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CMAKE-DEVELOPER(7) CMake CMAKE-DEVELOPER(7) NAME cmake-developer - CMake Developer Reference INTRODUCTION This manual is intended for reference by developers working with cmake-language(7) code, whether writing their own modules, authoring their own build systems, or working on CMake itself. See https://cmake.org/get-involved/ to get involved in development of CMake upstream. It includes links to contribution instructions, which in turn link to developer guides for CMake itself. ACCESSING WINDOWS REGISTRY CMake offers some facilities to access the registry on Windows plat- forms. Query Windows Registry New in version 3.24. The cmake_host_system_information() command offers the possibility to query the registry on the local computer. See cmake_host_system(QUERY_WINDOWS_REGISTRY) for more information. Find Using Windows Registry Changed in version 3.24. Options HINTS and PATHS of find_file(), find_library(), find_path(), find_program(), and find_package() commands offer the possibility, on Windows platform, to query the registry. The formal syntax, as specified using BNF notation with the regular ex- tensions, for registry query is the following: registry_query ::= '[' sep_definition? root_key ((key_separator sub_key)? (value_separator value_name_)?)? ']' sep_definition ::= '{' value_separator '}' root_key ::= 'HKLM' | 'HKEY_LOCAL_MACHINE' | 'HKCU' | 'HKEY_CURRENT_USER' | 'HKCR' | 'HKEY_CLASSES_ROOT' | 'HKCC' | 'HKEY_CURRENT_CONFIG' | 'HKU' | 'HKEY_USERS' sub_key ::= element (key_separator element)* key_separator ::= '/' | '\\' value_separator ::= element | ';' value_name ::= element | '(default)' element ::= character\+ character ::= <any character except key_separator and value_separator> The sep_definition optional item offers the possibility to specify the string used to separate the sub_key from the value_name item. If not specified, the character ; is used. Multiple registry_query items can be specified as part of a path. # example using default separator find_file(... PATHS "/root/[HKLM/Stuff;InstallDir]/lib[HKLM\\\\Stuff;Architecture]") # example using different specified separators find_library(... HINTS "/root/[{|}HKCU/Stuff|InstallDir]/lib[{@@}HKCU\\\\Stuff@@Architecture]") If the value_name item is not specified or has the special name (de- fault), the content of the default value, if any, will be returned. The supported types for the value_name are: • REG_SZ. • REG_EXPAND_SZ. The returned data is expanded. • REG_DWORD. • REG_QWORD. When the registry query failed, typically because the key does not ex- ist or the data type is not supported, the string /REGISTRY-NOTFOUND is substituted to the [] query expression. FIND MODULES A "find module" is a Find<PackageName>.cmake file to be loaded by the find_package() command when invoked for <PackageName>. The primary task of a find module is to determine whether a package is available, set the <PackageName>_FOUND variable to reflect this and provide any variables, macros and imported targets required to use the package. A find module is useful in cases where an upstream library does not provide a config file package. The traditional approach is to use variables for everything, including libraries and executables: see the Standard Variable Names section be- low. This is what most of the existing find modules provided by CMake do. The more modern approach is to behave as much like config file packages files as possible, by providing imported target. This has the advan- tage of propagating usage requirements to consumers. In either case (or even when providing both variables and imported tar- gets), find modules should provide backwards compatibility with old versions that had the same name. A FindFoo.cmake module will typically be loaded by the command: find_package(Foo [major[.minor[.patch[.tweak]]]] [EXACT] [QUIET] [REQUIRED] [[COMPONENTS] [components...]] [OPTIONAL_COMPONENTS components...] [NO_POLICY_SCOPE]) See the find_package() documentation for details on what variables are set for the find module. Most of these are dealt with by using FindPackageHandleStandardArgs. Briefly, the module should only locate versions of the package compati- ble with the requested version, as described by the Foo_FIND_VERSION family of variables. If Foo_FIND_QUIETLY is set to true, it should avoid printing messages, including anything complaining about the pack- age not being found. If Foo_FIND_REQUIRED is set to true, the module should issue a FATAL_ERROR if the package cannot be found. If neither are set to true, it should print a non-fatal message if it cannot find the package. Packages that find multiple semi-independent parts (like bundles of li- braries) should search for the components listed in Foo_FIND_COMPONENTS if it is set , and only set Foo_FOUND to true if for each searched-for component <c> that was not found, Foo_FIND_REQUIRED_<c> is not set to true. The HANDLE_COMPONENTS argument of find_package_handle_stan- dard_args() can be used to implement