CPack 2.8.8 Documentation

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Master Index CMake 2.8.8

Name

  cpack - Packaging driver provided by CMake.

Usage

  cpack -G <generator> [options]

Description

The "cpack" executable is the CMake packaging program. CMake-generated build trees created for projects that use the INSTALL_* commands have packaging support. This program will generate the package.

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.

Options

  • -G <generator>: Use the specified generator to generate package.

    CPack may support multiple native packaging systems on certain platforms. A generator is responsible for generating input files for particular system and invoking that systems. Possible generator names are specified in the Generators section.

  • -C <Configuration>: Specify the project configuration

    This option specifies the configuration that the project was build with, for example 'Debug', 'Release'.

  • -D <var>=<value>: Set a CPack variable.

    Set a variable that can be used by the generator.

  • --config <config file>: Specify the config file.

    Specify the config file to use to create the package. By default CPackConfig.cmake in the current directory will be used.

  • --verbose,-V: enable verbose output

    Run cpack with verbose output.

  • --debug: enable debug output (for CPack developers)

    Run cpack with debug output (for CPack developers).

  • -P <package name>: override/define CPACK_PACKAGE_NAME

    If the package name is not specified on cpack commmand line thenCPack.cmake defines it as CMAKE_PROJECT_NAME

  • -R <package version>: override/define CPACK_PACKAGE_VERSION

    If version is not specified on cpack command line thenCPack.cmake defines it from CPACK_PACKAGE_VERSION_[MAJOR|MINOR|PATCH]look into CPack.cmake for detail

  • -B <package directory>: override/define CPACK_PACKAGE_DIRECTORY

    The directory where CPack will be doing its packaging work.The resulting package will be found there. Inside this directoryCPack creates '_CPack_Packages' sub-directory which is theCPack temporary directory.

  • --vendor <vendor name>: override/define CPACK_PACKAGE_VENDOR

    If vendor is not specified on cpack command line (or inside CMakeLists.txt) thenCPack.cmake defines it with a default value

  • --help-command cmd [file]: Print help for a single command and exit.

    Full documentation specific to the given command is displayed. If a file is specified, the documentation is written into and the output format is determined depending on the filename suffix. Supported are man page, HTML, DocBook and plain text.

  • --help-command-list [file]: List available commands and exit.

    The list contains all commands for which help may be obtained by using the --help-command argument followed by a command name. If a file is specified, the documentation is written into and the output format is determined depending on the filename suffix. Supported are man page, HTML, DocBook and plain text.

  • --help-commands [file]: Print help for all commands and exit.

    Full documentation specific for all current command is displayed.If a file is specified, the documentation is written into and the output format is determined depending on the filename suffix. Supported are man page, HTML, DocBook and plain text.

  • --help-variable var [file]: Print help for a single variable and exit.

    Full documentation specific to the given variable is displayed.If a file is specified, the documentation is written into and the output format is determined depending on the filename suffix. Supported are man page, HTML, DocBook and plain text.

  • --help-variable-list [file]: List documented variables and exit.

    The list contains all variables for which help may be obtained by using the --help-variable argument followed by a variable name. If a file is specified, the help is written into it.If a file is specified, the documentation is written into and the output format is determined depending on the filename suffix. Supported are man page, HTML, DocBook and plain text.

  • --help-variables [file]: Print help for all variables and exit.

    Full documentation for all variables is displayed.If a file is specified, the documentation is written into and the output format is determined depending on the filename suffix. Supported are man page, HTML, DocBook and plain text.

  • --copyright [file]: Print the CMake copyright and exit.

    If a file is specified, the copyright is written into it.

  • --help,-help,-usage,-h,-H,/?: Print usage information and exit.

    Usage describes the basic command line interface and its options.

  • --help-full [file]: Print full help and exit.

    Full help displays most of the documentation provided by the UNIX man page. It is provided for use on non-UNIX platforms, but is also convenient if the man page is not installed. If a file is specified, the help is written into it.

  • --help-html [file]: Print full help in HTML format.

    This option is used by CMake authors to help produce web pages. If a file is specified, the help is written into it.

  • --help-man [file]: Print full help as a UNIX man page and exit.

    This option is used by the cmake build to generate the UNIX man page. If a file is specified, the help is written into it.

  • --version,-version,/V [file]: Show program name/version banner and exit.

    If a file is specified, the version is written into it.

Generators

  • NSIS: Null Soft Installer
  • STGZ: Self extracting Tar GZip compression
  • TBZ2: Tar BZip2 compression
  • TGZ: Tar GZip compression
  • TZ: Tar Compress compression
  • ZIP: ZIP file format

Commands

  • cpack_add_component: Describes a CPack installation component named by the COMPONENT argument to a CMake INSTALL command.
         cpack_add_component(compname
    [DISPLAY_NAME name]
    [DESCRIPTION description]
    [HIDDEN | REQUIRED | DISABLED ]
    [GROUP group]
    [DEPENDS comp1 comp2 ... ]
    [INSTALL_TYPES type1 type2 ... ]
    [DOWNLOADED]
    [ARCHIVE_FILE filename])


       The cmake_add_component command describes an installation
    component, which the user can opt to install or remove as part of
    the graphical installation process. compname is the name of the
    component, as provided to the COMPONENT argument of one or more
    CMake INSTALL commands.


       DISPLAY_NAME is the displayed name of the component, used in
    graphical installers to display the component name. This value can
    be any string.


       DESCRIPTION is an extended description of the component, used in
    graphical installers to give the user additional information about
    the component. Descriptions can span multiple lines using "\n" as
    the line separator. Typically, these descriptions should be no
    more than a few lines long.


       HIDDEN indicates that this component will be hidden in the
    graphical installer, so that the user cannot directly change
    whether it is installed or not.


       REQUIRED indicates that this component is required, and therefore
    will always be installed. It will be visible in the graphical
    installer, but it cannot be unselected. (Typically, required
    components are shown greyed out).


       DISABLED indicates that this component should be disabled
    (unselected) by default. The user is free to select this component
    for installation, unless it is also HIDDEN.


       DEPENDS lists the components on which this component depends. If
    this component is selected, then each of the components listed
    must also be selected. The dependency information is encoded
    within the installer itself, so that users cannot install
    inconsitent sets of components.


       GROUP names the component group of which this component is a
    part. If not provided, the component will be a standalone
    component, not part of any component group. Component groups are
    described with the cpack_add_component_group command, detailed
    below.


       INSTALL_TYPES lists the installation types of which this component
    is a part. When one of these installations types is selected, this
    component will automatically be selected. Installation types are
    described with the cpack_add_install_type command, detailed below.


       DOWNLOADED indicates that this component should be downloaded
    on-the-fly by the installer, rather than packaged in with the
    installer itself. For more information, see the cpack_configure_downloads
    command.


       ARCHIVE_FILE provides a name for the archive file created by CPack
    to be used for downloaded components. If not supplied, CPack will
    create a file with some name based on CPACK_PACKAGE_FILE_NAME and
    the name of the component. See cpack_configure_downloads for more
    information.
  • cpack_add_component_group: Describes a group of related CPack installation components.
         cpack_add_component_group(groupname
    [DISPLAY_NAME name]
    [DESCRIPTION description]
    [PARENT_GROUP parent]
    [EXPANDED]
    [BOLD_TITLE])


       The cpack_add_component_group describes a group of installation
    components, which will be placed together within the listing of
    options. Typically, component groups allow the user to
    select/deselect all of the components within a single group via a
    single group-level option. Use component groups to reduce the
    complexity of installers with many options. groupname is an
    arbitrary name used to identify the group in the GROUP argument of
    the cpack_add_component command, which is used to place a
    component in a group. The name of the group must not conflict with
    the name of any component.


       DISPLAY_NAME is the displayed name of the component group, used in
    graphical installers to display the component group name. This
    value can be any string.


       DESCRIPTION is an extended description of the component group,
    used in graphical installers to give the user additional
    information about the components within that group. Descriptions
    can span multiple lines using "\n" as the line
    separator. Typically, these descriptions should be no more than a
    few lines long.


       PARENT_GROUP, if supplied, names the parent group of this group.
    Parent groups are used to establish a hierarchy of groups,
    providing an arbitrary hierarchy of groups.


       EXPANDED indicates that, by default, the group should show up as
    "expanded", so that the user immediately sees all of the
    components within the group. Otherwise, the group will initially
    show up as a single entry.


       BOLD_TITLE indicates that the group title should appear in bold,
    to call the user's attention to the group.
  • cpack_add_install_type: Add a new installation type containing a set of predefined component selections to the graphical installer.
         cpack_add_install_type(typename
    [DISPLAY_NAME name])


       The cpack_add_install_type command identifies a set of preselected
    components that represents a common use case for an
    application. For example, a "Developer" install type might include
    an application along with its header and library files, while an
    "End user" install type might just include the application's
    executable. Each component identifies itself with one or more
    install types via the INSTALL_TYPES argument to
    cpack_add_component.


       DISPLAY_NAME is the displayed name of the install type, which will
    typically show up in a drop-down box within a graphical
    installer. This value can be any string.
  • cpack_configure_downloads: Configure CPack to download selected components on-the-fly as part of the installation process.
         cpack_configure_downloads(site
    [UPLOAD_DIRECTORY dirname]
    [ALL]
    [ADD_REMOVE|NO_ADD_REMOVE])


       The cpack_configure_downloads command configures installation-time
    downloads of selected components. For each downloadable component,
    CPack will create an archive containing the contents of that
    component, which should be uploaded to the given site. When the
    user selects that component for installation, the installer will
    download and extract the component in place. This feature is
    useful for creating small installers that only download the
    requested components, saving bandwidth. Additionally, the
    installers are small enough that they will be installed as part of
    the normal installation process, and the "Change" button in
    Windows Add/Remove Programs control panel will allow one to add or
    remove parts of the application after the original
    installation. On Windows, the downloaded-components functionality
    requires the ZipDLL plug-in for NSIS, available at:


         http://nsis.sourceforge.net/ZipDLL_plug-in


       On Mac OS X, installers that download components on-the-fly can
    only be built and installed on system using Mac OS X 10.5 or
    later.


       The site argument is a URL where the archives for downloadable
    components will reside, e.g., http://www.cmake.org/files/2.6.1/installer/
    All of the archives produced by CPack should be uploaded to that location.


       UPLOAD_DIRECTORY is the local directory where CPack will create the
    various archives for each of the components. The contents of this
    directory should be uploaded to a location accessible by the URL given
    in the site argument. If omitted, CPack will use the directory
    CPackUploads inside the CMake binary directory to store the generated
    archives.


       The ALL flag indicates that all components be downloaded. Otherwise, only
    those components explicitly marked as DOWNLOADED or that have a specified
    ARCHIVE_FILE will be downloaded. Additionally, the ALL option implies
    ADD_REMOVE (unless NO_ADD_REMOVE is specified).


       ADD_REMOVE indicates that CPack should install a copy of the installer
    that can be called from Windows' Add/Remove Programs dialog (via the
    "Modify" button) to change the set of installed components. NO_ADD_REMOVE
    turns off this behavior. This option is ignored on Mac OS X.
  • break: Break from an enclosing foreach or while loop.
      break()

    Breaks from an enclosing foreach loop or while loop

  • cmake_minimum_required: Set the minimum required version of cmake for a project.
      cmake_minimum_required(VERSION major[.minor[.patch[.tweak]]]
    [FATAL_ERROR])

    If the current version of CMake is lower than that required it will stop processing the project and report an error. When a version higher than 2.4 is specified the command implicitly invokes

      cmake_policy(VERSION major[.minor[.patch[.tweak]]])

    which sets the cmake policy version level to the version specified. When version 2.4 or lower is given the command implicitly invokes

      cmake_policy(VERSION 2.4)

    which enables compatibility features for CMake 2.4 and lower.

    The FATAL_ERROR option is accepted but ignored by CMake 2.6 and higher. It should be specified so CMake versions 2.4 and lower fail with an error instead of just a warning.

  • cmake_policy: Manage CMake Policy settings.

    As CMake evolves it is sometimes necessary to change existing behavior in order to fix bugs or improve implementations of existing features. The CMake Policy mechanism is designed to help keep existing projects building as new versions of CMake introduce changes in behavior. Each new policy (behavioral change) is given an identifier of the form "CMP<NNNN>" where "<NNNN>" is an integer index. Documentation associated with each policy describes the OLD and NEW behavior and the reason the policy was introduced. Projects may set each policy to select the desired behavior. When CMake needs to know which behavior to use it checks for a setting specified by the project. If no setting is available the OLD behavior is assumed and a warning is produced requesting that the policy be set.

    The cmake_policy command is used to set policies to OLD or NEW behavior. While setting policies individually is supported, we encourage projects to set policies based on CMake versions.

      cmake_policy(VERSION major.minor[.patch[.tweak]])

    Specify that the current CMake list file is written for the given version of CMake. All policies introduced in the specified version or earlier will be set to use NEW behavior. All policies introduced after the specified version will be unset (unless variable CMAKE_POLICY_DEFAULT_CMP<NNNN> sets a default). This effectively requests behavior preferred as of a given CMake version and tells newer CMake versions to warn about their new policies. The policy version specified must be at least 2.4 or the command will report an error. In order to get compatibility features supporting versions earlier than 2.4 see documentation of policy CMP0001.

      cmake_policy(SET CMP<NNNN> NEW)
    cmake_policy(SET CMP<NNNN> OLD)

    Tell CMake to use the OLD or NEW behavior for a given policy. Projects depending on the old behavior of a given policy may silence a policy warning by setting the policy state to OLD. Alternatively one may fix the project to work with the new behavior and set the policy state to NEW.

      cmake_policy(GET CMP<NNNN> <variable>)

    Check whether a given policy is set to OLD or NEW behavior. The output variable value will be "OLD" or "NEW" if the policy is set, and empty otherwise.

    CMake keeps policy settings on a stack, so changes made by the cmake_policy command affect only the top of the stack. A new entry on the policy stack is managed automatically for each subdirectory to protect its parents and siblings. CMake also manages a new entry for scripts loaded by include() and find_package() commands except when invoked with the NO_POLICY_SCOPE option (see also policy CMP0011). The cmake_policy command provides an interface to manage custom entries on the policy stack:

      cmake_policy(PUSH)
    cmake_policy(POP)

    Each PUSH must have a matching POP to erase any changes. This is useful to make temporary changes to policy settings.

    Functions and macros record policy settings when they are created and use the pre-record policies when they are invoked. If the function or macro implementation sets policies, the changes automatically propagate up through callers until they reach the closest nested policy stack entry.

  • configure_file: Copy a file to another location and modify its contents.
      configure_file(<input> <output>
    [COPYONLY] [ESCAPE_QUOTES] [@ONLY]
    [NEWLINE_STYLE [UNIX|DOS|WIN32|LF|CRLF] ])

    Copies a file <input> to file <output> and substitutes variable values referenced in the file content. If <input> is a relative path it is evaluated with respect to the current source directory. The <input> must be a file, not a directory. If <output> is a relative path it is evaluated with respect to the current binary directory. If <output> names an existing directory the input file is placed in that directory with its original name.

    This command replaces any variables in the input file referenced as ${VAR} or @VAR@ with their values as determined by CMake. If a variable is not defined, it will be replaced with nothing. If COPYONLY is specified, then no variable expansion will take place. If ESCAPE_QUOTES is specified then any substituted quotes will be C-style escaped. The file will be configured with the current values of CMake variables. If @ONLY is specified, only variables of the form @VAR@ will be replaces and ${VAR} will be ignored. This is useful for configuring scripts that use ${VAR}. Any occurrences of #cmakedefine VAR will be replaced with either #define VAR or /* #undef VAR */ depending on the setting of VAR in CMake. Any occurrences of #cmakedefine01 VAR will be replaced with either #define VAR 1 or #define VAR 0 depending on whether VAR evaluates to TRUE or FALSE in CMake.

    With NEWLINE_STYLE the line ending could be adjusted:

        'UNIX' or 'LF' for \n, 'DOS', 'WIN32' or 'CRLF' for \r\n.

    COPYONLY must not be used with NEWLINE_STYLE.

  • else: Starts the else portion of an if block.
      else(expression)

    See the if command.

  • elseif: Starts the elseif portion of an if block.
      elseif(expression)

    See the if command.

  • endforeach: Ends a list of commands in a FOREACH block.
      endforeach(expression)

    See the FOREACH command.

  • endfunction: Ends a list of commands in a function block.
      endfunction(expression)

    See the function command.

  • endif: Ends a list of commands in an if block.
      endif(expression)

    See the if command.

  • endmacro: Ends a list of commands in a macro block.
      endmacro(expression)

    See the macro command.

  • endwhile: Ends a list of commands in a while block.
      endwhile(expression)

    See the while command.

  • execute_process: Execute one or more child processes.
      execute_process(COMMAND <cmd1> [args1...]]
    [COMMAND <cmd2> [args2...] [...]]
    [WORKING_DIRECTORY <directory>]
    [TIMEOUT <seconds>]
    [RESULT_VARIABLE <variable>]
    [OUTPUT_VARIABLE <variable>]
    [ERROR_VARIABLE <variable>]
    [INPUT_FILE <file>]
    [OUTPUT_FILE <file>]
    [ERROR_FILE <file>]
    [OUTPUT_QUIET]
    [ERROR_QUIET]
    [OUTPUT_STRIP_TRAILING_WHITESPACE]
    [ERROR_STRIP_TRAILING_WHITESPACE])

    Runs the given sequence of one or more commands with the standard output of each process piped to the standard input of the next. A single standard error pipe is used for all processes. If WORKING_DIRECTORY is given the named directory will be set as the current working directory of the child processes. If TIMEOUT is given the child processes will be terminated if they do not finish in the specified number of seconds (fractions are allowed). If RESULT_VARIABLE is given the variable will be set to contain the result of running the processes. This will be an integer return code from the last child or a string describing an error condition. If OUTPUT_VARIABLE or ERROR_VARIABLE are given the variable named will be set with the contents of the standard output and standard error pipes respectively. If the same variable is named for both pipes their output will be merged in the order produced. If INPUT_FILE, OUTPUT_FILE, or ERROR_FILE is given the file named will be attached to the standard input of the first process, standard output of the last process, or standard error of all processes respectively. If OUTPUT_QUIET or ERROR_QUIET is given then the standard output or standard error results will be quietly ignored. If more than one OUTPUT_* or ERROR_* option is given for the same pipe the precedence is not specified. If no OUTPUT_* or ERROR_* options are given the output will be shared with the corresponding pipes of the CMake process itself.

    The execute_process command is a newer more powerful version of exec_program, but the old command has been kept for compatibility.

  • file: File manipulation command.
      file(WRITE filename "message to write"... )
    file(APPEND filename "message to write"... )
    file(READ filename variable [LIMIT numBytes] [OFFSET offset] [HEX])
    file(<MD5|SHA1|SHA224|SHA256|SHA384|SHA512> filename variable)
    file(STRINGS filename variable [LIMIT_COUNT num]
    [LIMIT_INPUT numBytes] [LIMIT_OUTPUT numBytes]
    [LENGTH_MINIMUM numBytes] [LENGTH_MAXIMUM numBytes]
    [NEWLINE_CONSUME] [REGEX regex]
    [NO_HEX_CONVERSION])
    file(GLOB variable [RELATIVE path] [globbing expressions]...)
    file(GLOB_RECURSE variable [RELATIVE path]
    [FOLLOW_SYMLINKS] [globbing expressions]...)
    file(RENAME <oldname> <newname>)
    file(REMOVE [file1 ...])
    file(REMOVE_RECURSE [file1 ...])
    file(MAKE_DIRECTORY [directory1 directory2 ...])
    file(RELATIVE_PATH variable directory file)
    file(TO_CMAKE_PATH path result)
    file(TO_NATIVE_PATH path result)
    file(DOWNLOAD url file [INACTIVITY_TIMEOUT timeout]
    [TIMEOUT timeout] [STATUS status] [LOG log] [SHOW_PROGRESS]
    [EXPECTED_MD5 sum])
    file(UPLOAD filename url [INACTIVITY_TIMEOUT timeout]
    [TIMEOUT timeout] [STATUS status] [LOG log] [SHOW_PROGRESS])

    WRITE will write a message into a file called 'filename'. It overwrites the file if it already exists, and creates the file if it does not exist.

    APPEND will write a message into a file same as WRITE, except it will append it to the end of the file

    READ will read the content of a file and store it into the variable. It will start at the given offset and read up to numBytes. If the argument HEX is given, the binary data will be converted to hexadecimal representation and this will be stored in the variable.

    MD5, SHA1, SHA224, SHA256, SHA384, and SHA512 will compute a cryptographic hash of the content of a file.

    STRINGS will parse a list of ASCII strings from a file and store it in a variable. Binary data in the file are ignored. Carriage return (CR) characters are ignored. It works also for Intel Hex and Motorola S-record files, which are automatically converted to binary format when reading them. Disable this using NO_HEX_CONVERSION.

    LIMIT_COUNT sets the maximum number of strings to return. LIMIT_INPUT sets the maximum number of bytes to read from the input file. LIMIT_OUTPUT sets the maximum number of bytes to store in the output variable. LENGTH_MINIMUM sets the minimum length of a string to return. Shorter strings are ignored. LENGTH_MAXIMUM sets the maximum length of a string to return. Longer strings are split into strings no longer than the maximum length. NEWLINE_CONSUME allows newlines to be included in strings instead of terminating them.

    REGEX specifies a regular expression that a string must match to be returned. Typical usage

      file(STRINGS myfile.txt myfile)

    stores a list in the variable "myfile" in which each item is a line from the input file.

    GLOB will generate a list of all files that match the globbing expressions and store it into the variable. Globbing expressions are similar to regular expressions, but much simpler. If RELATIVE flag is specified for an expression, the results will be returned as a relative path to the given path. (We do not recommend using GLOB to collect a list of source files from your source tree. If no CMakeLists.txt file changes when a source is added or removed then the generated build system cannot know when to ask CMake to regenerate.)

    Examples of globbing expressions include:

       *.cxx      - match all files with extension cxx
    *.vt? - match all files with extension vta,...,vtz
    f[3-5].txt - match files f3.txt, f4.txt, f5.txt

    GLOB_RECURSE will generate a list similar to the regular GLOB, except it will traverse all the subdirectories of the matched directory and match the files. Subdirectories that are symlinks are only traversed if FOLLOW_SYMLINKS is given or cmake policy CMP0009 is not set to NEW. See cmake --help-policy CMP0009 for more information.

    Examples of recursive globbing include:

       /dir/*.py  - match all python files in /dir and subdirectories

    MAKE_DIRECTORY will create the given directories, also if their parent directories don't exist yet

    RENAME moves a file or directory within a filesystem, replacing the destination atomically.

    REMOVE will remove the given files, also in subdirectories

    REMOVE_RECURSE will remove the given files and directories, also non-empty directories

    RELATIVE_PATH will determine relative path from directory to the given file.

    TO_CMAKE_PATH will convert path into a cmake style path with unix /. The input can be a single path or a system path like "$ENV{PATH}". Note the double quotes around the ENV call TO_CMAKE_PATH only takes one argument. This command will also convert the native list delimiters for a list of paths like the PATH environment variable.

    TO_NATIVE_PATH works just like TO_CMAKE_PATH, but will convert from a cmake style path into the native path style \ for windows and / for UNIX.

    DOWNLOAD will download the given URL to the given file. If LOG var is specified a log of the download will be put in var. If STATUS var is specified the status of the operation will be put in var. The status is returned in a list of length 2. The first element is the numeric return value for the operation, and the second element is a string value for the error. A 0 numeric error means no error in the operation. If TIMEOUT time is specified, the operation will timeout after time seconds, time should be specified as an integer. The INACTIVITY_TIMEOUT specifies an integer number of seconds of inactivity after which the operation should terminate. If EXPECTED_MD5 sum is specified, the operation will verify that the downloaded file's actual md5 sum matches the expected value. If it does not match, the operation fails with an error. If SHOW_PROGRESS is specified, progress information will be printed as status messages until the operation is complete.

    UPLOAD will upload the given file to the given URL. If LOG var is specified a log of the upload will be put in var. If STATUS var is specified the status of the operation will be put in var. The status is returned in a list of length 2. The first element is the numeric return value for the operation, and the second element is a string value for the error. A 0 numeric error means no error in the operation. If TIMEOUT time is specified, the operation will timeout after time seconds, time should be specified as an integer. The INACTIVITY_TIMEOUT specifies an integer number of seconds of inactivity after which the operation should terminate. If SHOW_PROGRESS is specified, progress information will be printed as status messages until the operation is complete.

    The file() command also provides COPY and INSTALL signatures:

      file(<COPY|INSTALL> files... DESTINATION <dir>
    [FILE_PERMISSIONS permissions...]
    [DIRECTORY_PERMISSIONS permissions...]
    [NO_SOURCE_PERMISSIONS] [USE_SOURCE_PERMISSIONS]
    [FILES_MATCHING]
    [[PATTERN <pattern> | REGEX <regex>]
    [EXCLUDE] [PERMISSIONS permissions...]] [...])

    The COPY signature copies files, directories, and symlinks to a destination folder. Relative input paths are evaluated with respect to the current source directory, and a relative destination is evaluated with respect to the current build directory. Copying preserves input file timestamps, and optimizes out a file if it exists at the destination with the same timestamp. Copying preserves input permissions unless explicit permissions or NO_SOURCE_PERMISSIONS are given (default is USE_SOURCE_PERMISSIONS). See the install(DIRECTORY) command for documentation of permissions, PATTERN, REGEX, and EXCLUDE options.

    The INSTALL signature differs slightly from COPY: it prints status messages, and NO_SOURCE_PERMISSIONS is default. Installation scripts generated by the install() command use this signature (with some undocumented options for internal use).

  • find_file: Find the full path to a file.
       find_file(<VAR> name1 [path1 path2 ...])

    This is the short-hand signature for the command that is sufficient in many cases. It is the same as find_file(<VAR> name1 [PATHS path1 path2 ...])

       find_file(
    <VAR>
    name | NAMES name1 [name2 ...]
    [HINTS path1 [path2 ... ENV var]]
    [PATHS path1 [path2 ... ENV var]]
    [PATH_SUFFIXES suffix1 [suffix2 ...]]
    [DOC "cache documentation string"]
    [NO_DEFAULT_PATH]
    [NO_CMAKE_ENVIRONMENT_PATH]
    [NO_CMAKE_PATH]
    [NO_SYSTEM_ENVIRONMENT_PATH]
    [NO_CMAKE_SYSTEM_PATH]
    [CMAKE_FIND_ROOT_PATH_BOTH |
    ONLY_CMAKE_FIND_ROOT_PATH |
    NO_CMAKE_FIND_ROOT_PATH]
    )

    This command is used to find a full path to named file. A cache entry named by <VAR> is created to store the result of this command. If the full path to a file is found the result is stored in the variable and the search will not be repeated unless the variable is cleared. If nothing is found, the result will be <VAR>-NOTFOUND, and the search will be attempted again the next time find_file is invoked with the same variable. The name of the full path to a file that is searched for is specified by the names listed after the NAMES argument. Additional search locations can be specified after the PATHS argument. If ENV var is found in the HINTS or PATHS section the environment variable var will be read and converted from a system environment variable to a cmake style list of paths. For example ENV PATH would be a way to list the system path variable. The argument after DOC will be used for the documentation string in the cache. PATH_SUFFIXES specifies additional subdirectories to check below each search path.

    If NO_DEFAULT_PATH is specified, then no additional paths are added to the search. If NO_DEFAULT_PATH is not specified, the search process is as follows:

    1. Search paths specified in cmake-specific cache variables. These are intended to be used on the command line with a -DVAR=value. This can be skipped if NO_CMAKE_PATH is passed.

       <prefix>/include for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_INCLUDE_PATH
    CMAKE_FRAMEWORK_PATH

    2. Search paths specified in cmake-specific environment variables. These are intended to be set in the user's shell configuration. This can be skipped if NO_CMAKE_ENVIRONMENT_PATH is passed.

