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Merge pull request #19 from Sak32009/third-party/deps/linux

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Fix #12 (third-party/deps/linux)
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Detanup01 2024-08-19 07:57:58 +02:00 committed by GitHub
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#### INFO
https://sourceforge.net/projects/p7zip/
VERSION: https://sourceforge.net/projects/p7zip/files/p7zip/16.02/
#### LICENSE
7-Zip
~~~~~
License for use and distribution
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
7-Zip Copyright (C) 1999-2023 Igor Pavlov.
The licenses for files are:
1) 7z.dll:
- The "GNU LGPL" as main license for most of the code
- The "GNU LGPL" with "unRAR license restriction" for some code
- The "BSD 3-clause License" for some code
2) All other files: the "GNU LGPL".
Redistributions in binary form must reproduce related license information from this file.
Note:
You can use 7-Zip on any computer, including a computer in a commercial
organization. You don't need to register or pay for 7-Zip.
GNU LGPL information
--------------------
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You can receive a copy of the GNU Lesser General Public License from
http://www.gnu.org/
BSD 3-clause License
--------------------
The "BSD 3-clause License" is used for the code in 7z.dll that implements LZFSE data decompression.
That code was derived from the code in the "LZFSE compression library" developed by Apple Inc,
that also uses the "BSD 3-clause License":
----
Copyright (c) 2015-2016, Apple Inc. All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
2. 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.
3. Neither the name of the copyright holder(s) nor the names of any 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 OWNER 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.
----
unRAR license restriction
-------------------------
The decompression engine for RAR archives was developed using source
code of unRAR program.
All copyrights to original unRAR code are owned by Alexander Roshal.
The license for original unRAR code has the following restriction:
The unRAR sources cannot be used to re-create the RAR compression algorithm,
which is proprietary. Distribution of modified unRAR sources in separate form
or as a part of other software is permitted, provided that it is clearly
stated in the documentation and source comments that the code may
not be used to develop a RAR (WinRAR) compatible archiver.
--
Igor Pavlov

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#### INFO
https://gitlab.kitware.com/cmake/cmake
VERSION: https://github.com/Kitware/CMake/releases/tag/v3.30.2
#### LICENSE
GNU LESSER GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <http://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
This version of the GNU Lesser General Public License incorporates
the terms and conditions of version 3 of the GNU General Public
License, supplemented by the additional permissions listed below.
0. Additional Definitions.
As used herein, "this License" refers to version 3 of the GNU Lesser
General Public License, and the "GNU GPL" refers to version 3 of the GNU
General Public License.
"The Library" refers to a covered work governed by this License,
other than an Application or a Combined Work as defined below.
An "Application" is any work that makes use of an interface provided
by the Library, but which is not otherwise based on the Library.
Defining a subclass of a class defined by the Library is deemed a mode
of using an interface provided by the Library.
A "Combined Work" is a work produced by combining or linking an
Application with the Library. The particular version of the Library
with which the Combined Work was made is also called the "Linked
Version".
The "Minimal Corresponding Source" for a Combined Work means the
Corresponding Source for the Combined Work, excluding any source code
for portions of the Combined Work that, considered in isolation, are
based on the Application, and not on the Linked Version.
The "Corresponding Application Code" for a Combined Work means the
object code and/or source code for the Application, including any data
and utility programs needed for reproducing the Combined Work from the
Application, but excluding the System Libraries of the Combined Work.
1. Exception to Section 3 of the GNU GPL.
You may convey a covered work under sections 3 and 4 of this License
without being bound by section 3 of the GNU GPL.
2. Conveying Modified Versions.
If you modify a copy of the Library, and, in your modifications, a
facility refers to a function or data to be supplied by an Application
that uses the facility (other than as an argument passed when the
facility is invoked), then you may convey a copy of the modified
version:
a) under this License, provided that you make a good faith effort to
ensure that, in the event an Application does not supply the
function or data, the facility still operates, and performs
whatever part of its purpose remains meaningful, or
b) under the GNU GPL, with none of the additional permissions of
this License applicable to that copy.
3. Object Code Incorporating Material from Library Header Files.
The object code form of an Application may incorporate material from
a header file that is part of the Library. You may convey such object
code under terms of your choice, provided that, if the incorporated
material is not limited to numerical parameters, data structure
layouts and accessors, or small macros, inline functions and templates
(ten or fewer lines in length), you do both of the following:
a) Give prominent notice with each copy of the object code that the
Library is used in it and that the Library and its use are
covered by this License.
b) Accompany the object code with a copy of the GNU GPL and this license
document.
4. Combined Works.
You may convey a Combined Work under terms of your choice that,
taken together, effectively do not restrict modification of the
portions of the Library contained in the Combined Work and reverse
engineering for debugging such modifications, if you also do each of
the following:
a) Give prominent notice with each copy of the Combined Work that
the Library is used in it and that the Library and its use are
covered by this License.
b) Accompany the Combined Work with a copy of the GNU GPL and this license
document.
c) For a Combined Work that displays copyright notices during
execution, include the copyright notice for the Library among
these notices, as well as a reference directing the user to the
copies of the GNU GPL and this license document.
d) Do one of the following:
0) Convey the Minimal Corresponding Source under the terms of this
License, and the Corresponding Application Code in a form
suitable for, and under terms that permit, the user to
recombine or relink the Application with a modified version of
the Linked Version to produce a modified Combined Work, in the
manner specified by section 6 of the GNU GPL for conveying
Corresponding Source.
1) Use a suitable shared library mechanism for linking with the
Library. A suitable mechanism is one that (a) uses at run time
a copy of the Library already present on the user's computer
system, and (b) will operate properly with a modified version
of the Library that is interface-compatible with the Linked
Version.
e) Provide Installation Information, but only if you would otherwise
be required to provide such information under section 6 of the
GNU GPL, and only to the extent that such information is
necessary to install and execute a modified version of the
Combined Work produced by recombining or relinking the
Application with a modified version of the Linked Version. (If
you use option 4d0, the Installation Information must accompany
the Minimal Corresponding Source and Corresponding Application
Code. If you use option 4d1, you must provide the Installation
Information in the manner specified by section 6 of the GNU GPL
for conveying Corresponding Source.)
5. Combined Libraries.
You may place library facilities that are a work based on the
Library side by side in a single library together with other library
facilities that are not Applications and are not covered by this
License, and convey such a combined library under terms of your
choice, if you do both of the following:
a) Accompany the combined library with a copy of the same work based
on the Library, uncombined with any other library facilities,
conveyed under the terms of this License.
b) Give prominent notice with the combined library that part of it
is a work based on the Library, and explaining where to find the
accompanying uncombined form of the same work.
6. Revised Versions of the GNU Lesser General Public License.
The Free Software Foundation may publish revised and/or new versions
of the GNU Lesser General Public License from time to time. Such new
versions will be similar in spirit to the present version, but may
differ in detail to address new problems or concerns.
Each version is given a distinguishing version number. If the
Library as you received it specifies that a certain numbered version
of the GNU Lesser General Public License "or any later version"
applies to it, you have the option of following the terms and
conditions either of that published version or of any later version
published by the Free Software Foundation. If the Library as you
received it does not specify a version number of the GNU Lesser
General Public License, you may choose any version of the GNU Lesser
General Public License ever published by the Free Software Foundation.
If the Library as you received it specifies that a proxy can decide
whether future versions of the GNU Lesser General Public License shall
apply, that proxy's public statement of acceptance of any version is
permanent authorization for you to choose that version for the
Library.

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dnl Distributed under the OSI-approved BSD 3-Clause License. See accompanying
dnl file Copyright.txt or https://cmake.org/licensing for details.
AC_DEFUN([CMAKE_FIND_BINARY],
[AC_ARG_VAR([CMAKE_BINARY], [path to the cmake binary])dnl
if test "x$ac_cv_env_CMAKE_BINARY_set" != "xset"; then
AC_PATH_TOOL([CMAKE_BINARY], [cmake])dnl
fi
])dnl
# $1: package name
# $2: language (e.g. C/CXX/Fortran)
# $3: The compiler ID, defaults to GNU.
# Possible values are: GNU, Intel, Clang, SunPro, HP, XL, VisualAge, PGI,
# PathScale, Cray, SCO, MSVC, LCC
# $4: optional extra arguments to cmake, e.g. "-DCMAKE_SIZEOF_VOID_P=8"
# $5: optional path to cmake binary
AC_DEFUN([CMAKE_FIND_PACKAGE], [
AC_REQUIRE([CMAKE_FIND_BINARY])dnl
AC_ARG_VAR([$1][_][$2][FLAGS], [$2 compiler flags for $1. This overrides the cmake output])dnl
AC_ARG_VAR([$1][_LIBS], [linker flags for $1. This overrides the cmake output])dnl
failed=false
AC_MSG_CHECKING([for $1])
if test -z "${$1[]_$2[]FLAGS}"; then
$1[]_$2[]FLAGS=`$CMAKE_BINARY --find-package "-DNAME=$1" "-DCOMPILER_ID=m4_default([$3], [GNU])" "-DLANGUAGE=$2" -DMODE=COMPILE $4` || failed=true
fi
if test -z "${$1[]_LIBS}"; then
$1[]_LIBS=`$CMAKE_BINARY --find-package "-DNAME=$1" "-DCOMPILER_ID=m4_default([$3], [GNU])" "-DLANGUAGE=$2" -DMODE=LINK $4` || failed=true
fi
if $failed; then
unset $1[]_$2[]FLAGS
unset $1[]_LIBS
AC_MSG_RESULT([no])
$6
else
AC_MSG_RESULT([yes])
$5
fi[]dnl
])
dnl Distributed under the OSI-approved BSD 3-Clause License. See accompanying
dnl file Copyright.txt or https://cmake.org/licensing for details.
AC_DEFUN([CMAKE_FIND_BINARY],
[AC_ARG_VAR([CMAKE_BINARY], [path to the cmake binary])dnl
if test "x$ac_cv_env_CMAKE_BINARY_set" != "xset"; then
AC_PATH_TOOL([CMAKE_BINARY], [cmake])dnl
fi
])dnl
# $1: package name
# $2: language (e.g. C/CXX/Fortran)
# $3: The compiler ID, defaults to GNU.
# Possible values are: GNU, Intel, Clang, SunPro, HP, XL, VisualAge, PGI,
# PathScale, Cray, SCO, MSVC, LCC
# $4: optional extra arguments to cmake, e.g. "-DCMAKE_SIZEOF_VOID_P=8"
# $5: optional path to cmake binary
AC_DEFUN([CMAKE_FIND_PACKAGE], [
AC_REQUIRE([CMAKE_FIND_BINARY])dnl
AC_ARG_VAR([$1][_][$2][FLAGS], [$2 compiler flags for $1. This overrides the cmake output])dnl
AC_ARG_VAR([$1][_LIBS], [linker flags for $1. This overrides the cmake output])dnl
failed=false
AC_MSG_CHECKING([for $1])
if test -z "${$1[]_$2[]FLAGS}"; then
$1[]_$2[]FLAGS=`$CMAKE_BINARY --find-package "-DNAME=$1" "-DCOMPILER_ID=m4_default([$3], [GNU])" "-DLANGUAGE=$2" -DMODE=COMPILE $4` || failed=true
fi
if test -z "${$1[]_LIBS}"; then
$1[]_LIBS=`$CMAKE_BINARY --find-package "-DNAME=$1" "-DCOMPILER_ID=m4_default([$3], [GNU])" "-DLANGUAGE=$2" -DMODE=LINK $4` || failed=true
fi
if $failed; then
unset $1[]_$2[]FLAGS
unset $1[]_LIBS
AC_MSG_RESULT([no])
$6
else
AC_MSG_RESULT([yes])
$5
fi[]dnl
])

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[Desktop Entry]
Version=1.0
Name=CMake
Comment=Cross-platform buildsystem
Exec=cmake-gui %f
Icon=CMakeSetup
Terminal=false
X-MultipleArgs=false
Type=Application
Categories=Development;Building;
StartupNotify=true
MimeType=application/x-cmakecache;
[Desktop Entry]
Version=1.0
Name=CMake
Comment=Cross-platform buildsystem
Exec=cmake-gui %f
Icon=CMakeSetup
Terminal=false
X-MultipleArgs=false
Type=Application
Categories=Development;Building;
StartupNotify=true
MimeType=application/x-cmakecache;

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cmake/share/bash-completion/completions/cmake
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# bash completion for cmake(1) -*- shell-script -*-
_cmake()
{
local cur prev words cword split=false
if type -t _init_completion >/dev/null; then
_init_completion -n = || return
else
# manual initialization for older bash completion versions
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
fi
# Workaround for options like -DCMAKE_BUILD_TYPE=Release
local prefix=
if [[ $cur == -D* ]]; then
prev=-D
prefix=-D
cur="${cur#-D}"
elif [[ $cur == -U* ]]; then
prev=-U
prefix=-U
cur="${cur#-U}"
fi
case "$prev" in
-D)
if [[ $cur == *=* ]]; then
# complete values for variables
local var type value
var="${cur%%[:=]*}"
value="${cur#*=}"
if [[ $cur == CMAKE_BUILD_TYPE* ]]; then # most widely used case
COMPREPLY=( $( compgen -W 'Debug Release RelWithDebInfo
MinSizeRel' -- "$value" ) )
return
fi
if [[ $cur == *:* ]]; then
type="${cur#*:}"
type="${type%%=*}"
else # get type from cache if it's not set explicitly
type=$( cmake -LA -N 2>/dev/null | grep "$var:" \
2>/dev/null )
type="${type#*:}"
type="${type%%=*}"
fi
case "$type" in
FILEPATH)
cur="$value"
_filedir
return
;;
PATH)
cur="$value"
_filedir -d
return
;;
BOOL)
COMPREPLY=( $( compgen -W 'ON OFF TRUE FALSE' -- \
"$value" ) )
return
;;
STRING|INTERNAL)
# no completion available
return
;;
esac
elif [[ $cur == *:* ]]; then
# complete types
local type="${cur#*:}"
COMPREPLY=( $( compgen -W 'FILEPATH PATH STRING BOOL INTERNAL'\
-S = -- "$type" ) )
compopt -o nospace
else
# complete variable names
COMPREPLY=( $( compgen -W '$( cmake -LA -N 2>/dev/null |
tail -n +2 | cut -f1 -d: )' -P "$prefix" -- "$cur" ) )
compopt -o nospace
fi
return
;;
-U)
COMPREPLY=( $( compgen -W '$( cmake -LA -N | tail -n +2 |
cut -f1 -d: )' -P "$prefix" -- "$cur" ) )
return
;;
esac
_split_longopt && split=true
case "$prev" in
-C|-P|--graphviz|--system-information)
_filedir
return
;;
--build)
# Seed the reply with non-directory arguments that we know are
# allowed to follow --build. _filedir will then prepend any valid
# directory matches to these.
COMPREPLY=( $( compgen -W "--preset --list-presets" -- "$cur" ) )
_filedir -d
return
;;
--install|--open)
_filedir -d
return
;;
-E)
COMPREPLY=( $( compgen -W "$( cmake -E help |& sed -n \
'/^ [^ ]/{s|^ \([^ ]\{1,\}\) .*$|\1|;p}' 2>/dev/null )" \
-- "$cur" ) )
return
;;
-G)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
COMPREPLY=( $( compgen -W '$( cmake --help 2>/dev/null | sed -n \
-e "1,/^Generators/d" \
-e "/^ *[^ =]/{s|^ *\([^=]*[^ =]\).*$|\1|;s| |\\\\ |g;p}" \
2>/dev/null )' -- "$quoted" ) )
return
;;
--loglevel)
COMPREPLY=( $(compgen -W 'error warning notice status verbose debug trace' -- $cur ) )
;;
--help-command)
COMPREPLY=( $( compgen -W '$( cmake --help-command-list 2>/dev/null|
grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-manual)
COMPREPLY=( $( compgen -W '$( cmake --help-manual-list 2>/dev/null|
grep -v "^cmake version " | sed -e "s/([0-9])$//" )' -- "$cur" ) )
return
;;
--help-module)
COMPREPLY=( $( compgen -W '$( cmake --help-module-list 2>/dev/null|
grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-policy)
COMPREPLY=( $( compgen -W '$( cmake --help-policy-list 2>/dev/null |
grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-property)
COMPREPLY=( $( compgen -W '$( cmake --help-property-list \
2>/dev/null | grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-variable)
COMPREPLY=( $( compgen -W '$( cmake --help-variable-list \
2>/dev/null | grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--list-presets)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
if [[ ! "${IFS}${COMP_WORDS[*]}${IFS}" =~ "${IFS}--build${IFS}" ]]; then
COMPREPLY=( $( compgen -W "configure${IFS}build${IFS}test${IFS}all" -- "$quoted" ) )
fi
return
;;
--preset)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
local build_or_configure="configure"
if [[ "${IFS}${COMP_WORDS[*]}${IFS}" =~ "${IFS}--build${IFS}" ]]; then
build_or_configure="build"
fi
local presets=$( cmake --list-presets="$build_or_configure" 2>/dev/null |
grep -o "^ \".*\"" | sed \
-e "s/^ //g" \
-e "s/\"//g" \
-e 's/ /\\\\ /g' )
COMPREPLY=( $( compgen -W "$presets" -- "$quoted" ) )
return
;;
esac
$split && return
if [[ "$cur" == -* ]]; then
COMPREPLY=( $(compgen -W '$( _parse_help "$1" --help )' -- ${cur}) )
[[ $COMPREPLY == *= ]] && compopt -o nospace
[[ $COMPREPLY ]] && return
fi
_filedir
} &&
complete -F _cmake cmake
# ex: ts=4 sw=4 et filetype=sh
# bash completion for cmake(1) -*- shell-script -*-
_cmake()
{
local is_old_completion=false
local is_init_completion=false
local cur prev words cword split was_split
if type -t _comp_initialize >/dev/null; then
_comp_initialize -s || return
elif type -t _init_completion >/dev/null; then
_init_completion -s || return
is_init_completion=true
else
# manual initialization for older bash completion versions
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
is_old_completion=true
split=false
fi
# Workaround for options like -DCMAKE_BUILD_TYPE=Release
local prefix=
if [[ $cur == -D* ]]; then
prev=-D
prefix=-D
cur="${cur#-D}"
elif [[ $cur == -U* ]]; then
prev=-U
prefix=-U
cur="${cur#-U}"
fi
case "$prev" in
-D)
if [[ $cur == *=* ]]; then
# complete values for variables
local var type value
var="${cur%%[:=]*}"
value="${cur#*=}"
if [[ $cur == CMAKE_BUILD_TYPE* ]]; then # most widely used case
COMPREPLY=( $( compgen -W 'Debug Release RelWithDebInfo
MinSizeRel' -- "$value" ) )
return
fi
if [[ $cur == *:* ]]; then
type="${cur#*:}"
type="${type%%=*}"
else # get type from cache if it's not set explicitly
type=$( cmake -LA -N 2>/dev/null | grep "$var:" \
2>/dev/null )
type="${type#*:}"
type="${type%%=*}"
fi
case "$type" in
FILEPATH)
cur="$value"
_filedir
return
;;
PATH)
cur="$value"
_filedir -d
return
;;
BOOL)
COMPREPLY=( $( compgen -W 'ON OFF TRUE FALSE' -- \
"$value" ) )
return
;;
STRING|INTERNAL)
# no completion available
return
;;
esac
elif [[ $cur == *:* ]]; then
# complete types
local type="${cur#*:}"
COMPREPLY=( $( compgen -W 'FILEPATH PATH STRING BOOL INTERNAL'\
-S = -- "$type" ) )
compopt -o nospace
else
# complete variable names
COMPREPLY=( $( compgen -W '$( cmake -LA -N 2>/dev/null |
tail -n +2 | cut -f1 -d: )' -P "$prefix" -- "$cur" ) )
compopt -o nospace
fi
return
;;
-U)
COMPREPLY=( $( compgen -W '$( cmake -LA -N | tail -n +2 |
cut -f1 -d: )' -P "$prefix" -- "$cur" ) )
return
;;
esac
if $is_old_completion; then
_split_longopt && split=true
fi
case "$prev" in
-C|-P|--graphviz|--system-information)
_filedir
return
;;
--build)
# Seed the reply with non-directory arguments that we know are
# allowed to follow --build. _filedir will then prepend any valid
# directory matches to these.
COMPREPLY=( $( compgen -W "--preset --list-presets" -- "$cur" ) )
_filedir -d
return
;;
--install|--open)
_filedir -d
return
;;
-E)
COMPREPLY=( $( compgen -W "$( cmake -E help |& sed -n \
'/^ [^ ]/{s|^ \([^ ]\{1,\}\) .*$|\1|;p}' 2>/dev/null )" \
-- "$cur" ) )
return
;;
-G)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
COMPREPLY=( $( compgen -W '$( cmake --help 2>/dev/null | sed -n \
-e "1,/^Generators/d" \
-e "/^ *[^ =]/{s|^ *\([^=]*[^ =]\).*$|\1|;s| |\\\\ |g;p}" \
2>/dev/null )' -- "$quoted" ) )
return
;;
--loglevel)
COMPREPLY=( $(compgen -W 'error warning notice status verbose debug trace' -- $cur ) )
;;
--help-command)
COMPREPLY=( $( compgen -W '$( cmake --help-command-list 2>/dev/null|
grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-manual)
COMPREPLY=( $( compgen -W '$( cmake --help-manual-list 2>/dev/null|
grep -v "^cmake version " | sed -e "s/([0-9])$//" )' -- "$cur" ) )
return
;;
--help-module)
COMPREPLY=( $( compgen -W '$( cmake --help-module-list 2>/dev/null|
grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-policy)
COMPREPLY=( $( compgen -W '$( cmake --help-policy-list 2>/dev/null |
grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-property)
COMPREPLY=( $( compgen -W '$( cmake --help-property-list \
2>/dev/null | grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--help-variable)
COMPREPLY=( $( compgen -W '$( cmake --help-variable-list \
2>/dev/null | grep -v "^cmake version " )' -- "$cur" ) )
return
;;
--list-presets)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
if [[ ! "${IFS}${COMP_WORDS[*]}${IFS}" =~ "${IFS}--build${IFS}" ]]; then
COMPREPLY=( $( compgen -W "configure${IFS}build${IFS}test${IFS}all" -- "$quoted" ) )
fi
return
;;
--preset)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
local build_or_configure="configure"
if [[ "${IFS}${COMP_WORDS[*]}${IFS}" =~ "${IFS}--build${IFS}" ]]; then
build_or_configure="build"
fi
local presets=$( cmake --list-presets="$build_or_configure" 2>/dev/null |
grep -o "^ \".*\"" | sed \
-e "s/^ //g" \
-e "s/\"//g" \
-e 's/ /\\\\ /g' )
COMPREPLY=( $( compgen -W "$presets" -- "$quoted" ) )
return
;;
esac
if ($is_old_completion || $is_init_completion); then
$split && return
else
[[ $was_split ]] && return
fi
if [[ "$cur" == -* ]]; then
COMPREPLY=( $(compgen -W '$( _parse_help "$1" --help )' -- ${cur}) )
[[ $COMPREPLY == *= ]] && compopt -o nospace
[[ $COMPREPLY ]] && return
fi
_filedir
} &&
complete -F _cmake cmake
# ex: ts=4 sw=4 et filetype=sh

178
cmake/share/bash-completion/completions/cpack
View File

@ -1,88 +1,90 @@
# bash completion for cpack(1) -*- shell-script -*-
_cpack()
{
local cur prev words cword
if type -t _init_completion >/dev/null; then
_init_completion -n = || return
else
# manual initialization for older bash completion versions
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
fi
case "$prev" in
-G)
COMPREPLY=( $( compgen -W '$( cpack --help 2>/dev/null |
sed -e "1,/^Generators/d" -e "s|^ *\([^ ]*\) .*$|\1|" \
2>/dev/null )' -- "$cur" ) )
return
;;
-C)
COMPREPLY=( $( compgen -W 'Debug Release RelWithDebInfo
MinSizeRel' -- "$cur" ) )
return
;;
-D)
[[ $cur == *=* ]] && return # no completion for values
COMPREPLY=( $( compgen -W '$( cpack --help-variable-list \
2>/dev/null | grep -v "^cpack version " )' -S = -- "$cur" ) )
compopt -o nospace
return
;;
-P|-R|--vendor)
# argument required but no completions available
return
;;
-B)
_filedir -d
return
;;
--config)
_filedir
return
;;
--help-command)
COMPREPLY=( $( compgen -W '$( cpack --help-command-list 2>/dev/null|
grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-manual)
COMPREPLY=( $( compgen -W '$( cpack --help-manual-list 2>/dev/null|
grep -v "^cpack version " | sed -e "s/([0-9])$//" )' -- "$cur" ) )
return
;;
--help-module)
COMPREPLY=( $( compgen -W '$( cpack --help-module-list 2>/dev/null|
grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-policy)
COMPREPLY=( $( compgen -W '$( cpack --help-policy-list 2>/dev/null |
grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-property)
COMPREPLY=( $( compgen -W '$( cpack --help-property-list \
2>/dev/null | grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-variable)
COMPREPLY=( $( compgen -W '$( cpack --help-variable-list \
2>/dev/null | grep -v "^cpack version " )' -- "$cur" ) )
return
;;
esac
if [[ "$cur" == -* ]]; then
COMPREPLY=( $(compgen -W '$( _parse_help "$1" --help )' -- ${cur}) )
[[ $COMPREPLY == *= ]] && compopt -o nospace
[[ $COMPREPLY ]] && return
fi
_filedir
} &&
complete -F _cpack cpack
# ex: ts=4 sw=4 et filetype=sh
# bash completion for cpack(1) -*- shell-script -*-
_cpack()
{
local cur prev words cword
if type -t _comp_initialize >/dev/null; then
_comp_initialize -n = || return
elif type -t _init_completion >/dev/null; then
_init_completion -n = || return
else
# manual initialization for older bash completion versions
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
fi
case "$prev" in
-G)
COMPREPLY=( $( compgen -W '$( cpack --help 2>/dev/null |
sed -e "1,/^Generators/d" -e "s|^ *\([^ ]*\) .*$|\1|" \
2>/dev/null )' -- "$cur" ) )
return
;;
-C)
COMPREPLY=( $( compgen -W 'Debug Release RelWithDebInfo
MinSizeRel' -- "$cur" ) )
return
;;
-D)
[[ $cur == *=* ]] && return # no completion for values
COMPREPLY=( $( compgen -W '$( cpack --help-variable-list \
2>/dev/null | grep -v "^cpack version " )' -S = -- "$cur" ) )
compopt -o nospace
return
;;
-P|-R|--vendor)
# argument required but no completions available
return
;;
-B)
_filedir -d
return
;;
--config)
_filedir
return
;;
--help-command)
COMPREPLY=( $( compgen -W '$( cpack --help-command-list 2>/dev/null|
grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-manual)
COMPREPLY=( $( compgen -W '$( cpack --help-manual-list 2>/dev/null|
grep -v "^cpack version " | sed -e "s/([0-9])$//" )' -- "$cur" ) )
return
;;
--help-module)
COMPREPLY=( $( compgen -W '$( cpack --help-module-list 2>/dev/null|
grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-policy)
COMPREPLY=( $( compgen -W '$( cpack --help-policy-list 2>/dev/null |
grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-property)
COMPREPLY=( $( compgen -W '$( cpack --help-property-list \
2>/dev/null | grep -v "^cpack version " )' -- "$cur" ) )
return
;;
--help-variable)
COMPREPLY=( $( compgen -W '$( cpack --help-variable-list \
2>/dev/null | grep -v "^cpack version " )' -- "$cur" ) )
return
;;
esac
if [[ "$cur" == -* ]]; then
COMPREPLY=( $(compgen -W '$( _parse_help "$1" --help )' -- ${cur}) )
[[ $COMPREPLY == *= ]] && compopt -o nospace
[[ $COMPREPLY ]] && return
fi
_filedir
} &&
complete -F _cpack cpack
# ex: ts=4 sw=4 et filetype=sh

260
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View File

@ -1,129 +1,131 @@
# bash completion for ctest(1) -*- shell-script -*-
_ctest()
{
local cur prev words cword
if type -t _init_completion >/dev/null; then
_init_completion -n = || return
else
# manual initialization for older bash completion versions
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
fi
case "$prev" in
-C|--build-config)
COMPREPLY=( $( compgen -W 'Debug Release RelWithDebInfo
MinSizeRel' -- "$cur" ) )
return
;;
-j|--parallel)
COMPREPLY=( $( compgen -W "{1..$(( $(_ncpus)*2 ))}" -- "$cur" ) )
return
;;
-O|--output-log|-A|--add-notes|--extra-submit)
_filedir
return
;;
-L|--label-regex|-LE|--label-exclude)
COMPREPLY=( $( compgen -W '$( ctest --print-labels 2>/dev/null |
grep "^ " 2>/dev/null | cut -d" " -f 3 )' -- "$cur" ) )
return
;;
--track|-I|--tests-information|--max-width|--timeout|--stop-time)
# argument required but no completions available
return
;;
-R|--tests-regex|-E|--exclude-regex)
COMPREPLY=( $( compgen -W '$( ctest -N 2>/dev/null |
grep "^ Test" 2>/dev/null | cut -d: -f 2 )' -- "$cur" ) )
return
;;
-D|--dashboard)
if [[ $cur == @(Experimental|Nightly|Continuous)* ]]; then
local model action
action=${cur#@(Experimental|Nightly|Continuous)}
model=${cur%"$action"}
COMPREPLY=( $( compgen -W 'Start Update Configure Build Test
Coverage Submit MemCheck' -P "$model" -- "$action" ) )
else
COMPREPLY=( $( compgen -W 'Experimental Nightly Continuous' \
-- "$cur" ) )
compopt -o nospace
fi
return
;;
-M|--test-model)
COMPREPLY=( $( compgen -W 'Experimental Nightly Continuous' -- \
"$cur" ) )
return
;;
-T|--test-action)
COMPREPLY=( $( compgen -W 'Start Update Configure Build Test
Coverage Submit MemCheck' -- "$cur" ) )
return
;;
-S|--script|-SP|--script-new-process)
_filedir '@(cmake|ctest)'
return
;;
--interactive-debug-mode)
COMPREPLY=( $( compgen -W '0 1' -- "$cur" ) )
return
;;
--help-command)
COMPREPLY=( $( compgen -W '$( ctest --help-command-list 2>/dev/null|
grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-manual)
COMPREPLY=( $( compgen -W '$( ctest --help-manual-list 2>/dev/null|
grep -v "^ctest version " | sed -e "s/([0-9])$//" )' -- "$cur" ) )
return
;;
--help-module)
COMPREPLY=( $( compgen -W '$( ctest --help-module-list 2>/dev/null|
grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-policy)
COMPREPLY=( $( compgen -W '$( ctest --help-policy-list 2>/dev/null |
grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-property)
COMPREPLY=( $( compgen -W '$( ctest --help-property-list \
2>/dev/null | grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-variable)
COMPREPLY=( $( compgen -W '$( ctest --help-variable-list \
2>/dev/null | grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--preset)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
COMPREPLY=( $( compgen -W '$( ctest --list-presets 2>/dev/null |
grep -o "^ \".*\"" | sed \
-e "s/^ //g" \
-e "s/\"//g" \
-e "s/ /\\\\ /g" )' -- "$quoted" ) )
return
;;
esac
if [[ "$cur" == -* ]]; then
COMPREPLY=( $(compgen -W '$( _parse_help "$1" --help )' -- ${cur}) )
[[ $COMPREPLY == *= ]] && compopt -o nospace
[[ $COMPREPLY ]] && return
fi
_filedir
} &&
complete -F _ctest ctest
# ex: ts=4 sw=4 et filetype=sh
# bash completion for ctest(1) -*- shell-script -*-
_ctest()
{
local cur prev words cword
if type -t _comp_initialize >/dev/null; then
_comp_initialize -n = || return
elif type -t _init_completion >/dev/null; then
_init_completion -n = || return
else
# manual initialization for older bash completion versions
COMPREPLY=()
cur="${COMP_WORDS[COMP_CWORD]}"
prev="${COMP_WORDS[COMP_CWORD-1]}"
fi
case "$prev" in
-C|--build-config)
COMPREPLY=( $( compgen -W 'Debug Release RelWithDebInfo
MinSizeRel' -- "$cur" ) )
return
;;
-j|--parallel)
COMPREPLY=( $( compgen -W "{1..$(( $(_ncpus)*2 ))}" -- "$cur" ) )
return
;;
-O|--output-log|-A|--add-notes|--extra-submit)
_filedir
return
;;
-L|--label-regex|-LE|--label-exclude)
COMPREPLY=( $( compgen -W '$( ctest --print-labels 2>/dev/null |
grep "^ " 2>/dev/null | cut -d" " -f 3 )' -- "$cur" ) )
return
;;
--track|-I|--tests-information|--max-width|--timeout|--stop-time)
# argument required but no completions available
return
;;
-R|--tests-regex|-E|--exclude-regex)
COMPREPLY=( $( compgen -W '$( ctest -N 2>/dev/null |
grep "^ Test" 2>/dev/null | cut -d: -f 2 )' -- "$cur" ) )
return
;;
-D|--dashboard)
if [[ $cur == @(Experimental|Nightly|Continuous)* ]]; then
local model action
action=${cur#@(Experimental|Nightly|Continuous)}
model=${cur%"$action"}
COMPREPLY=( $( compgen -W 'Start Update Configure Build Test
Coverage Submit MemCheck' -P "$model" -- "$action" ) )
else
COMPREPLY=( $( compgen -W 'Experimental Nightly Continuous' \
-- "$cur" ) )
compopt -o nospace
fi
return
;;
-M|--test-model)
COMPREPLY=( $( compgen -W 'Experimental Nightly Continuous' -- \
"$cur" ) )
return
;;
-T|--test-action)
COMPREPLY=( $( compgen -W 'Start Update Configure Build Test
Coverage Submit MemCheck' -- "$cur" ) )
return
;;
-S|--script|-SP|--script-new-process)
_filedir '@(cmake|ctest)'
return
;;
--interactive-debug-mode)
COMPREPLY=( $( compgen -W '0 1' -- "$cur" ) )
return
;;
--help-command)
COMPREPLY=( $( compgen -W '$( ctest --help-command-list 2>/dev/null|
grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-manual)
COMPREPLY=( $( compgen -W '$( ctest --help-manual-list 2>/dev/null|
grep -v "^ctest version " | sed -e "s/([0-9])$//" )' -- "$cur" ) )
return
;;
--help-module)
COMPREPLY=( $( compgen -W '$( ctest --help-module-list 2>/dev/null|
grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-policy)
COMPREPLY=( $( compgen -W '$( ctest --help-policy-list 2>/dev/null |
grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-property)
COMPREPLY=( $( compgen -W '$( ctest --help-property-list \
2>/dev/null | grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--help-variable)
COMPREPLY=( $( compgen -W '$( ctest --help-variable-list \
2>/dev/null | grep -v "^ctest version " )' -- "$cur" ) )
return
;;
--preset)
local IFS=$'\n'
local quoted
printf -v quoted %q "$cur"
COMPREPLY=( $( compgen -W '$( ctest --list-presets 2>/dev/null |
grep -o "^ \".*\"" | sed \
-e "s/^ //g" \
-e "s/\"//g" \
-e "s/ /\\\\ /g" )' -- "$quoted" ) )
return
;;
esac
if [[ "$cur" == -* ]]; then
COMPREPLY=( $(compgen -W '$( _parse_help "$1" --help )' -- ${cur}) )
[[ $COMPREPLY == *= ]] && compopt -o nospace
[[ $COMPREPLY ]] && return
fi
_filedir
} &&
complete -F _ctest ctest
# ex: ts=4 sw=4 et filetype=sh

268
cmake/share/cmake-3.27/Help/command/add_library.rst
View File

@ -1,268 +0,0 @@
add_library
-----------
.. only:: html
.. contents::
Add a library to the project using the specified source files.
