NULL,
- * *sizePtr is filled in with the number of characters in the element. If
- * the element is in braces, then *elementPtr will point to the character
+ * *sizePtr is filled in with the number of bytes in the element. If the
+ * element is in braces, then *elementPtr will point to the character
* after the opening brace and *sizePtr will not include either of the
* braces. If there isn't an element in the list, *sizePtr will be zero,
- * and both *elementPtr and *termPtr will point just after the last
- * character in the list. Note: this function does NOT collapse backslash
- * sequences.
+ * and both *elementPtr and *nextPtr will point just after the last
+ * character in the list. If literalPtr is non-NULL, *literalPtr is set
+ * to a boolean value indicating whether the substring returned as the
+ * values of **elementPtr and *sizePtr is the literal value of a list
+ * element. If not, a call to TclCopyAndCollapse() is needed to produce
+ * the actual value of the list element. Note: this function does NOT
+ * collapse backslash sequences, but uses *literalPtr to tell callers
+ * when it is required for them to do so.
*
* Side effects:
* None.
@@ -127,28 +487,33 @@ TclFindElement(
Tcl_Interp *interp, /* Interpreter to use for error reporting. If
* NULL, then no error message is left after
* errors. */
- CONST char *list, /* Points to the first byte of a string
+ const char *list, /* Points to the first byte of a string
* containing a Tcl list with zero or more
* elements (possibly in braces). */
int listLength, /* Number of bytes in the list's string. */
- CONST char **elementPtr, /* Where to put address of first significant
+ const char **elementPtr, /* Where to put address of first significant
* character in first element of list. */
- CONST char **nextPtr, /* Fill in with location of character just
+ const char **nextPtr, /* Fill in with location of character just
* after all white space following end of
* argument (next arg or end of list). */
int *sizePtr, /* If non-zero, fill in with size of
* element. */
- int *bracePtr) /* If non-zero, fill in with non-zero/zero to
- * indicate that arg was/wasn't in braces. */
+ int *literalPtr) /* If non-zero, fill in with non-zero/zero to
+ * indicate that the substring of *sizePtr
+ * bytes starting at **elementPtr is/is not
+ * the literal list element and therefore
+ * does not/does require a call to
+ * TclCopyAndCollapse() by the caller. */
{
- CONST char *p = list;
- CONST char *elemStart; /* Points to first byte of first element. */
- CONST char *limit; /* Points just after list's last byte. */
+ const char *p = list;
+ const char *elemStart; /* Points to first byte of first element. */
+ const char *limit; /* Points just after list's last byte. */
int openBraces = 0; /* Brace nesting level during parse. */
int inQuotes = 0;
int size = 0; /* lint. */
int numChars;
- CONST char *p2;
+ int literal = 1;
+ const char *p2;
/*
* Skim off leading white space and check for an opening brace or quote.
@@ -157,7 +522,7 @@ TclFindElement(
*/
limit = (list + listLength);
- while ((p < limit) && (isspace(UCHAR(*p)))) { /* INTL: ISO space. */
+ while ((p < limit) && (TclIsSpaceProc(*p))) {
p++;
}
if (p == limit) { /* no element found */
@@ -173,9 +538,6 @@ TclFindElement(
p++;
}
elemStart = p;
- if (bracePtr != 0) {
- *bracePtr = openBraces;
- }
/*
* Find element's end (a space, close brace, or the end of the string).
@@ -205,8 +567,7 @@ TclFindElement(
} else if (openBraces == 1) {
size = (p - elemStart);
p++;
- if ((p >= limit)
- || isspace(UCHAR(*p))) { /* INTL: ISO space. */
+ if ((p >= limit) || TclIsSpaceProc(*p)) {
goto done;
}
@@ -216,14 +577,15 @@ TclFindElement(
if (interp != NULL) {
p2 = p;
- while ((p2 < limit)
- && (!isspace(UCHAR(*p2))) /* INTL: ISO space. */
+ while ((p2 < limit) && (!TclIsSpaceProc(*p2))
&& (p2 < p+20)) {
p2++;
}
Tcl_SetObjResult(interp, Tcl_ObjPrintf(
"list element in braces followed by \"%.*s\" "
"instead of space", (int) (p2-p), p));
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "LIST", "JUNK",
+ NULL);
}
return TCL_ERROR;
}
@@ -235,7 +597,17 @@ TclFindElement(
*/
case '\\':
- Tcl_UtfBackslash(p, &numChars, NULL);
+ if (openBraces == 0) {
+ /*
+ * A backslash sequence not within a brace quoted element
+ * means the value of the element is different from the
+ * substring we are parsing. A call to TclCopyAndCollapse() is
+ * needed to produce the element value. Inform the caller.
+ */
+
+ literal = 0;
+ }
+ TclParseBackslash(p, limit - p, &numChars, NULL);
p += (numChars - 1);
break;
@@ -264,8 +636,7 @@ TclFindElement(
if (inQuotes) {
size = (p - elemStart);
p++;
- if ((p >= limit)
- || isspace(UCHAR(*p))) { /* INTL: ISO space */
+ if ((p >= limit) || TclIsSpaceProc(*p)) {
goto done;
}
@@ -275,14 +646,15 @@ TclFindElement(
if (interp != NULL) {
p2 = p;
- while ((p2 < limit)
- && (!isspace(UCHAR(*p2))) /* INTL: ISO space */
+ while ((p2 < limit) && (!TclIsSpaceProc(*p2))
&& (p2 < p+20)) {
p2++;
}
Tcl_SetObjResult(interp, Tcl_ObjPrintf(
"list element in quotes followed by \"%.*s\" "
"instead of space", (int) (p2-p), p));
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "LIST", "JUNK",
+ NULL);
}
return TCL_ERROR;
}
@@ -298,14 +670,18 @@ TclFindElement(
if (p == limit) {
if (openBraces != 0) {
if (interp != NULL) {
- Tcl_SetResult(interp, "unmatched open brace in list",
- TCL_STATIC);
+ Tcl_SetObjResult(interp, Tcl_NewStringObj(
+ "unmatched open brace in list", -1));
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "LIST", "BRACE",
+ NULL);
}
return TCL_ERROR;
} else if (inQuotes) {
if (interp != NULL) {
- Tcl_SetResult(interp, "unmatched open quote in list",
- TCL_STATIC);
+ Tcl_SetObjResult(interp, Tcl_NewStringObj(
+ "unmatched open quote in list", -1));
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "LIST", "QUOTE",
+ NULL);
}
return TCL_ERROR;
}
@@ -313,7 +689,7 @@ TclFindElement(
}
done:
- while ((p < limit) && (isspace(UCHAR(*p)))) { /* INTL: ISO space. */
+ while ((p < limit) && (TclIsSpaceProc(*p))) {
p++;
}
*elementPtr = elemStart;
@@ -321,6 +697,9 @@ TclFindElement(
if (sizePtr != 0) {
*sizePtr = size;
}
+ if (literalPtr != 0) {
+ *literalPtr = literal;
+ }
return TCL_OK;
}
@@ -329,14 +708,13 @@ TclFindElement(
*
* TclCopyAndCollapse --
*
- * Copy a string and eliminate any backslashes that aren't in braces.
+ * Copy a string and substitute all backslash escape sequences
*
* Results:
- * Count characters get copied from src to dst. Along the way, if
- * backslash sequences are found outside braces, the backslashes are
- * eliminated in the copy. After scanning count chars from source, a null
- * character is placed at the end of dst. Returns the number of
- * characters that got copied.
+ * Count bytes get copied from src to dst. Along the way, backslash
+ * sequences are substituted in the copy. After scanning count bytes from
+ * src, a null character is placed at the end of dst. Returns the number
+ * of bytes that got written to dst.
*
* Side effects:
* None.
@@ -346,26 +724,29 @@ TclFindElement(
int
TclCopyAndCollapse(
- int count, /* Number of characters to copy from src. */
- CONST char *src, /* Copy from here... */
+ int count, /* Number of byte to copy from src. */
+ const char *src, /* Copy from here... */
char *dst) /* ... to here. */
{
- register char c;
- int numRead;
int newCount = 0;
- int backslashCount;
- for (c = *src; count > 0; src++, c = *src, count--) {
+ while (count > 0) {
+ char c = *src;
+
if (c == '\\') {
- backslashCount = Tcl_UtfBackslash(src, &numRead, dst);
+ int numRead;
+ int backslashCount = TclParseBackslash(src, count, &numRead, dst);
+
dst += backslashCount;
newCount += backslashCount;
- src += numRead-1;
- count -= numRead-1;
+ src += numRead;
+ count -= numRead;
} else {
*dst = c;
dst++;
newCount++;
+ src++;
+ count--;
}
}
*dst = 0;
@@ -404,79 +785,61 @@ int
Tcl_SplitList(
Tcl_Interp *interp, /* Interpreter to use for error reporting. If
* NULL, no error message is left. */
- CONST char *list, /* Pointer to string with list structure. */
+ const char *list, /* Pointer to string with list structure. */
int *argcPtr, /* Pointer to location to fill in with the
* number of elements in the list. */
- CONST char ***argvPtr) /* Pointer to place to store pointer to array
+ const char ***argvPtr) /* Pointer to place to store pointer to array
* of pointers to list elements. */
{
- CONST char **argv, *l, *element;
+ const char **argv, *end, *element;
char *p;
- int length, size, i, result, elSize, brace;
+ int length, size, i, result, elSize;
/*
- * Figure out how much space to allocate. There must be enough space for
- * both the array of pointers and also for a copy of the list. To estimate
- * the number of pointers needed, count the number of space characters in
- * the list.
+ * Allocate enough space to work in. A (const char *) for each (possible)
+ * list element plus one more for terminating NULL, plus as many bytes as
+ * in the original string value, plus one more for a terminating '\0'.
+ * Space used to hold element separating white space in the original
+ * string gets re-purposed to hold '\0' characters in the argv array.
*/
- for (size = 2, l = list; *l != 0; l++) {
- if (isspace(UCHAR(*l))) { /* INTL: ISO space. */
- size++;
-
- /*
- * Consecutive space can only count as a single list delimiter.
- */
-
- while (1) {
- char next = *(l + 1);
+ size = TclMaxListLength(list, -1, &end) + 1;
+ length = end - list;
+ argv = ckalloc((size * sizeof(char *)) + length + 1);
- if (next == '\0') {
- break;
- }
- ++l;
- if (isspace(UCHAR(next))) { /* INTL: ISO space. */
- continue;
- }
- break;
- }
- }
- }
- length = l - list;
- argv = (CONST char **) ckalloc((unsigned)
- ((size * sizeof(char *)) + length + 1));
for (i = 0, p = ((char *) argv) + size*sizeof(char *);
*list != 0; i++) {
- CONST char *prevList = list;
+ const char *prevList = list;
+ int literal;
result = TclFindElement(interp, list, length, &element, &list,
- &elSize, &brace);
+ &elSize, &literal);
length -= (list - prevList);
if (result != TCL_OK) {
- ckfree((char *) argv);
+ ckfree(argv);
return result;
}
if (*element == 0) {
break;
}
if (i >= size) {
- ckfree((char *) argv);
+ ckfree(argv);
if (interp != NULL) {
- Tcl_SetResult(interp, "internal error in Tcl_SplitList",
- TCL_STATIC);
+ Tcl_SetObjResult(interp, Tcl_NewStringObj(
+ "internal error in Tcl_SplitList", -1));
+ Tcl_SetErrorCode(interp, "TCL", "INTERNAL", "Tcl_SplitList",
+ NULL);
}
return TCL_ERROR;
}
argv[i] = p;
- if (brace) {
+ if (literal) {
memcpy(p, element, (size_t) elSize);
p += elSize;
*p = 0;
p++;
} else {
- TclCopyAndCollapse(elSize, element, p);
- p += elSize+1;
+ p += 1 + TclCopyAndCollapse(elSize, element, p);
}
}
@@ -489,128 +852,49 @@ Tcl_SplitList(
/*
*----------------------------------------------------------------------
*
- * TclMarkList --
- *
- * Marks the locations within a string where list elements start and
- * computes where they end.
+ * Tcl_ScanElement --
*
- * Results
- * The return value is normally TCL_OK, which means that the list was
- * successfully split up. If TCL_ERROR is returned, it means that "list"
- * didn't have proper list structure; the interp's result will contain a
- * more detailed error message.
+ * This function is a companion function to Tcl_ConvertElement. It scans
+ * a string to see what needs to be done to it (e.g. add backslashes or
+ * enclosing braces) to make the string into a valid Tcl list element.
*
- * *argvPtr will be filled in with the address of an array whose elements
- * point to the places where the elements of list start, in order.
- * *argcPtr will get filled in with the number of valid elements in the
- * array. *argszPtr will get filled in with the address of an array whose
- * elements are the lengths of the elements of the list, in order.
