pkg-config − Return metainformation about installed libraries |
pkg-config [−−modversion] [−−help] [−−print-errors] [−−silence-errors] [−−cflags] [−−libs] [−−libs-only-L] [−−libs-only-l] [−−cflags-only-I] [−−variable=VARIABLENAME] [−−define-variable=VARIABLENAME=VARIABLEVALUE] [−−uninstalled] [−−exists] [−−atleast-version=VERSION] [−−exact-version=VERSION] [−−max-version=VERSION] [LIBRARIES...] |
The pkg-config program is used to retrieve information about installed libraries in the system. It is typically used to compile and link against one or more libraries. Here is a typical usage scenario in a Makefile: program: program.c |
cc program.c ‘pkg-config --cflags --libs gnomeui‘ |
pkg-config retrieves information about packages from special metadata files. These files are named after the package, with the extension .pc. By default, pkg-config looks in the directory prefix/lib/pkgconfig for these files; it will also look in the colon-separated (on Windows, semicolon-separated) list of directories specified by the PKG_CONFIG_PATH environment variable. The package name specified on the pkg-config command line is defined to be the name of the metadata file, minus the .pc extension. If a library can install multiple versions simultaneously, it must give each version its own name (for example, GTK 1.2 might have the package name "gtk+" while GTK 2.0 has "gtk+-2.0"). |
The following options are supported: |
--modversion |
Requests that the version information of the libraries specified on the command line be displayed. If pkg-config can find all the libraries on the command line, each library’s version string is printed to stdout, one version per line. In this case pkg-config exits successfully. If one or more libraries is unknown, pkg-config exits with a nonzero code, and the contents of stdout are undefined. |
--help |
Displays a help message and terminates. |
--print-errors |
If one or more of the modules on the command line, or their dependencies, are not found, or if an error occurs in parsing a .pc file, then this option will cause errors explaining the problem to be printed. With "predicate" options such as "--exists" pkg-config runs silently by default, because it’s usually used in scripts that want to control what’s output. This option can be used alone (to just print errors encountered locating modules on the command line) or with other options. The PKG_CONFIG_DEBUG_SPEW environment variable overrides this option. |
--silence-errors |
If one or more of the modules on the command line, or their dependencies, are not found, or if an error occurs in parsing a a .pc file, then this option will keep errors explaining the problem from being printed. With "predicate" options such as "--exists" pkg-config runs silently by default, because it’s usually used in scripts that want to control what’s output. So this option is only useful with options such as "--cflags" or "--modversion" that print errors by default. The PKG_CONFIG_DEBUG_SPEW environment variable overrides this option. |
--errors-to-stdout |
If printing errors, print them to stdout rather than the default stderr |
The following options are used to compile and link programs: |
--cflags |
This prints pre-processor and compile flags required to compile the packages on the command line, including flags for all their dependencies. Flags are "compressed" so that each identical flag appears only once. pkg-config exits with a nonzero code if it can’t find metadata for one or more of the packages on the command line. |
--libs |
This option is identical to "--cflags", only it prints the link flags. As with "--cflags", duplicate flags are merged (maintaining proper ordering), and flags for dependencies are included in the output. |
--libs-only-L |
This prints the -L/-R part of "--libs". That is, it defines the library search path but doesn’t specify which libraries to link with. |
--libs-only-l |
This prints the -l part of "--libs" for the libraries specified on the command line. Note that the union of "--libs-only-l" and "--libs-only-L" may be smaller than "--libs", due to flags such as -rdynamic. |
--variable=VARIABLENAME |
This returns the value of a variable defined in a package’s .pc file. Most packages define the variable "prefix", for example, so you can say: $ pkg-config --variable=prefix glib-2.0 /usr/ |
--define-variable=VARIABLENAME=VARIABLEVALUE |
This sets a global value for a variable, overriding the value in any .pc files. Most packages define the variable "prefix", for example, so you can say: $ pkg-config --print-errors --define-variable=prefix=/foo \ --variable=prefix glib-2.0 /foo |
--uninstalled |