Normal Libraries
^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_library(<name> [STATIC | SHARED | MODULE]
[EXCLUDE_FROM_ALL]
[<source>...])
Adds a library target called ``<name>`` to be built from the source files
listed in the command invocation. The ``<name>``
corresponds to the logical target name and must be globally unique within
a project. The actual file name of the library built is constructed based
on conventions of the native platform (such as ``lib<name>.a`` or
``<name>.lib``).
.. versionadded:: 3.1
Source arguments to ``add_library`` may use "generator expressions" with
the syntax ``$<...>``. See the :manual:`cmake-generator-expressions(7)`
manual for available expressions.
.. versionadded:: 3.11
The source files can be omitted if they are added later using
:command:`target_sources`.
``STATIC``, ``SHARED``, or ``MODULE`` may be given to specify the type of
library to be created. ``STATIC`` libraries are archives of object files
for use when linking other targets. ``SHARED`` libraries are linked
dynamically and loaded at runtime. ``MODULE`` libraries are plugins that
are not linked into other targets but may be loaded dynamically at runtime
using dlopen-like functionality. If no type is given explicitly the
type is ``STATIC`` or ``SHARED`` based on whether the current value of the
variable :variable:`BUILD_SHARED_LIBS` is ``ON``. For ``SHARED`` and
``MODULE`` libraries the :prop_tgt:`POSITION_INDEPENDENT_CODE` target
property is set to ``ON`` automatically.
A ``SHARED`` library may be marked with the :prop_tgt:`FRAMEWORK`
target property to create an macOS Framework.
.. versionadded:: 3.8
A ``STATIC`` library may be marked with the :prop_tgt:`FRAMEWORK`
target property to create a static Framework.
If a library does not export any symbols, it must not be declared as a
``SHARED`` library. For example, a Windows resource DLL or a managed C++/CLI
DLL that exports no unmanaged symbols would need to be a ``MODULE`` library.
This is because CMake expects a ``SHARED`` library to always have an
associated import library on Windows.
By default the library file will be created in the build tree directory
corresponding to the source tree directory in which the command was
invoked. See documentation of the :prop_tgt:`ARCHIVE_OUTPUT_DIRECTORY`,
:prop_tgt:`LIBRARY_OUTPUT_DIRECTORY`, and
:prop_tgt:`RUNTIME_OUTPUT_DIRECTORY` target properties to change this
location. See documentation of the :prop_tgt:`OUTPUT_NAME` target
property to change the ``<name>`` part of the final file name.
If ``EXCLUDE_FROM_ALL`` is given the corresponding property will be set on
the created target. See documentation of the :prop_tgt:`EXCLUDE_FROM_ALL`
target property for details.
See the :manual:`cmake-buildsystem(7)` manual for more on defining
buildsystem properties.
See also :prop_sf:`HEADER_FILE_ONLY` on what to do if some sources are
pre-processed, and you want to have the original sources reachable from
within IDE.
Object Libraries
^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_library(<name> OBJECT [<source>...])
Creates an :ref:`Object Library <Object Libraries>`. An object library
compiles source files but does not archive or link their object files into a
library. Instead other targets created by ``add_library`` or
:command:`add_executable` may reference the objects using an expression of the
form :genex:`$\<TARGET_OBJECTS:objlib\> <TARGET_OBJECTS>` as a source, where
``objlib`` is the object library name. For example:
.. code-block:: cmake
add_library(... $<TARGET_OBJECTS:objlib> ...)
add_executable(... $<TARGET_OBJECTS:objlib> ...)
will include objlib's object files in a library and an executable
along with those compiled from their own sources. Object libraries
may contain only sources that compile, header files, and other files
that would not affect linking of a normal library (e.g. ``.txt``).
They may contain custom commands generating such sources, but not
``PRE_BUILD``, ``PRE_LINK``, or ``POST_BUILD`` commands. Some native build
systems (such as Xcode) may not like targets that have only object files, so
consider adding at least one real source file to any target that references
:genex:`$\<TARGET_OBJECTS:objlib\> <TARGET_OBJECTS>`.
.. versionadded:: 3.12
Object libraries can be linked to with :command:`target_link_libraries`.
Interface Libraries
^^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_library(<name> INTERFACE)
Creates an :ref:`Interface Library <Interface Libraries>`.
An ``INTERFACE`` library target does not compile sources and does
not produce a library artifact on disk. However, it may have
properties set on it and it may be installed and exported.
Typically, ``INTERFACE_*`` properties are populated on an interface
target using the commands:
* :command:`set_property`,
* :command:`target_link_libraries(INTERFACE)`,
* :command:`target_link_options(INTERFACE)`,
* :command:`target_include_directories(INTERFACE)`,
* :command:`target_compile_options(INTERFACE)`,
* :command:`target_compile_definitions(INTERFACE)`, and
* :command:`target_sources(INTERFACE)`,
and then it is used as an argument to :command:`target_link_libraries`
like any other target.
An interface library created with the above signature has no source files
itself and is not included as a target in the generated buildsystem.
.. versionadded:: 3.15
An interface library can have :prop_tgt:`PUBLIC_HEADER` and
:prop_tgt:`PRIVATE_HEADER` properties. The headers specified by those
properties can be installed using the :command:`install(TARGETS)` command.
.. versionadded:: 3.19
An interface library target may be created with source files:
.. code-block:: cmake
add_library(<name> INTERFACE [<source>...] [EXCLUDE_FROM_ALL])
Source files may be listed directly in the ``add_library`` call or added
later by calls to :command:`target_sources` with the ``PRIVATE`` or
``PUBLIC`` keywords.
If an interface library has source files (i.e. the :prop_tgt:`SOURCES`
target property is set), or header sets (i.e. the :prop_tgt:`HEADER_SETS`
target property is set), it will appear in the generated buildsystem
as a build target much like a target defined by the
:command:`add_custom_target` command. It does not compile any sources,
but does contain build rules for custom commands created by the
:command:`add_custom_command` command.
.. note::
In most command signatures where the ``INTERFACE`` keyword appears,
the items listed after it only become part of that target's usage
requirements and are not part of the target's own settings. However,
in this signature of ``add_library``, the ``INTERFACE`` keyword refers
to the library type only. Sources listed after it in the ``add_library``
call are ``PRIVATE`` to the interface library and do not appear in its
:prop_tgt:`INTERFACE_SOURCES` target property.
.. _`add_library imported libraries`:
Imported Libraries
^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_library(<name> <type> IMPORTED [GLOBAL])
Creates an :ref:`IMPORTED library target <Imported Targets>` called ``<name>``.
No rules are generated to build it, and the :prop_tgt:`IMPORTED` target
property is ``True``. The target name has scope in the directory in which
it is created and below, but the ``GLOBAL`` option extends visibility.
It may be referenced like any target built within the project.
``IMPORTED`` libraries are useful for convenient reference from commands
like :command:`target_link_libraries`. Details about the imported library
are specified by setting properties whose names begin in ``IMPORTED_`` and
``INTERFACE_``.
The ``<type>`` must be one of:
``STATIC``, ``SHARED``, ``MODULE``, ``UNKNOWN``
References a library file located outside the project. The
:prop_tgt:`IMPORTED_LOCATION` target property (or its per-configuration
variant :prop_tgt:`IMPORTED_LOCATION_<CONFIG>`) specifies the
location of the main library file on disk:
* For a ``SHARED`` library on most non-Windows platforms, the main library
file is the ``.so`` or ``.dylib`` file used by both linkers and dynamic
loaders. If the referenced library file has a ``SONAME`` (or on macOS,
has a ``LC_ID_DYLIB`` starting in ``@rpath/``), the value of that field
should be set in the :prop_tgt:`IMPORTED_SONAME` target property.
If the referenced library file does not have a ``SONAME``, but the
platform supports it, then the :prop_tgt:`IMPORTED_NO_SONAME` target
property should be set.
* For a ``SHARED`` library on Windows, the :prop_tgt:`IMPORTED_IMPLIB`
target property (or its per-configuration variant
:prop_tgt:`IMPORTED_IMPLIB_<CONFIG>`) specifies the location of the
DLL import library file (``.lib`` or ``.dll.a``) on disk, and the
``IMPORTED_LOCATION`` is the location of the ``.dll`` runtime
library (and is optional, but needed by the :genex:`TARGET_RUNTIME_DLLS`
generator expression).
Additional usage requirements may be specified in ``INTERFACE_*`` properties.
An ``UNKNOWN`` library type is typically only used in the implementation of
:ref:`Find Modules`. It allows the path to an imported library (often found
using the :command:`find_library` command) to be used without having to know
what type of library it is. This is especially useful on Windows where a
static library and a DLL's import library both have the same file extension.
``OBJECT``
References a set of object files located outside the project.
The :prop_tgt:`IMPORTED_OBJECTS` target property (or its per-configuration
variant :prop_tgt:`IMPORTED_OBJECTS_<CONFIG>`) specifies the locations of
object files on disk.
Additional usage requirements may be specified in ``INTERFACE_*`` properties.
``INTERFACE``
Does not reference any library or object files on disk, but may
specify usage requirements in ``INTERFACE_*`` properties.
See documentation of the ``IMPORTED_*`` and ``INTERFACE_*`` properties
for more information.
Alias Libraries
^^^^^^^^^^^^^^^
.. code-block:: cmake
add_library(<name> ALIAS <target>)
Creates an :ref:`Alias Target <Alias Targets>`, such that ``<name>`` can be
used to refer to ``<target>`` in subsequent commands. The ``<name>`` does
not appear in the generated buildsystem as a make target. The ``<target>``
may not be an ``ALIAS``.
.. versionadded:: 3.11
An ``ALIAS`` can target a ``GLOBAL`` :ref:`Imported Target <Imported Targets>`
.. versionadded:: 3.18
An ``ALIAS`` can target a non-``GLOBAL`` Imported Target. Such alias is
scoped to the directory in which it is created and below.
The :prop_tgt:`ALIAS_GLOBAL` target property can be used to check if the
alias is global or not.
``ALIAS`` targets can be used as linkable targets and as targets to
read properties from. They can also be tested for existence with the
regular :command:`if(TARGET)` subcommand. The ``<name>`` may not be used
to modify properties of ``<target>``, that is, it may not be used as the
operand of :command:`set_property`, :command:`set_target_properties`,
:command:`target_link_libraries` etc. An ``ALIAS`` target may not be
installed or exported.
See Also
^^^^^^^^
* :command:`add_executable`

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create_test_sourcelist
----------------------
Create a test driver and source list for building test programs.
.. code-block:: cmake
create_test_sourcelist(sourceListName driverName
test1 test2 test3
EXTRA_INCLUDE include.h
FUNCTION function)
A test driver is a program that links together many small tests into a
single executable. This is useful when building static executables
with large libraries to shrink the total required size. The list of
source files needed to build the test driver will be in
``sourceListName``. ``driverName`` is the name of the test driver program.
The rest of the arguments consist of a list of test source files, can
be semicolon separated. Each test source file should have a function
in it that is the same name as the file with no extension (foo.cxx
should have int foo(int, char*[]);) ``driverName`` will be able to call
each of the tests by name on the command line. If ``EXTRA_INCLUDE`` is
specified, then the next argument is included into the generated file.
If ``FUNCTION`` is specified, then the next argument is taken as a
function name that is passed a pointer to ac and av. This can be used
to add extra command line processing to each test. The
``CMAKE_TESTDRIVER_BEFORE_TESTMAIN`` cmake variable can be set to
have code that will be placed directly before calling the test main function.
``CMAKE_TESTDRIVER_AFTER_TESTMAIN`` can be set to have code that
will be placed directly after the call to the test main function.

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enable_language
---------------
Enable languages (CXX/C/OBJC/OBJCXX/Fortran/etc)
.. code-block:: cmake
enable_language(<lang>... [OPTIONAL])
Enables support for the named languages in CMake. This is the same as
the :command:`project` command but does not create any of the extra
variables that are created by the project command.
.. include:: SUPPORTED_LANGUAGES.txt
This command must be called in file scope, not in a function call.
Furthermore, it must be called in the highest directory common to all
targets using the named language directly for compiling sources or
indirectly through link dependencies. It is simplest to enable all
needed languages in the top-level directory of a project.
The ``OPTIONAL`` keyword is a placeholder for future implementation and
does not currently work. Instead you can use the :module:`CheckLanguage`
module to verify support before enabling.

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get_test_property
-----------------
Get a property of the test.
.. code-block:: cmake
get_test_property(test property VAR)
Get a property from the test. The value of the property is stored in
the variable ``VAR``. If the test property is not found, the behavior
depends on whether it has been defined to be an ``INHERITED`` property
or not (see :command:`define_property`). Non-inherited properties will
set ``VAR`` to "NOTFOUND", whereas inherited properties will search the
relevant parent scope as described for the :command:`define_property`
command and if still unable to find the property, ``VAR`` will be set to
an empty string.
For a list of standard properties you can type
:option:`cmake --help-property-list`.
See Also
^^^^^^^^
* :command:`define_property`
* the more general :command:`get_property` command

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set_tests_properties
--------------------
Set a property of the tests.
.. code-block:: cmake
set_tests_properties(test1 [test2...] PROPERTIES prop1 value1 prop2 value2)
Sets a property for the tests. If the test is not found, CMake
will report an error.
Test property values may be specified using
:manual:`generator expressions <cmake-generator-expressions(7)>`
for tests created by the :command:`add_test(NAME)` signature.
See Also
^^^^^^^^
* :command:`add_test`
* :command:`define_property`
* the more general :command:`set_property` command
* :ref:`Target Properties` for the list of properties known to CMake

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CTEST_PARALLEL_LEVEL
--------------------
.. include:: ENV_VAR.txt
Specify the number of tests for CTest to run in parallel. See :manual:`ctest(1)`
for more information on parallel test execution.

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Visual Studio 11 2012
---------------------
Deprecated. Generates Visual Studio 11 (VS 2012) 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 11 2012 tools
using the :generator:`Visual Studio 12 2013` (or above) generator
with :variable:`CMAKE_GENERATOR_TOOLSET` set to ``v110``, or by
using the :generator:`NMake Makefiles` generator.
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``.
.. versionadded:: 3.1
The :variable:`CMAKE_GENERATOR_PLATFORM` variable may be set, perhaps
via the :option:`cmake -A` option, to specify a target platform
name (architecture). For example:
* ``cmake -G "Visual Studio 11 2012" -A Win32``
* ``cmake -G "Visual Studio 11 2012" -A x64``
* ``cmake -G "Visual Studio 11 2012" -A ARM``
* ``cmake -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 :variable:`CMAKE_GENERATOR_TOOLSET` option may be set, perhaps
via the :option:`cmake -T` option, to specify another toolset.

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Visual Studio 9 2008
--------------------
Deprecated. Generates Visual Studio 9 2008 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 9 2008 tools
using the :generator:`Visual Studio 12 2013` generator (or above,
and with VS 10 2010 also installed) with
:variable:`CMAKE_GENERATOR_TOOLSET` set to ``v90``,
or by using the :generator:`NMake Makefiles` generator.
Platform Selection
^^^^^^^^^^^^^^^^^^
The default target platform name (architecture) is ``Win32``.
.. versionadded:: 3.1
The :variable:`CMAKE_GENERATOR_PLATFORM` variable may be set, perhaps
via the :option:`cmake -A` option, to specify a target platform
name (architecture). For example:
* ``cmake -G "Visual Studio 9 2008" -A Win32``
* ``cmake -G "Visual Studio 9 2008" -A x64``
* ``cmake -G "Visual Studio 9 2008" -A Itanium``
* ``cmake -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.

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CMP0099
-------
.. versionadded:: 3.17
Target link properties :prop_tgt:`INTERFACE_LINK_OPTIONS`,
:prop_tgt:`INTERFACE_LINK_DIRECTORIES` and :prop_tgt:`INTERFACE_LINK_DEPENDS`
are now transitive over private dependencies of static libraries.
In CMake 3.16 and below the interface link properties attached to libraries
are not propagated for private dependencies of static libraries.
Only the libraries themselves are propagated to link the dependent binary.
CMake 3.17 and later prefer to propagate all interface link properties.
This policy provides compatibility for projects that have not been updated
to expect the new behavior.
The ``OLD`` behavior for this policy is to not propagate interface link
properties. The ``NEW`` behavior of this policy is to propagate interface link
properties.
This policy was introduced in CMake version 3.17. Use the
:command:`cmake_policy` command to set it to ``OLD`` or ``NEW`` explicitly.
Unlike many policies, CMake version |release| does *not* warn
when this policy is not set and simply uses ``OLD`` behavior.
.. include:: DEPRECATED.txt

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CMP0118
-------
.. versionadded:: 3.20
The :prop_sf:`GENERATED` source file property is now visible in all directories.
Whether or not a source file is generated is an all-or-nothing global
property of the source. Consequently, the associated ``GENERATED``
property is now visible from any directory scope, not only from the scope
for which it was set.
Additionally, the ``GENERATED`` property may now be set only to boolean
values, and may not be turned off once turned on.
The ``OLD`` behavior of this policy is to only allow ``GENERATED`` to be
visible from the directory scope for which it was set. The ``NEW``
behavior on the other hand allows it to be visible from any scope.
This policy was introduced in CMake version 3.20. Use the
:command:`cmake_policy` command to set it to ``OLD`` or ``NEW`` explicitly.
Unlike many policies, CMake version |release| does *not* warn
when this policy is not set and simply uses ``OLD`` behavior with regard
to visibility of the ``GENERATED`` property. However, CMake does warn
about setting the ``GENERATED`` property to a non-boolean value.

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CMP0135
-------
.. versionadded:: 3.24
When using the ``URL`` download method with the :command:`ExternalProject_Add`
command, CMake 3.23 and below sets the timestamps of the extracted contents
to the same as the timestamps in the archive. When the ``URL`` changes, the
new archive is downloaded and extracted, but the timestamps of the extracted
contents might not be newer than the previous contents. Anything that depends
on the extracted contents might not be rebuilt, even though the contents may
change.
CMake 3.24 and above prefers to set the timestamps of all extracted contents
to the time of the extraction. This ensures that anything that depends on the
extracted contents will be rebuilt whenever the ``URL`` changes.
The ``DOWNLOAD_EXTRACT_TIMESTAMP`` option to the
:command:`ExternalProject_Add` command can be used to explicitly specify how
timestamps should be handled. When ``DOWNLOAD_EXTRACT_TIMESTAMP`` is not
given, this policy controls the default behavior. The ``OLD`` behavior for
this policy is to restore the timestamps from the archive. The ``NEW``
behavior sets the timestamps of extracted contents to the time of extraction.
This policy was introduced in CMake version 3.24. CMake version |release|
warns when the policy is not set and uses ``OLD`` behavior. Use the
:command:`cmake_policy` command to set it to ``OLD`` or ``NEW`` explicitly.
.. include:: DEPRECATED.txt

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CMake >= |disallowed_version| prefer that this command never be called.
The ``OLD`` behavior for this policy is to allow the command to be called.
The ``NEW`` behavior for this policy is to issue a ``FATAL_ERROR`` when the
command is called.
This policy was introduced in CMake version |disallowed_version|.
CMake version |release| warns when the policy is not set and uses
``OLD`` behavior. Use the :command:`cmake_policy` command to set it to ``OLD`` or
``NEW`` explicitly.

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EXCLUDE_FROM_ALL
----------------
Set this directory property to a true value on a subdirectory to exclude
its targets from the "all" target of its ancestors. If excluded, running
e.g. ``make`` in the parent directory will not build targets the
subdirectory by default. This does not affect the "all" target of the
subdirectory itself. Running e.g. ``make`` inside the subdirectory will
still build its targets.
If the :prop_tgt:`EXCLUDE_FROM_ALL` target property is set on a target
then its value determines whether the target is included in the "all"
target of this directory and its ancestors.

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FAIL_REGULAR_EXPRESSION
-----------------------
If the output matches this regular expression the test will fail,
regardless of the process exit code.
If set, if the output matches one of specified regular expressions,
the test will fail. Example:
.. code-block:: cmake
set_tests_properties(mytest PROPERTIES
FAIL_REGULAR_EXPRESSION "[^a-z]Error;ERROR;Failed"
)
``FAIL_REGULAR_EXPRESSION`` expects a list of regular expressions.
See also the :prop_test:`PASS_REGULAR_EXPRESSION` and
:prop_test:`SKIP_REGULAR_EXPRESSION` test properties.

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PASS_REGULAR_EXPRESSION
-----------------------
The output must match this regular expression for the test to pass.
The process exit code is ignored.
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. Example:
.. code-block:: cmake
set_tests_properties(mytest PROPERTIES
PASS_REGULAR_EXPRESSION "TestPassed;All ok"
)
``PASS_REGULAR_EXPRESSION`` expects a list of regular expressions.
See also the :prop_test:`FAIL_REGULAR_EXPRESSION` and
:prop_test:`SKIP_REGULAR_EXPRESSION` test properties.

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SKIP_REGULAR_EXPRESSION
-----------------------
.. versionadded:: 3.16
If the output matches this regular expression the test will be marked as skipped.
If set, if the output matches one of specified regular expressions,
the test will be marked as skipped. Example:
.. code-block:: cmake
set_property(TEST mytest PROPERTY
SKIP_REGULAR_EXPRESSION "[^a-z]Skip" "SKIP" "Skipped"
)
``SKIP_REGULAR_EXPRESSION`` expects a list of regular expressions.
See also the :prop_test:`SKIP_RETURN_CODE`,
:prop_test:`PASS_REGULAR_EXPRESSION`, and :prop_test:`FAIL_REGULAR_EXPRESSION`
test properties.

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SKIP_RETURN_CODE
----------------
Return code to mark a test as skipped.
Sometimes only a test itself can determine if all requirements for the
test are met. If such a situation should not be considered a hard failure
a return code of the process can be specified that will mark the test as
``Not Run`` if it is encountered. Valid values are in the range of
0 to 255, inclusive.
See also the :prop_test:`SKIP_REGULAR_EXPRESSION` property.

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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. Note that system-level test failures such as segmentation
faults or heap errors will still fail the test even if ``WILL_FALL`` is true.

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AUTOGEN_ORIGIN_DEPENDS
----------------------
.. versionadded:: 3.14
Switch for forwarding origin target dependencies to the corresponding
``_autogen`` target.
Targets which have their :prop_tgt:`AUTOMOC` or :prop_tgt:`AUTOUIC` property
``ON`` have a corresponding ``_autogen`` target which generates
``moc`` and ``uic`` files. As this ``_autogen`` target is created at
generate-time, it is not possible to define dependencies of it using
e.g. :command:`add_dependencies`. Instead the
``AUTOGEN_ORIGIN_DEPENDS`` target property decides whether the origin
target dependencies should be forwarded to the ``_autogen`` target or not.
By default ``AUTOGEN_ORIGIN_DEPENDS`` is initialized from
:variable:`CMAKE_AUTOGEN_ORIGIN_DEPENDS` which is ``ON`` by default.
In total the dependencies of the ``_autogen`` target are composed from
- forwarded origin target dependencies
(enabled by default via ``AUTOGEN_ORIGIN_DEPENDS``)
- additional user defined dependencies from :prop_tgt:`AUTOGEN_TARGET_DEPENDS`
See the :manual:`cmake-qt(7)` manual for more information on using CMake
with Qt.
Note
^^^^
Disabling ``AUTOGEN_ORIGIN_DEPENDS`` is useful to avoid building of
origin target dependencies when building the ``_autogen`` target only.
This is especially interesting when a
:variable:`global autogen target <CMAKE_GLOBAL_AUTOGEN_TARGET>` is enabled.
When the ``_autogen`` target doesn't require all the origin target's
dependencies, and ``AUTOGEN_ORIGIN_DEPENDS`` is disabled, it might be
necessary to extend :prop_tgt:`AUTOGEN_TARGET_DEPENDS` to add missing
dependencies.

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AUTOGEN_TARGET_DEPENDS
----------------------
Additional target dependencies of the corresponding ``_autogen`` target.
Targets which have their :prop_tgt:`AUTOMOC` or :prop_tgt:`AUTOUIC` property
``ON`` have a corresponding ``_autogen`` target which generates
``moc`` and ``uic`` files. As this ``_autogen`` target is created at
generate-time, it is not possible to define dependencies of it using
e.g. :command:`add_dependencies`. Instead the
``AUTOGEN_TARGET_DEPENDS`` target property can be set to a
:ref:`;-list <CMake Language Lists>` of additional dependencies for the
``_autogen`` target. Dependencies can be target names or file names.