       <prefix>/include for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_INCLUDE_PATH
    CMAKE_FRAMEWORK_PATH

    3. Search the paths specified by the HINTS option. These should be paths computed by system introspection, such as a hint provided by the location of another item already found. Hard-coded guesses should be specified with the PATHS option.

    4. Search the standard system environment variables. This can be skipped if NO_SYSTEM_ENVIRONMENT_PATH is an argument.

       PATH
    INCLUDE

    5. Search cmake variables defined in the Platform files for the current system. This can be skipped if NO_CMAKE_SYSTEM_PATH is passed.

       <prefix>/include for each <prefix> in CMAKE_SYSTEM_PREFIX_PATH
    CMAKE_SYSTEM_INCLUDE_PATH
    CMAKE_SYSTEM_FRAMEWORK_PATH

    6. Search the paths specified by the PATHS option or in the short-hand version of the command. These are typically hard-coded guesses.

    On Darwin or systems supporting OS X Frameworks, the cmake variable CMAKE_FIND_FRAMEWORK can be set to empty or one of the following:

       "FIRST"  - Try to find frameworks before standard
    libraries or headers. This is the default on Darwin.
    "LAST" - Try to find frameworks after standard
    libraries or headers.
    "ONLY" - Only try to find frameworks.
    "NEVER" - Never try to find frameworks.

    On Darwin or systems supporting OS X Application Bundles, the cmake variable CMAKE_FIND_APPBUNDLE can be set to empty or one of the following:

       "FIRST"  - Try to find application bundles before standard
    programs. This is the default on Darwin.
    "LAST" - Try to find application bundles after standard
    programs.
    "ONLY" - Only try to find application bundles.
    "NEVER" - Never try to find application bundles.

    The CMake variable CMAKE_FIND_ROOT_PATH specifies one or more directories to be prepended to all other search directories. This effectively "re-roots" the entire search under given locations. By default it is empty. It is especially useful when cross-compiling to point to the root directory of the target environment and CMake will search there too. By default at first the directories listed in CMAKE_FIND_ROOT_PATH and then the non-rooted directories will be searched. The default behavior can be adjusted by setting CMAKE_FIND_ROOT_PATH_MODE_INCLUDE. This behavior can be manually overridden on a per-call basis. By using CMAKE_FIND_ROOT_PATH_BOTH the search order will be as described above. If NO_CMAKE_FIND_ROOT_PATH is used then CMAKE_FIND_ROOT_PATH will not be used. If ONLY_CMAKE_FIND_ROOT_PATH is used then only the re-rooted directories will be searched.

    The default search order is designed to be most-specific to least-specific for common use cases. Projects may override the order by simply calling the command multiple times and using the NO_* options:

       find_file(<VAR> NAMES name PATHS paths... NO_DEFAULT_PATH)
    find_file(<VAR> NAMES name)

    Once one of the calls succeeds the result variable will be set and stored in the cache so that no call will search again.

  • find_library: Find a library.
       find_library(<VAR> name1 [path1 path2 ...])

    This is the short-hand signature for the command that is sufficient in many cases. It is the same as find_library(<VAR> name1 [PATHS path1 path2 ...])

       find_library(
    <VAR>
    name | NAMES name1 [name2 ...]
    [HINTS path1 [path2 ... ENV var]]
    [PATHS path1 [path2 ... ENV var]]
    [PATH_SUFFIXES suffix1 [suffix2 ...]]
    [DOC "cache documentation string"]
    [NO_DEFAULT_PATH]
    [NO_CMAKE_ENVIRONMENT_PATH]
    [NO_CMAKE_PATH]
    [NO_SYSTEM_ENVIRONMENT_PATH]
    [NO_CMAKE_SYSTEM_PATH]
    [CMAKE_FIND_ROOT_PATH_BOTH |
    ONLY_CMAKE_FIND_ROOT_PATH |
    NO_CMAKE_FIND_ROOT_PATH]
    )

    This command is used to find a library. A cache entry named by <VAR> is created to store the result of this command. If the library is found the result is stored in the variable and the search will not be repeated unless the variable is cleared. If nothing is found, the result will be <VAR>-NOTFOUND, and the search will be attempted again the next time find_library is invoked with the same variable. The name of the library that is searched for is specified by the names listed after the NAMES argument. Additional search locations can be specified after the PATHS argument. If ENV var is found in the HINTS or PATHS section the environment variable var will be read and converted from a system environment variable to a cmake style list of paths. For example ENV PATH would be a way to list the system path variable. The argument after DOC will be used for the documentation string in the cache. PATH_SUFFIXES specifies additional subdirectories to check below each search path.

    If NO_DEFAULT_PATH is specified, then no additional paths are added to the search. If NO_DEFAULT_PATH is not specified, the search process is as follows:

    1. Search paths specified in cmake-specific cache variables. These are intended to be used on the command line with a -DVAR=value. This can be skipped if NO_CMAKE_PATH is passed.

       <prefix>/lib/<arch> if CMAKE_LIBRARY_ARCHITECTURE is set, and
    <prefix>/lib for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_LIBRARY_PATH
    CMAKE_FRAMEWORK_PATH

    2. Search paths specified in cmake-specific environment variables. These are intended to be set in the user's shell configuration. This can be skipped if NO_CMAKE_ENVIRONMENT_PATH is passed.

       <prefix>/lib/<arch> if CMAKE_LIBRARY_ARCHITECTURE is set, and
    <prefix>/lib for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_LIBRARY_PATH
    CMAKE_FRAMEWORK_PATH

    3. Search the paths specified by the HINTS option. These should be paths computed by system introspection, such as a hint provided by the location of another item already found. Hard-coded guesses should be specified with the PATHS option.

    4. Search the standard system environment variables. This can be skipped if NO_SYSTEM_ENVIRONMENT_PATH is an argument.

       PATH
    LIB

    5. Search cmake variables defined in the Platform files for the current system. This can be skipped if NO_CMAKE_SYSTEM_PATH is passed.

       <prefix>/lib/<arch> if CMAKE_LIBRARY_ARCHITECTURE is set, and
    <prefix>/lib for each <prefix> in CMAKE_SYSTEM_PREFIX_PATH
    CMAKE_SYSTEM_LIBRARY_PATH
    CMAKE_SYSTEM_FRAMEWORK_PATH

    6. Search the paths specified by the PATHS option or in the short-hand version of the command. These are typically hard-coded guesses.

    On Darwin or systems supporting OS X Frameworks, the cmake variable CMAKE_FIND_FRAMEWORK can be set to empty or one of the following:

       "FIRST"  - Try to find frameworks before standard
    libraries or headers. This is the default on Darwin.
    "LAST" - Try to find frameworks after standard
    libraries or headers.
    "ONLY" - Only try to find frameworks.
    "NEVER" - Never try to find frameworks.

    On Darwin or systems supporting OS X Application Bundles, the cmake variable CMAKE_FIND_APPBUNDLE can be set to empty or one of the following:

       "FIRST"  - Try to find application bundles before standard
    programs. This is the default on Darwin.
    "LAST" - Try to find application bundles after standard
    programs.
    "ONLY" - Only try to find application bundles.
    "NEVER" - Never try to find application bundles.

    The CMake variable CMAKE_FIND_ROOT_PATH specifies one or more directories to be prepended to all other search directories. This effectively "re-roots" the entire search under given locations. By default it is empty. It is especially useful when cross-compiling to point to the root directory of the target environment and CMake will search there too. By default at first the directories listed in CMAKE_FIND_ROOT_PATH and then the non-rooted directories will be searched. The default behavior can be adjusted by setting CMAKE_FIND_ROOT_PATH_MODE_LIBRARY. This behavior can be manually overridden on a per-call basis. By using CMAKE_FIND_ROOT_PATH_BOTH the search order will be as described above. If NO_CMAKE_FIND_ROOT_PATH is used then CMAKE_FIND_ROOT_PATH will not be used. If ONLY_CMAKE_FIND_ROOT_PATH is used then only the re-rooted directories will be searched.

    The default search order is designed to be most-specific to least-specific for common use cases. Projects may override the order by simply calling the command multiple times and using the NO_* options:

       find_library(<VAR> NAMES name PATHS paths... NO_DEFAULT_PATH)
    find_library(<VAR> NAMES name)

    Once one of the calls succeeds the result variable will be set and stored in the cache so that no call will search again.

    If the library found is a framework, then VAR will be set to the full path to the framework <fullPath>/A.framework. When a full path to a framework is used as a library, CMake will use a -framework A, and a -F<fullPath> to link the framework to the target.

    If the global property FIND_LIBRARY_USE_LIB64_PATHS is set all search paths will be tested as normal, with "64/" appended, and with all matches of "lib/" replaced with "lib64/". This property is automatically set for the platforms that are known to need it if at least one of the languages supported by the PROJECT command is enabled.

  • find_package: Load settings for an external project.
      find_package(<package> [version] [EXACT] [QUIET] [MODULE]
    [[REQUIRED|COMPONENTS] [components...]]
    [OPTIONAL_COMPONENTS components...]
    [NO_POLICY_SCOPE])

    Finds and loads settings from an external project. <package>_FOUND will be set to indicate whether the package was found. When the package is found package-specific information is provided through variables documented by the package itself. The QUIET option disables messages if the package cannot be found. The MODULE option disables the second signature documented below. The REQUIRED option stops processing with an error message if the package cannot be found.

    A package-specific list of required components may be listed after the COMPONENTS option or directly after the REQUIRED option. Additional optional components may be listed after OPTIONAL_COMPONENTS. Available components and their influence on whether a package is considered to be found are defined by the target package.

    The [version] argument requests a version with which the package found should be compatible (format is major[.minor[.patch[.tweak]]]). The EXACT option requests that the version be matched exactly. If no [version] and/or component list is given to a recursive invocation inside a find-module, the corresponding arguments are forwarded automatically from the outer call (including the EXACT flag for [version]). Version support is currently provided only on a package-by-package basis (details below).

    User code should generally look for packages using the above simple signature. The remainder of this command documentation specifies the full command signature and details of the search process. Project maintainers wishing to provide a package to be found by this command are encouraged to read on.

    The command has two modes by which it searches for packages: "Module" mode and "Config" mode. Module mode is available when the command is invoked with the above reduced signature. CMake searches for a file called "Find<package>.cmake" in the CMAKE_MODULE_PATH followed by the CMake installation. If the file is found, it is read and processed by CMake. It is responsible for finding the package, checking the version, and producing any needed messages. Many find-modules provide limited or no support for versioning; check the module documentation. If no module is found and the MODULE option is not given the command proceeds to Config mode.

    The complete Config mode command signature is:

      find_package(<package> [version] [EXACT] [QUIET]
    [[REQUIRED|COMPONENTS] [components...]]
    [CONFIG|NO_MODULE]
    [NO_POLICY_SCOPE]
    [NAMES name1 [name2 ...]]
    [CONFIGS config1 [config2 ...]]
    [HINTS path1 [path2 ... ]]
    [PATHS path1 [path2 ... ]]
    [PATH_SUFFIXES suffix1 [suffix2 ...]]
    [NO_DEFAULT_PATH]
    [NO_CMAKE_ENVIRONMENT_PATH]
    [NO_CMAKE_PATH]
    [NO_SYSTEM_ENVIRONMENT_PATH]
    [NO_CMAKE_PACKAGE_REGISTRY]
    [NO_CMAKE_BUILDS_PATH]
    [NO_CMAKE_SYSTEM_PATH]
    [NO_CMAKE_SYSTEM_PACKAGE_REGISTRY]
    [CMAKE_FIND_ROOT_PATH_BOTH |
    ONLY_CMAKE_FIND_ROOT_PATH |
    NO_CMAKE_FIND_ROOT_PATH])

    The CONFIG option may be used to skip Module mode explicitly and switch to Config mode. It is synonymous to using NO_MODULE. Config mode is also implied by use of options not specified in the reduced signature.

    Config mode attempts to locate a configuration file provided by the package to be found. A cache entry called <package>_DIR is created to hold the directory containing the file. By default the command searches for a package with the name <package>. If the NAMES option is given the names following it are used instead of <package>. The command searches for a file called "<name>Config.cmake" or "<lower-case-name>-config.cmake" for each name specified. A replacement set of possible configuration file names may be given using the CONFIGS option. The search procedure is specified below. Once found, the configuration file is read and processed by CMake. Since the file is provided by the package it already knows the location of package contents. The full path to the configuration file is stored in the cmake variable <package>_CONFIG.

    All configuration files which have been considered by CMake while searching for an installation of the package with an appropriate version are stored in the cmake variable <package>_CONSIDERED_CONFIGS, the associated versions in <package>_CONSIDERED_VERSIONS.

    If the package configuration file cannot be found CMake will generate an error describing the problem unless the QUIET argument is specified. If REQUIRED is specified and the package is not found a fatal error is generated and the configure step stops executing. If <package>_DIR has been set to a directory not containing a configuration file CMake will ignore it and search from scratch.

    When the [version] argument is given Config mode will only find a version of the package that claims compatibility with the requested version (format is major[.minor[.patch[.tweak]]]). If the EXACT option is given only a version of the package claiming an exact match of the requested version may be found. CMake does not establish any convention for the meaning of version numbers. Package version numbers are checked by "version" files provided by the packages themselves. For a candidate package configuration file "<config-file>.cmake" the corresponding version file is located next to it and named either "<config-file>-version.cmake" or "<config-file>Version.cmake". If no such version file is available then the configuration file is assumed to not be compatible with any requested version. A basic version file containing generic version matching code can be created using the macro write_basic_package_version_file(), see its documentation for more details. When a version file is found it is loaded to check the requested version number. The version file is loaded in a nested scope in which the following variables have been defined:

      PACKAGE_FIND_NAME          = the <package> name
    PACKAGE_FIND_VERSION = full requested version string
    PACKAGE_FIND_VERSION_MAJOR = major version if requested, else 0
    PACKAGE_FIND_VERSION_MINOR = minor version if requested, else 0
    PACKAGE_FIND_VERSION_PATCH = patch version if requested, else 0
    PACKAGE_FIND_VERSION_TWEAK = tweak version if requested, else 0
    PACKAGE_FIND_VERSION_COUNT = number of version components, 0 to 4

    The version file checks whether it satisfies the requested version and sets these variables:

      PACKAGE_VERSION            = full provided version string
    PACKAGE_VERSION_EXACT = true if version is exact match
    PACKAGE_VERSION_COMPATIBLE = true if version is compatible
    PACKAGE_VERSION_UNSUITABLE = true if unsuitable as any version

    These variables are checked by the find_package command to determine whether the configuration file provides an acceptable version. They are not available after the find_package call returns. If the version is acceptable the following variables are set:

      <package>_VERSION       = full provided version string
    <package>_VERSION_MAJOR = major version if provided, else 0
    <package>_VERSION_MINOR = minor version if provided, else 0
    <package>_VERSION_PATCH = patch version if provided, else 0
    <package>_VERSION_TWEAK = tweak version if provided, else 0
    <package>_VERSION_COUNT = number of version components, 0 to 4

    and the corresponding package configuration file is loaded. When multiple package configuration files are available whose version files claim compatibility with the version requested it is unspecified which one is chosen. No attempt is made to choose a highest or closest version number.

    Config mode provides an elaborate interface and search procedure. Much of the interface is provided for completeness and for use internally by find-modules loaded by Module mode. Most user code should simply call

      find_package(<package> [major[.minor]] [EXACT] [REQUIRED|QUIET])

    in order to find a package. Package maintainers providing CMake package configuration files are encouraged to name and install them such that the procedure outlined below will find them without requiring use of additional options.

    CMake constructs a set of possible installation prefixes for the package. Under each prefix several directories are searched for a configuration file. The tables below show the directories searched. Each entry is meant for installation trees following Windows (W), UNIX (U), or Apple (A) conventions.

      <prefix>/                                               (W)
    <prefix>/(cmake|CMake)/ (W)
    <prefix>/<name>*/ (W)
    <prefix>/<name>*/(cmake|CMake)/ (W)
    <prefix>/(lib/<arch>|lib|share)/cmake/<name>*/ (U)
    <prefix>/(lib/<arch>|lib|share)/<name>*/ (U)
    <prefix>/(lib/<arch>|lib|share)/<name>*/(cmake|CMake)/ (U)

    On systems supporting OS X Frameworks and Application Bundles the following directories are searched for frameworks or bundles containing a configuration file:

      <prefix>/<name>.framework/Resources/                    (A)
    <prefix>/<name>.framework/Resources/CMake/ (A)
    <prefix>/<name>.framework/Versions/*/Resources/ (A)
    <prefix>/<name>.framework/Versions/*/Resources/CMake/ (A)
    <prefix>/<name>.app/Contents/Resources/ (A)
    <prefix>/<name>.app/Contents/Resources/CMake/ (A)

    In all cases the <name> is treated as case-insensitive and corresponds to any of the names specified (<package> or names given by NAMES). Paths with lib/<arch> are enabled if CMAKE_LIBRARY_ARCHITECTURE is set. If PATH_SUFFIXES is specified the suffixes are appended to each (W) or (U) directory entry one-by-one.

    This set of directories is intended to work in cooperation with projects that provide configuration files in their installation trees. Directories above marked with (W) are intended for installations on Windows where the prefix may point at the top of an application's installation directory. Those marked with (U) are intended for installations on UNIX platforms where the prefix is shared by multiple packages. This is merely a convention, so all (W) and (U) directories are still searched on all platforms. Directories marked with (A) are intended for installations on Apple platforms. The cmake variables CMAKE_FIND_FRAMEWORK and CMAKE_FIND_APPBUNDLE determine the order of preference as specified below.

    The set of installation prefixes is constructed using the following steps. If NO_DEFAULT_PATH is specified all NO_* options are enabled.

    1. Search paths specified in cmake-specific cache variables. These are intended to be used on the command line with a -DVAR=value. This can be skipped if NO_CMAKE_PATH is passed.

       CMAKE_PREFIX_PATH
    CMAKE_FRAMEWORK_PATH
    CMAKE_APPBUNDLE_PATH

    2. Search paths specified in cmake-specific environment variables. These are intended to be set in the user's shell configuration. This can be skipped if NO_CMAKE_ENVIRONMENT_PATH is passed.

       <package>_DIR
    CMAKE_PREFIX_PATH
    CMAKE_FRAMEWORK_PATH
    CMAKE_APPBUNDLE_PATH

    3. Search paths specified by the HINTS option. These should be paths computed by system introspection, such as a hint provided by the location of another item already found. Hard-coded guesses should be specified with the PATHS option.

    4. Search the standard system environment variables. This can be skipped if NO_SYSTEM_ENVIRONMENT_PATH is passed. Path entries ending in "/bin" or "/sbin" are automatically converted to their parent directories.

       PATH

    5. Search project build trees recently configured in a CMake GUI. This can be skipped if NO_CMAKE_BUILDS_PATH is passed. It is intended for the case when a user is building multiple dependent projects one after another.

    6. Search paths stored in the CMake user package registry. This can be skipped if NO_CMAKE_PACKAGE_REGISTRY is passed. On Windows a <package> may appear under registry key

      HKEY_CURRENT_USER\Software\Kitware\CMake\Packages\<package>

    as a REG_SZ value, with arbitrary name, that specifies the directory containing the package configuration file. On UNIX platforms a <package> may appear under the directory

      ~/.cmake/packages/<package>

    as a file, with arbitrary name, whose content specifies the directory containing the package configuration file. See the export(PACKAGE) command to create user package registry entries for project build trees.

    7. Search cmake variables defined in the Platform files for the current system. This can be skipped if NO_CMAKE_SYSTEM_PATH is passed.

       CMAKE_SYSTEM_PREFIX_PATH
    CMAKE_SYSTEM_FRAMEWORK_PATH
    CMAKE_SYSTEM_APPBUNDLE_PATH

    8. Search paths stored in the CMake system package registry. This can be skipped if NO_CMAKE_SYSTEM_PACKAGE_REGISTRY is passed. On Windows a <package> may appear under registry key

      HKEY_LOCAL_MACHINE\Software\Kitware\CMake\Packages\<package>

    as a REG_SZ value, with arbitrary name, that specifies the directory containing the package configuration file. There is no system package registry on non-Windows platforms.

    9. Search paths specified by the PATHS option. These are typically hard-coded guesses.

    On Darwin or systems supporting OS X Frameworks, the cmake variable CMAKE_FIND_FRAMEWORK can be set to empty or one of the following:

       "FIRST"  - Try to find frameworks before standard
    libraries or headers. This is the default on Darwin.
    "LAST" - Try to find frameworks after standard
    libraries or headers.
    "ONLY" - Only try to find frameworks.
    "NEVER" - Never try to find frameworks.

    On Darwin or systems supporting OS X Application Bundles, the cmake variable CMAKE_FIND_APPBUNDLE can be set to empty or one of the following:

       "FIRST"  - Try to find application bundles before standard
    programs. This is the default on Darwin.
    "LAST" - Try to find application bundles after standard
    programs.
    "ONLY" - Only try to find application bundles.
    "NEVER" - Never try to find application bundles.

    The CMake variable CMAKE_FIND_ROOT_PATH specifies one or more directories to be prepended to all other search directories. This effectively "re-roots" the entire search under given locations. By default it is empty. It is especially useful when cross-compiling to point to the root directory of the target environment and CMake will search there too. By default at first the directories listed in CMAKE_FIND_ROOT_PATH and then the non-rooted directories will be searched. The default behavior can be adjusted by setting CMAKE_FIND_ROOT_PATH_MODE_PACKAGE. This behavior can be manually overridden on a per-call basis. By using CMAKE_FIND_ROOT_PATH_BOTH the search order will be as described above. If NO_CMAKE_FIND_ROOT_PATH is used then CMAKE_FIND_ROOT_PATH will not be used. If ONLY_CMAKE_FIND_ROOT_PATH is used then only the re-rooted directories will be searched.

    The default search order is designed to be most-specific to least-specific for common use cases. Projects may override the order by simply calling the command multiple times and using the NO_* options:

       find_package(<package> PATHS paths... NO_DEFAULT_PATH)
    find_package(<package>)

    Once one of the calls succeeds the result variable will be set and stored in the cache so that no call will search again.

    Every non-REQUIRED find_package() call can be disabled by setting the variable CMAKE_DISABLE_FIND_PACKAGE_<package> to TRUE. See the documentation for the CMAKE_DISABLE_FIND_PACKAGE_<package> variable for more information.

    See the cmake_policy() command documentation for discussion of the NO_POLICY_SCOPE option.

  • find_path: Find the directory containing a file.
       find_path(<VAR> name1 [path1 path2 ...])

    This is the short-hand signature for the command that is sufficient in many cases. It is the same as find_path(<VAR> name1 [PATHS path1 path2 ...])

       find_path(
    <VAR>
    name | NAMES name1 [name2 ...]
    [HINTS path1 [path2 ... ENV var]]
    [PATHS path1 [path2 ... ENV var]]
    [PATH_SUFFIXES suffix1 [suffix2 ...]]
    [DOC "cache documentation string"]
    [NO_DEFAULT_PATH]
    [NO_CMAKE_ENVIRONMENT_PATH]
    [NO_CMAKE_PATH]
    [NO_SYSTEM_ENVIRONMENT_PATH]
    [NO_CMAKE_SYSTEM_PATH]
    [CMAKE_FIND_ROOT_PATH_BOTH |
    ONLY_CMAKE_FIND_ROOT_PATH |
    NO_CMAKE_FIND_ROOT_PATH]
    )

    This command is used to find a directory containing the named file. A cache entry named by <VAR> is created to store the result of this command. If the file in a directory is found the result is stored in the variable and the search will not be repeated unless the variable is cleared. If nothing is found, the result will be <VAR>-NOTFOUND, and the search will be attempted again the next time find_path is invoked with the same variable. The name of the file in a directory that is searched for is specified by the names listed after the NAMES argument. Additional search locations can be specified after the PATHS argument. If ENV var is found in the HINTS or PATHS section the environment variable var will be read and converted from a system environment variable to a cmake style list of paths. For example ENV PATH would be a way to list the system path variable. The argument after DOC will be used for the documentation string in the cache. PATH_SUFFIXES specifies additional subdirectories to check below each search path.

    If NO_DEFAULT_PATH is specified, then no additional paths are added to the search. If NO_DEFAULT_PATH is not specified, the search process is as follows:

    1. Search paths specified in cmake-specific cache variables. These are intended to be used on the command line with a -DVAR=value. This can be skipped if NO_CMAKE_PATH is passed.

       <prefix>/include for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_INCLUDE_PATH
    CMAKE_FRAMEWORK_PATH

    2. Search paths specified in cmake-specific environment variables. These are intended to be set in the user's shell configuration. This can be skipped if NO_CMAKE_ENVIRONMENT_PATH is passed.

       <prefix>/include for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_INCLUDE_PATH
    CMAKE_FRAMEWORK_PATH

    3. Search the paths specified by the HINTS option. These should be paths computed by system introspection, such as a hint provided by the location of another item already found. Hard-coded guesses should be specified with the PATHS option.

    4. Search the standard system environment variables. This can be skipped if NO_SYSTEM_ENVIRONMENT_PATH is an argument.

       PATH
    INCLUDE

    5. Search cmake variables defined in the Platform files for the current system. This can be skipped if NO_CMAKE_SYSTEM_PATH is passed.

       <prefix>/include for each <prefix> in CMAKE_SYSTEM_PREFIX_PATH
    CMAKE_SYSTEM_INCLUDE_PATH
    CMAKE_SYSTEM_FRAMEWORK_PATH

    6. Search the paths specified by the PATHS option or in the short-hand version of the command. These are typically hard-coded guesses.

    On Darwin or systems supporting OS X Frameworks, the cmake variable CMAKE_FIND_FRAMEWORK can be set to empty or one of the following:

       "FIRST"  - Try to find frameworks before standard
    libraries or headers. This is the default on Darwin.
    "LAST" - Try to find frameworks after standard
    libraries or headers.
    "ONLY" - Only try to find frameworks.
    "NEVER" - Never try to find frameworks.

    On Darwin or systems supporting OS X Application Bundles, the cmake variable CMAKE_FIND_APPBUNDLE can be set to empty or one of the following:

       "FIRST"  - Try to find application bundles before standard
    programs. This is the default on Darwin.
    "LAST" - Try to find application bundles after standard
    programs.
    "ONLY" - Only try to find application bundles.
    "NEVER" - Never try to find application bundles.

    The CMake variable CMAKE_FIND_ROOT_PATH specifies one or more directories to be prepended to all other search directories. This effectively "re-roots" the entire search under given locations. By default it is empty. It is especially useful when cross-compiling to point to the root directory of the target environment and CMake will search there too. By default at first the directories listed in CMAKE_FIND_ROOT_PATH and then the non-rooted directories will be searched. The default behavior can be adjusted by setting CMAKE_FIND_ROOT_PATH_MODE_INCLUDE. This behavior can be manually overridden on a per-call basis. By using CMAKE_FIND_ROOT_PATH_BOTH the search order will be as described above. If NO_CMAKE_FIND_ROOT_PATH is used then CMAKE_FIND_ROOT_PATH will not be used. If ONLY_CMAKE_FIND_ROOT_PATH is used then only the re-rooted directories will be searched.

    The default search order is designed to be most-specific to least-specific for common use cases. Projects may override the order by simply calling the command multiple times and using the NO_* options:

       find_path(<VAR> NAMES name PATHS paths... NO_DEFAULT_PATH)
    find_path(<VAR> NAMES name)

    Once one of the calls succeeds the result variable will be set and stored in the cache so that no call will search again.

    When searching for frameworks, if the file is specified as A/b.h, then the framework search will look for A.framework/Headers/b.h. If that is found the path will be set to the path to the framework. CMake will convert this to the correct -F option to include the file.

  • find_program: Find an executable program.
       find_program(<VAR> name1 [path1 path2 ...])