- * Note: *argvPtr, *argcPtr and *argszPtr are only modified if the
- * function returns normally.
+ * Results:
+ * The return value is an overestimate of the number of bytes that will
+ * be needed by Tcl_ConvertElement to produce a valid list element from
+ * src. The word at *flagPtr is filled in with a value needed by
+ * Tcl_ConvertElement when doing the actual conversion.
*
* Side effects:
- * Memory is allocated.
+ * None.
*
*----------------------------------------------------------------------
*/
int
-TclMarkList(
- Tcl_Interp *interp, /* Interpreter to use for error reporting. If
- * NULL, no error message is left. */
- CONST char *list, /* Pointer to string with list structure. */
- CONST char *end, /* Pointer to first char after the list. */
- int *argcPtr, /* Pointer to location to fill in with the
- * number of elements in the list. */
- CONST int **argszPtr, /* Pointer to place to store length of list
- * elements. */
- CONST char ***argvPtr) /* Pointer to place to store pointer to array
- * of pointers to list elements. */
+Tcl_ScanElement(
+ register const char *src, /* String to convert to list element. */
+ register int *flagPtr) /* Where to store information to guide
+ * Tcl_ConvertCountedElement. */
{
- CONST char **argv, *l, *element;
- int *argn, length, size, i, result, elSize, brace;
-
- /*
- * Figure out how much space to allocate. There must be enough space for
- * the array of pointers and lengths. To estimate the number of pointers
- * needed, count the number of whitespace characters in the list.
- */
-
- for (size=2, l=list ; l!=end ; l++) {
- if (isspace(UCHAR(*l))) { /* INTL: ISO space. */
- size++;
-
- /*
- * Consecutive space can only count as a single list delimiter.
- */
-
- while (1) {
- char next = *(l + 1);
-
- if ((l+1) == end) {
- break;
- }
- ++l;
- if (isspace(UCHAR(next))) { /* INTL: ISO space. */
- continue;
- }
- break;
- }
- }
- }
- length = l - list;
- argv = (CONST char **) ckalloc((unsigned) size * sizeof(char *));
- argn = (int *) ckalloc((unsigned) size * sizeof(int *));
-
- for (i = 0; list != end; i++) {
- CONST char *prevList = list;
-
- result = TclFindElement(interp, list, length, &element, &list,
- &elSize, &brace);
- length -= (list - prevList);
- if (result != TCL_OK) {
- ckfree((char *) argv);
- ckfree((char *) argn);
- return result;
- }
- if (*element == 0) {
- break;
- }
- if (i >= size) {
- ckfree((char *) argv);
- ckfree((char *) argn);
- if (interp != NULL) {
- Tcl_SetResult(interp, "internal error in TclMarkList",
- TCL_STATIC);
- }
- return TCL_ERROR;
- }
- argv[i] = element;
- argn[i] = elSize;
- }
-
- argv[i] = NULL;
- argn[i] = 0;
- *argvPtr = argv;
- *argszPtr = argn;
- *argcPtr = i;
- return TCL_OK;
+ return Tcl_ScanCountedElement(src, -1, flagPtr);
}
/*
*----------------------------------------------------------------------
*
- * Tcl_ScanElement --
+ * Tcl_ScanCountedElement --
*
- * This function is a companion function to Tcl_ConvertElement. It scans
- * a string to see what needs to be done to it (e.g. add backslashes or
- * enclosing braces) to make the string into a valid Tcl list element.
+ * This function is a companion function to Tcl_ConvertCountedElement. It
+ * scans a string to see what needs to be done to it (e.g. add
+ * backslashes or enclosing braces) to make the string into a valid Tcl
+ * list element. If length is -1, then the string is scanned from src up
+ * to the first null byte.
*
* Results:
- * The return value is an overestimate of the number of characters that
- * will be needed by Tcl_ConvertElement to produce a valid list element
- * from string. The word at *flagPtr is filled in with a value needed by
- * Tcl_ConvertElement when doing the actual conversion.
+ * The return value is an overestimate of the number of bytes that will
+ * be needed by Tcl_ConvertCountedElement to produce a valid list element
+ * from src. The word at *flagPtr is filled in with a value needed by
+ * Tcl_ConvertCountedElement when doing the actual conversion.
*
* Side effects:
* None.
@@ -619,30 +903,42 @@ TclMarkList(
*/
int
-Tcl_ScanElement(
- register CONST char *string,/* String to convert to list element. */
- register int *flagPtr) /* Where to store information to guide
- * Tcl_ConvertCountedElement. */
+Tcl_ScanCountedElement(
+ const char *src, /* String to convert to Tcl list element. */
+ int length, /* Number of bytes in src, or -1. */
+ int *flagPtr) /* Where to store information to guide
+ * Tcl_ConvertElement. */
{
- return Tcl_ScanCountedElement(string, -1, flagPtr);
+ int flags = CONVERT_ANY;
+ int numBytes = TclScanElement(src, length, &flags);
+
+ *flagPtr = flags;
+ return numBytes;
}
/*
*----------------------------------------------------------------------
*
- * Tcl_ScanCountedElement --
+ * TclScanElement --
*
- * This function is a companion function to Tcl_ConvertCountedElement. It
- * scans a string to see what needs to be done to it (e.g. add
- * backslashes or enclosing braces) to make the string into a valid Tcl
- * list element. If length is -1, then the string is scanned up to the
- * first null byte.
+ * This function is a companion function to TclConvertElement. It scans a
+ * string to see what needs to be done to it (e.g. add backslashes or
+ * enclosing braces) to make the string into a valid Tcl list element. If
+ * length is -1, then the string is scanned from src up to the first null
+ * byte. A NULL value for src is treated as an empty string. The incoming
+ * value of *flagPtr is a report from the caller what additional flags it
+ * will pass to TclConvertElement().
*
* Results:
- * The return value is an overestimate of the number of characters that
- * will be needed by Tcl_ConvertCountedElement to produce a valid list
- * element from string. The word at *flagPtr is filled in with a value
- * needed by Tcl_ConvertCountedElement when doing the actual conversion.
+ * The recommended formatting mode for the element is determined and a
+ * value is written to *flagPtr indicating that recommendation. This
+ * recommendation is combined with the incoming flag values in *flagPtr
+ * set by the caller to determine how many bytes will be needed by
+ * TclConvertElement() in which to write the formatted element following
+ * the recommendation modified by the flag values. This number of bytes
+ * is the return value of the routine. In some situations it may be an
+ * overestimate, but so long as the caller passes the same flags to
+ * TclConvertElement(), it will be large enough.
*
* Side effects:
* None.
@@ -651,115 +947,269 @@ Tcl_ScanElement(
*/
int
-Tcl_ScanCountedElement(
- CONST char *string, /* String to convert to Tcl list element. */
- int length, /* Number of bytes in string, or -1. */
+TclScanElement(
+ const char *src, /* String to convert to Tcl list element. */
+ int length, /* Number of bytes in src, or -1. */
int *flagPtr) /* Where to store information to guide
* Tcl_ConvertElement. */
{
- int flags, nestingLevel;
- register CONST char *p, *lastChar;
-
- /*
- * This function and Tcl_ConvertElement together do two things:
- *
- * 1. They produce a proper list, one that will yield back the argument
- * strings when evaluated or when disassembled with Tcl_SplitList. This
- * is the most important thing.
- *
- * 2. They try to produce legible output, which means minimizing the use
- * of backslashes (using braces instead). However, there are some
- * situations where backslashes must be used (e.g. an element like
- * "{abc": the leading brace will have to be backslashed. For each
- * element, one of three things must be done:
- *
- * (a) Use the element as-is (it doesn't contain any special
- * characters). This is the most desirable option.
- *
- * (b) Enclose the element in braces, but leave the contents alone.
- * This happens if the element contains embedded space, or if it
- * contains characters with special interpretation ($, [, ;, or \),
- * or if it starts with a brace or double-quote, or if there are no
- * characters in the element.
- *
- * (c) Don't enclose the element in braces, but add backslashes to
- * prevent special interpretation of special characters. This is a
- * last resort used when the argument would normally fall under
- * case (b) but contains unmatched braces. It also occurs if the
- * last character of the argument is a backslash or if the element
- * contains a backslash followed by newline.
- *
- * The function figures out how many bytes will be needed to store the
- * result (actually, it overestimates). It also collects information about
- * the element in the form of a flags word.
- *
- * Note: list elements produced by this function and
- * Tcl_ConvertCountedElement must have the property that they can be
- * enclosing in curly braces to make sub-lists. This means, for example,
- * that we must not leave unmatched curly braces in the resulting list
- * element. This property is necessary in order for functions like
- * Tcl_DStringStartSublist to work.
- */
+ const char *p = src;
+ int nestingLevel = 0; /* Brace nesting count */
+ int forbidNone = 0; /* Do not permit CONVERT_NONE mode. Something
+ * needs protection or escape. */
+ int requireEscape = 0; /* Force use of CONVERT_ESCAPE mode. For some
+ * reason bare or brace-quoted form fails. */
+ int extra = 0; /* Count of number of extra bytes needed for
+ * formatted element, assuming we use escape
+ * sequences in formatting. */
+ int bytesNeeded; /* Buffer length computed to complete the
+ * element formatting in the selected mode. */
+#if COMPAT
+ int preferEscape = 0; /* Use preferences to track whether to use */
+ int preferBrace = 0; /* CONVERT_MASK mode. */
+ int braceCount = 0; /* Count of all braces '{' '}' seen. */
+#endif /* COMPAT */
+
+ if ((p == NULL) || (length == 0) || ((*p == '\0') && (length == -1))) {
+ /*
+ * Empty string element must be brace quoted.
+ */
- nestingLevel = 0;
- flags = 0;
- if (string == NULL) {
- string = "";
- }
- if (length == -1) {
- length = strlen(string);
+ *flagPtr = CONVERT_BRACE;
+ return 2;
}
- lastChar = string + length;
- p = string;
- if ((p == lastChar) || (*p == '{') || (*p == '"')) {
- flags |= USE_BRACES;
+
+ if ((*p == '{') || (*p == '"')) {
+ /*
+ * Must escape or protect so leading character of value is not
+ * misinterpreted as list element delimiting syntax.
+ */
+
+ forbidNone = 1;
+#if COMPAT
+ preferBrace = 1;
+#endif /* COMPAT */
}
- for (; p < lastChar; p++) {
+
+ while (length) {
+ if (CHAR_TYPE(*p) != TYPE_NORMAL) {
switch (*p) {
- case '{':
+ case '{': /* TYPE_BRACE */
+#if COMPAT
+ braceCount++;
+#endif /* COMPAT */
+ extra++; /* Escape '{' => '\{' */
nestingLevel++;
break;
- case '}':
+ case '}': /* TYPE_BRACE */
+#if COMPAT
+ braceCount++;
+#endif /* COMPAT */
+ extra++; /* Escape '}' => '\}' */
nestingLevel--;
if (nestingLevel < 0) {
- flags |= TCL_DONT_USE_BRACES|BRACES_UNMATCHED;
+ /*
+ * Unbalanced braces! Cannot format with brace quoting.
+ */
+
+ requireEscape = 1;
}
break;
- case '[':
- case '$':
- case ';':
- case ' ':
- case '\f':
- case '\n':
- case '\r':
- case '\t':
- case '\v':
- flags |= USE_BRACES;
+ case ']': /* TYPE_CLOSE_BRACK */
+ case '"': /* TYPE_SPACE */
+#if COMPAT
+ forbidNone = 1;
+ extra++; /* Escapes all just prepend a backslash */
+ preferEscape = 1;
break;
- case '\\':
- if ((p+1 == lastChar) || (p[1] == '\n')) {
- flags = TCL_DONT_USE_BRACES | BRACES_UNMATCHED;
- } else {
- int size;
+#else
+ /* FLOW THROUGH */
+#endif /* COMPAT */
+ case '[': /* TYPE_SUBS */
+ case '$': /* TYPE_SUBS */
+ case ';': /* TYPE_COMMAND_END */
+ case ' ': /* TYPE_SPACE */
+ case '\f': /* TYPE_SPACE */
+ case '\n': /* TYPE_COMMAND_END */
+ case '\r': /* TYPE_SPACE */
+ case '\t': /* TYPE_SPACE */
+ case '\v': /* TYPE_SPACE */
+ forbidNone = 1;
+ extra++; /* Escape sequences all one byte longer. */
+#if COMPAT
+ preferBrace = 1;
+#endif /* COMPAT */
+ break;
+ case '\\': /* TYPE_SUBS */
+ extra++; /* Escape '\' => '\\' */
+ if ((length == 1) || ((length == -1) && (p[1] == '\0'))) {
+ /*
+ * Final backslash. Cannot format with brace quoting.
