Provided by: cmake-data_3.24.2-1ubuntu1_all bug

NAME

       cmake-generators - CMake Generators Reference

INTRODUCTION

       A  CMake  Generator  is responsible for writing the input files for a native build system.
       Exactly one of the CMake Generators must be selected for a build tree  to  determine  what
       native build system is to be used.  Optionally one of the Extra Generators may be selected
       as a variant of some of the Command-Line Build Tool Generators to  produce  project  files
       for an auxiliary IDE.

       CMake Generators are platform-specific so each may be available only on certain platforms.
       The cmake(1) command-line tool --help output lists available  generators  on  the  current
       platform.   Use  its  -G  option  to  specify  the  generator  for  a new build tree.  The
       cmake-gui(1) offers interactive selection of a generator when creating a new build tree.

CMAKE GENERATORS

   Command-Line Build Tool Generators
       These generators support command-line build tools.  In order to use them, one must  launch
       CMake  from  a  command-line prompt whose environment is already configured for the chosen
       compiler and build tool.

   Makefile Generators
   Borland Makefiles
       Generates Borland makefiles.

   MSYS Makefiles
       Generates makefiles for use with MSYS (Minimal SYStem) make under the MSYS shell.

       Use this generator in a MSYS shell prompt and using make as the build tool.  The generated
       makefiles  use /bin/sh as the shell to launch build rules.  They are not compatible with a
       Windows command prompt.

       To build under a Windows command prompt, use the MinGW Makefiles generator.

   MinGW Makefiles
       Generates makefiles for use with mingw32-make under a Windows command prompt.

       Use this generator under a Windows command prompt with MinGW (Minimalist GNU for  Windows)
       in the PATH and using mingw32-make as the build tool.  The generated makefiles use cmd.exe
       as the shell to launch build rules.  They are not compatible with MSYS or a unix shell.

       To build under the MSYS shell, use the MSYS Makefiles generator.

   NMake Makefiles
       Generates NMake makefiles.

   NMake Makefiles JOM
       Generates JOM makefiles.

       New in version 3.8: CodeBlocks generator can be used as an extra generator.

   Unix Makefiles
       Generates standard UNIX makefiles.

       A hierarchy of UNIX makefiles  is  generated  into  the  build  tree.   Use  any  standard
       UNIX-style  make  program  to  build  the  project  through the all target and install the
       project through the install (or install/strip) target.

       For each subdirectory sub/dir of the project a UNIX makefile will be  created,  containing
       the following targets:

       all    Depends on all targets required by the subdirectory.

       install
              Runs the install step in the subdirectory, if any.

       install/strip
              Runs  the  install  step  in the subdirectory followed by a CMAKE_STRIP command, if
              any.

              The CMAKE_STRIP variable will contain the platform's strip utility,  which  removes
              symbols information from generated binaries.

       test   Runs the test step in the subdirectory, if any.

       package
              Runs the package step in the subdirectory, if any.

   Watcom WMake
       Generates Watcom WMake makefiles.

   Ninja Generators
   Ninja
       Generates build.ninja files.

       A  build.ninja  file is generated into the build tree.  Use the ninja program to build the
       project  through  the  all  target  and  install  the  project  through  the  install  (or
       install/strip) target.

       For each subdirectory sub/dir of the project, additional targets are generated:

       sub/dir/all
          New in version 3.6: Depends on all targets required by the subdirectory.

       sub/dir/install
          New in version 3.7: Runs the install step in the subdirectory, if any.

       sub/dir/install/strip
          New in version 3.7: Runs the install step in the subdirectory followed by a CMAKE_STRIP
          command, if any.

          The CMAKE_STRIP variable will contain  the  platform's  strip  utility,  which  removes
          symbols information from generated binaries.

       sub/dir/test
          New in version 3.7: Runs the test step in the subdirectory, if any.

       sub/dir/package
          New in version 3.7: Runs the package step in the subdirectory, if any.

   Fortran Support
       New in version 3.7.

       The Ninja generator conditionally supports Fortran when the ninja tool is at least version
       1.10 (which has the required features).

   Swift Support
       New in version 3.15.

       The Swift support is experimental,  not  considered  stable,  and  may  change  in  future
       releases of CMake.

   See Also
       New  in  version 3.17: The Ninja Multi-Config generator is similar to the Ninja generator,
       but generates multiple configurations at once.

   Ninja Multi-Config
       New in version 3.17.

       Generates multiple build-<Config>.ninja files.

       This generator is very much like the Ninja generator, but with some key differences.  Only
       these differences will be discussed in this document.