In total the dependencies of the ``_autogen`` target are composed from
- forwarded origin target dependencies
(enabled by default via :prop_tgt:`AUTOGEN_ORIGIN_DEPENDS`)
- additional user defined dependencies from ``AUTOGEN_TARGET_DEPENDS``
See the :manual:`cmake-qt(7)` manual for more information on using CMake
with Qt.
Use cases
^^^^^^^^^
If :prop_tgt:`AUTOMOC` or :prop_tgt:`AUTOUIC` depends on a file that is either
- a :prop_sf:`GENERATED` non C++ file (e.g. a :prop_sf:`GENERATED` ``.json``
or ``.ui`` file) or
- a :prop_sf:`GENERATED` C++ file that isn't recognized by :prop_tgt:`AUTOMOC`
and :prop_tgt:`AUTOUIC` because it's skipped by :prop_sf:`SKIP_AUTOMOC`,
:prop_sf:`SKIP_AUTOUIC`, :prop_sf:`SKIP_AUTOGEN` or :policy:`CMP0071` or
- a file that isn't in the origin target's sources
it must be added to ``AUTOGEN_TARGET_DEPENDS``.

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IMPORTED_IMPLIB
---------------
Full path to the import library for an ``IMPORTED`` target.
This property may be set:
* On DLL platforms, to the location of the ``.lib`` part of the DLL.
* On AIX, to an import file (e.g. ``.imp``) created for executables that export
symbols (see the :prop_tgt:`ENABLE_EXPORTS` target property).
* On macOS, to an import file (e.g. ``.tbd``) created for shared libraries (see
the :prop_tgt:`ENABLE_EXPORTS` target property). For frameworks this is the
location of the ``.tbd`` file symlink just inside the framework folder.
The ``IMPORTED_IMPLIB`` target property may be overridden for a
given configuration ``<CONFIG>`` by the configuration-specific
:prop_tgt:`IMPORTED_IMPLIB_<CONFIG>` target property. Furthermore,
the :prop_tgt:`MAP_IMPORTED_CONFIG_<CONFIG>` target property may be
used to map between a project's configurations and those of an imported
target. If none of these is set then the name of any other configuration
listed in the :prop_tgt:`IMPORTED_CONFIGURATIONS` target property may be
selected and its :prop_tgt:`IMPORTED_IMPLIB_<CONFIG>` value used.
This property is ignored for non-imported targets.

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IOS_INSTALL_COMBINED
--------------------
.. versionadded:: 3.5
Build a combined (device and simulator) target when installing.
When this property is set to set to false (which is the default) then it will
either be built with the device SDK or the simulator SDK depending on the SDK
set. But if this property is set to true then the target will at install time
also be built for the corresponding SDK and combined into one library.
.. note::
If a selected architecture is available for both: device SDK and simulator
SDK it will be built for the SDK selected by :variable:`CMAKE_OSX_SYSROOT`
and removed from the corresponding SDK.
This feature requires at least Xcode version 6.

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Swift_LANGUAGE_VERSION
----------------------
.. versionadded:: 3.16
This property sets the language version for the Swift sources in the target. If
one is not specified, it will default to ``<CMAKE_Swift_LANGUAGE_VERSION>`` if
specified, otherwise it is the latest version supported by the compiler.

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VS_KEYWORD
----------
Visual Studio project keyword for VS 9 (2008) and older.
Can be set to change the visual studio keyword, for example Qt
integration works better if this is set to Qt4VSv1.0.
Use the :prop_tgt:`VS_GLOBAL_KEYWORD` target property to set the
keyword for Visual Studio 11 (2012) and newer.

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BUILD_SHARED_LIBS
-----------------
Global flag to cause :command:`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 :command:`option` so that each user
of a project can decide if they want to build the project using shared or
static libraries.

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CMAKE_CUDA_HOST_COMPILER
------------------------
.. versionadded:: 3.10
When :variable:`CMAKE_CUDA_COMPILER_ID <CMAKE_<LANG>_COMPILER_ID>` is
``NVIDIA``, ``CMAKE_CUDA_HOST_COMPILER`` selects the compiler executable to use
when compiling host code for ``CUDA`` language files.
This maps to the ``nvcc -ccbin`` option.
The ``CMAKE_CUDA_HOST_COMPILER`` variable may be set explicitly before CUDA is
first enabled by a :command:`project` or :command:`enable_language` command.
This can be done via ``-DCMAKE_CUDA_HOST_COMPILER=...`` on the command line
or in a :ref:`toolchain file <Cross Compiling Toolchain>`. Or, one may set
the :envvar:`CUDAHOSTCXX` environment variable to provide a default value.
Once the CUDA language is enabled, the ``CMAKE_CUDA_HOST_COMPILER`` variable
is read-only and changes to it are undefined behavior.
.. note::
Since ``CMAKE_CUDA_HOST_COMPILER`` is meaningful only when the
:variable:`CMAKE_CUDA_COMPILER_ID <CMAKE_<LANG>_COMPILER_ID>` is ``NVIDIA``,
it does not make sense to set ``CMAKE_CUDA_HOST_COMPILER`` without also
setting ``CMAKE_CUDA_COMPILER`` to NVCC.
.. note::
Ignored when using :ref:`Visual Studio Generators`.

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CMAKE_FIND_LIBRARY_SUFFIXES
---------------------------
Suffixes to append when looking for libraries.
This specifies what suffixes to add to library names when the
:command:`find_library` command looks for libraries. On Windows systems this
is typically ``.lib`` and, depending on the compiler, ``.dll.a``, ``.a``
(e.g. GCC and Clang), so when it tries to find the ``foo`` library, it will
look for ``[<prefix>]foo.lib`` and/or ``[<prefix>]foo[.dll].a``, depending on
the compiler used and the ``<prefix>`` specified in the
:variable:`CMAKE_FIND_LIBRARY_PREFIXES`.

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CMAKE_HIP_ARCHITECTURES
-----------------------
.. versionadded:: 3.21
Default value for :prop_tgt:`HIP_ARCHITECTURES` property of targets.
This is initialized to the architectures reported by ``rocm_agent_enumerator``,
if available, and otherwise to the default chosen by the compiler.
This variable is used to initialize the :prop_tgt:`HIP_ARCHITECTURES` property
on all targets. See the target property for additional information.

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CMAKE_INSTALL_PREFIX_INITIALIZED_TO_DEFAULT
-------------------------------------------
.. versionadded:: 3.7.1
CMake sets this variable to a ``TRUE`` value when the
:variable:`CMAKE_INSTALL_PREFIX` has just been initialized to
its default value, typically on the first run of CMake within
a new build tree. This can be used by project code to change
the default without overriding a user-provided value:
.. code-block:: cmake
if(CMAKE_INSTALL_PREFIX_INITIALIZED_TO_DEFAULT)
set(CMAKE_INSTALL_PREFIX "/my/default" CACHE PATH "..." FORCE)
endif()

8
cmake/share/cmake-3.27/Help/variable/CMAKE_MODULE_PATH.rst
View File

@ -1,8 +0,0 @@
CMAKE_MODULE_PATH
-----------------
:ref:`Semicolon-separated list <CMake Language Lists>` of directories,
represented using forward slashes, specifying a search path for CMake modules
to be loaded by the :command:`include` or :command:`find_package` commands
before checking the default modules that come with CMake. By default it is
empty. It is intended to be set by the project.

14
cmake/share/cmake-3.27/Help/variable/CMAKE_REQUIRE_FIND_PACKAGE_PackageName.rst
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@ -1,14 +0,0 @@
CMAKE_REQUIRE_FIND_PACKAGE_<PackageName>
----------------------------------------
.. versionadded:: 3.22
Variable for making :command:`find_package` call ``REQUIRED``.
Every non-``REQUIRED`` :command:`find_package` call in a project can be
turned into ``REQUIRED`` by setting the variable
``CMAKE_REQUIRE_FIND_PACKAGE_<PackageName>`` to ``TRUE``.
This can be used to assert assumptions about build environment and to
ensure the build will fail early if they do not hold.
See also the :variable:`CMAKE_DISABLE_FIND_PACKAGE_<PackageName>` variable.

23
cmake/share/cmake-3.27/Help/variable/CMAKE_SYSTEM_NAME.rst
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@ -1,23 +0,0 @@
CMAKE_SYSTEM_NAME
-----------------
The name of the operating system for which CMake is to build.
See the :variable:`CMAKE_SYSTEM_VERSION` variable for the OS version.
Note that ``CMAKE_SYSTEM_NAME`` is not set to anything by default when running
in script mode, since it's not building anything.
System Name for Host Builds
^^^^^^^^^^^^^^^^^^^^^^^^^^^
``CMAKE_SYSTEM_NAME`` is by default set to the same value as the
:variable:`CMAKE_HOST_SYSTEM_NAME` variable so that the build
targets the host system.
System Name for Cross Compiling
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
``CMAKE_SYSTEM_NAME`` may be set explicitly when first configuring a new build
tree in order to enable :ref:`cross compiling <Cross Compiling Toolchain>`.
In this case the :variable:`CMAKE_SYSTEM_VERSION` variable must also be
set explicitly.

47
cmake/share/cmake-3.27/Modules/CMakeCUDACompilerABI.cu
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@ -1,47 +0,0 @@
#ifndef __CUDACC__
# error "A C or C++ compiler has been selected for CUDA"
#endif
#include <cstdio>
#include <cuda_runtime.h>
#include "CMakeCompilerABI.h"
int main(int argc, char* argv[])
{
int require = 0;
require += info_sizeof_dptr[argc];
require += info_byte_order_big_endian[argc];
require += info_byte_order_little_endian[argc];
#if defined(ABI_ID)
require += info_abi[argc];
#endif
static_cast<void>(argv);
int count = 0;
if (cudaGetDeviceCount(&count) != cudaSuccess || count == 0) {
std::fprintf(stderr, "No CUDA devices found.\n");
return -1;
}
int found = 0;
const char* sep = "";
for (int device = 0; device < count; ++device) {
cudaDeviceProp prop;
if (cudaGetDeviceProperties(&prop, device) == cudaSuccess) {
std::printf("%s%d%d", sep, prop.major, prop.minor);
sep = ";";
found = 1;
}
}
if (!found) {
std::fprintf(stderr, "No CUDA architecture detected from any devices.\n");
// Convince the compiler that the non-zero return value depends
// on the info strings so they are not optimized out.
return require ? -1 : 1;
}
return 0;
}

23
cmake/share/cmake-3.27/Modules/CMakeCommonLanguageInclude.cmake
View File

@ -1,23 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
# this file has flags that are shared across languages and sets
# cache values that can be initialized in the platform-compiler.cmake file
# it may be included by more than one language.
string(APPEND CMAKE_EXE_LINKER_FLAGS_INIT " $ENV{LDFLAGS}")
string(APPEND CMAKE_SHARED_LINKER_FLAGS_INIT " $ENV{LDFLAGS}")
string(APPEND CMAKE_MODULE_LINKER_FLAGS_INIT " $ENV{LDFLAGS}")
cmake_initialize_per_config_variable(CMAKE_EXE_LINKER_FLAGS "Flags used by the linker")
cmake_initialize_per_config_variable(CMAKE_SHARED_LINKER_FLAGS "Flags used by the linker during the creation of shared libraries")
cmake_initialize_per_config_variable(CMAKE_MODULE_LINKER_FLAGS "Flags used by the linker during the creation of modules")
cmake_initialize_per_config_variable(CMAKE_STATIC_LINKER_FLAGS "Flags used by the linker during the creation of static libraries")
# Alias the build tool variable for backward compatibility.
set(CMAKE_BUILD_TOOL ${CMAKE_MAKE_PROGRAM})
mark_as_advanced(
CMAKE_VERBOSE_MAKEFILE
)

624
cmake/share/cmake-3.27/Modules/CMakeDetermineCUDACompiler.cmake
View File

@ -1,624 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
include(${CMAKE_ROOT}/Modules/CMakeDetermineCompiler.cmake)
include(${CMAKE_ROOT}/Modules/CMakeParseImplicitLinkInfo.cmake)
if( NOT ( ("${CMAKE_GENERATOR}" MATCHES "Make") OR
("${CMAKE_GENERATOR}" MATCHES "Ninja") OR
("${CMAKE_GENERATOR}" MATCHES "Visual Studio (1|[9][0-9])") ) )
message(FATAL_ERROR "CUDA language not currently supported by \"${CMAKE_GENERATOR}\" generator")
endif()
if(${CMAKE_GENERATOR} MATCHES "Visual Studio")
if(DEFINED ENV{CUDAHOSTCXX} OR DEFINED CMAKE_CUDA_HOST_COMPILER)
message(WARNING "Visual Studio does not support specifying CUDAHOSTCXX or CMAKE_CUDA_HOST_COMPILER. Using the C++ compiler provided by Visual Studio.")
endif()
else()
if(NOT CMAKE_CUDA_COMPILER)
set(CMAKE_CUDA_COMPILER_INIT NOTFOUND)
# prefer the environment variable CUDACXX
if(NOT $ENV{CUDACXX} STREQUAL "")
get_filename_component(CMAKE_CUDA_COMPILER_INIT $ENV{CUDACXX} PROGRAM PROGRAM_ARGS CMAKE_CUDA_FLAGS_ENV_INIT)
if(CMAKE_CUDA_FLAGS_ENV_INIT)
set(CMAKE_CUDA_COMPILER_ARG1 "${CMAKE_CUDA_FLAGS_ENV_INIT}" CACHE STRING "Arguments to CUDA compiler")
endif()
if(NOT EXISTS ${CMAKE_CUDA_COMPILER_INIT})
message(FATAL_ERROR "Could not find compiler set in environment variable CUDACXX:\n$ENV{CUDACXX}.\n${CMAKE_CUDA_COMPILER_INIT}")
endif()
endif()
# finally list compilers to try
if(NOT CMAKE_CUDA_COMPILER_INIT)
set(CMAKE_CUDA_COMPILER_LIST nvcc)
endif()
set(_CMAKE_CUDA_COMPILER_PATHS "$ENV{CUDA_PATH}/bin")
_cmake_find_compiler(CUDA)
unset(_CMAKE_CUDA_COMPILER_PATHS)
else()
_cmake_find_compiler_path(CUDA)
endif()
mark_as_advanced(CMAKE_CUDA_COMPILER)
#Allow the user to specify a host compiler except for Visual Studio
if(NOT $ENV{CUDAHOSTCXX} STREQUAL "")
get_filename_component(CMAKE_CUDA_HOST_COMPILER $ENV{CUDAHOSTCXX} PROGRAM)
if(NOT EXISTS ${CMAKE_CUDA_HOST_COMPILER})
message(FATAL_ERROR "Could not find compiler set in environment variable CUDAHOSTCXX:\n$ENV{CUDAHOSTCXX}.\n${CMAKE_CUDA_HOST_COMPILER}")
endif()
endif()
endif()
if(NOT "$ENV{CUDAARCHS}" STREQUAL "")
set(CMAKE_CUDA_ARCHITECTURES "$ENV{CUDAARCHS}" CACHE STRING "CUDA architectures")
endif()
# Build a small source file to identify the compiler.
if(NOT CMAKE_CUDA_COMPILER_ID_RUN)
set(CMAKE_CUDA_COMPILER_ID_RUN 1)
include(${CMAKE_ROOT}/Modules/CMakeDetermineCompilerId.cmake)
if(${CMAKE_GENERATOR} MATCHES "Visual Studio")
# We will not know CMAKE_CUDA_COMPILER until the main compiler id step
# below extracts it, but we do know that the compiler id will be NVIDIA.
set(CMAKE_CUDA_COMPILER_ID "NVIDIA")
else()
# We determine the vendor to help with find the toolkit and use the right flags for detection right away.
# The main compiler identification is still needed below to extract other information.
list(APPEND CMAKE_CUDA_COMPILER_ID_VENDORS NVIDIA Clang)
set(CMAKE_CUDA_COMPILER_ID_VENDOR_REGEX_NVIDIA "nvcc: NVIDIA \\(R\\) Cuda compiler driver")
set(CMAKE_CUDA_COMPILER_ID_VENDOR_REGEX_Clang "(clang version)")
CMAKE_DETERMINE_COMPILER_ID_VENDOR(CUDA "--version")
if(CMAKE_CUDA_COMPILER_ID STREQUAL "Clang" AND WIN32)
message(FATAL_ERROR "Clang with CUDA is not yet supported on Windows. See CMake issue #20776.")
endif()
# Find the CUDA toolkit. We store the CMAKE_CUDA_COMPILER_TOOLKIT_ROOT, CMAKE_CUDA_COMPILER_TOOLKIT_VERSION and
# CMAKE_CUDA_COMPILER_LIBRARY_ROOT in CMakeCUDACompiler.cmake so FindCUDAToolkit can avoid searching on future
# runs and the toolkit is the same.
# This is very similar to FindCUDAToolkit, but somewhat simplified since we can issue fatal errors
# if we fail and we don't need to account for searching the libraries.
# For NVCC we can easily deduce the SDK binary directory from the compiler path.
if(CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA")
set(_CUDA_NVCC_EXECUTABLE "${CMAKE_CUDA_COMPILER}")
else()
# Search using CUDAToolkit_ROOT and then CUDA_PATH for equivalence with FindCUDAToolkit.
# In FindCUDAToolkit CUDAToolkit_ROOT is searched automatically due to being in a find_package().
# First we search candidate non-default paths to give them priority.
find_program(_CUDA_NVCC_EXECUTABLE
NAMES nvcc nvcc.exe
PATHS ${CUDAToolkit_ROOT}
ENV CUDAToolkit_ROOT
ENV CUDA_PATH
PATH_SUFFIXES bin
NO_DEFAULT_PATH
)
# If we didn't find NVCC, then try the default paths.
find_program(_CUDA_NVCC_EXECUTABLE
NAMES nvcc nvcc.exe
PATH_SUFFIXES bin
)
# If the user specified CUDAToolkit_ROOT but nvcc could not be found, this is an error.
if(NOT _CUDA_NVCC_EXECUTABLE AND (DEFINED CUDAToolkit_ROOT OR DEFINED ENV{CUDAToolkit_ROOT}))
set(fail_base "Could not find nvcc executable in path specified by")
if(DEFINED CUDAToolkit_ROOT)
message(FATAL_ERROR "${fail_base} CUDAToolkit_ROOT=${CUDAToolkit_ROOT}")
elseif(DEFINED ENV{CUDAToolkit_ROOT})
message(FATAL_ERROR "${fail_base} environment variable CUDAToolkit_ROOT=$ENV{CUDAToolkit_ROOT}")
endif()
endif()
# CUDAToolkit_ROOT cmake/env variable not specified, try platform defaults.
#
# - Linux: /usr/local/cuda-X.Y
# - macOS: /Developer/NVIDIA/CUDA-X.Y
# - Windows: C:\Program Files\NVIDIA GPU Computing Toolkit\CUDA\vX.Y
#
# We will also search the default symlink location /usr/local/cuda first since
# if CUDAToolkit_ROOT is not specified, it is assumed that the symlinked
# directory is the desired location.
if(NOT _CUDA_NVCC_EXECUTABLE)
if(UNIX)
if(NOT APPLE)
set(platform_base "/usr/local/cuda-")
else()
set(platform_base "/Developer/NVIDIA/CUDA-")
endif()
else()
set(platform_base "C:\\Program Files\\NVIDIA GPU Computing Toolkit\\CUDA\\v")
endif()
# Build out a descending list of possible cuda installations, e.g.
file(GLOB possible_paths "${platform_base}*")
# Iterate the glob results and create a descending list.
set(versions)
foreach(p ${possible_paths})
# Extract version number from end of string
string(REGEX MATCH "[0-9][0-9]?\\.[0-9]$" p_version ${p})
if(IS_DIRECTORY ${p} AND p_version)
list(APPEND versions ${p_version})
endif()
endforeach()
# Sort numerically in descending order, so we try the newest versions first.
list(SORT versions COMPARE NATURAL ORDER DESCENDING)
# With a descending list of versions, populate possible paths to search.
set(search_paths)
foreach(v ${versions})
list(APPEND search_paths "${platform_base}${v}")
endforeach()
# Force the global default /usr/local/cuda to the front on Unix.
if(UNIX)
list(INSERT search_paths 0 "/usr/local/cuda")
endif()
# Now search for nvcc again using the platform default search paths.
find_program(_CUDA_NVCC_EXECUTABLE
NAMES nvcc nvcc.exe
PATHS ${search_paths}
PATH_SUFFIXES bin
)
# We are done with these variables now, cleanup.
unset(platform_base)
unset(possible_paths)
unset(versions)
unset(search_paths)
if(NOT _CUDA_NVCC_EXECUTABLE)
message(FATAL_ERROR "Failed to find nvcc.\nCompiler ${CMAKE_CUDA_COMPILER_ID} requires the CUDA toolkit. Please set the CUDAToolkit_ROOT variable.")
endif()
endif()
endif()
# Given that NVCC can be provided by multiple different sources (NVIDIA HPC SDK, CUDA Toolkit, distro)
# each of which has a different layout, we need to extract the CUDA toolkit root from the compiler
# itself, allowing us to support numerous different scattered toolkit layouts
execute_process(COMMAND ${_CUDA_NVCC_EXECUTABLE} "-v" "__cmake_determine_cuda"
OUTPUT_VARIABLE _CUDA_NVCC_OUT ERROR_VARIABLE _CUDA_NVCC_OUT)
if(_CUDA_NVCC_OUT MATCHES "\\#\\$ TOP=([^\r\n]*)")
get_filename_component(CMAKE_CUDA_COMPILER_TOOLKIT_ROOT "${CMAKE_MATCH_1}" ABSOLUTE)
else()
get_filename_component(CMAKE_CUDA_COMPILER_TOOLKIT_ROOT "${_CUDA_NVCC_EXECUTABLE}" DIRECTORY)
get_filename_component(CMAKE_CUDA_COMPILER_TOOLKIT_ROOT "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}" DIRECTORY)
endif()
if(_CUDA_NVCC_OUT MATCHES "\\#\\$ NVVMIR_LIBRARY_DIR=([^\r\n]*)")
get_filename_component(_CUDA_NVVMIR_LIBRARY_DIR "${CMAKE_MATCH_1}" ABSOLUTE)
#We require the path to end in `/nvvm/libdevice'
if(_CUDA_NVVMIR_LIBRARY_DIR MATCHES "nvvm/libdevice$")
get_filename_component(_CUDA_NVVMIR_LIBRARY_DIR "${_CUDA_NVVMIR_LIBRARY_DIR}/../.." ABSOLUTE)
set(CMAKE_CUDA_COMPILER_LIBRARY_ROOT_FROM_NVVMIR_LIBRARY_DIR "${_CUDA_NVVMIR_LIBRARY_DIR}")
endif()
unset(_CUDA_NVVMIR_LIBRARY_DIR)
unset(_cuda_nvvmir_dir_name)
endif()
unset(_CUDA_NVCC_OUT)
set(CMAKE_CUDA_DEVICE_LINKER "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}/bin/nvlink${CMAKE_EXECUTABLE_SUFFIX}")
set(CMAKE_CUDA_FATBINARY "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}/bin/fatbinary${CMAKE_EXECUTABLE_SUFFIX}")
# In a non-scattered installation the following are equivalent to CMAKE_CUDA_COMPILER_TOOLKIT_ROOT.
# We first check for a non-scattered installation to prefer it over a scattered installation.
# CMAKE_CUDA_COMPILER_LIBRARY_ROOT contains the device library.
if(DEFINED CMAKE_CUDA_COMPILER_LIBRARY_ROOT_FROM_NVVMIR_LIBRARY_DIR)
set(CMAKE_CUDA_COMPILER_LIBRARY_ROOT "${CMAKE_CUDA_COMPILER_LIBRARY_ROOT_FROM_NVVMIR_LIBRARY_DIR}")
elseif(EXISTS "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}/nvvm/libdevice")
set(CMAKE_CUDA_COMPILER_LIBRARY_ROOT "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}")
elseif(CMAKE_SYSROOT_LINK AND EXISTS "${CMAKE_SYSROOT_LINK}/usr/lib/cuda/nvvm/libdevice")
set(CMAKE_CUDA_COMPILER_LIBRARY_ROOT "${CMAKE_SYSROOT_LINK}/usr/lib/cuda")
elseif(EXISTS "${CMAKE_SYSROOT}/usr/lib/cuda/nvvm/libdevice")
set(CMAKE_CUDA_COMPILER_LIBRARY_ROOT "${CMAKE_SYSROOT}/usr/lib/cuda")
else()
message(FATAL_ERROR "Couldn't find CUDA library root.")
endif()
unset(CMAKE_CUDA_COMPILER_LIBRARY_ROOT_FROM_NVVMIR_LIBRARY_DIR)
# CMAKE_CUDA_COMPILER_TOOLKIT_LIBRARY_ROOT contains the linking stubs necessary for device linking and other low-level library files.
if(CMAKE_SYSROOT_LINK AND EXISTS "${CMAKE_SYSROOT_LINK}/usr/lib/nvidia-cuda-toolkit/bin/crt/link.stub")
set(CMAKE_CUDA_COMPILER_TOOLKIT_LIBRARY_ROOT "${CMAKE_SYSROOT_LINK}/usr/lib/nvidia-cuda-toolkit")
elseif(EXISTS "${CMAKE_SYSROOT}/usr/lib/nvidia-cuda-toolkit/bin/crt/link.stub")
set(CMAKE_CUDA_COMPILER_TOOLKIT_LIBRARY_ROOT "${CMAKE_SYSROOT}/usr/lib/nvidia-cuda-toolkit")
else()
set(CMAKE_CUDA_COMPILER_TOOLKIT_LIBRARY_ROOT "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}")
endif()
endif()
# For regular nvcc we the toolkit version is the same as the compiler version and we can parse it from the vendor test output.
# For Clang we need to invoke nvcc to get version output.
if(NOT CMAKE_GENERATOR MATCHES "Visual Studio")
if(CMAKE_CUDA_COMPILER_ID STREQUAL "Clang")
execute_process(COMMAND ${_CUDA_NVCC_EXECUTABLE} "--version" OUTPUT_VARIABLE CMAKE_CUDA_COMPILER_ID_OUTPUT)
endif()
if(CMAKE_CUDA_COMPILER_ID_OUTPUT MATCHES [=[V([0-9]+\.[0-9]+\.[0-9]+)]=])
set(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION "${CMAKE_MATCH_1}")
endif()
endif()
set(CMAKE_CUDA_COMPILER_ID_FLAGS_ALWAYS "-v")
if(CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA")
set(nvcc_test_flags "--keep --keep-dir tmp")
if(CMAKE_CUDA_HOST_COMPILER)
string(APPEND nvcc_test_flags " -ccbin=\"${CMAKE_CUDA_HOST_COMPILER}\"")
endif()
# If we have extracted the vendor as NVIDIA we should require detection to
# work. If we don't, users will get confusing errors later about failure
# to detect a default value for CMAKE_CUDA_ARCHITECTURES
set(CMAKE_CUDA_COMPILER_ID_REQUIRE_SUCCESS ON)
elseif(CMAKE_CUDA_COMPILER_ID STREQUAL "Clang")
set(clang_test_flags "--cuda-path=\"${CMAKE_CUDA_COMPILER_LIBRARY_ROOT}\"")
if(CMAKE_CROSSCOMPILING)
# Need to pass the host target and include directories if we're crosscompiling.
string(APPEND clang_test_flags " --sysroot=\"${CMAKE_SYSROOT}\" --target=${CMAKE_CUDA_COMPILER_TARGET}")
endif()
endif()
# Rest of the code treats an empty value as equivalent to "use the defaults".
# Error out early to prevent confusing errors as a result of this.
# Note that this also catches invalid non-numerical values such as "a".
if(DEFINED CMAKE_CUDA_ARCHITECTURES)
if(CMAKE_CUDA_ARCHITECTURES STREQUAL "")
message(FATAL_ERROR "CMAKE_CUDA_ARCHITECTURES must be non-empty if set.")