+ */
- Tcl_UtfBackslash(p, &size, NULL);
- p += size-1;
- flags |= USE_BRACES;
+ requireEscape = 1;
+ break;
}
+ if (p[1] == '\n') {
+ extra++; /* Escape newline => '\n', one byte longer */
+
+ /*
+ * Backslash newline sequence. Brace quoting not permitted.
+ */
+
+ requireEscape = 1;
+ length -= (length > 0);
+ p++;
+ break;
+ }
+ if ((p[1] == '{') || (p[1] == '}') || (p[1] == '\\')) {
+ extra++; /* Escape sequences all one byte longer. */
+ length -= (length > 0);
+ p++;
+ }
+ forbidNone = 1;
+#if COMPAT
+ preferBrace = 1;
+#endif /* COMPAT */
+ break;
+ case '\0': /* TYPE_SUBS */
+ if (length == -1) {
+ goto endOfString;
+ }
+ /* TODO: Panic on improper encoding? */
break;
}
+ }
+ length -= (length > 0);
+ p++;
}
+
+ endOfString:
if (nestingLevel != 0) {
- flags = TCL_DONT_USE_BRACES | BRACES_UNMATCHED;
+ /*
+ * Unbalanced braces! Cannot format with brace quoting.
+ */
+
+ requireEscape = 1;
}
- *flagPtr = flags;
/*
- * Allow enough space to backslash every character plus leave two spaces
- * for braces.
+ * We need at least as many bytes as are in the element value...
+ */
+
+ bytesNeeded = p - src;
+
+ if (requireEscape) {
+ /*
+ * We must use escape sequences. Add all the extra bytes needed to
+ * have room to create them.
+ */
+
+ bytesNeeded += extra;
+
+ /*
+ * Make room to escape leading #, if needed.
+ */
+
+ if ((*src == '#') && !(*flagPtr & TCL_DONT_QUOTE_HASH)) {
+ bytesNeeded++;
+ }
+ *flagPtr = CONVERT_ESCAPE;
+ goto overflowCheck;
+ }
+ if (*flagPtr & CONVERT_ANY) {
+ /*
+ * The caller has not let us know what flags it will pass to
+ * TclConvertElement() so compute the max size we might need for any
+ * possible choice. Normally the formatting using escape sequences is
+ * the longer one, and a minimum "extra" value of 2 makes sure we
+ * don't request too small a buffer in those edge cases where that's
+ * not true.
+ */
+
+ if (extra < 2) {
+ extra = 2;
+ }
+ *flagPtr &= ~CONVERT_ANY;
+ *flagPtr |= TCL_DONT_USE_BRACES;
+ }
+ if (forbidNone) {
+ /*
+ * We must request some form of quoting of escaping...
+ */
+
+#if COMPAT
+ if (preferEscape && !preferBrace) {
+ /*
+ * If we are quoting solely due to ] or internal " characters use
+ * the CONVERT_MASK mode where we escape all special characters
+ * except for braces. "extra" counted space needed to escape
+ * braces too, so substract "braceCount" to get our actual needs.
+ */
+
+ bytesNeeded += (extra - braceCount);
+ /* Make room to escape leading #, if needed. */
+ if ((*src == '#') && !(*flagPtr & TCL_DONT_QUOTE_HASH)) {
+ bytesNeeded++;
+ }
+
+ /*
+ * If the caller reports it will direct TclConvertElement() to
+ * use full escapes on the element, add back the bytes needed to
+ * escape the braces.
+ */
+
+ if (*flagPtr & TCL_DONT_USE_BRACES) {
+ bytesNeeded += braceCount;
+ }
+ *flagPtr = CONVERT_MASK;
+ goto overflowCheck;
+ }
+#endif /* COMPAT */
+ if (*flagPtr & TCL_DONT_USE_BRACES) {
+ /*
+ * If the caller reports it will direct TclConvertElement() to
+ * use escapes, add the extra bytes needed to have room for them.
+ */
+
+ bytesNeeded += extra;
+
+ /*
+ * Make room to escape leading #, if needed.
+ */
+
+ if ((*src == '#') && !(*flagPtr & TCL_DONT_QUOTE_HASH)) {
+ bytesNeeded++;
+ }
+ } else {
+ /*
+ * Add 2 bytes for room for the enclosing braces.
+ */
+
+ bytesNeeded += 2;
+ }
+ *flagPtr = CONVERT_BRACE;
+ goto overflowCheck;
+ }
+
+ /*
+ * So far, no need to quote or escape anything.
*/
- return 2*(p-string) + 2;
+ if ((*src == '#') && !(*flagPtr & TCL_DONT_QUOTE_HASH)) {
+ /*
+ * If we need to quote a leading #, make room to enclose in braces.
+ */
+
+ bytesNeeded += 2;
+ }
+ *flagPtr = CONVERT_NONE;
+
+ overflowCheck:
+ if (bytesNeeded < 0) {
+ Tcl_Panic("TclScanElement: string length overflow");
+ }
+ return bytesNeeded;
}
/*
@@ -785,7 +1235,7 @@ Tcl_ScanCountedElement(
int
Tcl_ConvertElement(
- register CONST char *src, /* Source information for list element. */
+ register const char *src, /* Source information for list element. */
register char *dst, /* Place to put list-ified element. */
register int flags) /* Flags produced by Tcl_ScanElement. */
{
@@ -815,130 +1265,196 @@ Tcl_ConvertElement(
int
Tcl_ConvertCountedElement(
- register CONST char *src, /* Source information for list element. */
+ register const char *src, /* Source information for list element. */
+ int length, /* Number of bytes in src, or -1. */
+ char *dst, /* Place to put list-ified element. */
+ int flags) /* Flags produced by Tcl_ScanElement. */
+{
+ int numBytes = TclConvertElement(src, length, dst, flags);
+ dst[numBytes] = '\0';
+ return numBytes;
+}
+
+/*
+ *----------------------------------------------------------------------
+ *
+ * TclConvertElement --
+ *
+ * This is a companion function to TclScanElement. Given the information
+ * produced by TclScanElement, this function converts a string to a list
+ * element equal to that string.
+ *
+ * Results:
+ * Information is copied to *dst in the form of a list element identical
+ * to src (i.e. if Tcl_SplitList is applied to dst it will produce a
+ * string identical to src). The return value is a count of the number of
+ * characters copied (not including the terminating NULL character).
+ *
+ * Side effects:
+ * None.
+ *
+ *----------------------------------------------------------------------
+ */
+
+int
+TclConvertElement(
+ register const char *src, /* Source information for list element. */
int length, /* Number of bytes in src, or -1. */
char *dst, /* Place to put list-ified element. */
int flags) /* Flags produced by Tcl_ScanElement. */
{
- register char *p = dst;
- register CONST char *lastChar;
+ int conversion = flags & CONVERT_MASK;
+ char *p = dst;
/*
- * See the comment block at the beginning of the Tcl_ScanElement code for
- * details of how this works.
+ * Let the caller demand we use escape sequences rather than braces.
*/
- if (src && length == -1) {
- length = strlen(src);
+ if ((flags & TCL_DONT_USE_BRACES) && (conversion & CONVERT_BRACE)) {
+ conversion = CONVERT_ESCAPE;
}
- if ((src == NULL) || (length == 0)) {
- p[0] = '{';
- p[1] = '}';
- p[2] = 0;
- return 2;
+
+ /*
+ * No matter what the caller demands, empty string must be braced!
+ */
+
+ if ((src == NULL) || (length == 0) || (*src == '\0' && length == -1)) {
+ src = tclEmptyStringRep;
+ length = 0;
+ conversion = CONVERT_BRACE;
}
- lastChar = src + length;
+
+ /*
+ * Escape leading hash as needed and requested.
+ */
+
if ((*src == '#') && !(flags & TCL_DONT_QUOTE_HASH)) {
- flags |= USE_BRACES;
+ if (conversion == CONVERT_ESCAPE) {
+ p[0] = '\\';
+ p[1] = '#';
+ p += 2;
+ src++;
+ length -= (length > 0);
+ } else {
+ conversion = CONVERT_BRACE;
+ }
+ }
+
+ /*
+ * No escape or quoting needed. Copy the literal string value.
+ */
+
+ if (conversion == CONVERT_NONE) {
+ if (length == -1) {
+ /* TODO: INT_MAX overflow? */
+ while (*src) {
+ *p++ = *src++;
+ }
+ return p - dst;
+ } else {
+ memcpy(dst, src, length);
+ return length;
+ }
}
- if ((flags & USE_BRACES) && !(flags & TCL_DONT_USE_BRACES)) {
+
+ /*
+ * Formatted string is original string enclosed in braces.
+ */
+
+ if (conversion == CONVERT_BRACE) {
*p = '{';
p++;
- for (; src != lastChar; src++, p++) {
- *p = *src;
+ if (length == -1) {
+ /* TODO: INT_MAX overflow? */
+ while (*src) {
+ *p++ = *src++;
+ }
+ } else {
+ memcpy(p, src, length);
+ p += length;
}
*p = '}';
p++;
- } else {
- if (*src == '{') {
- /*
- * Can't have a leading brace unless the whole element is enclosed
- * in braces. Add a backslash before the brace. Furthermore, this
- * may destroy the balance between open and close braces, so set
- * BRACES_UNMATCHED.
- */
+ return p - dst;
+ }
- p[0] = '\\';
- p[1] = '{';
- p += 2;
- src++;
- flags |= BRACES_UNMATCHED;
- } else if ((*src == '#') && !(flags & TCL_DONT_QUOTE_HASH)) {
- /*
- * Leading '#' could be seen by [eval] as the start of a comment,
- * if on the first element of a list, so quote it.
- */
+ /* conversion == CONVERT_ESCAPE or CONVERT_MASK */
- p[0] = '\\';
- p[1] = '#';
- p += 2;
- src++;
- }
- for (; src != lastChar; src++) {
- switch (*src) {
- case ']':
- case '[':
- case '$':
- case ';':
- case ' ':
- case '\\':
- case '"':
- *p = '\\';
- p++;
- break;
- case '{':
- case '}':
- /*
- * It may not seem necessary to backslash braces, but it is.
- * The reason for this is that the resulting list element may
- * actually be an element of a sub-list enclosed in braces
- * (e.g. if Tcl_DStringStartSublist has been invoked), so
- * there may be a brace mismatch if the braces aren't
- * backslashed.
- */
+ /*
+ * Formatted string is original string converted to escape sequences.
+ */
- if (flags & BRACES_UNMATCHED) {
- *p = '\\';
- p++;
- }
- break;
- case '\f':
- *p = '\\';
- p++;
- *p = 'f';
- p++;
- continue;
- case '\n':
- *p = '\\';
- p++;
- *p = 'n';
- p++;
- continue;
- case '\r':
- *p = '\\';
- p++;
- *p = 'r';
- p++;
- continue;
- case '\t':
- *p = '\\';
- p++;
- *p = 't';
- p++;
- continue;
- case '\v':
+ for ( ; length; src++, length -= (length > 0)) {
+ switch (*src) {
+ case ']':
+ case '[':
+ case '$':
+ case ';':
+ case ' ':
+ case '\\':
+ case '"':
+ *p = '\\';
+ p++;
+ break;
+ case '{':
+ case '}':
+#if COMPAT
+ if (conversion == CONVERT_ESCAPE)
+#endif /* COMPAT */
+ {
*p = '\\';
p++;
- *p = 'v';
- p++;
- continue;
}
- *p = *src;
+ break;
+ case '\f':
+ *p = '\\';
+ p++;
+ *p = 'f';
+ p++;
+ continue;
+ case '\n':
+ *p = '\\';
+ p++;
+ *p = 'n';
+ p++;
+ continue;
+ case '\r':
+ *p = '\\';
+ p++;
+ *p = 'r';
+ p++;
+ continue;
+ case '\t':
+ *p = '\\';
+ p++;
+ *p = 't';
+ p++;
+ continue;
+ case '\v':
+ *p = '\\';
+ p++;
+ *p = 'v';
p++;
+ continue;
+ case '\0':
+ if (length == -1) {
+ return p - dst;
+ }
+
+ /*
+ * If we reach this point, there's an embedded NULL in the string
+ * range being processed, which should not happen when the
+ * encoding rules for Tcl strings are properly followed. If the
+ * day ever comes when we stop tolerating such things, this is
+ * where to put the Tcl_Panic().