    This is the short-hand signature for the command that is sufficient in many cases. It is the same as find_program(<VAR> name1 [PATHS path1 path2 ...])

       find_program(
    <VAR>
    name | NAMES name1 [name2 ...]
    [HINTS path1 [path2 ... ENV var]]
    [PATHS path1 [path2 ... ENV var]]
    [PATH_SUFFIXES suffix1 [suffix2 ...]]
    [DOC "cache documentation string"]
    [NO_DEFAULT_PATH]
    [NO_CMAKE_ENVIRONMENT_PATH]
    [NO_CMAKE_PATH]
    [NO_SYSTEM_ENVIRONMENT_PATH]
    [NO_CMAKE_SYSTEM_PATH]
    [CMAKE_FIND_ROOT_PATH_BOTH |
    ONLY_CMAKE_FIND_ROOT_PATH |
    NO_CMAKE_FIND_ROOT_PATH]
    )

    This command is used to find a program. A cache entry named by <VAR> is created to store the result of this command. If the program is found the result is stored in the variable and the search will not be repeated unless the variable is cleared. If nothing is found, the result will be <VAR>-NOTFOUND, and the search will be attempted again the next time find_program is invoked with the same variable. The name of the program that is searched for is specified by the names listed after the NAMES argument. Additional search locations can be specified after the PATHS argument. If ENV var is found in the HINTS or PATHS section the environment variable var will be read and converted from a system environment variable to a cmake style list of paths. For example ENV PATH would be a way to list the system path variable. The argument after DOC will be used for the documentation string in the cache. PATH_SUFFIXES specifies additional subdirectories to check below each search path.

    If NO_DEFAULT_PATH is specified, then no additional paths are added to the search. If NO_DEFAULT_PATH is not specified, the search process is as follows:

    1. Search paths specified in cmake-specific cache variables. These are intended to be used on the command line with a -DVAR=value. This can be skipped if NO_CMAKE_PATH is passed.

       <prefix>/[s]bin for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_PROGRAM_PATH
    CMAKE_APPBUNDLE_PATH

    2. Search paths specified in cmake-specific environment variables. These are intended to be set in the user's shell configuration. This can be skipped if NO_CMAKE_ENVIRONMENT_PATH is passed.

       <prefix>/[s]bin for each <prefix> in CMAKE_PREFIX_PATH
    CMAKE_PROGRAM_PATH
    CMAKE_APPBUNDLE_PATH

    3. Search the paths specified by the HINTS option. These should be paths computed by system introspection, such as a hint provided by the location of another item already found. Hard-coded guesses should be specified with the PATHS option.

    4. Search the standard system environment variables. This can be skipped if NO_SYSTEM_ENVIRONMENT_PATH is an argument.

       PATH

    5. Search cmake variables defined in the Platform files for the current system. This can be skipped if NO_CMAKE_SYSTEM_PATH is passed.

       <prefix>/[s]bin for each <prefix> in CMAKE_SYSTEM_PREFIX_PATH
    CMAKE_SYSTEM_PROGRAM_PATH
    CMAKE_SYSTEM_APPBUNDLE_PATH

    6. Search the paths specified by the PATHS option or in the short-hand version of the command. These are typically hard-coded guesses.

    On Darwin or systems supporting OS X Frameworks, the cmake variable CMAKE_FIND_FRAMEWORK can be set to empty or one of the following:

       "FIRST"  - Try to find frameworks before standard
    libraries or headers. This is the default on Darwin.
    "LAST" - Try to find frameworks after standard
    libraries or headers.
    "ONLY" - Only try to find frameworks.
    "NEVER" - Never try to find frameworks.

    On Darwin or systems supporting OS X Application Bundles, the cmake variable CMAKE_FIND_APPBUNDLE can be set to empty or one of the following:

       "FIRST"  - Try to find application bundles before standard
    programs. This is the default on Darwin.
    "LAST" - Try to find application bundles after standard
    programs.
    "ONLY" - Only try to find application bundles.
    "NEVER" - Never try to find application bundles.

    The CMake variable CMAKE_FIND_ROOT_PATH specifies one or more directories to be prepended to all other search directories. This effectively "re-roots" the entire search under given locations. By default it is empty. It is especially useful when cross-compiling to point to the root directory of the target environment and CMake will search there too. By default at first the directories listed in CMAKE_FIND_ROOT_PATH and then the non-rooted directories will be searched. The default behavior can be adjusted by setting CMAKE_FIND_ROOT_PATH_MODE_PROGRAM. This behavior can be manually overridden on a per-call basis. By using CMAKE_FIND_ROOT_PATH_BOTH the search order will be as described above. If NO_CMAKE_FIND_ROOT_PATH is used then CMAKE_FIND_ROOT_PATH will not be used. If ONLY_CMAKE_FIND_ROOT_PATH is used then only the re-rooted directories will be searched.

    The default search order is designed to be most-specific to least-specific for common use cases. Projects may override the order by simply calling the command multiple times and using the NO_* options:

       find_program(<VAR> NAMES name PATHS paths... NO_DEFAULT_PATH)
    find_program(<VAR> NAMES name)

    Once one of the calls succeeds the result variable will be set and stored in the cache so that no call will search again.

  • foreach: Evaluate a group of commands for each value in a list.
      foreach(loop_var arg1 arg2 ...)
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    endforeach(loop_var)

    All commands between foreach and the matching endforeach are recorded without being invoked. Once the endforeach is evaluated, the recorded list of commands is invoked once for each argument listed in the original foreach command. Before each iteration of the loop "${loop_var}" will be set as a variable with the current value in the list.

      foreach(loop_var RANGE total)
    foreach(loop_var RANGE start stop [step])

    Foreach can also iterate over a generated range of numbers. There are three types of this iteration:

    * When specifying single number, the range will have elements 0 to "total".

    * When specifying two numbers, the range will have elements from the first number to the second number.

    * The third optional number is the increment used to iterate from the first number to the second number.

      foreach(loop_var IN [LISTS [list1 [...]]]
    [ITEMS [item1 [...]]])

    Iterates over a precise list of items. The LISTS option names list-valued variables to be traversed, including empty elements (an empty string is a zero-length list). The ITEMS option ends argument parsing and includes all arguments following it in the iteration.

  • function: Start recording a function for later invocation as a command.
      function(<name> [arg1 [arg2 [arg3 ...]]])
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    endfunction(<name>)

    Define a function named <name> that takes arguments named arg1 arg2 arg3 (...). Commands listed after function, but before the matching endfunction, are not invoked until the function is invoked. When it is invoked, the commands recorded in the function are first modified by replacing formal parameters (${arg1}) with the arguments passed, and then invoked as normal commands. In addition to referencing the formal parameters you can reference the variable ARGC which will be set to the number of arguments passed into the function as well as ARGV0 ARGV1 ARGV2 ... which will have the actual values of the arguments passed in. This facilitates creating functions with optional arguments. Additionally ARGV holds the list of all arguments given to the function and ARGN holds the list of argument past the last expected argument.

    See the cmake_policy() command documentation for the behavior of policies inside functions.

  • get_cmake_property: Get a property of the CMake instance.
      get_cmake_property(VAR property)

    Get a property from the CMake instance. The value of the property is stored in the variable VAR. If the property is not found, VAR will be set to "NOTFOUND". Some supported properties include: VARIABLES, CACHE_VARIABLES, COMMANDS, MACROS, and COMPONENTS.

    See also the more general get_property() command.

  • get_directory_property: Get a property of DIRECTORY scope.
      get_directory_property(<variable> [DIRECTORY <dir>] <prop-name>)

    Store a property of directory scope in the named variable. If the property is not defined the empty-string is returned. The DIRECTORY argument specifies another directory from which to retrieve the property value. The specified directory must have already been traversed by CMake.

      get_directory_property(<variable> [DIRECTORY <dir>]
    DEFINITION <var-name>)

    Get a variable definition from a directory. This form is useful to get a variable definition from another directory.

    See also the more general get_property() command.

  • get_filename_component: Get a specific component of a full filename.
      get_filename_component(<VAR> FileName
    PATH|ABSOLUTE|NAME|EXT|NAME_WE|REALPATH
    [CACHE])

    Set <VAR> to be the path (PATH), file name (NAME), file extension (EXT), file name without extension (NAME_WE) of FileName, the full path (ABSOLUTE), or the full path with all symlinks resolved (REALPATH). Note that the path is converted to Unix slashes format and has no trailing slashes. The longest file extension is always considered. If the optional CACHE argument is specified, the result variable is added to the cache.

      get_filename_component(<VAR> FileName
    PROGRAM [PROGRAM_ARGS <ARG_VAR>]
    [CACHE])

    The program in FileName will be found in the system search path or left as a full path. If PROGRAM_ARGS is present with PROGRAM, then any command-line arguments present in the FileName string are split from the program name and stored in <ARG_VAR>. This is used to separate a program name from its arguments in a command line string.

  • get_property: Get a property.
      get_property(<variable>
    <GLOBAL |
    DIRECTORY [dir] |
    TARGET <target> |
    SOURCE <source> |
    TEST <test> |
    CACHE <entry> |
    VARIABLE>
    PROPERTY <name>
    [SET | DEFINED | BRIEF_DOCS | FULL_DOCS])

    Get one property from one object in a scope. The first argument specifies the variable in which to store the result. The second argument determines the scope from which to get the property. It must be one of the following:

    GLOBAL scope is unique and does not accept a name.

    DIRECTORY scope defaults to the current directory but another directory (already processed by CMake) may be named by full or relative path.

    TARGET scope must name one existing target.

    SOURCE scope must name one source file.

    TEST scope must name one existing test.

    CACHE scope must name one cache entry.

    VARIABLE scope is unique and does not accept a name.

    The required PROPERTY option is immediately followed by the name of the property to get. If the property is not set an empty value is returned. If the SET option is given the variable is set to a boolean value indicating whether the property has been set. If the DEFINED option is given the variable is set to a boolean value indicating whether the property has been defined such as with define_property. If BRIEF_DOCS or FULL_DOCS is given then the variable is set to a string containing documentation for the requested property. If documentation is requested for a property that has not been defined NOTFOUND is returned.

  • if: Conditionally execute a group of commands.
      if(expression)
    # then section.
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    elseif(expression2)
    # elseif section.
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    else(expression)
    # else section.
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    endif(expression)

    Evaluates the given expression. If the result is true, the commands in the THEN section are invoked. Otherwise, the commands in the else section are invoked. The elseif and else sections are optional. You may have multiple elseif clauses. Note that the expression in the else and endif clause is optional. Long expressions can be used and there is a traditional order of precedence. Parenthetical expressions are evaluated first followed by unary operators such as EXISTS, COMMAND, and DEFINED. Then any EQUAL, LESS, GREATER, STRLESS, STRGREATER, STREQUAL, MATCHES will be evaluated. Then NOT operators and finally AND, OR operators will be evaluated. Possible expressions are:

      if(<constant>)

    True if the constant is 1, ON, YES, TRUE, Y, or a non-zero number. False if the constant is 0, OFF, NO, FALSE, N, IGNORE, "", or ends in the suffix '-NOTFOUND'. Named boolean constants are case-insensitive. If the argument is not one of these constants, it is treated as a variable:

      if(<variable>)

    True if the variable is defined to a value that is not a false constant. False otherwise.

      if(NOT <expression>)

    True if the expression is not true.

      if(<expr1> AND <expr2>)

    True if both expressions would be considered true individually.

      if(<expr1> OR <expr2>)

    True if either expression would be considered true individually.

      if(COMMAND command-name)

    True if the given name is a command, macro or function that can be invoked.

      if(POLICY policy-id)

    True if the given name is an existing policy (of the form CMP<NNNN>).

      if(TARGET target-name)

    True if the given name is an existing target, built or imported.

      if(EXISTS file-name)
    if(EXISTS directory-name)

    True if the named file or directory exists. Behavior is well-defined only for full paths.

      if(file1 IS_NEWER_THAN file2)

    True if file1 is newer than file2 or if one of the two files doesn't exist. Behavior is well-defined only for full paths.

      if(IS_DIRECTORY directory-name)

    True if the given name is a directory. Behavior is well-defined only for full paths.

      if(IS_SYMLINK file-name)

    True if the given name is a symbolic link. Behavior is well-defined only for full paths.

      if(IS_ABSOLUTE path)

    True if the given path is an absolute path.

      if(<variable|string> MATCHES regex)

    True if the given string or variable's value matches the given regular expression.

      if(<variable|string> LESS <variable|string>)
    if(<variable|string> GREATER <variable|string>)
    if(<variable|string> EQUAL <variable|string>)

    True if the given string or variable's value is a valid number and the inequality or equality is true.

      if(<variable|string> STRLESS <variable|string>)
    if(<variable|string> STRGREATER <variable|string>)
    if(<variable|string> STREQUAL <variable|string>)

    True if the given string or variable's value is lexicographically less (or greater, or equal) than the string or variable on the right.

      if(<variable|string> VERSION_LESS <variable|string>)
    if(<variable|string> VERSION_EQUAL <variable|string>)
    if(<variable|string> VERSION_GREATER <variable|string>)

    Component-wise integer version number comparison (version format is major[.minor[.patch[.tweak]]]).

      if(DEFINED <variable>)

    True if the given variable is defined. It does not matter if the variable is true or false just if it has been set.

      if((expression) AND (expression OR (expression)))

    The expressions inside the parenthesis are evaluated first and then the remaining expression is evaluated as in the previous examples. Where there are nested parenthesis the innermost are evaluated as part of evaluating the expression that contains them.

    The if command was written very early in CMake's history, predating the ${} variable evaluation syntax, and for convenience evaluates variables named by its arguments as shown in the above signatures. Note that normal variable evaluation with ${} applies before the if command even receives the arguments. Therefore code like

      set(var1 OFF)
    set(var2 "var1")
    if(${var2})

    appears to the if command as

      if(var1)

    and is evaluated according to the if(<variable>) case documented above. The result is OFF which is false. However, if we remove the ${} from the example then the command sees

      if(var2)

    which is true because var2 is defined to "var1" which is not a false constant.

    Automatic evaluation applies in the other cases whenever the above-documented signature accepts <variable|string>:

    1) The left hand argument to MATCHES is first checked to see if it is a defined variable, if so the variable's value is used, otherwise the original value is used.

    2) If the left hand argument to MATCHES is missing it returns false without error

    3) Both left and right hand arguments to LESS GREATER EQUAL are independently tested to see if they are defined variables, if so their defined values are used otherwise the original value is used.

    4) Both left and right hand arguments to STRLESS STREQUAL STRGREATER are independently tested to see if they are defined variables, if so their defined values are used otherwise the original value is used.

    5) Both left and right hand argumemnts to VERSION_LESS VERSION_EQUAL VERSION_GREATER are independently tested to see if they are defined variables, if so their defined values are used otherwise the original value is used.

    6) The right hand argument to NOT is tested to see if it is a boolean constant, if so the value is used, otherwise it is assumed to be a variable and it is dereferenced.

    7) The left and right hand arguments to AND OR are independently tested to see if they are boolean constants, if so they are used as such, otherwise they are assumed to be variables and are dereferenced.

  • include: Read CMake listfile code from the given file.
      include(<file|module> [OPTIONAL] [RESULT_VARIABLE <VAR>]
    [NO_POLICY_SCOPE])

    Reads CMake listfile code from the given file. Commands in the file are processed immediately as if they were written in place of the include command. If OPTIONAL is present, then no error is raised if the file does not exist. If RESULT_VARIABLE is given the variable will be set to the full filename which has been included or NOTFOUND if it failed.

    If a module is specified instead of a file, the file with name <modulename>.cmake is searched first in CMAKE_MODULE_PATH, then in the CMake module directory. There is one exception to this: if the file which calls include() is located itself in the CMake module directory, then first the CMake module directory is searched and CMAKE_MODULE_PATH afterwards. See also policy CMP0017.

    See the cmake_policy() command documentation for discussion of the NO_POLICY_SCOPE option.

  • list: List operations.
      list(LENGTH <list> <output variable>)
    list(GET <list> <element index> [<element index> ...]
    <output variable>)
    list(APPEND <list> <element> [<element> ...])
    list(FIND <list> <value> <output variable>)
    list(INSERT <list> <element_index> <element> [<element> ...])
    list(REMOVE_ITEM <list> <value> [<value> ...])
    list(REMOVE_AT <list> <index> [<index> ...])
    list(REMOVE_DUPLICATES <list>)
    list(REVERSE <list>)
    list(SORT <list>)

    LENGTH will return a given list's length.

    GET will return list of elements specified by indices from the list.

    APPEND will append elements to the list.

    FIND will return the index of the element specified in the list or -1 if it wasn't found.

    INSERT will insert elements to the list to the specified location.

    REMOVE_AT and REMOVE_ITEM will remove items from the list. The difference is that REMOVE_ITEM will remove the given items, while REMOVE_AT will remove the items at the given indices.

    REMOVE_DUPLICATES will remove duplicated items in the list.

    REVERSE reverses the contents of the list in-place.

    SORT sorts the list in-place alphabetically.

    The list subcommands APPEND, INSERT, REMOVE_AT, REMOVE_ITEM, REMOVE_DUPLICATES, REVERSE and SORT may create new values for the list within the current CMake variable scope. Similar to the SET command, the LIST command creates new variable values in the current scope, even if the list itself is actually defined in a parent scope. To propagate the results of these operations upwards, use SET with PARENT_SCOPE, SET with CACHE INTERNAL, or some other means of value propagation.

    NOTES: A list in cmake is a ; separated group of strings. To create a list the set command can be used. For example, set(var a b c d e) creates a list with a;b;c;d;e, and set(var "a b c d e") creates a string or a list with one item in it.

    When specifying index values, if <element index> is 0 or greater, it is indexed from the beginning of the list, with 0 representing the first list element. If <element index> is -1 or lesser, it is indexed from the end of the list, with -1 representing the last list element. Be careful when counting with negative indices: they do not start from 0. -0 is equivalent to 0, the first list element.

  • macro: Start recording a macro for later invocation as a command.
      macro(<name> [arg1 [arg2 [arg3 ...]]])
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    endmacro(<name>)

    Define a macro named <name> that takes arguments named arg1 arg2 arg3 (...). Commands listed after macro, but before the matching endmacro, are not invoked until the macro is invoked. When it is invoked, the commands recorded in the macro are first modified by replacing formal parameters (${arg1}) with the arguments passed, and then invoked as normal commands. In addition to referencing the formal parameters you can reference the values ${ARGC} which will be set to the number of arguments passed into the function as well as ${ARGV0} ${ARGV1} ${ARGV2} ... which will have the actual values of the arguments passed in. This facilitates creating macros with optional arguments. Additionally ${ARGV} holds the list of all arguments given to the macro and ${ARGN} holds the list of argument past the last expected argument. Note that the parameters to a macro and values such as ARGN are not variables in the usual CMake sense. They are string replacements much like the c preprocessor would do with a macro. If you want true CMake variables you should look at the function command.

    See the cmake_policy() command documentation for the behavior of policies inside macros.

  • mark_as_advanced: Mark cmake cached variables as advanced.
      mark_as_advanced([CLEAR|FORCE] VAR VAR2 VAR...)

    Mark the named cached variables as advanced. An advanced variable will not be displayed in any of the cmake GUIs unless the show advanced option is on. If CLEAR is the first argument advanced variables are changed back to unadvanced. If FORCE is the first argument, then the variable is made advanced. If neither FORCE nor CLEAR is specified, new values will be marked as advanced, but if the variable already has an advanced/non-advanced state, it will not be changed.

    It does nothing in script mode.

  • math: Mathematical expressions.
      math(EXPR <output variable> <math expression>)

    EXPR evaluates mathematical expression and return result in the output variable. Example mathematical expression is '5 * ( 10 + 13 )'. Supported operators are + - * / % | & ^ ~ << >> * / %. They have the same meaning as they do in c code.

  • message: Display a message to the user.
      message([STATUS|WARNING|AUTHOR_WARNING|FATAL_ERROR|SEND_ERROR]
    "message to display" ...)

    The optional keyword determines the type of message:

      (none)         = Important information
    STATUS = Incidental information
    WARNING = CMake Warning, continue processing
    AUTHOR_WARNING = CMake Warning (dev), continue processing
    SEND_ERROR = CMake Error, continue but skip generation
    FATAL_ERROR = CMake Error, stop all processing

    The CMake command-line tool displays STATUS messages on stdout and all other message types on stderr. The CMake GUI displays all messages in its log area. The interactive dialogs (ccmake and CMakeSetup) show STATUS messages one at a time on a status line and other messages in interactive pop-up boxes.

    CMake Warning and Error message text displays using a simple markup language. Non-indented text is formatted in line-wrapped paragraphs delimited by newlines. Indented text is considered pre-formatted.

  • option: Provides an option that the user can optionally select.
      option(<option_variable> "help string describing option"
    [initial value])

    Provide an option for the user to select as ON or OFF. If no initial value is provided, OFF is used.

    If you have options that depend on the values of other options, see the module help for CMakeDependentOption.

  • return: Return from a file, directory or function.
      return()

    Returns from a file, directory or function. When this command is encountered in an included file (via include() or find_package()), it causes processing of the current file to stop and control is returned to the including file. If it is encountered in a file which is not included by another file, e.g. a CMakeLists.txt, control is returned to the parent directory if there is one. If return is called in a function, control is returned to the caller of the function. Note that a macro is not a function and does not handle return like a function does.

  • separate_arguments: Parse space-separated arguments into a semicolon-separated list.
      separate_arguments(<var> <UNIX|WINDOWS>_COMMAND "<args>")

    Parses a unix- or windows-style command-line string "<args>" and stores a semicolon-separated list of the arguments in <var>. The entire command line must be given in one "<args>" argument.

    The UNIX_COMMAND mode separates arguments by unquoted whitespace. It recognizes both single-quote and double-quote pairs. A backslash escapes the next literal character (\" is "); there are no special escapes (\n is just n).

    The WINDOWS_COMMAND mode parses a windows command-line using the same syntax the runtime library uses to construct argv at startup. It separates arguments by whitespace that is not double-quoted. Backslashes are literal unless they precede double-quotes. See the MSDN article "Parsing C Command-Line Arguments" for details.

      separate_arguments(VARIABLE)

    Convert the value of VARIABLE to a semi-colon separated list. All spaces are replaced with ';'. This helps with generating command lines.

  • set: Set a CMAKE variable to a given value.
      set(<variable> <value>
    [[CACHE <type> <docstring> [FORCE]] | PARENT_SCOPE])

    Within CMake sets <variable> to the value <value>. <value> is expanded before <variable> is set to it. If CACHE is present, then the <variable> is put in the cache. <type> and <docstring> are then required. <type> is used by the CMake GUI to choose a widget with which the user sets a value. The value for <type> may be one of

      FILEPATH = File chooser dialog.
    PATH = Directory chooser dialog.
    STRING = Arbitrary string.
    BOOL = Boolean ON/OFF checkbox.
    INTERNAL = No GUI entry (used for persistent variables).

    If <type> is INTERNAL, then the <value> is always written into the cache, replacing any values existing in the cache. If it is not a cache variable, then this always writes into the current makefile. The FORCE option will overwrite the cache value removing any changes by the user.

    If PARENT_SCOPE is present, the variable will be set in the scope above the current scope. Each new directory or function creates a new scope. This command will set the value of a variable into the parent directory or calling function (whichever is applicable to the case at hand).

    If <value> is not specified then the variable is removed instead of set. See also: the unset() command.

      set(<variable> <value1> ... <valueN>)

    In this case <variable> is set to a semicolon separated list of values.

    <variable> can be an environment variable such as:

      set( ENV{PATH} /home/martink )

    in which case the environment variable will be set.

  • set_directory_properties: Set a property of the directory.
      set_directory_properties(PROPERTIES prop1 value1 prop2 value2)

    Set a property for the current directory and subdirectories. If the property is not found, CMake will report an error. The properties include: INCLUDE_DIRECTORIES, LINK_DIRECTORIES, INCLUDE_REGULAR_EXPRESSION, and ADDITIONAL_MAKE_CLEAN_FILES. ADDITIONAL_MAKE_CLEAN_FILES is a list of files that will be cleaned as a part of "make clean" stage.

  • set_property: Set a named property in a given scope.
      set_property(<GLOBAL                            |
    DIRECTORY [dir] |
    TARGET [target1 [target2 ...]] |
    SOURCE [src1 [src2 ...]] |
    TEST [test1 [test2 ...]] |
    CACHE [entry1 [entry2 ...]]>
    [APPEND] [APPEND_STRING]
    PROPERTY <name> [value1 [value2 ...]])

    Set one property on zero or more objects of a scope. The first argument determines the scope in which the property is set. It must be one of the following:

    GLOBAL scope is unique and does not accept a name.

    DIRECTORY scope defaults to the current directory but another directory (already processed by CMake) may be named by full or relative path.

    TARGET scope may name zero or more existing targets.

    SOURCE scope may name zero or more source files. Note that source file properties are visible only to targets added in the same directory (CMakeLists.txt).

    TEST scope may name zero or more existing tests.

    CACHE scope must name zero or more cache existing entries.

    The required PROPERTY option is immediately followed by the name of the property to set. Remaining arguments are used to compose the property value in the form of a semicolon-separated list. If the APPEND option is given the list is appended to any existing property value.If the APPEND_STRING option is given the string is append to any existing property value as string, i.e. it results in a longer string and not a list of strings.

  • site_name: Set the given variable to the name of the computer.
      site_name(variable)
  • string: String operations.
      string(REGEX MATCH <regular_expression>
    <output variable> <input> [<input>...])
    string(REGEX MATCHALL <regular_expression>
    <output variable> <input> [<input>...])
    string(REGEX REPLACE <regular_expression>
    <replace_expression> <output variable>
    <input> [<input>...])
    string(REPLACE <match_string>
    <replace_string> <output variable>
    <input> [<input>...])
    string(<MD5|SHA1|SHA224|SHA256|SHA384|SHA512>
    <output variable> <input>)
    string(COMPARE EQUAL <string1> <string2> <output variable>)
    string(COMPARE NOTEQUAL <string1> <string2> <output variable>)
    string(COMPARE LESS <string1> <string2> <output variable>)
    string(COMPARE GREATER <string1> <string2> <output variable>)
    string(ASCII <number> [<number> ...] <output variable>)
    string(CONFIGURE <string1> <output variable>
    [@ONLY] [ESCAPE_QUOTES])
    string(TOUPPER <string1> <output variable>)
    string(TOLOWER <string1> <output variable>)
    string(LENGTH <string> <output variable>)
    string(SUBSTRING <string> <begin> <length> <output variable>)
    string(STRIP <string> <output variable>)
    string(RANDOM [LENGTH <length>] [ALPHABET <alphabet>]
    [RANDOM_SEED <seed>] <output variable>)
    string(FIND <string> <substring> <output variable> [REVERSE])

    REGEX MATCH will match the regular expression once and store the match in the output variable.

    REGEX MATCHALL will match the regular expression as many times as possible and store the matches in the output variable as a list.

    REGEX REPLACE will match the regular expression as many times as possible and substitute the replacement expression for the match in the output. The replace expression may refer to paren-delimited subexpressions of the match using \1, \2, ..., \9. Note that two backslashes (\\1) are required in CMake code to get a backslash through argument parsing.

    REPLACE will replace all occurrences of match_string in the input with replace_string and store the result in the output.

    MD5, SHA1, SHA224, SHA256, SHA384, and SHA512 will compute a cryptographic hash of the input string.

    COMPARE EQUAL/NOTEQUAL/LESS/GREATER will compare the strings and store true or false in the output variable.

    ASCII will convert all numbers into corresponding ASCII characters.

    CONFIGURE will transform a string like CONFIGURE_FILE transforms a file.

    TOUPPER/TOLOWER will convert string to upper/lower characters.

    LENGTH will return a given string's length.

    SUBSTRING will return a substring of a given string. If length is -1 the remainder of the string starting at begin will be returned.

    STRIP will return a substring of a given string with leading and trailing spaces removed.