elseif(CMAKE_CUDA_ARCHITECTURES AND NOT CMAKE_CUDA_ARCHITECTURES MATCHES "^([0-9]+a?(-real|-virtual)?(;[0-9]+a?(-real|-virtual)?|;)*|all|all-major|native)$")
message(FATAL_ERROR
"CMAKE_CUDA_ARCHITECTURES:\n"
" ${CMAKE_CUDA_ARCHITECTURES}\n"
"is not one of the following:\n"
" * a semicolon-separated list of integers, each optionally\n"
" followed by '-real' or '-virtual'\n"
" * a special value: all, all-major, native\n"
)
endif()
endif()
if(CMAKE_CUDA_COMPILER_ID STREQUAL "Clang")
# Clang doesn't automatically select an architecture supported by the SDK.
# Try in reverse order of deprecation with the most recent at front (i.e. the most likely to work for new setups).
foreach(arch "52" "30" "20")
list(APPEND CMAKE_CUDA_COMPILER_ID_TEST_FLAGS_FIRST "${clang_test_flags} --cuda-gpu-arch=sm_${arch}")
endforeach()
elseif(CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA")
list(APPEND CMAKE_CUDA_COMPILER_ID_TEST_FLAGS_FIRST "${nvcc_test_flags}")
endif()
# We perform compiler identification for a second time to extract implicit linking info and host compiler for NVCC.
# We need to unset the compiler ID otherwise CMAKE_DETERMINE_COMPILER_ID() doesn't work.
set(CMAKE_CUDA_COMPILER_ID)
set(CMAKE_CUDA_PLATFORM_ID)
file(READ ${CMAKE_ROOT}/Modules/CMakePlatformId.h.in
CMAKE_CUDA_COMPILER_ID_PLATFORM_CONTENT)
CMAKE_DETERMINE_COMPILER_ID(CUDA CUDAFLAGS CMakeCUDACompilerId.cu)
if(${CMAKE_GENERATOR} MATCHES "Visual Studio")
# Now that we have the path to nvcc, we can compute the toolkit root.
get_filename_component(CMAKE_CUDA_COMPILER_TOOLKIT_ROOT "${CMAKE_CUDA_COMPILER}" DIRECTORY)
get_filename_component(CMAKE_CUDA_COMPILER_TOOLKIT_ROOT "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}" DIRECTORY)
set(CMAKE_CUDA_COMPILER_LIBRARY_ROOT "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}")
# The compiler comes with the toolkit, so the versions are the same.
set(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION ${CMAKE_CUDA_COMPILER_VERSION})
endif()
include(${CMAKE_ROOT}/Modules/CUDA/architectures.cmake)
_cmake_find_compiler_sysroot(CUDA)
endif()
set(_CMAKE_PROCESSING_LANGUAGE "CUDA")
include(CMakeFindBinUtils)
include(Compiler/${CMAKE_CUDA_COMPILER_ID}-FindBinUtils OPTIONAL)
unset(_CMAKE_PROCESSING_LANGUAGE)
if(MSVC_CUDA_ARCHITECTURE_ID)
set(SET_MSVC_CUDA_ARCHITECTURE_ID
"set(MSVC_CUDA_ARCHITECTURE_ID ${MSVC_CUDA_ARCHITECTURE_ID})")
endif()
if(${CMAKE_GENERATOR} MATCHES "Visual Studio")
set(CMAKE_CUDA_HOST_LINK_LAUNCHER "${CMAKE_LINKER}")
set(CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES "")
set(CMAKE_CUDA_HOST_IMPLICIT_LINK_DIRECTORIES "")
set(CMAKE_CUDA_HOST_IMPLICIT_LINK_FRAMEWORK_DIRECTORIES "")
# We do not currently detect CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES but we
# do need to detect CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT from the compiler by
# looking at which cudart library exists in the implicit link libraries passed
# to the host linker.
if(CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT MATCHES "link\\.exe [^\n]*cudart_static\\.lib")
set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT "STATIC")
elseif(CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT MATCHES "link\\.exe [^\n]*cudart\\.lib")
set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT "SHARED")
else()
set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT "NONE")
endif()
set(_SET_CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT
"set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT \"${CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT}\")")
elseif(CMAKE_CUDA_COMPILER_ID STREQUAL "Clang")
string(REGEX MATCHALL "-target-cpu sm_([0-9]+)" target_cpus "${CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT}")
foreach(cpu ${target_cpus})
string(REGEX MATCH "-target-cpu sm_([0-9]+)" dont_care "${cpu}")
list(APPEND architectures_detected "${CMAKE_MATCH_1}")
endforeach()
# Find target directory when crosscompiling.
if(CMAKE_CROSSCOMPILING)
if(CMAKE_SYSTEM_PROCESSOR STREQUAL "armv7-a")
# Support for NVPACK
set(_CUDA_TARGET_NAME "armv7-linux-androideabi")
elseif(CMAKE_SYSTEM_PROCESSOR MATCHES "arm")
set(_CUDA_TARGET_NAME "armv7-linux-gnueabihf")
elseif(CMAKE_SYSTEM_PROCESSOR MATCHES "aarch64")
if(ANDROID_ARCH_NAME STREQUAL "arm64")
set(_CUDA_TARGET_NAME "aarch64-linux-androideabi")
else()
set(_CUDA_TARGET_NAME "aarch64-linux")
endif()
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64")
set(_CUDA_TARGET_NAME "x86_64-linux")
endif()
if(EXISTS "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}/targets/${_CUDA_TARGET_NAME}")
set(_CUDA_TARGET_DIR "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}/targets/${_CUDA_TARGET_NAME}")
endif()
endif()
# If not already set we can simply use the toolkit root or it's a scattered installation.
if(NOT _CUDA_TARGET_DIR)
set(_CUDA_TARGET_DIR "${CMAKE_CUDA_COMPILER_TOOLKIT_ROOT}")
endif()
# We can't use find_library() yet at this point, so try a few guesses.
if(EXISTS "${_CUDA_TARGET_DIR}/lib64")
set(_CUDA_LIBRARY_DIR "${_CUDA_TARGET_DIR}/lib64")
elseif(EXISTS "${_CUDA_TARGET_DIR}/lib/x64")
set(_CUDA_LIBRARY_DIR "${_CUDA_TARGET_DIR}/lib/x64")
elseif(EXISTS "${_CUDA_TARGET_DIR}/lib")
set(_CUDA_LIBRARY_DIR "${_CUDA_TARGET_DIR}/lib")
else()
message(FATAL_ERROR "Unable to find _CUDA_LIBRARY_DIR based on _CUDA_TARGET_DIR=${_CUDA_TARGET_DIR}")
endif()
# _CUDA_TARGET_DIR always points to the directory containing the include directory.
# On a scattered installation /usr, on a non-scattered something like /usr/local/cuda or /usr/local/cuda-10.2/targets/aarch64-linux.
if(EXISTS "${_CUDA_TARGET_DIR}/include/cuda_runtime.h")
set(_CUDA_INCLUDE_DIR "${_CUDA_TARGET_DIR}/include")
else()
message(FATAL_ERROR "Unable to find cuda_runtime.h in \"${_CUDA_TARGET_DIR}/include\" for _CUDA_INCLUDE_DIR.")
endif()
# Clang does not add any CUDA SDK libraries or directories when invoking the host linker.
# Add the CUDA toolkit library directory ourselves so that linking works.
# The CUDA runtime libraries are handled elsewhere by CMAKE_CUDA_RUNTIME_LIBRARY.
set(CMAKE_CUDA_TOOLKIT_INCLUDE_DIRECTORIES "${_CUDA_INCLUDE_DIR}")
set(CMAKE_CUDA_HOST_IMPLICIT_LINK_DIRECTORIES "${_CUDA_LIBRARY_DIR}")
set(CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES "")
set(CMAKE_CUDA_HOST_IMPLICIT_LINK_FRAMEWORK_DIRECTORIES "")
elseif(CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA")
set(_nvcc_log "")
string(REPLACE "\r" "" _nvcc_output_orig "${CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT}")
if(_nvcc_output_orig MATCHES "#\\\$ +PATH= *([^\n]*)\n")
set(_nvcc_path "${CMAKE_MATCH_1}")
string(APPEND _nvcc_log " found 'PATH=' string: [${_nvcc_path}]\n")
string(REPLACE ":" ";" _nvcc_path "${_nvcc_path}")
else()
set(_nvcc_path "")
string(REPLACE "\n" "\n " _nvcc_output_log "\n${_nvcc_output_orig}")
string(APPEND _nvcc_log " no 'PATH=' string found in nvcc output:${_nvcc_output_log}\n")
endif()
if(_nvcc_output_orig MATCHES "#\\\$ +LIBRARIES= *([^\n]*)\n")
set(_nvcc_libraries "${CMAKE_MATCH_1}")
string(APPEND _nvcc_log " found 'LIBRARIES=' string: [${_nvcc_libraries}]\n")
else()
set(_nvcc_libraries "")
string(REPLACE "\n" "\n " _nvcc_output_log "\n${_nvcc_output_orig}")
string(APPEND _nvcc_log " no 'LIBRARIES=' string found in nvcc output:${_nvcc_output_log}\n")
endif()
set(_nvcc_link_line "")
if(_nvcc_libraries)
# Remove variable assignments.
string(REGEX REPLACE "#\\\$ *[^= ]+=[^\n]*\n" "" _nvcc_output "${_nvcc_output_orig}")
# Encode [] characters that break list expansion.
string(REPLACE "[" "{==={" _nvcc_output "${_nvcc_output}")
string(REPLACE "]" "}===}" _nvcc_output "${_nvcc_output}")
# Split lines.
string(REGEX REPLACE "\n+(#\\\$ )?" ";" _nvcc_output "${_nvcc_output}")
foreach(line IN LISTS _nvcc_output)
set(_nvcc_output_line "${line}")
string(REPLACE "{==={" "[" _nvcc_output_line "${_nvcc_output_line}")
string(REPLACE "}===}" "]" _nvcc_output_line "${_nvcc_output_line}")
string(APPEND _nvcc_log " considering line: [${_nvcc_output_line}]\n")
if("${_nvcc_output_line}" MATCHES "^ *nvlink")
string(APPEND _nvcc_log " ignoring nvlink line\n")
elseif(_nvcc_libraries)
if("${_nvcc_output_line}" MATCHES "(@\"?((tmp/)?a\\.exe\\.res)\"?)")
set(_nvcc_link_res_arg "${CMAKE_MATCH_1}")
set(_nvcc_link_res_file "${CMAKE_MATCH_2}")
set(_nvcc_link_res "${CMAKE_PLATFORM_INFO_DIR}/CompilerIdCUDA/${_nvcc_link_res_file}")
if(EXISTS "${_nvcc_link_res}")
file(READ "${_nvcc_link_res}" _nvcc_link_res_content)
string(REPLACE "${_nvcc_link_res_arg}" "${_nvcc_link_res_content}" _nvcc_output_line "${_nvcc_output_line}")
endif()
endif()
string(FIND "${_nvcc_output_line}" "${_nvcc_libraries}" _nvcc_libraries_pos)
if(NOT _nvcc_libraries_pos EQUAL -1)
set(_nvcc_link_line "${_nvcc_output_line}")
string(APPEND _nvcc_log " extracted link line: [${_nvcc_link_line}]\n")
endif()
endif()
endforeach()
endif()
if(_nvcc_link_line)
if("x${CMAKE_CUDA_SIMULATE_ID}" STREQUAL "xMSVC")
set(CMAKE_CUDA_HOST_LINK_LAUNCHER "${CMAKE_LINKER}")
else()
#extract the compiler that is being used for linking
separate_arguments(_nvcc_link_line_args UNIX_COMMAND "${_nvcc_link_line}")
list(GET _nvcc_link_line_args 0 _nvcc_host_link_launcher)
if(IS_ABSOLUTE "${_nvcc_host_link_launcher}")
string(APPEND _nvcc_log " extracted link launcher absolute path: [${_nvcc_host_link_launcher}]\n")
set(CMAKE_CUDA_HOST_LINK_LAUNCHER "${_nvcc_host_link_launcher}")
else()
string(APPEND _nvcc_log " extracted link launcher name: [${_nvcc_host_link_launcher}]\n")
find_program(_nvcc_find_host_link_launcher
NAMES ${_nvcc_host_link_launcher}
PATHS ${_nvcc_path} NO_DEFAULT_PATH)
find_program(_nvcc_find_host_link_launcher
NAMES ${_nvcc_host_link_launcher})
if(_nvcc_find_host_link_launcher)
string(APPEND _nvcc_log " found link launcher absolute path: [${_nvcc_find_host_link_launcher}]\n")
set(CMAKE_CUDA_HOST_LINK_LAUNCHER "${_nvcc_find_host_link_launcher}")
else()
string(APPEND _nvcc_log " could not find link launcher absolute path\n")
set(CMAKE_CUDA_HOST_LINK_LAUNCHER "${_nvcc_host_link_launcher}")
endif()
unset(_nvcc_find_host_link_launcher CACHE)
endif()
endif()
#prefix the line with cuda-fake-ld so that implicit link info believes it is
#a link line
set(_nvcc_link_line "cuda-fake-ld ${_nvcc_link_line}")
CMAKE_PARSE_IMPLICIT_LINK_INFO("${_nvcc_link_line}"
CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES
CMAKE_CUDA_HOST_IMPLICIT_LINK_DIRECTORIES
CMAKE_CUDA_HOST_IMPLICIT_LINK_FRAMEWORK_DIRECTORIES
log
"${CMAKE_CUDA_IMPLICIT_OBJECT_REGEX}"
LANGUAGE CUDA)
# Detect CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT from the compiler by looking at which
# cudart library exists in the implicit link libraries passed to the host linker.
# This is required when a project sets the cuda runtime library as part of the
# initial flags.
if(";${CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES};" MATCHES [[;cudart_static(\.lib)?;]])
set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT "STATIC")
elseif(";${CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES};" MATCHES [[;cudart(\.lib)?;]])
set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT "SHARED")
else()
set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT "NONE")
endif()
set(_SET_CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT
"set(CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT \"${CMAKE_CUDA_RUNTIME_LIBRARY_DEFAULT}\")")
message(CONFIGURE_LOG
"Parsed CUDA nvcc implicit link information:\n${_nvcc_log}\n${log}\n\n")
else()
message(CONFIGURE_LOG
"Failed to parse CUDA nvcc implicit link information:\n${_nvcc_log}\n\n")
message(FATAL_ERROR "Failed to extract nvcc implicit link line.")
endif()
endif()
# CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES is detected above as the list of
# libraries that the CUDA compiler implicitly passes to the host linker.
# CMake invokes the host linker directly and so needs to pass these libraries.
# We filter out those that should not be passed unconditionally both here
# and from CMAKE_CUDA_IMPLICIT_LINK_LIBRARIES in CMakeTestCUDACompiler.
set(CMAKE_CUDA_IMPLICIT_LINK_LIBRARIES_EXCLUDE
# The CUDA runtime libraries are controlled by CMAKE_CUDA_RUNTIME_LIBRARY.
cudart cudart.lib
cudart_static cudart_static.lib
cudadevrt cudadevrt.lib
# Dependencies of the CUDA static runtime library on Linux hosts.
rt
pthread
dl
)
list(REMOVE_ITEM CMAKE_CUDA_HOST_IMPLICIT_LINK_LIBRARIES ${CMAKE_CUDA_IMPLICIT_LINK_LIBRARIES_EXCLUDE})
if(CMAKE_CUDA_COMPILER_SYSROOT)
string(CONCAT _SET_CMAKE_CUDA_COMPILER_SYSROOT
"set(CMAKE_CUDA_COMPILER_SYSROOT \"${CMAKE_CUDA_COMPILER_SYSROOT}\")\n"
"set(CMAKE_COMPILER_SYSROOT \"${CMAKE_CUDA_COMPILER_SYSROOT}\")")
else()
set(_SET_CMAKE_CUDA_COMPILER_SYSROOT "")
endif()
# Determine CMAKE_CUDA_TOOLKIT_INCLUDE_DIRECTORIES
if(CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA")
set(CMAKE_CUDA_TOOLKIT_INCLUDE_DIRECTORIES)
string(REPLACE "\r" "" _nvcc_output_orig "${CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT}")
if(_nvcc_output_orig MATCHES "#\\\$ +INCLUDES= *([^\n]*)\n")
set(_nvcc_includes "${CMAKE_MATCH_1}")
string(APPEND _nvcc_log " found 'INCLUDES=' string: [${_nvcc_includes}]\n")
else()
set(_nvcc_includes "")
string(REPLACE "\n" "\n " _nvcc_output_log "\n${_nvcc_output_orig}")
string(APPEND _nvcc_log " no 'INCLUDES=' string found in nvcc output:${_nvcc_output_log}\n")
endif()
if(_nvcc_includes)
# across all operating system each include directory is prefixed with -I
separate_arguments(_nvcc_output NATIVE_COMMAND "${_nvcc_includes}")
foreach(line IN LISTS _nvcc_output)
string(REGEX REPLACE "^-I" "" line "${line}")
get_filename_component(line "${line}" ABSOLUTE)
list(APPEND CMAKE_CUDA_TOOLKIT_INCLUDE_DIRECTORIES "${line}")
endforeach()
message(CONFIGURE_LOG
"Parsed CUDA nvcc include information:\n${_nvcc_log}\n${log}\n\n")
else()
message(CONFIGURE_LOG
"Failed to detect CUDA nvcc include information:\n${_nvcc_log}\n\n")
endif()
string(REGEX MATCHALL "-arch compute_([0-9]+)" target_cpus "${CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT}")
foreach(cpu ${target_cpus})
string(REGEX MATCH "-arch compute_([0-9]+)" dont_care "${cpu}")
list(APPEND architectures_detected "${CMAKE_MATCH_1}")
endforeach()
endif()
# If the user didn't set the architectures, then set them to a default.
# If the user did, then make sure those architectures worked.
if("${CMAKE_CUDA_ARCHITECTURES}" STREQUAL "")
cmake_policy(GET CMP0104 _CUDA_CMP0104)
if(NOT CMAKE_CUDA_COMPILER_ID STREQUAL "NVIDIA" OR _CUDA_CMP0104 STREQUAL "NEW")
set(CMAKE_CUDA_ARCHITECTURES "${architectures_detected}" CACHE STRING "CUDA architectures")
if(NOT CMAKE_CUDA_ARCHITECTURES)
message(FATAL_ERROR "Failed to detect a default CUDA architecture.\n\nCompiler output:\n${CMAKE_CUDA_COMPILER_PRODUCED_OUTPUT}")
endif()
endif()
endif()
# configure all variables set in this file
configure_file(${CMAKE_ROOT}/Modules/CMakeCUDACompiler.cmake.in
${CMAKE_PLATFORM_INFO_DIR}/CMakeCUDACompiler.cmake
@ONLY
)
# Don't leak variables unnecessarily to user code.
unset(_CUDA_INCLUDE_DIR CACHE)
unset(_CUDA_NVCC_EXECUTABLE CACHE)
unset(_CUDA_LIBRARY_DIR)
unset(_CUDA_TARGET_DIR)
unset(_CUDA_TARGET_NAME)
unset(architectures_detected)
set(CMAKE_CUDA_COMPILER_ENV_VAR "CUDACXX")
set(CMAKE_CUDA_HOST_COMPILER_ENV_VAR "CUDAHOSTCXX")

234
cmake/share/cmake-3.27/Modules/CMakeDetermineHIPCompiler.cmake
View File

@ -1,234 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
include(${CMAKE_ROOT}/Modules/CMakeDetermineCompiler.cmake)
include(${CMAKE_ROOT}/Modules/CMakeParseImplicitLinkInfo.cmake)
include(${CMAKE_ROOT}/Modules/CMakeParseLibraryArchitecture.cmake)
if( NOT ( ("${CMAKE_GENERATOR}" MATCHES "Make") OR
("${CMAKE_GENERATOR}" MATCHES "Ninja") ) )
message(FATAL_ERROR "HIP language not currently supported by \"${CMAKE_GENERATOR}\" generator")
endif()
if(NOT CMAKE_HIP_COMPILER)
set(CMAKE_HIP_COMPILER_INIT NOTFOUND)
# prefer the environment variable HIPCXX
if(NOT $ENV{HIPCXX} STREQUAL "")
if("$ENV{HIPCXX}" MATCHES "hipcc")
message(FATAL_ERROR
"The HIPCXX environment variable is set to the hipcc wrapper:\n"
" $ENV{HIPCXX}\n"
"This is not supported. Use Clang directly, or let CMake pick a default."
)
endif()
get_filename_component(CMAKE_HIP_COMPILER_INIT $ENV{HIPCXX} PROGRAM PROGRAM_ARGS CMAKE_HIP_FLAGS_ENV_INIT)
if(CMAKE_HIP_FLAGS_ENV_INIT)
set(CMAKE_HIP_COMPILER_ARG1 "${CMAKE_HIP_FLAGS_ENV_INIT}" CACHE STRING "Arguments to CXX compiler")
endif()
if(NOT EXISTS ${CMAKE_HIP_COMPILER_INIT})
message(FATAL_ERROR "Could not find compiler set in environment variable HIPCXX:\n$ENV{HIPCXX}.\n${CMAKE_HIP_COMPILER_INIT}")
endif()
endif()
# finally list compilers to try
if(NOT CMAKE_HIP_COMPILER_INIT)
set(CMAKE_HIP_COMPILER_LIST clang++)
# Look for the Clang coming with ROCm to support HIP.
execute_process(COMMAND hipconfig --hipclangpath
OUTPUT_VARIABLE _CMAKE_HIPCONFIG_CLANGPATH
RESULT_VARIABLE _CMAKE_HIPCONFIG_RESULT
)
if(_CMAKE_HIPCONFIG_RESULT EQUAL 0 AND EXISTS "${_CMAKE_HIPCONFIG_CLANGPATH}")
set(CMAKE_HIP_COMPILER_HINTS "${_CMAKE_HIPCONFIG_CLANGPATH}")
endif()
endif()
_cmake_find_compiler(HIP)
elseif(CMAKE_HIP_COMPILER MATCHES "hipcc")
message(FATAL_ERROR
"CMAKE_HIP_COMPILER is set to the hipcc wrapper:\n"
" ${CMAKE_HIP_COMPILER}\n"
"This is not supported. Use Clang directly, or let CMake pick a default."
)
else()
_cmake_find_compiler_path(HIP)
endif()
mark_as_advanced(CMAKE_HIP_COMPILER)
# Build a small source file to identify the compiler.
if(NOT CMAKE_HIP_COMPILER_ID_RUN)
set(CMAKE_HIP_COMPILER_ID_RUN 1)
# Try to identify the compiler.
set(CMAKE_HIP_COMPILER_ID)
set(CMAKE_HIP_PLATFORM_ID)
file(READ ${CMAKE_ROOT}/Modules/CMakePlatformId.h.in
CMAKE_HIP_COMPILER_ID_PLATFORM_CONTENT)
list(APPEND CMAKE_HIP_COMPILER_ID_TEST_FLAGS_FIRST "-v")
include(${CMAKE_ROOT}/Modules/CMakeDetermineCompilerId.cmake)
CMAKE_DETERMINE_COMPILER_ID(HIP HIPFLAGS CMakeHIPCompilerId.hip)
_cmake_find_compiler_sysroot(HIP)
endif()
if(NOT CMAKE_HIP_COMPILER_ROCM_ROOT AND CMAKE_HIP_COMPILER_ID STREQUAL "Clang")
execute_process(COMMAND "${CMAKE_HIP_COMPILER}" -v -print-targets
OUTPUT_STRIP_TRAILING_WHITESPACE
RESULT_VARIABLE _CMAKE_HIP_COMPILER_RESULT
OUTPUT_VARIABLE _CMAKE_HIP_COMPILER_STDOUT
ERROR_VARIABLE _CMAKE_HIP_COMPILER_STDERR
)
if(_CMAKE_HIP_COMPILER_RESULT EQUAL 0 AND _CMAKE_HIP_COMPILER_STDERR MATCHES "Found HIP installation: *([^,]*)[,\n]")
set(CMAKE_HIP_COMPILER_ROCM_ROOT "${CMAKE_MATCH_1}")
file(TO_CMAKE_PATH "${CMAKE_HIP_COMPILER_ROCM_ROOT}" CMAKE_HIP_COMPILER_ROCM_ROOT)
endif()
endif()
if(NOT CMAKE_HIP_COMPILER_ROCM_ROOT)
execute_process(
COMMAND hipconfig --rocmpath
OUTPUT_VARIABLE _CMAKE_HIPCONFIG_ROCMPATH
RESULT_VARIABLE _CMAKE_HIPCONFIG_RESULT
)
if(_CMAKE_HIPCONFIG_RESULT EQUAL 0 AND EXISTS "${_CMAKE_HIPCONFIG_ROCMPATH}")
set(CMAKE_HIP_COMPILER_ROCM_ROOT "${_CMAKE_HIPCONFIG_ROCMPATH}")
endif()
endif()
if(NOT CMAKE_HIP_COMPILER_ROCM_ROOT)
message(FATAL_ERROR "Failed to find ROCm root directory.")
endif()
# Normally implicit link information is not detected until
cmake_parse_implicit_link_info("${CMAKE_HIP_COMPILER_PRODUCED_OUTPUT}"
_CMAKE_HIP_COMPILER_ID_IMPLICIT_LIBS
_CMAKE_HIP_COMPILER_ID_IMPLICIT_DIRS
_CMAKE_HIP_COMPILER_ID_IMPLICIT_FWKS
_CMAKE_HIP_COMPILER_ID_IMPLICIT_LOG
"" LANGUAGE HIP)
message(CONFIGURE_LOG
"Parsed HIP implicit link information from compiler id output:\n${_CMAKE_HIP_COMPILER_ID_IMPLICIT_LOG}\n\n")
cmake_parse_library_architecture(HIP "${_CMAKE_HIP_COMPILER_ID_IMPLICIT_DIRS}" "" CMAKE_HIP_LIBRARY_ARCHITECTURE)
if(CMAKE_HIP_LIBRARY_ARCHITECTURE)
message(CONFIGURE_LOG
"Parsed HIP library architecture from compiler id output: ${CMAKE_HIP_LIBRARY_ARCHITECTURE}\n")
endif()
unset(_CMAKE_HIP_COMPILER_ID_IMPLICIT_LIBS)
unset(_CMAKE_HIP_COMPILER_ID_IMPLICIT_DIRS)
unset(_CMAKE_HIP_COMPILER_ID_IMPLICIT_FWKS)
unset(_CMAKE_HIP_COMPILER_ID_IMPLICIT_LOG)
if(NOT CMAKE_HIP_COMPILER_ROCM_LIB)
set(_CMAKE_HIP_COMPILER_ROCM_LIB_DIRS
"${CMAKE_HIP_COMPILER_ROCM_ROOT}/lib"
"${CMAKE_HIP_COMPILER_ROCM_ROOT}/lib64"
)
if(CMAKE_HIP_LIBRARY_ARCHITECTURE)
list(APPEND _CMAKE_HIP_COMPILER_ROCM_LIB_DIRS "${CMAKE_HIP_COMPILER_ROCM_ROOT}/lib/${CMAKE_HIP_LIBRARY_ARCHITECTURE}")
endif()
foreach(dir IN LISTS _CMAKE_HIP_COMPILER_ROCM_LIB_DIRS)
if(EXISTS "${dir}/cmake/hip-lang/hip-lang-config.cmake")
set(CMAKE_HIP_COMPILER_ROCM_LIB "${dir}")
break()
endif()
endforeach()
if(NOT CMAKE_HIP_COMPILER_ROCM_LIB)
list(TRANSFORM _CMAKE_HIP_COMPILER_ROCM_LIB_DIRS APPEND "/cmake/hip-lang/hip-lang-config.cmake")
string(REPLACE ";" "\n " _CMAKE_HIP_COMPILER_ROCM_LIB_DIRS "${_CMAKE_HIP_COMPILER_ROCM_LIB_DIRS}")
message(FATAL_ERROR
"The ROCm root directory:\n"
" ${CMAKE_HIP_COMPILER_ROCM_ROOT}\n"
"does not contain the HIP runtime CMake package, expected at one of:\n"
" ${_CMAKE_HIP_COMPILER_ROCM_LIB_DIRS}\n"
)
endif()
unset(_CMAKE_HIP_COMPILER_ROCM_LIB_DIRS)
endif()
if(CMAKE_HIP_COMPILER_ROCM_LIB MATCHES "/lib64$" AND NOT DEFINED CMAKE_SIZEOF_VOID_P)
# We have not yet determined the target ABI but we need 'find_package' to
# search lib64 directories to find hip-lang CMake package dependencies.
# This will be replaced by ABI detection later.
set(CMAKE_HIP_SIZEOF_DATA_PTR 8)
endif()
if (NOT _CMAKE_TOOLCHAIN_LOCATION)
get_filename_component(_CMAKE_TOOLCHAIN_LOCATION "${CMAKE_HIP_COMPILER}" PATH)
endif ()
set(_CMAKE_PROCESSING_LANGUAGE "HIP")
include(CMakeFindBinUtils)
include(Compiler/${CMAKE_HIP_COMPILER_ID}-FindBinUtils OPTIONAL)
unset(_CMAKE_PROCESSING_LANGUAGE)
if(CMAKE_HIP_COMPILER_SYSROOT)
string(CONCAT _SET_CMAKE_HIP_COMPILER_SYSROOT
"set(CMAKE_HIP_COMPILER_SYSROOT \"${CMAKE_HIP_COMPILER_SYSROOT}\")\n"
"set(CMAKE_COMPILER_SYSROOT \"${CMAKE_HIP_COMPILER_SYSROOT}\")")
else()
set(_SET_CMAKE_HIP_COMPILER_SYSROOT "")
endif()
if(CMAKE_HIP_COMPILER_ARCHITECTURE_ID)
set(_SET_CMAKE_HIP_COMPILER_ARCHITECTURE_ID
"set(CMAKE_HIP_COMPILER_ARCHITECTURE_ID ${CMAKE_HIP_COMPILER_ARCHITECTURE_ID})")
else()
set(_SET_CMAKE_HIP_COMPILER_ARCHITECTURE_ID "")
endif()
if(MSVC_HIP_ARCHITECTURE_ID)
set(SET_MSVC_HIP_ARCHITECTURE_ID
"set(MSVC_HIP_ARCHITECTURE_ID ${MSVC_HIP_ARCHITECTURE_ID})")
endif()
if(NOT DEFINED CMAKE_HIP_ARCHITECTURES)
# Use 'rocm_agent_enumerator' to get the current GPU architecture.
set(_CMAKE_HIP_ARCHITECTURES)
find_program(_CMAKE_HIP_ROCM_AGENT_ENUMERATOR
NAMES rocm_agent_enumerator
HINTS "${CMAKE_HIP_COMPILER_ROCM_ROOT}/bin"
NO_CACHE)
if(_CMAKE_HIP_ROCM_AGENT_ENUMERATOR)
execute_process(COMMAND "${_CMAKE_HIP_ROCM_AGENT_ENUMERATOR}" -t GPU
RESULT_VARIABLE _CMAKE_ROCM_AGENT_ENUMERATOR_RESULT
OUTPUT_VARIABLE _CMAKE_ROCM_AGENT_ENUMERATOR_STDOUT
ERROR_VARIABLE _CMAKE_ROCM_AGENT_ENUMERATOR_STDERR
)
if(_CMAKE_ROCM_AGENT_ENUMERATOR_RESULT EQUAL 0)
separate_arguments(_hip_archs NATIVE_COMMAND "${_CMAKE_ROCM_AGENT_ENUMERATOR_STDOUT}")
foreach(_hip_arch ${_hip_archs})
if(_hip_arch STREQUAL "gfx000")
continue()
endif()
string(FIND ${_hip_arch} ":" pos)
if(NOT pos STREQUAL "-1")
string(SUBSTRING ${_hip_arch} 0 ${pos} _hip_arch)
endif()
list(APPEND _CMAKE_HIP_ARCHITECTURES "${_hip_arch}")
endforeach()
endif()
unset(_CMAKE_ROCM_AGENT_ENUMERATOR_RESULT)
unset(_CMAKE_ROCM_AGENT_ENUMERATOR_STDOUT)
unset(_CMAKE_ROCM_AGENT_ENUMERATOR_STDERR)
endif()
unset(_CMAKE_HIP_ROCM_AGENT_ENUMERATOR)
if(_CMAKE_HIP_ARCHITECTURES)
set(CMAKE_HIP_ARCHITECTURES "${_CMAKE_HIP_ARCHITECTURES}" CACHE STRING "HIP architectures")
elseif(CMAKE_HIP_COMPILER_PRODUCED_OUTPUT MATCHES " -target-cpu ([a-z0-9]+) ")
set(CMAKE_HIP_ARCHITECTURES "${CMAKE_MATCH_1}" CACHE STRING "HIP architectures")
else()
message(FATAL_ERROR "Failed to find a default HIP architecture.")
endif()
unset(_CMAKE_HIP_ARCHITECTURES)
endif()
# configure variables set in this file for fast reload later on
configure_file(${CMAKE_ROOT}/Modules/CMakeHIPCompiler.cmake.in
${CMAKE_PLATFORM_INFO_DIR}/CMakeHIPCompiler.cmake
@ONLY
)
set(CMAKE_HIP_COMPILER_ENV_VAR "HIPCXX")

16
cmake/share/cmake-3.27/Modules/CMakeHIPCompilerABI.hip
View File

@ -1,16 +0,0 @@
#ifndef __HIP__
# error "A C or C++ compiler has been selected for HIP"
#endif
#include "CMakeCompilerABI.h"
int main(int argc, char* argv[])
{
int require = 0;
require += info_sizeof_dptr[argc];
#if defined(ABI_ID)
require += info_abi[argc];
#endif
(void)argv;
return require;
}

346
cmake/share/cmake-3.27/Modules/CMakePackageConfigHelpers.cmake
View File

@ -1,346 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
#[=======================================================================[.rst:
CMakePackageConfigHelpers
-------------------------
Helpers functions for creating config files that can be included by other
projects to find and use a package.