this. If Foo_FIND_COMPONENTS is not set, which modules are searched for and required is up to the find module, but should be documented. For internal implementation, it is a generally accepted convention that variables starting with underscore are for temporary use only. Standard Variable Names For a FindXxx.cmake module that takes the approach of setting variables (either instead of or in addition to creating imported targets), the following variable names should be used to keep things consistent be- tween Find modules. Note that all variables start with Xxx_, which (unless otherwise noted) must match exactly the name of the Find- Xxx.cmake file, including upper/lowercase. This prefix on the variable names ensures that they do not conflict with variables of other Find modules. The same pattern should also be followed for any macros, functions and imported targets defined by the Find module. Xxx_INCLUDE_DIRS The final set of include directories listed in one variable for use by client code. This should not be a cache entry (note that this also means this variable should not be used as the result variable of a find_path() command - see Xxx_INCLUDE_DIR below for that). Xxx_LIBRARIES The libraries to use with the module. These may be CMake tar- gets, full absolute paths to a library binary or the name of a library that the linker must find in its search path. This should not be a cache entry (note that this also means this variable should not be used as the result variable of a find_library() command - see Xxx_LIBRARY below for that). Xxx_DEFINITIONS The compile definitions to use when compiling code that uses the module. This really shouldn't include options such as -DHAS_JPEG that a client source-code file uses to decide whether to #include <jpeg.h> Xxx_EXECUTABLE The full absolute path to an executable. In this case, Xxx might not be the name of the module, it might be the name of the tool (usually converted to all uppercase), assuming that tool has such a well-known name that it is unlikely that another tool with the same name exists. It would be appropriate to use this as the result variable of a find_program() command. Xxx_YYY_EXECUTABLE Similar to Xxx_EXECUTABLE except here the Xxx is always the mod- ule name and YYY is the tool name (again, usually fully upper- case). Prefer this form if the tool name is not very widely known or has the potential to clash with another tool. For greater consistency, also prefer this form if the module pro- vides more than one executable. Xxx_LIBRARY_DIRS Optionally, the final set of library directories listed in one variable for use by client code. This should not be a cache en- try. Xxx_ROOT_DIR Where to find the base directory of the module. Xxx_VERSION_VV Variables of this form specify whether the Xxx module being pro- vided is version VV of the module. There should not be more than one variable of this form set to true for a given module. For example, a module Barry might have evolved over many years and gone through a number of different major versions. Version 3 of the Barry module might set the variable Barry_VERSION_3 to true, whereas an older version of the module might set Barry_VERSION_2 to true instead. It would be an error for both Barry_VERSION_3 and Barry_VERSION_2 to both be set to true. Xxx_WRAP_YY When a variable of this form is set to false, it indicates that the relevant wrapping command should not be used. The wrapping command depends on the module, it may be implied by the module name or it might be specified by the YY part of the variable. Xxx_Yy_FOUND For variables of this form, Yy is the name of a component for the module. It should match exactly one of the valid component names that may be passed to the find_package() command for the module. If a variable of this form is set to false, it means that the Yy component of module Xxx was not found or is not available. Variables of this form would typically be used for optional components so that the caller can check whether an op- tional component is available. Xxx_FOUND When the find_package() command returns to the caller, this variable will be set to true if the module was deemed to have been found successfully. Xxx_NOT_FOUND_MESSAGE Should be set by config-files in the case that it has set Xxx_FOUND to FALSE. The contained message will be printed by the find_package() command and by find_package_handle_standard_args() to inform the user about the problem. Use this instead of calling message() directly to re- port a reason for failing to find the module or package. Xxx_RUNTIME_LIBRARY_DIRS Optionally, the runtime library search path for use when running an executable linked to shared libraries. The list should be used by user code to create the PATH on windows or LD_LI- BRARY_PATH on UNIX. This should not be a cache entry. Xxx_VERSION The full version string of the package found, if any. Note that many existing modules provide Xxx_VERSION_STRING instead. Xxx_VERSION_MAJOR The major version of the package found, if any. Xxx_VERSION_MINOR