+ */
+
+ break;
}
+ *p = *src;
+ p++;
}
- *p = '\0';
- return p-dst;
+ return p - dst;
}
/*
@@ -964,14 +1480,24 @@ Tcl_ConvertCountedElement(
char *
Tcl_Merge(
int argc, /* How many strings to merge. */
- CONST char * CONST *argv) /* Array of string values. */
+ const char *const *argv) /* Array of string values. */
{
-# define LOCAL_SIZE 20
- int localFlags[LOCAL_SIZE], *flagPtr;
- int numChars;
- char *result;
- char *dst;
- int i;
+#define LOCAL_SIZE 20
+ int localFlags[LOCAL_SIZE], *flagPtr = NULL;
+ int i, bytesNeeded = 0;
+ char *result, *dst;
+ const int maxFlags = UINT_MAX / sizeof(int);
+
+ /*
+ * Handle empty list case first, so logic of the general case can be
+ * simpler.
+ */
+
+ if (argc == 0) {
+ result = ckalloc(1);
+ result[0] = '\0';
+ return result;
+ }
/*
* Pass 1: estimate space, gather flags.
@@ -979,35 +1505,51 @@ Tcl_Merge(
if (argc <= LOCAL_SIZE) {
flagPtr = localFlags;
+ } else if (argc > maxFlags) {
+ /*
+ * We cannot allocate a large enough flag array to format this list in
+ * one pass. We could imagine converting this routine to a multi-pass
+ * implementation, but for sizeof(int) == 4, the limit is a max of
+ * 2^30 list elements and since each element is at least one byte
+ * formatted, and requires one byte space between it and the next one,
+ * that a minimum space requirement of 2^31 bytes, which is already
+ * INT_MAX. If we tried to format a list of > maxFlags elements, we're
+ * just going to overflow the size limits on the formatted string
+ * anyway, so just issue that same panic early.
+ */
+
+ Tcl_Panic("max size for a Tcl value (%d bytes) exceeded", INT_MAX);
} else {
- flagPtr = (int *) ckalloc((unsigned) argc*sizeof(int));
+ flagPtr = ckalloc(argc * sizeof(int));
}
- numChars = 1;
for (i = 0; i < argc; i++) {
- numChars += Tcl_ScanElement(argv[i], &flagPtr[i]) + 1;
+ flagPtr[i] = ( i ? TCL_DONT_QUOTE_HASH : 0 );
+ bytesNeeded += TclScanElement(argv[i], -1, &flagPtr[i]);
+ if (bytesNeeded < 0) {
+ Tcl_Panic("max size for a Tcl value (%d bytes) exceeded", INT_MAX);
+ }
+ }
+ if (bytesNeeded > INT_MAX - argc + 1) {
+ Tcl_Panic("max size for a Tcl value (%d bytes) exceeded", INT_MAX);
}
+ bytesNeeded += argc;
/*
* Pass two: copy into the result area.
*/
- result = (char *) ckalloc((unsigned) numChars);
+ result = ckalloc(bytesNeeded);
dst = result;
for (i = 0; i < argc; i++) {
- numChars = Tcl_ConvertElement(argv[i], dst,
- flagPtr[i] | (i==0 ? 0 : TCL_DONT_QUOTE_HASH));
- dst += numChars;
+ flagPtr[i] |= ( i ? TCL_DONT_QUOTE_HASH : 0 );
+ dst += TclConvertElement(argv[i], -1, dst, flagPtr[i]);
*dst = ' ';
dst++;
}
- if (dst == result) {
- *dst = 0;
- } else {
- dst[-1] = 0;
- }
+ dst[-1] = 0;
if (flagPtr != localFlags) {
- ckfree((char *) flagPtr);
+ ckfree(flagPtr);
}
return result;
}
@@ -1033,7 +1575,7 @@ Tcl_Merge(
char
Tcl_Backslash(
- CONST char *src, /* Points to the backslash character of a
+ const char *src, /* Points to the backslash character of a
* backslash sequence. */
int *readPtr) /* Fill in with number of characters read from
* src, unless NULL. */
@@ -1049,6 +1591,167 @@ Tcl_Backslash(
/*
*----------------------------------------------------------------------
*
+ * TclTrimRight --
+ *
+ * Takes two counted strings in the Tcl encoding which must both be null
+ * terminated. Conceptually trims from the right side of the first string
+ * all characters found in the second string.
+ *
+ * Results:
+ * The number of bytes to be removed from the end of the string.
+ *
+ * Side effects:
+ * None.
+ *
+ *----------------------------------------------------------------------
+ */
+
+int
+TclTrimRight(
+ const char *bytes, /* String to be trimmed... */
+ int numBytes, /* ...and its length in bytes */
+ const char *trim, /* String of trim characters... */
+ int numTrim) /* ...and its length in bytes */
+{
+ const char *p = bytes + numBytes;
+ int pInc;
+
+ if ((bytes[numBytes] != '\0') || (trim[numTrim] != '\0')) {
+ Tcl_Panic("TclTrimRight works only on null-terminated strings");
+ }
+
+ /*
+ * Empty strings -> nothing to do.
+ */
+
+ if ((numBytes == 0) || (numTrim == 0)) {
+ return 0;
+ }
+
+ /*
+ * Outer loop: iterate over string to be trimmed.
+ */
+
+ do {
+ Tcl_UniChar ch1;
+ const char *q = trim;
+ int bytesLeft = numTrim;
+
+ p = Tcl_UtfPrev(p, bytes);
+ pInc = TclUtfToUniChar(p, &ch1);
+
+ /*
+ * Inner loop: scan trim string for match to current character.
+ */
+
+ do {
+ Tcl_UniChar ch2;
+ int qInc = TclUtfToUniChar(q, &ch2);
+
+ if (ch1 == ch2) {
+ break;
+ }
+
+ q += qInc;
+ bytesLeft -= qInc;
+ } while (bytesLeft);
+
+ if (bytesLeft == 0) {
+ /*
+ * No match; trim task done; *p is last non-trimmed char.
+ */
+
+ p += pInc;
+ break;
+ }
+ } while (p > bytes);
+
+ return numBytes - (p - bytes);
+}
+
+/*
+ *----------------------------------------------------------------------
+ *
+ * TclTrimLeft --
+ *
+ * Takes two counted strings in the Tcl encoding which must both be null
+ * terminated. Conceptually trims from the left side of the first string
+ * all characters found in the second string.
+ *
+ * Results:
+ * The number of bytes to be removed from the start of the string.
+ *
+ * Side effects:
+ * None.
+ *
+ *----------------------------------------------------------------------
+ */
+
+int
+TclTrimLeft(
+ const char *bytes, /* String to be trimmed... */
+ int numBytes, /* ...and its length in bytes */
+ const char *trim, /* String of trim characters... */
+ int numTrim) /* ...and its length in bytes */
+{
+ const char *p = bytes;
+
+ if ((bytes[numBytes] != '\0') || (trim[numTrim] != '\0')) {
+ Tcl_Panic("TclTrimLeft works only on null-terminated strings");
+ }
+
+ /*
+ * Empty strings -> nothing to do.
+ */
+
+ if ((numBytes == 0) || (numTrim == 0)) {
+ return 0;
+ }
+
+ /*
+ * Outer loop: iterate over string to be trimmed.
+ */
+
+ do {
+ Tcl_UniChar ch1;
+ int pInc = TclUtfToUniChar(p, &ch1);
+ const char *q = trim;
+ int bytesLeft = numTrim;
+
+ /*
+ * Inner loop: scan trim string for match to current character.
+ */
+
+ do {
+ Tcl_UniChar ch2;
+ int qInc = TclUtfToUniChar(q, &ch2);
+
+ if (ch1 == ch2) {
+ break;
+ }
+
+ q += qInc;
+ bytesLeft -= qInc;
+ } while (bytesLeft);
+
+ if (bytesLeft == 0) {
+ /*
+ * No match; trim task done; *p is first non-trimmed char.
+ */
+
+ break;
+ }
+
+ p += pInc;
+ numBytes -= pInc;
+ } while (numBytes);
+
+ return p - bytes;
+}
+
+/*
+ *----------------------------------------------------------------------
+ *
* Tcl_Concat --
*
* Concatenate a set of strings into a single large string.
@@ -1065,56 +1768,98 @@ Tcl_Backslash(
*----------------------------------------------------------------------
*/
+/* The whitespace characters trimmed during [concat] operations */
+#define CONCAT_WS_SIZE (int) (sizeof(CONCAT_TRIM_SET "") - 1)
+
char *
Tcl_Concat(
int argc, /* Number of strings to concatenate. */
- CONST char * CONST *argv) /* Array of strings to concatenate. */
+ const char *const *argv) /* Array of strings to concatenate. */
{
- int totalSize, i;
- char *p;
- char *result;
+ int i, needSpace = 0, bytesNeeded = 0;
+ char *result, *p;
+
+ /*
+ * Dispose of the empty result corner case first to simplify later code.
+ */
- for (totalSize = 1, i = 0; i < argc; i++) {
- totalSize += strlen(argv[i]) + 1;
- }
- result = (char *) ckalloc((unsigned) totalSize);
if (argc == 0) {
- *result = '\0';
+ result = (char *) ckalloc(1);
+ result[0] = '\0';
return result;
}
- for (p = result, i = 0; i < argc; i++) {
- CONST char *element;
- int length;
+ /*
+ * First allocate the result buffer at the size required.
+ */
+
+ for (i = 0; i < argc; i++) {
+ bytesNeeded += strlen(argv[i]);
+ if (bytesNeeded < 0) {
+ Tcl_Panic("Tcl_Concat: max size of Tcl value exceeded");
+ }
+ }
+ if (bytesNeeded + argc - 1 < 0) {
/*
- * Clip white space off the front and back of the string to generate a
- * neater result, and ignore any empty elements.
+ * Panic test could be tighter, but not going to bother for this
+ * legacy routine.
*/
+ Tcl_Panic("Tcl_Concat: max size of Tcl value exceeded");
+ }
+
+ /*
+ * All element bytes + (argc - 1) spaces + 1 terminating NULL.
+ */
+
+ result = ckalloc((unsigned) (bytesNeeded + argc));
+
+ for (p = result, i = 0; i < argc; i++) {
+ int trim, elemLength;
+ const char *element;
+
element = argv[i];
- while (isspace(UCHAR(*element))) { /* INTL: ISO space. */
- element++;
- }
- for (length = strlen(element);
- (length > 0)
- && (isspace(UCHAR(element[length-1]))) /* INTL: ISO space. */
- && ((length < 2) || (element[length-2] != '\\'));
- length--) {
- /* Null loop body. */
- }
- if (length == 0) {
+ elemLength = strlen(argv[i]);
+
+ /*
+ * Trim away the leading whitespace.
+ */
+
+ trim = TclTrimLeft(element, elemLength, CONCAT_TRIM_SET,
+ CONCAT_WS_SIZE);
+ element += trim;
+ elemLength -= trim;
+
+ /*
+ * Trim away the trailing whitespace. Do not permit trimming to expose
+ * a final backslash character.
+ */
+
+ trim = TclTrimRight(element, elemLength, CONCAT_TRIM_SET,
+ CONCAT_WS_SIZE);
+ trim -= trim && (element[elemLength - trim - 1] == '\\');
+ elemLength -= trim;
+
+ /*
+ * If we're left with empty element after trimming, do nothing.
+ */
+
+ if (elemLength == 0) {
continue;
}
- memcpy(p, element, (size_t) length);
- p += length;
- *p = ' ';
- p++;
- }
- if (p != result) {
- p[-1] = 0;
- } else {
- *p = 0;
+
+ /*
+ * Append to the result with space if needed.
+ */
+
+ if (needSpace) {
+ *p++ = ' ';
+ }
+ memcpy(p, element, (size_t) elemLength);
+ p += elemLength;
+ needSpace = 1;
}
+ *p = '\0';
return result;
}
@@ -1139,66 +1884,41 @@ Tcl_Concat(
Tcl_Obj *
Tcl_ConcatObj(
int objc, /* Number of objects to concatenate. */
- Tcl_Obj *CONST objv[]) /* Array of objects to concatenate. */
+ Tcl_Obj *const objv[]) /* Array of objects to concatenate. */
{
- int allocSize, finalSize, length, elemLength, i;
- char *p;
- char *element;
- char *concatStr;
+ int i, elemLength, needSpace = 0, bytesNeeded = 0;
+ const char *element;
Tcl_Obj *objPtr, *resPtr;
/*
* Check first to see if all the items are of list type or empty. If so,
* we will concat them together as lists, and return a list object. This
- * is only valid when the lists have no current string representation,
- * since we don't know what the original type was. An original string rep
- * may have lost some whitespace info when converted which could be
- * important.
+ * is only valid when the lists are in canonical form.