       Unlike  the  Ninja generator, Ninja Multi-Config generates multiple configurations at once
       with CMAKE_CONFIGURATION_TYPES instead of only one  configuration  with  CMAKE_BUILD_TYPE.
       One  build-<Config>.ninja  file  will  be generated for each of these configurations (with
       <Config> being the configuration name.) These files are intended to be run with  ninja  -f
       build-<Config>.ninja.  A  build.ninja file is also generated, using the configuration from
       either CMAKE_DEFAULT_BUILD_TYPE or the first item from CMAKE_CONFIGURATION_TYPES.

       cmake --build . --config <Config> will always use build-<Config>.ninja  to  build.  If  no
       --config argument is specified, cmake --build . will use build.ninja.

       Each  build-<Config>.ninja  file  contains  <target>  targets as well as <target>:<Config>
       targets, where <Config> is the same as the configuration specified in build-<Config>.ninja
       Additionally,   if   cross-config   mode  is  enabled,  build-<Config>.ninja  may  contain
       <target>:<OtherConfig>  targets,  where  <OtherConfig>  is  a  cross-config,  as  well  as
       <target>:all,  which  builds  the target in all cross-configs. See below for how to enable
       cross-config mode.

       The Ninja Multi-Config generator recognizes the following variables:

       CMAKE_CONFIGURATION_TYPES
              Specifies the total set of configurations to build. Unlike with other  multi-config
              generators, this variable has a value of Debug;Release;RelWithDebInfo by default.

       CMAKE_CROSS_CONFIGS
              Specifies   a   semicolon-separated  list  of  configurations  available  from  all
              build-<Config>.ninja files.

       CMAKE_DEFAULT_BUILD_TYPE
              Specifies the configuration to use by default in a build.ninja file.

       CMAKE_DEFAULT_CONFIGS
              Specifies a semicolon-separated list of configurations to build  for  a  target  in
              build.ninja if no :<Config> suffix is specified.

       Consider the following example:

          cmake_minimum_required(VERSION 3.16)
          project(MultiConfigNinja C)

          add_executable(generator generator.c)
          add_custom_command(OUTPUT generated.c COMMAND generator generated.c)
          add_library(generated ${CMAKE_BINARY_DIR}/generated.c)

       Now  assume you configure the project with Ninja Multi-Config and run one of the following
       commands:

          ninja -f build-Debug.ninja generated
          # OR
          cmake --build . --config Debug --target generated

       This would build the Debug configuration of generator, which would  be  used  to  generate
       generated.c, which would be used to build the Debug configuration of generated.

       But if CMAKE_CROSS_CONFIGS is set to all, and you run the following instead:

          ninja -f build-Release.ninja generated:Debug
          # OR
          cmake --build . --config Release --target generated:Debug

       This  would  build the Release configuration of generator, which would be used to generate
       generated.c, which would be used to build the Debug configuration of  generated.  This  is
       useful for running a release-optimized version of a generator utility while still building
       the debug version of the targets built with the generated code.

   Custom Commands
       New in version 3.20.

       The Ninja Multi-Config generator  adds  extra  capabilities  to  add_custom_command()  and
       add_custom_target()   through   its   cross-config   mode.   The   COMMAND,  DEPENDS,  and
       WORKING_DIRECTORY arguments can be evaluated in the context of either the "command config"
       (the  "native"  configuration  of  the  build-<Config>.ninja  file  in use) or the "output
       config" (the configuration used to evaluate the OUTPUT and BYPRODUCTS).

       If either OUTPUT or BYPRODUCTS names a path that is common to more than one  configuration
       (e.g.  it  does  not  use  any  generator expressions), all arguments are evaluated in the
       command config by default.  If  all  OUTPUT  and  BYPRODUCTS  paths  are  unique  to  each
       configuration  (e.g.  by  using the $<CONFIG> generator expression), the first argument of
       COMMAND is still evaluated  in  the  command  config  by  default,  while  all  subsequent
       arguments, as well as the arguments to DEPENDS and WORKING_DIRECTORY, are evaluated in the
       output config.  These  defaults  can  be  overridden  with  the  $<OUTPUT_CONFIG:...>  and
       $<COMMAND_CONFIG:...>  generator-expressions.  Note  that  if a target is specified by its
       name in DEPENDS, or as the first argument of  COMMAND,  it  is  always  evaluated  in  the
       command  config,  even if it is wrapped in $<OUTPUT_CONFIG:...> (because its plain name is
       not a generator expression).