The minor version of the package found, if any. Xxx_VERSION_PATCH The patch version of the package found, if any. The following names should not usually be used in CMakeLists.txt files. They are intended for use by Find modules to specify and cache the lo- cations of specific files or directories. Users are typically able to set and edit these variables to control the behavior of Find modules (like entering the path to a library manually): Xxx_LIBRARY The path of the library. Use this form only when the module provides a single library. It is appropriate to use this as the result variable in a find_library() command. Xxx_Yy_LIBRARY The path of library Yy provided by the module Xxx. Use this form when the module provides more than one library or where other modules may also provide a library of the same name. It is also appropriate to use this form as the result variable in a find_library() command. Xxx_INCLUDE_DIR When the module provides only a single library, this variable can be used to specify where to find headers for using the li- brary (or more accurately, the path that consumers of the li- brary should add to their header search path). It would be ap- propriate to use this as the result variable in a find_path() command. Xxx_Yy_INCLUDE_DIR If the module provides more than one library or where other mod- ules may also provide a library of the same name, this form is recommended for specifying where to find headers for using li- brary Yy provided by the module. Again, it would be appropriate to use this as the result variable in a find_path() command. To prevent users being overwhelmed with settings to configure, try to keep as many options as possible out of the cache, leaving at least one option which can be used to disable use of the module, or locate a not-found library (e.g. Xxx_ROOT_DIR). For the same reason, mark most cache options as advanced. For packages which provide both debug and release binaries, it is common to create cache variables with a _LI- BRARY_<CONFIG> suffix, such as Foo_LIBRARY_RELEASE and Foo_LIBRARY_DE- BUG. The SelectLibraryConfigurations module can be helpful for such cases. While these are the standard variable names, you should provide back- wards compatibility for any old names that were actually in use. Make sure you comment them as deprecated, so that no-one starts using them. A Sample Find Module We will describe how to create a simple find module for a library Foo. The top of the module should begin with a license notice, followed by a blank line, and then followed by a Bracket Comment. The comment should begin with .rst: to indicate that the rest of its content is reStruc- turedText-format documentation. For example: # Distributed under the OSI-approved BSD 3-Clause License. See accompanying # file Copyright.txt or https://cmake.org/licensing for details. #[=======================================================================[.rst: FindFoo ------- Finds the Foo library. Imported Targets ^^^^^^^^^^^^^^^^ This module provides the following imported targets, if found: ``Foo::Foo`` The Foo library Result Variables ^^^^^^^^^^^^^^^^ This will define the following variables: ``Foo_FOUND`` True if the system has the Foo library. ``Foo_VERSION`` The version of the Foo library which was found. ``Foo_INCLUDE_DIRS`` Include directories needed to use Foo. ``Foo_LIBRARIES`` Libraries needed to link to Foo. Cache Variables ^^^^^^^^^^^^^^^ The following cache variables may also be set: ``Foo_INCLUDE_DIR`` The directory containing ``foo.h``. ``Foo_LIBRARY`` The path to the Foo library. #]=======================================================================] The module documentation consists of: • An underlined heading specifying the module name. • A simple description of what the module finds. More description may be required for some packages. If there are caveats or other details users of the module should be aware of, specify them here. • A section listing imported targets provided by the module, if any. • A section listing result variables provided by the module. • Optionally a section listing cache variables used by the module, if any. If the package provides any macros or functions, they should be listed in an additional section, but can be documented by additional .rst: comment blocks immediately above where those macros or functions are defined. The find module implementation may begin below the documentation block. Now the actual libraries and so on have to be found. The code here will obviously vary from module to module (dealing with that, after all, is the point of find modules), but there tends to be a common pat- tern for libraries. First, we try to use pkg-config to find the library. Note that we can- not rely on this, as it may not be available, but it provides a good starting point. find_package(PkgConfig) if(PKG_CONFIG_FOUND) pkg_check_modules(PC_Foo QUIET Foo) endif() This should define some variables starting PC_Foo_ that contain the in- formation from the Foo.pc file. Now we need to find the