    RANDOM will return a random string of given length consisting of characters from the given alphabet. Default length is 5 characters and default alphabet is all numbers and upper and lower case letters. If an integer RANDOM_SEED is given, its value will be used to seed the random number generator.

    FIND will return the position where the given substring was found in the supplied string. If the REVERSE flag was used, the command will search for the position of the last occurrence of the specified substring.

    The following characters have special meaning in regular expressions:

       ^         Matches at beginning of a line
    $ Matches at end of a line
    . Matches any single character
    [ ] Matches any character(s) inside the brackets
    [^ ] Matches any character(s) not inside the brackets
    - Matches any character in range on either side of a dash
    * Matches preceding pattern zero or more times
    + Matches preceding pattern one or more times
    ? Matches preceding pattern zero or once only
    | Matches a pattern on either side of the |
    () Saves a matched subexpression, which can be referenced
    in the REGEX REPLACE operation. Additionally it is saved
    by all regular expression-related commands, including
    e.g. if( MATCHES ), in the variables CMAKE_MATCH_(0..9).
  • unset: Unset a variable, cache variable, or environment variable.
      unset(<variable> [CACHE])

    Removes the specified variable causing it to become undefined. If CACHE is present then the variable is removed from the cache instead of the current scope.

    <variable> can be an environment variable such as:

      unset(ENV{LD_LIBRARY_PATH})

    in which case the variable will be removed from the current environment.

  • variable_watch: Watch the CMake variable for change.
      variable_watch(<variable name> [<command to execute>])

    If the specified variable changes, the message will be printed about the variable being changed. If the command is specified, the command will be executed. The command will receive the following arguments: COMMAND(<variable> <access> <value> <current list file> <stack>)

  • while: Evaluate a group of commands while a condition is true
      while(condition)
    COMMAND1(ARGS ...)
    COMMAND2(ARGS ...)
    ...
    endwhile(condition)

    All commands between while and the matching endwhile are recorded without being invoked. Once the endwhile is evaluated, the recorded list of commands is invoked as long as the condition is true. The condition is evaluated using the same logic as the if command.

Compatibility Commands

  CMake Compatibility Listfile Commands - Obsolete commands supported by CMake for compatibility.

This is the documentation for now obsolete listfile commands from previous CMake versions, which are still supported for compatibility reasons. You should instead use the newer, faster and shinier new commands. ;-)

Standard CMake Modules

Properties of Global Scope

  • ALLOW_DUPLICATE_CUSTOM_TARGETS: Allow duplicate custom targets to be created.

    Normally CMake requires that all targets built in a project have globally unique logical names (see policy CMP0002). This is necessary to generate meaningful project file names in Xcode and VS IDE generators. It also allows the target names to be referenced unambiguously.

    Makefile generators are capable of supporting duplicate custom target names. For projects that care only about Makefile generators and do not wish to support Xcode or VS IDE generators, one may set this property to true to allow duplicate custom targets. The property allows multiple add_custom_target command calls in different directories to specify the same target name. However, setting this property will cause non-Makefile generators to produce an error and refuse to generate the project.

  • DEBUG_CONFIGURATIONS: Specify which configurations are for debugging.

    The value must be a semi-colon separated list of configuration names. Currently this property is used only by the target_link_libraries command (see its documentation for details). Additional uses may be defined in the future.

    This property must be set at the top level of the project and before the first target_link_libraries command invocation. If any entry in the list does not match a valid configuration for the project the behavior is undefined.

  • DISABLED_FEATURES: List of features which are disabled during the CMake run.

    List of features which are disabled during the CMake run. By default it contains the names of all packages which were not found. This is determined using the <NAME>_FOUND variables. Packages which are searched QUIET are not listed. A project can add its own features to this list. This property is used by the macros in FeatureSummary.cmake.

  • ENABLED_FEATURES: List of features which are enabled during the CMake run.

    List of features which are enabled during the CMake run. By default it contains the names of all packages which were found. This is determined using the <NAME>_FOUND variables. Packages which are searched QUIET are not listed. A project can add its own features to this list. This property is used by the macros in FeatureSummary.cmake.

  • ENABLED_LANGUAGES: Read-only property that contains the list of currently enabled languages

    Set to list of currently enabled languages.

  • FIND_LIBRARY_USE_LIB64_PATHS: Whether FIND_LIBRARY should automatically search lib64 directories.

    FIND_LIBRARY_USE_LIB64_PATHS is a boolean specifying whether the FIND_LIBRARY command should automatically search the lib64 variant of directories called lib in the search path when building 64-bit binaries.

  • FIND_LIBRARY_USE_OPENBSD_VERSIONING: Whether FIND_LIBRARY should find OpenBSD-style shared libraries.

    This property is a boolean specifying whether the FIND_LIBRARY command should find shared libraries with OpenBSD-style versioned extension: ".so.<major>.<minor>". The property is set to true on OpenBSD and false on other platforms.

  • GLOBAL_DEPENDS_DEBUG_MODE: Enable global target dependency graph debug mode.

    CMake automatically analyzes the global inter-target dependency graph at the beginning of native build system generation. This property causes it to display details of its analysis to stderr.

  • GLOBAL_DEPENDS_NO_CYCLES: Disallow global target dependency graph cycles.

    CMake automatically analyzes the global inter-target dependency graph at the beginning of native build system generation. It reports an error if the dependency graph contains a cycle that does not consist of all STATIC library targets. This property tells CMake to disallow all cycles completely, even among static libraries.

  • IN_TRY_COMPILE: Read-only property that is true during a try-compile configuration.

    True when building a project inside a TRY_COMPILE or TRY_RUN command.

  • PACKAGES_FOUND: List of packages which were found during the CMake run.

    List of packages which were found during the CMake run. Whether a package has been found is determined using the <NAME>_FOUND variables.

  • PACKAGES_NOT_FOUND: List of packages which were not found during the CMake run.

    List of packages which were not found during the CMake run. Whether a package has been found is determined using the <NAME>_FOUND variables.

  • PREDEFINED_TARGETS_FOLDER: Name of FOLDER for targets that are added automatically by CMake.

    If not set, CMake uses "CMakePredefinedTargets" as a default value for this property. Targets such as INSTALL, PACKAGE and RUN_TESTS will be organized into this FOLDER. See also the documentation for the FOLDER target property.

  • REPORT_UNDEFINED_PROPERTIES: If set, report any undefined properties to this file.

    If this property is set to a filename then when CMake runs it will report any properties or variables that were accessed but not defined into the filename specified in this property.

  • RULE_LAUNCH_COMPILE: Specify a launcher for compile rules.

    Makefile generators prefix compiler commands with the given launcher command line. This is intended to allow launchers to intercept build problems with high granularity. Non-Makefile generators currently ignore this property.

  • RULE_LAUNCH_CUSTOM: Specify a launcher for custom rules.

    Makefile generators prefix custom commands with the given launcher command line. This is intended to allow launchers to intercept build problems with high granularity. Non-Makefile generators currently ignore this property.

  • RULE_LAUNCH_LINK: Specify a launcher for link rules.

    Makefile generators prefix link and archive commands with the given launcher command line. This is intended to allow launchers to intercept build problems with high granularity. Non-Makefile generators currently ignore this property.

  • RULE_MESSAGES: Specify whether to report a message for each make rule.

    This property specifies whether Makefile generators should add a progress message describing what each build rule does. If the property is not set the default is ON. Set the property to OFF to disable granular messages and report only as each target completes. This is intended to allow scripted builds to avoid the build time cost of detailed reports. If a CMAKE_RULE_MESSAGES cache entry exists its value initializes the value of this property. Non-Makefile generators currently ignore this property.

  • TARGET_ARCHIVES_MAY_BE_SHARED_LIBS: Set if shared libraries may be named like archives.

    On AIX shared libraries may be named "lib<name>.a". This property is set to true on such platforms.

  • TARGET_SUPPORTS_SHARED_LIBS: Does the target platform support shared libraries.

    TARGET_SUPPORTS_SHARED_LIBS is a boolean specifying whether the target platform supports shared libraries. Basically all current general general purpose OS do so, the exception are usually embedded systems with no or special OSs.

  • USE_FOLDERS: Use the FOLDER target property to organize targets into folders.

    If not set, CMake treats this property as OFF by default. CMake generators that are capable of organizing into a hierarchy of folders use the values of the FOLDER target property to name those folders. See also the documentation for the FOLDER target property.

  • __CMAKE_DELETE_CACHE_CHANGE_VARS_: Internal property

    Used to detect compiler changes, Do not set.

Properties on Cache Entries

  • ADVANCED: True if entry should be hidden by default in GUIs.

    This is a boolean value indicating whether the entry is considered interesting only for advanced configuration. The mark_as_advanced() command modifies this property.

  • HELPSTRING: Help associated with entry in GUIs.

    This string summarizes the purpose of an entry to help users set it through a CMake GUI.

  • MODIFIED: Internal management property. Do not set or get.

    This is an internal cache entry property managed by CMake to track interactive user modification of entries. Ignore it.

  • STRINGS: Enumerate possible STRING entry values for GUI selection.

    For cache entries with type STRING, this enumerates a set of values. CMake GUIs may use this to provide a selection widget instead of a generic string entry field. This is for convenience only. CMake does not enforce that the value matches one of those listed.

  • TYPE: Widget type for entry in GUIs.

    Cache entry values are always strings, but CMake GUIs present widgets to help users set values. The GUIs use this property as a hint to determine the widget type. Valid TYPE values are:

      BOOL          = Boolean ON/OFF value.
    PATH = Path to a directory.
    FILEPATH = Path to a file.
    STRING = Generic string value.
    INTERNAL = Do not present in GUI at all.
    STATIC = Value managed by CMake, do not change.
    UNINITIALIZED = Type not yet specified.

    Generally the TYPE of a cache entry should be set by the command which creates it (set, option, find_library, etc.).

  • VALUE: Value of a cache entry.

    This property maps to the actual value of a cache entry. Setting this property always sets the value without checking, so use with care.

Properties on Directories

  • ADDITIONAL_MAKE_CLEAN_FILES: Additional files to clean during the make clean stage.

    A list of files that will be cleaned as a part of the "make clean" stage.

  • CACHE_VARIABLES: List of cache variables available in the current directory.

    This read-only property specifies the list of CMake cache variables currently defined. It is intended for debugging purposes.

  • CLEAN_NO_CUSTOM: Should the output of custom commands be left.

    If this is true then the outputs of custom commands for this directory will not be removed during the "make clean" stage.

  • COMPILE_DEFINITIONS: Preprocessor definitions for compiling a directory's sources.

    The COMPILE_DEFINITIONS property may be set to a semicolon-separated list of preprocessor definitions using the syntax VAR or VAR=value. Function-style definitions are not supported. CMake will automatically escape the value correctly for the native build system (note that CMake language syntax may require escapes to specify some values). This property may be set on a per-configuration basis using the name COMPILE_DEFINITIONS_<CONFIG> where <CONFIG> is an upper-case name (ex. "COMPILE_DEFINITIONS_DEBUG"). This property will be initialized in each directory by its value in the directory's parent.

    CMake will automatically drop some definitions that are not supported by the native build tool. The VS6 IDE does not support definition values with spaces (but NMake does).

    Disclaimer: Most native build tools have poor support for escaping certain values. CMake has work-arounds for many cases but some values may just not be possible to pass correctly. If a value does not seem to be escaped correctly, do not attempt to work-around the problem by adding escape sequences to the value. Your work-around may break in a future version of CMake that has improved escape support. Instead consider defining the macro in a (configured) header file. Then report the limitation. Known limitations include:

      #          - broken almost everywhere
    ; - broken in VS IDE and Borland Makefiles
    , - broken in VS IDE
    % - broken in some cases in NMake
    & | - broken in some cases on MinGW
    ^ < > \" - broken in most Make tools on Windows

    CMake does not reject these values outright because they do work in some cases. Use with caution.

  • COMPILE_DEFINITIONS_<CONFIG>: Per-configuration preprocessor definitions in a directory.

    This is the configuration-specific version of COMPILE_DEFINITIONS. This property will be initialized in each directory by its value in the directory's parent.

  • DEFINITIONS: For CMake 2.4 compatibility only. Use COMPILE_DEFINITIONS instead.

    This read-only property specifies the list of flags given so far to the add_definitions command. It is intended for debugging purposes. Use the COMPILE_DEFINITIONS instead.

  • EXCLUDE_FROM_ALL: Exclude the directory from the all target of its parent.

    A property on a directory that indicates if its targets are excluded from the default build target. If it is not, then with a Makefile for example typing make will cause the targets to be built. The same concept applies to the default build of other generators.

  • IMPLICIT_DEPENDS_INCLUDE_TRANSFORM: Specify #include line transforms for dependencies in a directory.

    This property specifies rules to transform macro-like #include lines during implicit dependency scanning of C and C++ source files. The list of rules must be semicolon-separated with each entry of the form "A_MACRO(%)=value-with-%" (the % must be literal). During dependency scanning occurrences of A_MACRO(...) on #include lines will be replaced by the value given with the macro argument substituted for '%'. For example, the entry

      MYDIR(%)=<mydir/%>

    will convert lines of the form

      #include MYDIR(myheader.h)

    to

      #include <mydir/myheader.h>

    allowing the dependency to be followed.

    This property applies to sources in all targets within a directory. The property value is initialized in each directory by its value in the directory's parent.

  • INCLUDE_DIRECTORIES: List of preprocessor include file search directories.

    This property specifies the list of directories given so far to the include_directories command. This property exists on directories and targets. In addition to accepting values from the include_directories command, values may be set directly on any directory or any target using the set_property command. A target gets its initial value for this property from the value of the directory property. A directory gets its initial value from its parent directory if it has one. Both directory and target property values are adjusted by calls to the include_directories command.

    The target property values are used by the generators to set the include paths for the compiler. See also the include_directories command.

  • INCLUDE_REGULAR_EXPRESSION: Include file scanning regular expression.

    This read-only property specifies the regular expression used during dependency scanning to match include files that should be followed. See the include_regular_expression command.

  • INTERPROCEDURAL_OPTIMIZATION: Enable interprocedural optimization for targets in a directory.

    If set to true, enables interprocedural optimizations if they are known to be supported by the compiler.

  • INTERPROCEDURAL_OPTIMIZATION_<CONFIG>: Per-configuration interprocedural optimization for a directory.

    This is a per-configuration version of INTERPROCEDURAL_OPTIMIZATION. If set, this property overrides the generic property for the named configuration.

  • LINK_DIRECTORIES: List of linker search directories.

    This read-only property specifies the list of directories given so far to the link_directories command. It is intended for debugging purposes.

  • LISTFILE_STACK: The current stack of listfiles being processed.

    This property is mainly useful when trying to debug errors in your CMake scripts. It returns a list of what list files are currently being processed, in order. So if one listfile does an INCLUDE command then that is effectively pushing the included listfile onto the stack.

  • MACROS: List of macro commands available in the current directory.

    This read-only property specifies the list of CMake macros currently defined. It is intended for debugging purposes. See the macro command.

  • PARENT_DIRECTORY: Source directory that added current subdirectory.

    This read-only property specifies the source directory that added the current source directory as a subdirectory of the build. In the top-level directory the value is the empty-string.

  • RULE_LAUNCH_COMPILE: Specify a launcher for compile rules.

    See the global property of the same name for details. This overrides the global property for a directory.

  • RULE_LAUNCH_CUSTOM: Specify a launcher for custom rules.

    See the global property of the same name for details. This overrides the global property for a directory.

  • RULE_LAUNCH_LINK: Specify a launcher for link rules.

    See the global property of the same name for details. This overrides the global property for a directory.

  • TEST_INCLUDE_FILE: A cmake file that will be included when ctest is run.

    If you specify TEST_INCLUDE_FILE, that file will be included and processed when ctest is run on the directory.

  • VARIABLES: List of variables defined in the current directory.

    This read-only property specifies the list of CMake variables currently defined. It is intended for debugging purposes.

Properties on Source Files

  • ABSTRACT: Is this source file an abstract class.

    A property on a source file that indicates if the source file represents a class that is abstract. This only makes sense for languages that have a notion of an abstract class and it is only used by some tools that wrap classes into other languages.

  • COMPILE_DEFINITIONS: Preprocessor definitions for compiling a source file.

    The COMPILE_DEFINITIONS property may be set to a semicolon-separated list of preprocessor definitions using the syntax VAR or VAR=value. Function-style definitions are not supported. CMake will automatically escape the value correctly for the native build system (note that CMake language syntax may require escapes to specify some values). This property may be set on a per-configuration basis using the name COMPILE_DEFINITIONS_<CONFIG> where <CONFIG> is an upper-case name (ex. "COMPILE_DEFINITIONS_DEBUG").

    CMake will automatically drop some definitions that are not supported by the native build tool. The VS6 IDE does not support definition values with spaces (but NMake does). Xcode does not support per-configuration definitions on source files.

    Disclaimer: Most native build tools have poor support for escaping certain values. CMake has work-arounds for many cases but some values may just not be possible to pass correctly. If a value does not seem to be escaped correctly, do not attempt to work-around the problem by adding escape sequences to the value. Your work-around may break in a future version of CMake that has improved escape support. Instead consider defining the macro in a (configured) header file. Then report the limitation. Known limitations include:

      #          - broken almost everywhere
    ; - broken in VS IDE and Borland Makefiles
    , - broken in VS IDE
    % - broken in some cases in NMake
    & | - broken in some cases on MinGW
    ^ < > \" - broken in most Make tools on Windows

    CMake does not reject these values outright because they do work in some cases. Use with caution.

  • COMPILE_DEFINITIONS_<CONFIG>: Per-configuration preprocessor definitions on a source file.

    This is the configuration-specific version of COMPILE_DEFINITIONS. Note that Xcode does not support per-configuration source file flags so this property will be ignored by the Xcode generator.

  • COMPILE_FLAGS: Additional flags to be added when compiling this source file.

    These flags will be added to the list of compile flags when this source file builds. Use COMPILE_DEFINITIONS to pass additional preprocessor definitions.

  • EXTERNAL_OBJECT: If set to true then this is an object file.

    If this property is set to true then the source file is really an object file and should not be compiled. It will still be linked into the target though.

  • Fortran_FORMAT: Set to FIXED or FREE to indicate the Fortran source layout.

    This property tells CMake whether a given Fortran source file uses fixed-format or free-format. CMake will pass the corresponding format flag to the compiler. Consider using the target-wide Fortran_FORMAT property if all source files in a target share the same format.

  • GENERATED: Is this source file generated as part of the build process.

    If a source file is generated by the build process CMake will handle it differently in terms of dependency checking etc. Otherwise having a non-existent source file could create problems.

  • HEADER_FILE_ONLY: Is this source file only a header file.

    A property on a source file that indicates if the source file is a header file with no associated implementation. This is set automatically based on the file extension and is used by CMake to determine is certain dependency information should be computed.

  • KEEP_EXTENSION: Make the output file have the same extension as the source file.

    If this property is set then the file extension of the output file will be the same as that of the source file. Normally the output file extension is computed based on the language of the source file, for example .cxx will go to a .o extension.

  • LABELS: Specify a list of text labels associated with a source file.

    This property has meaning only when the source file is listed in a target whose LABELS property is also set. No other semantics are currently specified.

  • LANGUAGE: What programming language is the file.

    A property that can be set to indicate what programming language the source file is. If it is not set the language is determined based on the file extension. Typical values are CXX C etc. Setting this property for a file means this file will be compiled. Do not set this for header or files that should not be compiled.

  • LOCATION: The full path to a source file.

    A read only property on a SOURCE FILE that contains the full path to the source file.

  • MACOSX_PACKAGE_LOCATION: Place a source file inside a Mac OS X bundle, CFBundle, or framework.

    Executable targets with the MACOSX_BUNDLE property set are built as Mac OS X application bundles on Apple platforms. Shared library targets with the FRAMEWORK property set are built as Mac OS X frameworks on Apple platforms. Module library targets with the BUNDLE property set are built as Mac OS X CFBundle bundles on Apple platforms. Source files listed in the target with this property set will be copied to a directory inside the bundle or framework content folder specified by the property value. For bundles the content folder is "<name>.app/Contents". For frameworks the content folder is "<name>.framework/Versions/<version>". For cfbundles the content folder is "<name>.bundle/Contents" (unless the extension is changed). See the PUBLIC_HEADER, PRIVATE_HEADER, and RESOURCE target properties for specifying files meant for Headers, PrivateHeaders, or Resources directories.

  • OBJECT_DEPENDS: Additional files on which a compiled object file depends.

    Specifies a semicolon-separated list of full-paths to files on which any object files compiled from this source file depend. An object file will be recompiled if any of the named files is newer than it.

    This property need not be used to specify the dependency of a source file on a generated header file that it includes. Although the property was originally introduced for this purpose, it is no longer necessary. If the generated header file is created by a custom command in the same target as the source file, the automatic dependency scanning process will recognize the dependency. If the generated header file is created by another target, an inter-target dependency should be created with the add_dependencies command (if one does not already exist due to linking relationships).

  • OBJECT_OUTPUTS: Additional outputs for a Makefile rule.

    Additional outputs created by compilation of this source file. If any of these outputs is missing the object will be recompiled. This is supported only on Makefile generators and will be ignored on other generators.

  • SYMBOLIC: Is this just a name for a rule.

    If SYMBOLIC (boolean) is set to true the build system will be informed that the source file is not actually created on disk but instead used as a symbolic name for a build rule.

  • WRAP_EXCLUDE: Exclude this source file from any code wrapping techniques.

    Some packages can wrap source files into alternate languages to provide additional functionality. For example, C++ code can be wrapped into Java or Python etc using SWIG etc. If WRAP_EXCLUDE is set to true (1 etc) that indicates then this source file should not be wrapped.

Properties on Targets

  • <CONFIG>_OUTPUT_NAME: Old per-configuration target file base name.

    This is a configuration-specific version of OUTPUT_NAME. Use OUTPUT_NAME_<CONFIG> instead.

  • <CONFIG>_POSTFIX: Postfix to append to the target file name for configuration <CONFIG>.

    When building with configuration <CONFIG> the value of this property is appended to the target file name built on disk. For non-executable targets, this property is initialized by the value of the variable CMAKE_<CONFIG>_POSTFIX if it is set when a target is created. This property is ignored on the Mac for Frameworks and App Bundles.

  • ARCHIVE_OUTPUT_DIRECTORY: Output directory in which to build ARCHIVE target files.

    This property specifies the directory into which archive target files should be built. Multi-configuration generators (VS, Xcode) append a per-configuration subdirectory to the specified directory. There are three kinds of target files that may be built: archive, library, and runtime. Executables are always treated as runtime targets. Static libraries are always treated as archive targets. Module libraries are always treated as library targets. For non-DLL platforms shared libraries are treated as library targets. For DLL platforms the DLL part of a shared library is treated as a runtime target and the corresponding import library is treated as an archive target. All Windows-based systems including Cygwin are DLL platforms. This property is initialized by the value of the variable CMAKE_ARCHIVE_OUTPUT_DIRECTORY if it is set when a target is created.

  • ARCHIVE_OUTPUT_DIRECTORY_<CONFIG>: Per-configuration output directory for ARCHIVE target files.

    This is a per-configuration version of ARCHIVE_OUTPUT_DIRECTORY, but multi-configuration generators (VS, Xcode) do NOT append a per-configuration subdirectory to the specified directory. This property is initialized by the value of the variable CMAKE_ARCHIVE_OUTPUT_DIRECTORY_<CONFIG> if it is set when a target is created.

  • ARCHIVE_OUTPUT_NAME: Output name for ARCHIVE target files.

    This property specifies the base name for archive target files. It overrides OUTPUT_NAME and OUTPUT_NAME_<CONFIG> properties. There are three kinds of target files that may be built: archive, library, and runtime. Executables are always treated as runtime targets. Static libraries are always treated as archive targets. Module libraries are always treated as library targets. For non-DLL platforms shared libraries are treated as library targets. For DLL platforms the DLL part of a shared library is treated as a runtime target and the corresponding import library is treated as an archive target. All Windows-based systems including Cygwin are DLL platforms.

  • ARCHIVE_OUTPUT_NAME_<CONFIG>: Per-configuration output name for ARCHIVE target files.

    This is the configuration-specific version of ARCHIVE_OUTPUT_NAME.

  • AUTOMOC: Should the target be processed with automoc (for Qt projects).

    AUTOMOC is a boolean specifying whether CMake will handle the Qt moc preprocessor automatically, i.e. without having to use the QT4_WRAP_CPP() macro. Currently Qt4 is supported. When this property is set to TRUE, CMake will scan the source files at build time and invoke moc accordingly. If an #include statement like #include "moc_foo.cpp" is found, the Q_OBJECT class declaration is expected in the header, and moc is run on the header file. If an #include statement like #include "foo.moc" is found, then a Q_OBJECT is expected in the current source file and moc is run on the file itself. Additionally, all header files are parsed for Q_OBJECT macros, and if found, moc is also executed on those files. The resulting moc files, which are not included as shown above in any of the source files are included in a generated <targetname>_automoc.cpp file, which is compiled as part of the target.This property is initialized by the value of the variable CMAKE_AUTOMOC if it is set when a target is created.

    Additional command line options for moc can be set via the AUTOMOC_MOC_OPTIONS property.

    By setting the CMAKE_AUTOMOC_RELAXED_MODE variable to TRUE the rules for searching the files which will be processed by moc can be relaxed. See the documentation for this variable for more details.

  • AUTOMOC_MOC_OPTIONS: Additional options for moc when using automoc (see the AUTOMOC property)

    This property is only used if the AUTOMOC property is set to TRUE for this target. In this case, it holds additional command line options which will be used when moc is executed during the build, i.e. it is equivalent to the optional OPTIONS argument of the qt4_wrap_cpp() macro.

    By default it is empty.

  • BUILD_WITH_INSTALL_RPATH: Should build tree targets have install tree rpaths.

    BUILD_WITH_INSTALL_RPATH is a boolean specifying whether to link the target in the build tree with the INSTALL_RPATH. This takes precedence over SKIP_BUILD_RPATH and avoids the need for relinking before installation. This property is initialized by the value of the variable CMAKE_BUILD_WITH_INSTALL_RPATH if it is set when a target is created.

  • BUNDLE: This target is a CFBundle on the Mac.

    If a module library target has this property set to true it will be built as a CFBundle when built on the mac. It will have the directory structure required for a CFBundle and will be suitable to be used for creating Browser Plugins or other application resources.

  • BUNDLE_EXTENSION: The file extension used to name a BUNDLE target on the Mac.

    The default value is "bundle" - you can also use "plugin" or whatever file extension is required by the host app for your bundle.

  • COMPILE_DEFINITIONS: Preprocessor definitions for compiling a target's sources.

    The COMPILE_DEFINITIONS property may be set to a semicolon-separated list of preprocessor definitions using the syntax VAR or VAR=value. Function-style definitions are not supported. CMake will automatically escape the value correctly for the native build system (note that CMake language syntax may require escapes to specify some values). This property may be set on a per-configuration basis using the name COMPILE_DEFINITIONS_<CONFIG> where <CONFIG> is an upper-case name (ex. "COMPILE_DEFINITIONS_DEBUG").

    CMake will automatically drop some definitions that are not supported by the native build tool. The VS6 IDE does not support definition values with spaces (but NMake does).

    Disclaimer: Most native build tools have poor support for escaping certain values. CMake has work-arounds for many cases but some values may just not be possible to pass correctly. If a value does not seem to be escaped correctly, do not attempt to work-around the problem by adding escape sequences to the value. Your work-around may break in a future version of CMake that has improved escape support. Instead consider defining the macro in a (configured) header file. Then report the limitation. Known limitations include:

      #          - broken almost everywhere
    ; - broken in VS IDE and Borland Makefiles
    , - broken in VS IDE
    % - broken in some cases in NMake
    & | - broken in some cases on MinGW
    ^ < > \" - broken in most Make tools on Windows

    CMake does not reject these values outright because they do work in some cases. Use with caution.