*/
for (i = 0; i < objc; i++) {
- List *listRepPtr;
+ int length;
objPtr = objv[i];
- if (objPtr->typePtr != &tclListType) {
- TclGetString(objPtr);
- if (objPtr->length) {
- break;
- } else {
- continue;
- }
+ if (TclListObjIsCanonical(objPtr)) {
+ continue;
}
- listRepPtr = (List *) objPtr->internalRep.twoPtrValue.ptr1;
- if (objPtr->bytes != NULL && !listRepPtr->canonicalFlag) {
+ Tcl_GetStringFromObj(objPtr, &length);
+ if (length > 0) {
break;
}
}
if (i == objc) {
- Tcl_Obj **listv;
- int listc;
-
resPtr = NULL;
for (i = 0; i < objc; i++) {
- /*
- * Tcl_ListObjAppendList could be used here, but this saves us a
- * bit of type checking (since we've already done it). Use of
- * INT_MAX tells us to always put the new stuff on the end. It
- * will be set right in Tcl_ListObjReplace.
- * Note that all objs at this point are either lists or have an
- * empty string rep.
- */
-
objPtr = objv[i];
- if (objPtr->bytes && !objPtr->length) {
+ if (objPtr->bytes && objPtr->length == 0) {
continue;
}
- TclListObjGetElements(NULL, objPtr, &listc, &listv);
- if (listc) {
- if (resPtr) {
- Tcl_ListObjReplace(NULL, resPtr, INT_MAX, 0, listc, listv);
- } else {
- resPtr = TclListObjCopy(NULL, objPtr);
- }
+ if (resPtr) {
+ Tcl_ListObjAppendList(NULL, resPtr, objPtr);
+ } else {
+ resPtr = TclListObjCopy(NULL, objPtr);
}
}
if (!resPtr) {
@@ -1210,81 +1930,71 @@ Tcl_ConcatObj(
/*
* Something cannot be determined to be safe, so build the concatenation
* the slow way, using the string representations.
+ *
+ * First try to pre-allocate the size required.
*/
- allocSize = 0;
for (i = 0; i < objc; i++) {
- objPtr = objv[i];
- element = TclGetStringFromObj(objPtr, &length);
- if ((element != NULL) && (length > 0)) {
- allocSize += (length + 1);
+ element = TclGetStringFromObj(objv[i], &elemLength);
+ bytesNeeded += elemLength;
+ if (bytesNeeded < 0) {
+ break;
}
}
- if (allocSize == 0) {
- allocSize = 1; /* enough for the NULL byte at end */
- }
/*
- * Allocate storage for the concatenated result. Note that allocSize is
- * one more than the total number of characters, and so includes room for
- * the terminating NULL byte.
+ * Does not matter if this fails, will simply try later to build up the
+ * string with each Append reallocating as needed with the usual string
+ * append algorithm. When that fails it will report the error.
*/
- concatStr = ckalloc((unsigned) allocSize);
+ TclNewObj(resPtr);
+ Tcl_AttemptSetObjLength(resPtr, bytesNeeded + objc - 1);
+ Tcl_SetObjLength(resPtr, 0);
- /*
- * Now concatenate the elements. Clip white space off the front and back
- * to generate a neater result, and ignore any empty elements. Also put a
- * null byte at the end.
- */
+ for (i = 0; i < objc; i++) {
+ int trim;
+
+ element = TclGetStringFromObj(objv[i], &elemLength);
- finalSize = 0;
- if (objc == 0) {
- *concatStr = '\0';
- } else {
- p = concatStr;
- for (i = 0; i < objc; i++) {
- objPtr = objv[i];
- element = TclGetStringFromObj(objPtr, &elemLength);
- while ((elemLength > 0) && (UCHAR(*element) < 127)
- && isspace(UCHAR(*element))) { /* INTL: ISO C space. */
- element++;
- elemLength--;
- }
+ /*
+ * Trim away the leading whitespace.
+ */
- /*
- * Trim trailing white space. But, be careful not to trim a space
- * character if it is preceded by a backslash: in this case it
- * could be significant.
- */
+ trim = TclTrimLeft(element, elemLength, CONCAT_TRIM_SET,
+ CONCAT_WS_SIZE);
+ element += trim;
+ elemLength -= trim;
- while ((elemLength > 0) && (UCHAR(element[elemLength-1]) < 127)
- && isspace(UCHAR(element[elemLength-1]))
- /* INTL: ISO C space. */
- && ((elemLength < 2) || (element[elemLength-2] != '\\'))) {
- elemLength--;
- }
- if (elemLength == 0) {
- continue; /* nothing left of this element */
- }
- memcpy(p, element, (size_t) elemLength);
- p += elemLength;
- *p = ' ';
- p++;
- finalSize += (elemLength + 1);
+ /*
+ * Trim away the trailing whitespace. Do not permit trimming to expose
+ * a final backslash character.
+ */
+
+ trim = TclTrimRight(element, elemLength, CONCAT_TRIM_SET,
+ CONCAT_WS_SIZE);
+ trim -= trim && (element[elemLength - trim - 1] == '\\');
+ elemLength -= trim;
+
+ /*
+ * If we're left with empty element after trimming, do nothing.
+ */
+
+ if (elemLength == 0) {
+ continue;
}
- if (p != concatStr) {
- p[-1] = 0;
- finalSize -= 1; /* we overwrote the final ' ' */
- } else {
- *p = 0;
+
+ /*
+ * Append to the result with space if needed.
+ */
+
+ if (needSpace) {
+ Tcl_AppendToObj(resPtr, " ", 1);
}
+ Tcl_AppendToObj(resPtr, element, elemLength);
+ needSpace = 1;
}
-
- TclNewObj(objPtr);
- objPtr->bytes = concatStr;
- objPtr->length = finalSize;
- return objPtr;
+ return resPtr;
}
/*
@@ -1307,8 +2017,8 @@ Tcl_ConcatObj(
int
Tcl_StringMatch(
- CONST char *str, /* String. */
- CONST char *pattern) /* Pattern, which may contain special
+ const char *str, /* String. */
+ const char *pattern) /* Pattern, which may contain special
* characters. */
{
return Tcl_StringCaseMatch(str, pattern, 0);
@@ -1335,13 +2045,13 @@ Tcl_StringMatch(
int
Tcl_StringCaseMatch(
- CONST char *str, /* String. */
- CONST char *pattern, /* Pattern, which may contain special
+ const char *str, /* String. */
+ const char *pattern, /* Pattern, which may contain special
* characters. */
int nocase) /* 0 for case sensitive, 1 for insensitive */
{
int p, charLen;
- CONST char *pstart = pattern;
+ const char *pstart = pattern;
Tcl_UniChar ch1, ch2;
while (1) {
@@ -1568,11 +2278,12 @@ Tcl_StringCaseMatch(
int
TclByteArrayMatch(
- const unsigned char *string, /* String. */
- int strLen, /* Length of String */
- const unsigned char *pattern, /* Pattern, which may contain special
- * characters. */
- int ptnLen, /* Length of Pattern */
+ const unsigned char *string,/* String. */
+ int strLen, /* Length of String */
+ const unsigned char *pattern,
+ /* Pattern, which may contain special
+ * characters. */
+ int ptnLen, /* Length of Pattern */
int flags)
{
const unsigned char *stringEnd, *patternEnd;
@@ -1680,6 +2391,7 @@ TclByteArrayMatch(
/*
* Matches ranges of form [a-z] or [z-a].
*/
+
break;
}
} else if (startChar == ch1) {
@@ -1726,9 +2438,9 @@ TclByteArrayMatch(
*
* TclStringMatchObj --
*
- * See if a particular string matches a particular pattern.
- * Allows case insensitivity. This is the generic multi-type handler
- * for the various matching algorithms.
+ * See if a particular string matches a particular pattern. Allows case
+ * insensitivity. This is the generic multi-type handler for the various
+ * matching algorithms.
*
* Results:
* The return value is 1 if string matches pattern, and 0 otherwise. The
@@ -1743,9 +2455,10 @@ TclByteArrayMatch(
int
TclStringMatchObj(
- Tcl_Obj *strObj, /* string object. */
- Tcl_Obj *ptnObj, /* pattern object. */
- int flags) /* Only TCL_MATCH_NOCASE should be passed or 0. */
+ Tcl_Obj *strObj, /* string object. */
+ Tcl_Obj *ptnObj, /* pattern object. */
+ int flags) /* Only TCL_MATCH_NOCASE should be passed, or
+ * 0. */
{
int match, length, plen;
@@ -1756,13 +2469,13 @@ TclStringMatchObj(
trivial = nocase ? 0 : TclMatchIsTrivial(TclGetString(ptnObj));
*/
- if ((strObj->typePtr == &tclStringType)) {
+ if ((strObj->typePtr == &tclStringType) || (strObj->typePtr == NULL)) {
Tcl_UniChar *udata, *uptn;
udata = Tcl_GetUnicodeFromObj(strObj, &length);
uptn = Tcl_GetUnicodeFromObj(ptnObj, &plen);
match = TclUniCharMatch(udata, length, uptn, plen, flags);
- } else if ((strObj->typePtr == &tclByteArrayType) && !flags) {
+ } else if (TclIsPureByteArray(strObj) && !flags) {
unsigned char *data, *ptn;
data = Tcl_GetByteArrayFromObj(strObj, &length);
@@ -1824,15 +2537,13 @@ Tcl_DStringInit(
char *
Tcl_DStringAppend(
Tcl_DString *dsPtr, /* Structure describing dynamic string. */
- CONST char *bytes, /* String to append. If length is -1 then this
+ const char *bytes, /* String to append. If length is -1 then this
* must be null-terminated. */
int length) /* Number of bytes from "bytes" to append. If
* < 0, then append all of bytes, up to null
* at end. */
{
int newSize;
- char *dst;
- CONST char *end;
if (length < 0) {
length = strlen(bytes);
@@ -1848,13 +2559,12 @@ Tcl_DStringAppend(
if (newSize >= dsPtr->spaceAvl) {
dsPtr->spaceAvl = newSize * 2;
if (dsPtr->string == dsPtr->staticSpace) {
- char *newString = ckalloc((unsigned) dsPtr->spaceAvl);
+ char *newString = ckalloc(dsPtr->spaceAvl);
memcpy(newString, dsPtr->string, (size_t) dsPtr->length);
dsPtr->string = newString;
} else {
- dsPtr->string = ckrealloc((void *) dsPtr->string,
- (size_t) dsPtr->spaceAvl);
+ dsPtr->string = ckrealloc(dsPtr->string, dsPtr->spaceAvl);
}
}
@@ -1862,18 +2572,46 @@ Tcl_DStringAppend(
* Copy the new string into the buffer at the end of the old one.
*/
- for (dst = dsPtr->string + dsPtr->length, end = bytes+length;
- bytes < end; bytes++, dst++) {
- *dst = *bytes;
- }
- *dst = '\0';
+ memcpy(dsPtr->string + dsPtr->length, bytes, length);
dsPtr->length += length;
+ dsPtr->string[dsPtr->length] = '\0';
return dsPtr->string;
}
/*
*----------------------------------------------------------------------
*
+ * TclDStringAppendObj, TclDStringAppendDString --
+ *
+ * Simple wrappers round Tcl_DStringAppend that make it easier to append
+ * from particular sources of strings.
+ *
+ *----------------------------------------------------------------------
+ */
+
+char *
+TclDStringAppendObj(
+ Tcl_DString *dsPtr,
+ Tcl_Obj *objPtr)
+{
+ int length;
+ char *bytes = Tcl_GetStringFromObj(objPtr, &length);
+
+ return Tcl_DStringAppend(dsPtr, bytes, length);
+}
+
+char *
+TclDStringAppendDString(
+ Tcl_DString *dsPtr,
+ Tcl_DString *toAppendPtr)
+{
+ return Tcl_DStringAppend(dsPtr, Tcl_DStringValue(toAppendPtr),
+ Tcl_DStringLength(toAppendPtr));
+}
+
+/*
+ *----------------------------------------------------------------------
+ *
* Tcl_DStringAppendElement --
*
* Append a list element to the current value of a dynamic string.
@@ -1892,15 +2630,14 @@ Tcl_DStringAppend(
char *
Tcl_DStringAppendElement(
Tcl_DString *dsPtr, /* Structure describing dynamic string. */
- CONST char *element) /* String to append. Must be
+ const char *element) /* String to append. Must be
* null-terminated. */
{
- int newSize, flags, strSize;
- char *dst;
-
- strSize = ((element== NULL) ? 0 : strlen(element));
- newSize = Tcl_ScanCountedElement(element, strSize, &flags)
- + dsPtr->length + 1;
+ char *dst = dsPtr->string + dsPtr->length;
+ int needSpace = TclNeedSpace(dsPtr->string, dst);
+ int flags = needSpace ? TCL_DONT_QUOTE_HASH : 0;
+ int newSize = dsPtr->length + needSpace
+ + TclScanElement(element, -1, &flags);
/*
* Allocate a larger buffer for the string if the current one isn't large
@@ -1913,14 +2650,14 @@ Tcl_DStringAppendElement(
if (newSize >= dsPtr->spaceAvl) {
dsPtr->spaceAvl = newSize * 2;
if (dsPtr->string == dsPtr->staticSpace) {
- char *newString = ckalloc((unsigned) dsPtr->spaceAvl);
+ char *newString = ckalloc(dsPtr->spaceAvl);
memcpy(newString, dsPtr->string, (size_t) dsPtr->length);
dsPtr->string = newString;
} else {
- dsPtr->string = (char *) ckrealloc((void *) dsPtr->string,
- (size_t) dsPtr->spaceAvl);
+ dsPtr->string = ckrealloc(dsPtr->string, dsPtr->spaceAvl);
}
+ dst = dsPtr->string + dsPtr->length;
}
/*
@@ -1928,8 +2665,7 @@ Tcl_DStringAppendElement(
* the end, with a space, if needed.