Adds the :command:`configure_package_config_file()` and
:command:`write_basic_package_version_file()` commands.
Generating a Package Configuration File
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. command:: configure_package_config_file
Create a config file for a project::
configure_package_config_file(<input> <output>
INSTALL_DESTINATION <path>
[PATH_VARS <var1> <var2> ... <varN>]
[NO_SET_AND_CHECK_MACRO]
[NO_CHECK_REQUIRED_COMPONENTS_MACRO]
[INSTALL_PREFIX <path>]
)
``configure_package_config_file()`` should be used instead of the plain
:command:`configure_file()` command when creating the ``<PackageName>Config.cmake``
or ``<PackageName>-config.cmake`` file for installing a project or library.
It helps making the resulting package relocatable by avoiding hardcoded paths
in the installed ``Config.cmake`` file.
In a ``FooConfig.cmake`` file there may be code like this to make the install
destinations know to the using project:
.. code-block:: cmake
set(FOO_INCLUDE_DIR "@CMAKE_INSTALL_FULL_INCLUDEDIR@" )
set(FOO_DATA_DIR "@CMAKE_INSTALL_PREFIX@/@RELATIVE_DATA_INSTALL_DIR@" )
set(FOO_ICONS_DIR "@CMAKE_INSTALL_PREFIX@/share/icons" )
#...logic to determine installedPrefix from the own location...
set(FOO_CONFIG_DIR "${installedPrefix}/@CONFIG_INSTALL_DIR@" )
All 4 options shown above are not sufficient, since the first 3 hardcode the
absolute directory locations, and the 4th case works only if the logic to
determine the ``installedPrefix`` is correct, and if ``CONFIG_INSTALL_DIR``
contains a relative path, which in general cannot be guaranteed. This has the
effect that the resulting ``FooConfig.cmake`` file would work poorly under
Windows and OSX, where users are used to choose the install location of a
binary package at install time, independent from how
:variable:`CMAKE_INSTALL_PREFIX` was set at build/cmake time.
Using ``configure_package_config_file`` helps. If used correctly, it makes
the resulting ``FooConfig.cmake`` file relocatable. Usage:
1. write a ``FooConfig.cmake.in`` file as you are used to
2. insert a line containing only the string ``@PACKAGE_INIT@``
3. instead of ``set(FOO_DIR "@SOME_INSTALL_DIR@")``, use
``set(FOO_DIR "@PACKAGE_SOME_INSTALL_DIR@")`` (this must be after the
``@PACKAGE_INIT@`` line)
4. instead of using the normal :command:`configure_file()`, use
``configure_package_config_file()``
The ``<input>`` and ``<output>`` arguments are the input and output file, the
same way as in :command:`configure_file()`.
The ``<path>`` given to ``INSTALL_DESTINATION`` must be the destination where
the ``FooConfig.cmake`` file will be installed to. This path can either be
absolute, or relative to the ``INSTALL_PREFIX`` path.
The variables ``<var1>`` to ``<varN>`` given as ``PATH_VARS`` are the
variables which contain install destinations. For each of them the macro will
create a helper variable ``PACKAGE_<var...>``. These helper variables must be
used in the ``FooConfig.cmake.in`` file for setting the installed location.
They are calculated by ``configure_package_config_file`` so that they are
always relative to the installed location of the package. This works both for
relative and also for absolute locations. For absolute locations it works
only if the absolute location is a subdirectory of ``INSTALL_PREFIX``.
.. versionadded:: 3.1
If the ``INSTALL_PREFIX`` argument is passed, this is used as base path to
calculate all the relative paths. The ``<path>`` argument must be an absolute
path. If this argument is not passed, the :variable:`CMAKE_INSTALL_PREFIX`
variable will be used instead. The default value is good when generating a
FooConfig.cmake file to use your package from the install tree. When
generating a FooConfig.cmake file to use your package from the build tree this
option should be used.
By default ``configure_package_config_file`` also generates two helper macros,
``set_and_check()`` and ``check_required_components()`` into the
``FooConfig.cmake`` file.
``set_and_check()`` should be used instead of the normal ``set()`` command for
setting directories and file locations. Additionally to setting the variable
it also checks that the referenced file or directory actually exists and fails
with a ``FATAL_ERROR`` otherwise. This makes sure that the created
``FooConfig.cmake`` file does not contain wrong references.
When using the ``NO_SET_AND_CHECK_MACRO``, this macro is not generated
into the ``FooConfig.cmake`` file.
``check_required_components(<PackageName>)`` should be called at the end of
the ``FooConfig.cmake`` file. This macro checks whether all requested,
non-optional components have been found, and if this is not the case, sets
the ``Foo_FOUND`` variable to ``FALSE``, so that the package is considered to
be not found. It does that by testing the ``Foo_<Component>_FOUND``
variables for all requested required components. This macro should be
called even if the package doesn't provide any components to make sure
users are not specifying components erroneously. When using the
``NO_CHECK_REQUIRED_COMPONENTS_MACRO`` option, this macro is not generated
into the ``FooConfig.cmake`` file.
For an example see below the documentation for
:command:`write_basic_package_version_file()`.
Generating a Package Version File
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. command:: write_basic_package_version_file
Create a version file for a project::
write_basic_package_version_file(<filename>
[VERSION <major.minor.patch>]
COMPATIBILITY <AnyNewerVersion|SameMajorVersion|SameMinorVersion|ExactVersion>
[ARCH_INDEPENDENT] )
Writes a file for use as ``<PackageName>ConfigVersion.cmake`` file to
``<filename>``. See the documentation of :command:`find_package()` for
details on this.
``<filename>`` is the output filename, it should be in the build tree.
``<major.minor.patch>`` is the version number of the project to be installed.
If no ``VERSION`` is given, the :variable:`PROJECT_VERSION` variable is used.
If this hasn't been set, it errors out.
The ``COMPATIBILITY`` mode ``AnyNewerVersion`` means that the installed
package version will be considered compatible if it is newer or exactly the
same as the requested version. This mode should be used for packages which
are fully backward compatible, also across major versions.
If ``SameMajorVersion`` is used instead, then the behavior differs from
``AnyNewerVersion`` in that the major version number must be the same as
requested, e.g. version 2.0 will not be considered compatible if 1.0 is
requested. This mode should be used for packages which guarantee backward
compatibility within the same major version.
If ``SameMinorVersion`` is used, the behavior is the same as
``SameMajorVersion``, but both major and minor version must be the same as
requested, e.g version 0.2 will not be compatible if 0.1 is requested.
If ``ExactVersion`` is used, then the package is only considered compatible if
the requested version matches exactly its own version number (not considering
the tweak version). For example, version 1.2.3 of a package is only
considered compatible to requested version 1.2.3. This mode is for packages
without compatibility guarantees.
If your project has more elaborated version matching rules, you will need to
write your own custom ``ConfigVersion.cmake`` file instead of using this
macro.
.. versionadded:: 3.11
The ``SameMinorVersion`` compatibility mode.
.. versionadded:: 3.14
If ``ARCH_INDEPENDENT`` is given, the installed package version will be
considered compatible even if it was built for a different architecture than
the requested architecture. Otherwise, an architecture check will be performed,
and the package will be considered compatible only if the architecture matches
exactly. For example, if the package is built for a 32-bit architecture, the
package is only considered compatible if it is used on a 32-bit architecture,
unless ``ARCH_INDEPENDENT`` is given, in which case the package is considered
compatible on any architecture.
.. note:: ``ARCH_INDEPENDENT`` is intended for header-only libraries or similar
packages with no binaries.
.. versionadded:: 3.19
The version file generated by ``AnyNewerVersion``, ``SameMajorVersion`` and
``SameMinorVersion`` arguments of ``COMPATIBILITY`` handle the version range
if any is specified (see :command:`find_package` command for the details).
``ExactVersion`` mode is incompatible with version ranges and will display an
author warning if one is specified.
Internally, this macro executes :command:`configure_file()` to create the
resulting version file. Depending on the ``COMPATIBILITY``, the corresponding
``BasicConfigVersion-<COMPATIBILITY>.cmake.in`` file is used.
Please note that these files are internal to CMake and you should not call
:command:`configure_file()` on them yourself, but they can be used as starting
point to create more sophisticated custom ``ConfigVersion.cmake`` files.
Example Generating Package Files
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Example using both :command:`configure_package_config_file` and
``write_basic_package_version_file()``:
``CMakeLists.txt``:
.. code-block:: cmake
include(GNUInstallDirs)
set(INCLUDE_INSTALL_DIR ${CMAKE_INSTALL_INCLUDEDIR}/Foo
CACHE PATH "Location of header files" )
set(SYSCONFIG_INSTALL_DIR ${CMAKE_INSTALL_SYSCONFDIR}/foo
CACHE PATH "Location of configuration files" )
#...
include(CMakePackageConfigHelpers)
configure_package_config_file(FooConfig.cmake.in
${CMAKE_CURRENT_BINARY_DIR}/FooConfig.cmake
INSTALL_DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/Foo
PATH_VARS INCLUDE_INSTALL_DIR SYSCONFIG_INSTALL_DIR)
write_basic_package_version_file(
${CMAKE_CURRENT_BINARY_DIR}/FooConfigVersion.cmake
VERSION 1.2.3
COMPATIBILITY SameMajorVersion )
install(FILES ${CMAKE_CURRENT_BINARY_DIR}/FooConfig.cmake
${CMAKE_CURRENT_BINARY_DIR}/FooConfigVersion.cmake
DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/Foo )
``FooConfig.cmake.in``:
::
set(FOO_VERSION x.y.z)
...
@PACKAGE_INIT@
...
set_and_check(FOO_INCLUDE_DIR "@PACKAGE_INCLUDE_INSTALL_DIR@")
set_and_check(FOO_SYSCONFIG_DIR "@PACKAGE_SYSCONFIG_INSTALL_DIR@")
check_required_components(Foo)
#]=======================================================================]
include(WriteBasicConfigVersionFile)
macro(WRITE_BASIC_PACKAGE_VERSION_FILE)
write_basic_config_version_file(${ARGN})
endmacro()
function(CONFIGURE_PACKAGE_CONFIG_FILE _inputFile _outputFile)
set(options NO_SET_AND_CHECK_MACRO NO_CHECK_REQUIRED_COMPONENTS_MACRO)
set(oneValueArgs INSTALL_DESTINATION INSTALL_PREFIX)
set(multiValueArgs PATH_VARS )
cmake_parse_arguments(CCF "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
if(CCF_UNPARSED_ARGUMENTS)
message(FATAL_ERROR "Unknown keywords given to CONFIGURE_PACKAGE_CONFIG_FILE(): \"${CCF_UNPARSED_ARGUMENTS}\"")
endif()
if(NOT CCF_INSTALL_DESTINATION)
message(FATAL_ERROR "No INSTALL_DESTINATION given to CONFIGURE_PACKAGE_CONFIG_FILE()")
endif()
if(DEFINED CCF_INSTALL_PREFIX)
if(IS_ABSOLUTE "${CCF_INSTALL_PREFIX}")
set(installPrefix "${CCF_INSTALL_PREFIX}")
else()
message(FATAL_ERROR "INSTALL_PREFIX must be an absolute path")
endif()
elseif(IS_ABSOLUTE "${CMAKE_INSTALL_PREFIX}")
set(installPrefix "${CMAKE_INSTALL_PREFIX}")
else()
get_filename_component(installPrefix "${CMAKE_INSTALL_PREFIX}" ABSOLUTE)
endif()
if(IS_ABSOLUTE "${CCF_INSTALL_DESTINATION}")
set(absInstallDir "${CCF_INSTALL_DESTINATION}")
else()
set(absInstallDir "${installPrefix}/${CCF_INSTALL_DESTINATION}")
endif()
file(RELATIVE_PATH PACKAGE_RELATIVE_PATH "${absInstallDir}" "${installPrefix}" )
foreach(var ${CCF_PATH_VARS})
if(NOT DEFINED ${var})
message(FATAL_ERROR "Variable ${var} does not exist")
else()
if(IS_ABSOLUTE "${${var}}")
string(REPLACE "${installPrefix}" "\${PACKAGE_PREFIX_DIR}"
PACKAGE_${var} "${${var}}")
else()
set(PACKAGE_${var} "\${PACKAGE_PREFIX_DIR}/${${var}}")
endif()
endif()
endforeach()
get_filename_component(inputFileName "${_inputFile}" NAME)
set(PACKAGE_INIT "
####### Expanded from @PACKAGE_INIT@ by configure_package_config_file() #######
####### Any changes to this file will be overwritten by the next CMake run ####
####### The input file was ${inputFileName} ########
get_filename_component(PACKAGE_PREFIX_DIR \"\${CMAKE_CURRENT_LIST_DIR}/${PACKAGE_RELATIVE_PATH}\" ABSOLUTE)
")
if("${absInstallDir}" MATCHES "^(/usr)?/lib(64)?/.+")
# Handle "/usr move" symlinks created by some Linux distros.
string(APPEND PACKAGE_INIT "
# Use original install prefix when loaded through a \"/usr move\"
# cross-prefix symbolic link such as /lib -> /usr/lib.
get_filename_component(_realCurr \"\${CMAKE_CURRENT_LIST_DIR}\" REALPATH)
get_filename_component(_realOrig \"${absInstallDir}\" REALPATH)
if(_realCurr STREQUAL _realOrig)
set(PACKAGE_PREFIX_DIR \"${installPrefix}\")
endif()
unset(_realOrig)
unset(_realCurr)
")
endif()
if(NOT CCF_NO_SET_AND_CHECK_MACRO)
string(APPEND PACKAGE_INIT "
macro(set_and_check _var _file)
set(\${_var} \"\${_file}\")
if(NOT EXISTS \"\${_file}\")
message(FATAL_ERROR \"File or directory \${_file} referenced by variable \${_var} does not exist !\")
endif()
endmacro()
")
endif()
if(NOT CCF_NO_CHECK_REQUIRED_COMPONENTS_MACRO)
string(APPEND PACKAGE_INIT "
macro(check_required_components _NAME)
foreach(comp \${\${_NAME}_FIND_COMPONENTS})
if(NOT \${_NAME}_\${comp}_FOUND)
if(\${_NAME}_FIND_REQUIRED_\${comp})
set(\${_NAME}_FOUND FALSE)
endif()
endif()
endforeach()
endmacro()
")
endif()
string(APPEND PACKAGE_INIT "
####################################################################################")
configure_file("${_inputFile}" "${_outputFile}" @ONLY)
endfunction()

137
cmake/share/cmake-3.27/Modules/CMakeSwiftInformation.cmake
View File

@ -1,137 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
if(UNIX)
set(CMAKE_Swift_OUTPUT_EXTENSION .o)
else()
set(CMAKE_Swift_OUTPUT_EXTENSION .obj)
endif()
# Load compiler-specific information.
if(CMAKE_Swift_COMPILER_ID)
include(Compiler/${CMAKE_Swift_COMPILER_ID}-Swift OPTIONAL)
if(CMAKE_SYSTEM_PROCESSOR)
include(Platform/${CMAKE_EFFECTIVE_SYSTEM_NAME}-${CMAKE_Swift_COMPILER_ID}-Swift-${CMAKE_SYSTEM_PROCESSOR} OPTIONAL)
endif()
include(Platform/${CMAKE_EFFECTIVE_SYSTEM_NAME}-${CMAKE_Swift_COMPILER_ID}-Swift OPTIONAL)
endif()
set(CMAKE_INCLUDE_FLAG_Swift "-I ")
# FIXME: Move compiler- and platform-specific flags to the above-included modules.
if(CMAKE_SYSTEM_NAME STREQUAL "Darwin" OR CMAKE_SYSTEM_NAME STREQUAL "iOS"
OR CMAKE_SYSTEM_NAME STREQUAL "tvOS" OR CMAKE_SYSTEM_NAME STREQUAL "watchOS")
set(CMAKE_SHARED_LIBRARY_SONAME_Swift_FLAG "-Xlinker -install_name -Xlinker ")
elseif(NOT CMAKE_SYSTEM_NAME STREQUAL Windows)
set(CMAKE_SHARED_LIBRARY_SONAME_Swift_FLAG "-Xlinker -soname -Xlinker ")
endif()
if(NOT CMAKE_SYSTEM_NAME STREQUAL Windows)
set(CMAKE_EXECUTABLE_RUNTIME_Swift_FLAG "-Xlinker -rpath -Xlinker ")
set(CMAKE_SHARED_LIBRARY_RUNTIME_Swift_FLAG "-Xlinker -rpath -Xlinker ")
if(CMAKE_SYSTEM_NAME STREQUAL "Darwin" OR CMAKE_SYSTEM_NAME STREQUAL "iOS"
OR CMAKE_SYSTEM_NAME STREQUAL "tvOS" OR CMAKE_SYSTEM_NAME STREQUAL "watchOS")
set(CMAKE_EXECUTABLE_RUNTIME_Swift_FLAG_SEP "")
set(CMAKE_SHARED_LIBRARY_RUNTIME_Swift_FLAG_SEP "")
else()
set(CMAKE_EXECUTABLE_RUNTIME_Swift_FLAG_SEP ":")
set(CMAKE_SHARED_LIBRARY_RUNTIME_Swift_FLAG_SEP ":")
endif()
endif()
set(CMAKE_Swift_COMPILE_OPTIONS_TARGET "-target ")
set(CMAKE_Swift_COMPILE_OPTIONS_EXTERNAL_TOOLCHAIN "-tools-directory ")
# NOTE(compnerd) the `-sdk` support is not yet ready in the compiler; when that
# is fully working, we should be able to enable this.
# set(CMAKE_Swift_COMPILE_OPTIONS_SYSROOT "-sdk ")
# NOTE(compnerd) do not setup `-frontend` as we use the compiler as the driver
# during the link phase and use that to drive the compilation
set(CMAKE_Swift_COMPILER_ARG1 "")
set(CMAKE_Swift_DEFINE_FLAG -D)
set(CMAKE_Swift_FRAMEWORK_SEARCH_FLAG "-F ")
set(CMAKE_Swift_LIBRARY_PATH_FLAG "-L ")
set(CMAKE_Swift_LIBRARY_PATH_TERMINATOR "")
set(CMAKE_Swift_LINK_LIBRARY_FLAG "-l")
set(CMAKE_Swift_LINKER_WRAPPER_FLAG "-Xlinker" " ")
set(CMAKE_Swift_RESPONSE_FILE_LINK_FLAG @)
set(CMAKE_Swift_LINKER_PREFERENCE 50)
set(CMAKE_Swift_LINKER_PREFERENCE_PROPAGATES 1)
# NOTE(compnerd) use the short form for convenience and ease of search. They
# are treated equivalent to their long form names as well as custom Swift
# specific names.
set(CMAKE_Swift_COMPILE_OPTIONS_MSVC_RUNTIME_LIBRARY_MultiThreaded -libc MT)
set(CMAKE_Swift_COMPILE_OPTIONS_MSVC_RUNTIME_LIBRARY_MultiThreadedDLL -libc MD)
set(CMAKE_Swift_COMPILE_OPTIONS_MSVC_RUNTIME_LIBRARY_MultiThreadedDebug -libc MTd)
set(CMAKE_Swift_COMPILE_OPTIONS_MSVC_RUNTIME_LIBRARY_MultiThreadedDebugDLL -libc MDd)
if(CMAKE_GENERATOR STREQUAL "Xcode")
# Xcode has a separate Xcode project option (SWIFT_COMPILATION_MODE) used to set
# whether compiling with whole-module optimizations or incrementally. Setting
# these options here will have no effect when compiling with the built-in driver,
# and will explode violently, leaving build products in the source directory, when
# using the old swift driver.
set(CMAKE_Swift_FLAGS_DEBUG_INIT "-Onone -g ${CMAKE_Swift_FLAGS_DEBUG_LINKER_FLAGS}")
set(CMAKE_Swift_FLAGS_RELEASE_INIT "-O")
set(CMAKE_Swift_FLAGS_RELWITHDEBINFO_INIT "-O -g ${CMAKE_Swift_FLAGS_RELWITHDEBINFO_LINKER_FLAGS}")
set(CMAKE_Swift_FLAGS_MINSIZEREL_INIT "-Osize")
else()
set(CMAKE_Swift_FLAGS_DEBUG_INIT "-Onone -g -incremental")
set(CMAKE_Swift_FLAGS_RELEASE_INIT "-O")
set(CMAKE_Swift_FLAGS_RELWITHDEBINFO_INIT "-O -g")
set(CMAKE_Swift_FLAGS_MINSIZEREL_INIT "-Osize")
# Enable Whole Module Optimization by default unless the old
# C++ driver is being used, which behaves differently under WMO.
if(NOT CMAKE_Swift_COMPILER_USE_OLD_DRIVER)
string(APPEND CMAKE_Swift_FLAGS_RELEASE_INIT " -wmo")
string(APPEND CMAKE_Swift_FLAGS_RELWITHDEBINFO_INIT " -wmo")
string(APPEND CMAKE_Swift_FLAGS_MINSIZEREL_INIT " -wmo")
endif()
endif()
if(CMAKE_EXECUTABLE_FORMAT STREQUAL "ELF")
if(NOT DEFINED CMAKE_Swift_LINK_WHAT_YOU_USE_FLAG)
set(CMAKE_Swift_LINK_WHAT_YOU_USE_FLAG "LINKER:--no-as-needed")
endif()
if(NOT DEFINED CMAKE_LINK_WHAT_YOU_USE_CHECK)
set(CMAKE_LINK_WHAT_YOU_USE_CHECK ldd -u -r)
endif()
endif()
cmake_initialize_per_config_variable(CMAKE_Swift_FLAGS "Swift Compiler Flags")
# NOTE(compnerd) we do not have an object compile rule since we build the objects as part of the link step
if(NOT CMAKE_Swift_COMPILE_OBJECT)
set(CMAKE_Swift_COMPILE_OBJECT ":")
endif()
if(NOT CMAKE_Swift_NUM_THREADS MATCHES "^[0-9]+$")
cmake_host_system_information(RESULT CMAKE_Swift_NUM_THREADS QUERY NUMBER_OF_LOGICAL_CORES)
endif()
if(NOT CMAKE_Swift_CREATE_SHARED_LIBRARY)
set(CMAKE_Swift_CREATE_SHARED_LIBRARY "<CMAKE_Swift_COMPILER> -j ${CMAKE_Swift_NUM_THREADS} -num-threads ${CMAKE_Swift_NUM_THREADS} -emit-library -o <TARGET> -module-name <SWIFT_MODULE_NAME> -module-link-name <SWIFT_LIBRARY_NAME> -emit-module -emit-module-path <SWIFT_MODULE> -emit-dependencies <DEFINES> <FLAGS> <INCLUDES> <SWIFT_SOURCES> <LINK_FLAGS> <SONAME_FLAG> <TARGET_INSTALLNAME_DIR><TARGET_SONAME> ${CMAKE_Swift_IMPLIB_LINKER_FLAGS} <LINK_LIBRARIES>")
endif()
if(NOT CMAKE_Swift_CREATE_SHARED_MODULE)
set(CMAKE_Swift_CREATE_SHARED_MODULE ${CMAKE_Swift_CREATE_SHARED_LIBRARY})
endif()
if(NOT CMAKE_Swift_LINK_EXECUTABLE)
set(CMAKE_Swift_LINK_EXECUTABLE "<CMAKE_Swift_COMPILER> -j ${CMAKE_Swift_NUM_THREADS} -num-threads ${CMAKE_Swift_NUM_THREADS} -emit-executable -o <TARGET> -emit-dependencies <DEFINES> <FLAGS> <INCLUDES> <SWIFT_SOURCES> <LINK_FLAGS> <LINK_LIBRARIES>")
endif()
if(NOT CMAKE_Swift_LINK_EXECUTABLE_WITH_EXPORTS)
set(CMAKE_Swift_LINK_EXECUTABLE_WITH_EXPORTS "${CMAKE_Swift_LINK_EXECUTABLE} -emit-module -emit-module-path <SWIFT_MODULE> ${CMAKE_Swift_IMPLIB_LINKER_FLAGS}")
endif()
if(NOT CMAKE_Swift_CREATE_STATIC_LIBRARY)
set(CMAKE_Swift_CREATE_STATIC_LIBRARY "<CMAKE_Swift_COMPILER> -j ${CMAKE_Swift_NUM_THREADS} -num-threads ${CMAKE_Swift_NUM_THREADS} -emit-library -static -o <TARGET> -module-name <SWIFT_MODULE_NAME> -module-link-name <SWIFT_LIBRARY_NAME> -emit-module -emit-module-path <SWIFT_MODULE> -emit-dependencies <DEFINES> <FLAGS> <INCLUDES> <SWIFT_SOURCES> <LINK_FLAGS> <LINK_LIBRARIES>")
set(CMAKE_Swift_ARCHIVE_CREATE "<CMAKE_AR> crs <TARGET> <OBJECTS>")
set(CMAKE_Swift_ARCHIVE_FINISH "")
endif()
set(CMAKE_Swift_INFORMATION_LOADED 1)

69
cmake/share/cmake-3.27/Modules/CUDA/architectures.cmake
View File