  • COMPILE_DEFINITIONS_<CONFIG>: Per-configuration preprocessor definitions on a target.

    This is the configuration-specific version of COMPILE_DEFINITIONS.

  • COMPILE_FLAGS: Additional flags to use when compiling this target's sources.

    The COMPILE_FLAGS property sets additional compiler flags used to build sources within the target. Use COMPILE_DEFINITIONS to pass additional preprocessor definitions.

  • DEBUG_POSTFIX: See target property <CONFIG>_POSTFIX.

    This property is a special case of the more-general <CONFIG>_POSTFIX property for the DEBUG configuration.

  • DEFINE_SYMBOL: Define a symbol when compiling this target's sources.

    DEFINE_SYMBOL sets the name of the preprocessor symbol defined when compiling sources in a shared library. If not set here then it is set to target_EXPORTS by default (with some substitutions if the target is not a valid C identifier). This is useful for headers to know whether they are being included from inside their library our outside to properly setup dllexport/dllimport decorations.

  • ENABLE_EXPORTS: Specify whether an executable exports symbols for loadable modules.

    Normally an executable does not export any symbols because it is the final program. It is possible for an executable to export symbols to be used by loadable modules. When this property is set to true CMake will allow other targets to "link" to the executable with the TARGET_LINK_LIBRARIES command. On all platforms a target-level dependency on the executable is created for targets that link to it. For DLL platforms an import library will be created for the exported symbols and then used for linking. All Windows-based systems including Cygwin are DLL platforms. For non-DLL platforms that require all symbols to be resolved at link time, such as Mac OS X, the module will "link" to the executable using a flag like "-bundle_loader". For other non-DLL platforms the link rule is simply ignored since the dynamic loader will automatically bind symbols when the module is loaded.

  • EXCLUDE_FROM_ALL: Exclude the target from the all target.

    A property on a target that indicates if the target is excluded from the default build target. If it is not, then with a Makefile for example typing make will cause this target to be built. The same concept applies to the default build of other generators. Installing a target with EXCLUDE_FROM_ALL set to true has undefined behavior.

  • EchoString: A message to be displayed when the target is built.

    A message to display on some generators (such as makefiles) when the target is built.

  • FOLDER: Set the folder name. Use to organize targets in an IDE.

    Targets with no FOLDER property will appear as top level entities in IDEs like Visual Studio. Targets with the same FOLDER property value will appear next to each other in a folder of that name. To nest folders, use FOLDER values such as 'GUI/Dialogs' with '/' characters separating folder levels.

  • FRAMEWORK: This target is a framework on the Mac.

    If a shared library target has this property set to true it will be built as a framework when built on the mac. It will have the directory structure required for a framework and will be suitable to be used with the -framework option

  • Fortran_FORMAT: Set to FIXED or FREE to indicate the Fortran source layout.

    This property tells CMake whether the Fortran source files in a target use fixed-format or free-format. CMake will pass the corresponding format flag to the compiler. Use the source-specific Fortran_FORMAT property to change the format of a specific source file. If the variable CMAKE_Fortran_FORMAT is set when a target is created its value is used to initialize this property.

  • Fortran_MODULE_DIRECTORY: Specify output directory for Fortran modules provided by the target.

    If the target contains Fortran source files that provide modules and the compiler supports a module output directory this specifies the directory in which the modules will be placed. When this property is not set the modules will be placed in the build directory corresponding to the target's source directory. If the variable CMAKE_Fortran_MODULE_DIRECTORY is set when a target is created its value is used to initialize this property.

    Note that some compilers will automatically search the module output directory for modules USEd during compilation but others will not. If your sources USE modules their location must be specified by INCLUDE_DIRECTORIES regardless of this property.

  • GENERATOR_FILE_NAME: Generator's file for this target.

    An internal property used by some generators to record the name of project or dsp file associated with this target.

  • GNUtoMS: Convert GNU import library (.dll.a) to MS format (.lib).

    When linking a shared library or executable that exports symbols using GNU tools on Windows (MinGW/MSYS) with Visual Studio installed convert the import library (.dll.a) from GNU to MS format (.lib). Both import libraries will be installed by install(TARGETS) and exported by install(EXPORT) and export() to be linked by applications with either GNU- or MS-compatible tools.

    If the variable CMAKE_GNUtoMS is set when a target is created its value is used to initialize this property. The variable must be set prior to the first command that enables a language such as project() or enable_language(). CMake provides the variable as an option to the user automatically when configuring on Windows with GNU tools.

  • HAS_CXX: Link the target using the C++ linker tool (obsolete).

    This is equivalent to setting the LINKER_LANGUAGE property to CXX. See that property's documentation for details.

  • IMPLICIT_DEPENDS_INCLUDE_TRANSFORM: Specify #include line transforms for dependencies in a target.

    This property specifies rules to transform macro-like #include lines during implicit dependency scanning of C and C++ source files. The list of rules must be semicolon-separated with each entry of the form "A_MACRO(%)=value-with-%" (the % must be literal). During dependency scanning occurrences of A_MACRO(...) on #include lines will be replaced by the value given with the macro argument substituted for '%'. For example, the entry

      MYDIR(%)=<mydir/%>

    will convert lines of the form

      #include MYDIR(myheader.h)

    to

      #include <mydir/myheader.h>

    allowing the dependency to be followed.

    This property applies to sources in the target on which it is set.

  • IMPORTED: Read-only indication of whether a target is IMPORTED.

    The boolean value of this property is true for targets created with the IMPORTED option to add_executable or add_library. It is false for targets built within the project.

  • IMPORTED_CONFIGURATIONS: Configurations provided for an IMPORTED target.

    Set this to the list of configuration names available for an IMPORTED target. The names correspond to configurations defined in the project from which the target is imported. If the importing project uses a different set of configurations the names may be mapped using the MAP_IMPORTED_CONFIG_<CONFIG> property. Ignored for non-imported targets.

  • IMPORTED_IMPLIB: Full path to the import library for an IMPORTED target.

    Set this to the location of the ".lib" part of a windows DLL. Ignored for non-imported targets.

  • IMPORTED_IMPLIB_<CONFIG>: <CONFIG>-specific version of IMPORTED_IMPLIB property.

    Configuration names correspond to those provided by the project from which the target is imported.

  • IMPORTED_LINK_DEPENDENT_LIBRARIES: Dependent shared libraries of an imported shared library.

    Shared libraries may be linked to other shared libraries as part of their implementation. On some platforms the linker searches for the dependent libraries of shared libraries they are including in the link. Set this property to the list of dependent shared libraries of an imported library. The list should be disjoint from the list of interface libraries in the IMPORTED_LINK_INTERFACE_LIBRARIES property. On platforms requiring dependent shared libraries to be found at link time CMake uses this list to add appropriate files or paths to the link command line. Ignored for non-imported targets.

  • IMPORTED_LINK_DEPENDENT_LIBRARIES_<CONFIG>: <CONFIG>-specific version of IMPORTED_LINK_DEPENDENT_LIBRARIES.

    Configuration names correspond to those provided by the project from which the target is imported. If set, this property completely overrides the generic property for the named configuration.

  • IMPORTED_LINK_INTERFACE_LANGUAGES: Languages compiled into an IMPORTED static library.

    Set this to the list of languages of source files compiled to produce a STATIC IMPORTED library (such as "C" or "CXX"). CMake accounts for these languages when computing how to link a target to the imported library. For example, when a C executable links to an imported C++ static library CMake chooses the C++ linker to satisfy language runtime dependencies of the static library.

    This property is ignored for targets that are not STATIC libraries. This property is ignored for non-imported targets.

  • IMPORTED_LINK_INTERFACE_LANGUAGES_<CONFIG>: <CONFIG>-specific version of IMPORTED_LINK_INTERFACE_LANGUAGES.

    Configuration names correspond to those provided by the project from which the target is imported. If set, this property completely overrides the generic property for the named configuration.

  • IMPORTED_LINK_INTERFACE_LIBRARIES: Transitive link interface of an IMPORTED target.

    Set this to the list of libraries whose interface is included when an IMPORTED library target is linked to another target. The libraries will be included on the link line for the target. Unlike the LINK_INTERFACE_LIBRARIES property, this property applies to all imported target types, including STATIC libraries. This property is ignored for non-imported targets.

  • IMPORTED_LINK_INTERFACE_LIBRARIES_<CONFIG>: <CONFIG>-specific version of IMPORTED_LINK_INTERFACE_LIBRARIES.

    Configuration names correspond to those provided by the project from which the target is imported. If set, this property completely overrides the generic property for the named configuration.

  • IMPORTED_LINK_INTERFACE_MULTIPLICITY: Repetition count for cycles of IMPORTED static libraries.

    This is LINK_INTERFACE_MULTIPLICITY for IMPORTED targets.

  • IMPORTED_LINK_INTERFACE_MULTIPLICITY_<CONFIG>: <CONFIG>-specific version of IMPORTED_LINK_INTERFACE_MULTIPLICITY.

    If set, this property completely overrides the generic property for the named configuration.

  • IMPORTED_LOCATION: Full path to the main file on disk for an IMPORTED target.

    Set this to the location of an IMPORTED target file on disk. For executables this is the location of the executable file. For bundles on OS X this is the location of the executable file inside Contents/MacOS under the application bundle folder. For static libraries and modules this is the location of the library or module. For shared libraries on non-DLL platforms this is the location of the shared library. For frameworks on OS X this is the location of the library file symlink just inside the framework folder. For DLLs this is the location of the ".dll" part of the library. For UNKNOWN libraries this is the location of the file to be linked. Ignored for non-imported targets.

    Projects may skip IMPORTED_LOCATION if the configuration-specific property IMPORTED_LOCATION_<CONFIG> is set. To get the location of an imported target read one of the LOCATION or LOCATION_<CONFIG> properties.

  • IMPORTED_LOCATION_<CONFIG>: <CONFIG>-specific version of IMPORTED_LOCATION property.

    Configuration names correspond to those provided by the project from which the target is imported.

  • IMPORTED_NO_SONAME: Specifies that an IMPORTED shared library target has no "soname".

    Set this property to true for an imported shared library file that has no "soname" field. CMake may adjust generated link commands for some platforms to prevent the linker from using the path to the library in place of its missing soname. Ignored for non-imported targets.

  • IMPORTED_NO_SONAME_<CONFIG>: <CONFIG>-specific version of IMPORTED_NO_SONAME property.

    Configuration names correspond to those provided by the project from which the target is imported.

  • IMPORTED_SONAME: The "soname" of an IMPORTED target of shared library type.

    Set this to the "soname" embedded in an imported shared library. This is meaningful only on platforms supporting the feature. Ignored for non-imported targets.

  • IMPORTED_SONAME_<CONFIG>: <CONFIG>-specific version of IMPORTED_SONAME property.

    Configuration names correspond to those provided by the project from which the target is imported.

  • IMPORT_PREFIX: What comes before the import library name.

    Similar to the target property PREFIX, but used for import libraries (typically corresponding to a DLL) instead of regular libraries. A target property that can be set to override the prefix (such as "lib") on an import library name.

  • IMPORT_SUFFIX: What comes after the import library name.

    Similar to the target property SUFFIX, but used for import libraries (typically corresponding to a DLL) instead of regular libraries. A target property that can be set to override the suffix (such as ".lib") on an import library name.

  • INCLUDE_DIRECTORIES: List of preprocessor include file search directories.

    This property specifies the list of directories given so far to the include_directories command. This property exists on directories and targets. In addition to accepting values from the include_directories command, values may be set directly on any directory or any target using the set_property command. A target gets its initial value for this property from the value of the directory property. A directory gets its initial value from its parent directory if it has one. Both directory and target property values are adjusted by calls to the include_directories command.

    The target property values are used by the generators to set the include paths for the compiler. See also the include_directories command.

  • INSTALL_NAME_DIR: Mac OSX directory name for installed targets.

    INSTALL_NAME_DIR is a string specifying the directory portion of the "install_name" field of shared libraries on Mac OSX to use in the installed targets.

  • INSTALL_RPATH: The rpath to use for installed targets.

    A semicolon-separated list specifying the rpath to use in installed targets (for platforms that support it). This property is initialized by the value of the variable CMAKE_INSTALL_RPATH if it is set when a target is created.

  • INSTALL_RPATH_USE_LINK_PATH: Add paths to linker search and installed rpath.

    INSTALL_RPATH_USE_LINK_PATH is a boolean that if set to true will append directories in the linker search path and outside the project to the INSTALL_RPATH. This property is initialized by the value of the variable CMAKE_INSTALL_RPATH_USE_LINK_PATH if it is set when a target is created.

  • INTERPROCEDURAL_OPTIMIZATION: Enable interprocedural optimization for a target.

    If set to true, enables interprocedural optimizations if they are known to be supported by the compiler.

  • INTERPROCEDURAL_OPTIMIZATION_<CONFIG>: Per-configuration interprocedural optimization for a target.

    This is a per-configuration version of INTERPROCEDURAL_OPTIMIZATION. If set, this property overrides the generic property for the named configuration.

  • LABELS: Specify a list of text labels associated with a target.

    Target label semantics are currently unspecified.

  • LIBRARY_OUTPUT_DIRECTORY: Output directory in which to build LIBRARY target files.

    This property specifies the directory into which library target files should be built. Multi-configuration generators (VS, Xcode) append a per-configuration subdirectory to the specified directory. There are three kinds of target files that may be built: archive, library, and runtime. Executables are always treated as runtime targets. Static libraries are always treated as archive targets. Module libraries are always treated as library targets. For non-DLL platforms shared libraries are treated as library targets. For DLL platforms the DLL part of a shared library is treated as a runtime target and the corresponding import library is treated as an archive target. All Windows-based systems including Cygwin are DLL platforms. This property is initialized by the value of the variable CMAKE_LIBRARY_OUTPUT_DIRECTORY if it is set when a target is created.

  • LIBRARY_OUTPUT_DIRECTORY_<CONFIG>: Per-configuration output directory for LIBRARY target files.

    This is a per-configuration version of LIBRARY_OUTPUT_DIRECTORY, but multi-configuration generators (VS, Xcode) do NOT append a per-configuration subdirectory to the specified directory. This property is initialized by the value of the variable CMAKE_LIBRARY_OUTPUT_DIRECTORY_<CONFIG> if it is set when a target is created.

  • LIBRARY_OUTPUT_NAME: Output name for LIBRARY target files.

    This property specifies the base name for library target files. It overrides OUTPUT_NAME and OUTPUT_NAME_<CONFIG> properties. There are three kinds of target files that may be built: archive, library, and runtime. Executables are always treated as runtime targets. Static libraries are always treated as archive targets. Module libraries are always treated as library targets. For non-DLL platforms shared libraries are treated as library targets. For DLL platforms the DLL part of a shared library is treated as a runtime target and the corresponding import library is treated as an archive target. All Windows-based systems including Cygwin are DLL platforms.

  • LIBRARY_OUTPUT_NAME_<CONFIG>: Per-configuration output name for LIBRARY target files.

    This is the configuration-specific version of LIBRARY_OUTPUT_NAME.

  • LINKER_LANGUAGE: Specifies language whose compiler will invoke the linker.

    For executables, shared libraries, and modules, this sets the language whose compiler is used to link the target (such as "C" or "CXX"). A typical value for an executable is the language of the source file providing the program entry point (main). If not set, the language with the highest linker preference value is the default. See documentation of CMAKE_<LANG>_LINKER_PREFERENCE variables.

  • LINK_DEPENDS: Additional files on which a target binary depends for linking.

    Specifies a semicolon-separated list of full-paths to files on which the link rule for this target depends. The target binary will be linked if any of the named files is newer than it.

    This property is ignored by non-Makefile generators. It is intended to specify dependencies on "linker scripts" for custom Makefile link rules.

  • LINK_FLAGS: Additional flags to use when linking this target.

    The LINK_FLAGS property can be used to add extra flags to the link step of a target. LINK_FLAGS_<CONFIG> will add to the configuration <CONFIG>, for example, DEBUG, RELEASE, MINSIZEREL, RELWITHDEBINFO.

  • LINK_FLAGS_<CONFIG>: Per-configuration linker flags for a target.

    This is the configuration-specific version of LINK_FLAGS.

  • LINK_INTERFACE_LIBRARIES: List public interface libraries for a shared library or executable.

    By default linking to a shared library target transitively links to targets with which the library itself was linked. For an executable with exports (see the ENABLE_EXPORTS property) no default transitive link dependencies are used. This property replaces the default transitive link dependencies with an explicit list. When the target is linked into another target the libraries listed (and recursively their link interface libraries) will be provided to the other target also. If the list is empty then no transitive link dependencies will be incorporated when this target is linked into another target even if the default set is non-empty. This property is initialized by the value of the variable CMAKE_LINK_INTERFACE_LIBRARIES if it is set when a target is created. This property is ignored for STATIC libraries.

  • LINK_INTERFACE_LIBRARIES_<CONFIG>: Per-configuration list of public interface libraries for a target.

    This is the configuration-specific version of LINK_INTERFACE_LIBRARIES. If set, this property completely overrides the generic property for the named configuration.

  • LINK_INTERFACE_MULTIPLICITY: Repetition count for STATIC libraries with cyclic dependencies.

    When linking to a STATIC library target with cyclic dependencies the linker may need to scan more than once through the archives in the strongly connected component of the dependency graph. CMake by default constructs the link line so that the linker will scan through the component at least twice. This property specifies the minimum number of scans if it is larger than the default. CMake uses the largest value specified by any target in a component.

  • LINK_INTERFACE_MULTIPLICITY_<CONFIG>: Per-configuration repetition count for cycles of STATIC libraries.

    This is the configuration-specific version of LINK_INTERFACE_MULTIPLICITY. If set, this property completely overrides the generic property for the named configuration.

  • LINK_SEARCH_END_STATIC: End a link line such that static system libraries are used.

    Some linkers support switches such as -Bstatic and -Bdynamic to determine whether to use static or shared libraries for -lXXX options. CMake uses these options to set the link type for libraries whose full paths are not known or (in some cases) are in implicit link directories for the platform. By default CMake adds an option at the end of the library list (if necessary) to set the linker search type back to its starting type. This property switches the final linker search type to -Bstatic regardless of how it started. See also LINK_SEARCH_START_STATIC.

  • LINK_SEARCH_START_STATIC: Assume the linker looks for static libraries by default.

    Some linkers support switches such as -Bstatic and -Bdynamic to determine whether to use static or shared libraries for -lXXX options. CMake uses these options to set the link type for libraries whose full paths are not known or (in some cases) are in implicit link directories for the platform. By default the linker search type is assumed to be -Bdynamic at the beginning of the library list. This property switches the assumption to -Bstatic. It is intended for use when linking an executable statically (e.g. with the GNU -static option). See also LINK_SEARCH_END_STATIC.

  • LOCATION: Read-only location of a target on disk.

    For an imported target, this read-only property returns the value of the LOCATION_<CONFIG> property for an unspecified configuration <CONFIG> provided by the target.

    For a non-imported target, this property is provided for compatibility with CMake 2.4 and below. It was meant to get the location of an executable target's output file for use in add_custom_command. The path may contain a build-system-specific portion that is replaced at build time with the configuration getting built (such as "$(ConfigurationName)" in VS). In CMake 2.6 and above add_custom_command automatically recognizes a target name in its COMMAND and DEPENDS options and computes the target location. In CMake 2.8.4 and above add_custom_command recognizes generator expressions to refer to target locations anywhere in the command. Therefore this property is not needed for creating custom commands.

    Do not set properties that affect the location of a target after reading this property. These include properties whose names match "(RUNTIME|LIBRARY|ARCHIVE)_OUTPUT_(NAME|DIRECTORY)(_<CONFIG>)?" or "(IMPLIB_)?(PREFIX|SUFFIX)". Failure to follow this rule is not diagnosed and leaves the location of the target undefined.

  • LOCATION_<CONFIG>: Read-only property providing a target location on disk.

    A read-only property that indicates where a target's main file is located on disk for the configuration <CONFIG>. The property is defined only for library and executable targets. An imported target may provide a set of configurations different from that of the importing project. By default CMake looks for an exact-match but otherwise uses an arbitrary available configuration. Use the MAP_IMPORTED_CONFIG_<CONFIG> property to map imported configurations explicitly.

    Do not set properties that affect the location of a target after reading this property. These include properties whose names match "(RUNTIME|LIBRARY|ARCHIVE)_OUTPUT_(NAME|DIRECTORY)(_<CONFIG>)?" or "(IMPLIB_)?(PREFIX|SUFFIX)". Failure to follow this rule is not diagnosed and leaves the location of the target undefined.

  • MACOSX_BUNDLE: Build an executable as an application bundle on Mac OS X.

    When this property is set to true the executable when built on Mac OS X will be created as an application bundle. This makes it a GUI executable that can be launched from the Finder. See the MACOSX_BUNDLE_INFO_PLIST target property for information about creation of the Info.plist file for the application bundle. This property is initialized by the value of the variable CMAKE_MACOSX_BUNDLE if it is set when a target is created.

  • MACOSX_BUNDLE_INFO_PLIST: Specify a custom Info.plist template for a Mac OS X App Bundle.

    An executable target with MACOSX_BUNDLE enabled will be built as an application bundle on Mac OS X. By default its Info.plist file is created by configuring a template called MacOSXBundleInfo.plist.in located in the CMAKE_MODULE_PATH. This property specifies an alternative template file name which may be a full path.

    The following target properties may be set to specify content to be configured into the file:

      MACOSX_BUNDLE_INFO_STRING
    MACOSX_BUNDLE_ICON_FILE
    MACOSX_BUNDLE_GUI_IDENTIFIER
    MACOSX_BUNDLE_LONG_VERSION_STRING
    MACOSX_BUNDLE_BUNDLE_NAME
    MACOSX_BUNDLE_SHORT_VERSION_STRING
    MACOSX_BUNDLE_BUNDLE_VERSION
    MACOSX_BUNDLE_COPYRIGHT

    CMake variables of the same name may be set to affect all targets in a directory that do not have each specific property set. If a custom Info.plist is specified by this property it may of course hard-code all the settings instead of using the target properties.

  • MACOSX_FRAMEWORK_INFO_PLIST: Specify a custom Info.plist template for a Mac OS X Framework.

    An library target with FRAMEWORK enabled will be built as a framework on Mac OS X. By default its Info.plist file is created by configuring a template called MacOSXFrameworkInfo.plist.in located in the CMAKE_MODULE_PATH. This property specifies an alternative template file name which may be a full path.

    The following target properties may be set to specify content to be configured into the file:

      MACOSX_FRAMEWORK_ICON_FILE
    MACOSX_FRAMEWORK_IDENTIFIER
    MACOSX_FRAMEWORK_SHORT_VERSION_STRING
    MACOSX_FRAMEWORK_BUNDLE_VERSION

    CMake variables of the same name may be set to affect all targets in a directory that do not have each specific property set. If a custom Info.plist is specified by this property it may of course hard-code all the settings instead of using the target properties.

  • MAP_IMPORTED_CONFIG_<CONFIG>: Map from project configuration to IMPORTED target's configuration.

    Set this to the list of configurations of an imported target that may be used for the current project's <CONFIG> configuration. Targets imported from another project may not provide the same set of configuration names available in the current project. Setting this property tells CMake what imported configurations are suitable for use when building the <CONFIG> configuration. The first configuration in the list found to be provided by the imported target is selected. If no matching configurations are available the imported target is considered to be not found. This property is ignored for non-imported targets.

  • OSX_ARCHITECTURES: Target specific architectures for OS X.

    The OSX_ARCHITECTURES property sets the target binary architecture for targets on OS X. This property is initialized by the value of the variable CMAKE_OSX_ARCHITECTURES if it is set when a target is created. Use OSX_ARCHITECTURES_<CONFIG> to set the binary architectures on a per-configuration basis. <CONFIG> is an upper-case name (ex: "OSX_ARCHITECTURES_DEBUG").

  • OSX_ARCHITECTURES_<CONFIG>: Per-configuration OS X binary architectures for a target.

    This property is the configuration-specific version of OSX_ARCHITECTURES.

  • OUTPUT_NAME: Output name for target files.

    This sets the base name for output files created for an executable or library target. If not set, the logical target name is used by default.

  • OUTPUT_NAME_<CONFIG>: Per-configuration target file base name.

    This is the configuration-specific version of OUTPUT_NAME.

  • POST_INSTALL_SCRIPT: Deprecated install support.

    The PRE_INSTALL_SCRIPT and POST_INSTALL_SCRIPT properties are the old way to specify CMake scripts to run before and after installing a target. They are used only when the old INSTALL_TARGETS command is used to install the target. Use the INSTALL command instead.

  • PREFIX: What comes before the library name.

    A target property that can be set to override the prefix (such as "lib") on a library name.

  • PRE_INSTALL_SCRIPT: Deprecated install support.

    The PRE_INSTALL_SCRIPT and POST_INSTALL_SCRIPT properties are the old way to specify CMake scripts to run before and after installing a target. They are used only when the old INSTALL_TARGETS command is used to install the target. Use the INSTALL command instead.

  • PRIVATE_HEADER: Specify private header files in a FRAMEWORK shared library target.

    Shared library targets marked with the FRAMEWORK property generate frameworks on OS X and normal shared libraries on other platforms. This property may be set to a list of header files to be placed in the PrivateHeaders directory inside the framework folder. On non-Apple platforms these headers may be installed using the PRIVATE_HEADER option to the install(TARGETS) command.

  • PROJECT_LABEL: Change the name of a target in an IDE.

    Can be used to change the name of the target in an IDE like Visual Studio.

  • PUBLIC_HEADER: Specify public header files in a FRAMEWORK shared library target.

    Shared library targets marked with the FRAMEWORK property generate frameworks on OS X and normal shared libraries on other platforms. This property may be set to a list of header files to be placed in the Headers directory inside the framework folder. On non-Apple platforms these headers may be installed using the PUBLIC_HEADER option to the install(TARGETS) command.

  • RESOURCE: Specify resource files in a FRAMEWORK shared library target.

    Shared library targets marked with the FRAMEWORK property generate frameworks on OS X and normal shared libraries on other platforms. This property may be set to a list of files to be placed in the Resources directory inside the framework folder. On non-Apple platforms these files may be installed using the RESOURCE option to the install(TARGETS) command.

  • RULE_LAUNCH_COMPILE: Specify a launcher for compile rules.

    See the global property of the same name for details. This overrides the global and directory property for a target.

  • RULE_LAUNCH_CUSTOM: Specify a launcher for custom rules.

    See the global property of the same name for details. This overrides the global and directory property for a target.

  • RULE_LAUNCH_LINK: Specify a launcher for link rules.

    See the global property of the same name for details. This overrides the global and directory property for a target.

  • RUNTIME_OUTPUT_DIRECTORY: Output directory in which to build RUNTIME target files.

    This property specifies the directory into which runtime target files should be built. Multi-configuration generators (VS, Xcode) append a per-configuration subdirectory to the specified directory. There are three kinds of target files that may be built: archive, library, and runtime. Executables are always treated as runtime targets. Static libraries are always treated as archive targets. Module libraries are always treated as library targets. For non-DLL platforms shared libraries are treated as library targets. For DLL platforms the DLL part of a shared library is treated as a runtime target and the corresponding import library is treated as an archive target. All Windows-based systems including Cygwin are DLL platforms. This property is initialized by the value of the variable CMAKE_RUNTIME_OUTPUT_DIRECTORY if it is set when a target is created.

  • RUNTIME_OUTPUT_DIRECTORY_<CONFIG>: Per-configuration output directory for RUNTIME target files.

    This is a per-configuration version of RUNTIME_OUTPUT_DIRECTORY, but multi-configuration generators (VS, Xcode) do NOT append a per-configuration subdirectory to the specified directory. This property is initialized by the value of the variable CMAKE_RUNTIME_OUTPUT_DIRECTORY_<CONFIG> if it is set when a target is created.

  • RUNTIME_OUTPUT_NAME: Output name for RUNTIME target files.