Normally if you request the package "foo" and the package "foo-uninstalled" exists, pkg-config will prefer the "-uninstalled" variant. This allows compilation/linking against uninstalled packages. If you specify the "--uninstalled" option, pkg-config will return successfully if any "-uninstalled" packages are being used, and return failure (false) otherwise. (The "PKG_CONFIG_DISABLE_UNINSTALLED" environment variable keeps pkg-config from implicitly choosing "-uninstalled" packages, so if that variable is set, they will only have been used if you pass a name like "foo-uninstalled" on the command line explicitly.) |
--exists |
--atleast-version=VERSION |
--exact-version=VERSION |
--max-version=VERSION |
These options test whether the package or list of packages on the command line are known to pkg-config, and optionally whether the version number of a package meets certain contraints. If all packages exist and meet the specified version constraints, pkg-config exits successfully. Otherwise it exits unsuccessfully. Rather than using the version-test options, you can simply give a version constraint after each package name, for example: $ pkg-config --exists ’glib-2.0 >= 1.3.4 libxml = 1.8.3’ Remember to use −−print-errors if you want error messages. |
--msvc-syntax |
This option is available only on Windows. It causes pkg-config to output -l and -L flags in the form recognized by the Microsoft Visual C++ command-line compiler, cl. Specifically, instead of -Lx:/some/path it prints /libpath:x/some/path, and instead of -lfoo it prints foo.lib. Note that the --libs output consists of flags for the linker, and should be placed on the cl command line after a /link switch. |
--dont-define-prefix |
This option is available only on Windows. It prevents pkg-config from automatically trying to override the value of the variable "prefix" in each .pc file. |
--prefix-variable=PREFIX |
Also this option is available only on Windows. It sets the name of the variable that pkg-config automatically sets as described above. |
--static |
Output libraries suitable for static linking. That means including any private libraries in the output. This relies on proper tagging in the .pc files, else a too large number of libraries will ordinarily be output. |
PKG_CONFIG_PATH |
A colon-separated (on Windows, semicolon-separated) list of directories to search for .pc files. The default directory will always be searched after searching the path; the default is libdir/pkgconfig:datadir/pkgconfig where libdir is the libdir where pkg-config and datadir is the datadir where pkg-config was installed. |
PKG_CONFIG_DEBUG_SPEW |
If set, causes pkg-config to print all kinds of debugging information and report all errors. |
PKG_CONFIG_TOP_BUILD_DIR |
A value to set for the magic variable pc_top_builddir which may appear in .pc files. If the environment variable is not set, the default value ’$(top_builddir)’ will be used. This variable should refer to the top builddir of the Makefile where the compile/link flags reported by pkg-config will be used. This only matters when compiling/linking against a package that hasn’t yet been installed. |
PKG_CONFIG_DISABLE_UNINSTALLED |
Normally if you request the package "foo" and the package "foo-uninstalled" exists, pkg-config will prefer the "-uninstalled" variant. This allows compilation/linking against uninstalled packages. If this environment variable is set, it disables said behavior. |
PKG_CONFIG_ALLOW_SYSTEM_CFLAGS |
Don’t strip -I/usr/include out of cflags. |
PKG_CONFIG_ALLOW_SYSTEM_LIBS |
Don’t strip -L/usr/lib out of libs |
PKG_CONFIG_SYSROOT_DIR |
Modify -I and -L to use the directories located in target sysroot. this option is usefull when crosscompiling package that use pkg-config to determine CFLAGS anf LDFLAGS. -I and -L are modified to point to the new system root. this means that a -I/usr/include/libfoo will become -I/var/target/usr/include/libfoo with a PKG_CONFIG_SYSROOT_DIR equal to /var/target (same rule apply to -L) |
PKG_CONFIG_LIBDIR |
Replaces the default pkg-config search directory. |
If a .pc file is found in a directory that matches the usual conventions (i.e., ends with \lib\pkgconfig), the prefix for that package is assumed to be the grandparent of the directory where the file was found, and the prefix variable is overridden for that file accordingly. In addition to the PKG_CONFIG_PATH environment variable, the Registry keys HKEY_CURRENT_USER\Software\pkgconfig\PKG_CONFIG_PATH and HKEY_LOCAL_MACHINE\Software\pkgconfig\PKG_CONFIG_PATH can be used to specify directories to search for .pc files. Each (string) value in these keys is treated as a directory where to look for .pc files. |
PKG_CHECK_MODULES(VARIABLE-PREFIX,MODULES[,ACTION-IF-FOUND,[ACTION-IF-NOT-FOUND]]) |