*/
- dst = dsPtr->string + dsPtr->length;
- if (TclNeedSpace(dsPtr->string, dst)) {
+ if (needSpace) {
*dst = ' ';
dst++;
dsPtr->length++;
@@ -1942,7 +2678,8 @@ Tcl_DStringAppendElement(
flags |= TCL_DONT_QUOTE_HASH;
}
- dsPtr->length += Tcl_ConvertCountedElement(element, strSize, dst, flags);
+ dsPtr->length += TclConvertElement(element, -1, dst, flags);
+ dsPtr->string[dsPtr->length] = '\0';
return dsPtr->string;
}
@@ -1995,13 +2732,12 @@ Tcl_DStringSetLength(
dsPtr->spaceAvl = length + 1;
}
if (dsPtr->string == dsPtr->staticSpace) {
- char *newString = ckalloc((unsigned) dsPtr->spaceAvl);
+ char *newString = ckalloc(dsPtr->spaceAvl);
memcpy(newString, dsPtr->string, (size_t) dsPtr->length);
dsPtr->string = newString;
} else {
- dsPtr->string = (char *) ckrealloc((void *) dsPtr->string,
- (size_t) dsPtr->spaceAvl);
+ dsPtr->string = ckrealloc(dsPtr->string, dsPtr->spaceAvl);
}
}
dsPtr->length = length;
@@ -2065,21 +2801,7 @@ Tcl_DStringResult(
* result of interp. */
{
Tcl_ResetResult(interp);
-
- if (dsPtr->string != dsPtr->staticSpace) {
- interp->result = dsPtr->string;
- interp->freeProc = TCL_DYNAMIC;
- } else if (dsPtr->length < TCL_RESULT_SIZE) {
- interp->result = ((Interp *) interp)->resultSpace;
- strcpy(interp->result, dsPtr->string);
- } else {
- Tcl_SetResult(interp, dsPtr->string, TCL_VOLATILE);
- }
-
- dsPtr->string = dsPtr->staticSpace;
- dsPtr->length = 0;
- dsPtr->spaceAvl = TCL_DSTRING_STATIC_SIZE;
- dsPtr->staticSpace[0] = '\0';
+ Tcl_SetObjResult(interp, TclDStringToObj(dsPtr));
}
/*
@@ -2115,6 +2837,39 @@ Tcl_DStringGetResult(
}
/*
+ * Do more efficient transfer when we know the result is a Tcl_Obj. When
+ * there's no st`ring result, we only have to deal with two cases:
+ *
+ * 1. When the string rep is the empty string, when we don't copy but
+ * instead use the staticSpace in the DString to hold an empty string.
+
+ * 2. When the string rep is not there or there's a real string rep, when
+ * we use Tcl_GetString to fetch (or generate) the string rep - which
+ * we know to have been allocated with ckalloc() - and use it to
+ * populate the DString space. Then, we free the internal rep. and set
+ * the object's string representation back to the canonical empty
+ * string.
+ */
+
+ if (!iPtr->result[0] && iPtr->objResultPtr
+ && !Tcl_IsShared(iPtr->objResultPtr)) {
+ if (iPtr->objResultPtr->bytes == tclEmptyStringRep) {
+ dsPtr->string = dsPtr->staticSpace;
+ dsPtr->string[0] = 0;
+ dsPtr->length = 0;
+ dsPtr->spaceAvl = TCL_DSTRING_STATIC_SIZE;
+ } else {
+ dsPtr->string = Tcl_GetString(iPtr->objResultPtr);
+ dsPtr->length = iPtr->objResultPtr->length;
+ dsPtr->spaceAvl = dsPtr->length + 1;
+ TclFreeIntRep(iPtr->objResultPtr);
+ iPtr->objResultPtr->bytes = tclEmptyStringRep;
+ iPtr->objResultPtr->length = 0;
+ }
+ return;
+ }
+
+ /*
* If the string result is empty, move the object result to the string
* result, then reset the object result.
*/
@@ -2127,9 +2882,9 @@ Tcl_DStringGetResult(
dsPtr->string = iPtr->result;
dsPtr->spaceAvl = dsPtr->length+1;
} else {
- dsPtr->string = (char *) ckalloc((unsigned) (dsPtr->length+1));
+ dsPtr->string = ckalloc(dsPtr->length+1);
memcpy(dsPtr->string, iPtr->result, (unsigned) dsPtr->length+1);
- (*iPtr->freeProc)(iPtr->result);
+ iPtr->freeProc(iPtr->result);
}
dsPtr->spaceAvl = dsPtr->length+1;
iPtr->freeProc = NULL;
@@ -2138,7 +2893,7 @@ Tcl_DStringGetResult(
dsPtr->string = dsPtr->staticSpace;
dsPtr->spaceAvl = TCL_DSTRING_STATIC_SIZE;
} else {
- dsPtr->string = (char *) ckalloc((unsigned) (dsPtr->length + 1));
+ dsPtr->string = ckalloc(dsPtr->length+1);
dsPtr->spaceAvl = dsPtr->length + 1;
}
memcpy(dsPtr->string, iPtr->result, (unsigned) dsPtr->length+1);
@@ -2151,6 +2906,66 @@ Tcl_DStringGetResult(
/*
*----------------------------------------------------------------------
*
+ * TclDStringToObj --
+ *
+ * This function moves a dynamic string's contents to a new Tcl_Obj. Be
+ * aware that this function does *not* check that the encoding of the
+ * contents of the dynamic string is correct; this is the caller's
+ * responsibility to enforce.
+ *
+ * Results:
+ * The newly-allocated untyped (i.e., typePtr==NULL) Tcl_Obj with a
+ * reference count of zero.
+ *
+ * Side effects:
+ * The string is "moved" to the object. dsPtr is reinitialized to an
+ * empty string; it does not need to be Tcl_DStringFree'd after this if
+ * not used further.
+ *
+ *----------------------------------------------------------------------
+ */
+
+Tcl_Obj *
+TclDStringToObj(
+ Tcl_DString *dsPtr)
+{
+ Tcl_Obj *result;
+
+ if (dsPtr->string == dsPtr->staticSpace) {
+ if (dsPtr->length == 0) {
+ TclNewObj(result);
+ } else {
+ /*
+ * Static buffer, so must copy.
+ */
+
+ TclNewStringObj(result, dsPtr->string, dsPtr->length);
+ }
+ } else {
+ /*
+ * Dynamic buffer, so transfer ownership and reset.
+ */
+
+ TclNewObj(result);
+ result->bytes = dsPtr->string;
+ result->length = dsPtr->length;
+ }
+
+ /*
+ * Re-establish the DString as empty with no buffer allocated.
+ */
+
+ dsPtr->string = dsPtr->staticSpace;
+ dsPtr->spaceAvl = TCL_DSTRING_STATIC_SIZE;
+ dsPtr->length = 0;
+ dsPtr->staticSpace[0] = '\0';
+
+ return result;
+}
+
+/*
+ *----------------------------------------------------------------------
+ *
* Tcl_DStringStartSublist --
*
* This function adds the necessary information to a dynamic string
@@ -2171,9 +2986,9 @@ Tcl_DStringStartSublist(
Tcl_DString *dsPtr) /* Dynamic string. */
{
if (TclNeedSpace(dsPtr->string, dsPtr->string + dsPtr->length)) {
- Tcl_DStringAppend(dsPtr, " {", -1);
+ TclDStringAppendLiteral(dsPtr, " {");
} else {
- Tcl_DStringAppend(dsPtr, "{", -1);
+ TclDStringAppendLiteral(dsPtr, "{");
}
}
@@ -2199,7 +3014,7 @@ void
Tcl_DStringEndSublist(
Tcl_DString *dsPtr) /* Dynamic string. */
{
- Tcl_DStringAppend(dsPtr, "}", -1);
+ TclDStringAppendLiteral(dsPtr, "}");
}
/*
@@ -2232,127 +3047,150 @@ Tcl_PrintDouble(
* at least TCL_DOUBLE_SPACE characters. */
{
char *p, c;
- int exp;
+ int exponent;
int signum;
- char buffer[TCL_DOUBLE_SPACE];
- Tcl_UniChar ch;
-
- int *precisionPtr = Tcl_GetThreadData(&precisionKey, (int)sizeof(int));
+ char *digits;
+ char *end;
+ int *precisionPtr = Tcl_GetThreadData(&precisionKey, (int) sizeof(int));
/*
- * If *precisionPtr == 0, then use TclDoubleDigits to develop a decimal
- * significand and exponent, then format it in E or F format as
- * appropriate. If *precisionPtr != 0, use the native sprintf and then add
- * a trailing ".0" if there is no decimal point in the rep.
+ * Handle NaN.
*/
+
+ if (TclIsNaN(value)) {
+ TclFormatNaN(value, dst);
+ return;
+ }
- if (*precisionPtr == 0) {
+ /*
+ * Handle infinities.
+ */
+
+ if (TclIsInfinite(value)) {
/*
- * Handle NaN.
+ * Remember to copy the terminating NUL too.
*/
-
- if (TclIsNaN(value)) {
- TclFormatNaN(value, dst);
- return;
+
+ if (value < 0) {
+ memcpy(dst, "-Inf", 5);
+ } else {
+ memcpy(dst, "Inf", 4);
}
+ return;
+ }
+ /*
+ * Ordinary (normal and denormal) values.
+ */
+
+ if (*precisionPtr == 0) {
+ digits = TclDoubleDigits(value, -1, TCL_DD_SHORTEST,
+ &exponent, &signum, &end);
+ } else {
/*
- * Handle infinities.
+ * There are at least two possible interpretations for tcl_precision.
+ *
+ * The first is, "choose the decimal representation having
+ * $tcl_precision digits of significance that is nearest to the given
+ * number, breaking ties by rounding to even, and then trimming
+ * trailing zeros." This gives the greatest possible precision in the
+ * decimal string, but offers the anomaly that [expr 0.1] will be
+ * "0.10000000000000001".
+ *
+ * The second is "choose the decimal representation having at most
+ * $tcl_precision digits of significance that is nearest to the given
+ * number. If no such representation converts exactly to the given
+ * number, choose the one that is closest, breaking ties by rounding
+ * to even. If more than one such representation converts exactly to
+ * the given number, choose the shortest, breaking ties in favour of
+ * the nearest, breaking remaining ties in favour of the one ending in
+ * an even digit."
+ *
+ * Tcl 8.4 implements the first of these, which gives rise to
+ * anomalies in formatting:
+ *
+ * % expr 0.1
+ * 0.10000000000000001
+ * % expr 0.01
+ * 0.01
+ * % expr 1e-7
+ * 9.9999999999999995e-08
+ *
+ * For human readability, it appears better to choose the second rule,
+ * and let [expr 0.1] return 0.1. But for 8.4 compatibility, we prefer
+ * the first (the recommended zero value for tcl_precision avoids the
+ * problem entirely).
+ *
+ * Uncomment TCL_DD_SHORTEN_FLAG in the next call to prefer the method
+ * that allows floating point values to be shortened if it can be done
+ * without loss of precision.
*/
- if (TclIsInfinite(value)) {
- if (value < 0) {
- strcpy(dst, "-Inf");
- } else {
- strcpy(dst, "Inf");
+ digits = TclDoubleDigits(value, *precisionPtr,
+ TCL_DD_E_FORMAT /* | TCL_DD_SHORTEN_FLAG */,
+ &exponent, &signum, &end);
+ }
+ if (signum) {
+ *dst++ = '-';
+ }
+ p = digits;
+ if (exponent < -4 || exponent > 16) {
+ /*
+ * E format for numbers < 1e-3 or >= 1e17.
+ */
+
+ *dst++ = *p++;
+ c = *p;
+ if (c != '\0') {
+ *dst++ = '.';
+ while (c != '\0') {
+ *dst++ = c;
+ c = *++p;
}
- return;
}
/*
- * Ordinary (normal and denormal) values.