       As an example, consider the following:

          add_custom_command(
            OUTPUT "$<CONFIG>.txt"
            COMMAND generator "$<CONFIG>.txt" "$<OUTPUT_CONFIG:$<CONFIG>>" "$<COMMAND_CONFIG:$<CONFIG>>"
            DEPENDS tgt1 "$<TARGET_FILE:tgt2>" "$<OUTPUT_CONFIG:$<TARGET_FILE:tgt3>>" "$<COMMAND_CONFIG:$<TARGET_FILE:tgt4>>"
            )

       Assume that generator, tgt1, tgt2, tgt3, and tgt4 are all executable targets,  and  assume
       that  $<CONFIG>.txt  is built in the Debug output config using the Release command config.
       The Release build of the generator target  is  called  with  Debug.txt  Debug  Release  as
       arguments.  The  command  depends  on  the  Release builds of tgt1 and tgt4, and the Debug
       builds of tgt2 and tgt3.

       PRE_BUILD, PRE_LINK, and POST_BUILD custom commands for targets  only  get  run  in  their
       "native"  configuration (the Release configuration in the build-Release.ninja file) unless
       they have no BYPRODUCTS or their BYPRODUCTS are unique per config. Consider the  following
       example:

          add_executable(exe main.c)
          add_custom_command(
            TARGET exe
            POST_BUILD
            COMMAND ${CMAKE_COMMAND} -E echo "Running no-byproduct command"
            )
          add_custom_command(
            TARGET exe
            POST_BUILD
            COMMAND ${CMAKE_COMMAND} -E echo "Running separate-byproduct command for $<CONFIG>"
            BYPRODUCTS $<CONFIG>.txt
            )
          add_custom_command(
            TARGET exe
            POST_BUILD
            COMMAND ${CMAKE_COMMAND} -E echo "Running common-byproduct command for $<CONFIG>"
            BYPRODUCTS exe.txt
            )

       In  this  example,  if  you  build  exe:Debug in build-Release.ninja, the first and second
       custom commands get run, since their byproducts are unique per-config, but the last custom
       command  does  not.  However,  if  you build exe:Release in build-Release.ninja, all three
       custom commands get run.

   IDE Build Tool Generators
       These generators support Integrated Development Environment (IDE)  project  files.   Since
       the IDEs configure their own environment one may launch CMake from any environment.

   Visual Studio Generators
   Visual Studio 6
       Removed.   This  once  generated Visual Studio 6 project files, but the generator has been
       removed since CMake 3.6.  It is still possible to build with VS 6 tools  using  the  NMake
       Makefiles generator.

   Visual Studio 7
       Removed.  This once generated Visual Studio .NET 2002 project files, but the generator has
       been removed since CMake 3.6.  It is still possible to build with VS 7.0 tools  using  the
       NMake Makefiles generator.

   Visual Studio 7 .NET 2003
       Removed.  This once generated Visual Studio .NET 2003 project files, but the generator has
       been removed since CMake 3.9.  It is still possible to build with VS 7.1 tools  using  the
       NMake Makefiles generator.

   Visual Studio 8 2005
       Removed.   This  once  generated Visual Studio 8 2005 project files, but the generator has
       been removed since CMake 3.12.  It is still possible to build with VS 2005 tools using the
       NMake Makefiles generator.

   Visual Studio 9 2008
       Generates Visual Studio 9 2008 project files.

   Platform Selection
       The default target platform name (architecture) is Win32.

       New  in  version  3.1:  The  CMAKE_GENERATOR_PLATFORM variable may be set, perhaps via the
       cmake(1) -A option, to specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 9 2008" -A Win32cmake -G "Visual Studio 9 2008" -A x64cmake -G "Visual Studio 9 2008" -A Itaniumcmake -G "Visual Studio 9 2008" -A <WinCE-SDK> (Specify a  target  platform  matching  a
         Windows CE SDK name.)

       For compatibility with CMake versions prior to 3.1, one may specify a target platform name
       optionally at the end of the generator name.  This is supported only for:

       Visual Studio 9 2008 Win64
              Specify target platform x64.

       Visual Studio 9 2008 IA64
              Specify target platform Itanium.

       Visual Studio 9 2008 <WinCE-SDK>
              Specify target platform matching a Windows CE SDK name.

   Visual Studio 10 2010
       Deprecated.  Generates Visual Studio 10 (VS 2010) project files.

       NOTE:
          This generator is deprecated and will be removed in a future version of CMake.  It will
          still  be  possible  to build with VS 10 2010 tools using the Visual Studio 11 2012 (or
          above) generator with CMAKE_GENERATOR_TOOLSET set  to  v100,  or  by  using  the  NMake
          Makefiles generator.

       For  compatibility  with CMake versions prior to 3.0, one may specify this generator using
       the name Visual Studio 10 without the year component.

   Project Types
       Only Visual C++ and C#  projects  may  be  generated  (and  Fortran  with  Intel  compiler
       integration).  Other types of projects (Database, Website, etc.) are not supported.

   Platform Selection
       The default target platform name (architecture) is Win32.

