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kdecmake

man page of kdecmake

kdecmake: Reference of available CMake custom modules.

NAME

kdecmake - Reference of available CMake custom modules.

DESCRIPTION

The "cmake" executable is the CMake command-line interface. It may be used to configure projects in scripts. Project configuration settings may be specified on the command line with the -D option. The -i option will cause cmake to interactively prompt for such settings. CMake is a cross-platform build system generator. Projects specify their build process with platform-independent CMake listfiles included in each directory of a source tree with the name CMakeLists.txt. Users build a project by using CMake to generate a build system for a native tool on their platform.

CUSTOM MODULES

The following modules are also available for CMake. They can be used with INCLUDE(ModuleName). Custom CMake Modules - Additional Modules for CMake. This is the documentation for additional modules and scripts for CMake. Using these modules you can check the computer system for installed software packages, features of the compiler and the existance of headers to name just a few. CMakeParseArguments CMAKE_PARSE_ARGUMENTS(<prefix> <options> <one_value_keywords> <multi_value_keywords> args...) CMAKE_PARSE_ARGUMENTS() is intended to be used in macros or functions for parsing the arguments given to that macro or function. It processes the arguments and defines a set of variables which hold the values of the respective options. The <options> argument contains all options for the respective macro, i.e. keywords which can be used when calling the macro without any value following, like e.g. the OPTIONAL keyword of the install() command. The <one_value_keywords> argument contains all keywords for this macro which are followed by one value, like e.g. DESTINATION keyword of the install() command. The <multi_value_keywords> argument contains all keywords for this macro which can be followed by more than one value, like e.g. the TARGETS or FILES keywords of the install() command. When done, CMAKE_PARSE_ARGUMENTS() will have defined for each of the keywords listed in <options>, <one_value_keywords> and <multi_value_keywords> a variable composed of the given <prefix> followed by "_" and the name of the respective keyword. These variables will then hold the respective value from the argument list. For the <options> keywords this will be TRUE or FALSE. All remaining arguments are collected in a variable <prefix>_UNPARSED_ARGUMENTS, this can be checked afterwards to see whether your macro was called with unrecognized parameters. As an example here a my_install() macro, which takes similar arguments as the real install() command: function(MY_INSTALL) set(options OPTIONAL FAST) set(oneValueArgs DESTINATION RENAME) set(multiValueArgs TARGETS CONFIGURATIONS) cmake_parse_arguments(MY_INSTALL "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN} ) ... Assume my_install() has been called like this: my_install(TARGETS foo bar DESTINATION bin OPTIONAL blub) After the cmake_parse_arguments() call the macro will have set the following variables: MY_INSTALL_OPTIONAL = TRUE MY_INSTALL_FAST = FALSE (this option was not used when calling my_install() MY_INSTALL_DESTINATION = "bin" MY_INSTALL_RENAME = "" (was not used) MY_INSTALL_TARGETS = "foo;bar" MY_INSTALL_CONFIGURATIONS = "" (was not used) MY_INSTALL_UNPARSED_ARGUMENTS = "blub" (no value expected after "OPTIONAL" You can the continue and process these variables. Keywords terminate lists of values, e.g. if directly after a one_value_keyword another recognized keyword follows, this is interpreted as the beginning of the new option. E.g. my_install(TARGETS foo DESTINATION OPTIONAL) would result in MY_INSTALL_DESTINATION set to "OPTIONAL", but MY_INSTALL_DESTINATION would be empty and MY_INSTALL_OPTIONAL would be set to TRUE therefor. CheckCXXSourceCompiles macro which checks if the source code compiles CHECK_CXX_SOURCE_COMPILES(SOURCE VAR) SOURCE - source code to try to compile VAR - variable to store whether the source code compiled The following variables may be set before calling this macro to modify the way the check is run: CMAKE_REQUIRED_FLAGS = string of compile command line flags CMAKE_REQUIRED_DEFINITIONS = list of macros to define (-DFOO=bar) CMAKE_REQUIRED_INCLUDES = list of include directories CMAKE_REQUIRED_LIBRARIES = list of libraries to link CheckCXXSourceRuns Check if the C++ source code provided in the SOURCE argument compiles and runs. CHECK_CXX_SOURCE_RUNS(SOURCE VAR) SOURCE - source code to try to compile VAR - variable to store the result, 1 for success, empty for failure The following variables may be set before calling this macro to modify the way the check is run: CMAKE_REQUIRED_FLAGS = string of compile command line flags CMAKE_REQUIRED_DEFINITIONS = list of macros to define (-DFOO=bar) CMAKE_REQUIRED_INCLUDES = list of include directories CMAKE_REQUIRED_LIBRARIES = list of libraries to link CheckCXXSymbolExists Check if the symbol exists in include files, in C++ mode Forked off cmake's CheckSymbolExists.cmake CHECK_CXX_SYMBOL_EXISTS(SYMBOL FILES VARIABLE) SYMBOL - symbol FILES - include files to check VARIABLE - variable to return result The following variables may be set before calling this macro to modify the way the check is run: CMAKE_REQUIRED_FLAGS = string of compile command line flags CMAKE_REQUIRED_DEFINITIONS = list of macros to define (-DFOO=bar) CMAKE_REQUIRED_INCLUDES = list of include directories CMAKE_REQUIRED_LIBRARIES = list of libraries to link CheckPointerMember Check if the given struct or class has the specified member variable CHECK_POINTER_MEMBER (POINTER MEMBER HEADER VARIABLE) POINTER - the name of the struct or class you are interested in MEMBER - the member which existence you want to check HEADER - the header(s) where the prototype should be declared VARIABLE - variable to store the result The following variables may be set before calling this macro to modify the way the check is run: CMAKE_REQUIRED_FLAGS = string of compile command line flags CMAKE_REQUIRED_DEFINITIONS = list of macros to define (-DFOO=bar) CMAKE_REQUIRED_INCLUDES = list of include directories CheckPrototypeExists Check if the prototype for a function exists. CHECK_PROTOTYPE_EXISTS (FUNCTION HEADER VARIABLE) FUNCTION - the name of the function you are looking for HEADER - the header(s) where the prototype should be declared VARIABLE - variable to store the result The following variables may be set before calling this macro to modify the way the check is run: CMAKE_REQUIRED_FLAGS = string of compile command line flags CMAKE_REQUIRED_DEFINITIONS = list of macros to define (-DFOO=bar) CMAKE_REQUIRED_INCLUDES = list of include directories CheckStructMember Check if the given struct or class has the specified member variable CHECK_STRUCT_MEMBER (STRUCT MEMBER HEADER VARIABLE) STRUCT - the name of the struct or class you are interested in MEMBER - the member which existence you want to check HEADER - the header(s) where the prototype should be declared VARIABLE - variable to store the result The following variables may be set before calling this macro to modify the way the check is run: CMAKE_REQUIRED_FLAGS = string of compile command line flags CMAKE_REQUIRED_DEFINITIONS = list of macros to define (-DFOO=bar) CMAKE_REQUIRED_INCLUDES = list of include directories FindACL Try to find the ACL library Once done this will define ACL_FOUND - system has the ACL library ACL_LIBS - The libraries needed to use ACL FindAGG Try to find the AGG graphics library Once done this will define AGG_FOUND - system has AGG AGG_INCLUDE_DIR - the AGG include directory AGG_LIBRARIES - Link these to use AGG AGG_DEFINITIONS - Compiler switches required for using AGG FindAkode Try to find the aKode library Once done this will define AKODE_FOUND - system has the aKode library AKODE_INCLUDE_DIR - the aKode include directory AKODE_LIBRARIES - The libraries needed to use aKode FindAlsa Alsa check, based on libkmid/configure.in.in. Only the support for Alsa >= 0.9.x was included; 0.5.x was dropped (but feel free to re-add it if you need it) It defines ... It offers the following macros: ALSA_CONFIGURE_FILE(config_header) - generate a config.h, typical usage: ALSA_CONFIGURE_FILE(${CMAKE_BINARY_DIR}/config-alsa.h) ALSA_VERSION_STRING(version_string) looks for alsa/version.h and reads the version string into the first argument passed to the macro FindAutomoc4 Try to find automoc4 Once done this will define AUTOMOC4_FOUND - automoc4 has been found AUTOMOC4_EXECUTABLE - the automoc4 tool AUTOMOC4_VERSION - the full version of automoc4 AUTOMOC4_VERSION_MAJOR, AUTOMOC4_VERSION_MINOR, AUTOMOC4_VERSION_PATCH - AUTOMOC4_VERSION broken into its components It also adds the following macros AUTOMOC4(<target> <SRCS_VAR>) Use this to run automoc4 on all files contained in the list <SRCS_VAR>. AUTOMOC4_MOC_HEADERS(<target> header1.h header2.h ...) Use this to add more header files to be processed with automoc4. AUTOMOC4_ADD_EXECUTABLE(<target_NAME> src1 src2 ...) This macro does the same as ADD_EXECUTABLE, but additionally adds automoc4 handling for all source files. AUTOMOC4_ADD_LIBRARY(<target_NAME> src1 src2 ...) This macro does the same as ADD_LIBRARY, but additionally adds automoc4 handling for all source files. FindAvahi Find Avahi. Only avahi-common/defs.h is really needed FindBerkeleyDB Try to find Berkeley DB Once done this will define BERKELEY_DB_FOUND - system has Berkeley DB BERKELEY_DB_INCLUDE_DIR - the Berkeley DB include directory BERKELEY_DB_LIBRARIES - Link these to use Berkeley DB BERKELEY_DB_DEFINITIONS - Compiler switches required for using Berkeley DB FindBlitz Try to find blitz lib ########################################################## ######## DEPRECATED, use FindQImageBlitz instead ######### ########################################################## Once done this will define BLITZ_FOUND - system has blitz lib BLITZ_INCLUDES - the blitz include directory BLITZ_LIBRARIES - The libraries needed to use blitz FindBlueZ Try to find BlueZ Once done this will define BLUEZ_FOUND - system has BlueZ BLUEZ_INCLUDE_DIR - the BlueZ include directory BLUEZ_LIBRARIES - Link these to use BlueZ BLUEZ_DEFINITIONS - Compiler switches required for using BlueZ Redistribution and use is allowed according to the terms of the BSD license. For details see the accompanying COPYING-CMAKE-SCRIPTS file. FindBoost Try to find Boost include dirs and libraries Please see the Documentation for Boost in the CMake Manual for details This module only forwards to the one included in cmake for compatibility reasons. FindCarbon Find Carbon on Mac CARBON_LIBRARY - the library to use Carbon CARBON_FOUND - true if Carbon has been found FindDBusMenuQt Try to find dbusmenu-qt This module helps finding an installation of the DBusMenuQt library (see https://launchpad.net/libdbusmenu-qt/) Once done this will define DBUSMENUQT_FOUND - system has dbusmenu-qt DBUSMENUQT_INCLUDE_DIR - the dbusmenu-qt include directory DBUSMENUQT_LIBRARIES - the libraries needed to use dbusmenu-qt DBUSMENUQT_DEFINITIONS - Compiler switches required for using dbusmenu-qt The minimum required version of DBusMenuQt can be specified using the standard syntax, e.g. find_package(DBusMenuQt 0.6) WARNING: versions below 0.4.0 cannot be checked for. So if you want to have a version check, require at least 0.4.0 of dbusmenuqt. FindDNSSD Try to find DNSSD Once done this will define DNSSD_FOUND - system has DNSSD DNSSD_INCLUDE_DIR - the DNSSD include directory DNSSD_LIBRARIES - Link these to use dnssd DNSSD_DEFINITIONS - Compiler switches required for using DNSSD need more test: look at into dnssd/configure.in.in FindDocBookXML Try to find DocBook XML DTDs Once done, it will define: DOCBOOKXML_FOUND - system has the required DocBook XML DTDs DOCBOOKXML_CURRENTDTD_VERSION - the version of currently used DocBook XML DTD DOCBOOKXML_CURRENTDTD_DIR - the directory containing the definition of the currently used DocBook XML version FindDocBookXSL Try to find DocBook XSL stylesheet Once done, it will define: DOCBOOKXSL_FOUND - system has the required DocBook XML DTDs DOCBOOKXSL_DIR - the directory containing the stylesheets used to process DocBook XML FindENCHANT Try to find the Enchant spell checker Once done this will define ENCHANT_FOUND - system has ENCHANT ENCHANT_INCLUDE_DIR - the ENCHANT include directory ENCHANT_LIBRARIES - Link these to use ENCHANT ENCHANT_DEFINITIONS - Compiler switches required for using ENCHANT FindEigen Try to find Eigen1 library Note that Eigen1 is deprecated in favor of Eigen2. So this file is deprecated in favor of FindEigen2.cmake. It is kept only for compatibility. Once done this will define EIGEN_FOUND - system has eigen lib EIGEN_INCLUDE_DIR - the eigen include directory FindEigen2 Try to find Eigen2 lib This module supports requiring a minimum version, e.g. you can do find_package(Eigen2 2.0.3) to require version 2.0.3 to newer of Eigen2. Once done this will define EIGEN2_FOUND - system has eigen lib with correct version EIGEN2_INCLUDE_DIR - the eigen include directory EIGEN2_VERSION - eigen version FindExiv2 Try to find the Exiv2 library EXIV2_MIN_VERSION - You can set this variable to the minimum version you need before doing FIND_PACKAGE(Exiv2). The default is 0.12. Once done this will define EXIV2_FOUND - system has libexiv2 EXIV2_INCLUDE_DIR - the libexiv2 include directory EXIV2_LIBRARIES - Link these to use libexiv2 EXIV2_DEFINITIONS - Compiler switches required for using libexiv2 The minimum required version of Exiv2 can be specified using the standard syntax, e.g. find_package(Exiv2 0.17) For compatiblity, also the variable EXIV2_MIN_VERSION can be set to the minimum version you need before doing FIND_PACKAGE(Exiv2). The default is 0.12. FindFAM Try to find the FAM directory notification library Once done this will define FAM_FOUND - system has FAM FAM_INCLUDE_DIR - the FAM include directory FAM_LIBRARIES - The libraries needed to use FAM FindFFmpeg Try to find ffmpeg Once done this will define FFMPEG_FOUND - system has ffmpeg FFMPEG_INCLUDE_DIR - Include directory necessary for using the ffmpeg headers FFMPEG_LIBRARIES - Link these to use ffmpeg FFMPEG_DEFINITIONS - Compiler switches required for using ffmpeg FindFlac Try to find Flac, the Free Lossless Audio Codec Once done this will define FLAC_FOUND - system has Flac FLAC_INCLUDE_DIR - the Flac include directory FLAC_LIBRARIES - Link these to use Flac FLAC_OGGFLAC_LIBRARIES - Link these to use OggFlac No version checking is done - use FLAC_API_VERSION_CURRENT to conditionally compile version-dependent code FindFlex Try to find Flex Once done this will define FLEX_FOUND - system has Flex FLEX_EXECUTABLE - path of the flex executable FLEX_VERSION - the version string, like "2.5.31" The minimum required version of Flex can be specified using the standard syntax, e.g. find_package(Flex 2.5) FindFontconfig Try to find the Fontconfig Once done this will define FONTCONFIG_FOUND - system has Fontconfig FONTCONFIG_INCLUDE_DIR - The include directory to use for the fontconfig headers FONTCONFIG_LIBRARIES - Link these to use FONTCONFIG FONTCONFIG_DEFINITIONS - Compiler switches required for using FONTCONFIG FindFreetype Try to find the freetype library Once done this will define FREETYPE_FOUND - system has Freetype FREETYPE_INCLUDE_DIRS - the FREETYPE include directories FREETYPE_LIBRARIES - Link these to use FREETYPE FREETYPE_INCLUDE_DIR - internal FindGIF Try to find GIF Once done this will define GIF_FOUND - system has GIF GIF_INCLUDE_DIR - the GIF include directory GIF_LIBRARIES - Libraries needed to use GIF GIF_DEFINITIONS - Compiler switches required for using GIF FindGLIB2 Try to find the GLIB2 libraries Once done this will define GLIB2_FOUND - system has glib2 GLIB2_INCLUDE_DIR - the glib2 include directory GLIB2_LIBRARIES - glib2 library FindGMP Try to find the GMP librairies GMP_FOUND - system has GMP lib GMP_INCLUDE_DIR - the GMP include directory GMP_LIBRARIES - Libraries needed to use GMP FindGObject Try to find GObject Once done this will define GOBJECT_FOUND - system has GObject GOBJECT_INCLUDE_DIR - the GObject include directory GOBJECT_LIBRARIES - the libraries needed to use GObject GOBJECT_DEFINITIONS - Compiler switches required for using GObject FindGSSAPI Try to detect the GSSAPI support Once done this will define GSSAPI_FOUND - system supports GSSAPI GSSAPI_INCS - the GSSAPI include directory GSSAPI_LIBS - the libraries needed to use GSSAPI GSSAPI_FLAVOR - the type of API - MIT or HEIMDAL FindGStreamer Try to find GStreamer Once done this will define GSTREAMER_FOUND - system has GStreamer GSTREAMER_INCLUDE_DIR - the GStreamer include directory GSTREAMER_LIBRARIES - the libraries needed to use GStreamer GSTREAMER_DEFINITIONS - Compiler switches required for using GStreamer FindGettext Try to find Gettext functionality Once done this will define GETTEXT_FOUND - system has Gettext GETTEXT_INCLUDE_DIR - Gettext include directory GETTEXT_LIBRARIES - Libraries needed to use Gettext FindGphoto2 cmake macro to test if we use gphoto2 GPHOTO2_FOUND - system has the GPHOTO2 library GPHOTO2_INCLUDE_DIR - the GPHOTO2 include directory GPHOTO2_LIBRARIES - The libraries needed to use GPHOTO2 FindHUNSPELL Try to find HUNSPELL Once done this will define HUNSPELL_FOUND - system has HUNSPELL HUNSPELL_INCLUDE_DIR - the HUNSPELL include directory HUNSPELL_LIBRARIES - The libraries needed to use HUNSPELL HUNSPELL_DEFINITIONS - Compiler switches required for using HUNSPELL FindHUpnp Try to find HUPnP library Once done this will define HUPNP_FOUND - system has HUPnP HUPNP_INCLUDE_DIR - the LIBHUpnp include directory HUPNP_LIBS - the LIBHUpnp libraries HUPNP_VERSION_STRING - The version of HUpnp HUPNP_VERSION_MAJOR - The major version of HUpnp HUPNP_VERSION_MINOR - The minor version of HUpnp HUPNP_VERSION_PATCH - The patch version of HUpnp Copyright (c) 2010, Paulo Romulo Alves Barros <paulo.romulo@kdemail.net> FindIOKit Find IOKit on Mac IOKIT_LIBRARY - the library to use IOKit IOKIT_FOUND - true if IOKit has been found FindKDE4Internal Find the KDE4 include and library dirs, KDE preprocessors and define a some macros This module defines the following variables: KDE4_FOUND - set to TRUE if everything required for building KDE software has been found KDE4_DEFINITIONS - compiler definitions required for compiling KDE software KDE4_INCLUDE_DIR - the KDE 4 include directory KDE4_INCLUDES - all include directories required for KDE, i.e. KDE4_INCLUDE_DIR, but also the Qt4 include directories and other platform specific include directories KDE4_LIB_DIR - the directory where the KDE libraries are installed, intended to be used with LINK_DIRECTORIES(). In general, this is not necessary. KDE4_LIBEXEC_INSTALL_DIR - the directory where libexec executables from kdelibs are installed KDE4_BIN_INSTALL_DIR - the directory where executables from kdelibs are installed KDE4_SBIN_INSTALL_DIR - the directory where system executables from kdelibs are installed KDE4_DATA_INSTALL_DIR - the parent directory where kdelibs applications install their data KDE4_HTML_INSTALL_DIR - the directory where HTML documentation from kdelibs is installed KDE4_CONFIG_INSTALL_DIR - the directory where config files from kdelibs are installed KDE4_ICON_INSTALL_DIR - the directory where icons from kdelibs are KDE4_IMPORTS_INSTALL_DIR - the directory where imports from kdelibs are KDE4_KCFG_INSTALL_DIR - the directory where kconfig files from kdelibs are installed KDE4_LOCALE_INSTALL_DIR - the directory where translations from kdelibs are installed KDE4_MIME_INSTALL_DIR - the directory where mimetype desktop files from kdelibs are installed KDE4_SOUND_INSTALL_DIR - the directory where sound files from kdelibs are installed KDE4_TEMPLATES_INSTALL_DIR - the directory where templates (Create new file...) from kdelibs are installed KDE4_WALLPAPER_INSTALL_DIR - the directory where wallpapers from kdelibs are installed KDE4_KCONF_UPDATE_INSTALL_DIR - the directory where kconf_update files from kdelibs are installed KDE4_AUTOSTART_INSTALL_DIR - the directory where autostart from kdelibs are installed KDE4_XDG_APPS_INSTALL_DIR - the XDG apps dir from kdelibs KDE4_XDG_DIRECTORY_INSTALL_DIR - the XDG directory from kdelibs KDE4_SYSCONF_INSTALL_DIR - the directory where sysconfig files from kdelibs are installed KDE4_MAN_INSTALL_DIR - the directory where man pages from kdelibs are installed KDE4_INFO_INSTALL_DIR - the directory where info files from kdelibs are installed KDE4_DBUS_INTERFACES_DIR - the directory where dbus interfaces from kdelibs are installed KDE4_DBUS_SERVICES_DIR - the directory where dbus service files from kdelibs are installed The following variables are defined for the various tools required to compile KDE software: KDE4_KCFGC_EXECUTABLE - the kconfig_compiler executable KDE4_AUTOMOC_EXECUTABLE - the kde4automoc executable, deprecated, use AUTOMOC4_EXECUTABLE instead KDE4_MEINPROC_EXECUTABLE - the meinproc4 executable KDE4_MAKEKDEWIDGETS_EXECUTABLE - the makekdewidgets executable The following variables point to the location of the KDE libraries, but shouldn't be used directly: KDE4_KDECORE_LIBRARY - the kdecore library KDE4_KDEUI_LIBRARY - the kdeui library KDE4_KIO_LIBRARY - the kio library KDE4_KPARTS_LIBRARY - the kparts library KDE4_KUTILS_LIBRARY - the kutils library KDE4_KEMOTICONS_LIBRARY - the kemoticons library KDE4_KIDLETIME_LIBRARY - the kidletime library KDE4_KCMUTILS_LIBRARY - the kcmutils library KDE4_KPRINTUTILS_LIBRARY - the kprintutils library KDE4_KDE3SUPPORT_LIBRARY - the kde3support library KDE4_KFILE_LIBRARY - the kfile library KDE4_KHTML_LIBRARY - the khtml library KDE4_KJS_LIBRARY - the kjs library KDE4_KJSAPI_LIBRARY - the kjs public api library KDE4_KNEWSTUFF2_LIBRARY - the knewstuff2 library KDE4_KNEWSTUFF3_LIBRARY - the knewstuff3 library KDE4_KDNSSD_LIBRARY - the kdnssd library KDE4_PHONON_LIBRARY - the phonon library KDE4_THREADWEAVER_LIBRARY- the threadweaver library KDE4_SOLID_LIBRARY - the solid library KDE4_KNOTIFYCONFIG_LIBRARY- the knotifyconfig library KDE4_KROSSCORE_LIBRARY - the krosscore library KDE4_KTEXTEDITOR_LIBRARY - the ktexteditor library KDE4_NEPOMUK_LIBRARY - the nepomuk library KDE4_PLASMA_LIBRARY - the plasma library KDE4_KUNITCONVERSION_LIBRARY - the kunitconversion library KDE4_KDEWEBKIT_LIBRARY - the kdewebkit library KDE4_PLASMA_OPENGL_FOUND - TRUE if the OpenGL support of Plasma has been found, NOTFOUND otherwise Compared to the variables above, the following variables also contain all of the depending libraries, so the variables below should be used instead of the ones above: KDE4_KDECORE_LIBS - the kdecore library and all depending libraries KDE4_KDEUI_LIBS - the kdeui library and all depending libraries KDE4_KIO_LIBS - the kio library and all depending libraries KDE4_KPARTS_LIBS - the kparts library and all depending libraries KDE4_KUTILS_LIBS - the kutils library and all depending libraries KDE4_KEMOTICONS_LIBS - the kemoticons library and all depending libraries KDE4_KIDLETIME_LIBS - the kidletime library and all depending libraries KDE4_KCMUTILS_LIBS - the kcmutils library and all depending libraries KDE4_KPRINTUTILS_LIBS - the kprintutils library and all depending libraries KDE4_KDE3SUPPORT_LIBS - the kde3support library and all depending libraries KDE4_KFILE_LIBS - the kfile library and all depending libraries KDE4_KHTML_LIBS - the khtml library and all depending libraries KDE4_KJS_LIBS - the kjs library and all depending libraries KDE4_KJSAPI_LIBS - the kjs public api library and all depending libraries KDE4_KNEWSTUFF2_LIBS - the knewstuff2 library and all depending libraries KDE4_KNEWSTUFF3_LIBS - the knewstuff3 library and all depending libraries KDE4_KDNSSD_LIBS - the kdnssd library and all depending libraries KDE4_KDESU_LIBS - the kdesu library and all depending libraries KDE4_KPTY_LIBS - the kpty library and all depending libraries KDE4_PHONON_LIBS - the phonon library and all depending librairies KDE4_THREADWEAVER_LIBRARIES- the threadweaver library and all depending libraries KDE4_SOLID_LIBS - the solid library and all depending libraries KDE4_KNOTIFYCONFIG_LIBS - the knotify config library and all depending libraries KDE4_KROSSCORE_LIBS - the kross core library and all depending libraries KDE4_KROSSUI_LIBS - the kross ui library which includes core and all depending libraries KDE4_KTEXTEDITOR_LIBS - the ktexteditor library and all depending libraries KDE4_NEPOMUK_LIBS - the nepomuk library and all depending libraries KDE4_PLASMA_LIBS - the plasma library and all depending librairies KDE4_KUNITCONVERSION_LIBS - the kunitconversion library and all depending libraries KDE4_KDEWEBKIT_LIBS - the kdewebkit library and all depending libraries This module defines also a bunch of variables used as locations for install directories for files of the package which is using this module. These variables don't say anything about the location of the installed KDE. They can be relative (to CMAKE_INSTALL_PREFIX) or absolute. Under Windows they are always relative. BIN_INSTALL_DIR - the directory where executables will be installed (default is prefix/bin) BUNDLE_INSTALL_DIR - Mac only: the directory where application bundles will be installed (default is /Applications/KDE4 ) SBIN_INSTALL_DIR - the directory where system executables will be installed (default is prefix/sbin) LIB_INSTALL_DIR - the directory where libraries will be installed (default is prefix/lib) CONFIG_INSTALL_DIR - the directory where config files will be installed DATA_INSTALL_DIR - the parent directory where applications can install their data HTML_INSTALL_DIR - the directory where HTML documentation will be installed ICON_INSTALL_DIR - the directory where the icons will be installed (default prefix/share/icons/) INFO_INSTALL_DIR - the directory where info files will be installed (default prefix/info) KCFG_INSTALL_DIR - the directory where kconfig files will be installed LOCALE_INSTALL_DIR - the directory where translations will be installed MAN_INSTALL_DIR - the directory where man pages will be installed (default prefix/man/) MIME_INSTALL_DIR - the directory where mimetype desktop files will be installed PLUGIN_INSTALL_DIR - the subdirectory relative to the install prefix where plugins will be installed (default is ${KDE4_LIB_INSTALL_DIR}/kde4) IMPORTS_INSTALL_DIR - the subdirectory relative to the install prefix where imports will be installed SERVICES_INSTALL_DIR - the directory where service (desktop, protocol, ...) files will be installed SERVICETYPES_INSTALL_DIR - the directory where servicestypes desktop files will be installed SOUND_INSTALL_DIR - the directory where sound files will be installed TEMPLATES_INSTALL_DIR - the directory where templates (Create new file...) will be installed WALLPAPER_INSTALL_DIR - the directory where wallpapers will be installed AUTOSTART_INSTALL_DIR - the directory where autostart files will be installed DEMO_INSTALL_DIR - the directory where demos will be installed KCONF_UPDATE_INSTALL_DIR - the directory where kconf_update files will be installed SYSCONF_INSTALL_DIR - the directory where sysconfig files will be installed (default /etc) XDG_APPS_INSTALL_DIR - the XDG apps dir XDG_DIRECTORY_INSTALL_DIR- the XDG directory XDG_MIME_INSTALL_DIR - the XDG mimetypes install dir DBUS_INTERFACES_INSTALL_DIR - the directory where dbus interfaces will be installed (default is prefix/share/dbus-1/interfaces) DBUS_SERVICES_INSTALL_DIR - the directory where dbus services will be installed (default is prefix/share/dbus-1/services ) DBUS_SYSTEM_SERVICES_INSTALL_DIR - the directory where dbus system services will be installed (default is prefix/share/dbus-1/system-services ) The variable INSTALL_TARGETS_DEFAULT_ARGS can be used when installing libraries or executables into the default locations. The INSTALL_TARGETS_DEFAULT_ARGS variable should be used when libraries are installed. It should also be used when installing applications, since then on OS X application bundles will be installed to BUNDLE_INSTALL_DIR. The variable MUST NOT be used for installing plugins. It also MUST NOT be used for executables which are intended to go into sbin/ or libexec/. Usage is like this: install(TARGETS kdecore kdeui ${INSTALL_TARGETS_DEFAULT_ARGS} ) This will install libraries correctly under UNIX, OSX and Windows (i.e. dll's go into bin/. The following variable is provided, but seem to be unused: LIBS_HTML_INSTALL_DIR /share/doc/HTML CACHE STRING "Is this still used ?") The following user adjustable options are provided: KDE4_ENABLE_FINAL - enable KDE-style enable-final all-in-one-compilation KDE4_BUILD_TESTS - enable this to build the testcases KDE4_ENABLE_FPIE - enable it to use gcc Position Independent Executables feature KDE4_USE_COMMON_CMAKE_PACKAGE_CONFIG_DIR - only present for CMake >= 2.6.3, defaults to TRUE If enabled, the package should install its <package>Config.cmake file to lib/cmake/<package>/ instead to lib/<package>/cmake KDE4_SERIALIZE_TOOL - wrapper to serialize potentially resource-intensive commands during parallel builds (set to 'icecc' when using icecream) It also adds the following macros and functions (from KDE4Macros.cmake) KDE4_ADD_UI_FILES (SRCS_VAR file1.ui ... fileN.ui) Use this to add Qt designer ui files to your application/library. KDE4_ADD_UI3_FILES (SRCS_VAR file1.ui ... fileN.ui) Use this to add Qt designer ui files from Qt version 3 to your application/library. KDE4_ADD_KCFG_FILES (SRCS_VAR [GENERATE_MOC] [USE_RELATIVE_PATH] file1.kcfgc ... fileN.kcfgc) Use this to add KDE config compiler files to your application/library. Use optional GENERATE_MOC to generate moc if you use signals in your kcfg files. Use optional USE_RELATIVE_PATH to generate the classes in the build following the given relative path to the file. KDE4_ADD_WIDGET_FILES (SRCS_VAR file1.widgets ... fileN.widgets) Use this to add widget description files for the makekdewidgets code generator for Qt Designer plugins. KDE4_CREATE_FINAL_FILES (filename_CXX filename_C file1 ... fileN) This macro is intended mainly for internal uses. It is used for enable-final. It will generate two source files, one for the C files and one for the C++ files. These files will have the names given in filename_CXX and filename_C. KDE4_ADD_PLUGIN ( name [WITH_PREFIX] file1 ... fileN ) Create a KDE plugin (KPart, kioslave, etc.) from the given source files. It supports KDE4_ENABLE_FINAL. If WITH_PREFIX is given, the resulting plugin will have the prefix "lib", otherwise it won't. KDE4_ADD_KDEINIT_EXECUTABLE (name [NOGUI] [RUN_UNINSTALLED] file1 ... fileN) Create a KDE application in the form of a module loadable via kdeinit. A library named kdeinit_<name> will be created and a small executable which links to it. It supports KDE4_ENABLE_FINAL If the executable doesn't have a GUI, use the option NOGUI. By default on OS X application bundles are created, with the NOGUI option no bundles but simple executables are created. Under Windows this flag is also necessary to separate between applications with GUI and without. On other UNIX systems this flag has no effect. RUN_UNINSTALLED is deprecated and is ignored, for details see the documentation for KDE4_ADD_EXECUTABLE(). KDE4_ADD_EXECUTABLE (name [NOGUI] [TEST] [RUN_UNINSTALLED] file1 ... fileN) Equivalent to ADD_EXECUTABLE(), but additionally adds some more features: -support for KDE4_ENABLE_FINAL -support for automoc -automatic RPATH handling If the executable doesn't have a GUI, use the option NOGUI. By default on OS X application bundles are created, with the NOGUI option no bundles but simple executables are created. Under Windows this flag is also necessary to separate between applications with GUI and without. On other UNIX systems this flag has no effect. The option TEST is for internal use only. The option RUN_UNINSTALLED is ignored. It was necessary with KDE 4.0 and 4.1 if the executable had to be run from the build tree. Since KDE 4.2 all executables can be always run uninstalled (the RPATH of executables which are not yet installed points since then into the buildtree and is changed to the proper location when installing, so RUN_UNINSTALLED is not necessary anymore). KDE4_ADD_LIBRARY (name [STATIC | SHARED | MODULE ] file1 ... fileN) Equivalent to ADD_LIBRARY(). Additionally it supports KDE4_ENABLE_FINAL, includes automoc-handling and sets LINK_INTERFACE_LIBRARIES target property empty. The RPATH is set according to the global RPATH settings as set up by FindKDE4Internal.cmake (CMAKE_SKIP_BUILD_RPATH=FALSE, CMAKE_BUILD_WITH_INSTALL_RPATH=FALSE, CMAKE_INSTALL_RPATH_USE_LINK_PATH=TRUE) Under Windows it adds a -DMAKE_<name>_LIB definition to the compilation. KDE4_ADD_UNIT_TEST (testname [TESTNAME targetname] file1 ... fileN) add a unit test, which is executed when running make test it will be built with RPATH poiting to the build dir The targets are always created, but only built for the "all" target if the option KDE4_BUILD_TESTS is enabled. Otherwise the rules for the target are created but not built by default. You can build them by manually building the target. The name of the target can be specified using TESTNAME <targetname>, if it is not given the macro will default to the <testname> KDESRCDIR is set to the source directory of the test, this can be used with KGlobal::dirs()->addResourceDir( "data", KDESRCDIR ) KDE4_ADD_APP_ICON (SRCS_VAR pattern) adds an application icon to target source list. Make sure you have a 128x128 icon, or the icon won't display on Mac OS X. Mac OSX notes : the application icon is added to a Mac OS X bundle so that Finder and friends show the right thing. Win32 notes: the application icon(s) are compiled into the application There is some workaround in kde4_add_kdeinit_executable to make it possible for those applications as well. Parameters: SRCS_VAR - specifies the list of source files pattern - regular expression for searching application icons Example: KDE4_ADD_APP_ICON( myapp_SOURCES "pics/cr*-myapp.png") Example: KDE4_ADD_APP_ICON( myapp_KDEINIT_SRCS "icons/oxygen/*/apps/myapp.png") KDE4_UPDATE_ICONCACHE() Notifies the icon cache that new icons have been installed by updating mtime of ${ICON_INSTALL_DIR}/hicolor directory. KDE4_INSTALL_ICONS( path theme) Installs all png and svgz files in the current directory to the icon directoy given in path, in the subdirectory for the given icon theme. KDE4_CREATE_HANDBOOK( docbookfile [INSTALL_DESTINATION installdest] [SUBDIR subdir]) Create the handbook from the docbookfile (using meinproc4) The resulting handbook will be installed to <installdest> when using INSTALL_DESTINATION <installdest>, or to <installdest>/<subdir> if SUBDIR <subdir> is specified. KDE4_CREATE_MANPAGE( docbookfile section ) Create the manpage for the specified section from the docbookfile (using meinproc4) The resulting manpage will be installed to <installdest> when using INSTALL_DESTINATION <installdest>, or to <installdest>/<subdir> if SUBDIR <subdir> is specified. KDE4_INSTALL_AUTH_ACTIONS( HELPER_ID ACTIONS_FILE ) This macro generates an action file, depending on the backend used, for applications using KAuth. It accepts the helper id (the DBUS name) and a file containing the actions (check kdelibs/kdecore/auth/example for file format). The macro will take care of generating the file according to the backend specified, and to install it in the right location. This (at the moment) means that on Linux (PolicyKit) a .policy file will be generated and installed into the policykit action directory (usually /usr/share/PolicyKit/policy/), and on Mac (Authorization Services) will be added to the system action registry using the native MacOS API during the install phase KDE4_INSTALL_AUTH_HELPER_FILES( HELPER_TARGET HELPER_ID HELPER_USER ) This macro adds the needed files for an helper executable meant to be