+ * Tcl 8.4 appears to format with at least a two-digit exponent;
+ * preserve that behaviour when tcl_precision != 0
*/
- exp = TclDoubleDigits(buffer, value, &signum);
- if (signum) {
- *dst++ = '-';
- }
- p = buffer;
- if (exp < -3 || exp > 17) {
- /*
- * E format for numbers < 1e-3 or >= 1e17.
- */
-
- *dst++ = *p++;
- c = *p;
- if (c != '\0') {
- *dst++ = '.';
- while (c != '\0') {
- *dst++ = c;
- c = *++p;
- }
- }
- sprintf(dst, "e%+d", exp-1);
+ if (*precisionPtr == 0) {
+ sprintf(dst, "e%+d", exponent);
} else {
- /*
- * F format for others.
- */
-
- if (exp <= 0) {
- *dst++ = '0';
- }
- c = *p;
- while (exp-- > 0) {
- if (c != '\0') {
- *dst++ = c;
- c = *++p;
- } else {
- *dst++ = '0';
- }
- }
- *dst++ = '.';
- if (c == '\0') {
- *dst++ = '0';
- } else {
- while (++exp < 0) {
- *dst++ = '0';
- }
- while (c != '\0') {
- *dst++ = c;
- c = *++p;
- }
- }
- *dst++ = '\0';
+ sprintf(dst, "e%+03d", exponent);
}
} else {
/*
- * tcl_precision is supplied, pass it to the native sprintf.
+ * F format for others.
*/
-
- sprintf(dst, "%.*g", *precisionPtr, value);
-
- /*
- * If the ASCII result looks like an integer, add ".0" so that it
- * doesn't look like an integer anymore. This prevents floating-point
- * values from being converted to integers unintentionally. Check for
- * ASCII specifically to speed up the function.
- */
-
- for (p = dst; *p != 0;) {
- if (UCHAR(*p) < 0x80) {
- c = *p++;
+
+ if (exponent < 0) {
+ *dst++ = '0';
+ }
+ c = *p;
+ while (exponent-- >= 0) {
+ if (c != '\0') {
+ *dst++ = c;
+ c = *++p;
} else {
- p += Tcl_UtfToUniChar(p, &ch);
- c = UCHAR(ch);
+ *dst++ = '0';
}
- if ((c == '.') || isalpha(UCHAR(c))) { /* INTL: ISO only. */
- return;
+ }
+ *dst++ = '.';
+ if (c == '\0') {
+ *dst++ = '0';
+ } else {
+ while (++exponent < -1) {
+ *dst++ = '0';
+ }
+ while (c != '\0') {
+ *dst++ = c;
+ c = *++p;
}
}
- p[0] = '.';
- p[1] = '0';
- p[2] = 0;
+ *dst++ = '\0';
}
+ ckfree(digits);
}
/*
@@ -2380,11 +3218,11 @@ char *
TclPrecTraceProc(
ClientData clientData, /* Not used. */
Tcl_Interp *interp, /* Interpreter containing variable. */
- CONST char *name1, /* Name of variable. */
- CONST char *name2, /* Second part of variable name. */
+ const char *name1, /* Name of variable. */
+ const char *name2, /* Second part of variable name. */
int flags) /* Information about what happened. */
{
- Tcl_Obj* value;
+ Tcl_Obj *value;
int prec;
int *precisionPtr = Tcl_GetThreadData(&precisionKey, (int) sizeof(int));
@@ -2421,13 +3259,13 @@ TclPrecTraceProc(
*/
if (Tcl_IsSafe(interp)) {
- return "can't modify precision from a safe interpreter";
+ return (char *) "can't modify precision from a safe interpreter";
}
value = Tcl_GetVar2Ex(interp, name1, name2, flags & TCL_GLOBAL_ONLY);
if (value == NULL
- || Tcl_GetIntFromObj((Tcl_Interp*) NULL, value, &prec) != TCL_OK
+ || Tcl_GetIntFromObj(NULL, value, &prec) != TCL_OK
|| prec < 0 || prec > TCL_MAX_PREC) {
- return "improper value for precision";
+ return (char *) "improper value for precision";
}
*precisionPtr = prec;
return NULL;
@@ -2452,8 +3290,8 @@ TclPrecTraceProc(
int
TclNeedSpace(
- CONST char *start, /* First character in string. */
- CONST char *end) /* End of string (place where space will be
+ const char *start, /* First character in string. */
+ const char *end) /* End of string (place where space will be
* added, if appropriate). */
{
/*
@@ -2503,6 +3341,7 @@ TclNeedSpace(
* NOTE: Remove this if other Unicode spaces ever get accepted as
* list-element separators.
*/
+
return 1;
}
switch (*end) {
@@ -2522,6 +3361,94 @@ TclNeedSpace(
/*
*----------------------------------------------------------------------
*
+ * TclFormatInt --
+ *
+ * This procedure formats an integer into a sequence of decimal digit
+ * characters in a buffer. If the integer is negative, a minus sign is
+ * inserted at the start of the buffer. A null character is inserted at
+ * the end of the formatted characters. It is the caller's responsibility
+ * to ensure that enough storage is available. This procedure has the
+ * effect of sprintf(buffer, "%ld", n) but is faster as proven in
+ * benchmarks. This is key to UpdateStringOfInt, which is a common path
+ * for a lot of code (e.g. int-indexed arrays).
+ *
+ * Results:
+ * An integer representing the number of characters formatted, not
+ * including the terminating \0.
+ *
+ * Side effects:
+ * The formatted characters are written into the storage pointer to by
+ * the "buffer" argument.
+ *
+ *----------------------------------------------------------------------
+ */
+
+int
+TclFormatInt(
+ char *buffer, /* Points to the storage into which the
+ * formatted characters are written. */
+ long n) /* The integer to format. */
+{
+ long intVal;
+ int i;
+ int numFormatted, j;
+ const char *digits = "0123456789";
+
+ /*
+ * Check first whether "n" is zero.
+ */
+
+ if (n == 0) {
+ buffer[0] = '0';
+ buffer[1] = 0;
+ return 1;
+ }
+
+ /*
+ * Check whether "n" is the maximum negative value. This is -2^(m-1) for
+ * an m-bit word, and has no positive equivalent; negating it produces the
+ * same value.
+ */
+
+ intVal = -n; /* [Bug 3390638] Workaround for*/
+ if (n == -n || intVal == n) { /* broken compiler optimizers. */
+ return sprintf(buffer, "%ld", n);
+ }
+
+ /*
+ * Generate the characters of the result backwards in the buffer.
+ */
+
+ intVal = (n < 0? -n : n);
+ i = 0;
+ buffer[0] = '\0';
+ do {
+ i++;
+ buffer[i] = digits[intVal % 10];
+ intVal = intVal/10;
+ } while (intVal > 0);
+ if (n < 0) {
+ i++;
+ buffer[i] = '-';
+ }
+ numFormatted = i;
+
+ /*
+ * Now reverse the characters.
+ */
+
+ for (j = 0; j < i; j++, i--) {
+ char tmp = buffer[i];
+
+ buffer[i] = buffer[j];
+ buffer[j] = tmp;
+ }
+ return numFormatted;
+}
+
+/*
+ *----------------------------------------------------------------------
+ *
* TclGetIntForIndex --
*
* This function returns an integer corresponding to the list index held
@@ -2556,7 +3483,8 @@ TclGetIntForIndex(
* representing an index. */
{
int length;
- char *opPtr, *bytes;
+ char *opPtr;
+ const char *bytes;
if (TclGetIntFromObj(NULL, objPtr, indexPtr) == TCL_OK) {
return TCL_OK;
@@ -2578,7 +3506,7 @@ TclGetIntForIndex(
* Leading whitespace is acceptable in an index.
*/
- while (length && isspace(UCHAR(*bytes))) { /* INTL: ISO space. */
+ while (length && TclIsSpaceProc(*bytes)) {
bytes++;
length--;
}
@@ -2591,7 +3519,7 @@ TclGetIntForIndex(
if ((savedOp != '+') && (savedOp != '-')) {
goto parseError;
}
- if (isspace(UCHAR(opPtr[1]))) {
+ if (TclIsSpaceProc(opPtr[1])) {
goto parseError;
}
*opPtr = '\0';
@@ -2617,21 +3545,15 @@ TclGetIntForIndex(
parseError:
if (interp != NULL) {
- char *bytes = Tcl_GetString(objPtr);
-
- /*
- * The result might not be empty; this resets it which should be both
- * a cheap operation, and of little problem because this is an
- * error-generation path anyway.
- */
-
- Tcl_ResetResult(interp);
- Tcl_AppendResult(interp, "bad index \"", bytes,
- "\": must be integer?[+-]integer? or end?[+-]integer?", NULL);
+ bytes = Tcl_GetString(objPtr);
+ Tcl_SetObjResult(interp, Tcl_ObjPrintf(
+ "bad index \"%s\": must be integer?[+-]integer? or"
+ " end?[+-]integer?", bytes));
if (!strncmp(bytes, "end-", 4)) {
bytes += 4;
}
TclCheckBadOctal(interp, bytes);
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "INDEX", NULL);
}
return TCL_ERROR;
@@ -2659,13 +3581,12 @@ TclGetIntForIndex(
static void
UpdateStringOfEndOffset(
- register Tcl_Obj* objPtr)
+ register Tcl_Obj *objPtr)
{
- char buffer[TCL_INTEGER_SPACE + sizeof("end") + 1];
- register int len;
+ char buffer[TCL_INTEGER_SPACE + 5];
+ register int len = 3;
- strcpy(buffer, "end");
- len = sizeof("end") - 1;
+ memcpy(buffer, "end", 4);
if (objPtr->internalRep.longValue != 0) {
buffer[len++] = '-';
len += TclFormatInt(buffer+len, -(objPtr->internalRep.longValue));
@@ -2699,7 +3620,7 @@ SetEndOffsetFromAny(
Tcl_Obj *objPtr) /* Pointer to the object to parse */
{
int offset; /* Offset in the "end-offset" expression */
- register char* bytes; /* String rep of the object */
+ register const char *bytes; /* String rep of the object */
int length; /* Length of the object's string rep */
/*
@@ -2718,9 +3639,9 @@ SetEndOffsetFromAny(
if ((*bytes != 'e') || (strncmp(bytes, "end",
(size_t)((length > 3) ? 3 : length)) != 0)) {
if (interp != NULL) {
- Tcl_ResetResult(interp);
- Tcl_AppendResult(interp, "bad index \"", bytes,
- "\": must be end?[+-]integer?", NULL);
+ Tcl_SetObjResult(interp, Tcl_ObjPrintf(
+ "bad index \"%s\": must be end?[+-]integer?", bytes));
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "INDEX", NULL);
}
return TCL_ERROR;
}
@@ -2737,8 +3658,8 @@ SetEndOffsetFromAny(
* after "end-" to Tcl_GetInt, then reverse for offset.
*/
- if (isspace(UCHAR(bytes[4]))) {
- return TCL_ERROR;
+ if (TclIsSpaceProc(bytes[4])) {
+ goto badIndexFormat;
}
if (Tcl_GetInt(interp, bytes+4, &offset) != TCL_OK) {
return TCL_ERROR;
@@ -2751,10 +3672,11 @@ SetEndOffsetFromAny(
* Conversion failed. Report the error.
*/
+ badIndexFormat:
if (interp != NULL) {
- Tcl_ResetResult(interp);
- Tcl_AppendResult(interp, "bad index \"", bytes,
- "\": must be end?[+-]integer?", NULL);
+ Tcl_SetObjResult(interp, Tcl_ObjPrintf(
+ "bad index \"%s\": must be end?[+-]integer?", bytes));
+ Tcl_SetErrorCode(interp, "TCL", "VALUE", "INDEX", NULL);
}
return TCL_ERROR;
}
@@ -2793,16 +3715,16 @@ TclCheckBadOctal(
Tcl_Interp *interp, /* Interpreter to use for error reporting. If
* NULL, then no error message is left after
* errors. */
- CONST char *value) /* String to check. */
+ const char *value) /* String to check. */
{
- register CONST char *p = value;
+ register const char *p = value;
/*
* A frequent mistake is invalid octal values due to an unwanted leading
* zero. Try to generate a meaningful error message.
*/
- while (isspace(UCHAR(*p))) { /* INTL: ISO space. */
+ while (TclIsSpaceProc(*p)) {
p++;
}
if (*p == '+' || *p == '-') {
@@ -2810,12 +3732,12 @@ TclCheckBadOctal(
}
if (*p == '0') {
if ((p[1] == 'o') || p[1] == 'O') {
- p+=2;
+ p += 2;
}
while (isdigit(UCHAR(*p))) { /* INTL: digit. */
p++;
}
- while (isspace(UCHAR(*p))) { /* INTL: ISO space. */
+ while (TclIsSpaceProc(*p)) {
p++;
}
if (*p == '\0') {
@@ -2829,8 +3751,8 @@ TclCheckBadOctal(
* be added to an existing error message as extra info.