       New  in  version  3.1:  The  CMAKE_GENERATOR_PLATFORM variable may be set, perhaps via the
       cmake(1) -A option, to specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 10 2010" -A Win32cmake -G "Visual Studio 10 2010" -A x64cmake -G "Visual Studio 10 2010" -A Itanium

       For compatibility with CMake versions prior to 3.1, one may specify a target platform name
       optionally at the end of the generator name.  This is supported only for:

       Visual Studio 10 2010 Win64
              Specify target platform x64.

       Visual Studio 10 2010 IA64
              Specify target platform Itanium.

   Toolset Selection
       The  v100  toolset  that  comes  with  Visual  Studio 10 2010 is selected by default.  The
       CMAKE_GENERATOR_TOOLSET option may be set, perhaps via the cmake(1) -T option, to  specify
       another toolset.

   Visual Studio 11 2012
       Generates Visual Studio 11 (VS 2012) project files.

       For  compatibility  with CMake versions prior to 3.0, one may specify this generator using
       the name "Visual Studio 11" without the year component.

   Project Types
       Only Visual C++ and C#  projects  may  be  generated  (and  Fortran  with  Intel  compiler
       integration).   Other  types  of  projects  (JavaScript,  Database, Website, etc.) are not
       supported.

   Platform Selection
       The default target platform name (architecture) is Win32.

       New in version 3.1: The CMAKE_GENERATOR_PLATFORM variable may  be  set,  perhaps  via  the
       cmake(1) -A option, to specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 11 2012" -A Win32cmake -G "Visual Studio 11 2012" -A x64cmake -G "Visual Studio 11 2012" -A ARMcmake  -G  "Visual  Studio 11 2012" -A <WinCE-SDK> (Specify a target platform matching a
         Windows CE SDK name.)

       For compatibility with CMake versions prior to 3.1, one may specify a target platform name
       optionally at the end of the generator name.  This is supported only for:

       Visual Studio 11 2012 Win64
              Specify target platform x64.

       Visual Studio 11 2012 ARM
              Specify target platform ARM.

       Visual Studio 11 2012 <WinCE-SDK>
              Specify target platform matching a Windows CE SDK name.

   Toolset Selection
       The  v110  toolset  that  comes  with  Visual  Studio 11 2012 is selected by default.  The
       CMAKE_GENERATOR_TOOLSET option may be set, perhaps via the cmake(1) -T option, to  specify
       another toolset.

   Visual Studio 12 2013
       Generates Visual Studio 12 (VS 2013) project files.

       For  compatibility  with CMake versions prior to 3.0, one may specify this generator using
       the name "Visual Studio 12" without the year component.

   Project Types
       Only Visual C++ and C#  projects  may  be  generated  (and  Fortran  with  Intel  compiler
       integration).   Other  types  of  projects  (JavaScript, Powershell, Python, etc.) are not
       supported.

   Platform Selection
       The default target platform name (architecture) is Win32.

       New in version 3.1: The CMAKE_GENERATOR_PLATFORM variable may  be  set,  perhaps  via  the
       cmake(1) -A option, to specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 12 2013" -A Win32cmake -G "Visual Studio 12 2013" -A x64cmake -G "Visual Studio 12 2013" -A ARM

       For compatibility with CMake versions prior to 3.1, one may specify a target platform name
       optionally at the end of the generator name.  This is supported only for:

       Visual Studio 12 2013 Win64
              Specify target platform x64.

       Visual Studio 12 2013 ARM
              Specify target platform ARM.

   Toolset Selection
       The v120 toolset that comes with Visual Studio  12  2013  is  selected  by  default.   The
       CMAKE_GENERATOR_TOOLSET  option may be set, perhaps via the cmake(1) -T option, to specify
       another toolset.

       New in version 3.8: For each toolset that comes with this version of Visual Studio,  there
       are  variants  that  are  themselves  compiled  for  32-bit  (x86)  and 64-bit (x64) hosts
       (independent of the architecture they target).  By default this generator uses the  32-bit
       variant  even  on  a  64-bit host.  One may explicitly request use of either the 32-bit or
       64-bit host tools by adding either host=x86 or host=x64 to the toolset specification.  See
       the CMAKE_GENERATOR_TOOLSET variable for details.

       New in version 3.14: Added support for host=x86 option.

   Visual Studio 14 2015
       New in version 3.1.

       Generates Visual Studio 14 (VS 2015) project files.

   Project Types
       Only  Visual  C++  and  C#  projects  may  be  generated  (and Fortran with Intel compiler
       integration).  Other types of projects (JavaScript,  Powershell,  Python,  etc.)  are  not
       supported.

   Platform Selection
       The default target platform name (architecture) is Win32.