used by applications using KAuth. It accepts the helper target, the helper ID (the DBUS name) and the user under which the helper will run on. This macro takes care of generate the needed files, and install them in the right location. This boils down to a DBus policy to let the helper register on the system bus, and a service file for letting the helper being automatically activated by the system bus. *WARNING* You have to install the helper in ${LIBEXEC_INSTALL_DIR} to make sure everything will work. A note on the possible values for CMAKE_BUILD_TYPE and how KDE handles the flags for those buildtypes. FindKDE4Internal supports the values Debug, Release, RelWithDebInfo, Profile and Debugfull: Release optimised for speed, qDebug/kDebug turned off, no debug symbols, no asserts RelWithDebInfo (Release with debug info) similar to Release, optimised for speed, but with debugging symbols on (-g) Debug optimised but debuggable, debugging on (-g) (-fno-reorder-blocks -fno-schedule-insns -fno-inline) DebugFull no optimisation, full debugging on (-g3) Profile DebugFull + -ftest-coverage -fprofile-arcs The default buildtype is RelWithDebInfo. It is expected that the "Debug" build type be still debuggable with gdb without going all over the place, but still produce better performance. It's also important to note that gcc cannot detect all warning conditions unless the optimiser is active. This module allows to depend on a particular minimum version of kdelibs. To acomplish that one should use the apropriate cmake syntax for find_package. For example to depend on kdelibs >= 4.1.0 one should use find_package(KDE4 4.1.0 REQUIRED) In earlier versions of KDE you could use the variable KDE_MIN_VERSION to have such a dependency. This variable is deprecated with KDE 4.2.0, but will still work to make the module backwards-compatible. FindKDE4Workspace Find if we installed kdebase/workspaces. Once done this will define KDE4WORKSPACE_FOUND - system has KDE workspace installed KDE4WORKSPACE_INCLUDE_DIR - the KDE workspace include directory It also sets variables for the following libraries: KDE4WORKSPACE_TASKMANAGER_LIBRARY, KDE4WORKSPACE_TASKMANAGER_LIBS KDE4WORKSPACE_KWORKSPACE_LIBRARY, KDE4WORKSPACE_KWORKSPACE_LIBS KDE4WORKSPACE_SOLIDCONTROLIFACES_LIBRARY, KDE4WORKSPACE_SOLIDCONTROLIFACES_LIBS KDE4WORKSPACE_SOLIDCONTROL_LIBRARY, KDE4WORKSPACE_SOLIDCONTROL_LIBS KDE4WORKSPACE_PROCESSUI_LIBRARY, KDE4WORKSPACE_PROCESSUI_LIBS KDE4WORKSPACE_LSOFUI_LIBRARY, KDE4WORKSPACE_LSOFUI_LIBS KDE4WORKSPACE_PLASMACLOCK_LIBRARY, KDE4WORKSPACE_PLASMACLOCK_LIBS KDE4WORKSPACE_NEPOMUKQUERYCLIENT_LIBRARY, KDE4WORKSPACE_NEPOMUKQUERYCLIENT_LIBS KDE4WORKSPACE_NEPOMUKQUERY_LIBRARY, KDE4WORKSPACE_NEPOMUKQUERY_LIBS KDE4WORKSPACE_KSCREENSAVER_LIBRARY, KDE4WORKSPACE_KSCREENSAVER_LIBS KDE4WORKSPACE_WEATHERION_LIBRARY, KDE4WORKSPACE_WEATHERION_LIBS KDE4WORKSPACE_KWINEFFECTS_LIBRARY, KDE4WORKSPACE_KWINEFFECTS_LIBS KDE4WORKSPACE_KDECORATIONS_LIBRARY, KDE4WORKSPACE_KDECORATIONS_LIBS KDE4WORKSPACE_KSGRD_LIBRARY, KDE4WORKSPACE_KSGRD_LIBS KDE4WORKSPACE_KEPHAL_LIBRARY, KDE4WORKSPACE_KEPHAL_LIBS And the following locations: KDE4WORKSPACE_LIB_DIR KDE4WORKSPACE_LIBEXEC_DIR KDE4WORKSPACE_INCLUDE_DIR KDE4WORKSPACE_BIN_DIR KDE4WORKSPACE_SBIN_DIR KDE4WORKSPACE_DATA_DIR KDE4WORKSPACE_HTML_DIR KDE4WORKSPACE_CONFIG_DIR KDE4WORKSPACE_ICON_DIR KDE4WORKSPACE_KCFG_DIR KDE4WORKSPACE_LOCALE_DIR KDE4WORKSPACE_MIME_DIR KDE4WORKSPACE_SOUND_DIR KDE4WORKSPACE_TEMPLATES_DIR KDE4WORKSPACE_WALLPAPER_DIR KDE4WORKSPACE_KCONF_UPDATE_DIR KDE4WORKSPACE_AUTOSTART_DIR KDE4WORKSPACE_XDG_APPS_DIR KDE4WORKSPACE_XDG_DIRECTORY_DIR KDE4WORKSPACE_SYSCONF_DIR KDE4WORKSPACE_MAN_DIR KDE4WORKSPACE_INFO_DIR KDE4WORKSPACE_DBUS_INTERFACES_DIR KDE4WORKSPACE_DBUS_SERVICES_DIR KDE4WORKSPACE_SERVICES_DIR KDE4WORKSPACE_SERVICETYPES_DIR FindKDEWIN32 Try to find the KDEWIN32 library - deprecated Once done this will define KDEWIN32_FOUND - system has KDEWIN32 KDEWIN32_INCLUDES - the KDEWIN32 include directories KDEWIN32_LIBRARIES - The libraries needed to use KDEWIN32 FindKDEWIN_Packager KDEWIN packager //www.winkde.org/pub/kde/ports/win32/installer The kdewin packager is searched in the following pathes and order path specified by the environment dir KDEWIN_PACKAGER_DIR <ProgramFiles>/kdewin-packager <ProgramFiles>/kdewin-installer The macro KDEWIN_PACKAGER provides package building support and should be added to the top level CMakeLists.txt as shown below if (KDEWIN_PACKAGER_FOUND) KDEWIN_PACKAGER( "projectname" "version" "description" "additional options" ) endif (KDEWIN_PACKAGER_FOUND) FindKDEWin Try to find the KDEWIN library Once done this will define KDEWIN_FOUND - system has KDEWIN KDEWIN_INCLUDES - the KDEWIN include directories KDEWIN_LIBRARIES - The libraries needed to use KDEWIN FindKDevPlatform Find the KDevelop Platform modules and sets various variables accordingly Example usage of this module: find_package(KDevPlatform 1.0.0 REQUIRED) The version number and REQUIRED flag are optional. You can set CMAKE_PREFIX_PATH variable to help it find the required files and directories FindKNepomuk Once done this will define KNEPOMUK_FOUND - system has the Nepomuk-KDE backbone lib KNep KNEPOMUK_INCLUDES - the libKNep include directory KNEPOMUK_LIBRARIES - Link these to use libKNep FindKdcraw Try to find the Kdcraw library If you have put a local version of libkdcraw into your source tree, set KDCRAW_LOCAL_DIR to the relative path to the local directory. Once done this will define KDCRAW_FOUND - system has libkdcraw KDCRAW_INCLUDE_DIR - the libkdcraw include directory KDCRAW_LIBRARIES - Link these to use libkdcraw KDCRAW_DEFINITIONS - Compiler switches required for using libkdcraw FindKdeMultimedia Module to see if we have KDE4 kdemultimedia installed This module defines KDEMULTIMEDIA_INCLUDE_DIR - the include dir KCDDB_LIBRARY - the kcddb library KCOMPACTDISC_LIBRARY - the kcompactdisk library KDEMULTIMEDIA_LIBRARIES - all of the KDE multimedia libraries together KDEMULTIMEDIA_FOUND - true if the above have been found FindKdepim Nothing should require kdepim. We'll show a fatal error and an explanation. FindKdepimLibs Find if we installed kdepimlibs before to compile it Once done this will define KDEPIMLIBS_FOUND - system has KDE PIM Libraries KDEPIMLIBS_INCLUDE_DIR - the KDE PIM Libraries include directory KDEPIMLIBS_INCLUDE_DIRS - the KDE PIM Libraries include directory and CamelCase headers It also sets variables for the following libraries: KDEPIMLIBS_AKONADI_LIBS KDEPIMLIBS_AKONADI_CONTACT_LIBS KDEPIMLIBS_AKONADI_KABC_LIBS KDEPIMLIBS_AKONADI_KMIME_LIBS KDEPIMLIBS_GPGMEPP_LIBS KDEPIMLIBS_KABC_LIBS KDEPIMLIBS_KBLOG_LIBS KDEPIMLIBS_KCAL_LIBS KDEPIMLIBS_KCALCORE_LIBS KDEPIMLIBS_KCALUTILS_LIBS KDEPIMLIBS_KHOLIDAYS_LIBS KDEPIMLIBS_KIMAP_LIBS KDEPIMLIBS_KLDAP_LIBS KDEPIMLIBS_KMIME_LIBS KDEPIMLIBS_KONTACTINTERFACE_LIBS KDEPIMLIBS_KPIMIDENTITIES_LIBS KDEPIMLIBS_KPIMTEXTEDIT_LIBS KDEPIMLIBS_KPIMUTILS_LIBS KDEPIMLIBS_KRESOURCES_LIBS KDEPIMLIBS_KTNEF_LIBS KDEPIMLIBS_KXMLRPCCLIENT_LIBS KDEPIMLIBS_MAILTRANSPORT_LIBS KDEPIMLIBS_MICROBLOG_LIBS KDEPIMLIBS_QGPGME_LIBS KDEPIMLIBS_SYNDICATION_LIBS And the following locations: KDEPIMLIBS_DATA_DIR KDEPIMLIBS_DBUS_INTERFACES_DIR KDEPIMLIBS_DBUS_SERVICES_DIR KDEPIMLIBS_INCLUDE_DIR KDEPIMLIBS_INCLUDE_DIRS KDEPIMLIBS_LIB_DIR KDEPIMLIBS_BIN_DIR KDEPIMLIBS_LIBEXEC_DIR KDEPIMLIBS_SBIN_DIR KDEPIMLIBS_HTML_DIR KDEPIMLIBS_CONFIG_DIR KDEPIMLIBS_ICON_DIR KDEPIMLIBS_KCFG_DIR KDEPIMLIBS_LOCALE_DIR KDEPIMLIBS_MIME_DIR KDEPIMLIBS_SOUND_DIR KDEPIMLIBS_TEMPLATES_DIR KDEPIMLIBS_KCONF_UPDATE_DIR KDEPIMLIBS_AUTOSTART_DIR KDEPIMLIBS_XDG_APPS_DIR KDEPIMLIBS_XDG_DIRECTORY_DIR KDEPIMLIBS_SYSCONF_DIR KDEPIMLIBS_MAN_DIR KDEPIMLIBS_INFO_DIR KDEPIMLIBS_SERVICES_DIR KDEPIMLIBS_SERVICETYPES_DIR FindKexiv2 Try to find the KExiv2 library If you have put a local version of libkexiv2 into your source tree, set KEXIV2_LOCAL_DIR to the relative path to the local directory. Once done this will define KEXIV2_FOUND - system has libkexiv2 KEXIV2_INCLUDE_DIR - the libkexiv2 include directory KEXIV2_LIBRARIES - Link these to use libkexiv2 KEXIV2_DEFINITIONS - Compiler switches required for using libkexiv2 FindKipi Try to find the Kipi library If you have put a local version of libkipi into your source tree, set KIPI_LOCAL_DIR to the relative path to the local directory. Once done this will define KIPI_FOUND - system has libkipi KIPI_INCLUDE_DIR - the libkipi include directory KIPI_LIBRARIES - Link these to use libkipi KIPI_DEFINITIONS - Compiler switches required for using libkipi FindKonto Once done this will define KONTO_FOUND - system has the Nepomuk-KDE backbone lib Konto KONTO_INCLUDES - the libKonto include directory KONTO_LIBRARIES - Link these to use libKonto FindKopete Try to find the Kopete library Once done this will define Kopete_FOUND - system has kopete KOPETE_INCLUDE_DIR - the kopete include directory KOPETE_LIBRARIES - Link these to use kopete FindKorundum Find Korundum - the KDE Ruby bindings This module finds if Korundum is installed. It defines the following variables: KORUNDUM_PATH - the path to the korundum ruby file KORUNDUM_FOUND - true if it has been found FindLCMS Find LCMS Find the LCMS (Little Color Management System) library and includes and This module defines LCMS_INCLUDE_DIR, where to find lcms.h LCMS_LIBRARIES, the libraries needed to use LCMS. LCMS_DOT_VERSION, The version number of the LCMS library, e.g. "1.19" LCMS_VERSION, Similar to LCMS_DOT_VERSION, but without the dots, e.g. "119" LCMS_FOUND, If false, do not try to use LCMS. The minimum required version of LCMS can be specified using the standard syntax, e.g. find_package(LCMS 1.10) FindLibArt Try to find the LibArt 2D graphics library Once done this will define LIBART_FOUND - system has the LibArt LIBART_INCLUDE_DIR - the LibArt include directory LIBART_LIBRARIES - The libraries needed to use LibArt FindLibAttica Try to find the Attica library Once done this will define LIBATTICA_FOUND Indicates that Attica was found LIBATTICA_LIBRARIES Libraries needed to use Attica LIBATTICA_LIBRARY_DIRS Paths needed for linking against Attica LIBATTICA_INCLUDE_DIR Path needed for finding Attica include files The minimum required version of LibAttica can be specified using the standard syntax, e.g. find_package(LibAttica 0.20) FindLibKonq Try to find konqueror library Once done this will define LIBKONQ_FOUND - system has libkonq library LIBKONQ_INCLUDE_DIR - the LIBKONQ include directory LIBKONQ_LIBRARY - the libkonq library FindLibLZMA Find LibLZMA Find LibLZMA headers and library LIBLZMA_FOUND - True if liblzma is found. LIBLZMA_INCLUDE_DIRS - Directory where liblzma headers are located. LIBLZMA_LIBRARIES - Lzma libraries to link against. LIBLZMA_HAS_AUTO_DECODER - True if lzma_auto_decoder() is found (required). LIBLZMA_HAS_EASY_ENCODER - True if lzma_easy_encoder() is found (required). LIBLZMA_HAS_LZMA_PRESET - True if lzma_lzma_preset() is found (required). FindLibXml2 Try to find LibXml2 Once done this will define LIBXML2_FOUND - System has LibXml2 LIBXML2_INCLUDE_DIR - The LibXml2 include directory LIBXML2_LIBRARIES - The libraries needed to use LibXml2 LIBXML2_DEFINITIONS - Compiler switches required for using LibXml2 LIBXML2_XMLLINT_EXECUTABLE - The XML checking tool xmllint coming with LibXml2 FindLibXslt Try to find LibXslt Once done this will define LIBXSLT_FOUND - system has LibXslt LIBXSLT_INCLUDE_DIR - the LibXslt include directory LIBXSLT_LIBRARIES - Link these to LibXslt LIBXSLT_DEFINITIONS - Compiler switches required for using LibXslt LIBXSLT_XSLTPROC_EXECUTABLE - path to the xsltproc tool FindLibintl Try to find Libintl functionality Once done this will define LIBINTL_FOUND - system has Libintl LIBINTL_INCLUDE_DIR - Libintl include directory LIBINTL_LIBRARIES - Libraries needed to use Libintl TODO: This will enable translations only if Gettext functionality is present in libc. Must have more robust system for release, where Gettext functionality can also reside in standalone Gettext library, or