'\" '\" Copyright (c) 1996 Sun Microsystems, Inc. '\" '\" See the file "license.terms" for information on usage and redistribution '\" of this file, and for a DISCLAIMER OF ALL WARRANTIES. '\" '\" RCS: @(#) $Id: pkgMkIndex.n,v 1.4 1998/10/30 23:02:02 welch Exp $ '\" .so man.macros .TH pkg_mkIndex n 8.0 Tcl "Tcl Built-In Commands" .BS '\" Note: do not modify the .SH NAME line immediately below! .SH NAME pkg_mkIndex \- Build an index for automatic loading of packages .SH SYNOPSIS .nf .VS 8.0.3 \fBpkg_mkIndex ?\fI-direct\fR? ?\fI-verbose\fR? \fIdir\fR ?\fIpattern pattern ...\fR? .VE .fi .BE .SH DESCRIPTION .PP \fBPkg_mkIndex\fR is a utility procedure that is part of the standard Tcl library. It is used to create index files that allow packages to be loaded automatically when \fBpackage require\fR commands are executed. To use \fBpkg_mkIndex\fR, follow these steps: .IP [1] Create the package(s). Each package may consist of one or more Tcl script files or binary files. Binary files must be suitable for loading with the \fBload\fR command with a single argument; for example, if the file is \fBtest.so\fR it must be possible to load this file with the command \fBload test.so\fR. Each script file must contain a \fBpackage provide\fR command to declare the package and version number, and each binary file must contain a call to \fBTcl_PkgProvide\fR. .IP [2] Create the index by invoking \fBpkg_mkIndex\fR. The \fIdir\fR argument gives the name of a directory and each \fIpattern\fR argument is a \fBglob\fR-style pattern that selects script or binary files in \fIdir\fR. .VS 8.0.3 The default pattern is \fB*.tcl\fR and \fB*.[info sharedlibextension]\fR. If the optional \fI-direct\fR argument is given, the generated index will manage to load the package immediately upon \fBpackage require\fR instead of delaying loading until actual use of one of the commands. .VE .RS .LP \fBPkg_mkIndex\fR will create a file \fBpkgIndex.tcl\fR in \fIdir\fR with package information about all the files given by the \fIpattern\fR arguments. It does this by loading each file and seeing what packages and new commands appear (this is why it is essential to have \fBpackage provide\fR commands or \fBTcl_PkgProvide\fR calls in the files, as described above). If you have a package split among scripts and binary files, or if you have dependencies among files, you may have to adjust the order in which \fBpkg_mkIndex\fR processes the files. See COMPLEX CASES below. .RE .IP [3] Install the package as a subdirectory of one of the directories given by the \fBtcl_pkgPath\fR variable. If \fB$tcl_pkgPath\fR contains more than one directory, machine-dependent packages (e.g., those that contain binary shared libraries) should normally be installed under the first directory and machine-independent packages (e.g., those that contain only Tcl scripts) should be installed under the second directory. The subdirectory should include the package's script and/or binary files as well as the \fBpkgIndex.tcl\fR file. As long as the package is installed as a subdirectory of a directory in \fB$tcl_pkgPath\fR it will automatically be found during \fBpackage require\fR commands. .RS .LP If you install the package anywhere else, then you must ensure that the directory containing the package is in the \fBauto_path\fR global variable or an immediate subdirectory of one of the directories in \fBauto_path\fR. \fBAuto_path\fR contains a list of directories that are searched by both the auto-loader and the package loader; by default it includes \fB$tcl_pkgPath\fR. The package loader also checks all of the subdirectories of the directories in \fBauto_path\fR. You can add a directory to \fBauto_path\fR explicitly in your application, or you can add the directory to your \fBTCLLIBPATH\fR environment variable: if this environment variable is present, Tcl initializes \fBauto_path\fR from it during application startup. .RE .IP [4] Once the above steps have been taken, all you need to do to use a package is to invoke \fBpackage require\fR. For example, if versions 2.1, 2.3, and 3.1 of package \fBTest\fR have been indexed by \fBpkg_mkIndex\fR, the command \fBpackage require Test\fR will make version 3.1 available and the command \fBpackage require \-exact Test 2.1\fR will make version 2.1 available. There may be many versions of a package in the various index files in \fBauto_path\fR, but only one will actually be loaded in a given interpreter, based on the first call to \fBpackage require\fR. Different versions of a package may be loaded in different interpreters. .SH "PACKAGES AND THE AUTO-LOADER" .PP The package management facilities overlap somewhat with the auto-loader, in that both arrange for files to be loaded on-demand. However, package management is a higher-level mechanism that uses the auto-loader for the last step in the loading process. It is generally better to index a package with \fBpkg_mkIndex\fR rather than \fBauto_mkindex\fR because the package mechanism provides version control: several versions of a package can be made available in the index files, with different applications using different versions based on \fBpackage require\fR commands. In contrast, \fBauto_mkindex\fR does not understand versions so it can only handle a single version of each package. It is probably not a good idea to index a given package with both \fBpkg_mkIndex\fR and \fBauto_mkindex\fR. If you use \fBpkg_mkIndex\fR to index a package, its commands cannot be invoked until \fBpackage require\fR has been used to select a version; in contrast, packages indexed with \fBauto_mkindex\fR can be used immediately since there is no version control. .SH "HOW IT WORKS" .PP \fBPkg_mkIndex\fR depends on the \fBpackage unknown\fR command, the \fBpackage ifneeded\fR command, and the auto-loader. The first time a \fBpackage require\fR command is invoked, the \fBpackage unknown\fR script is invoked. This is set by Tcl initialization to a script that evaluates all of the \fBpkgIndex.tcl\fR files in the \fBauto_path\fR. The \fBpkgIndex.tcl\fR files contain \fBpackage ifneeded\fR commands for each version of each available package; these commands invoke \fBpackage provide\fR commands to announce the availability of the package, and they setup auto-loader information to load the files of the package. .VS 8.0.3 Unless the \fI-direct\fR flag was provided when the \fBpkgIndex.tcl\fR was generated, .VE a given file of a given version of a given package isn't actually loaded until the first time one of its commands is invoked. Thus, after invoking \fBpackage require\fR you .VS 8.0.3 may .VE not see the package's commands in the interpreter, but you will be able to invoke the commands and they will be auto-loaded. .VS 8.0.3 .SH "DIRECT LOADING" .PP Some packages, for instance packages which use namespaces and export commands or those which require special initialization, might select that their package files be loaded immediately upon \fBpackage require\fR instead of delaying the actual loading to the first use of one of the package's command. This mode is enabled when generating the package index by specifying the \fI-direct\fR argument. .VE .SH "COMPLEX CASES" Most complex cases of dependencies among scripts and binary files, and packages being split among scripts and binary files are handled OK. However, you may have to adjust the order in which files are processed by \fBpkg_mkIndex\fR. The only case that is not supported is a package that is provided by more than one binary file. These issues are described in detail below. .PP If each script or file contains one package, and packages are only contained in one file, then things are easy. You simply specify all files to be indexed in any order with some glob patterns. .PP In general, it is OK for scripts to have dependencies on other packages. If scripts contain \fBpackage require\fP commands, these are stubbed out in the interpreter used to process the scripts, so these do not cause problems. If scripts call into other packages in global code, these calls are handled by a stub \fBunknown\fP command. However, if scripts make variable references to other package's variables in global code, these will cause errors. That is also bad coding style. .PP If binary files have dependencies on other packages, things can become tricky because it is not possible to stub out the C-level \fBTcl_PkgRequire\fP API. For example, suppose the BLT package requires Tk, and expresses this with a call to \fBTcl_PkgRequire\fP in its \fBBlt_Init\fP routine. To support this, you must run \fBpkg_mkIndex\fR in a shell that has Tk loaded. \fBpkg_mkIndex\fR will load any packages listed by \fBinfo loaded\fP into the interpreter used to process files. In most cases this will satisfy the \fBTcl_PkgRequire\fP calls made by binary files. .PP If you are indexing two binary files and one depends on the other, you should specify the one that has dependencies last. This way the one without dependencies will get loaded and indexed, and then the package it provides will be available when the second file is processed. .PP You cannot have the same package provided by two different binary files. Well, you can, but they cannot be indexed by \fBpkg_mkIndex\fR and it seems like a poor design choice anyway. The problem is that once the package is provided by the first binary file, then that masks the provide made by the other binary file. If you absolutely must do this, you'll have to run \fBpkg_mkIndex\fR on each different file, save the resulting pkgIndex.tcl files, and merge the results. .PP If you have a package that is split across scripts and a binary file, then you must specify the scripts first; otherwise the package loaded from the binary file may mask the package defined by the scripts. .SH KEYWORDS auto-load, index, package, version