libraries and include files; we use the infor- mation from pkg-config to provide hints to CMake about where to look. find_path(Foo_INCLUDE_DIR NAMES foo.h PATHS ${PC_Foo_INCLUDE_DIRS} PATH_SUFFIXES Foo ) find_library(Foo_LIBRARY NAMES foo PATHS ${PC_Foo_LIBRARY_DIRS} ) Alternatively, if the library is available with multiple configura- tions, you can use SelectLibraryConfigurations to automatically set the Foo_LIBRARY variable instead: find_library(Foo_LIBRARY_RELEASE NAMES foo PATHS ${PC_Foo_LIBRARY_DIRS}/Release ) find_library(Foo_LIBRARY_DEBUG NAMES foo PATHS ${PC_Foo_LIBRARY_DIRS}/Debug ) include(SelectLibraryConfigurations) select_library_configurations(Foo) If you have a good way of getting the version (from a header file, for example), you can use that information to set Foo_VERSION (although note that find modules have traditionally used Foo_VERSION_STRING, so you may want to set both). Otherwise, attempt to use the information from pkg-config set(Foo_VERSION ${PC_Foo_VERSION}) Now we can use FindPackageHandleStandardArgs to do most of the rest of the work for us include(FindPackageHandleStandardArgs) find_package_handle_standard_args(Foo FOUND_VAR Foo_FOUND REQUIRED_VARS Foo_LIBRARY Foo_INCLUDE_DIR VERSION_VAR Foo_VERSION ) This will check that the REQUIRED_VARS contain values (that do not end in -NOTFOUND) and set Foo_FOUND appropriately. It will also cache those values. If Foo_VERSION is set, and a required version was passed to find_package(), it will check the requested version against the one in Foo_VERSION. It will also print messages as appropriate; note that if the package was found, it will print the contents of the first re- quired variable to indicate where it was found. At this point, we have to provide a way for users of the find module to link to the library or libraries that were found. There are two ap- proaches, as discussed in the Find Modules section above. The tradi- tional variable approach looks like if(Foo_FOUND) set(Foo_LIBRARIES ${Foo_LIBRARY}) set(Foo_INCLUDE_DIRS ${Foo_INCLUDE_DIR}) set(Foo_DEFINITIONS ${PC_Foo_CFLAGS_OTHER}) endif() If more than one library was found, all of them should be included in these variables (see the Standard Variable Names section for more in- formation). When providing imported targets, these should be namespaced (hence the Foo:: prefix); CMake will recognize that values passed to target_link_libraries() that contain :: in their name are supposed to be imported targets (rather than just library names), and will produce appropriate diagnostic messages if that target does not exist (see pol- icy CMP0028). if(Foo_FOUND AND NOT TARGET Foo::Foo) add_library(Foo::Foo UNKNOWN IMPORTED) set_target_properties(Foo::Foo PROPERTIES IMPORTED_LOCATION "${Foo_LIBRARY}" INTERFACE_COMPILE_OPTIONS "${PC_Foo_CFLAGS_OTHER}" INTERFACE_INCLUDE_DIRECTORIES "${Foo_INCLUDE_DIR}" ) endif() One thing to note about this is that the INTERFACE_INCLUDE_DIRECTORIES and similar properties should only contain information about the target itself, and not any of its dependencies. Instead, those dependencies should also be targets, and CMake should be told that they are depen- dencies of this target. CMake will then combine all the necessary in- formation automatically. The type of the IMPORTED target created in the add_library() command can always be specified as UNKNOWN type. This simplifies the code in cases where static or shared variants may be found, and CMake will de- termine the type by inspecting the files. If the library is available with multiple configurations, the IMPORTED_CONFIGURATIONS target property should also be populated: if(Foo_FOUND) if (NOT TARGET Foo::Foo) add_library(Foo::Foo UNKNOWN IMPORTED) endif() if (Foo_LIBRARY_RELEASE) set_property(TARGET Foo::Foo APPEND PROPERTY IMPORTED_CONFIGURATIONS RELEASE ) set_target_properties(Foo::Foo PROPERTIES IMPORTED_LOCATION_RELEASE "${Foo_LIBRARY_RELEASE}" ) endif() if (Foo_LIBRARY_DEBUG) set_property(TARGET Foo::Foo APPEND PROPERTY IMPORTED_CONFIGURATIONS DEBUG ) set_target_properties(Foo::Foo PROPERTIES IMPORTED_LOCATION_DEBUG "${Foo_LIBRARY_DEBUG}" ) endif() set_target_properties(Foo::Foo PROPERTIES INTERFACE_COMPILE_OPTIONS "${PC_Foo_CFLAGS_OTHER}" INTERFACE_INCLUDE_DIRECTORIES "${Foo_INCLUDE_DIR}" ) endif() The RELEASE variant should be listed first in the property so that the variant is chosen if the user uses a configuration which is not an ex- act match for any listed IMPORTED_CONFIGURATIONS. Most of the cache variables should be hidden in the ccmake interface unless the user explicitly asks to edit them. mark_as_advanced( Foo_INCLUDE_DIR Foo_LIBRARY ) If this module replaces an older version, you should set compatibility variables to cause the least disruption possible. # compatibility variables set(Foo_VERSION_STRING ${Foo_VERSION}) COPYRIGHT 2000-2024 Kitware, Inc. and Contributors 3.31.9 Nov 01, 2025 CMAKE-DEVELOPER(7)
NAME | INTRODUCTION | ACCESSING WINDOWS REGISTRY | FIND MODULES | COPYRIGHT
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