       The  CMAKE_GENERATOR_PLATFORM  variable may be set, perhaps via the cmake(1) -A option, to
       specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 14 2015" -A Win32cmake -G "Visual Studio 14 2015" -A x64cmake -G "Visual Studio 14 2015" -A ARM

       For compatibility with CMake versions prior to 3.1, one may specify a target platform name
       optionally at the end of the generator name.  This is supported only for:

       Visual Studio 14 2015 Win64
              Specify target platform x64.

       Visual Studio 14 2015 ARM
              Specify target platform ARM.

   Toolset Selection
       The  v140  toolset  that  comes  with  Visual  Studio 14 2015 is selected by default.  The
       CMAKE_GENERATOR_TOOLSET option may be set, perhaps via the cmake(1) -T option, to  specify
       another toolset.

       New  in version 3.8: For each toolset that comes with this version of Visual Studio, there
       are variants that are  themselves  compiled  for  32-bit  (x86)  and  64-bit  (x64)  hosts
       (independent  of the architecture they target).  By default this generator uses the 32-bit
       variant even on a 64-bit host.  One may explicitly request use of  either  the  32-bit  or
       64-bit host tools by adding either host=x86 or host=x64 to the toolset specification.  See
       the CMAKE_GENERATOR_TOOLSET variable for details.

       New in version 3.14: Added support for host=x86 option.

   Windows 10 SDK Maximum Version for VS 2015
       New in version 3.19.

       Microsoft stated in a "Windows 10 October 2018 Update"  blog  post  that  Windows  10  SDK
       versions  (15063, 16299, 17134, 17763) are not supported by VS 2015 and are only supported
       by VS 2017 and later.  Therefore by default CMake automatically ignores  Windows  10  SDKs
       beyond 10.0.14393.0.

       However,  there  are  other  recommendations for certain driver/Win32 builds that indicate
       otherwise.    A   user   can   override   this   behavior   by    either    setting    the
       CMAKE_VS_WINDOWS_TARGET_PLATFORM_VERSION_MAXIMUM   to   a   false  value  or  setting  the
       CMAKE_VS_WINDOWS_TARGET_PLATFORM_VERSION_MAXIMUM to  the  string  value  of  the  required
       maximum (e.g. 10.0.15063.0).

   Visual Studio 15 2017
       New in version 3.7.1.

       Generates Visual Studio 15 (VS 2017) project files.

   Project Types
       Only  Visual  C++  and  C#  projects  may  be  generated  (and Fortran with Intel compiler
       integration).  Other types of projects (JavaScript,  Powershell,  Python,  etc.)  are  not
       supported.

   Instance Selection
       New in version 3.11.

       VS 2017 supports multiple installations on the same machine.  The CMAKE_GENERATOR_INSTANCE
       variable may be used to select one.

   Platform Selection
       The default target platform name (architecture) is Win32.

       The CMAKE_GENERATOR_PLATFORM variable may be set, perhaps via the cmake(1) -A  option,  to
       specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 15 2017" -A Win32cmake -G "Visual Studio 15 2017" -A x64cmake -G "Visual Studio 15 2017" -A ARMcmake -G "Visual Studio 15 2017" -A ARM64

       For compatibility with CMake versions prior to 3.1, one may specify a target platform name
       optionally at the end of the generator name.  This is supported only for:

       Visual Studio 15 2017 Win64
              Specify target platform x64.

       Visual Studio 15 2017 ARM
              Specify target platform ARM.

   Toolset Selection
       The v141 toolset that comes with Visual Studio  15  2017  is  selected  by  default.   The
       CMAKE_GENERATOR_TOOLSET  option may be set, perhaps via the cmake(1) -T option, to specify
       another toolset.

       New in version 3.8: For each toolset that comes with this version of Visual Studio,  there
       are  variants  that  are  themselves  compiled  for  32-bit  (x86)  and 64-bit (x64) hosts
       (independent of the architecture they target).  By default this generator uses the  32-bit
       variant  even  on  a  64-bit host.  One may explicitly request use of either the 32-bit or
       64-bit host tools by adding either host=x86 or host=x64 to the toolset specification.  See
       the CMAKE_GENERATOR_TOOLSET variable for details.

       New in version 3.14: Added support for host=x86 option.

   Visual Studio 16 2019
       New in version 3.14.

       Generates Visual Studio 16 (VS 2019) project files.

   Project Types
       Only  Visual  C++  and  C#  projects  may  be  generated  (and Fortran with Intel compiler
       integration).  Other types of projects (JavaScript,  Powershell,  Python,  etc.)  are  not
       supported.

   Instance Selection
       VS 2019 supports multiple installations on the same machine.  The CMAKE_GENERATOR_INSTANCE
       variable may be used to select one.