@ -1,69 +0,0 @@
# See supported GPUs on Wikipedia
# https://en.wikipedia.org/wiki/CUDA#GPUs_supported
# Initial set based on CUDA 7.0.
set(CMAKE_CUDA_ARCHITECTURES_ALL 20 21 30 35 37 50 52 53)
set(CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 20 30 35 50)
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 8.0)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 60 61 62)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 60)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 9.0)
if(NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang" OR CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 6.0)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 70 72)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 70)
endif()
list(REMOVE_ITEM CMAKE_CUDA_ARCHITECTURES_ALL 20 21)
list(REMOVE_ITEM CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 20)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 10.0
AND (NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang" OR CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 8.0))
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 75)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 11.0)
if(NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang" OR CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 11.0)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 80)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 80)
endif()
list(REMOVE_ITEM CMAKE_CUDA_ARCHITECTURES_ALL 30)
list(REMOVE_ITEM CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 30)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 11.1
AND (NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang" OR CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 13.0))
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 86)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 11.4
AND (NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang"))
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 87)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 11.8
AND (NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang"))
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL 89 90)
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 90)
endif()
if(CMAKE_CUDA_COMPILER_TOOLKIT_VERSION VERSION_GREATER_EQUAL 12.0
AND (NOT CMAKE_CUDA_COMPILER_ID STREQUAL "Clang"))
list(REMOVE_ITEM CMAKE_CUDA_ARCHITECTURES_ALL 35 37)
list(REMOVE_ITEM CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR 35)
endif()
# only generate jit code for the newest arch for all/all-major
list(POP_BACK CMAKE_CUDA_ARCHITECTURES_ALL _latest_arch)
list(TRANSFORM CMAKE_CUDA_ARCHITECTURES_ALL APPEND "-real")
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL ${_latest_arch})
list(POP_BACK CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR _latest_arch)
list(TRANSFORM CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR APPEND "-real")
list(APPEND CMAKE_CUDA_ARCHITECTURES_ALL_MAJOR ${_latest_arch})
unset(_latest_arch)

6
cmake/share/cmake-3.27/Modules/CheckIPOSupported/main.c
View File

@ -1,6 +0,0 @@
int foo();
int main()
{
return foo();
}

8
cmake/share/cmake-3.27/Modules/CheckLibraryExists.lists.in
View File

@ -1,8 +0,0 @@
PROJECT(CHECK_LIBRARY_EXISTS)
ADD_DEFINITIONS(-DCHECK_FUNCTION_EXISTS=${CHECK_LIBRARY_EXISTS_FUNCTION})
LINK_DIRECTORIES(${CHECK_LIBRARY_EXISTS_LOCATION})
ADD_EXECUTABLE(CheckLibraryExists ${CHECK_LIBRARY_EXISTS_SOURCE})
TARGET_LINK_LIBRARIES(CheckLibraryExists ${CHECK_LIBRARY_EXISTS_LIBRARY})

7
cmake/share/cmake-3.27/Modules/Compiler/Comeau-CXX-DetermineCompiler.cmake
View File

@ -1,7 +0,0 @@
set(_compiler_id_pp_test "defined(__COMO__)")
set(_compiler_id_version_compute "
/* __COMO_VERSION__ = VRR */
# define @PREFIX@COMPILER_VERSION_MAJOR @MACRO_DEC@(__COMO_VERSION__ / 100)
# define @PREFIX@COMPILER_VERSION_MINOR @MACRO_DEC@(__COMO_VERSION__ % 100)")

49
cmake/share/cmake-3.27/Modules/Compiler/GNU-C.cmake
View File

@ -1,49 +0,0 @@
include(Compiler/GNU)
__compiler_gnu(C)
if((NOT DEFINED CMAKE_DEPENDS_USE_COMPILER OR CMAKE_DEPENDS_USE_COMPILER)
AND CMAKE_GENERATOR MATCHES "Makefiles|WMake"
AND CMAKE_DEPFILE_FLAGS_C)
# dependencies are computed by the compiler itself
set(CMAKE_C_DEPFILE_FORMAT gcc)
set(CMAKE_C_DEPENDS_USE_COMPILER TRUE)
endif()
set(CMAKE_C_COMPILE_OPTIONS_EXPLICIT_LANGUAGE -x c)
if (NOT CMAKE_C_COMPILER_VERSION VERSION_LESS 4.5)
set(CMAKE_C90_STANDARD_COMPILE_OPTION "-std=c90")
set(CMAKE_C90_EXTENSION_COMPILE_OPTION "-std=gnu90")
elseif (NOT CMAKE_C_COMPILER_VERSION VERSION_LESS 3.4)
set(CMAKE_C90_STANDARD_COMPILE_OPTION "-std=c89")
set(CMAKE_C90_EXTENSION_COMPILE_OPTION "-std=gnu89")
endif()
if (NOT CMAKE_C_COMPILER_VERSION VERSION_LESS 3.4)
set(CMAKE_C90_STANDARD__HAS_FULL_SUPPORT ON)
set(CMAKE_C99_STANDARD_COMPILE_OPTION "-std=c99")
set(CMAKE_C99_EXTENSION_COMPILE_OPTION "-std=gnu99")
set(CMAKE_C99_STANDARD__HAS_FULL_SUPPORT ON)
endif()
if (NOT CMAKE_C_COMPILER_VERSION VERSION_LESS 4.7)
set(CMAKE_C11_STANDARD_COMPILE_OPTION "-std=c11")
set(CMAKE_C11_EXTENSION_COMPILE_OPTION "-std=gnu11")
set(CMAKE_C11_STANDARD__HAS_FULL_SUPPORT ON)
elseif (NOT CMAKE_C_COMPILER_VERSION VERSION_LESS 4.6)
set(CMAKE_C11_STANDARD_COMPILE_OPTION "-std=c1x")
set(CMAKE_C11_EXTENSION_COMPILE_OPTION "-std=gnu1x")
endif()
if(CMAKE_C_COMPILER_VERSION VERSION_GREATER_EQUAL 8.1)
set(CMAKE_C17_STANDARD_COMPILE_OPTION "-std=c17")
set(CMAKE_C17_EXTENSION_COMPILE_OPTION "-std=gnu17")
endif()
if(CMAKE_C_COMPILER_VERSION VERSION_GREATER_EQUAL 9.1)
set(CMAKE_C23_STANDARD_COMPILE_OPTION "-std=c2x")
set(CMAKE_C23_EXTENSION_COMPILE_OPTION "-std=gnu2x")
endif()
__compiler_check_default_language_standard(C 3.4 90 5.0 11 8.1 17)

74
cmake/share/cmake-3.27/Modules/Compiler/GNU-CXX.cmake
View File

@ -1,74 +0,0 @@
include(Compiler/GNU)
__compiler_gnu(CXX)
if((NOT DEFINED CMAKE_DEPENDS_USE_COMPILER OR CMAKE_DEPENDS_USE_COMPILER)
AND CMAKE_GENERATOR MATCHES "Makefiles|WMake"
AND CMAKE_DEPFILE_FLAGS_CXX)
# dependencies are computed by the compiler itself
set(CMAKE_CXX_DEPFILE_FORMAT gcc)
set(CMAKE_CXX_DEPENDS_USE_COMPILER TRUE)
endif()
set(CMAKE_CXX_COMPILE_OPTIONS_EXPLICIT_LANGUAGE -x c++)
if (WIN32)
if(NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.6)
set(CMAKE_CXX_COMPILE_OPTIONS_VISIBILITY_INLINES_HIDDEN "-fno-keep-inline-dllexport")
endif()
else()
if(NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.0)
set(CMAKE_CXX_COMPILE_OPTIONS_VISIBILITY_INLINES_HIDDEN "-fvisibility-inlines-hidden")
endif()
endif()
if(NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 3.4)
set(CMAKE_CXX98_STANDARD_COMPILE_OPTION "-std=c++98")
set(CMAKE_CXX98_EXTENSION_COMPILE_OPTION "-std=gnu++98")
endif()
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.7)
set(CMAKE_CXX98_STANDARD__HAS_FULL_SUPPORT ON)
set(CMAKE_CXX11_STANDARD_COMPILE_OPTION "-std=c++11")
set(CMAKE_CXX11_EXTENSION_COMPILE_OPTION "-std=gnu++11")
elseif (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.4)
# 4.3 supports 0x variants
set(CMAKE_CXX11_STANDARD_COMPILE_OPTION "-std=c++0x")
set(CMAKE_CXX11_EXTENSION_COMPILE_OPTION "-std=gnu++0x")
endif()
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.8.1)
set(CMAKE_CXX11_STANDARD__HAS_FULL_SUPPORT ON)
endif()
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.9)
set(CMAKE_CXX14_STANDARD_COMPILE_OPTION "-std=c++14")
set(CMAKE_CXX14_EXTENSION_COMPILE_OPTION "-std=gnu++14")
elseif (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 4.8)
set(CMAKE_CXX14_STANDARD_COMPILE_OPTION "-std=c++1y")
set(CMAKE_CXX14_EXTENSION_COMPILE_OPTION "-std=gnu++1y")
endif()
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 5.0)
set(CMAKE_CXX14_STANDARD__HAS_FULL_SUPPORT ON)
endif()
if (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 8.0)
set(CMAKE_CXX17_STANDARD_COMPILE_OPTION "-std=c++17")
set(CMAKE_CXX17_EXTENSION_COMPILE_OPTION "-std=gnu++17")
elseif (NOT CMAKE_CXX_COMPILER_VERSION VERSION_LESS 5.1)
set(CMAKE_CXX17_STANDARD_COMPILE_OPTION "-std=c++1z")
set(CMAKE_CXX17_EXTENSION_COMPILE_OPTION "-std=gnu++1z")
endif()
if(CMAKE_CXX_COMPILER_VERSION VERSION_GREATER_EQUAL 11.1)
set(CMAKE_CXX20_STANDARD_COMPILE_OPTION "-std=c++20")
set(CMAKE_CXX20_EXTENSION_COMPILE_OPTION "-std=gnu++20")
set(CMAKE_CXX23_STANDARD_COMPILE_OPTION "-std=c++23")
set(CMAKE_CXX23_EXTENSION_COMPILE_OPTION "-std=gnu++23")
elseif(CMAKE_CXX_COMPILER_VERSION VERSION_GREATER_EQUAL 8.0)
set(CMAKE_CXX20_STANDARD_COMPILE_OPTION "-std=c++2a")
set(CMAKE_CXX20_EXTENSION_COMPILE_OPTION "-std=gnu++2a")
endif()
__compiler_check_default_language_standard(CXX 3.4 98 6.0 14 11.1 17)

175
cmake/share/cmake-3.27/Modules/Compiler/NVIDIA-CUDA.cmake
View File

@ -1,175 +0,0 @@
include(Compiler/CMakeCommonCompilerMacros)
set(CMAKE_CUDA_COMPILER_HAS_DEVICE_LINK_PHASE True)
set(CMAKE_CUDA_VERBOSE_FLAG "-v")
set(CMAKE_CUDA_VERBOSE_COMPILE_FLAG "-Xcompiler=-v")
set(_CMAKE_COMPILE_AS_CUDA_FLAG "-x cu")
set(_CMAKE_CUDA_WHOLE_FLAG "-c")
set(_CMAKE_CUDA_RDC_FLAG "-rdc=true")
set(_CMAKE_CUDA_PTX_FLAG "-ptx")
set(_CMAKE_CUDA_CUBIN_FLAG "-cubin")
set(_CMAKE_CUDA_FATBIN_FLAG "-fatbin")
if(CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL "11.7.0")
set(_CMAKE_CUDA_OPTIX_FLAG "-optix-ir")
endif()
if (CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 10.2.89)
# The -forward-unknown-to-host-compiler flag was only
# added to nvcc in 10.2 so before that we had no good
# way to invoke the CUDA compiler and propagate unknown
# flags such as -pthread to the host compiler
set(_CMAKE_CUDA_EXTRA_FLAGS "-forward-unknown-to-host-compiler")
else()
set(_CMAKE_CUDA_EXTRA_FLAGS "")
endif()
if(CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL "8.0.0")
set(_CMAKE_CUDA_EXTRA_DEVICE_LINK_FLAGS "-Wno-deprecated-gpu-targets")
else()
set(_CMAKE_CUDA_EXTRA_DEVICE_LINK_FLAGS "")
endif()
if(CMAKE_CUDA_HOST_COMPILER AND NOT CMAKE_GENERATOR MATCHES "Visual Studio")
string(APPEND _CMAKE_CUDA_EXTRA_FLAGS " -ccbin=<CMAKE_CUDA_HOST_COMPILER>")
endif()
if (CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 10.2.89)
# Starting in 10.2, nvcc supported treating all warnings as errors
set(CMAKE_CUDA_COMPILE_OPTIONS_WARNING_AS_ERROR "-Werror" "all-warnings")
endif()
if (CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 10.2.89)
# The -MD flag was only added to nvcc in 10.2 so
# before that we had to invoke the compiler twice
# to get header dependency information
set(CMAKE_DEPFILE_FLAGS_CUDA "-MD -MT <DEP_TARGET> -MF <DEP_FILE>")
else()
set(CMAKE_CUDA_DEPENDS_EXTRA_COMMANDS "<CMAKE_CUDA_COMPILER> ${_CMAKE_CUDA_EXTRA_FLAGS} <DEFINES> <INCLUDES> <FLAGS> ${_CMAKE_COMPILE_AS_CUDA_FLAG} -M <SOURCE> -MT <OBJECT> -o <DEP_FILE>")
endif()
set(CMAKE_CUDA_DEPFILE_FORMAT gcc)
if((NOT DEFINED CMAKE_DEPENDS_USE_COMPILER OR CMAKE_DEPENDS_USE_COMPILER)
AND CMAKE_GENERATOR MATCHES "Makefiles|WMake")
set(CMAKE_CUDA_DEPENDS_USE_COMPILER TRUE)
endif()
if(CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL 11.2)
set(_CMAKE_CUDA_IPO_SUPPORTED_BY_CMAKE YES)
set(_CMAKE_CUDA_IPO_MAY_BE_SUPPORTED_BY_COMPILER YES)
set(CMAKE_CUDA_DEVICE_LINK_OPTIONS_IPO " -dlto")
endif()
if(NOT "x${CMAKE_CUDA_SIMULATE_ID}" STREQUAL "xMSVC")
set(CMAKE_CUDA_COMPILE_OPTIONS_PIE -Xcompiler=-fPIE)
set(CMAKE_CUDA_COMPILE_OPTIONS_PIC -Xcompiler=-fPIC)
set(CMAKE_CUDA_COMPILE_OPTIONS_VISIBILITY -Xcompiler=-fvisibility=)
# CMAKE_SHARED_LIBRARY_CUDA_FLAGS is sent to the host linker so we
# don't need to forward it through nvcc.
set(CMAKE_SHARED_LIBRARY_CUDA_FLAGS -fPIC)
string(APPEND CMAKE_CUDA_FLAGS_INIT " ")
string(APPEND CMAKE_CUDA_FLAGS_DEBUG_INIT " -g")
string(APPEND CMAKE_CUDA_FLAGS_RELEASE_INIT " -O3 -DNDEBUG")
string(APPEND CMAKE_CUDA_FLAGS_MINSIZEREL_INIT " -O1 -DNDEBUG")
string(APPEND CMAKE_CUDA_FLAGS_RELWITHDEBINFO_INIT " -O2 -g -DNDEBUG")
endif()
set(CMAKE_SHARED_LIBRARY_CREATE_CUDA_FLAGS -shared)
set(CMAKE_INCLUDE_SYSTEM_FLAG_CUDA "-isystem ")
if (CMAKE_CUDA_SIMULATE_ID STREQUAL "GNU")
set(CMAKE_CUDA_LINKER_WRAPPER_FLAG "-Wl,")
set(CMAKE_CUDA_LINKER_WRAPPER_FLAG_SEP ",")
elseif(CMAKE_CUDA_SIMULATE_ID STREQUAL "Clang")
set(CMAKE_CUDA_LINKER_WRAPPER_FLAG "-Xlinker" " ")
set(CMAKE_CUDA_LINKER_WRAPPER_FLAG_SEP)
endif()
set(CMAKE_CUDA_DEVICE_COMPILER_WRAPPER_FLAG "-Xcompiler=")
set(CMAKE_CUDA_DEVICE_COMPILER_WRAPPER_FLAG_SEP ",")
set(CMAKE_CUDA_DEVICE_LINKER_WRAPPER_FLAG "-Xlinker=")
set(CMAKE_CUDA_DEVICE_LINKER_WRAPPER_FLAG_SEP ",")
set(CMAKE_CUDA_RUNTIME_LIBRARY_LINK_OPTIONS_STATIC "cudadevrt;cudart_static")
set(CMAKE_CUDA_RUNTIME_LIBRARY_LINK_OPTIONS_SHARED "cudadevrt;cudart")
set(CMAKE_CUDA_RUNTIME_LIBRARY_LINK_OPTIONS_NONE "")
if(UNIX AND NOT (CMAKE_SYSTEM_NAME STREQUAL "QNX"))
list(APPEND CMAKE_CUDA_RUNTIME_LIBRARY_LINK_OPTIONS_STATIC "rt" "pthread" "dl")
endif()
if("x${CMAKE_CUDA_SIMULATE_ID}" STREQUAL "xMSVC")
# MSVC requires c++14 as the minimum level
set(CMAKE_CUDA03_STANDARD_COMPILE_OPTION "")
set(CMAKE_CUDA03_EXTENSION_COMPILE_OPTION "")
# MSVC requires c++14 as the minimum level
set(CMAKE_CUDA11_STANDARD_COMPILE_OPTION "")
set(CMAKE_CUDA11_EXTENSION_COMPILE_OPTION "")
if (NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 9.0)
if(CMAKE_CUDA_SIMULATE_VERSION VERSION_GREATER_EQUAL 19.10.25017)
set(CMAKE_CUDA14_STANDARD_COMPILE_OPTION "-std=c++14")
set(CMAKE_CUDA14_EXTENSION_COMPILE_OPTION "-std=c++14")
else()
set(CMAKE_CUDA14_STANDARD_COMPILE_OPTION "")
set(CMAKE_CUDA14_EXTENSION_COMPILE_OPTION "")
endif()
endif()
if (NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 11.0)
if(CMAKE_CUDA_SIMULATE_VERSION VERSION_GREATER_EQUAL 19.11.25505)
set(CMAKE_CUDA17_STANDARD_COMPILE_OPTION "-std=c++17")
set(CMAKE_CUDA17_EXTENSION_COMPILE_OPTION "-std=c++17")
endif()
endif()
if (NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 12.0)
if(CMAKE_CUDA_SIMULATE_VERSION VERSION_GREATER_EQUAL 19.11.25505)
set(CMAKE_CUDA20_STANDARD_COMPILE_OPTION "-std=c++20")
set(CMAKE_CUDA20_EXTENSION_COMPILE_OPTION "-std=c++20")
endif()
endif()
else()
set(CMAKE_CUDA03_STANDARD_COMPILE_OPTION "")
set(CMAKE_CUDA03_EXTENSION_COMPILE_OPTION "")
set(CMAKE_CUDA11_STANDARD_COMPILE_OPTION "-std=c++11")
set(CMAKE_CUDA11_EXTENSION_COMPILE_OPTION "-std=c++11")
if (NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 9.0)
set(CMAKE_CUDA03_STANDARD_COMPILE_OPTION "-std=c++03")
set(CMAKE_CUDA03_EXTENSION_COMPILE_OPTION "-std=c++03")
set(CMAKE_CUDA14_STANDARD_COMPILE_OPTION "-std=c++14")
set(CMAKE_CUDA14_EXTENSION_COMPILE_OPTION "-std=c++14")
endif()
if (NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 11.0)
set(CMAKE_CUDA17_STANDARD_COMPILE_OPTION "-std=c++17")
set(CMAKE_CUDA17_EXTENSION_COMPILE_OPTION "-std=c++17")
endif()
if (NOT CMAKE_CUDA_COMPILER_VERSION VERSION_LESS 12.0)
set(CMAKE_CUDA20_STANDARD_COMPILE_OPTION "-std=c++20")
set(CMAKE_CUDA20_EXTENSION_COMPILE_OPTION "-std=c++20")
endif()
endif()
if (CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL "9.0")
set(CMAKE_CUDA_RESPONSE_FILE_DEVICE_LINK_FLAG "--options-file ")
set(CMAKE_CUDA_RESPONSE_FILE_FLAG "--options-file ")
endif()
if (CMAKE_CUDA_COMPILER_VERSION VERSION_GREATER_EQUAL "11.0")
set(CMAKE_CUDA_USE_RESPONSE_FILE_FOR_INCLUDES 1)
set(CMAKE_CUDA_USE_RESPONSE_FILE_FOR_LIBRARIES 1)
set(CMAKE_CUDA_USE_RESPONSE_FILE_FOR_OBJECTS 1)
else()
set(CMAKE_CUDA_USE_RESPONSE_FILE_FOR_INCLUDES 0)
set(CMAKE_CUDA_USE_RESPONSE_FILE_FOR_LIBRARIES 0)
set(CMAKE_CUDA_USE_RESPONSE_FILE_FOR_OBJECTS 0)
endif()
__compiler_check_default_language_standard(CUDA 6.0 03)

4358
cmake/share/cmake-3.27/Modules/ExternalProject.cmake
View File

File diff suppressed because it is too large Load Diff

182
cmake/share/cmake-3.27/Modules/ExternalProject/shared_internal_commands.cmake
View File

@ -1,182 +0,0 @@
cmake_policy(VERSION 3.25)
# Determine the remote URL of the project containing the working_directory.
# This will leave output_variable unset if the URL can't be determined.
function(_ep_get_git_remote_url output_variable working_directory)
set("${output_variable}" "" PARENT_SCOPE)
find_package(Git QUIET REQUIRED)
execute_process(
COMMAND ${GIT_EXECUTABLE} symbolic-ref --short HEAD
WORKING_DIRECTORY "${working_directory}"
OUTPUT_VARIABLE git_symbolic_ref
OUTPUT_STRIP_TRAILING_WHITESPACE
ERROR_QUIET
)
if(NOT git_symbolic_ref STREQUAL "")
# We are potentially on a branch. See if that branch is associated with
# an upstream remote (might be just a local one or not a branch at all).
execute_process(
COMMAND ${GIT_EXECUTABLE} config branch.${git_symbolic_ref}.remote
WORKING_DIRECTORY "${working_directory}"
OUTPUT_VARIABLE git_remote_name
OUTPUT_STRIP_TRAILING_WHITESPACE
ERROR_QUIET
)
endif()
if(NOT git_remote_name)
# Can't select a remote based on a branch. If there's only one remote,
# or we have multiple remotes but one is called "origin", choose that.
execute_process(
COMMAND ${GIT_EXECUTABLE} remote
WORKING_DIRECTORY "${working_directory}"
OUTPUT_VARIABLE git_remote_list
OUTPUT_STRIP_TRAILING_WHITESPACE
ERROR_QUIET
)
string(REPLACE "\n" ";" git_remote_list "${git_remote_list}")
list(LENGTH git_remote_list git_remote_list_length)
if(git_remote_list_length EQUAL 0)
message(FATAL_ERROR "Git remote not found in parent project.")
elseif(git_remote_list_length EQUAL 1)
list(GET git_remote_list 0 git_remote_name)
else()
set(base_warning_msg "Multiple git remotes found for parent project")
if("origin" IN_LIST git_remote_list)
message(WARNING "${base_warning_msg}, defaulting to origin.")
set(git_remote_name "origin")
else()
message(FATAL_ERROR "${base_warning_msg}, none of which are origin.")
endif()
endif()
endif()
if(GIT_VERSION VERSION_LESS 1.7.5)
set(_git_remote_url_cmd_args config remote.${git_remote_name}.url)
elseif(GIT_VERSION VERSION_LESS 2.7)
set(_git_remote_url_cmd_args ls-remote --get-url ${git_remote_name})
else()
set(_git_remote_url_cmd_args remote get-url ${git_remote_name})
endif()
execute_process(
COMMAND ${GIT_EXECUTABLE} ${_git_remote_url_cmd_args}
WORKING_DIRECTORY "${working_directory}"
OUTPUT_VARIABLE git_remote_url
OUTPUT_STRIP_TRAILING_WHITESPACE
COMMAND_ERROR_IS_FATAL LAST
ENCODING UTF-8 # Needed to handle non-ascii characters in local paths
)
set("${output_variable}" "${git_remote_url}" PARENT_SCOPE)
endfunction()
function(_ep_is_relative_git_remote output_variable remote_url)
if(remote_url MATCHES "^\\.\\./")
set("${output_variable}" TRUE PARENT_SCOPE)
else()
set("${output_variable}" FALSE PARENT_SCOPE)
endif()
endfunction()
# Return an absolute remote URL given an existing remote URL and relative path.
# The output_variable will be set to an empty string if an absolute URL
# could not be computed (no error message is output).
function(_ep_resolve_relative_git_remote
output_variable
parent_remote_url
relative_remote_url
)
set("${output_variable}" "" PARENT_SCOPE)
if(parent_remote_url STREQUAL "")
return()
endif()
string(REGEX MATCH
"^(([A-Za-z0-9][A-Za-z0-9+.-]*)://)?(([^/@]+)@)?(\\[[A-Za-z0-9:]+\\]|[^/:]+)?([/:]/?)(.+(\\.git)?/?)$"
git_remote_url_components
"${parent_remote_url}"
)
set(protocol "${CMAKE_MATCH_1}")
set(auth "${CMAKE_MATCH_3}")
set(host "${CMAKE_MATCH_5}")
set(separator "${CMAKE_MATCH_6}")
set(path "${CMAKE_MATCH_7}")
string(REPLACE "/" ";" remote_path_components "${path}")
string(REPLACE "/" ";" relative_path_components "${relative_remote_url}")
foreach(relative_path_component IN LISTS relative_path_components)
if(NOT relative_path_component STREQUAL "..")
break()
endif()
list(LENGTH remote_path_components remote_path_component_count)
if(remote_path_component_count LESS 1)
return()
endif()
list(POP_BACK remote_path_components)
list(POP_FRONT relative_path_components)
endforeach()
list(APPEND final_path_components ${remote_path_components} ${relative_path_components})
list(JOIN final_path_components "/" path)
set("${output_variable}" "${protocol}${auth}${host}${separator}${path}" PARENT_SCOPE)
endfunction()
# The output_variable will be set to the original git_repository if it
# could not be resolved (no error message is output). The original value is
# also returned if it doesn't need to be resolved.
function(_ep_resolve_git_remote
output_variable
git_repository
cmp0150
cmp0150_old_base_dir
)
if(git_repository STREQUAL "")
set("${output_variable}" "" PARENT_SCOPE)
return()
endif()
_ep_is_relative_git_remote(_git_repository_is_relative "${git_repository}")
if(NOT _git_repository_is_relative)
set("${output_variable}" "${git_repository}" PARENT_SCOPE)
return()
endif()
if(cmp0150 STREQUAL "NEW")
_ep_get_git_remote_url(_parent_git_remote_url "${CMAKE_CURRENT_SOURCE_DIR}")
_ep_resolve_relative_git_remote(_resolved_git_remote_url "${_parent_git_remote_url}" "${git_repository}")
if(_resolved_git_remote_url STREQUAL "")
message(FATAL_ERROR
"Failed to resolve relative git remote URL:\n"
" Relative URL: ${git_repository}\n"
" Parent URL: ${_parent_git_remote_url}"
)
endif()
set("${output_variable}" "${_resolved_git_remote_url}" PARENT_SCOPE)
return()
elseif(cmp0150 STREQUAL "")
cmake_policy(GET_WARNING CMP0150 _cmp0150_warning)
message(AUTHOR_WARNING
"${_cmp0150_warning}\n"
"A relative GIT_REPOSITORY path was detected. "
"This will be interpreted as a local path to where the project is being cloned. "
"Set GIT_REPOSITORY to an absolute path or set policy CMP0150 to NEW to avoid "
"this warning."
)
endif()
set("${output_variable}" "${cmp0150_old_base_dir}/${git_repository}" PARENT_SCOPE)
endfunction()

20
cmake/share/cmake-3.27/Modules/Internal/CPack/CPackWIX.cmake
View File

@ -1,20 +0,0 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
if(NOT CPACK_WIX_ROOT)
string(REPLACE "\\" "/" CPACK_WIX_ROOT "$ENV{WIX}")
endif()
find_program(CPACK_WIX_CANDLE_EXECUTABLE candle
PATHS "${CPACK_WIX_ROOT}" PATH_SUFFIXES "bin")
if(NOT CPACK_WIX_CANDLE_EXECUTABLE)
message(FATAL_ERROR "Could not find the WiX candle executable.")
endif()
find_program(CPACK_WIX_LIGHT_EXECUTABLE light
PATHS "${CPACK_WIX_ROOT}" PATH_SUFFIXES "bin")
if(NOT CPACK_WIX_LIGHT_EXECUTABLE)
message(FATAL_ERROR "Could not find the WiX light executable.")
endif()

1
cmake/share/cmake-3.27/Modules/Platform/Apple-Apple-Swift.cmake
View File

@ -1 +0,0 @@
set(CMAKE_Swift_SYSROOT_FLAG "-sdk")

3
cmake/share/cmake-3.27/Modules/Platform/Windows-LLVMFlang-Fortran.cmake
View File

@ -1,3 +0,0 @@
include(Platform/Windows-GNU)
__windows_compiler_gnu(Fortran)
# TODO: MSVC ABI Support

30
cmake/share/cmake-3.27/Help/command/DEPRECATED_POLICY_VERSIONS.txt → cmake/share/cmake-3.30/Help/command/DEPRECATED_POLICY_VERSIONS.txt
View File

@ -1,15 +1,15 @@
.. versionchanged:: 3.27
Compatibility with versions of CMake older than 3.5 is deprecated.
Calls to :command:`cmake_minimum_required(VERSION)` or
:command:`cmake_policy(VERSION)` that do not specify at least
3.5 as their policy version (optionally via ``...<max>``)
will produce a deprecation warning in CMake 3.27 and above.
.. versionchanged:: 3.19
Compatibility with versions of CMake older than 2.8.12 is deprecated.
Calls to :command:`cmake_minimum_required(VERSION)` or
:command:`cmake_policy(VERSION)` that do not specify at least
2.8.12 as their policy version (optionally via ``...<max>``)
will produce a deprecation warning in CMake 3.19 and above.
.. versionchanged:: 3.27
Compatibility with versions of CMake older than 3.5 is deprecated.
Calls to :command:`cmake_minimum_required(VERSION)` or
:command:`cmake_policy(VERSION)` that do not specify at least
3.5 as their policy version (optionally via ``...<max>``)
will produce a deprecation warning in CMake 3.27 and above.
.. versionchanged:: 3.19
Compatibility with versions of CMake older than 2.8.12 is deprecated.
Calls to :command:`cmake_minimum_required(VERSION)` or
:command:`cmake_policy(VERSION)` that do not specify at least
2.8.12 as their policy version (optionally via ``...<max>``)
will produce a deprecation warning in CMake 3.19 and above.

24
cmake/share/cmake-3.27/Help/command/DEVICE_LINK_OPTIONS.txt → cmake/share/cmake-3.30/Help/command/DEVICE_LINK_OPTIONS.txt
View File

@ -1,12 +1,12 @@
Host And Device Specific Link Options
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. versionadded:: 3.18
When a device link step is involved, which is controlled by
:prop_tgt:`CUDA_SEPARABLE_COMPILATION` and
:prop_tgt:`CUDA_RESOLVE_DEVICE_SYMBOLS` properties and policy :policy:`CMP0105`,
the raw options will be delivered to the host and device link steps (wrapped in
``-Xcompiler`` or equivalent for device link). Options wrapped with
:genex:`$<DEVICE_LINK:...>` generator expression will be used
only for the device link step. Options wrapped with :genex:`$<HOST_LINK:...>`
generator expression will be used only for the host link step.
Host And Device Specific Link Options
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. versionadded:: 3.18
When a device link step is involved, which is controlled by
:prop_tgt:`CUDA_SEPARABLE_COMPILATION` and
:prop_tgt:`CUDA_RESOLVE_DEVICE_SYMBOLS` properties and policy :policy:`CMP0105`,
the raw options will be delivered to the host and device link steps (wrapped in
``-Xcompiler`` or equivalent for device link). Options wrapped with
:genex:`$<DEVICE_LINK:...>` generator expression will be used
only for the device link step. Options wrapped with :genex:`$<HOST_LINK:...>`
generator expression will be used only for the host link step.

505
cmake/share/cmake-3.27/Help/command/FIND_XXX.txt → cmake/share/cmake-3.30/Help/command/FIND_XXX.txt
View File

@ -1,252 +1,253 @@
A short-hand signature is:
.. parsed-literal::
|FIND_XXX| (<VAR> name1 [path1 path2 ...])
The general signature is:
.. parsed-literal::
|FIND_XXX| (
<VAR>
name | |NAMES|
[HINTS [path | ENV var]... ]
[PATHS [path | ENV var]... ]
[REGISTRY_VIEW (64|32|64_32|32_64|HOST|TARGET|BOTH)]
[PATH_SUFFIXES suffix1 [suffix2 ...]]
[VALIDATOR function]
[DOC "cache documentation string"]
[NO_CACHE]
[REQUIRED]
[NO_DEFAULT_PATH]
[NO_PACKAGE_ROOT_PATH]
[NO_CMAKE_PATH]
[NO_CMAKE_ENVIRONMENT_PATH]
[NO_SYSTEM_ENVIRONMENT_PATH]
[NO_CMAKE_SYSTEM_PATH]
[NO_CMAKE_INSTALL_PREFIX]
[CMAKE_FIND_ROOT_PATH_BOTH |
ONLY_CMAKE_FIND_ROOT_PATH |
NO_CMAKE_FIND_ROOT_PATH]
)
This command is used to find a |SEARCH_XXX_DESC|.
A cache entry, or a normal variable if ``NO_CACHE`` is specified,
named by ``<VAR>`` is created to store the result of this command.
If the |SEARCH_XXX| 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``.
Options include:
``NAMES``
Specify one or more possible names for the |SEARCH_XXX|.