The macro PKG_CHECK_MODULES can be used in configure.ac to check whether modules exist. A typical usage would be: PKG_CHECK_MODULES([MYSTUFF], [gtk+-2.0 >= 1.3.5 libxml = 1.8.4]) This would result in MYSTUFF_LIBS and MYSTUFF_CFLAGS substitution variables, set to the libs and cflags for the given module list. If a module is missing or has the wrong version, by default configure will abort with a message. To replace the default action, specify an ACTION-IF-NOT-FOUND. PKG_CHECK_MODULES will not print any error messages if you specify your own ACTION-IF-NOT-FOUND. However, it will set the variable MYSTUFF_PKG_ERRORS, which you can use to display what went wrong. Note that if there is a possibility the first call to PKG_CHECK_MODULES might not happen, you should be sure to include an explicit call to PKG_PROG_PKG_CONFIG in your configure.ac PKG_PROG_PKG_CONFIG([MIN-VERSION]) Defines the PKG_CONFIG variable to the best pkg-config available, useful if you need pkg-config but don’t want to use PKG_CHECK_MODULES. PKG_CHECK_EXISTS(MODULES, [ACTION-IF-FOUND], [ACTION-IF-NOT-FOUND]) Check to see whether a particular set of modules exists. Similar to PKG_CHECK_MODULES(), but does not set variables or print errors. Similar to PKG_CHECK_MODULES, make sure that the first instance of this or PKG_CHECK_MODULES is called, or make sure to call PKG_CHECK_EXISTS manually |
To add a library to the set of packages pkg-config knows about, simply install a .pc file. You should install this file to libdir/pkgconfig. Here is an example file: # This is a comment prefix=/home/hp/unst # this defines a variable exec_prefix=${prefix} # defining another variable in terms of the first libdir=${exec_prefix}/lib includedir=${prefix}/include Name: GObject # human-readable name Description: Object/type system for GLib # human-readable description Version: 1.3.1 URL: http://www.gtk.org Requires: glib-2.0 = 1.3.1 Conflicts: foobar <= 4.5 Libs: -L${libdir} -lgobject-1.3 Libs.private: -lm Cflags: -I${includedir}/glib-2.0 -I${libdir}/glib/include You would normally generate the file using configure, of course, so that the prefix, etc. are set to the proper values. Files have two kinds of line: keyword lines start with a keyword plus a colon, and variable definitions start with an alphanumeric string plus an equals sign. Keywords are defined in advance and have special meaning to pkg-config; variables do not, you can have any variables that you wish (however, users may expect to retrieve the usual directory name variables). Note that variable references are written "${foo}"; you can escape literal "${" as "$${". |
Name: |
This field should be a human-readable name for the package. Note that it is not the name passed as an argument to pkg-config. |
Description: |
This should be a brief description of the package |
URL: |
An URL where people can get more information about and download the package |
Version: |
This should be the most-specific-possible package version string. |
Requires: |
This is a comma-separated list of packages that are required by your package. Flags from dependent packages will be merged in to the flags reported for your package. Optionally, you can specify the version of the required package (using the operators =, <, >, >=, <=); specifying a version allows pkg-config to perform extra sanity checks. You may only mention the same package one time on the Requires: line. If the version of a package is unspecified, any version will be used with no checking. |
Conflicts: |
This optional line allows pkg-config to perform additional sanity checks, primarily to detect broken user installations. The syntax is the same as Requires: except that you can list the same package more than once here, for example "foobar = 1.2.3, foobar = 1.2.5, foobar >= 1.3", if you have reason to do so. If a version isn’t specified, then your package conflicts with all versions of the mentioned package. If a user tries to use your package and a conflicting package at the same time, then pkg-config will complain. |
Libs: |
This line should give the link flags specific to your package. Don’t add any flags for required packages; pkg-config will add those automatically. |
Libs.private: |
This line should list any private libraries in use. Private libraries are libraries which are not exposed through your library, but are needed in the case of static linking. |
Cflags: |
This line should list the compile flags specific to your package. Don’t add any flags for required packages; pkg-config will add those automatically. |
pkg-config was written by James Henstridge, rewritten by Martijn van Beers, and rewritten again by Havoc Pennington. Tim Janik, Owen Taylor, and Raja Harinath submitted suggestions and some code. gnome-config was written by Miguel de Icaza, Raja Harinath and various hackers in the GNOME team. It was inspired by Owen Taylor’s gtk-config program. |
pkg-config does not handle mixing of parameters with and without = well. Stick with one. |