   Platform Selection
       The default target platform name (architecture) is that of the host and is provided in the
       CMAKE_VS_PLATFORM_NAME_DEFAULT variable.

       The  CMAKE_GENERATOR_PLATFORM  variable may be set, perhaps via the cmake(1) -A option, to
       specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 16 2019" -A Win32cmake -G "Visual Studio 16 2019" -A x64cmake -G "Visual Studio 16 2019" -A ARMcmake -G "Visual Studio 16 2019" -A ARM64

   Toolset Selection
       The v142 toolset that comes with Visual Studio  16  2019  is  selected  by  default.   The
       CMAKE_GENERATOR_TOOLSET  option may be set, perhaps via the cmake(1) -T option, to specify
       another toolset.

       For each toolset that comes with this version of Visual Studio, there  are  variants  that
       are  themselves  compiled  for  32-bit  (x86)  and  64-bit (x64) hosts (independent of the
       architecture they target).  By default this generator uses the 64-bit variant on x64 hosts
       and  the 32-bit variant otherwise.  One may explicitly request use of either the 32-bit or
       64-bit host tools by adding either host=x86 or host=x64 to the toolset specification.  See
       the CMAKE_GENERATOR_TOOLSET variable for details.

   Visual Studio 17 2022
       New in version 3.21.

       Generates Visual Studio 17 (VS 2022) project files.

   Project Types
       Only  Visual  C++  and  C#  projects  may  be  generated  (and Fortran with Intel compiler
       integration).  Other types of projects (JavaScript,  Powershell,  Python,  etc.)  are  not
       supported.

   Instance Selection
       VS 2022 supports multiple installations on the same machine.  The CMAKE_GENERATOR_INSTANCE
       variable may be used to select one.

   Platform Selection
       The default target platform name (architecture) is that of the host and is provided in the
       CMAKE_VS_PLATFORM_NAME_DEFAULT variable.

       The  CMAKE_GENERATOR_PLATFORM  variable may be set, perhaps via the cmake(1) -A option, to
       specify a target platform name (architecture).  For example:

       • cmake -G "Visual Studio 17 2022" -A Win32cmake -G "Visual Studio 17 2022" -A x64cmake -G "Visual Studio 17 2022" -A ARMcmake -G "Visual Studio 17 2022" -A ARM64

   Toolset Selection
       The  v143  toolset  that  comes  with  VS  17  2022   is   selected   by   default.    The
       CMAKE_GENERATOR_TOOLSET  option may be set, perhaps via the cmake(1) -T option, to specify
       another toolset.

       For each toolset that comes with this version of Visual Studio, there  are  variants  that
       are  themselves  compiled  for  32-bit  (x86)  and  64-bit (x64) hosts (independent of the
       architecture they target).  By default this generator uses the 64-bit variant on x64 hosts
       and  the 32-bit variant otherwise.  One may explicitly request use of either the 32-bit or
       64-bit host tools by adding either host=x86 or host=x64 to the toolset specification.  See
       the CMAKE_GENERATOR_TOOLSET variable for details.

   Other Generators
   Green Hills MULTI
       New in version 3.3.

       New in version 3.15: Linux support.

       Generates Green Hills MULTI project files (experimental, work-in-progress).
          The  buildsystem  has predetermined build-configuration settings that can be controlled
          via the CMAKE_BUILD_TYPE variable.

   Platform Selection
       New in version 3.13.

       The variable GHS_PRIMARY_TARGET can be used to select the target platform.
          Sets primaryTarget entry in project file.

       For example:

       • cmake -G "Green Hills MULTI" -D GHS_PRIMARY_TARGET=ppc_integrity.tgt

       Otherwise the primaryTarget will be composed from the values  of  CMAKE_GENERATOR_PLATFORM
       and GHS_TARGET_PLATFORM. Defaulting to the value of arm_integrity.tgt

       • The CMAKE_GENERATOR_PLATFORM variable may be set, perhaps via the cmake(1) -A option.
         Typical values of arm, ppc, 86, etcetera, are used.

       • The variable GHS_TARGET_PLATFORM may be set, perhaps via the cmake(1) -D option.
         Defaults to integrity.
         Usual values are integrity, threadx, uvelosity, velosity,
         vxworks, standalone.

       For example:

       • cmake -G "Green Hills MULTI" for arm_integrity.tgt.

       • cmake -G "Green Hills MULTI" -A 86 for 86_integrity.tgt.

       • cmake -G "Green Hills MULTI" -D GHS_TARGET_PLATFORM=standalone for arm_standalone.tgt.

       • cmake   -G   "Green   Hills   MULTI"   -A   ppc  -D  GHS_TARGET_PLATFORM=standalone  for
         ppc_standalone.tgt.