When using this to specify names with and without a version
suffix, we recommend specifying the unversioned name first
so that locally-built packages can be found before those
provided by distributions.
``HINTS``, ``PATHS``
Specify directories to search in addition to the default locations.
The ``ENV var`` sub-option reads paths from a system environment
variable.
.. versionchanged:: 3.24
On ``Windows`` platform, it is possible to include registry queries as part
of the directories, using a :ref:`dedicated syntax <Find Using Windows Registry>`.
Such specifications will be ignored on all other platforms.
``REGISTRY_VIEW``
.. versionadded:: 3.24
.. include:: FIND_XXX_REGISTRY_VIEW.txt
``PATH_SUFFIXES``
Specify additional subdirectories to check below each directory
location otherwise considered.
``VALIDATOR``
.. versionadded:: 3.25
Specify a :command:`function` to be called for each candidate item found
(a :command:`macro` cannot be provided, that will result in an error).
Two arguments will be passed to the validator function: the name of a
result variable, and the absolute path to the candidate item. The item
will be accepted and the search will end unless the function sets the
value in the result variable to false in the calling scope. The result
variable will hold a true value when the validator function is entered.
.. parsed-literal::
function(my_check validator_result_var item)
if(NOT item MATCHES ...)
set(${validator_result_var} FALSE PARENT_SCOPE)
endif()
endfunction()
|FIND_XXX| (result NAMES ... VALIDATOR my_check)
Note that if a cached result is used, the search is skipped and any
``VALIDATOR`` is ignored. The cached result is not required to pass the
validation function.
``DOC``
Specify the documentation string for the ``<VAR>`` cache entry.
``NO_CACHE``
.. versionadded:: 3.21
The result of the search will be stored in a normal variable rather than
a cache entry.
.. note::
If the variable is already set before the call (as a normal or cache
variable) then the search will not occur.
.. warning::
This option should be used with caution because it can greatly increase
the cost of repeated configure steps.
``REQUIRED``
.. versionadded:: 3.18
Stop processing with an error message if nothing is found, otherwise
the search will be attempted again the next time |FIND_XXX| is invoked
with the same variable.
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:
.. |FIND_PACKAGE_ROOT_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in the
:variable:`<PackageName>_ROOT` CMake variable and the
:envvar:`<PackageName>_ROOT` environment variable if
called from within a find module loaded by
:command:`find_package(<PackageName>)`
.. |CMAKE_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in :variable:`CMAKE_PREFIX_PATH`
.. |ENV_CMAKE_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in :envvar:`CMAKE_PREFIX_PATH`
.. |SYSTEM_ENVIRONMENT_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>/[s]bin`` in ``PATH``, and
|entry_XXX_SUBDIR| for other entries in ``PATH``
.. |CMAKE_SYSTEM_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in
:variable:`CMAKE_SYSTEM_PREFIX_PATH`
1. If called from within a find module or any other script loaded by a call to
:command:`find_package(<PackageName>)`, search prefixes unique to the
current package being found. See policy :policy:`CMP0074`.
.. versionadded:: 3.12
Specifically, search paths specified by the following variables, in order:
a. :variable:`<PackageName>_ROOT` CMake variable,
where ``<PackageName>`` is the case-preserved package name.
b. :variable:`<PACKAGENAME>_ROOT` CMake variable,
where ``<PACKAGENAME>`` is the upper-cased package name.
See policy :policy:`CMP0144`.
.. versionadded:: 3.27
c. :envvar:`<PackageName>_ROOT` environment variable,
where ``<PackageName>`` is the case-preserved package name.
d. :envvar:`<PACKAGENAME>_ROOT` environment variable,
where ``<PACKAGENAME>`` is the upper-cased package name.
See policy :policy:`CMP0144`.
.. versionadded:: 3.27
The package root variables are maintained as a stack, so if called from
nested find modules or config packages, root paths from the parent's find
module or config package will be searched after paths from the current
module or package. In other words, the search order would be
``<CurrentPackage>_ROOT``, ``ENV{<CurrentPackage>_ROOT}``,
``<ParentPackage>_ROOT``, ``ENV{<ParentPackage>_ROOT}``, etc.
This can be skipped if ``NO_PACKAGE_ROOT_PATH`` is passed or by setting
the :variable:`CMAKE_FIND_USE_PACKAGE_ROOT_PATH` to ``FALSE``.
* |FIND_PACKAGE_ROOT_PREFIX_PATH_XXX|
2. Search paths specified in cmake-specific cache variables.
These are intended to be used on the command line with a ``-DVAR=value``.
The values are interpreted as :ref:`semicolon-separated lists <CMake Language Lists>`.
This can be skipped if ``NO_CMAKE_PATH`` is passed or by setting the
:variable:`CMAKE_FIND_USE_CMAKE_PATH` to ``FALSE``.
* |CMAKE_PREFIX_PATH_XXX|
* |CMAKE_XXX_PATH|
* |CMAKE_XXX_MAC_PATH|
3. Search paths specified in cmake-specific environment variables.
These are intended to be set in the user's shell configuration,
and therefore use the host's native path separator
(``;`` on Windows and ``:`` on UNIX).
This can be skipped if ``NO_CMAKE_ENVIRONMENT_PATH`` is passed or
by setting the :variable:`CMAKE_FIND_USE_CMAKE_ENVIRONMENT_PATH` to ``FALSE``.
* |ENV_CMAKE_PREFIX_PATH_XXX|
* |ENV_CMAKE_XXX_PATH|
* |ENV_CMAKE_XXX_MAC_PATH|
4. 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.
5. Search the standard system environment variables.
This can be skipped if ``NO_SYSTEM_ENVIRONMENT_PATH`` is passed or by
setting the :variable:`CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH` to ``FALSE``.
* |SYSTEM_ENVIRONMENT_PATH_XXX|
* |SYSTEM_ENVIRONMENT_PATH_WINDOWS_XXX|
6. Search cmake variables defined in the Platform files
for the current system. The searching of ``CMAKE_INSTALL_PREFIX`` and
``CMAKE_STAGING_PREFIX`` can be
skipped if ``NO_CMAKE_INSTALL_PREFIX`` is passed or by setting the
:variable:`CMAKE_FIND_USE_INSTALL_PREFIX` to ``FALSE``. All these locations
can be skipped if ``NO_CMAKE_SYSTEM_PATH`` is passed or by setting the
:variable:`CMAKE_FIND_USE_CMAKE_SYSTEM_PATH` to ``FALSE``.
* |CMAKE_SYSTEM_PREFIX_PATH_XXX|
* |CMAKE_SYSTEM_XXX_PATH|
* |CMAKE_SYSTEM_XXX_MAC_PATH|
The platform paths that these variables contain are locations that
typically include installed software. An example being ``/usr/local`` for
UNIX based platforms.
7. Search the paths specified by the PATHS option
or in the short-hand version of the command.
These are typically hard-coded guesses.
The :variable:`CMAKE_IGNORE_PATH`, :variable:`CMAKE_IGNORE_PREFIX_PATH`,
:variable:`CMAKE_SYSTEM_IGNORE_PATH` and
:variable:`CMAKE_SYSTEM_IGNORE_PREFIX_PATH` variables can also cause some
of the above locations to be ignored.
.. versionadded:: 3.16
Added ``CMAKE_FIND_USE_<CATEGORY>_PATH`` variables to globally disable
various search locations.
.. |FIND_ARGS_XXX| replace:: <VAR> NAMES name
On macOS the :variable:`CMAKE_FIND_FRAMEWORK` and
:variable:`CMAKE_FIND_APPBUNDLE` variables determine the order of
preference between Apple-style and unix-style package components.
.. include:: FIND_XXX_ROOT.txt
.. include:: FIND_XXX_ORDER.txt
A short-hand signature is:
.. parsed-literal::
|FIND_XXX| (<VAR> name1 [path1 path2 ...])
The general signature is:
.. parsed-literal::
|FIND_XXX| (
<VAR>
name | |NAMES|
[HINTS [path | ENV var]... ]
[PATHS [path | ENV var]... ]
[REGISTRY_VIEW (64|32|64_32|32_64|HOST|TARGET|BOTH)]
[PATH_SUFFIXES suffix1 [suffix2 ...]]
[VALIDATOR function]
[DOC "cache documentation string"]
[NO_CACHE]
[REQUIRED]
[NO_DEFAULT_PATH]
[NO_PACKAGE_ROOT_PATH]
[NO_CMAKE_PATH]
[NO_CMAKE_ENVIRONMENT_PATH]
[NO_SYSTEM_ENVIRONMENT_PATH]
[NO_CMAKE_SYSTEM_PATH]
[NO_CMAKE_INSTALL_PREFIX]
[CMAKE_FIND_ROOT_PATH_BOTH |
ONLY_CMAKE_FIND_ROOT_PATH |
NO_CMAKE_FIND_ROOT_PATH]
)
This command is used to find a |SEARCH_XXX_DESC|.
A cache entry, or a normal variable if ``NO_CACHE`` is specified,
named by ``<VAR>`` is created to store the result of this command.
If the |SEARCH_XXX| 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``.
Options include:
``NAMES``
Specify one or more possible names for the |SEARCH_XXX|.
When using this to specify names with and without a version
suffix, we recommend specifying the unversioned name first
so that locally-built packages can be found before those
provided by distributions.
``HINTS``, ``PATHS``
Specify directories to search in addition to the default locations.
The ``ENV var`` sub-option reads paths from a system environment
variable.
.. versionchanged:: 3.24
On ``Windows`` platform, it is possible to include registry queries as part
of the directories, using a :ref:`dedicated syntax <Find Using Windows Registry>`.
Such specifications will be ignored on all other platforms.
``REGISTRY_VIEW``
.. versionadded:: 3.24
.. include:: FIND_XXX_REGISTRY_VIEW.txt
``PATH_SUFFIXES``
Specify additional subdirectories to check below each directory
location otherwise considered.
``VALIDATOR``
.. versionadded:: 3.25
Specify a :command:`function` to be called for each candidate item found
(a :command:`macro` cannot be provided, that will result in an error).
Two arguments will be passed to the validator function: the name of a
result variable, and the absolute path to the candidate item. The item
will be accepted and the search will end unless the function sets the
value in the result variable to false in the calling scope. The result
variable will hold a true value when the validator function is entered.
.. parsed-literal::
function(my_check validator_result_var item)
if(NOT item MATCHES ...)
set(${validator_result_var} FALSE PARENT_SCOPE)
endif()
endfunction()
|FIND_XXX| (result NAMES ... VALIDATOR my_check)
Note that if a cached result is used, the search is skipped and any
``VALIDATOR`` is ignored. The cached result is not required to pass the
validation function.
``DOC``
Specify the documentation string for the ``<VAR>`` cache entry.
``NO_CACHE``
.. versionadded:: 3.21
The result of the search will be stored in a normal variable rather than
a cache entry.
.. note::
If the variable is already set before the call (as a normal or cache
variable) then the search will not occur.
.. warning::
This option should be used with caution because it can greatly increase
the cost of repeated configure steps.
``REQUIRED``
.. versionadded:: 3.18
Stop processing with an error message if nothing is found, otherwise
the search will be attempted again the next time |FIND_XXX| is invoked
with the same variable.
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:
.. |FIND_PACKAGE_ROOT_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in the
:variable:`<PackageName>_ROOT` CMake variable and the
:envvar:`<PackageName>_ROOT` environment variable if
called from within a find module loaded by
:command:`find_package(<PackageName>)`
.. |CMAKE_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in :variable:`CMAKE_PREFIX_PATH`
.. |ENV_CMAKE_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in :envvar:`CMAKE_PREFIX_PATH`
.. |SYSTEM_ENVIRONMENT_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>/[s]bin`` in ``PATH``, and
|entry_XXX_SUBDIR| for other entries in ``PATH``
.. |CMAKE_SYSTEM_PREFIX_PATH_XXX_SUBDIR| replace::
|prefix_XXX_SUBDIR| for each ``<prefix>`` in
:variable:`CMAKE_SYSTEM_PREFIX_PATH`
1. If called from within a find module or any other script loaded by a call to
:command:`find_package(<PackageName>)`, search prefixes unique to the
current package being found. See policy :policy:`CMP0074`.
.. versionadded:: 3.12
Specifically, search paths specified by the following variables, in order:
a. :variable:`<PackageName>_ROOT` CMake variable,
where ``<PackageName>`` is the case-preserved package name.
b. :variable:`<PACKAGENAME>_ROOT` CMake variable,
where ``<PACKAGENAME>`` is the upper-cased package name.
See policy :policy:`CMP0144`.
.. versionadded:: 3.27
c. :envvar:`<PackageName>_ROOT` environment variable,
where ``<PackageName>`` is the case-preserved package name.
d. :envvar:`<PACKAGENAME>_ROOT` environment variable,
where ``<PACKAGENAME>`` is the upper-cased package name.
See policy :policy:`CMP0144`.
.. versionadded:: 3.27
The package root variables are maintained as a stack, so if called from
nested find modules or config packages, root paths from the parent's find
module or config package will be searched after paths from the current
module or package. In other words, the search order would be
``<CurrentPackage>_ROOT``, ``ENV{<CurrentPackage>_ROOT}``,
``<ParentPackage>_ROOT``, ``ENV{<ParentPackage>_ROOT}``, etc.
This can be skipped if ``NO_PACKAGE_ROOT_PATH`` is passed or by setting
the :variable:`CMAKE_FIND_USE_PACKAGE_ROOT_PATH` to ``FALSE``.
* |FIND_PACKAGE_ROOT_PREFIX_PATH_XXX|
2. Search paths specified in cmake-specific cache variables.
These are intended to be used on the command line with a ``-DVAR=value``.
The values are interpreted as :ref:`semicolon-separated lists <CMake Language Lists>`.
This can be skipped if ``NO_CMAKE_PATH`` is passed or by setting the
:variable:`CMAKE_FIND_USE_CMAKE_PATH` to ``FALSE``.
* |CMAKE_PREFIX_PATH_XXX|
* |CMAKE_XXX_PATH|
* |CMAKE_XXX_MAC_PATH|
3. Search paths specified in cmake-specific environment variables.
These are intended to be set in the user's shell configuration,
and therefore use the host's native path separator
(``;`` on Windows and ``:`` on UNIX).
This can be skipped if ``NO_CMAKE_ENVIRONMENT_PATH`` is passed or
by setting the :variable:`CMAKE_FIND_USE_CMAKE_ENVIRONMENT_PATH` to ``FALSE``.
* |ENV_CMAKE_PREFIX_PATH_XXX|
* |ENV_CMAKE_XXX_PATH|
* |ENV_CMAKE_XXX_MAC_PATH|
4. 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.
5. Search the standard system environment variables.
This can be skipped if ``NO_SYSTEM_ENVIRONMENT_PATH`` is passed or by
setting the :variable:`CMAKE_FIND_USE_SYSTEM_ENVIRONMENT_PATH` to ``FALSE``.
* |SYSTEM_ENVIRONMENT_PATH_XXX|
|SYSTEM_ENVIRONMENT_PATH_WINDOWS_XXX|
6. Search cmake variables defined in the Platform files
for the current system. The searching of ``CMAKE_INSTALL_PREFIX`` and
``CMAKE_STAGING_PREFIX`` can be
skipped if ``NO_CMAKE_INSTALL_PREFIX`` is passed or by setting the
:variable:`CMAKE_FIND_USE_INSTALL_PREFIX` to ``FALSE``. All these locations
can be skipped if ``NO_CMAKE_SYSTEM_PATH`` is passed or by setting the
:variable:`CMAKE_FIND_USE_CMAKE_SYSTEM_PATH` to ``FALSE``.
* |CMAKE_SYSTEM_PREFIX_PATH_XXX|
* |CMAKE_SYSTEM_XXX_PATH|
* |CMAKE_SYSTEM_XXX_MAC_PATH|
The platform paths that these variables contain are locations that
typically include installed software. An example being ``/usr/local`` for
UNIX based platforms.
7. Search the paths specified by the PATHS option
or in the short-hand version of the command.
These are typically hard-coded guesses.
The :variable:`CMAKE_IGNORE_PATH`, :variable:`CMAKE_IGNORE_PREFIX_PATH`,
:variable:`CMAKE_SYSTEM_IGNORE_PATH` and
:variable:`CMAKE_SYSTEM_IGNORE_PREFIX_PATH` variables can also cause some
of the above locations to be ignored.
.. versionadded:: 3.16
Added ``CMAKE_FIND_USE_<CATEGORY>_PATH`` variables to globally disable
various search locations.
.. |FIND_ARGS_XXX| replace:: <VAR> NAMES name
On macOS the :variable:`CMAKE_FIND_FRAMEWORK` and
:variable:`CMAKE_FIND_APPBUNDLE` variables determine the order of
preference between Apple-style and unix-style package components.
.. include:: FIND_XXX_ROOT.txt
.. include:: FIND_XXX_ORDER.txt

24
cmake/share/cmake-3.27/Help/command/FIND_XXX_ORDER.txt → cmake/share/cmake-3.30/Help/command/FIND_XXX_ORDER.txt
View File

@ -1,12 +1,12 @@
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:
.. parsed-literal::
|FIND_XXX| (|FIND_ARGS_XXX| PATHS paths... NO_DEFAULT_PATH)
|FIND_XXX| (|FIND_ARGS_XXX|)
Once one of the calls succeeds the result variable will be set
and stored in the cache so that no call will search again.
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:
.. parsed-literal::
|FIND_XXX| (|FIND_ARGS_XXX| PATHS paths... NO_DEFAULT_PATH)
|FIND_XXX| (|FIND_ARGS_XXX|)
Once one of the calls succeeds the result variable will be set
and stored in the cache so that no call will search again.

82
cmake/share/cmake-3.27/Help/command/FIND_XXX_REGISTRY_VIEW.txt → cmake/share/cmake-3.30/Help/command/FIND_XXX_REGISTRY_VIEW.txt
View File

@ -1,41 +1,41 @@
Specify which registry views must be queried. This option is only meaningful
on ``Windows`` platforms and will be ignored on other ones. When not
specified, the |FIND_XXX_REGISTRY_VIEW_DEFAULT| view is used when the
:policy:`CMP0134` policy is ``NEW``. Refer to :policy:`CMP0134` for the
default view when the policy is ``OLD``.
``64``
Query the 64-bit registry. On 32-bit Windows, it always returns the string
``/REGISTRY-NOTFOUND``.
``32``
Query the 32-bit registry.
``64_32``
Query both views (``64`` and ``32``) and generate a path for each.
``32_64``
Query both views (``32`` and ``64``) and generate a path for each.
``HOST``
Query the registry matching the architecture of the host: ``64`` on 64-bit
Windows and ``32`` on 32-bit Windows.
``TARGET``
Query the registry matching the architecture specified by the
:variable:`CMAKE_SIZEOF_VOID_P` variable. If not defined, fall back to
``HOST`` view.
``BOTH``
Query both views (``32`` and ``64``). The order depends on the following
rules: If the :variable:`CMAKE_SIZEOF_VOID_P` variable is defined, use the
following view depending on the content of this variable:
* ``8``: ``64_32``
* ``4``: ``32_64``
If the :variable:`CMAKE_SIZEOF_VOID_P` variable is not defined, rely on the
architecture of the host:
* 64-bit: ``64_32``
* 32-bit: ``32``
Specify which registry views must be queried. This option is only meaningful
on ``Windows`` platforms and will be ignored on other ones. When not
specified, the |FIND_XXX_REGISTRY_VIEW_DEFAULT| view is used when the
:policy:`CMP0134` policy is ``NEW``. Refer to :policy:`CMP0134` for the
default view when the policy is ``OLD``.
``64``
Query the 64-bit registry. On 32-bit Windows, it always returns the string
``/REGISTRY-NOTFOUND``.
``32``
Query the 32-bit registry.
``64_32``
Query both views (``64`` and ``32``) and generate a path for each.
``32_64``
Query both views (``32`` and ``64``) and generate a path for each.
``HOST``
Query the registry matching the architecture of the host: ``64`` on 64-bit
Windows and ``32`` on 32-bit Windows.
``TARGET``
Query the registry matching the architecture specified by the
:variable:`CMAKE_SIZEOF_VOID_P` variable. If not defined, fall back to
``HOST`` view.
``BOTH``
Query both views (``32`` and ``64``). The order depends on the following
rules: If the :variable:`CMAKE_SIZEOF_VOID_P` variable is defined, use the
following view depending on the content of this variable:
* ``8``: ``64_32``
* ``4``: ``32_64``
If the :variable:`CMAKE_SIZEOF_VOID_P` variable is not defined, rely on the
architecture of the host:
* 64-bit: ``64_32``
* 32-bit: ``32``

58
cmake/share/cmake-3.27/Help/command/FIND_XXX_ROOT.txt → cmake/share/cmake-3.30/Help/command/FIND_XXX_ROOT.txt
View File

@ -1,29 +1,29 @@
The CMake variable :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.
Paths which are descendants of the :variable:`CMAKE_STAGING_PREFIX` are excluded
from this re-rooting, because that variable is always a path on the host system.
By default the :variable:`CMAKE_FIND_ROOT_PATH` is empty.
The :variable:`CMAKE_SYSROOT` variable can also be used to specify exactly one
directory to use as a prefix. Setting :variable:`CMAKE_SYSROOT` also has other
effects. See the documentation for that variable for more.
These variables are 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
:variable:`CMAKE_FIND_ROOT_PATH` are searched, then the :variable:`CMAKE_SYSROOT`
directory is searched, and then the non-rooted directories will be
searched. The default behavior can be adjusted by setting
|CMAKE_FIND_ROOT_PATH_MODE_XXX|. This behavior can be manually
overridden on a per-call basis using options:
``CMAKE_FIND_ROOT_PATH_BOTH``
Search in the order described above.
``NO_CMAKE_FIND_ROOT_PATH``
Do not use the :variable:`CMAKE_FIND_ROOT_PATH` variable.
``ONLY_CMAKE_FIND_ROOT_PATH``
Search only the re-rooted directories and directories below
:variable:`CMAKE_STAGING_PREFIX`.
The CMake variable :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.
Paths which are descendants of the :variable:`CMAKE_STAGING_PREFIX` are excluded
from this re-rooting, because that variable is always a path on the host system.
By default the :variable:`CMAKE_FIND_ROOT_PATH` is empty.
The :variable:`CMAKE_SYSROOT` variable can also be used to specify exactly one
directory to use as a prefix. Setting :variable:`CMAKE_SYSROOT` also has other
effects. See the documentation for that variable for more.
These variables are 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
:variable:`CMAKE_FIND_ROOT_PATH` are searched, then the :variable:`CMAKE_SYSROOT`
directory is searched, and then the non-rooted directories will be
searched. The default behavior can be adjusted by setting
|CMAKE_FIND_ROOT_PATH_MODE_XXX|. This behavior can be manually
overridden on a per-call basis using options:
``CMAKE_FIND_ROOT_PATH_BOTH``
Search in the order described above.
``NO_CMAKE_FIND_ROOT_PATH``
Do not use the :variable:`CMAKE_FIND_ROOT_PATH` variable.
``ONLY_CMAKE_FIND_ROOT_PATH``
Search only the re-rooted directories and directories below
:variable:`CMAKE_STAGING_PREFIX`.

12
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@ -1,6 +1,6 @@
.. |more_see_also| replace:: See the :manual:`cmake-buildsystem(7)` manual
for more on defining buildsystem properties.
Arguments to |command_name| may use generator expressions
with the syntax ``$<...>``. See the :manual:`cmake-generator-expressions(7)`
manual for available expressions. |more_see_also|
.. |more_see_also| replace:: See the :manual:`cmake-buildsystem(7)` manual
for more on defining buildsystem properties.
Arguments to |command_name| may use generator expressions
with the syntax ``$<...>``. See the :manual:`cmake-generator-expressions(7)`
manual for available expressions. |more_see_also|

50
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@ -1,25 +1,25 @@
Handling Compiler Driver Differences
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
To pass options to the linker tool, each compiler driver has its own syntax.
The ``LINKER:`` prefix and ``,`` separator can be used to specify, in a portable
way, options to pass to the linker tool. ``LINKER:`` is replaced by the
appropriate driver option and ``,`` by the appropriate driver separator.
The driver prefix and driver separator are given by the values of the
:variable:`CMAKE_<LANG>_LINKER_WRAPPER_FLAG` and
:variable:`CMAKE_<LANG>_LINKER_WRAPPER_FLAG_SEP` variables.
For example, ``"LINKER:-z,defs"`` becomes ``-Xlinker -z -Xlinker defs`` for
``Clang`` and ``-Wl,-z,defs`` for ``GNU GCC``.
The ``LINKER:`` prefix can be specified as part of a ``SHELL:`` prefix
expression.
The ``LINKER:`` prefix supports, as an alternative syntax, specification of
arguments using the ``SHELL:`` prefix and space as separator. The previous
example then becomes ``"LINKER:SHELL:-z defs"``.
.. note::
Specifying the ``SHELL:`` prefix anywhere other than at the beginning of the
``LINKER:`` prefix is not supported.
Handling Compiler Driver Differences
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
To pass options to the linker tool, each compiler driver has its own syntax.
The ``LINKER:`` prefix and ``,`` separator can be used to specify, in a portable
way, options to pass to the linker tool. ``LINKER:`` is replaced by the
appropriate driver option and ``,`` by the appropriate driver separator.
The driver prefix and driver separator are given by the values of the
:variable:`CMAKE_<LANG>_LINKER_WRAPPER_FLAG` and
:variable:`CMAKE_<LANG>_LINKER_WRAPPER_FLAG_SEP` variables.
For example, ``"LINKER:-z,defs"`` becomes ``-Xlinker -z -Xlinker defs`` for
``Clang`` and ``-Wl,-z,defs`` for ``GNU GCC``.
The ``LINKER:`` prefix can be specified as part of a ``SHELL:`` prefix
expression.
The ``LINKER:`` prefix supports, as an alternative syntax, specification of
arguments using the ``SHELL:`` prefix and space as separator. The previous
example then becomes ``"LINKER:SHELL:-z defs"``.
.. note::
Specifying the ``SHELL:`` prefix anywhere other than at the beginning of the
``LINKER:`` prefix is not supported.

30
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@ -1,15 +1,15 @@
Option De-duplication
^^^^^^^^^^^^^^^^^^^^^
The final set of options used for a target is constructed by
accumulating options from the current target and the usage requirements of
its dependencies. The set of options is de-duplicated to avoid repetition.
.. versionadded:: 3.12
While beneficial for individual options, the de-duplication step can break
up option groups. For example, ``-option A -option B`` becomes
``-option A B``. One may specify a group of options using shell-like
quoting along with a ``SHELL:`` prefix. The ``SHELL:`` prefix is dropped,
and the rest of the option string is parsed using the
:command:`separate_arguments` ``UNIX_COMMAND`` mode. For example,
``"SHELL:-option A" "SHELL:-option B"`` becomes ``-option A -option B``.
Option De-duplication
^^^^^^^^^^^^^^^^^^^^^
The final set of options used for a target is constructed by
accumulating options from the current target and the usage requirements of
its dependencies. The set of options is de-duplicated to avoid repetition.
.. versionadded:: 3.12
While beneficial for individual options, the de-duplication step can break
up option groups. For example, ``-option A -option B`` becomes
``-option A B``. One may specify a group of options using shell-like
quoting along with a ``SHELL:`` prefix. The ``SHELL:`` prefix is dropped,
and the rest of the option string is parsed using the
:command:`separate_arguments` ``UNIX_COMMAND`` mode. For example,
``"SHELL:-option A" "SHELL:-option B"`` becomes ``-option A -option B``.

50
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@ -1,25 +1,25 @@
Supported languages are ``C``, ``CXX`` (i.e. C++), ``CSharp`` (i.e. C#), ``CUDA``,
``OBJC`` (i.e. Objective-C), ``OBJCXX`` (i.e. Objective-C++), ``Fortran``, ``HIP``,
``ISPC``, ``Swift``, ``ASM``, ``ASM_NASM``, ``ASM_MARMASM``, ``ASM_MASM``, and ``ASM-ATT``.
.. versionadded:: 3.8
Added ``CSharp`` and ``CUDA`` support.
.. versionadded:: 3.15
Added ``Swift`` support.
.. versionadded:: 3.16
Added ``OBJC`` and ``OBJCXX`` support.
.. versionadded:: 3.18
Added ``ISPC`` support.
.. versionadded:: 3.21
Added ``HIP`` support.
.. versionadded:: 3.26
Added ``ASM_MARMASM`` support.
If enabling ``ASM``, list it last so that CMake can check whether
compilers for other languages like ``C`` work for assembly too.
Supported languages are ``C``, ``CXX`` (i.e. C++), ``CSharp`` (i.e. C#), ``CUDA``,
``OBJC`` (i.e. Objective-C), ``OBJCXX`` (i.e. Objective-C++), ``Fortran``, ``HIP``,
``ISPC``, ``Swift``, ``ASM``, ``ASM_NASM``, ``ASM_MARMASM``, ``ASM_MASM``, and ``ASM-ATT``.
.. versionadded:: 3.8
Added ``CSharp`` and ``CUDA`` support.
.. versionadded:: 3.15
Added ``Swift`` support.
.. versionadded:: 3.16
Added ``OBJC`` and ``OBJCXX`` support.
.. versionadded:: 3.18
Added ``ISPC`` support.
.. versionadded:: 3.21
Added ``HIP`` support.
.. versionadded:: 3.26
Added ``ASM_MARMASM`` support.
If enabling ``ASM``, list it last so that CMake can check whether
compilers for other languages like ``C`` work for assembly too.

18
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@ -1,9 +1,9 @@
.. note::
When evaluating :ref:`Variable References` of the form ``${VAR}``, CMake
first searches for a normal variable with that name. If no such normal
variable exists, CMake will then search for a cache entry with that name.
Because of this, **unsetting a normal variable can expose a cache variable
that was previously hidden**. To force a variable reference of the form
``${VAR}`` to return an empty string, use ``set(<variable> "")``, which
clears the normal variable but leaves it defined.
.. note::
When evaluating :ref:`Variable References` of the form ``${VAR}``, CMake
first searches for a normal variable with that name. If no such normal
variable exists, CMake will then search for a cache entry with that name.
Because of this, **unsetting a normal variable can expose a cache variable
that was previously hidden**. To force a variable reference of the form
``${VAR}`` to return an empty string, use ``set(<variable> "")``, which
clears the normal variable but leaves it defined.