    This property specifies the base name for runtime target files. It overrides OUTPUT_NAME and OUTPUT_NAME_<CONFIG> properties. There are three kinds of target files that may be built: archive, library, and runtime. Executables are always treated as runtime targets. Static libraries are always treated as archive targets. Module libraries are always treated as library targets. For non-DLL platforms shared libraries are treated as library targets. For DLL platforms the DLL part of a shared library is treated as a runtime target and the corresponding import library is treated as an archive target. All Windows-based systems including Cygwin are DLL platforms.

  • RUNTIME_OUTPUT_NAME_<CONFIG>: Per-configuration output name for RUNTIME target files.

    This is the configuration-specific version of RUNTIME_OUTPUT_NAME.

  • SKIP_BUILD_RPATH: Should rpaths be used for the build tree.

    SKIP_BUILD_RPATH is a boolean specifying whether to skip automatic generation of an rpath allowing the target to run from the build tree. This property is initialized by the value of the variable CMAKE_SKIP_BUILD_RPATH if it is set when a target is created.

  • SOURCES: Source names specified for a target.

    Read-only list of sources specified for a target. The names returned are suitable for passing to the set_source_files_properties command.

  • SOVERSION: What version number is this target.

    For shared libraries VERSION and SOVERSION can be used to specify the build version and api version respectively. When building or installing appropriate symlinks are created if the platform supports symlinks and the linker supports so-names. If only one of both is specified the missing is assumed to have the same version number. For shared libraries and executables on Windows the VERSION attribute is parsed to extract a "major.minor" version number. These numbers are used as the image version of the binary.

  • STATIC_LIBRARY_FLAGS: Extra flags to use when linking static libraries.

    Extra flags to use when linking a static library.

  • STATIC_LIBRARY_FLAGS_<CONFIG>: Per-configuration flags for creating a static library.

    This is the configuration-specific version of STATIC_LIBRARY_FLAGS.

  • SUFFIX: What comes after the target name.

    A target property that can be set to override the suffix (such as ".so" or ".exe") on the name of a library, module or executable.

  • TYPE: The type of the target.

    This read-only property can be used to test the type of the given target. It will be one of STATIC_LIBRARY, MODULE_LIBRARY, SHARED_LIBRARY, EXECUTABLE or one of the internal target types.

  • VERSION: What version number is this target.

    For shared libraries VERSION and SOVERSION can be used to specify the build version and api version respectively. When building or installing appropriate symlinks are created if the platform supports symlinks and the linker supports so-names. If only one of both is specified the missing is assumed to have the same version number. For executables VERSION can be used to specify the build version. When building or installing appropriate symlinks are created if the platform supports symlinks. For shared libraries and executables on Windows the VERSION attribute is parsed to extract a "major.minor" version number. These numbers are used as the image version of the binary.

  • VS_DOTNET_REFERENCES: Visual Studio managed project .NET references

    Adds one or more semicolon-delimited .NET references to a generated Visual Studio project. For example, "System;System.Windows.Forms".

  • VS_GLOBAL_<variable>: Visual Studio project-specific global variable.

    Tell the Visual Studio generator to set the global variable '<variable>' to a given value in the generated Visual Studio project. Ignored on other generators. Qt integration works better if VS_GLOBAL_QtVersion is set to the version FindQt4.cmake found. For example, "4.7.3"

  • VS_GLOBAL_KEYWORD: Visual Studio project keyword.

    Sets the "keyword" attribute for a generated Visual Studio project. Defaults to "Win32Proj". You may wish to override this value with "ManagedCProj", for example, in a Visual Studio managed C++ unit test project.

  • VS_GLOBAL_PROJECT_TYPES: Visual Studio project type(s).

    Can be set to one or more UUIDs recognized by Visual Studio to indicate the type of project. This value is copied verbatim into the generated project file. Example for a managed C++ unit testing project:

     {3AC096D0-A1C2-E12C-1390-A8335801FDAB};{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}

    UUIDs are semicolon-delimited.

  • VS_KEYWORD: Visual Studio project keyword.

    Can be set to change the visual studio keyword, for example QT integration works better if this is set to Qt4VSv1.0.

  • VS_SCC_AUXPATH: Visual Studio Source Code Control Aux Path.

    Can be set to change the visual studio source code control auxpath property.

  • VS_SCC_LOCALPATH: Visual Studio Source Code Control Local Path.

    Can be set to change the visual studio source code control local path property.

  • VS_SCC_PROJECTNAME: Visual Studio Source Code Control Project.

    Can be set to change the visual studio source code control project name property.

  • VS_SCC_PROVIDER: Visual Studio Source Code Control Provider.

    Can be set to change the visual studio source code control provider property.

  • VS_WINRT_EXTENSIONS: Visual Studio project C++/CX language extensions for Windows Runtime

    Can be set to enable C++/CX language extensions.

  • VS_WINRT_REFERENCES: Visual Studio project Windows Runtime Metadata references

    Adds one or more semicolon-delimited WinRT references to a generated Visual Studio project. For example, "Windows;Windows.UI.Core".

  • WIN32_EXECUTABLE: Build an executable with a WinMain entry point on windows.

    When this property is set to true the executable when linked on Windows will be created with a WinMain() entry point instead of of just main().This makes it a GUI executable instead of a console application. See the CMAKE_MFC_FLAG variable documentation to configure use of MFC for WinMain executables. This property is initialized by the value of the variable CMAKE_WIN32_EXECUTABLE if it is set when a target is created.

  • XCODE_ATTRIBUTE_<an-attribute>: Set Xcode target attributes directly.

    Tell the Xcode generator to set '<an-attribute>' to a given value in the generated Xcode project. Ignored on other generators.

Properties on Tests

  • ATTACHED_FILES: Attach a list of files to a dashboard submission.

    Set this property to a list of files that will be encoded and submitted to the dashboard as an addition to the test result.

  • ATTACHED_FILES_ON_FAIL: Attach a list of files to a dashboard submission if the test fails.

    Same as ATTACHED_FILES, but these files will only be included if the test does not pass.

  • COST: Set this to a floating point value. Tests in a test set will be run in descending order of cost.

    This property describes the cost of a test. You can explicitly set this value; tests with higher COST values will run first.

  • DEPENDS: Specifies that this test should only be run after the specified list of tests.

    Set this to a list of tests that must finish before this test is run.

  • ENVIRONMENT: Specify environment variables that should be defined for running a test.

    If set to a list of environment variables and values of the form MYVAR=value those environment variables will be defined while running the test. The environment is restored to its previous state after the test is done.

  • FAIL_REGULAR_EXPRESSION: If the output matches this regular expression the test will fail.

    If set, if the output matches one of specified regular expressions, the test will fail.For example: PASS_REGULAR_EXPRESSION "[^a-z]Error;ERROR;Failed"

  • LABELS: Specify a list of text labels associated with a test.

    The list is reported in dashboard submissions.

  • MEASUREMENT: Specify a CDASH measurement and value to be reported for a test.

    If set to a name then that name will be reported to CDASH as a named measurement with a value of 1. You may also specify a value by setting MEASUREMENT to "measurement=value".

  • PASS_REGULAR_EXPRESSION: The output must match this regular expression for the test to pass.

    If set, the test output will be checked against the specified regular expressions and at least one of the regular expressions has to match, otherwise the test will fail.

  • PROCESSORS: How many process slots this test requires

    Denotes the number of processors that this test will require. This is typically used for MPI tests, and should be used in conjunction with the ctest_test PARALLEL_LEVEL option.

  • REQUIRED_FILES: List of files required to run the test.

    If set to a list of files, the test will not be run unless all of the files exist.

  • RESOURCE_LOCK: Specify a list of resources that are locked by this test.

    If multiple tests specify the same resource lock, they are guaranteed not to run concurrently.

  • RUN_SERIAL: Do not run this test in parallel with any other test.

    Use this option in conjunction with the ctest_test PARALLEL_LEVEL option to specify that this test should not be run in parallel with any other tests.

  • TIMEOUT: How many seconds to allow for this test.

    This property if set will limit a test to not take more than the specified number of seconds to run. If it exceeds that the test process will be killed and ctest will move to the next test. This setting takes precedence over CTEST_TESTING_TIMEOUT.

  • WILL_FAIL: If set to true, this will invert the pass/fail flag of the test.

    This property can be used for tests that are expected to fail and return a non zero return code.

  • WORKING_DIRECTORY: The directory from which the test executable will be called.

    If this is not set it is called from the directory the test executable is located in.

Variables

Variables That Change Behavior

  • BUILD_SHARED_LIBS: Global flag to cause add_library to create shared libraries if on.

    If present and true, this will cause all libraries to be built shared unless the library was explicitly added as a static library. This variable is often added to projects as an OPTION so that each user of a project can decide if they want to build the project using shared or static libraries.

  • CMAKE_AUTOMOC_RELAXED_MODE: Switch between strict and relaxed automoc mode.

    By default, automoc behaves exactly as described in the documentation of the AUTOMOC target property. When set to TRUE, it accepts more input and tries to find the correct input file for moc even if it differs from the documented behaviour. In this mode it e.g. also checks whether a header file is intended to be processed by moc when a "foo.moc" file has been included.

    Relaxed mode has to be enabled for KDE4 compatibility.

  • CMAKE_BACKWARDS_COMPATIBILITY: Version of cmake required to build project

    From the point of view of backwards compatibility, this specifies what version of CMake should be supported. By default this value is the version number of CMake that you are running. You can set this to an older version of CMake to support deprecated commands of CMake in projects that were written to use older versions of CMake. This can be set by the user or set at the beginning of a CMakeLists file.

  • CMAKE_BUILD_TYPE: Specifies the build type for make based generators.

    This specifies what build type will be built in this tree. Possible values are empty, Debug, Release, RelWithDebInfo and MinSizeRel. This variable is only supported for make based generators. If this variable is supported, then CMake will also provide initial values for the variables with the name CMAKE_C_FLAGS_[DEBUG|RELEASE|RELWITHDEBINFO|MINSIZEREL]. For example, if CMAKE_BUILD_TYPE is Debug, then CMAKE_C_FLAGS_DEBUG will be added to the CMAKE_C_FLAGS.

  • CMAKE_COLOR_MAKEFILE: Enables color output when using the Makefile generator.

    When enabled, the generated Makefiles will produce colored output. Default is ON.

  • CMAKE_CONFIGURATION_TYPES: Specifies the available build types.

    This specifies what build types will be available such as Debug, Release, RelWithDebInfo etc. This has reasonable defaults on most platforms. But can be extended to provide other build types. See also CMAKE_BUILD_TYPE.

  • CMAKE_DISABLE_FIND_PACKAGE_<PackageName>: Variable for disabling find_package() calls.

    Every non-REQUIRED find_package() call in a project can be disabled by setting the variable CMAKE_DISABLE_FIND_PACKAGE_<PackageName> to TRUE. This can be used to build a project without an optional package, although that package is installed.

    This switch should be used during the initial CMake run. Otherwise if the package has already been found in a previous CMake run, the variables which have been stored in the cache will still be there. In the case it is recommended to remove the cache variables for this package from the cache using the cache editor or cmake -U

  • CMAKE_FIND_LIBRARY_PREFIXES: Prefixes to prepend when looking for libraries.

    This specifies what prefixes to add to library names when the find_library command looks for libraries. On UNIX systems this is typically lib, meaning that when trying to find the foo library it will look for libfoo.

  • CMAKE_FIND_LIBRARY_SUFFIXES: Suffixes to append when looking for libraries.

    This specifies what suffixes to add to library names when the find_library command looks for libraries. On Windows systems this is typically .lib and .dll, meaning that when trying to find the foo library it will look for foo.dll etc.

  • CMAKE_FIND_PACKAGE_WARN_NO_MODULE: Tell find_package to warn if called without an explicit mode.

    If find_package is called without an explicit mode option (MODULE, CONFIG or NO_MODULE) and no Find<pkg>.cmake module is in CMAKE_MODULE_PATH then CMake implicitly assumes that the caller intends to search for a package configuration file. If no package configuration file is found then the wording of the failure message must account for both the case that the package is really missing and the case that the project has a bug and failed to provide the intended Find module. If instead the caller specifies an explicit mode option then the failure message can be more specific.

    Set CMAKE_FIND_PACKAGE_WARN_NO_MODULE to TRUE to tell find_package to warn when it implicitly assumes Config mode. This helps developers enforce use of an explicit mode in all calls to find_package within a project.

  • CMAKE_IGNORE_PATH: Path to be ignored by FIND_XXX() commands.

    Specifies directories to be ignored by searches in FIND_XXX() commands This is useful in cross-compiled environments where some system directories contain incompatible but possibly linkable libraries. For example, on cross-compiled cluster environments, this allows a user to ignore directories containing libraries meant for the front-end machine that modules like FindX11 (and others) would normally search. By default this is empty; it is intended to be set by the project. Note that CMAKE_IGNORE_PATH takes a list of directory names, NOT a list of prefixes. If you want to ignore paths under prefixes (bin, include, lib, etc.), you'll need to specify them explicitly. See also CMAKE_PREFIX_PATH, CMAKE_LIBRARY_PATH, CMAKE_INCLUDE_PATH, CMAKE_PROGRAM_PATH.

  • CMAKE_INCLUDE_PATH: Path used for searching by FIND_FILE() and FIND_PATH().

    Specifies a path which will be used both by FIND_FILE() and FIND_PATH(). Both commands will check each of the contained directories for the existence of the file which is currently searched. By default it is empty, it is intended to be set by the project. See also CMAKE_SYSTEM_INCLUDE_PATH, CMAKE_PREFIX_PATH.

  • CMAKE_INSTALL_PREFIX: Install directory used by install.

    If "make install" is invoked or INSTALL is built, this directory is pre-pended onto all install directories. This variable defaults to /usr/local on UNIX and c:/Program Files on Windows.

  • CMAKE_LIBRARY_PATH: Path used for searching by FIND_LIBRARY().

    Specifies a path which will be used by FIND_LIBRARY(). FIND_LIBRARY() will check each of the contained directories for the existence of the library which is currently searched. By default it is empty, it is intended to be set by the project. See also CMAKE_SYSTEM_LIBRARY_PATH, CMAKE_PREFIX_PATH.

  • CMAKE_MFC_FLAG: Tell cmake to use MFC for an executable or dll.

    This can be set in a CMakeLists.txt file and will enable MFC in the application. It should be set to 1 for static the static MFC library, and 2 for the shared MFC library. This is used in visual studio 6 and 7 project files. The CMakeSetup dialog used MFC and the CMakeLists.txt looks like this:

    add_definitions(-D_AFXDLL)

    set(CMAKE_MFC_FLAG 2)

    add_executable(CMakeSetup WIN32 ${SRCS})

  • CMAKE_MODULE_PATH: List of directories to search for CMake modules.

    Commands like include() and find_package() search for files in directories listed by this variable before checking the default modules that come with CMake.

  • CMAKE_NOT_USING_CONFIG_FLAGS: Skip _BUILD_TYPE flags if true.

    This is an internal flag used by the generators in CMake to tell CMake to skip the _BUILD_TYPE flags.

  • CMAKE_POLICY_DEFAULT_CMP<NNNN>: Default for CMake Policy CMP<NNNN> when it is otherwise left unset.

    Commands cmake_minimum_required(VERSION) and cmake_policy(VERSION) by default leave policies introduced after the given version unset. Set CMAKE_POLICY_DEFAULT_CMP<NNNN> to OLD or NEW to specify the default for policy CMP<NNNN>, where <NNNN> is the policy number.

    This variable should not be set by a project in CMake code; use cmake_policy(SET) instead. Users running CMake may set this variable in the cache (e.g. -DCMAKE_POLICY_DEFAULT_CMP<NNNN>=<OLD|NEW>) to set a policy not otherwise set by the project. Set to OLD to quiet a policy warning while using old behavior or to NEW to try building the project with new behavior.

  • CMAKE_PREFIX_PATH: Path used for searching by FIND_XXX(), with appropriate suffixes added.

    Specifies a path which will be used by the FIND_XXX() commands. It contains the "base" directories, the FIND_XXX() commands append appropriate subdirectories to the base directories. So FIND_PROGRAM() adds /bin to each of the directories in the path, FIND_LIBRARY() appends /lib to each of the directories, and FIND_PATH() and FIND_FILE() append /include . By default it is empty, it is intended to be set by the project. See also CMAKE_SYSTEM_PREFIX_PATH, CMAKE_INCLUDE_PATH, CMAKE_LIBRARY_PATH, CMAKE_PROGRAM_PATH.

  • CMAKE_PROGRAM_PATH: Path used for searching by FIND_PROGRAM().

    Specifies a path which will be used by FIND_PROGRAM(). FIND_PROGRAM() will check each of the contained directories for the existence of the program which is currently searched. By default it is empty, it is intended to be set by the project. See also CMAKE_SYSTEM_PROGRAM_PATH, CMAKE_PREFIX_PATH.

  • CMAKE_SKIP_INSTALL_ALL_DEPENDENCY: Don't make the install target depend on the all target.

    By default, the "install" target depends on the "all" target. This has the effect, that when "make install" is invoked or INSTALL is built, first the "all" target is built, then the installation starts. If CMAKE_SKIP_INSTALL_ALL_DEPENDENCY is set to TRUE, this dependency is not created, so the installation process will start immediately, independent from whether the project has been completely built or not.

  • CMAKE_SYSTEM_IGNORE_PATH: Path to be ignored by FIND_XXX() commands.

    Specifies directories to be ignored by searches in FIND_XXX() commands This is useful in cross-compiled environments where some system directories contain incompatible but possibly linkable libraries. For example, on cross-compiled cluster environments, this allows a user to ignore directories containing libraries meant for the front-end machine that modules like FindX11 (and others) would normally search. By default this contains a list of directories containing incompatible binaries for the host system. See also CMAKE_SYSTEM_PREFIX_PATH, CMAKE_SYSTEM_LIBRARY_PATH, CMAKE_SYSTEM_INCLUDE_PATH, and CMAKE_SYSTEM_PROGRAM_PATH.

  • CMAKE_SYSTEM_INCLUDE_PATH: Path used for searching by FIND_FILE() and FIND_PATH().

    Specifies a path which will be used both by FIND_FILE() and FIND_PATH(). Both commands will check each of the contained directories for the existence of the file which is currently searched. By default it contains the standard directories for the current system. It is NOT intended to be modified by the project, use CMAKE_INCLUDE_PATH for this. See also CMAKE_SYSTEM_PREFIX_PATH.

  • CMAKE_SYSTEM_LIBRARY_PATH: Path used for searching by FIND_LIBRARY().

    Specifies a path which will be used by FIND_LIBRARY(). FIND_LIBRARY() will check each of the contained directories for the existence of the library which is currently searched. By default it contains the standard directories for the current system. It is NOT intended to be modified by the project, use CMAKE_LIBRARY_PATH for this. See also CMAKE_SYSTEM_PREFIX_PATH.

  • CMAKE_SYSTEM_PREFIX_PATH: Path used for searching by FIND_XXX(), with appropriate suffixes added.

    Specifies a path which will be used by the FIND_XXX() commands. It contains the "base" directories, the FIND_XXX() commands append appropriate subdirectories to the base directories. So FIND_PROGRAM() adds /bin to each of the directories in the path, FIND_LIBRARY() appends /lib to each of the directories, and FIND_PATH() and FIND_FILE() append /include . By default this contains the standard directories for the current system. It is NOT intended to be modified by the project, use CMAKE_PREFIX_PATH for this. See also CMAKE_SYSTEM_INCLUDE_PATH, CMAKE_SYSTEM_LIBRARY_PATH, CMAKE_SYSTEM_PROGRAM_PATH, and CMAKE_SYSTEM_IGNORE_PATH.

  • CMAKE_SYSTEM_PROGRAM_PATH: Path used for searching by FIND_PROGRAM().

    Specifies a path which will be used by FIND_PROGRAM(). FIND_PROGRAM() will check each of the contained directories for the existence of the program which is currently searched. By default it contains the standard directories for the current system. It is NOT intended to be modified by the project, use CMAKE_PROGRAM_PATH for this. See also CMAKE_SYSTEM_PREFIX_PATH.

  • CMAKE_USER_MAKE_RULES_OVERRIDE: Specify a CMake file that overrides platform information.

    CMake loads the specified file while enabling support for each language from either the project() or enable_language() commands. It is loaded after CMake's builtin compiler and platform information modules have been loaded but before the information is used. The file may set platform information variables to override CMake's defaults.

    This feature is intended for use only in overriding information variables that must be set before CMake builds its first test project to check that the compiler for a language works. It should not be used to load a file in cases that a normal include() will work. Use it only as a last resort for behavior that cannot be achieved any other way. For example, one may set CMAKE_C_FLAGS_INIT to change the default value used to initialize CMAKE_C_FLAGS before it is cached. The override file should NOT be used to set anything that could be set after languages are enabled, such as variables like CMAKE_RUNTIME_OUTPUT_DIRECTORY that affect the placement of binaries. Information set in the file will be used for try_compile and try_run builds too.

Variables That Describe the System

  • APPLE: True if running on Mac OSX.

    Set to true on Mac OSX.

  • BORLAND: True if the borland compiler is being used.

    This is set to true if the Borland compiler is being used.

  • CMAKE_CL_64: Using the 64 bit compiler from Microsoft

    Set to true when using the 64 bit cl compiler from Microsoft.

  • CMAKE_COMPILER_2005: Using the Visual Studio 2005 compiler from Microsoft

    Set to true when using the Visual Studio 2005 compiler from Microsoft.

  • CMAKE_HOST_APPLE: True for Apple OSXoperating systems.

    Set to true when the host system is Apple OSX.

  • CMAKE_HOST_SYSTEM: Name of system cmake is being run on.

    The same as CMAKE_SYSTEM but for the host system instead of the target system when cross compiling.

  • CMAKE_HOST_SYSTEM_NAME: Name of the OS CMake is running on.

    The same as CMAKE_SYSTEM_NAME but for the host system instead of the target system when cross compiling.

  • CMAKE_HOST_SYSTEM_PROCESSOR: The name of the CPU CMake is running on.

    The same as CMAKE_SYSTEM_PROCESSOR but for the host system instead of the target system when cross compiling.

  • CMAKE_HOST_SYSTEM_VERSION: OS version CMake is running on.

    The same as CMAKE_SYSTEM_VERSION but for the host system instead of the target system when cross compiling.

  • CMAKE_HOST_UNIX: True for UNIX and UNIX like operating systems.

    Set to true when the host system is UNIX or UNIX like (i.e. APPLE and CYGWIN).

  • CMAKE_HOST_WIN32: True on windows systems, including win64.

    Set to true when the host system is Windows and on cygwin.

  • CMAKE_LIBRARY_ARCHITECTURE: Target architecture library directory name, if detected.

    This is the value of CMAKE_<lang>_LIBRARY_ARCHITECTURE as detected for one of the enabled languages.

  • CMAKE_LIBRARY_ARCHITECTURE_REGEX: Regex matching possible target architecture library directory names.

    This is used to detect CMAKE_<lang>_LIBRARY_ARCHITECTURE from the implicit linker search path by matching the <arch> name.

  • CMAKE_OBJECT_PATH_MAX: Maximum object file full-path length allowed by native build tools.

    CMake computes for every source file an object file name that is unique to the source file and deterministic with respect to the full path to the source file. This allows multiple source files in a target to share the same name if they lie in different directories without rebuilding when one is added or removed. However, it can produce long full paths in a few cases, so CMake shortens the path using a hashing scheme when the full path to an object file exceeds a limit. CMake has a built-in limit for each platform that is sufficient for common tools, but some native tools may have a lower limit. This variable may be set to specify the limit explicitly. The value must be an integer no less than 128.

  • CMAKE_SYSTEM: Name of system cmake is compiling for.

    This variable is the composite of CMAKE_SYSTEM_NAME and CMAKE_SYSTEM_VERSION, like this ${CMAKE_SYSTEM_NAME}-${CMAKE_SYSTEM_VERSION}. If CMAKE_SYSTEM_VERSION is not set, then CMAKE_SYSTEM is the same as CMAKE_SYSTEM_NAME.

  • CMAKE_SYSTEM_NAME: Name of the OS CMake is building for.

    This is the name of the operating system on which CMake is targeting. On systems that have the uname command, this variable is set to the output of uname -s. Linux, Windows, and Darwin for Mac OSX are the values found on the big three operating systems.

  • CMAKE_SYSTEM_PROCESSOR: The name of the CPU CMake is building for.

    On systems that support uname, this variable is set to the output of uname -p, on windows it is set to the value of the environment variable PROCESSOR_ARCHITECTURE

  • CMAKE_SYSTEM_VERSION: OS version CMake is building for.

    A numeric version string for the system, on systems that support uname, this variable is set to the output of uname -r. On other systems this is set to major-minor version numbers.

  • CYGWIN: True for cygwin.

    Set to true when using CYGWIN.

  • MSVC: True when using Microsoft Visual C

    Set to true when the compiler is some version of Microsoft Visual C.

  • MSVC80: True when using Microsoft Visual C 8.0

    Set to true when the compiler is version 8.0 of Microsoft Visual C.

  • MSVC_IDE: True when using the Microsoft Visual C IDE

    Set to true when the target platform is the Microsoft Visual C IDE, as opposed to the command line compiler.

  • MSVC_VERSION: The version of Microsoft Visual C/C++ being used if any.

    Known version numbers are:

      1200 = VS  6.0
    1300 = VS 7.0
    1310 = VS 7.1
    1400 = VS 8.0
    1500 = VS 9.0
    1600 = VS 10.0
  • UNIX: True for UNIX and UNIX like operating systems.

    Set to true when the target system is UNIX or UNIX like (i.e. APPLE and CYGWIN).

  • WIN32: True on windows systems, including win64.

    Set to true when the target system is Windows.

  • XCODE_VERSION: Version of Xcode (Xcode generator only).

    Under the Xcode generator, this is the version of Xcode as specified in "Xcode.app/Contents/version.plist" (such as "3.1.2").

Variables common to all CPack generators

  • CPACK_BINARY_<GENNAME>: CPack generated options for binary generators

    The CPack.cmake module generates (when CPACK_GENERATOR is not set) a set of CMake options (see CMake option command) which may then be used to select the CPack generator(s) to be used when launching the package target.

  • CPACK_CMAKE_GENERATOR: What CMake generator should be used if the project is CMake project.

    Defaults to the value of CMAKE_GENERATOR few users will want to change this setting.

  • CPACK_CREATE_DESKTOP_LINKS: List of desktop links to create
  • CPACK_GENERATOR: List of CPack generators to use

    If not specified, CPack will create a set of options CPACK_BINARY_<GENNAME> (e.g., CPACK_BINARY_NSIS) allowing the user to enable/disable individual generators. This variable may be used on the command line as well as in:

        cpack -D CPACK_GENERATOR="ZIP;TGZ" /path/to/build/tree
  • CPACK_INCLUDE_TOPLEVEL_DIRECTORY: Boolean toggle to include/exclude top level directory.

    When preparing a package CPack installs the item under the so-called top level directory. The purpose of is to include (set to 1 or ON or TRUE) the top level directory in the package or not (set to 0 or OFF or FALSE).

    Each CPack generator as a built-in default value for this variable. E.g. Archive generators (ZIP, TGZ, ...) includes the top level whereas RPM or DEB don't. The user may override the default value byt setting this variable.

    There is a similar variable CPACK_COMPONENT_INCLUDE_TOPLEVEL_DIRECTORYwhich may be used to override the behavior for the componentpackaging case which may have different default value forhistorical (now backward compatibility) reason.

  • CPACK_INSTALLED_DIRECTORIES: Extra directories to install
  • CPACK_INSTALL_CMAKE_PROJECTS: List of four values that specify what project to install.

    The four values are: Build directory, Project Name, Project Component, Directory. If omitted, CPack will build an installer that installers everything.

  • CPACK_INSTALL_COMMANDS: Extra commands to install components
  • CPACK_INSTALL_SCRIPT: Extra CMake script provided by the user.