   Toolset Selection
       New in version 3.13.

       The generator searches for the latest  compiler  or  can  be  given  a  location  to  use.
       GHS_TOOLSET_ROOT is the directory that is checked for the latest compiler.

       • The  CMAKE_GENERATOR_TOOLSET  option  may be set, perhaps via the cmake(1) -T option, to
         specify the location of the toolset.  Both absolute and relative paths are valid.  Paths
         are relative to GHS_TOOLSET_ROOT.

       • The variable GHS_TOOLSET_ROOT may be set, perhaps via the cmake(1) -D option.
         Root path for toolset searches and relative paths.
         Defaults to C:/ghs in Windows or /usr/ghs in Linux.

       For example, setting a specific compiler:

       • cmake -G "Green Hills MULTI" -T comp_201754 for /usr/ghs/comp_201754.

       • cmake   -G   "Green   Hills  MULTI"  -T  comp_201754  -D  GHS_TOOLSET_ROOT=/opt/ghs  for
         /opt/ghs/comp_201754.

       • cmake -G "Green Hills MULTI" -T /usr/ghs/comp_201554cmake -G "Green Hills MULTI" -T C:/ghs/comp_201754

       For example, searching for latest compiler:

       • cmake -G "Green Hills MULTI" for searching /usr/ghs.

       • cmake -G "Green Hills MULTI -D GHS_TOOLSET_ROOT=/opt/ghs" for searching /opt/ghs.

       NOTE:
          The CMAKE_GENERATOR_TOOLSET should use CMake style paths.

   OS and BSP Selection
       New in version 3.3.

       Certain target platforms, like Integrity, require an OS.  The RTOS directory path  can  be
       explicitly  set  using  GHS_OS_DIR.  Otherwise GHS_OS_ROOT will be searched for the latest
       Integrity RTOS.

       If the target platform, like Integrity, requires a BSP name then it can  be  set  via  the
       GHS_BSP_NAME variable.

       • GHS_OS_DIR and GHS_OS_DIR_OPTION
         Sets -os_dir entry in project file.

         GHS_OS_DIR_OPTION default value is -os_dir.

         New in version 3.15: The GHS_OS_DIR_OPTION variable.

         For example:

         • cmake -G "Green Hills MULTI" -D GHS_OS_DIR=/usr/ghs/int1144GHS_OS_ROOT
         Root path for RTOS searches.
         Defaults to C:/ghs in Windows or /usr/ghs in Linux.

         For example:

         • cmake -G "Green Hills MULTI" -D GHS_OS_ROOT=/opt/ghsGHS_BSP_NAME
         Sets -bsp entry in project file.
         Defaults to sim<arch> for integrity platforms.

         For example:

         • cmake -G "Green Hills MULTI" for simarm on arm_integrity.tgt.

         • cmake -G "Green Hills MULTI" -A 86 for sim86 on 86_integrity.tgt.

         • cmake   -G   "Green   Hills  MULTI"  -A  ppc  -D  GHS_BSP_NAME=sim800  for  sim800  on
           ppc_integrity.tgt.

         • cmake   -G   "Green   Hills   MULTI"   -D   GHS_PRIMARY_TARGET=ppc_integrity.tgt    -D
           GHS_BSP_NAME=fsl-t1040 for fsl-t1040 on ppc_integrity.tgt.

   Target Properties
       New in version 3.14.

       The following properties are available:

       • GHS_INTEGRITY_APPGHS_NO_SOURCE_GROUP_FILE

   MULTI Project Variables
       New in version 3.3.

       Adding  a  Customization  file  and  macros are available through the use of the following
       variables:

       • GHS_CUSTOMIZATION - CMake path name to Customization File.

       • GHS_GPJ_MACROS - CMake list of Macros.

       NOTE:
          This generator is deemed experimental as of  CMake  3.24.2  and  is  still  a  work  in
          progress.  Future versions of CMake may make breaking changes as the generator matures.

   Xcode
       Generate Xcode project files.

       Changed in version 3.15: This generator supports Xcode 5.0 and above.

   Toolset and Build System Selection
       By   default   Xcode   is   allowed   to   select   its   own   default   toolchain.   The
       CMAKE_GENERATOR_TOOLSET option may be set, perhaps via the cmake(1) -T option, to  specify
       another toolset.

       New  in  version  3.19:  This  generator supports toolset specification using one of these
       forms:

       • toolsettoolset[,key=value]*key=value[,key=value]*

       The toolset specifies the toolset name.  The selected toolset  name  is  provided  in  the
       CMAKE_XCODE_PLATFORM_TOOLSET variable.