the one embedded within kdelibs (cf. gettext.m4 from Gettext source). FindLibraryWithDebug FIND_LIBRARY_WITH_DEBUG -> enhanced FIND_LIBRARY to allow the search for an optional debug library with a WIN32_DEBUG_POSTFIX similar to CMAKE_DEBUG_POSTFIX when creating a shared lib it has to be the second and third argument FindLinuxWirelesstools Try to find wireless extensions support libraries Once done this will define IW_FOUND - system has IW IW_INCLUDE_DIR - the IW include directory IW_LIBRARIES - Link to these to use IW FindMsgfmt Try to find msgfmt Once done this will define MSGFMT_FOUND - system has msgfmt FindMusicBrainz Module to find the musicbrainz library It defines MUSICBRAINZ_INCLUDE_DIR - the include dir MUSICBRAINZ_LIBRARIES - the required libraries MUSICBRAINZ_FOUND - true if both of the above have been found FindMySQL Try to find MySQL / MySQL Embedded library Find the MySQL includes and client library This module defines MYSQL_INCLUDE_DIR, where to find mysql.h MYSQL_LIBRARIES, the libraries needed to use MySQL. MYSQL_LIB_DIR, path to the MYSQL_LIBRARIES MYSQL_EMBEDDED_LIBRARIES, the libraries needed to use MySQL Embedded. MYSQL_EMBEDDED_LIB_DIR, path to the MYSQL_EMBEDDED_LIBRARIES MYSQL_FOUND, If false, do not try to use MySQL. MYSQL_EMBEDDED_FOUND, If false, do not try to use MySQL Embedded. FindNepomuk Once done this will define NEPOMUK_FOUND - system has Nepomuk NEPOMUK_INCLUDE_DIR - the Nepomuk include directory NEPOMUK_LIBRARIES - Link these to use Nepomuk NEPOMUK_QUERY_LIBRARIES - Link these to use Nepomuk query NEPOMUK_UTILS_LIBRARIES - Link these to use Nepomuk utils NEPOMUK_DEFINITIONS - Compiler switches required for using Nepomuk Nepomuk requires Soprano, so this module checks for Soprano too. FindNetworkManager Try to find NetworkManager Once done this will define NETWORKMANAGER_FOUND - system has NetworkManager NETWORKMANAGER_INCLUDE_DIRS - the NetworkManager include directories NETWORKMANAGER_LIBRARIES - the libraries needed to use NetworkManager NETWORKMANAGER_CFLAGS - Compiler switches required for using NetworkManager NETWORKMANAGER_VERSION - version number of NetworkManager FindOggVorbis Try to find the OggVorbis libraries Once done this will define OGGVORBIS_FOUND - system has OggVorbis OGGVORBIS_VERSION - set either to 1 or 2 OGGVORBIS_INCLUDE_DIR - the OggVorbis include directory OGGVORBIS_LIBRARIES - The libraries needed to use OggVorbis OGG_LIBRARY - The Ogg library VORBIS_LIBRARY - The Vorbis library VORBISFILE_LIBRARY - The VorbisFile library VORBISENC_LIBRARY - The VorbisEnc library FindOpenEXR Try to find the OpenEXR libraries This check defines: OPENEXR_FOUND - system has OpenEXR OPENEXR_INCLUDE_DIR - OpenEXR include directory OPENEXR_LIBRARIES - Libraries needed to use OpenEXR OPENEXR_DEFINITIONS - definitions required to use OpenEXR FindOpenSSL Try to find the OpenSSL encryption library Once done this will define OPENSSL_FOUND - system has the OpenSSL library OPENSSL_INCLUDE_DIR - the OpenSSL include directory OPENSSL_LIBRARIES - The libraries needed to use OpenSSL OPENSSL_EAY_LIBRARIES - The additional libraries needed to use OpenSSL on windows FindPCRE Try to find the PCRE regular expression library Once done this will define PCRE_FOUND - system has the PCRE library PCRE_INCLUDE_DIR - the PCRE include directory PCRE_LIBRARIES - The libraries needed to use PCRE FindPackageHandleStandardArgs FIND_PACKAGE_HANDLE_STANDARD_ARGS(<name> ... ) This function is intended to be used in FindXXX.cmake modules files. It handles the REQUIRED, QUIET and version-related arguments to FIND_PACKAGE(). It also sets the <UPPERCASED_NAME>_FOUND variable. The package is considered found if all variables <var1>... listed contain valid results, e.g. valid filepaths. There are two modes of this function. The first argument in both modes is the name of the Find-module where it is called (in original casing). The first simple mode looks like this: FIND_PACKAGE_HANDLE_STANDARD_ARGS(<name> (DEFAULT_MSG|"Custom failure message") <var1>...<varN> ) If the variables <var1> to <varN> are all valid, then <UPPERCASED_NAME>_FOUND will be set to TRUE. If DEFAULT_MSG is given as second argument, then the function will generate itself useful success and error messages. You can also supply a custom error message for the failure case. This is not recommended. The second mode is more powerful and also supports version checking: FIND_PACKAGE_HANDLE_STANDARD_ARGS(NAME [REQUIRED_VARS <var1>...<varN>] [VERSION_VAR <versionvar> [FAIL_MESSAGE "Custom failure message"] ) As above, if <var1> through <varN> are all valid, <UPPERCASED_NAME>_FOUND will be set to TRUE. Via FAIL_MESSAGE a custom failure message can be specified, if this is not used, the default message will be displayed. Following VERSION_VAR the name of the variable can be specified which holds the version of the package which has been found. If this is done, this version will be checked against the (potentially) specified required version used in the find_package() call. The EXACT keyword is also handled. The default messages include information about the required version and the version which has been actually found, both if the version is ok or not. Example for mode 1: FIND_PACKAGE_HANDLE_STANDARD_ARGS(LibXml2 DEFAULT_MSG LIBXML2_LIBRARY LIBXML2_INCLUDE_DIR) LibXml2 is considered to be found, if both LIBXML2_LIBRARY and LIBXML2_INCLUDE_DIR are valid. Then also LIBXML2_FOUND is set to TRUE. If it is not found and REQUIRED was used, it fails with FATAL_ERROR, independent whether QUIET was used or not. If it is found, success will be reported, including the content of <var1>. On repeated Cmake runs, the same message won't be printed again. Example for mode 2: FIND_PACKAGE_HANDLE_STANDARD_ARGS(BISON REQUIRED_VARS BISON_EXECUTABLE VERSION_VAR BISON_VERSION) In this case, BISON is considered to be found if the variable(s) listed after REQUIRED_VAR are all valid, i.e. BISON_EXECUTABLE in this case. Also the version of BISON will be checked by using the version contained in BISON_VERSION. Since no FAIL_MESSAGE is given, the default messages will be printed. FindPhonon Find libphonon Once done this will define PHONON_FOUND - system has Phonon Library PHONON_INCLUDES - the Phonon include directory PHONON_LIBS - link these to use Phonon PHONON_VERSION - the version of the Phonon Library FindPkgConfig a pkg-config module for CMake Usage: pkg_check_modules(<PREFIX> [REQUIRED] [QUIET] <MODULE> [<MODULE>]*) checks for all the given modules pkg_search_module(<PREFIX> [REQUIRED] [QUIET] <MODULE> [<MODULE>]*) checks for given modules and uses the first working one When the 'REQUIRED' argument was set, macros will fail with an error when module(s) could not be found When the 'QUIET' argument is set, no status messages will be printed. It sets the following variables: PKG_CONFIG_FOUND ... true if pkg-config works on the system PKG_CONFIG_EXECUTABLE ... pathname of the pkg-config program <PREFIX>_FOUND ... set to 1 if module(s) exist For the following variables two sets of values exist; first one is the common one and has the given PREFIX. The second set contains flags which are given out when pkgconfig was called with the '--static' option. <XPREFIX>_LIBRARIES ... only the libraries (w/o the '-l') <XPREFIX>_LIBRARY_DIRS ... the paths of the libraries (w/o the '-L') <XPREFIX>_LDFLAGS ... all required linker flags <XPREFIX>_LDFLAGS_OTHER ... all other linker flags <XPREFIX>_INCLUDE_DIRS ... the '-I' preprocessor flags (w/o the '-I') <XPREFIX>_CFLAGS ... all required cflags <XPREFIX>_CFLAGS_OTHER ... the other compiler flags <XPREFIX> = <PREFIX> for common case <XPREFIX> = <PREFIX>_STATIC for static linking There are some special variables whose prefix depends on the count of given modules. When there is only one module, <PREFIX> stays unchanged. When there are multiple modules, the prefix will be changed to <PREFIX>_<MODNAME>: <XPREFIX>_VERSION ... version of the module <XPREFIX>_PREFIX ... prefix-directory of the module <XPREFIX>_INCLUDEDIR ... include-dir of the module <XPREFIX>_LIBDIR ... lib-dir of the module <XPREFIX> = <PREFIX> when |MODULES| == 1, else <XPREFIX> = <PREFIX>_<MODNAME> A <MODULE> parameter can have the following formats: {MODNAME} ... matches any version {MODNAME}>={VERSION} ... at least version <VERSION> is required {MODNAME}={VERSION} ... exactly version <VERSION> is required {MODNAME}<={VERSION} ... modules must not be newer than <VERSION> Examples pkg_check_modules (GLIB2 glib-2.0) pkg_check_modules (GLIB2 glib-2.0>=2.10) requires at least version 2.10 of glib2 and defines e.g. GLIB2_VERSION=2.10.3 pkg_check_modules (FOO glib-2.0>=2.10 gtk+-2.0) requires both glib2 and gtk2, and defines e.g. FOO_glib-2.0_VERSION=2.10.3 FOO_gtk+-2.0_VERSION=2.8.20 pkg_check_modules (XRENDER REQUIRED xrender) defines e.g.: XRENDER_LIBRARIES=Xrender;X11 XRENDER_STATIC_LIBRARIES=Xrender;X11;pthread;Xau;Xdmcp pkg_search_module (BAR libxml-2.0 libxml2 libxml>=2) FindPolkitQt-1 Try to find PolkitQt-1 Once done this will define POLKITQT-1_FOUND - system has Polkit-qt POLKITQT-1_INCLUDE_DIR - the Polkit-qt include directory POLKITQT-1_LIBRARIES - Link these to use all Polkit-qt libs POLKITQT-1_CORE_LIBRARY - Link this to use the polkit-qt-core library only POLKITQT-1_GUI_LIBRARY - Link this to use GUI elements in polkit-qt (polkit-qt-gui) POLKITQT-1_AGENT_LIBRARY - Link this to use the agent wrapper in polkit-qt POLKITQT-1_DEFINITIONS - Compiler switches required for using Polkit-qt The minimum required version of PolkitQt-1 can be specified using the standard syntax, e.g. find_package(PolkitQt-1 1.0) FindPolkitQt Try to find Polkit-qt Once done this will define POLKITQT_FOUND - system has Polkit-qt POLKITQT_INCLUDE_DIR - the Polkit-qt include directory POLKITQT_LIBRARIES - Link these to use all Polkit-qt libs POLKITQT_CORE_LIBRARY - Link this to use the polkit-qt-core library only POLKITQT_GUI_LIBRARY - Link this to use GUI elements in polkit-qt (polkit-qt-gui) POLKITQT_DEFINITIONS - Compiler switches required for using Polkit-qt POLKITQT_POLICY_FILES_INSTALL_DIR - The directory where policy files should be installed to. The minimum required version of PolkitQt can be specified using the standard syntax, e.g. find_package(PolkitQt 1.0) For compatiblity, this can also be done by setting the POLKITQT_MIN_VERSION variable. FindPopplerQt4 Try to find the Qt4 binding of the Poppler library Once done this will define POPPLER_QT4_FOUND - system has poppler-qt4 POPPLER_QT4_INCLUDE_DIR - the poppler-qt4 include directory POPPLER_QT4_LIBRARIES - Link these to use poppler-qt4 POPPLER_QT4_DEFINITIONS - Compiler switches required for using poppler-qt4 FindPostgreSQL Find PostgreSQL Find the PostgreSQL includes and client library This module defines POSTGRESQL_INCLUDE_DIR, where to find POSTGRESQL.h POSTGRESQL_LIBRARIES, the libraries needed to use POSTGRESQL. POSTGRESQL_FOUND, If false, do not try to use PostgreSQL. FindPulseAudio Try to find the PulseAudio library Once done this will define: PULSEAUDIO_FOUND - system has the PulseAudio library PULSEAUDIO_INCLUDE_DIR - the PulseAudio include directory PULSEAUDIO_LIBRARY - the libraries needed to use PulseAudio PULSEAUDIO_MAINLOOP_LIBRARY - the libraries needed to use PulsAudio Mainloop The minimum required version of PulseAudio can be specified using the standard syntax, e.g. find_package(PulseAudio 1.0) FindPyKDE4 FindPyKDE4 Checks that Python and PyKDE4 are installed and defines a couple macros: * PYKDE4_INSTALL_PYTHON_FILES * PYKDE4_ADD_UI_FILES * PYKDE4_ADD_EXECUTABLE FindPyQt4 Find PyQt4 ~~~~~~~~~~ Copyright (c) 2007-2008, Simon Edwards <simon@simonzone.com> Redistribution and use is allowed according to the terms of the BSD license. For details see the accompanying COPYING-CMAKE-SCRIPTS file. PyQt4 website: //www.riverbankcomputing.co.uk/pyqt/index.php Find the installed version of PyQt4. FindPyQt4 should only be called after Python has been found. This file defines the following