    If set this CMake script will be executed by CPack during its local [CPack-private] installation which is done right before packaging the files. The script is not called by e.g.: make install.

  • CPACK_MONOLITHIC_INSTALL: Disables the component-based installation mechanism.

    When set the component specification is ignored and all installed items are put in a single "MONOLITHIC" package. Some CPack generators do monolithic packaging by default and may be asked to do component packaging by setting CPACK_<GENNAME>_COMPONENT_INSTALL to 1/TRUE.

  • CPACK_OUTPUT_CONFIG_FILE: The name of the CPack binary configuration file.

    This file is the CPack configuration generated by the CPack module for binary installers. Defaults to CPackConfig.cmake.

  • CPACK_PACKAGE_DESCRIPTION_FILE: A text file used to describe the project.

    Used, for example, the introduction screen of a CPack-generated Windows installer to describe the project.

  • CPACK_PACKAGE_DESCRIPTION_SUMMARY: Short description of the project (only a few words).
  • CPACK_PACKAGE_EXECUTABLES: Lists each of the executables and associated text label to be used to create Start Menu shortcuts.

    For example, setting this to the list ccmake;CMake will create a shortcut named "CMake" that will execute the installed executable ccmake. Not all CPack generators use it (at least NSIS and OSXX11 do).

  • CPACK_PACKAGE_FILE_NAME: The name of the package file to generate, not including the extension.

    For example, cmake-2.6.1-Linux-i686. The default value is ${CPACK_PACKAGE_NAME}-${CPACK_PACKAGE_VERSION}-${CPACK_SYSTEM_NAME}.

  • CPACK_PACKAGE_ICON: A branding image that will be displayed inside the installer (used by GUI installers).
  • CPACK_PACKAGE_INSTALL_DIRECTORY: Installation directory on the target system.

    This may be used by some CPack generators like NSIS to create an installation directory e.g., "CMake 2.5" below the installation prefix. All installed element will be put inside this directory.

  • CPACK_PACKAGE_INSTALL_REGISTRY_KEY: Registry key used when installing this project.

    This is only used by installer for Windows.

  • CPACK_PACKAGE_NAME: The name of the package (or application)

    If not specified, defaults to the project name.

  • CPACK_PACKAGE_VENDOR: The name of the package vendor

    (e.g., "Kitware").

  • CPACK_PACKAGE_VERSION: Package full version, used internally

    By default, this is built from CPACK_PACKAGE_VERSION_MAJOR, CPACK_PACKAGE_VERSION_MINOR, and CPACK_PACKAGE_VERSION_PATCH.

  • CPACK_PACKAGE_VERSION_MAJOR: Package major Version
  • CPACK_PACKAGE_VERSION_MINOR: Package minor Version
  • CPACK_PACKAGE_VERSION_PATCH: Package patch Version
  • CPACK_PACKAGING_INSTALL_PREFIX: The prefix used in the built package.

    Each CPack generator has a default value (like /usr). This default value may be overwritten from the CMakeLists.txt or the cpack command line by setting an alternative value.

    e.g. set(CPACK_PACKAGING_INSTALL_PREFIX "/opt")

    This is not the same purpose as CMAKE_INSTALL_PREFIX which is used when installing from the build tree without building a package.

  • CPACK_PROJECT_CONFIG_FILE: CPack-time project CPack configuration file.

    This file included at cpack time, once per generator after CPack has set CPACK_GENERATOR to the actual generator being used. It allows per-generator setting of CPACK_* variables at cpack time.

  • CPACK_RESOURCE_FILE_LICENSE: License to be embedded in the installer

    It will typically be displayed to the user by the produced installer (often with an explicit "Accept" button, for graphical installers) prior to installation. This license file is NOT added to installed file but is used by some CPack generators like NSIS. If you want to install a license file (may be the same as this one) along with your project you must add an appropriate CMake INSTALL command in your CMakeLists.txt.

  • CPACK_RESOURCE_FILE_README: ReadMe file to be embedded in the installer

    It typically describes in some detail the purpose of the project during the installation. Not all CPack generators uses this file.

  • CPACK_RESOURCE_FILE_WELCOME: Welcome file to be embedded in the installer.

    It welcomes users to this installer. Typically used in the graphical installers on Windows and Mac OS X.

  • CPACK_SET_DESTDIR: Boolean toggle to make CPack use DESTDIR mechanism when packaging.

    DESTDIR means DESTination DIRectory. It is commonly used by makefile users in order to install software at non-default location. It is a basic relocation mechanism. It is usually invoked like this:

     make DESTDIR=/home/john install

    which will install the concerned software using the installation prefix, e.g. "/usr/local" prepended with the DESTDIR value which finally gives "/home/john/usr/local". When preparing a package, CPack first installs the items to be packaged in a local (to the build tree) directory by using the same DESTDIR mechanism. Nevertheless, if CPACK_SET_DESTDIR is set then CPack will set DESTDIR before doing the local install. The most noticeable difference is that without CPACK_SET_DESTDIR, CPack uses CPACK_PACKAGING_INSTALL_PREFIX as a prefix whereas with CPACK_SET_DESTDIR set, CPack will use CMAKE_INSTALL_PREFIX as a prefix.

    Manually setting CPACK_SET_DESTDIR may help (or simply be necessary) if some install rules uses absolute DESTINATION (see CMake INSTALL command). However, starting with CPack/CMake 2.8.3 RPM and DEB installers tries to handle DESTDIR automatically so that it is seldom necessary for the user to set it.

  • CPACK_SOURCE_GENERATOR: List of generators used for the source packages.

    As with CPACK_GENERATOR, if this is not specified then CPack will create a set of options (e.g., CPACK_SOURCE_ZIP) allowing users to select which packages will be generated.

  • CPACK_SOURCE_IGNORE_FILES: Pattern of files in the source tree that won't be packaged when building a source package.

    This is a list of regular expression patterns (that must be properly escaped), e.g., /CVS/;/\\.svn/;\\.swp$;\\.#;/#;.*~;cscope.*

  • CPACK_SOURCE_OUTPUT_CONFIG_FILE: The name of the CPack source configuration file.

    This file is the CPack configuration generated by the CPack module for source installers. Defaults to CPackSourceConfig.cmake.

  • CPACK_SOURCE_PACKAGE_FILE_NAME: The name of the source package

    For example cmake-2.6.1.

  • CPACK_SOURCE_STRIP_FILES: List of files in the source tree that will be stripped.

    Starting with CMake 2.6.0 CPACK_SOURCE_STRIP_FILES will be a boolean variable which enables stripping of all files (a list of files evaluates to TRUE in CMake, so this change is compatible).

  • CPACK_STRIP_FILES: List of files to be stripped

    Starting with CMake 2.6.0 CPACK_STRIP_FILES will be a boolean variable which enables stripping of all files (a list of files evaluates to TRUE in CMake, so this change is compatible).

  • CPACK_SYSTEM_NAME: System name, defaults to the value of ${CMAKE_SYSTEM_NAME}.
  • CPACK_TOPLEVEL_TAG: Directory for the installed files

Variables concerning CPack Components

  • CPACK_<GENNAME>_COMPONENT_INSTALL: Enable/Disable component install for CPack generator <GENNAME>.
      Each CPack Generator (RPM, DEB, ARCHIVE, NSIS, DMG, etc...) has a legacy
    default behavior. e.g. RPM builds monolithic whereas NSIS builds component.
    One can change the default behavior by setting this variable to 0/1 or OFF/ON.
  • CPACK_COMPONENTS_ALL: The list of component to install
      The default value of this variable is computed by CPack
    and contains all components defined by the project. The
    user may set it to only include the specified components.
  • CPACK_COMPONENTS_GROUPING: Specify how components are grouped for multi-package component-aware CPack generators.
      Some generators like RPM or ARCHIVE family (TGZ, ZIP, ...) generates several
    packages files when asked for component packaging. They group the component
    differently depending on the value of this variable:
    - ONE_PER_GROUP (default): creates one package file per component group
    - ALL_COMPONENTS_IN_ONE : creates a single package with all (requested) component
    - IGNORE : creates one package per component, i.e. IGNORE component group
    One can specify different grouping for different CPack generator by using
    a CPACK_PROJECT_CONFIG_FILE.
  • CPACK_COMPONENT_<compName>_DEPENDS: The dependencies (list of components) on which this component depends.
  • CPACK_COMPONENT_<compName>_DESCRIPTION: The description of a component
  • CPACK_COMPONENT_<compName>_DISPLAY_NAME: The name to be displayed for a component
  • CPACK_COMPONENT_<compName>_GROUP: The group of a component
  • CPACK_COMPONENT_<compName>_REQUIRED: True is this component is required

Variables for Languages

  • CMAKE_<LANG>_ARCHIVE_APPEND: Rule variable to append to a static archive.

    This is a rule variable that tells CMake how to append to a static archive. It is used in place of CMAKE_<LANG>_CREATE_STATIC_LIBRARY on some platforms in order to support large object counts. See also CMAKE_<LANG>_ARCHIVE_CREATE and CMAKE_<LANG>_ARCHIVE_FINISH.

  • CMAKE_<LANG>_ARCHIVE_CREATE: Rule variable to create a new static archive.

    This is a rule variable that tells CMake how to create a static archive. It is used in place of CMAKE_<LANG>_CREATE_STATIC_LIBRARY on some platforms in order to support large object counts. See also CMAKE_<LANG>_ARCHIVE_APPEND and CMAKE_<LANG>_ARCHIVE_FINISH.

  • CMAKE_<LANG>_ARCHIVE_FINISH: Rule variable to finish an existing static archive.

    This is a rule variable that tells CMake how to finish a static archive. It is used in place of CMAKE_<LANG>_CREATE_STATIC_LIBRARY on some platforms in order to support large object counts. See also CMAKE_<LANG>_ARCHIVE_CREATE and CMAKE_<LANG>_ARCHIVE_APPEND.

  • CMAKE_<LANG>_COMPILER: The full path to the compiler for LANG.

    This is the command that will be used as the <LANG> compiler. Once set, you can not change this variable.

  • CMAKE_<LANG>_COMPILER_ABI: An internal variable subject to change.

    This is used in determining the compiler ABI and is subject to change.

  • CMAKE_<LANG>_COMPILER_ID: An internal variable subject to change.

    This is used in determining the compiler and is subject to change.

  • CMAKE_<LANG>_COMPILER_LOADED: Defined to true if the language is enabled.

    When language <LANG> is enabled by project() or enable_language() this variable is defined to 1.

  • CMAKE_<LANG>_COMPILER_VERSION: An internal variable subject to change.

    Compiler version in major[.minor[.patch[.tweak]]] format. This variable is reserved for internal use by CMake and is not guaranteed to be set.

  • CMAKE_<LANG>_COMPILE_OBJECT: Rule variable to compile a single object file.

    This is a rule variable that tells CMake how to compile a single object file for for the language <LANG>.

  • CMAKE_<LANG>_CREATE_SHARED_LIBRARY: Rule variable to create a shared library.

    This is a rule variable that tells CMake how to create a shared library for the language <LANG>.

  • CMAKE_<LANG>_CREATE_SHARED_MODULE: Rule variable to create a shared module.

    This is a rule variable that tells CMake how to create a shared library for the language <LANG>.

  • CMAKE_<LANG>_CREATE_STATIC_LIBRARY: Rule variable to create a static library.

    This is a rule variable that tells CMake how to create a static library for the language <LANG>.

  • CMAKE_<LANG>_FLAGS_DEBUG: Flags for Debug build type or configuration.

    <LANG> flags used when CMAKE_BUILD_TYPE is Debug.

  • CMAKE_<LANG>_FLAGS_MINSIZEREL: Flags for MinSizeRel build type or configuration.

    <LANG> flags used when CMAKE_BUILD_TYPE is MinSizeRel.Short for minimum size release.

  • CMAKE_<LANG>_FLAGS_RELEASE: Flags for Release build type or configuration.

    <LANG> flags used when CMAKE_BUILD_TYPE is Release

  • CMAKE_<LANG>_FLAGS_RELWITHDEBINFO: Flags for RelWithDebInfo type or configuration.

    <LANG> flags used when CMAKE_BUILD_TYPE is RelWithDebInfo. Short for Release With Debug Information.

  • CMAKE_<LANG>_IGNORE_EXTENSIONS: File extensions that should be ignored by the build.

    This is a list of file extensions that may be part of a project for a given language but are not compiled.

  • CMAKE_<LANG>_IMPLICIT_INCLUDE_DIRECTORIES: Directories implicitly searched by the compiler for header files.

    CMake does not explicitly specify these directories on compiler command lines for language <LANG>. This prevents system include directories from being treated as user include directories on some compilers.

  • CMAKE_<LANG>_IMPLICIT_LINK_DIRECTORIES: Implicit linker search path detected for language <LANG>.

    Compilers typically pass directories containing language runtime libraries and default library search paths when they invoke a linker. These paths are implicit linker search directories for the compiler's language. CMake automatically detects these directories for each language and reports the results in this variable.

  • CMAKE_<LANG>_IMPLICIT_LINK_LIBRARIES: Implicit link libraries and flags detected for language <LANG>.

    Compilers typically pass language runtime library names and other flags when they invoke a linker. These flags are implicit link options for the compiler's language. CMake automatically detects these libraries and flags for each language and reports the results in this variable.

  • CMAKE_<LANG>_LIBRARY_ARCHITECTURE: Target architecture library directory name detected for <lang>.

    If the <lang> compiler passes to the linker an architecture-specific system library search directory such as <prefix>/lib/<arch> this variable contains the <arch> name if/as detected by CMake.

  • CMAKE_<LANG>_LINKER_PREFERENCE: Preference value for linker language selection.

    The "linker language" for executable, shared library, and module targets is the language whose compiler will invoke the linker. The LINKER_LANGUAGE target property sets the language explicitly. Otherwise, the linker language is that whose linker preference value is highest among languages compiled and linked into the target. See also the CMAKE_<LANG>_LINKER_PREFERENCE_PROPAGATES variable.

  • CMAKE_<LANG>_LINKER_PREFERENCE_PROPAGATES: True if CMAKE_<LANG>_LINKER_PREFERENCE propagates across targets.

    This is used when CMake selects a linker language for a target. Languages compiled directly into the target are always considered. A language compiled into static libraries linked by the target is considered if this variable is true.

  • CMAKE_<LANG>_LINK_EXECUTABLE : Rule variable to link and executable.

    Rule variable to link and executable for the given language.

  • CMAKE_<LANG>_OUTPUT_EXTENSION: Extension for the output of a compile for a single file.

    This is the extension for an object file for the given <LANG>. For example .obj for C on Windows.

  • CMAKE_<LANG>_PLATFORM_ID: An internal variable subject to change.

    This is used in determining the platform and is subject to change.

  • CMAKE_<LANG>_SIZEOF_DATA_PTR: Size of pointer-to-data types for language <LANG>.

    This holds the size (in bytes) of pointer-to-data types in the target platform ABI. It is defined for languages C and CXX (C++).

  • CMAKE_<LANG>_SOURCE_FILE_EXTENSIONS: Extensions of source files for the given language.

    This is the list of extensions for a given languages source files.

  • CMAKE_COMPILER_IS_GNU<LANG>: True if the compiler is GNU.

    If the selected <LANG> compiler is the GNU compiler then this is TRUE, if not it is FALSE.

  • CMAKE_Fortran_MODDIR_DEFAULT: Fortran default module output directory.

    Most Fortran compilers write .mod files to the current working directory. For those that do not, this is set to "." and used when the Fortran_MODULE_DIRECTORY target property is not set.

  • CMAKE_Fortran_MODDIR_FLAG: Fortran flag for module output directory.

    This stores the flag needed to pass the value of the Fortran_MODULE_DIRECTORY target property to the compiler.

  • CMAKE_Fortran_MODOUT_FLAG: Fortran flag to enable module output.

    Most Fortran compilers write .mod files out by default. For others, this stores the flag needed to enable module output.

  • CMAKE_INTERNAL_PLATFORM_ABI: An internal variable subject to change.

    This is used in determining the compiler ABI and is subject to change.

  • CMAKE_USER_MAKE_RULES_OVERRIDE_<LANG>: Specify a CMake file that overrides platform information for <LANG>.

    This is a language-specific version of CMAKE_USER_MAKE_RULES_OVERRIDE loaded only when enabling language <LANG>.

Variables specific to CPack Bundle generator

  • CPACK_BUNDLE_ICON: Path to an OSX icon file that will be used as the icon for the generated bundle.

    This is the icon that appears in the OSX finder for the bundle, and in the OSX dock when the bundle is opened. Required.

  • CPACK_BUNDLE_NAME: The name of the generated bundle

    This appears in the OSX finder as the bundle name. Required.

  • CPACK_BUNDLE_PLIST: Path to an OSX plist file that will be used for the generated bundle.

    This assumes that the caller has generated or specified their own Info.plist file. Required.

  • CPACK_BUNDLE_STARTUP_COMMAND: Path to a startup script

    This is a path to an executable or script that will be run whenever an end-user double-clicks the generated bundle in the OSX Finder. Optional.

Variables specific to CPack Cygwin generator

  • CPACK_CYGWIN_BUILD_SCRIPT: The Cygwin build script
       FIXME: This documentation is incomplete.
  • CPACK_CYGWIN_PATCH_FILE: The Cygwin patch file
       FIXME: This documentation is incomplete.
  • CPACK_CYGWIN_PATCH_NUMBER: The Cygwin patch number
       FIXME: This documentation is incomplete.

Variables specific to CPack Debian (DEB) generator

  • CPACK_DEBIAN_PACKAGE_ARCHITECTURE:
         Mandatory : YES
    Default : Output of dpkg --print-architecture (or i386 if dpkg is not found)
    The debian package architecture
  • CPACK_DEBIAN_PACKAGE_BREAKS:
         Mandatory : NO
    Default : -
    see http://www.debian.org/doc/debian-policy/ch-relationships.html#s-binarydeps
    When one binary package declares that it breaks another, dpkg will refuse to allow the
    package which declares Breaks be installed unless the broken package is deconfigured first,
    and it will refuse to allow the broken package to be reconfigured.
  • CPACK_DEBIAN_PACKAGE_CONFLICTS:
         Mandatory : NO
    Default : -
    see http://www.debian.org/doc/debian-policy/ch-relationships.html#s-binarydeps
    When one binary package declares a conflict with another using a Conflicts field,
    dpkg will refuse to allow them to be installed on the system at the same time.
  • CPACK_DEBIAN_PACKAGE_DEBUG:
         Mandatory : NO
    Default : -
    May be set when invoking cpack in order to trace debug information
    during CPackDeb run.
  • CPACK_DEBIAN_PACKAGE_DEPENDS:
         Mandatory : NO
    Default : -
    May be used to set deb dependencies.
  • CPACK_DEBIAN_PACKAGE_DESCRIPTION:
         Mandatory : YES
    Default : CPACK_PACKAGE_DESCRIPTION_SUMMARY
    The debian package description
  • CPACK_DEBIAN_PACKAGE_ENHANCES:
         Mandatory : NO
    Default : -
    see http://www.debian.org/doc/debian-policy/ch-relationships.html#s-binarydeps
    This field is similar to Suggests but works in the opposite direction.
    It is used to declare that a package can enhance the functionality of another package.
  • CPACK_DEBIAN_PACKAGE_HOMEPAGE:
         Mandatory : NO
    Default : -
    The URL of the web site for this package
  • CPACK_DEBIAN_PACKAGE_MAINTAINER:
         Mandatory : YES
    Default : CPACK_PACKAGE_CONTACT
    The debian package maintainer
  • CPACK_DEBIAN_PACKAGE_NAME:
         Mandatory : YES
    Default : CPACK_PACKAGE_NAME (lower case)
    The debian package summary
  • CPACK_DEBIAN_PACKAGE_PREDEPENDS:
         Mandatory : NO
    Default : -
    see http://www.debian.org/doc/debian-policy/ch-relationships.html#s-binarydeps
    This field is like Depends, except that it also forces dpkg to complete installation of
    the packages named before even starting the installation of the package which declares
    the pre-dependency.
  • CPACK_DEBIAN_PACKAGE_PRIORITY:
         Mandatory : YES
    Default : 'optional'
    The debian package priority
  • CPACK_DEBIAN_PACKAGE_PROVIDES:
         Mandatory : NO
    Default : -
    see http://www.debian.org/doc/debian-policy/ch-relationships.html#s-binarydeps
    A virtual package is one which appears in the Provides control field of another package.
  • CPACK_DEBIAN_PACKAGE_REPLACES:
         Mandatory : NO
    Default : -
    see http://www.debian.org/doc/debian-policy/ch-relationships.html#s-binarydeps
    Packages can declare in their control file that they should overwrite
    files in certain other packages, or completely replace other packages.
  • CPACK_DEBIAN_PACKAGE_SECTION:
         Mandatory : YES
    Default : 'devel'
    The debian package section
  • CPACK_DEBIAN_PACKAGE_SHLIBDEPS:
         Mandatory : NO
    Default : OFF
    May be set to ON in order to use dpkg-shlibdeps to generate
    better package dependency list.
    You may need set CMAKE_INSTALL_RPATH toi appropriate value
    if you use this feature, because if you don't dpkg-shlibdeps
    may fail to find your own shared libs.
    See http://www.cmake.org/Wiki/CMake_RPATH_handling.
  • CPACK_DEBIAN_PACKAGE_VERSION:
         Mandatory : YES
    Default : CPACK_PACKAGE_VERSION
    The debian package version

Variables specific to CPack DragNDrop generator

  • CPACK_COMMAND_HDIUTIL: Path to the hdiutil(1) command used to operate on disk image files on Mac OS X.

    This variable can be used to override the automatically detected command (or specify its location if the auto-detection fails to find it.)

  • CPACK_COMMAND_REZ: Path to the Rez(1) command used to compile resources on Mac OS X.

    This variable can be used to override the automatically detected command (or specify its location if the auto-detection fails to find it.)

  • CPACK_COMMAND_SETFILE: Path to the SetFile(1) command used to set extended attributes on files and directories on Mac OS X.

    This variable can be used to override the automatically detected command (or specify its location if the auto-detection fails to find it.)

  • CPACK_DMG_BACKGROUND_IMAGE: Path to a background image file

    This file will be used as the background for the Finder Window when the disk image is opened. By default no background image is set. The background image is applied after applying the custom .DS_Store file.

  • CPACK_DMG_DS_STORE: Path to a custom DS_Store file

    This .DS_Store file e.g. can be used to specify the Finder window position/geometry and layout (such as hidden toolbars, placement of the icons etc.). This file has to be generated by the Finder (either manually or through OSA-script) using a normal folder from which the .DS_Store file can then be extracted.

  • CPACK_DMG_FORMAT: The disk image format

    Common values are UDRO (UDIF read-only), UDZO (UDIF zlib-compressed) or UDBZ (UDIF bzip2-compressed). Refer to hdiutil(1) for more information on other available formats.

  • CPACK_DMG_VOLUME_NAME: The volume name of the generated disk image.

    Defaults to CPACK_PACKAGE_FILE_NAME.

Variables specific to CPack NSIS generator

  • CPACK_NSIS_COMPRESSOR: The arguments that will be passed to the NSIS SetCompressor command.
  • CPACK_NSIS_CONTACT: Contact information for questions and comments about the installation process.
  • CPACK_NSIS_CREATE_ICONS_EXTRA: Additional NSIS commands for creating start menu shortcuts.
  • CPACK_NSIS_DELETE_ICONS_EXTRA: Additional NSIS commands to uninstall start menu shortcuts.
  • CPACK_NSIS_DISPLAY_NAME: The display name string that appears in the Windows Add/Remove Program control panel
  • CPACK_NSIS_EXECUTABLES_DIRECTORY: Creating NSIS start menu links assumes that they are in 'bin' unless this variable is set.
       For example, you would set this to 'exec' if your executables are
    in an exec directory.
  • CPACK_NSIS_EXTRA_INSTALL_COMMANDS: Extra NSIS commands that will be added to the install Section.
  • CPACK_NSIS_EXTRA_UNINSTALL_COMMANDS: Extra NSIS commands that will be added to the uninstall Section.
  • CPACK_NSIS_HELP_LINK: URL to a web site providing assistance in installing your application.
  • CPACK_NSIS_INSTALLED_ICON_NAME: A path to the executable that contains the installer icon.
  • CPACK_NSIS_INSTALLER_MUI_ICON_CODE: undocumented
  • CPACK_NSIS_INSTALL_ROOT: The default installation directory presented to the end user by the NSIS installer is under this root dir.

    The full directory presented to the end user is:

       ${CPACK_NSIS_INSTALL_ROOT}/${CPACK_PACKAGE_INSTALL_DIRECTORY}
  • CPACK_NSIS_MENU_LINKS: Specify links in [application] menu
       This should contain a list of pair "link" "link name". The link
    may be an URL or a path relative to installation prefix.
    Like:
    set(CPACK_NSIS_MENU_LINKS
    "doc/cmake-@CMake_VERSION_MAJOR@.@CMake_VERSION_MINOR@/cmake.html" "CMake Help"
    "http://www.cmake.org" "CMake Web Site")
  • CPACK_NSIS_MODIFY_PATH: Modify PATH toggle
       If this is set to "ON", then an extra page
    will appear in the installer that will allow the user to choose
    whether the program directory should be added to the system PATH
    variable.
  • CPACK_NSIS_MUI_FINISHPAGE_RUN: Specify an executable to add an option to run on the finish page of the NSIS installer.
  • CPACK_NSIS_MUI_ICON: An icon filename
       The name of a *.ico file used as the main icon for the generated
    install program.
  • CPACK_NSIS_MUI_UNIICON: An icon filename
       The name of a *.ico file used as the main icon for the generated
    uninstall program.
  • CPACK_NSIS_PACKAGE_NAME: The title displayed at the top of the installer.
  • CPACK_NSIS_URL_INFO_ABOUT: URL to a web site providing more information about your application.

Variables specific to CPack PackageMaker generator

  • CPACK_OSX_PACKAGE_VERSION: The version of Mac OS X that the resulting PackageMaker archive should be compatible with.

    Different versions of Mac OS X support different features. For example, CPack can only build component-based installers for Mac OS X 10.4 or newer, and can only build installers that download component son-the-fly for Mac OS X 10.5 or newer. If left blank, this value will be set to the minimum version of Mac OS X that supports the requested features. Set this variable to some value (e.g., 10.4) only if you want to guarantee that your installer will work on that version of Mac OS X, and don't mind missing extra features available in the installer shipping with later versions of Mac OS X.