*/
- Tcl_AppendResult(interp, " (looks like invalid octal number)",
- NULL);
+ Tcl_AppendToObj(Tcl_GetObjResult(interp),
+ " (looks like invalid octal number)", -1);
}
return 1;
}
@@ -2857,7 +3779,8 @@ ClearHash(
for (hPtr = Tcl_FirstHashEntry(tablePtr, &search); hPtr != NULL;
hPtr = Tcl_NextHashEntry(&search)) {
- Tcl_Obj *objPtr = (Tcl_Obj *) Tcl_GetHashValue(hPtr);
+ Tcl_Obj *objPtr = Tcl_GetHashValue(hPtr);
+
Tcl_DecrRefCount(objPtr);
Tcl_DeleteHashEntry(hPtr);
}
@@ -2885,12 +3808,12 @@ static Tcl_HashTable *
GetThreadHash(
Tcl_ThreadDataKey *keyPtr)
{
- Tcl_HashTable **tablePtrPtr = (Tcl_HashTable **)
- Tcl_GetThreadData(keyPtr, (int) sizeof(Tcl_HashTable *));
+ Tcl_HashTable **tablePtrPtr =
+ Tcl_GetThreadData(keyPtr, sizeof(Tcl_HashTable *));
if (NULL == *tablePtrPtr) {
- *tablePtrPtr = (Tcl_HashTable *)ckalloc(sizeof(Tcl_HashTable));
- Tcl_CreateThreadExitHandler(FreeThreadHash, (ClientData)*tablePtrPtr);
+ *tablePtrPtr = ckalloc(sizeof(Tcl_HashTable));
+ Tcl_CreateThreadExitHandler(FreeThreadHash, *tablePtrPtr);
Tcl_InitHashTable(*tablePtrPtr, TCL_ONE_WORD_KEYS);
}
return *tablePtrPtr;
@@ -2914,11 +3837,11 @@ static void
FreeThreadHash(
ClientData clientData)
{
- Tcl_HashTable *tablePtr = (Tcl_HashTable *) clientData;
+ Tcl_HashTable *tablePtr = clientData;
ClearHash(tablePtr);
Tcl_DeleteHashTable(tablePtr);
- ckfree((char *) tablePtr);
+ ckfree(tablePtr);
}
/*
@@ -2936,7 +3859,7 @@ static void
FreeProcessGlobalValue(
ClientData clientData)
{
- ProcessGlobalValue *pgvPtr = (ProcessGlobalValue *) clientData;
+ ProcessGlobalValue *pgvPtr = clientData;
pgvPtr->epoch++;
pgvPtr->numBytes = 0;
@@ -2966,7 +3889,7 @@ TclSetProcessGlobalValue(
Tcl_Obj *newValue,
Tcl_Encoding encoding)
{
- CONST char *bytes;
+ const char *bytes;
Tcl_HashTable *cacheMap;
Tcl_HashEntry *hPtr;
int dummy;
@@ -2981,10 +3904,10 @@ TclSetProcessGlobalValue(
if (NULL != pgvPtr->value) {
ckfree(pgvPtr->value);
} else {
- Tcl_CreateExitHandler(FreeProcessGlobalValue, (ClientData) pgvPtr);
+ Tcl_CreateExitHandler(FreeProcessGlobalValue, pgvPtr);
}
bytes = Tcl_GetStringFromObj(newValue, &pgvPtr->numBytes);
- pgvPtr->value = ckalloc((unsigned) pgvPtr->numBytes + 1);
+ pgvPtr->value = ckalloc(pgvPtr->numBytes + 1);
memcpy(pgvPtr->value, bytes, (unsigned) pgvPtr->numBytes + 1);
if (pgvPtr->encoding) {
Tcl_FreeEncoding(pgvPtr->encoding);
@@ -3000,9 +3923,8 @@ TclSetProcessGlobalValue(
Tcl_IncrRefCount(newValue);
cacheMap = GetThreadHash(&pgvPtr->key);
ClearHash(cacheMap);
- hPtr = Tcl_CreateHashEntry(cacheMap,
- (char *) INT2PTR(pgvPtr->epoch), &dummy);
- Tcl_SetHashValue(hPtr, (ClientData) newValue);
+ hPtr = Tcl_CreateHashEntry(cacheMap, INT2PTR(pgvPtr->epoch), &dummy);
+ Tcl_SetHashValue(hPtr, newValue);
Tcl_MutexUnlock(&pgvPtr->mutex);
}
@@ -3050,8 +3972,7 @@ TclGetProcessGlobalValue(
Tcl_DStringLength(&native), &newValue);
Tcl_DStringFree(&native);
ckfree(pgvPtr->value);
- pgvPtr->value = ckalloc((unsigned int)
- Tcl_DStringLength(&newValue) + 1);
+ pgvPtr->value = ckalloc(Tcl_DStringLength(&newValue) + 1);
memcpy(pgvPtr->value, Tcl_DStringValue(&newValue),
(size_t) Tcl_DStringLength(&newValue) + 1);
Tcl_DStringFree(&newValue);
@@ -3083,12 +4004,11 @@ TclGetProcessGlobalValue(
Tcl_MutexLock(&pgvPtr->mutex);
if ((NULL == pgvPtr->value) && (pgvPtr->proc)) {
pgvPtr->epoch++;
- (*(pgvPtr->proc))(&pgvPtr->value, &pgvPtr->numBytes,
- &pgvPtr->encoding);
+ pgvPtr->proc(&pgvPtr->value,&pgvPtr->numBytes,&pgvPtr->encoding);
if (pgvPtr->value == NULL) {
Tcl_Panic("PGV Initializer did not initialize");
}
- Tcl_CreateExitHandler(FreeProcessGlobalValue, (ClientData)pgvPtr);
+ Tcl_CreateExitHandler(FreeProcessGlobalValue, pgvPtr);
}
/*
@@ -3097,12 +4017,12 @@ TclGetProcessGlobalValue(
value = Tcl_NewStringObj(pgvPtr->value, pgvPtr->numBytes);
hPtr = Tcl_CreateHashEntry(cacheMap,
- (char *) INT2PTR(pgvPtr->epoch), &dummy);
+ INT2PTR(pgvPtr->epoch), &dummy);
Tcl_MutexUnlock(&pgvPtr->mutex);
- Tcl_SetHashValue(hPtr, (ClientData) value);
+ Tcl_SetHashValue(hPtr, value);
Tcl_IncrRefCount(value);
}
- return (Tcl_Obj *) Tcl_GetHashValue(hPtr);
+ return Tcl_GetHashValue(hPtr);
}
/*
@@ -3114,7 +4034,7 @@ TclGetProcessGlobalValue(
* (normally as computed by TclpFindExecutable).
*
* Results:
- * None.
+ * None.
*
* Side effects:
* Stores the executable name.
@@ -3145,7 +4065,7 @@ TclSetObjNameOfExecutable(
* pathname of the application is unknown.
*
* Side effects:
- * None.
+ * None.
*
*----------------------------------------------------------------------
*/
@@ -3164,20 +4084,20 @@ TclGetObjNameOfExecutable(void)
* This function retrieves the absolute pathname of the application in
* which the Tcl library is running, and returns it in string form.
*
- * The returned string belongs to Tcl and should be copied if the caller
- * plans to keep it, to guard against it becoming invalid.
+ * The returned string belongs to Tcl and should be copied if the caller
+ * plans to keep it, to guard against it becoming invalid.
*
* Results:
* A pointer to the internal string or NULL if the internal full path
* name has not been computed or unknown.
*
* Side effects:
- * None.
+ * None.
*
*----------------------------------------------------------------------
*/
-CONST char *
+const char *
Tcl_GetNameOfExecutable(void)
{
int numBytes;
@@ -3266,9 +4186,9 @@ TclReToGlob(
Tcl_DString *dsPtr,
int *exactPtr)
{
- int anchorLeft, anchorRight, lastIsStar;
- char *dsStr, *dsStrStart, *msg;
- const char *p, *strEnd;
+ int anchorLeft, anchorRight, lastIsStar, numStars;
+ char *dsStr, *dsStrStart;
+ const char *msg, *p, *strEnd, *code;
strEnd = reStr + reStrLen;
Tcl_DStringInit(dsPtr);
@@ -3279,10 +4199,11 @@ TclReToGlob(
if ((reStrLen >= 4) && (memcmp("***=", reStr, 4) == 0)) {
/*
- * At most, the glob pattern has length 2*reStrLen + 2 to
- * backslash escape every character and have * at each end.
+ * At most, the glob pattern has length 2*reStrLen + 2 to backslash
+ * escape every character and have * at each end.
*/
- Tcl_DStringSetLength(dsPtr, 2*reStrLen + 2);
+
+ Tcl_DStringSetLength(dsPtr, reStrLen + 2);
dsStr = dsStrStart = Tcl_DStringValue(dsPtr);
*dsStr++ = '*';
for (p = reStr + 4; p < strEnd; p++) {
@@ -3305,8 +4226,8 @@ TclReToGlob(
}
/*
- * At most, the glob pattern has length reStrLen + 2 to account
- * for possible * at each end.
+ * At most, the glob pattern has length reStrLen + 2 to account for
+ * possible * at each end.
*/
Tcl_DStringSetLength(dsPtr, reStrLen + 2);
@@ -3316,15 +4237,16 @@ TclReToGlob(
* Check for anchored REs (ie ^foo$), so we can use string equal if
* possible. Do not alter the start of str so we can free it correctly.
*
- * Keep track of the last char being an unescaped star to prevent
- * multiple instances. Simpler than checking that the last star
- * may be escaped.
+ * Keep track of the last char being an unescaped star to prevent multiple
+ * instances. Simpler than checking that the last star may be escaped.
*/
msg = NULL;
+ code = NULL;
p = reStr;
anchorRight = 0;
lastIsStar = 0;
+ numStars = 0;
if (*p == '^') {
anchorLeft = 1;
@@ -3377,6 +4299,7 @@ TclReToGlob(
break;
default:
msg = "invalid escape sequence";
+ code = "BADESCAPE";
goto invalidGlob;
}
break;
@@ -3388,6 +4311,7 @@ TclReToGlob(
if (!lastIsStar) {
*dsStr++ = '*';
lastIsStar = 1;
+ numStars++;
}
continue;
} else if (p[1] == '+') {
@@ -3395,6 +4319,7 @@ TclReToGlob(
*dsStr++ = '?';
*dsStr++ = '*';
lastIsStar = 1;
+ numStars++;
continue;
}
}
@@ -3403,6 +4328,7 @@ TclReToGlob(
case '$':
if (p+1 != strEnd) {
msg = "$ not anchor";
+ code = "NONANCHOR";
goto invalidGlob;
}
anchorRight = 1;
@@ -3410,14 +4336,25 @@ TclReToGlob(
case '*': case '+': case '?': case '|': case '^':
case '{': case '}': case '(': case ')': case '[': case ']':
msg = "unhandled RE special char";
+ code = "UNHANDLED";
goto invalidGlob;
- break;
default:
*dsStr++ = *p;
break;
}
lastIsStar = 0;
}
+ if (numStars > 1) {
+ /*
+ * Heuristic: if >1 non-anchoring *, the risk is large that glob
+ * matching is slower than the RE engine, so report invalid.
+ */
+
+ msg = "excessive recursive glob backtrack potential";
+ code = "OVERCOMPLEX";
+ goto invalidGlob;
+ }
+
if (!anchorRight && !lastIsStar) {
*dsStr++ = '*';
}
@@ -3427,22 +4364,12 @@ TclReToGlob(
*exactPtr = (anchorLeft && anchorRight);
}
-#if 0
- fprintf(stderr, "INPUT RE '%.*s' OUTPUT GLOB '%s' anchor %d:%d \n",
- reStrLen, reStr,
- Tcl_DStringValue(dsPtr), anchorLeft, anchorRight);
- fflush(stderr);
-#endif
return TCL_OK;
invalidGlob:
-#if 0
- fprintf(stderr, "INPUT RE '%.*s' NO OUTPUT GLOB %s (%c)\n",
- reStrLen, reStr, msg, *p);
- fflush(stderr);
-#endif
if (interp != NULL) {
- Tcl_AppendResult(interp, msg, NULL);
+ Tcl_SetObjResult(interp, Tcl_NewStringObj(msg, -1));
+ Tcl_SetErrorCode(interp, "TCL", "RE2GLOB", code, NULL);
}
Tcl_DStringFree(dsPtr);
return TCL_ERROR;
generated by cgit v0.12 at 2025-10-31 08:52:39 (GMT)