variables: PYQT4_VERSION - The version of PyQt4 found expressed as a 6 digit hex number suitable for comparision as a string PYQT4_VERSION_STR - The version of PyQt4 as a human readable string. PYQT4_VERSION_TAG - The PyQt version tag using by PyQt's sip files. PYQT4_SIP_DIR - The directory holding the PyQt4 .sip files. PYQT4_SIP_FLAGS - The SIP flags used to build PyQt. FindPythonLibrary Find Python ~~~~~~~~~~~ Find the Python interpreter and related Python directories. This file defines the following variables: PYTHON_EXECUTABLE - The path and filename of the Python interpreter. PYTHON_SHORT_VERSION - The version of the Python interpreter found, excluding the patch version number. (e.g. 2.5 and not 2.5.1)) PYTHON_LONG_VERSION - The version of the Python interpreter found as a human readable string. PYTHON_SITE_PACKAGES_INSTALL_DIR - this cache variable can be used for installing own python modules. You may want to adjust this to be the same as ${PYTHON_SITE_PACKAGES_DIR}, but then admin privileges may be required for installation. PYTHON_SITE_PACKAGES_DIR - Location of the Python site-packages directory. PYTHON_INCLUDE_PATH - Directory holding the python.h include file. PYTHON_LIBRARY, PYTHON_LIBRARIES- Location of the Python library. FindQCA2 Try to find QCA2 (Qt Cryptography Architecture 2) Once done this will define QCA2_FOUND - system has QCA2 QCA2_INCLUDE_DIR - the QCA2 include directory QCA2_LIBRARIES - the libraries needed to use QCA2 QCA2_DEFINITIONS - Compiler switches required for using QCA2 use pkg-config to get the directories and then use these values in the FIND_PATH() and FIND_LIBRARY() calls FindQImageBlitz Try to find the qimageblitz lib Once done this will define QIMAGEBLITZ_FOUND - system has qimageblitz lib QIMAGEBLITZ_INCLUDES - the qimageblitz include directory QIMAGEBLITZ_LIBRARIES - The libraries needed to use qimageblitz FindQt4 Find QT 4 This module can be used to find Qt4. The most important issue is that the Qt4 qmake is available via the system path. This qmake is then used to detect basically everything else. This module defines a number of key variables and macros. The variable QT_USE_FILE is set which is the path to a CMake file that can be included to compile Qt 4 applications and libraries. It sets up the compilation environment for include directories, preprocessor defines and populates a QT_LIBRARIES variable. Typical usage could be something like: find_package(Qt4 4.4.3 COMPONENTS QtCore QtGui QtXml REQUIRED ) include(${QT_USE_FILE}) add_executable(myexe main.cpp) target_link_libraries(myexe ${QT_LIBRARIES}) The minimum required version can be specified using the standard find_package()-syntax (see example above). For compatibility with older versions of FindQt4.cmake it is also possible to set the variable QT_MIN_VERSION to the minimum required version of Qt4 before the find_package(Qt4) command. If both are used, the version used in the find_package() command overrides the one from QT_MIN_VERSION. When using the components argument, QT_USE_QT* variables are automatically set for the QT_USE_FILE to pick up. If one wishes to manually set them, the available ones to set include: QT_DONT_USE_QTCORE QT_DONT_USE_QTGUI QT_USE_QT3SUPPORT QT_USE_QTASSISTANT QT_USE_QAXCONTAINER QT_USE_QAXSERVER QT_USE_QTDESIGNER QT_USE_QTMOTIF QT_USE_QTMAIN QT_USE_QTMULTIMEDIA QT_USE_QTNETWORK QT_USE_QTNSPLUGIN QT_USE_QTOPENGL QT_USE_QTSQL QT_USE_QTXML QT_USE_QTSVG QT_USE_QTTEST QT_USE_QTUITOOLS QT_USE_QTDBUS QT_USE_QTSCRIPT QT_USE_QTASSISTANTCLIENT QT_USE_QTHELP QT_USE_QTWEBKIT QT_USE_QTXMLPATTERNS QT_USE_PHONON QT_USE_QTSCRIPTTOOLS QT_USE_QTDECLARATIVE QT_USE_IMPORTED_TARGETS If this variable is set to TRUE, FindQt4.cmake will create imported library targets for the various Qt libraries and set the library variables like QT_QTCORE_LIBRARY to point at these imported targets instead of the library file on disk. This provides much better handling of the release and debug versions of the Qt libraries and is also always backwards compatible, except for the case that dependencies of libraries are exported, these will then also list the names of the imported targets as dependency and not the file location on disk. This is much more flexible, but requires that FindQt4.cmake is executed before such an exported dependency file is processed. There are also some files that need processing by some Qt tools such as moc and uic. Listed below are macros that may be used to process those files. macro QT4_WRAP_CPP(outfiles inputfile ... OPTIONS ...) create moc code from a list of files containing Qt class with the Q_OBJECT declaration. Per-direcotry preprocessor definitions are also added. Options may be given to moc, such as those found when executing "moc -help". macro QT4_WRAP_UI(outfiles inputfile ... OPTIONS ...) create code from a list of Qt designer ui files. Options may be given to uic, such as those found when executing "uic -help" macro QT4_ADD_RESOURCES(outfiles inputfile ... OPTIONS ...) create code from a list of Qt resource files. Options may be given to rcc, such as those found when executing "rcc -help" macro QT4_GENERATE_MOC(inputfile outputfile ) creates a rule to run moc on infile and create outfile. Use this if for some reason QT4_WRAP_CPP() isn't appropriate, e.g. because you need a custom filename for the moc file or something similar. macro QT4_AUTOMOC(sourcefile1 sourcefile2 ... ) This macro is still experimental. It can be used to have moc automatically handled. So if you have the files foo.h and foo.cpp, and in foo.h a a class uses the Q_OBJECT macro, moc has to run on it. If you don't want to use QT4_WRAP_CPP() (which is reliable and mature), you can insert #include "foo.moc" in foo.cpp and then give foo.cpp as argument to QT4_AUTOMOC(). This will the scan all listed files at cmake-time for such included moc files and if it finds them cause a rule to be generated to run moc at build time on the accompanying header file foo.h. If a source file has the SKIP_AUTOMOC property set it will be ignored by this macro. macro QT4_ADD_DBUS_INTERFACE(outfiles interface basename) create a the interface header and implementation files with the given basename from the given interface xml file and add it to the list of sources. To disable generating a namespace header, set the source file property NO_NAMESPACE to TRUE on the interface file. To include a header in the interface header, set the source file property INCLUDE to the name of the header. To specify a class name to use, set the source file property CLASSNAME to the name of the class. macro QT4_ADD_DBUS_INTERFACES(outfiles inputfile ... ) create the interface header and implementation files for all listed interface xml files the name will be automatically determined from the name of the xml file To disable generating namespace headers, set the source file property NO_NAMESPACE to TRUE for these inputfiles. To include a header in the interface header, set the source file property INCLUDE to the name of the header. To specify a class name to use, set the source file property CLASSNAME to the name of the class. macro QT4_ADD_DBUS_ADAPTOR(outfiles xmlfile parentheader parentclassname [basename] [classname]) create a dbus adaptor (header and implementation file) from the xml file describing the interface, and add it to the list of sources. The adaptor forwards the calls to a parent class, defined in parentheader and named parentclassname. The name of the generated files will be <basename>adaptor.{cpp,h} where basename defaults to the basename of the xml file. If <classname> is provided, then it will be used as the classname of the adaptor itself. macro QT4_GENERATE_DBUS_INTERFACE( header [interfacename] OPTIONS ...) generate the xml interface file from the given header. If the optional argument interfacename is omitted, the name of the interface file is constructed from the basename of the header with the suffix .xml appended. Options may be given to qdbuscpp2xml, such as those found when executing "qdbuscpp2xml --help" macro QT4_CREATE_TRANSLATION( qm_files directories ... sources ... ts_files ... OPTIONS ...) out: qm_files in: directories sources ts_files options: flags to pass to lupdate, such as -extensions to specify extensions for a directory scan. generates commands to create .ts (vie lupdate) and .qm (via lrelease) - files from directories and/or sources. The ts files are created and/or updated in the source tree (unless given with full paths). The qm files are generated in the build tree. Updating the translations can be done by adding the qm_files to the source list of your library/executable, so they are always updated, or by adding a custom target to control when they get updated/generated. macro QT4_ADD_TRANSLATION( qm_files ts_files ... ) out: qm_files in: ts_files generates commands to create .qm from .ts - files. The generated filenames can be found in qm_files. The ts_files must exists and are not updated in any way. Below is a detailed list of variables that FindQt4.cmake sets. QT_FOUND If false, don't try to use Qt. QT4_FOUND If false, don't try to use Qt 4. QT_VERSION_MAJOR The major version of Qt found. QT_VERSION_MINOR The minor version of Qt found. QT_VERSION_PATCH The patch version of Qt found. QT_EDITION Set to the edition of Qt (i.e. DesktopLight) QT_EDITION_DESKTOPLIGHT True if QT_EDITION == DesktopLight QT_QTCORE_FOUND True if QtCore was found. QT_QTGUI_FOUND True if QtGui was found. QT_QT3SUPPORT_FOUND True if Qt3Support was found. QT_QTASSISTANT_FOUND True if QtAssistant was found. QT_QTASSISTANTCLIENT_FOUND True if QtAssistantClient was found. QT_QAXCONTAINER_FOUND True if QAxContainer was found (Windows only). QT_QAXSERVER_FOUND True if QAxServer was found (Windows only). QT_QTDBUS_FOUND True if QtDBus was found. QT_QTDESIGNER_FOUND True if QtDesigner was found. QT_QTDESIGNERCOMPONENTS True if QtDesignerComponents was found. QT_QTHELP_FOUND True if QtHelp was found. QT_QTMOTIF_FOUND True if QtMotif was found. QT_QTMULTIMEDIA_FOUND True if QtMultimedia was found (since Qt 4.6.0). QT_QTNETWORK_FOUND True if QtNetwork was found. QT_QTNSPLUGIN_FOUND True if QtNsPlugin was found. QT_QTOPENGL_FOUND True if QtOpenGL was found. QT_QTSQL_FOUND True if QtSql was found. QT_QTSVG_FOUND True if QtSvg was found. QT_QTSCRIPT_FOUND True if QtScript was found. QT_QTSCRIPTTOOLS_FOUND True if QtScriptTools was found. QT_QTTEST_FOUND True if QtTest was found. QT_QTUITOOLS_FOUND True if QtUiTools was found. QT_QTWEBKIT_FOUND True if QtWebKit was found. QT_QTXML_FOUND True if QtXml was found. QT_QTXMLPATTERNS_FOUND True if QtXmlPatterns was found. QT_PHONON_FOUND True if phonon was found. QT_QTDECLARATIVE_FOUND True if QtDeclarative was found. QT_MAC_USE_COCOA For Mac OS X, its whether Cocoa or Carbon is used. In general, this should not be used, but its useful when having platform specific code. QT_DEFINITIONS Definitions to use when compiling code that uses Qt. You do not need to use this if you include QT_USE_FILE. The QT_USE_FILE will also define QT_DEBUG and QT_NO_DEBUG to fit your current build type. Those are not contained in QT_DEFINITIONS. QT_INCLUDES List of paths to all include directories of Qt4 QT_INCLUDE_DIR and QT_QTCORE_INCLUDE_DIR are always in this variable even if NOTFOUND, all other INCLUDE_DIRS are only added if they are found. You do not need to use this if you include QT_USE_FILE. Include directories for the Qt modules are listed here. You do not need to use these variables if you include QT_USE_FILE. QT_INCLUDE_DIR Path to "include" of Qt4 QT_QT_INCLUDE_DIR Path to "include/Qt" QT_QT3SUPPORT_INCLUDE_DIR Path to "include/Qt3Support" QT_QTASSISTANT_INCLUDE_DIR Path to "include/QtAssistant" QT_QTASSISTANTCLIENT_INCLUDE_DIR Path to "include/QtAssistant" QT_QAXCONTAINER_INCLUDE_DIR Path to "include/ActiveQt" (Windows only) QT_QAXSERVER_INCLUDE_DIR Path to "include/ActiveQt" (Windows only) QT_QTCORE_INCLUDE_DIR Path to "include/QtCore" QT_QTDBUS_INCLUDE_DIR Path to "include/QtDBus" QT_QTDESIGNER_INCLUDE_DIR Path to "include/QtDesigner" QT_QTDESIGNERCOMPONENTS_INCLUDE_DIR Path to "include/QtDesigner" QT_QTGUI_INCLUDE_DIR Path to "include/QtGui" QT_QTHELP_INCLUDE_DIR Path to "include/QtHelp" QT_QTMOTIF_INCLUDE_DIR Path to "include/QtMotif" QT_QTMULTIMEDIA_INCLUDE_DIR Path to "include/QtMultimedia" QT_QTNETWORK_INCLUDE_DIR Path to "include/QtNetwork" QT_QTNSPLUGIN_INCLUDE_DIR Path to "include/QtNsPlugin" QT_QTOPENGL_INCLUDE_DIR Path to "include/QtOpenGL" QT_QTSCRIPT_INCLUDE_DIR Path to "include/QtScript" QT_QTSQL_INCLUDE_DIR Path to "include/QtSql" QT_QTSVG_INCLUDE_DIR Path to "include/QtSvg" QT_QTTEST_INCLUDE_DIR Path to "include/QtTest" QT_QTWEBKIT_INCLUDE_DIR Path to "include/QtWebKit" QT_QTXML_INCLUDE_DIR Path to "include/QtXml" QT_QTXMLPATTERNS_INCLUDE_DIR Path to "include/QtXmlPatterns" QT_PHONON_INCLUDE_DIR Path to "include/phonon" QT_QTSCRIPTTOOLS_INCLUDE_DIR Path to "include/QtScriptTools" QT_QTDECLARATIVE_INCLUDE_DIR Path to "include/QtDeclarative" QT_BINARY_DIR Path to "bin" of Qt4 QT_LIBRARY_DIR Path to "lib" of Qt4 QT_PLUGINS_DIR Path to "plugins" for Qt4 QT_TRANSLATIONS_DIR Path to "translations" of Qt4 QT_IMPORTS_DIR Path to "imports" of Qt4 QT_DOC_DIR Path to "doc" of Qt4 QT_MKSPECS_DIR Path to "mkspecs" of Qt4 For every library of Qt, a QT_QTFOO_LIBRARY variable is defined, with the full path to the library. So there are the following variables: The Qt3Support library: QT_QT3SUPPORT_LIBRARY The QtAssistant library: QT_QTASSISTANT_LIBRARY The QtAssistantClient library: QT_QTASSISTANTCLIENT_LIBRARY The QAxServer library: QT_QAXSERVER_LIBRARY The QAxContainer library: QT_QAXCONTAINER_LIBRARY The QtCore library: QT_QTCORE_LIBRARY The QtDBus library: QT_QTDBUS_LIBRARY The QtDesigner library: QT_QTDESIGNER_LIBRARY The QtDesignerComponents library: QT_QTDESIGNERCOMPONENTS_LIBRARY The QtGui library: QT_QTGUI_LIBRARY The QtHelp library: QT_QTHELP_LIBRARY The QtMotif library: QT_QTMOTIF_LIBRARY The QtMultimedia library: QT_QTMULTIMEDIA_LIBRARY The QtNetwork library: QT_QTNETWORK_LIBRARY The QtNsPLugin library: QT_QTNSPLUGIN_LIBRARY The QtOpenGL library: QT_QTOPENGL_LIBRARY The QtScript library: QT_QTSCRIPT_LIBRARY The QtScriptTools library: QT_QTSCRIPTTOOLS_LIBRARY The QtSql library: QT_QTSQL_LIBRARY The QtSvg library: QT_QTSVG_LIBRARY The QtTest library: QT_QTTEST_LIBRARY The QtUiTools library: QT_QTUITOOLS_LIBRARY The QtWebKit library: QT_QTWEBKIT_LIBRARY The QtXml library: QT_QTXML_LIBRARY The QtXmlPatterns library: QT_QTXMLPATTERNS_LIBRARY The qtmain library for Windows QT_QTMAIN_LIBRARY The Phonon library: QT_PHONON_LIBRARY The QtDeclarative library: QT_QTDECLARATIVE_LIBRARY also defined, but NOT for general use are QT_MOC_EXECUTABLE Where to find the moc tool. QT_UIC_EXECUTABLE Where to find the uic tool. QT_UIC3_EXECUTABLE Where to find the uic3 tool. QT_RCC_EXECUTABLE Where to find the rcc tool QT_DBUSCPP2XML_EXECUTABLE Where to find the qdbuscpp2xml tool. QT_DBUSXML2CPP_EXECUTABLE Where to find the qdbusxml2cpp tool. QT_LUPDATE_EXECUTABLE Where to find the lupdate tool. QT_LRELEASE_EXECUTABLE Where to find the lrelease tool. QT_QCOLLECTIONGENERATOR_EXECUTABLE Where to find the qcollectiongenerator tool. QT_DESIGNER_EXECUTABLE Where to find the Qt designer tool. QT_LINGUIST_EXECUTABLE Where to find the Qt linguist tool. These are around for backwards compatibility they will be set QT_WRAP_CPP Set true if QT_MOC_EXECUTABLE is found QT_WRAP_UI Set true if QT_UIC_EXECUTABLE is found These variables do _NOT_ have any effect anymore (compared to FindQt.cmake) QT_MT_REQUIRED Qt4 is now always multithreaded These variables are set to "" Because Qt structure changed (They make no sense in Qt4) QT_QT_LIBRARY Qt-Library is now split FindRUBY Find Ruby This module finds if Ruby is installed and determines where the include files and libraries are. It also determines what the name of the library is. This code sets the following variables: RUBY_LIBRARY = full path+file to the ruby library RUBY_INCLUDE_PATH = path to where ruby.h can be found RUBY_EXECUTABLE = full path+file to the ruby binary RUBY_FOUND = Ruby was found under system. FindSIP Find SIP ~~~~~~~~ SIP website: //www.riverbankcomputing.co.uk/sip/index.php Find the installed version of SIP. FindSIP should be called after Python has been found. This file defines the following variables: SIP_VERSION - The version of SIP found expressed as a 6 digit hex number suitable for comparision as a string. SIP_VERSION_STR - The version of SIP found as a human readable string. SIP_EXECUTABLE - Path and filename of the SIP command line executable. SIP_INCLUDE_DIR - Directory holding the SIP C++ header file. SIP_DEFAULT_SIP_DIR - Default directory where .sip files should be installed into. FindSamba Try to find the samba directory library Once done this will define SAMBA_FOUND - system has SAMBA SAMBA_INCLUDE_DIR - the SAMBA include directory SAMBA_LIBRARIES - The libraries needed to use SAMBA Set SAMBA_REQUIRE_SMBC_SET_CONTEXT to TRUE if you need a version of Samba which comes with smbc_set_context() FindSane cmake macro to test if we use sane SANE_FOUND - system has SANE libs SANE_INCLUDE_DIR - the SANE include directory SANE_LIBRARIES - The libraries needed to use SANE FindSasl2 Try to find the sasl2 directory library Once done this will define SASL2_FOUND - system has SASL2 SASL2_INCLUDE_DIR - the SASL2 include directory SASL2_LIBRARIES - The libraries needed to use SASL2 FindSharedDesktopOntologies Try to find shared-desktop-ontologies The shared-desktop-ontologies package is a direct dependancy of the Nepomuk semantic desktop system and provides all necessary ontology files like RDF, RDFS, NRL, or NIE. The package is created by the OSCAF project (//oscaf.sourceforge.net). Once done this will define SHAREDDESKTOPONTOLOGIES_FOUND - system has shared-desktop-ontologies SHAREDDESKTOPONTOLOGIES_ROOT_DIR - Folder where the ontologies are stored SHAREDDESKTOPONTOLOGIES_VERSION_MAJOR - The major version number, i.e. '1' in '1.2' SHAREDDESKTOPONTOLOGIES_VERSION_MINOR - The minor version number, i.e. '2' in '1.2' SHAREDDESKTOPONTOLOGIES_VERSION - The complete version string, i.e. '1.2' FindSharedMimeInfo Try to find the shared-mime-info package Once done this will define SHAREDMIMEINFO_FOUND - system has the shared-mime-info package UPDATE_MIME_DATABASE_EXECUTABLE - the update-mime-database executable The minimum required version of SharedMimeInfo can be specified using the standard syntax, e.g. find_package(SharedMimeInfo 0.20) For backward compatiblity, the following two variables are also supported: SHARED_MIME_INFO_FOUND - same as SHAREDMIMEINFO_FOUND SHARED_MIME_INFO_MINIMUM_VERSION - set to the minimum version you need, default is 0.18. When both are used, i.e. the version is set in the find_package() call and SHARED_MIME_INFO_MINIMUM_VERSION is set, the version specified in the find_package() call takes precedence. FindSoprano Find an installation of Soprano Sets the following variables: Soprano_FOUND, SOPRANO_FOUND - true is Soprano has been found SOPRANO_ONTO2VOCABULARYCLASS_EXECUTABLE - the onto2vocabularyclass program, required for adding ontologies SOPRANO_SOPRANOCMD_EXECUTABLE - the sopranocmd program SOPRANO_INCLUDE_DIR - The include directory SOPRANO_LIBRARIES - The Soprano core library to link to (libsoprano) SOPRANO_INDEX_LIBRARIES - The Soprano index library (libsopranoindex) SOPRANO_CLIENT_LIBRARIES - The Soprano client library (libsopranoclient) SOPRANO_SERVER_LIBRARIES - The Soprano server library (libsopranoserver) SOPRANO_VERSION - The Soprano version (string value) SOPRANO_PLUGIN_NQUADPARSER_FOUND - true if the nquadparser plugin is found SOPRANO_PLUGIN_NQUADSERIALIZER_FOUND - true if the nquadserializer plugin is found SOPRANO_PLUGIN_RAPTORPARSER_FOUND - true if the raptorparser plugin is found SOPRANO_PLUGIN_RAPTORSERIALIZER_FOUND - true if the raptorserializer plugin is found SOPRANO_PLUGIN_REDLANDBACKEND_FOUND - true if the redlandbackend plugin is found SOPRANO_PLUGIN_SESAME2BACKEND_FOUND - true if the sesame2backend plugin is found SOPRANO_PLUGIN_VIRTUOSOBACKEND_FOUND - true if the virtuosobackend plugin is found Options: Set SOPRANO_MIN_VERSION to set the minimum required Soprano version (default: 1.99) FindSoprano.cmake supports the COMPONENTS keyword of find_package(). If the REQUIRED keyword is used and any of the specified components have not been found, SOPRANO_FOUND will be set to FALSE. The following components are supported: PLUGIN_NQUADPARSER PLUGIN_NQUADSERIALIZER PLUGIN_RAPTORPARSER PLUGIN_RAPTORSERIALIZER PLUGIN_REDLANDBACKEND PLUGIN_SESAME2BACKEND PLUGIN_VIRTUOSOBACKEND FindSqlite Try to find Sqlite Once done this will define SQLITE_FOUND - system has Sqlite SQLITE_INCLUDE_DIR - the Sqlite include directory SQLITE_LIBRARIES - Link these to use Sqlite SQLITE_DEFINITIONS - Compiler switches required for using Sqlite Redistribution and use is allowed according to the terms of the BSD license. For details see the accompanying COPYING-CMAKE-SCRIPTS file. FindStrigi Try to find Strigi, a fast and small desktop search program (//strigi.sourceforge.net ) Once done this will define STRIGI_FOUND - system has Strigi STRIGI_INCLUDE_DIR - the Strigi include directory STRIGI_STREAMANALYZER_LIBRARY - Link these to use Strigi streamanalyzer STRIGI_STREAMS_LIBRARY - Link these to use Strigi streams STRIGI_LINE_ANALYZER_PREFIX - strigi plugin prefix STRIGI_THROUGH_ANALYZER_PREFIX - strigi plugin prefix FindTaglib Try to find the Taglib library Once done this will define TAGLIB_FOUND - system has the taglib library TAGLIB_CFLAGS - the taglib cflags TAGLIB_LIBRARIES - The libraries needed to use taglib FindUDev Try to find UDev Once done this will define UDEV_FOUND - system has UDev UDEV_INCLUDE_DIR - the libudev include directory UDEV_LIBS - The libudev libraries FindUSB Try to find the freetype library Once done this defines LIBUSB_FOUND - system has libusb LIBUSB_INCLUDE_DIR - the libusb include directory LIBUSB_LIBRARIES - Link these to use libusb FindWcecompat Try to find Wcecompat functionality Once done this will define WCECOMPAT_FOUND - system has Wcecompat WCECOMPAT_INCLUDE_DIR - Wcecompat include directory WCECOMPAT_LIBRARIES - Libraries needed to use Wcecompat Copyright (c) 2010, Andreas Holzammer, <andy@kdab.com> Redistribution and use is allowed according to the terms of the BSD license. FindX11 Find X11 installation Try to find X11 on UNIX systems. The following values are defined X11_FOUND - True if X11 is available X11_INCLUDE_DIR - include directories to use X11 X11_LIBRARIES - link against these to use X11 and also the following more fine grained variables: X11_ICE_INCLUDE_PATH, X11_ICE_LIB, X11_ICE_FOUND X11_SM_INCLUDE_PATH, X11_SM_LIB, X11_SM_FOUND X11_X11_INCLUDE_PATH, X11_X11_LIB X11_Xaccessrules_INCLUDE_PATH, X11_Xaccess_FOUND X11_Xaccessstr_INCLUDE_PATH, X11_Xaccess_FOUND X11_Xau_INCLUDE_PATH, X11_Xau_LIB, X11_Xau_FOUND X11_Xcomposite_INCLUDE_PATH, X11_Xcomposite_LIB, X11_Xcomposite_FOUND X11_Xcursor_INCLUDE_PATH, X11_Xcursor_LIB, X11_Xcursor_FOUND X11_Xdamage_INCLUDE_PATH, X11_Xdamage_LIB, X11_Xdamage_FOUND X11_Xdmcp_INCLUDE_PATH, X11_Xdmcp_LIB, X11_Xdmcp_FOUND X11_Xext_LIB, X11_Xext_FOUND X11_dpms_INCLUDE_PATH, (in X11_Xext_LIB), X11_dpms_FOUND X11_XShm_INCLUDE_PATH, (in X11_Xext_LIB), X11_XShm_FOUND X11_Xshape_INCLUDE_PATH, (in X11_Xext_LIB), X11_Xshape_FOUND X11_xf86misc_INCLUDE_PATH, X11_Xxf86misc_LIB, X11_xf86misc_FOUND X11_xf86vmode_INCLUDE_PATH, X11_xf86vmode_FOUND X11_Xfixes_INCLUDE_PATH, X11_Xfixes_LIB, X11_Xfixes_FOUND X11_Xft_INCLUDE_PATH, X11_Xft_LIB, X11_Xft_FOUND X11_Xinerama_INCLUDE_PATH, X11_Xinerama_LIB, X11_Xinerama_FOUND X11_Xinput_INCLUDE_PATH, X11_Xinput_LIB, X11_Xinput_FOUND X11_Xkb_INCLUDE_PATH, X11_Xkb_FOUND X11_Xkblib_INCLUDE_PATH, X11_Xkb_FOUND X11_Xkbfile_INCLUDE_PATH, X11_Xkbfile_LIB, X11_Xkbfile_FOUND X11_Xpm_INCLUDE_PATH, X11_Xpm_LIB, X11_Xpm_FOUND X11_XTest_INCLUDE_PATH, X11_XTest_LIB, X11_XTest_FOUND