Variables specific to CPack RPM generator

  • CPACK_RPM_CHANGELOG_FILE: RPM changelog file
         Mandatory : NO
    Default : -
    May be used to embed a changelog in the spec file.
    The refered file will be read and directly put after the %changelog
    section.
  • CPACK_RPM_COMPRESSION_TYPE: RPM compression type
         Mandatory : NO
    Default : -
    May be used to override RPM compression type to be used
    to build the RPM. For example some Linux distribution now default
    to lzma or xz compression whereas older cannot use such RPM.
    Using this one can enforce compression type to be used.
    Possible value are: lzma, xz, bzip2 and gzip.
  • CPACK_RPM_GENERATE_USER_BINARY_SPECFILE_TEMPLATE: Spec file template
         Mandatory : NO
    Default : -
    If set CPack will generate a template for USER specified binary
    spec file and stop with an error. For example launch CPack like this
    cpack -D CPACK_RPM_GENERATE_USER_BINARY_SPECFILE_TEMPLATE=1 -G RPM
    The user may then use this file in order to hand-craft is own
    binary spec file which may be used with CPACK_RPM_USER_BINARY_SPECFILE.
  • CPACK_RPM_PACKAGE_ARCHITECTURE: The RPM package architecture
         Mandatory : NO
    Default : -
    This may be set to "noarch" if you
    know you are building a noarch package.
  • CPACK_RPM_PACKAGE_DEBUG: Toggle CPackRPM debug output
         Mandatory : NO
    Default : -
    May be set when invoking cpack in order to trace debug information
    during CPack RPM run. For example you may launch CPack like this
    cpack -D CPACK_RPM_PACKAGE_DEBUG=1 -G RPM
  • CPACK_RPM_PACKAGE_DESCRIPTION: RPM package description
         Mandatory : YES
    Default : CPACK_PACKAGE_DESCRIPTION_FILE if set or "no package description available"
  • CPACK_RPM_PACKAGE_GROUP: The RPM package group
         Mandatory : YES
    Default : "unknown"
  • CPACK_RPM_PACKAGE_LICENSE: The RPM package license policy
         Mandatory : YES
    Default : "unknown"
  • CPACK_RPM_PACKAGE_NAME: The RPM package name
         Mandatory : YES
    Default : CPACK_PACKAGE_NAME
  • CPACK_RPM_PACKAGE_OBSOLETES: RPM spec obsoletes field
         Mandatory : NO
    Default : -
    May be used to set RPM packages that are obsoleted by this one.
  • CPACK_RPM_PACKAGE_PROVIDES: RPM spec provides field
         Mandatory : NO
    Default : -
    May be used to set RPM dependencies (provides).
    The provided package list of an RPM file could be printed with
    rpm -qp --provides file.rpm
  • CPACK_RPM_PACKAGE_RELEASE: The RPM package release
         Mandatory : YES
    Default : 1
    This is the numbering of the RPM package
    itself, i.e. the version of the packaging and not the version of the
    content (see CPACK_RPM_PACKAGE_VERSION). One may change the default
    value if the previous packaging was buggy and/or you want to put here
    a fancy Linux distro specific numbering.
  • CPACK_RPM_PACKAGE_RELOCATABLE: build a relocatable RPM
         Mandatory : NO
    Default : CPACK_PACKAGE_RELOCATABLE
    If this variable is set to TRUE or ON CPackRPM will try
    to build a relocatable RPM package. A relocatable RPM may
    be installed using rpm --prefix or --relocate in order to
    install it at an alternate place see rpm(8).
    Note that currently this may fail if CPACK_SET_DESTDIR is set to ON.
    If CPACK_SET_DESTDIR is set then you will get a warning message
    but if there is file installed with absolute path you'll get
    unexpected behavior.
  • CPACK_RPM_PACKAGE_REQUIRES: RPM spec requires field
         Mandatory : NO
    Default : -
    May be used to set RPM dependencies (requires).
    Note that you must enclose the complete requires string between quotes,
    for example:
    set(CPACK_RPM_PACKAGE_REQUIRES "python >= 2.5.0, cmake >= 2.8")
    The required package list of an RPM file could be printed with
    rpm -qp --requires file.rpm
  • CPACK_RPM_PACKAGE_SUGGESTS: RPM spec suggest field
         Mandatory : NO
    Default : -
    May be used to set weak RPM dependencies (suggests).
    Note that you must enclose the complete requires string between quotes.
  • CPACK_RPM_PACKAGE_SUMMARY: The RPM package summary
         Mandatory : YES
    Default : CPACK_PACKAGE_DESCRIPTION_SUMMARY
  • CPACK_RPM_PACKAGE_URL: The projects URL
         Mandatory : NO
    Default : -
  • CPACK_RPM_PACKAGE_VENDOR: The RPM package vendor
         Mandatory : YES
    Default : CPACK_PACKAGE_VENDOR if set or "unknown"
  • CPACK_RPM_PACKAGE_VERSION: The RPM package version
         Mandatory : YES
    Default : CPACK_PACKAGE_VERSION
  • CPACK_RPM_POST_INSTALL_SCRIPT_FILE:
      CPACK_RPM_POST_UNINSTALL_SCRIPT_FILE
    Mandatory : NO
    Default : -
    May be used to embed a post (un)installation script in the spec file.
    The refered script file(s) will be read and directly
    put after the %post or %postun section
    If CPACK_RPM_COMPONENT_INSTALL is set to ON the (un)install script for
    each component can be overridden with
    CPACK_RPM_<COMPONENT>_POST_INSTALL_SCRIPT_FILE and
    CPACK_RPM_<COMPONENT>_POST_UNINSTALL_SCRIPT_FILE
    One may verify which scriptlet has been included with
    rpm -qp --scripts package.rpm
  • CPACK_RPM_PRE_INSTALL_SCRIPT_FILE:
      CPACK_RPM_PRE_UNINSTALL_SCRIPT_FILE
    Mandatory : NO
    Default : -
    May be used to embed a pre (un)installation script in the spec file.
    The refered script file(s) will be read and directly
    put after the %pre or %preun section
    If CPACK_RPM_COMPONENT_INSTALL is set to ON the (un)install script for
    each component can be overridden with
    CPACK_RPM_<COMPONENT>_PRE_INSTALL_SCRIPT_FILE and
    CPACK_RPM_<COMPONENT>_PRE_UNINSTALL_SCRIPT_FILE
    One may verify which scriptlet has been included with
    rpm -qp --scripts package.rpm
  • CPACK_RPM_SPEC_INSTALL_POST: [deprecated]
         Mandatory : NO
    Default : -
    This way of specifying post-install script is deprecated use
    CPACK_RPM_POST_INSTALL_SCRIPT_FILE
    May be used to set an RPM post-install command inside the spec file.
    For example setting it to "/bin/true" may be used to prevent
    rpmbuild to strip binaries.
  • CPACK_RPM_SPEC_MORE_DEFINE: RPM extended spec definitions lines
         Mandatory : NO
    Default : -
    May be used to add any %define lines to the generated spec file.
  • CPACK_RPM_USER_BINARY_SPECFILE: A user provided spec file
         Mandatory : NO
    Default : -
    May be set by the user in order to specify a USER binary spec file
    to be used by CPackRPM instead of generating the file.
    The specified file will be processed by CONFIGURE_FILE( @ONLY).
  • CPACK_RPM_USER_FILELIST:
      CPACK_RPM_<COMPONENT>_USER_FILELIST
    Mandatory : NO
    Default : -
    May be used to explicitly specify %(<directive>) file line
    in the spec file. Like %config(noreplace) or any other directive
    that be found in the %files section. Since CPackRPM is generating
    the list of files (and directories) the user specified files of
    the CPACK_RPM_<COMPONENT>_USER_FILELIST list will be removed from the generated list.

Variables that Control the Build

  • CMAKE_<CONFIG>_POSTFIX: Default filename postfix for libraries under configuration <CONFIG>.

    When a non-executable target is created its <CONFIG>_POSTFIX target property is initialized with the value of this variable if it is set.

  • CMAKE_ARCHIVE_OUTPUT_DIRECTORY: Where to put all the ARCHIVE targets when built.

    This variable is used to initialize the ARCHIVE_OUTPUT_DIRECTORY property on all the targets. See that target property for additional information.

  • CMAKE_AUTOMOC: Whether to handle moc automatically for Qt targets.

    This variable is used to initialize the AUTOMOC property on all the targets. See that target property for additional information.

  • CMAKE_AUTOMOC_MOC_OPTIONS: Additional options for moc when using automoc (see CMAKE_AUTOMOC).

    This variable is used to initialize the AUTOMOC_MOC_OPTIONS property on all the targets. See that target property for additional information.

  • CMAKE_BUILD_WITH_INSTALL_RPATH: Use the install path for the RPATH

    Normally CMake uses the build tree for the RPATH when building executables etc on systems that use RPATH. When the software is installed the executables etc are relinked by CMake to have the install RPATH. If this variable is set to true then the software is always built with the install path for the RPATH and does not need to be relinked when installed.

  • CMAKE_DEBUG_POSTFIX: See variable CMAKE_<CONFIG>_POSTFIX.

    This variable is a special case of the more-general CMAKE_<CONFIG>_POSTFIX variable for the DEBUG configuration.

  • CMAKE_EXE_LINKER_FLAGS: Linker flags used to create executables.

    Flags used by the linker when creating an executable.

  • CMAKE_EXE_LINKER_FLAGS_[CMAKE_BUILD_TYPE]: Flag used when linking an executable.

    Same as CMAKE_C_FLAGS_* but used by the linker when creating executables.

  • CMAKE_Fortran_FORMAT: Set to FIXED or FREE to indicate the Fortran source layout.

    This variable is used to initialize the Fortran_FORMAT property on all the targets. See that target property for additional information.

  • CMAKE_Fortran_MODULE_DIRECTORY: Fortran module output directory.

    This variable is used to initialize the Fortran_MODULE_DIRECTORY property on all the targets. See that target property for additional information.

  • CMAKE_GNUtoMS: Convert GNU import libraries (.dll.a) to MS format (.lib).

    This variable is used to initialize the GNUtoMS property on targets when they are created. See that target property for additional information.

  • CMAKE_INCLUDE_CURRENT_DIR: Automatically add the current source- and build directories to the include path.

    If this variable is enabled, CMake automatically adds in each directory ${CMAKE_CURRENT_SOURCE_DIR} and ${CMAKE_CURRENT_BINARY_DIR} to the include path for this directory. These additional include directories do not propagate down to subdirectories. This is useful mainly for out-of-source builds, where files generated into the build tree are included by files located in the source tree.

    By default CMAKE_INCLUDE_CURRENT_DIR is OFF.

  • CMAKE_INSTALL_NAME_DIR: Mac OSX directory name for installed targets.

    CMAKE_INSTALL_NAME_DIR is used to initialize the INSTALL_NAME_DIR property on all targets. See that target property for more information.

  • CMAKE_INSTALL_RPATH: The rpath to use for installed targets.

    A semicolon-separated list specifying the rpath to use in installed targets (for platforms that support it). This is used to initialize the target property INSTALL_RPATH for all targets.

  • CMAKE_INSTALL_RPATH_USE_LINK_PATH: Add paths to linker search and installed rpath.

    CMAKE_INSTALL_RPATH_USE_LINK_PATH is a boolean that if set to true will append directories in the linker search path and outside the project to the INSTALL_RPATH. This is used to initialize the target property INSTALL_RPATH_USE_LINK_PATH for all targets.

  • CMAKE_LIBRARY_OUTPUT_DIRECTORY: Where to put all the LIBRARY targets when built.

    This variable is used to initialize the LIBRARY_OUTPUT_DIRECTORY property on all the targets. See that target property for additional information.

  • CMAKE_LIBRARY_PATH_FLAG: The flag used to add a library search path to a compiler.

    The flag used to specify a library directory to the compiler. On most compilers this is "-L".

  • CMAKE_LINK_DEF_FILE_FLAG : Linker flag used to specify a .def file for dll creation.

    The flag used to add a .def file when creating a dll on Windows, this is only defined on Windows.

  • CMAKE_LINK_INTERFACE_LIBRARIES: Default value for LINK_INTERFACE_LIBRARIES of targets.

    This variable is used to initialize the LINK_INTERFACE_LIBRARIES property on all the targets. See that target property for additional information.

  • CMAKE_LINK_LIBRARY_FILE_FLAG: Flag used to link a library specified by a path to its file.

    The flag used before a library file path is given to the linker. This is needed only on very few platforms.

  • CMAKE_LINK_LIBRARY_FLAG: Flag used to link a library into an executable.

    The flag used to specify a library to link to an executable. On most compilers this is "-l".

  • CMAKE_MACOSX_BUNDLE: Default value for MACOSX_BUNDLE of targets.

    This variable is used to initialize the MACOSX_BUNDLE property on all the targets. See that target property for additional information.

  • CMAKE_NO_BUILTIN_CHRPATH: Do not use the builtin ELF editor to fix RPATHs on installation.

    When an ELF binary needs to have a different RPATH after installation than it does in the build tree, CMake uses a builtin editor to change the RPATH in the installed copy. If this variable is set to true then CMake will relink the binary before installation instead of using its builtin editor.

  • CMAKE_RUNTIME_OUTPUT_DIRECTORY: Where to put all the RUNTIME targets when built.

    This variable is used to initialize the RUNTIME_OUTPUT_DIRECTORY property on all the targets. See that target property for additional information.

  • CMAKE_SKIP_BUILD_RPATH: Do not include RPATHs in the build tree.

    Normally CMake uses the build tree for the RPATH when building executables etc on systems that use RPATH. When the software is installed the executables etc are relinked by CMake to have the install RPATH. If this variable is set to true then the software is always built with no RPATH.

  • CMAKE_SKIP_INSTALL_RPATH: Do not include RPATHs in the install tree.

    Normally CMake uses the build tree for the RPATH when building executables etc on systems that use RPATH. When the software is installed the executables etc are relinked by CMake to have the install RPATH. If this variable is set to true then the software is always installed without RPATH, even if RPATH is enabled when building. This can be useful for example to allow running tests from the build directory with RPATH enabled before the installation step. To omit RPATH in both the build and install steps, use CMAKE_SKIP_RPATH instead.

  • CMAKE_TRY_COMPILE_CONFIGURATION: Build configuration used for try_compile and try_run projects.

    Projects built by try_compile and try_run are built synchronously during the CMake configuration step. Therefore a specific build configuration must be chosen even if the generated build system supports multiple configurations.

  • CMAKE_USE_RELATIVE_PATHS: Use relative paths (May not work!).

    If this is set to TRUE, then the CMake will use relative paths between the source and binary tree. This option does not work for more complicated projects, and relative paths are used when possible. In general, it is not possible to move CMake generated makefiles to a different location regardless of the value of this variable.

  • CMAKE_WIN32_EXECUTABLE: Default value for WIN32_EXECUTABLE of targets.

    This variable is used to initialize the WIN32_EXECUTABLE property on all the targets. See that target property for additional information.

  • EXECUTABLE_OUTPUT_PATH: Old executable location variable.

    The target property RUNTIME_OUTPUT_DIRECTORY supercedes this variable for a target if it is set. Executable targets are otherwise placed in this directory.

  • LIBRARY_OUTPUT_PATH: Old library location variable.

    The target properties ARCHIVE_OUTPUT_DIRECTORY, LIBRARY_OUTPUT_DIRECTORY, and RUNTIME_OUTPUT_DIRECTORY supercede this variable for a target if they are set. Library targets are otherwise placed in this directory.

Variables that Provide Information

  • CMAKE_AR: Name of archiving tool for static libraries.

    This specifies name of the program that creates archive or static libraries.

  • CMAKE_ARGC: Number of command line arguments passed to CMake in script mode.

    When run in -P script mode, CMake sets this variable to the number of command line arguments. See also CMAKE_ARGV0, 1, 2 ...

  • CMAKE_ARGV0: Command line argument passed to CMake in script mode.

    When run in -P script mode, CMake sets this variable to the first command line argument. It then also sets CMAKE_ARGV1, CMAKE_ARGV2, ... and so on, up to the number of command line arguments given. See also CMAKE_ARGC.

  • CMAKE_BINARY_DIR: The path to the top level of the build tree.

    This is the full path to the top level of the current CMake build tree. For an in-source build, this would be the same as CMAKE_SOURCE_DIR.

  • CMAKE_BUILD_TOOL: Tool used for the actual build process.

    This variable is set to the program that will be needed to build the output of CMake. If the generator selected was Visual Studio 6, the CMAKE_BUILD_TOOL will be set to msdev, for Unix makefiles it will be set to make or gmake, and for Visual Studio 7 it set to devenv. For Nmake Makefiles the value is nmake. This can be useful for adding special flags and commands based on the final build environment.

  • CMAKE_CACHEFILE_DIR: The directory with the CMakeCache.txt file.

    This is the full path to the directory that has the CMakeCache.txt file in it. This is the same as CMAKE_BINARY_DIR.

  • CMAKE_CACHE_MAJOR_VERSION: Major version of CMake used to create the CMakeCache.txt file

    This is stores the major version of CMake used to write a CMake cache file. It is only different when a different version of CMake is run on a previously created cache file.

  • CMAKE_CACHE_MINOR_VERSION: Minor version of CMake used to create the CMakeCache.txt file

    This is stores the minor version of CMake used to write a CMake cache file. It is only different when a different version of CMake is run on a previously created cache file.

  • CMAKE_CACHE_PATCH_VERSION: Patch version of CMake used to create the CMakeCache.txt file

    This is stores the patch version of CMake used to write a CMake cache file. It is only different when a different version of CMake is run on a previously created cache file.

  • CMAKE_CFG_INTDIR: Build-time reference to per-configuration output subdirectory.

    For native build systems supporting multiple configurations in the build tree (such as Visual Studio and Xcode), the value is a reference to a build-time variable specifying the name of the per-configuration output subdirectory. On Makefile generators this evaluates to "." because there is only one configuration in a build tree. Example values:

      $(IntDir)        = Visual Studio 6
    $(OutDir) = Visual Studio 7, 8, 9
    $(Configuration) = Visual Studio 10
    $(CONFIGURATION) = Xcode
    . = Make-based tools

    Since these values are evaluated by the native build system, this variable is suitable only for use in command lines that will be evaluated at build time. Example of intended usage:

      add_executable(mytool mytool.c)
    add_custom_command(
    OUTPUT out.txt
    COMMAND ${CMAKE_CURRENT_BINARY_DIR}/${CMAKE_CFG_INTDIR}/mytool
    ${CMAKE_CURRENT_SOURCE_DIR}/in.txt out.txt
    DEPENDS mytool in.txt
    )
    add_custom_target(drive ALL DEPENDS out.txt)

    Note that CMAKE_CFG_INTDIR is no longer necessary for this purpose but has been left for compatibility with existing projects. Instead add_custom_command() recognizes executable target names in its COMMAND option, so "${CMAKE_CURRENT_BINARY_DIR}/${CMAKE_CFG_INTDIR}/mytool" can be replaced by just "mytool".

    This variable is read-only. Setting it is undefined behavior. In multi-configuration build systems the value of this variable is passed as the value of preprocessor symbol "CMAKE_INTDIR" to the compilation of all source files.

  • CMAKE_COMMAND: The full path to the cmake executable.

    This is the full path to the CMake executable cmake which is useful from custom commands that want to use the cmake -E option for portable system commands. (e.g. /usr/local/bin/cmake

  • CMAKE_CROSSCOMPILING: Is CMake currently cross compiling.

    This variable will be set to true by CMake if CMake is cross compiling. Specifically if the build platform is different from the target platform.

  • CMAKE_CTEST_COMMAND: Full path to ctest command installed with cmake.

    This is the full path to the CTest executable ctest which is useful from custom commands that want to use the cmake -E option for portable system commands.

  • CMAKE_CURRENT_BINARY_DIR: The path to the binary directory currently being processed.

    This the full path to the build directory that is currently being processed by cmake. Each directory added by add_subdirectory will create a binary directory in the build tree, and as it is being processed this variable will be set. For in-source builds this is the current source directory being processed.

  • CMAKE_CURRENT_LIST_DIR: Full directory of the listfile currently being processed.

    As CMake processes the listfiles in your project this variable will always be set to the directory where the listfile which is currently being processed (CMAKE_CURRENT_LIST_FILE) is located. The value has dynamic scope. When CMake starts processing commands in a source file it sets this variable to the directory where this file is located. When CMake finishes processing commands from the file it restores the previous value. Therefore the value of the variable inside a macro or function is the directory of the file invoking the bottom-most entry on the call stack, not the directory of the file containing the macro or function definition.

    See also CMAKE_CURRENT_LIST_FILE.

  • CMAKE_CURRENT_LIST_FILE: Full path to the listfile currently being processed.

    As CMake processes the listfiles in your project this variable will always be set to the one currently being processed. The value has dynamic scope. When CMake starts processing commands in a source file it sets this variable to the location of the file. When CMake finishes processing commands from the file it restores the previous value. Therefore the value of the variable inside a macro or function is the file invoking the bottom-most entry on the call stack, not the file containing the macro or function definition.

    See also CMAKE_PARENT_LIST_FILE.

  • CMAKE_CURRENT_LIST_LINE: The line number of the current file being processed.

    This is the line number of the file currently being processed by cmake.

  • CMAKE_CURRENT_SOURCE_DIR: The path to the source directory currently being processed.

    This the full path to the source directory that is currently being processed by cmake.

  • CMAKE_DL_LIBS: Name of library containing dlopen and dlcose.

    The name of the library that has dlopen and dlclose in it, usually -ldl on most UNIX machines.

  • CMAKE_EDIT_COMMAND: Full path to cmake-gui or ccmake.

    This is the full path to the CMake executable that can graphically edit the cache. For example, cmake-gui, ccmake, or cmake -i.

  • CMAKE_EXECUTABLE_SUFFIX: The suffix for executables on this platform.

    The suffix to use for the end of an executable if any, .exe on Windows.

    CMAKE_EXECUTABLE_SUFFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_EXTRA_GENERATOR: The extra generator used to build the project.

    When using the Eclipse, CodeBlocks or KDevelop generators, CMake generates Makefiles (CMAKE_GENERATOR) and additionally project files for the respective IDE. This IDE project file generator is stored in CMAKE_EXTRA_GENERATOR (e.g. "Eclipse CDT4").

  • CMAKE_EXTRA_SHARED_LIBRARY_SUFFIXES: Additional suffixes for shared libraries.

    Extensions for shared libraries other than that specified by CMAKE_SHARED_LIBRARY_SUFFIX, if any. CMake uses this to recognize external shared library files during analysis of libraries linked by a target.

  • CMAKE_GENERATOR: The generator used to build the project.

    The name of the generator that is being used to generate the build files. (e.g. "Unix Makefiles", "Visual Studio 6", etc.)

  • CMAKE_HOME_DIRECTORY: Path to top of source tree.

    This is the path to the top level of the source tree.

  • CMAKE_IMPORT_LIBRARY_PREFIX: The prefix for import libraries that you link to.

    The prefix to use for the name of an import library if used on this platform.

    CMAKE_IMPORT_LIBRARY_PREFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_IMPORT_LIBRARY_SUFFIX: The suffix for import libraries that you link to.

    The suffix to use for the end of an import library if used on this platform.

    CMAKE_IMPORT_LIBRARY_SUFFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_LINK_LIBRARY_SUFFIX: The suffix for libraries that you link to.

    The suffix to use for the end of a library, .lib on Windows.

  • CMAKE_MAJOR_VERSION: The Major version of cmake (i.e. the 2 in 2.X.X)

    This specifies the major version of the CMake executable being run.

  • CMAKE_MAKE_PROGRAM: See CMAKE_BUILD_TOOL.

    This variable is around for backwards compatibility, see CMAKE_BUILD_TOOL.

  • CMAKE_MINOR_VERSION: The Minor version of cmake (i.e. the 4 in X.4.X).

    This specifies the minor version of the CMake executable being run.

  • CMAKE_PARENT_LIST_FILE: Full path to the parent listfile of the one currently being processed.

    As CMake processes the listfiles in your project this variable will always be set to the listfile that included or somehow invoked the one currently being processed. See also CMAKE_CURRENT_LIST_FILE.

  • CMAKE_PATCH_VERSION: The patch version of cmake (i.e. the 3 in X.X.3).

    This specifies the patch version of the CMake executable being run.

  • CMAKE_PROJECT_NAME: The name of the current project.

    This specifies name of the current project from the closest inherited PROJECT command.

  • CMAKE_RANLIB: Name of randomizing tool for static libraries.

    This specifies name of the program that randomizes libraries on UNIX, not used on Windows, but may be present.

  • CMAKE_ROOT: Install directory for running cmake.

    This is the install root for the running CMake and the Modules directory can be found here. This is commonly used in this format: ${CMAKE_ROOT}/Modules

  • CMAKE_SCRIPT_MODE_FILE: Full path to the -P script file currently being processed.

    When run in -P script mode, CMake sets this variable to the full path of the script file. When run to configure a CMakeLists.txt file, this variable is not set.

  • CMAKE_SHARED_LIBRARY_PREFIX: The prefix for shared libraries that you link to.

    The prefix to use for the name of a shared library, lib on UNIX.

    CMAKE_SHARED_LIBRARY_PREFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_SHARED_LIBRARY_SUFFIX: The suffix for shared libraries that you link to.

    The suffix to use for the end of a shared library, .dll on Windows.

    CMAKE_SHARED_LIBRARY_SUFFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_SHARED_MODULE_PREFIX: The prefix for loadable modules that you link to.

    The prefix to use for the name of a loadable module on this platform.

    CMAKE_SHARED_MODULE_PREFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_SHARED_MODULE_SUFFIX: The suffix for shared libraries that you link to.

    The suffix to use for the end of a loadable module on this platform

    CMAKE_SHARED_MODULE_SUFFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_SIZEOF_VOID_P: Size of a void pointer.

    This is set to the size of a pointer on the machine, and is determined by a try compile. If a 64 bit size is found, then the library search path is modified to look for 64 bit libraries first.

  • CMAKE_SKIP_RPATH: If true, do not add run time path information.

    If this is set to TRUE, then the rpath information is not added to compiled executables. The default is to add rpath information if the platform supports it. This allows for easy running from the build tree. To omit RPATHin the install step, but not the build step, use CMAKE_SKIP_INSTALL_RPATH instead.

  • CMAKE_SOURCE_DIR: The path to the top level of the source tree.

    This is the full path to the top level of the current CMake source tree. For an in-source build, this would be the same as CMAKE_BINARY_DIR.

  • CMAKE_STANDARD_LIBRARIES: Libraries linked into every executable and shared library.

    This is the list of libraries that are linked into all executables and libraries.

  • CMAKE_STATIC_LIBRARY_PREFIX: The prefix for static libraries that you link to.

    The prefix to use for the name of a static library, lib on UNIX.

    CMAKE_STATIC_LIBRARY_PREFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_STATIC_LIBRARY_SUFFIX: The suffix for static libraries that you link to.

    The suffix to use for the end of a static library, .lib on Windows.

    CMAKE_STATIC_LIBRARY_SUFFIX_<LANG> overrides this for language <LANG>.

  • CMAKE_TWEAK_VERSION: The tweak version of cmake (i.e. the 1 in X.X.X.1).

    This specifies the tweak version of the CMake executable being run. Releases use tweak < 20000000 and development versions use the date format CCYYMMDD for the tweak level.

  • CMAKE_USING_VC_FREE_TOOLS: True if free visual studio tools being used.

    This is set to true if the compiler is Visual Studio free tools.

  • CMAKE_VERBOSE_MAKEFILE: Create verbose makefiles if on.

    This variable defaults to false. You can set this variable to true to make CMake produce verbose makefiles that show each command line as it is used.

  • CMAKE_VERSION: The full version of cmake in major.minor.patch[.tweak[-id]] format.

    This specifies the full version of the CMake executable being run. This variable is defined by versions 2.6.3 and higher. See variables CMAKE_MAJOR_VERSION, CMAKE_MINOR_VERSION, CMAKE_PATCH_VERSION, and CMAKE_TWEAK_VERSION for individual version components. The [-id] component appears in non-release versions and may be arbitrary text.

  • PROJECT_BINARY_DIR: Full path to build directory for project.

    This is the binary directory of the most recent PROJECT command.

  • PROJECT_NAME: Name of the project given to the project command.

    This is the name given to the most recent PROJECT command.

  • PROJECT_SOURCE_DIR: Top level source directory for the current project.

    This is the source directory of the most recent PROJECT command.

  • [Project name]_BINARY_DIR: Top level binary directory for the named project.

    A variable is created with the name used in the PROJECT command, and is the binary directory for the project. This can be useful when SUBDIR is used to connect several projects.

  • [Project name]_SOURCE_DIR: Top level source directory for the named project.

    A variable is created with the name used in the PROJECT command, and is the source directory for the project. This can be useful when add_subdirectory is used to connect several projects.

Copyright

Copyright 2000-2009 Kitware, Inc., Insight Software Consortium. All rights reserved.

Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:

Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.

Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.

Neither the names of Kitware, Inc., the Insight Software Consortium, nor the names of their contributors may be used to endorse or promote products derived from this software without specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

See Also

The following resources are available to get help using CMake:

Summary of helpful links:

  Home: http://www.cmake.org
Docs: http://www.cmake.org/HTML/Documentation.html
Mail: http://www.cmake.org/HTML/MailingLists.html
FAQ: http://www.cmake.org/Wiki/CMake_FAQ