       The  key=value  pairs form a comma-separated list of options to specify generator-specific
       details of the toolset selection.  Supported pairs are:

       buildsystem=<variant>
              Specify the buildsystem variant to use.  See the CMAKE_XCODE_BUILD_SYSTEM  variable
              for allowed values.

              For  example, to select the original build system under Xcode 12, run cmake(1) with
              the option -T buildsystem=1.

   Swift Support
       New in version 3.4.

       When using the Xcode generator with Xcode 6.1 or higher, one may enable the Swift language
       with the enable_language() command or the project().

EXTRA GENERATORS

       Some  of  the  CMake Generators listed in the cmake(1) command-line tool --help output may
       have variants that specify an extra generator for an auxiliary IDE tool.   Such  generator
       names  have the form <extra-generator> - <main-generator>.  The following extra generators
       are known to CMake.

   CodeBlocks
       Generates CodeBlocks project files.

       Project files  for  CodeBlocks  will  be  created  in  the  top  directory  and  in  every
       subdirectory   which   features   a  CMakeLists.txt  file  containing  a  project()  call.
       Additionally a hierarchy of makefiles is generated into the build tree.   The  appropriate
       make  program  can build the project through the default all target.  An install target is
       also provided.

       New in version 3.10: The CMAKE_CODEBLOCKS_EXCLUDE_EXTERNAL_FILES variable may be set to ON
       to exclude any files which are located outside of the project root directory.

       This "extra" generator may be specified as:

       CodeBlocks - MinGW Makefiles
              Generate with MinGW Makefiles.

       CodeBlocks - NMake Makefiles
              Generate with NMake Makefiles.

       CodeBlocks - NMake Makefiles JOM
              New in version 3.8: Generate with NMake Makefiles JOM.

       CodeBlocks - Ninja
              Generate with Ninja.

       CodeBlocks - Unix Makefiles
              Generate with Unix Makefiles.

   CodeLite
       Generates CodeLite project files.

       Project  files for CodeLite will be created in the top directory and in every subdirectory
       which features a CMakeLists.txt file containing a project() call.   The  appropriate  make
       program  can  build the project through the default all target.  An install target is also
       provided.

       New in version 3.7: The CMAKE_CODELITE_USE_TARGETS variable may be set to ON to change the
       default behavior from projects to targets as the basis for project files.

       This "extra" generator may be specified as:

       CodeLite - MinGW Makefiles
              Generate with MinGW Makefiles.

       CodeLite - NMake Makefiles
              Generate with NMake Makefiles.

       CodeLite - Ninja
              Generate with Ninja.

       CodeLite - Unix Makefiles
              Generate with Unix Makefiles.

   Eclipse CDT4
       Generates Eclipse CDT 4.0 project files.

       Project  files for Eclipse will be created in the top directory.  In out of source builds,
       a linked resource to the top level source  directory  will  be  created.   Additionally  a
       hierarchy of makefiles is generated into the build tree.  The appropriate make program can
       build the project through the default all target.  An install target is also provided.

       This "extra" generator may be specified as:

       Eclipse CDT4 - MinGW Makefiles
              Generate with MinGW Makefiles.

       Eclipse CDT4 - NMake Makefiles
              Generate with NMake Makefiles.

       Eclipse CDT4 - Ninja
              Generate with Ninja.

       Eclipse CDT4 - Unix Makefiles
              Generate with Unix Makefiles.

   Kate
       Generates Kate project files.

       A project file for Kate will be created in the  top  directory  in  the  top  level  build
       directory.   To  use  it in Kate, the Project plugin must be enabled.  The project file is
       loaded in Kate by opening the ProjectName.kateproject file in the  editor.   If  the  Kate
       Build-plugin is enabled, all targets generated by CMake are available for building.

       This "extra" generator may be specified as:

       Kate - MinGW Makefiles
              Generate with MinGW Makefiles.

       Kate - NMake Makefiles
              Generate with NMake Makefiles.

       Kate - Ninja
              Generate with Ninja.

       Kate - Unix Makefiles
              Generate with Unix Makefiles.

   Sublime Text 2
       Generates Sublime Text 2 project files.

       Project  files  for  Sublime  Text  2  will  be  created in the top directory and in every
       subdirectory  which  features  a  CMakeLists.txt  file  containing   a   project()   call.
       Additionally  Makefiles  (or  build.ninja  files)  are generated into the build tree.  The
       appropriate make program can build the project through the default all target.  An install
       target is also provided.

       This "extra" generator may be specified as:

       Sublime Text 2 - MinGW Makefiles
              Generate with MinGW Makefiles.

       Sublime Text 2 - NMake Makefiles
              Generate with NMake Makefiles.

       Sublime Text 2 - Ninja
              Generate with Ninja.

       Sublime Text 2 - Unix Makefiles
              Generate with Unix Makefiles.

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