X11_Xrandr_INCLUDE_PATH, X11_Xrandr_LIB, X11_Xrandr_FOUND X11_Xrender_INCLUDE_PATH, X11_Xrender_LIB, X11_Xrender_FOUND X11_Xscreensaver_INCLUDE_PATH, X11_Xscreensaver_LIB, X11_Xscreensaver_FOUND X11_Xt_INCLUDE_PATH, X11_Xt_LIB, X11_Xt_FOUND X11_Xutil_INCLUDE_PATH, X11_Xutil_FOUND X11_Xv_INCLUDE_PATH, X11_Xv_LIB, X11_Xv_FOUND X11_XSync_INCLUDE_PATH, (in X11_Xext_LIB), X11_XSync_FOUND FindXine Try to find the XINE library Once done this will define XINE_FOUND - system has the XINE library XINE_VERSION - XINE version XINE_BUGFIX_VERSION - the XINE bugfix version XINE_INCLUDE_DIR - the XINE include directory XINE_LIBRARY - The libraries needed to use XINE XINE_XCB_FOUND - libxine can use XCB for video output FindXmms Search xmms Once done this will define XMMS_FOUND - system has xmms XMMS_INCLUDE_DIRS - the xmms include directory XMMS_LIBRARIES - Link these to use xmms XMMS_LDFLAGS - for compatibility only, same as XMMS_LIBRARIES KDE4Macros for documentation look at FindKDE4Internal.cmake MacroAddCompileFlags MACRO_ADD_COMPILE_FLAGS(<_target> "flags...") MacroAddLinkFlags MACRO_ADD_LINK_FLAGS(<_target> "flags...") MacroAdditionalCleanFiles MACRO_ADDITIONAL_CLEAN_FILES(files...) MACRO_OPTIONAL_FIND_PACKAGE( <name> [QUIT] ) MacroAppendIf MACRO_APPEND_IF(CONDITION VAR VALUE1...VALUEN ) This convenience macro appends the values VALUE1 up to VALUEN to the list given in VAR, but only if the variable CONDITION is TRUE: usage example: IF(SOMELIB_FOUND) SET(my_sources ${my_sources} somefile.c someotherfile.c) ENDIF(SOMELIB_FOUND) becomes: MACRO_APPEND_IF(SOMELIB_FOUND my_sources somefile.c someotherfile.c) MacroBoolTo01 MACRO_BOOL_TO_01( VAR RESULT0 ... RESULTN ) This macro evaluates its first argument and sets all the given vaiables either to 0 or 1 depending on the value of the first one MacroEnsureOutOfSourceBuild MACRO_ENSURE_OUT_OF_SOURCE_BUILD(<errorMessage>) MACRO_ENSURE_OUT_OF_SOURCE_BUILD(<errorMessage>) Call this macro in your project if you want to enforce out-of-source builds. If an in-source build is detected, it will abort with the given error message. This macro works in any of the CMakeLists.txt of your project, but the recommended location to call this is close to the beginning of the top level CMakeLists.txt MacroEnsureVersion This file defines the following macros for developers to use in ensuring that installed software is of the right version: MACRO_ENSURE_VERSION - test that a version number is greater than or equal to some minimum MACRO_ENSURE_VERSION_RANGE - test that a version number is greater than or equal to some minimum and less than some maximum MACRO_ENSURE_VERSION2 - deprecated, do not use in new code MacroLibrary include MacroLibrary offers a collection of macros which extend the built-in cmake commands MacroLogFeature This file defines the Feature Logging macros. MACRO_LOG_FEATURE(VAR FEATURE DESCRIPTION URL [REQUIRED [MIN_VERSION [COMMENTS]]]) Logs the information so that it can be displayed at the end of the configure run VAR : TRUE or FALSE, indicating whether the feature is supported FEATURE: name of the feature, e.g. "libjpeg" DESCRIPTION: description what this feature provides URL: home page REQUIRED: TRUE or FALSE, indicating whether the featue is required MIN_VERSION: minimum version number. empty string if unneeded COMMENTS: More info you may want to provide. empty string if unnecessary MACRO_DISPLAY_FEATURE_LOG() Call this to display the collected results. Exits CMake with a FATAL error message if a required feature is missing Example: INCLUDE(MacroLogFeature) FIND_PACKAGE(JPEG) MACRO_LOG_FEATURE(JPEG_FOUND "libjpeg" "Support JPEG images" "//www.ijg.org" TRUE "3.2a" "") ... MACRO_DISPLAY_FEATURE_LOG() MacroOptionalAddSubdirectory MACRO_OPTIONAL_ADD_SUBDIRECTORY() combines ADD_SUBDIRECTORY() with an OPTION() MACRO_OPTIONAL_ADD_SUBDIRECTORY( <dir> ) If you use MACRO_OPTIONAL_ADD_SUBDIRECTORY() instead of ADD_SUBDIRECTORY(), this will have two effects 1 - CMake will not complain if the directory doesn't exist This makes sense if you want to distribute just one of the subdirs in a source package, e.g. just one of the subdirs in kdeextragear. 2 - If the directory exists, it will offer an option to skip the subdirectory. This is useful if you want to compile only a subset of all directories. If the CMake variable DISABLE_ALL_OPTIONAL_SUBDIRECTORIES is set to TRUE for the first CMake run on the project, all optional subdirectories will be disabled by default (but can of course be enabled via the respective options). E.g. the following will disable all optional subdirectories except the one named "kcalc": $ cmake -DDISABLE_ALL_OPTIONAL_SUBDIRECTORIES=TRUE -DBUILD_kcalc=TRUE <srcdir> MacroOptionalDependPackage Search if cmake module is installed in computer cmake will not fail but signal that we must install depend package before. add as previously name of cmake module "_name" and define package needed "_module_needed" if return DEPEND_PACKAGE_${_name} MacroOptionalFindPackage MACRO_OPTIONAL_FIND_PACKAGE() combines FIND_PACKAGE() with an OPTION() MACRO_OPTIONAL_FIND_PACKAGE( <name> [QUIT] ) This macro is a combination of OPTION() and FIND_PACKAGE(), it works like FIND_PACKAGE(), but additionally it automatically creates an option name WITH_<name>, which can be disabled via the cmake GUI. or via -DWITH_<name>=OFF The standard <name>_FOUND variables can be used in the same way as when using the normal FIND_PACKAGE() MacroPushRequiredVars this module defines two macros: MACRO_PUSH_REQUIRED_VARS() and MACRO_POP_REQUIRED_VARS() use these if you call cmake macros which use any of the CMAKE_REQUIRED_XXX variables Usage: MACRO_PUSH_REQUIRED_VARS() SET(CMAKE_REQUIRED_DEFINITIONS ${CMAKE_REQUIRED_DEFINITIONS} -DSOME_MORE_DEF) CHECK_FUNCTION_EXISTS(...) MACRO_POP_REQUIRED_VARS() MacroWriteBasicCMakeVersionFile MACRO_WRITE_BASIC_CMAKE_VERSION_FILE( _filename _major _minor _patch) Writes a file for use as <package>ConfigVersion.cmake file to <_filename>. See the documentation of FIND_PACKAGE() for details on this. _filename is the output filename, it should be in the build tree. _major is the major version number of the project to be installed _minor is the minor version number of the project to be installed _patch is the patch version number of the project to be installed NepomukAddOntologyClasses Use the Nepomuk resource class generator to generate convinient Resource subclasses from ontologies. Usage: NEPOMUK_ADD_ONTOLOGY_CLASSES(<sources-var> [FAST] [ONTOLOGIES] <onto-file1> [<onto-file2> ...] [CLASSES <class1> [<class2> ...]] [VISIBILITY <visibility-name>] ) If FAST is specified the rcgen parameter --fast will be used which results in resource classes not based on Nepomuk::Resource but on a custom class which does not perform any checks and simply writes the data to Nepomuk (hence the name fast). The optional CLASSES parameter allows to specify the classes to be generated (RDF URIs) in case one does not want all classes in the ontologies to be generated. The optional VISIBILITY parameter can only be used in non-fast mode and allows to set the gcc visibility to make the generated classes usable in a publically exported API. The <visibility-name> is used to create the name of the export macro and the export include file. Thus, when using "VISIBILITY foobar" include file "foobar_export.h" needs to define FOOBAR_EXPORT. Copyright (c) 2009 Sebastian Trueg <trueg@kde.org> Redistribution and use is allowed according to the terms of the BSD license. For details see the accompanying COPYING-CMAKE-SCRIPTS file. NepomukMacros This file contains the following macros: NEPOMUK_GENERATE_FROM_ONTOLOGY Parameters: ontofile - Path to the NRL ontology defining the resources to be generated. targetdir - Folder to which the generated sources should be written. out_headers - Variable which will be filled with the names of all generated headers. out_sources - Variable which will be filled with the names of all generated sources. out_includes - Variable which will be filled with complete include statements of all generated resource classes. In addition to the parameters an arbitrary number of template filenames can be set as arguments In case of success NEPOMUK_RESOURCES_GENERATED is true, otherwise false PythonMacros Python macros ~~~~~~~~~~~~~ Copyright (c) 2007, Simon Edwards <simon@simonzone.com> Redistribution and use is allowed according to the terms of the BSD license. For details see the accompanying COPYING-CMAKE-SCRIPTS file. This file defines the following macros: PYTHON_INSTALL (SOURCE_FILE DESINATION_DIR) Install the SOURCE_FILE, which is a Python .py file, into the destination directory during install. The file will be byte compiled and both the .py file and .pyc file will be installed. Qt4ConfigDependentSettings This file is included by FindQt4.cmake, don't include it directly. Qt4Macros This file is included by FindQt4.cmake, don't include it directly. SIPMacros Macros for SIP ~~~~~~~~~~~~~~ Copyright (c) 2007, Simon Edwards <simon@simonzone.com> Redistribution and use is allowed according to the terms of the BSD license. For details see the accompanying COPYING-CMAKE-SCRIPTS file. SIP website: //www.riverbankcomputing.co.uk/sip/index.php This file defines the following macros: ADD_SIP_PYTHON_MODULE (MODULE_NAME MODULE_SIP [library1, libaray2, ...]) Specifies a SIP file to be built into a Python module and installed. MODULE_NAME is the name of Python module including any path name. (e.g. os.sys, Foo.bar etc). MODULE_SIP the path and filename of the .sip file to process and compile. libraryN are libraries that the Python module, which is typically a shared library, should be linked to. The built module will also be install into Python's site-packages directory. The behaviour of the ADD_SIP_PYTHON_MODULE macro can be controlled by a number of variables: SIP_INCLUDES - List of directories which SIP will scan through when looking for included .sip files. (Corresponds to the -I option for SIP.) SIP_TAGS - List of tags to define when running SIP. (Corresponds to the -t option for SIP.) SIP_CONCAT_PARTS - An integer which defines the number of parts the C++ code of each module should be split into. Defaults to 8. (Corresponds to the -j option for SIP.) SIP_DISABLE_FEATURES - List of feature names which should be disabled running SIP. (Corresponds to the -x option for SIP.) SIP_EXTRA_OPTIONS - Extra command line options which should be passed on to SIP. Win32Macros win32 macros ADDEXPLORERWRAPPER(project) Exists only under Win32 ! addExplorerWrapper creates batch files for fast access to the build environment from the win32 explorer. For mingw and nmake projects it opens a command shell, for Visual Studio IDE's (at least tested with VS 8 2005) it opens the related .sln file with paths setting specified at configure time. create_exe_symlink Create an executable symlink to a Python script. This also sets the target script's permission bits.

SEE ALSO

ccmake(1), cpack(1), ctest(1), cmakecommands(1), cmakecompat(1), cmakemodules(1), cmakeprops(1), cmakevars(1) The following resources are available to get help using CMake: Home Page //www.cmake.org The primary starting point for learning about CMake. Frequently Asked Questions //www.cmake.org/Wiki/CMake_FAQ A Wiki is provided containing answers to frequently asked questions. Online Documentation //www.cmake.org/HTML/Documentation.html Links to available documentation may be found on this web page. Mailing List //www.cmake.org/HTML/MailingLists.html For help and discussion about using cmake, a mailing list is provided at cmake@cmake.org. The list is member-post-only but one may sign up on the CMake web page. Please first read the full documentation at //www.cmake.org before posting questions to the list. Summary of helpful links: Home: //www.cmake.org Docs: //www.cmake.org/HTML/Documentation.html Mail: //www.cmake.org/HTML/MailingLists.html FAQ: //www.cmake.org/Wiki/CMake_FAQ KDECMAKE(1)
 
 
 

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