66
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@ -1,33 +1,33 @@
add_compile_definitions
-----------------------
.. versionadded:: 3.12
Add preprocessor definitions to the compilation of source files.
.. code-block:: cmake
add_compile_definitions(<definition> ...)
Adds preprocessor definitions to the compiler command line.
The preprocessor definitions are added to the :prop_dir:`COMPILE_DEFINITIONS`
directory property for the current ``CMakeLists`` file. They are also added to
the :prop_tgt:`COMPILE_DEFINITIONS` target property for each target in the
current ``CMakeLists`` file.
Definitions are specified 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).
.. versionadded:: 3.26
Any leading ``-D`` on an item will be removed.
.. |command_name| replace:: ``add_compile_definitions``
.. include:: GENEX_NOTE.txt
See Also
^^^^^^^^
* The command :command:`target_compile_definitions` adds target-specific definitions.
add_compile_definitions
-----------------------
.. versionadded:: 3.12
Add preprocessor definitions to the compilation of source files.
.. code-block:: cmake
add_compile_definitions(<definition> ...)
Adds preprocessor definitions to the compiler command line.
The preprocessor definitions are added to the :prop_dir:`COMPILE_DEFINITIONS`
directory property for the current ``CMakeLists`` file. They are also added to
the :prop_tgt:`COMPILE_DEFINITIONS` target property for each target in the
current ``CMakeLists`` file.
Definitions are specified 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).
.. versionadded:: 3.26
Any leading ``-D`` on an item will be removed.
.. |command_name| replace:: ``add_compile_definitions``
.. include:: GENEX_NOTE.txt
See Also
^^^^^^^^
* The command :command:`target_compile_definitions` adds target-specific definitions.

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@ -1,67 +1,67 @@
add_compile_options
-------------------
Add options to the compilation of source files.
.. code-block:: cmake
add_compile_options(<option> ...)
Adds options to the :prop_dir:`COMPILE_OPTIONS` directory property.
These options are used when compiling targets from the current
directory and below.
.. note::
These options are not used when linking.
See the :command:`add_link_options` command for that.
Arguments
^^^^^^^^^
.. |command_name| replace:: ``add_compile_options``
.. include:: GENEX_NOTE.txt
.. include:: OPTIONS_SHELL.txt
Example
^^^^^^^
Since different compilers support different options, a typical use of
this command is in a compiler-specific conditional clause:
.. code-block:: cmake
if (MSVC)
# warning level 4
add_compile_options(/W4)
else()
# additional warnings
add_compile_options(-Wall -Wextra -Wpedantic)
endif()
To set per-language options, use the :genex:`$<COMPILE_LANGUAGE>`
or :genex:`$<COMPILE_LANGUAGE:languages>` generator expressions.
See Also
^^^^^^^^
* This command can be used to add any options. However, for
adding preprocessor definitions and include directories it is recommended
to use the more specific commands :command:`add_compile_definitions`
and :command:`include_directories`.
* The command :command:`target_compile_options` adds target-specific options.
* This command adds compile options for all languages.
Use the :genex:`COMPILE_LANGUAGE` generator expression to specify
per-language compile options.
* The source file property :prop_sf:`COMPILE_OPTIONS` adds options to one
source file.
* :command:`add_link_options` adds options for linking.
* :variable:`CMAKE_<LANG>_FLAGS` and :variable:`CMAKE_<LANG>_FLAGS_<CONFIG>`
add language-wide flags passed to all invocations of the compiler.
This includes invocations that drive compiling and those that drive linking.
add_compile_options
-------------------
Add options to the compilation of source files.
.. code-block:: cmake
add_compile_options(<option> ...)
Adds options to the :prop_dir:`COMPILE_OPTIONS` directory property.
These options are used when compiling targets from the current
directory and below.
.. note::
These options are not used when linking.
See the :command:`add_link_options` command for that.
Arguments
^^^^^^^^^
.. |command_name| replace:: ``add_compile_options``
.. include:: GENEX_NOTE.txt
.. include:: OPTIONS_SHELL.txt
Example
^^^^^^^
Since different compilers support different options, a typical use of
this command is in a compiler-specific conditional clause:
.. code-block:: cmake
if (MSVC)
# warning level 4
add_compile_options(/W4)
else()
# additional warnings
add_compile_options(-Wall -Wextra -Wpedantic)
endif()
To set per-language options, use the :genex:`$<COMPILE_LANGUAGE>`
or :genex:`$<COMPILE_LANGUAGE:languages>` generator expressions.
See Also
^^^^^^^^
* This command can be used to add any options. However, for
adding preprocessor definitions and include directories it is recommended
to use the more specific commands :command:`add_compile_definitions`
and :command:`include_directories`.
* The command :command:`target_compile_options` adds target-specific options.
* This command adds compile options for all languages.
Use the :genex:`COMPILE_LANGUAGE` generator expression to specify
per-language compile options.
* The source file property :prop_sf:`COMPILE_OPTIONS` adds options to one
source file.
* :command:`add_link_options` adds options for linking.
* :variable:`CMAKE_<LANG>_FLAGS` and :variable:`CMAKE_<LANG>_FLAGS_<CONFIG>`
add language-wide flags passed to all invocations of the compiler.
This includes invocations that drive compiling and those that drive linking.

1192
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@ -1,192 +1,211 @@
add_custom_target
-----------------
Add a target with no output so it will always be built.
.. code-block:: cmake
add_custom_target(Name [ALL] [command1 [args1...]]
[COMMAND command2 [args2...] ...]
[DEPENDS depend depend depend ... ]
[BYPRODUCTS [files...]]
[WORKING_DIRECTORY dir]
[COMMENT comment]
[JOB_POOL job_pool]
[VERBATIM] [USES_TERMINAL]
[COMMAND_EXPAND_LISTS]
[SOURCES src1 [src2...]])
Adds a target with the given name that executes the given commands.
The target has no output file and is *always considered out of date*
even if the commands try to create a file with the name of the target.
Use the :command:`add_custom_command` command to generate a file with
dependencies. By default nothing depends on the custom target. Use
the :command:`add_dependencies` command to add dependencies to or
from other targets.
The options are:
``ALL``
Indicate that this target should be added to the default build
target so that it will be run every time (the command cannot be
called ``ALL``).
``BYPRODUCTS``
.. versionadded:: 3.2
Specify the files the command is expected to produce but whose
modification time may or may not be updated on subsequent builds.
If a byproduct name is a relative path it will be interpreted
relative to the build tree directory corresponding to the
current source directory.
Each byproduct file will be marked with the :prop_sf:`GENERATED`
source file property automatically.
*See policy* :policy:`CMP0058` *for the motivation behind this feature.*
Explicit specification of byproducts is supported by the
:generator:`Ninja` generator to tell the ``ninja`` build tool
how to regenerate byproducts when they are missing. It is
also useful when other build rules (e.g. custom commands)
depend on the byproducts. Ninja requires a build rule for any
generated file on which another rule depends even if there are
order-only dependencies to ensure the byproducts will be
available before their dependents build.
The :ref:`Makefile Generators` will remove ``BYPRODUCTS`` and other
:prop_sf:`GENERATED` files during ``make clean``.
.. versionadded:: 3.20
Arguments to ``BYPRODUCTS`` may use a restricted set of
:manual:`generator expressions <cmake-generator-expressions(7)>`.
:ref:`Target-dependent expressions <Target-Dependent Queries>` are not
permitted.
``COMMAND``
Specify the command-line(s) to execute at build time.
If more than one ``COMMAND`` is specified they will be executed in order,
but *not* necessarily composed into a stateful shell or batch script.
(To run a full script, use the :command:`configure_file` command or the
:command:`file(GENERATE)` command to create it, and then specify
a ``COMMAND`` to launch it.)
If ``COMMAND`` specifies an executable target name (created by the
:command:`add_executable` command), it will automatically be replaced
by the location of the executable created at build time if either of
the following is true:
* The target is not being cross-compiled (i.e. the
:variable:`CMAKE_CROSSCOMPILING` variable is not set to true).
* .. versionadded:: 3.6
The target is being cross-compiled and an emulator is provided (i.e.
its :prop_tgt:`CROSSCOMPILING_EMULATOR` target property is set).
In this case, the contents of :prop_tgt:`CROSSCOMPILING_EMULATOR` will be
prepended to the command before the location of the target executable.
If neither of the above conditions are met, it is assumed that the
command name is a program to be found on the ``PATH`` at build time.
Arguments to ``COMMAND`` may use
:manual:`generator expressions <cmake-generator-expressions(7)>`.
Use the :genex:`TARGET_FILE` generator expression to refer to the location
of a target later in the command line (i.e. as a command argument rather
than as the command to execute).
Whenever one of the following target based generator expressions are used as
a command to execute or is mentioned in a command argument, a target-level
dependency will be added automatically so that the mentioned target will be
built before this custom target (see policy :policy:`CMP0112`).
* ``TARGET_FILE``
* ``TARGET_LINKER_FILE``
* ``TARGET_SONAME_FILE``
* ``TARGET_PDB_FILE``
The command and arguments are optional and if not specified an empty
target will be created.
``COMMENT``
Display the given message before the commands are executed at
build time.
.. versionadded:: 3.26
Arguments to ``COMMENT`` may use
:manual:`generator expressions <cmake-generator-expressions(7)>`.
``DEPENDS``
Reference files and outputs of custom commands created with
:command:`add_custom_command` command calls in the same directory
(``CMakeLists.txt`` file). They will be brought up to date when
the target is built.
.. versionchanged:: 3.16
A target-level dependency is added if any dependency is a byproduct
of a target or any of its build events in the same directory to ensure
the byproducts will be available before this target is built.
Use the :command:`add_dependencies` command to add dependencies
on other targets.
``COMMAND_EXPAND_LISTS``
.. versionadded:: 3.8
Lists in ``COMMAND`` arguments will be expanded, including those
created with
:manual:`generator expressions <cmake-generator-expressions(7)>`,
allowing ``COMMAND`` arguments such as
``${CC} "-I$<JOIN:$<TARGET_PROPERTY:foo,INCLUDE_DIRECTORIES>,;-I>" foo.cc``
to be properly expanded.
``JOB_POOL``
.. versionadded:: 3.15
Specify a :prop_gbl:`pool <JOB_POOLS>` for the :generator:`Ninja`
generator. Incompatible with ``USES_TERMINAL``, which implies
the ``console`` pool.
Using a pool that is not defined by :prop_gbl:`JOB_POOLS` causes
an error by ninja at build time.
``SOURCES``
Specify additional source files to be included in the custom target.
Specified source files will be added to IDE project files for
convenience in editing even if they have no build rules.
``VERBATIM``
All arguments to the commands will be escaped properly for the
build tool so that the invoked command receives each argument
unchanged. Note that one level of escapes is still used by the
CMake language processor before ``add_custom_target`` even sees
the arguments. Use of ``VERBATIM`` is recommended as it enables
correct behavior. When ``VERBATIM`` is not given the behavior
is platform specific because there is no protection of
tool-specific special characters.
``USES_TERMINAL``
.. versionadded:: 3.2
The command will be given direct access to the terminal if possible.
With the :generator:`Ninja` generator, this places the command in
the ``console`` :prop_gbl:`pool <JOB_POOLS>`.
``WORKING_DIRECTORY``
Execute the command with the given current working directory.
If it is a relative path it will be interpreted relative to the
build tree directory corresponding to the current source directory.
.. versionadded:: 3.13
Arguments to ``WORKING_DIRECTORY`` may use
:manual:`generator expressions <cmake-generator-expressions(7)>`.
Ninja Multi-Config
^^^^^^^^^^^^^^^^^^
.. versionadded:: 3.20
``add_custom_target`` supports the :generator:`Ninja Multi-Config`
generator's cross-config capabilities. See the generator documentation
for more information.
See Also
^^^^^^^^
* :command:`add_custom_command`
add_custom_target
-----------------
Add a target with no output so it will always be built.
.. code-block:: cmake
add_custom_target(Name [ALL] [command1 [args1...]]
[COMMAND command2 [args2...] ...]
[DEPENDS depend depend depend ... ]
[BYPRODUCTS [files...]]
[WORKING_DIRECTORY dir]
[COMMENT comment]
[JOB_POOL job_pool]
[JOB_SERVER_AWARE <bool>]
[VERBATIM] [USES_TERMINAL]
[COMMAND_EXPAND_LISTS]
[SOURCES src1 [src2...]])
Adds a target with the given name that executes the given commands.
The target has no output file and is *always considered out of date*
even if the commands try to create a file with the name of the target.
Use the :command:`add_custom_command` command to generate a file with
dependencies. By default nothing depends on the custom target. Use
the :command:`add_dependencies` command to add dependencies to or
from other targets.
The options are:
``ALL``
Indicate that this target should be added to the default build
target so that it will be run every time (the command cannot be
called ``ALL``).
``BYPRODUCTS``
.. versionadded:: 3.2
Specify the files the command is expected to produce but whose
modification time may or may not be updated on subsequent builds.
If a byproduct name is a relative path it will be interpreted
relative to the build tree directory corresponding to the
current source directory.
Each byproduct file will be marked with the :prop_sf:`GENERATED`
source file property automatically.
*See policy* :policy:`CMP0058` *for the motivation behind this feature.*
Explicit specification of byproducts is supported by the
:generator:`Ninja` generator to tell the ``ninja`` build tool
how to regenerate byproducts when they are missing. It is
also useful when other build rules (e.g. custom commands)
depend on the byproducts. Ninja requires a build rule for any
generated file on which another rule depends even if there are
order-only dependencies to ensure the byproducts will be
available before their dependents build.
The :ref:`Makefile Generators` will remove ``BYPRODUCTS`` and other
:prop_sf:`GENERATED` files during ``make clean``.
.. versionadded:: 3.20
Arguments to ``BYPRODUCTS`` may use a restricted set of
:manual:`generator expressions <cmake-generator-expressions(7)>`.
:ref:`Target-dependent expressions <Target-Dependent Expressions>`
are not permitted.
.. versionchanged:: 3.28
In custom targets using :ref:`file sets`, byproducts are now
considered private unless they are listed in a non-private file set.
See policy :policy:`CMP0154`.
``COMMAND``
Specify the command-line(s) to execute at build time.
If more than one ``COMMAND`` is specified they will be executed in order,
but *not* necessarily composed into a stateful shell or batch script.
(To run a full script, use the :command:`configure_file` command or the
:command:`file(GENERATE)` command to create it, and then specify
a ``COMMAND`` to launch it.)
If ``COMMAND`` specifies an executable target name (created by the
:command:`add_executable` command), it will automatically be replaced
by the location of the executable created at build time if either of
the following is true:
* The target is not being cross-compiled (i.e. the
:variable:`CMAKE_CROSSCOMPILING` variable is not set to true).
* .. versionadded:: 3.6
The target is being cross-compiled and an emulator is provided (i.e.
its :prop_tgt:`CROSSCOMPILING_EMULATOR` target property is set).
In this case, the contents of :prop_tgt:`CROSSCOMPILING_EMULATOR` will be
prepended to the command before the location of the target executable.
If neither of the above conditions are met, it is assumed that the
command name is a program to be found on the ``PATH`` at build time.
Arguments to ``COMMAND`` may use
:manual:`generator expressions <cmake-generator-expressions(7)>`.
Use the :genex:`TARGET_FILE` generator expression to refer to the location
of a target later in the command line (i.e. as a command argument rather
than as the command to execute).
Whenever one of the following target based generator expressions are used as
a command to execute or is mentioned in a command argument, a target-level
dependency will be added automatically so that the mentioned target will be
built before this custom target (see policy :policy:`CMP0112`).
* ``TARGET_FILE``
* ``TARGET_LINKER_FILE``
* ``TARGET_SONAME_FILE``
* ``TARGET_PDB_FILE``
The command and arguments are optional and if not specified an empty
target will be created.
``COMMENT``
Display the given message before the commands are executed at
build time.
.. versionadded:: 3.26
Arguments to ``COMMENT`` may use
:manual:`generator expressions <cmake-generator-expressions(7)>`.
``DEPENDS``
Reference files and outputs of custom commands created with
:command:`add_custom_command` command calls in the same directory
(``CMakeLists.txt`` file). They will be brought up to date when
the target is built.
.. versionchanged:: 3.16
A target-level dependency is added if any dependency is a byproduct
of a target or any of its build events in the same directory to ensure
the byproducts will be available before this target is built.
Use the :command:`add_dependencies` command to add dependencies
on other targets.
``COMMAND_EXPAND_LISTS``
.. versionadded:: 3.8
Lists in ``COMMAND`` arguments will be expanded, including those
created with
:manual:`generator expressions <cmake-generator-expressions(7)>`,
allowing ``COMMAND`` arguments such as
``${CC} "-I$<JOIN:$<TARGET_PROPERTY:foo,INCLUDE_DIRECTORIES>,;-I>" foo.cc``
to be properly expanded.
``JOB_POOL``
.. versionadded:: 3.15
Specify a :prop_gbl:`pool <JOB_POOLS>` for the :generator:`Ninja`
generator. Incompatible with ``USES_TERMINAL``, which implies
the ``console`` pool.
Using a pool that is not defined by :prop_gbl:`JOB_POOLS` causes
an error by ninja at build time.
``JOB_SERVER_AWARE``
.. versionadded:: 3.28
Specify that the command is GNU Make job server aware.
For the :generator:`Unix Makefiles`, :generator:`MSYS Makefiles`, and
:generator:`MinGW Makefiles` generators this will add the ``+`` prefix to the
recipe line. See the `GNU Make Documentation`_ for more information.
This option is silently ignored by other generators.
.. _`GNU Make Documentation`: https://www.gnu.org/software/make/manual/html_node/MAKE-Variable.html
``SOURCES``
Specify additional source files to be included in the custom target.
Specified source files will be added to IDE project files for
convenience in editing even if they have no build rules.
``VERBATIM``
All arguments to the commands will be escaped properly for the
build tool so that the invoked command receives each argument
unchanged. Note that one level of escapes is still used by the
CMake language processor before ``add_custom_target`` even sees
the arguments. Use of ``VERBATIM`` is recommended as it enables
correct behavior. When ``VERBATIM`` is not given the behavior
is platform specific because there is no protection of
tool-specific special characters.
``USES_TERMINAL``
.. versionadded:: 3.2
The command will be given direct access to the terminal if possible.
With the :generator:`Ninja` generator, this places the command in
the ``console`` :prop_gbl:`pool <JOB_POOLS>`.
``WORKING_DIRECTORY``
Execute the command with the given current working directory.
If it is a relative path it will be interpreted relative to the
build tree directory corresponding to the current source directory.
.. versionadded:: 3.13
Arguments to ``WORKING_DIRECTORY`` may use
:manual:`generator expressions <cmake-generator-expressions(7)>`.
Ninja Multi-Config
^^^^^^^^^^^^^^^^^^
.. versionadded:: 3.20
``add_custom_target`` supports the :generator:`Ninja Multi-Config`
generator's cross-config capabilities. See the generator documentation
for more information.
See Also
^^^^^^^^
* :command:`add_custom_command`

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add_definitions
---------------
Add ``-D`` define flags to the compilation of source files.
.. code-block:: cmake
add_definitions(-DFOO -DBAR ...)
Adds definitions to the compiler command line for targets in the current
directory, whether added before or after this command is invoked, and for
the ones in sub-directories added after. This command can be used to add any
flags, but it is intended to add preprocessor definitions.
.. note::
This command has been superseded by alternatives:
* Use :command:`add_compile_definitions` to add preprocessor definitions.
* Use :command:`include_directories` to add include directories.
* Use :command:`add_compile_options` to add other options.
Flags beginning in ``-D`` or ``/D`` that look like preprocessor definitions are
automatically added to the :prop_dir:`COMPILE_DEFINITIONS` directory
property for the current directory. Definitions with non-trivial values
may be left in the set of flags instead of being converted for reasons of
backwards compatibility. See documentation of the
:prop_dir:`directory <COMPILE_DEFINITIONS>`,
:prop_tgt:`target <COMPILE_DEFINITIONS>`,
:prop_sf:`source file <COMPILE_DEFINITIONS>` ``COMPILE_DEFINITIONS``
properties for details on adding preprocessor definitions to specific
scopes and configurations.
See Also
^^^^^^^^
* The :manual:`cmake-buildsystem(7)` manual for more on defining
buildsystem properties.
add_definitions
---------------
Add ``-D`` define flags to the compilation of source files.
.. code-block:: cmake
add_definitions(-DFOO -DBAR ...)
Adds definitions to the compiler command line for targets in the current
directory, whether added before or after this command is invoked, and for
the ones in sub-directories added after. This command can be used to add any
flags, but it is intended to add preprocessor definitions.
.. note::
This command has been superseded by alternatives:
* Use :command:`add_compile_definitions` to add preprocessor definitions.
* Use :command:`include_directories` to add include directories.
* Use :command:`add_compile_options` to add other options.
Flags beginning in ``-D`` or ``/D`` that look like preprocessor definitions are
automatically added to the :prop_dir:`COMPILE_DEFINITIONS` directory
property for the current directory. Definitions with non-trivial values
may be left in the set of flags instead of being converted for reasons of
backwards compatibility. See documentation of the
:prop_dir:`directory <COMPILE_DEFINITIONS>`,
:prop_tgt:`target <COMPILE_DEFINITIONS>`,
:prop_sf:`source file <COMPILE_DEFINITIONS>` ``COMPILE_DEFINITIONS``
properties for details on adding preprocessor definitions to specific
scopes and configurations.
See Also
^^^^^^^^
* The :manual:`cmake-buildsystem(7)` manual for more on defining
buildsystem properties.

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add_dependencies
----------------
Add a dependency between top-level targets.
.. code-block:: cmake
add_dependencies(<target> [<target-dependency>]...)
Makes a top-level ``<target>`` depend on other top-level targets to
ensure that they build before ``<target>`` does. A top-level target
is one created by one of the :command:`add_executable`,
:command:`add_library`, or :command:`add_custom_target` commands
(but not targets generated by CMake like ``install``).
Dependencies added to an :ref:`imported target <Imported Targets>`
or an :ref:`interface library <Interface Libraries>` are followed
transitively in its place since the target itself does not build.
.. versionadded:: 3.3
Allow adding dependencies to interface libraries.
See Also
^^^^^^^^
* The ``DEPENDS`` option of :command:`add_custom_target` and
:command:`add_custom_command` commands for adding file-level
dependencies in custom rules.
* The :prop_sf:`OBJECT_DEPENDS` source file property to add
file-level dependencies to object files.
add_dependencies
----------------
Add a dependency between top-level targets.
.. code-block:: cmake
add_dependencies(<target> [<target-dependency>]...)
Makes a top-level ``<target>`` depend on other top-level targets to
ensure that they build before ``<target>`` does. A top-level target
is one created by one of the :command:`add_executable`,
:command:`add_library`, or :command:`add_custom_target` commands
(but not targets generated by CMake like ``install``).
Dependencies added to an :ref:`imported target <Imported Targets>`
or an :ref:`interface library <Interface Libraries>` are followed
transitively in its place since the target itself does not build.
.. versionadded:: 3.3
Allow adding dependencies to interface libraries.
.. versionadded:: 3.8
Dependencies will populate the :prop_tgt:`MANUALLY_ADDED_DEPENDENCIES`
property of ``<target>``.
.. versionchanged:: 3.9
The :ref:`Ninja Generators` use weaker ordering than
other generators in order to improve available concurrency.
They only guarantee that the dependencies' custom commands are
finished before sources in ``<target>`` start compiling; this
ensures generated sources are available.
See Also
^^^^^^^^
* The ``DEPENDS`` option of :command:`add_custom_target` and
:command:`add_custom_command` commands for adding file-level
dependencies in custom rules.
* The :prop_sf:`OBJECT_DEPENDS` source file property to add
file-level dependencies to object files.

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add_executable
--------------
.. only:: html
.. contents::
Add an executable to the project using the specified source files.
Normal Executables
^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_executable(<name> [WIN32] [MACOSX_BUNDLE]
[EXCLUDE_FROM_ALL]
[source1] [source2 ...])
Adds an executable target called ``<name>`` to be built from the source
files listed in the command invocation. The
``<name>`` corresponds to the logical target name and must be globally
unique within a project. The actual file name of the executable built is
constructed based on conventions of the native platform (such as
``<name>.exe`` or just ``<name>``).
.. versionadded:: 3.1
Source arguments to ``add_executable`` may use "generator expressions" with
the syntax ``$<...>``. See the :manual:`cmake-generator-expressions(7)`
manual for available expressions.
.. versionadded:: 3.11
The source files can be omitted if they are added later using
:command:`target_sources`.
By default the executable file will be created in the build tree
directory corresponding to the source tree directory in which the
command was invoked. See documentation of the
:prop_tgt:`RUNTIME_OUTPUT_DIRECTORY` target property to change this
location. See documentation of the :prop_tgt:`OUTPUT_NAME` target property
to change the ``<name>`` part of the final file name.
If ``WIN32`` is given the property :prop_tgt:`WIN32_EXECUTABLE` will be
set on the target created. See documentation of that target property for
details.
If ``MACOSX_BUNDLE`` is given the corresponding property will be set on
the created target. See documentation of the :prop_tgt:`MACOSX_BUNDLE`
target property for details.
If ``EXCLUDE_FROM_ALL`` is given the corresponding property will be set on
the created target. See documentation of the :prop_tgt:`EXCLUDE_FROM_ALL`
target property for details.
See the :manual:`cmake-buildsystem(7)` manual for more on defining
buildsystem properties.
See also :prop_sf:`HEADER_FILE_ONLY` on what to do if some sources are
pre-processed, and you want to have the original sources reachable from
within IDE.
Imported Executables
^^^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_executable(<name> IMPORTED [GLOBAL])
An :ref:`IMPORTED executable target <Imported Targets>` references an
executable file located outside the project. No rules are generated to
build it, and the :prop_tgt:`IMPORTED` target property is ``True``. The
target name has scope in the directory in which it is created and below, but
the ``GLOBAL`` option extends visibility. It may be referenced like any
target built within the project. ``IMPORTED`` executables are useful
for convenient reference from commands like :command:`add_custom_command`.
Details about the imported executable are specified by setting properties
whose names begin in ``IMPORTED_``. The most important such property is
:prop_tgt:`IMPORTED_LOCATION` (and its per-configuration version
:prop_tgt:`IMPORTED_LOCATION_<CONFIG>`) which specifies the location of
the main executable file on disk. See documentation of the ``IMPORTED_*``
properties for more information.
Alias Executables
^^^^^^^^^^^^^^^^^
.. code-block:: cmake
add_executable(<name> ALIAS <target>)
Creates an :ref:`Alias Target <Alias Targets>`, such that ``<name>`` can
be used to refer to ``<target>`` in subsequent commands. The ``<name>``
does not appear in the generated buildsystem as a make target. The
``<target>`` may not be an ``ALIAS``.
.. versionadded:: 3.11
An ``ALIAS`` can target a ``GLOBAL`` :ref:`Imported Target <Imported Targets>`
.. versionadded:: 3.18
An ``ALIAS`` can target a non-``GLOBAL`` Imported Target. Such alias is
scoped to the directory in which it is created and subdirectories.
The :prop_tgt:`ALIAS_GLOBAL` target property can be used to check if the
alias is global or not.
``ALIAS`` targets can be used as targets to read properties
from, executables for custom commands and custom targets. They can also be
tested for existence with the regular :command:`if(TARGET)` subcommand.
The ``<name>`` may not be used to modify properties of ``<target>``, that
is, it may not be used as the operand of :command:`set_property`,
:command:`set_target_properties`, :command:`target_link_libraries` etc.
An ``ALIAS`` target may not be installed or exported.
See Also
^^^^^^^^
* :command:`add_library`
add_executable
--------------
.. only:: html
.. contents::
Add an executable to the project using the specified source files.
Normal Executables
^^^^^^^^^^^^^^^^^^
.. signature::
add_executable(<name> <options>... <sources>...)
:target: normal
Add an executable target called ``<name>`` to be built from the source
files listed in the command invocation.
The options are:
``WIN32``
Set the :prop_tgt:`WIN32_EXECUTABLE` target property automatically.
See documentation of that target property for details.
``MACOSX_BUNDLE``
Set the :prop_tgt:`MACOSX_BUNDLE` target property automatically.
See documentation of that target property for details.
``EXCLUDE_FROM_ALL``
Set the :prop_tgt:`EXCLUDE_FROM_ALL` target property automatically.
See documentation of that target property for details.
The ``<name>`` corresponds to the logical target name and must be globally
unique within a project. The actual file name of the executable built is
constructed based on conventions of the native platform (such as
``<name>.exe`` or just ``<name>``).
.. versionadded:: 3.1
Source arguments to ``add_executable`` may use "generator expressions" with
the syntax ``$<...>``. See the :manual:`cmake-generator-expressions(7)`
manual for available expressions.
.. versionadded:: 3.11
The source files can be omitted if they are added later using
:command:`target_sources`.
By default the executable file will be created in the build tree
directory corresponding to the source tree directory in which the
command was invoked. See documentation of the
:prop_tgt:`RUNTIME_OUTPUT_DIRECTORY` target property to change this
location. See documentation of the :prop_tgt:`OUTPUT_NAME` target property
to change the ``<name>`` part of the final file name.
See the :manual:`cmake-buildsystem(7)` manual for more on defining
buildsystem properties.
See also :prop_sf:`HEADER_FILE_ONLY` on what to do if some sources are
pre-processed, and you want to have the original sources reachable from
within IDE.
Imported Executables
^^^^^^^^^^^^^^^^^^^^
.. signature::
add_executable(<name> IMPORTED [GLOBAL])
:target: IMPORTED
Add an :ref:`IMPORTED executable target <Imported Targets>` to reference
an executable file located outside the project. The target name may be
referenced like any target built within the project, except that by
default it is visible only in the directory in which it is created,
and below.
The options are:
``GLOBAL``
Make the target name globally visible.
No rules are generated to build imported targets, and the :prop_tgt:`IMPORTED`
target property is ``True``. Imported executables are useful for convenient
reference from commands like :command:`add_custom_command`.
Details about the imported executable are specified by setting properties
whose names begin in ``IMPORTED_``. The most important such property is
:prop_tgt:`IMPORTED_LOCATION` (and its per-configuration version
:prop_tgt:`IMPORTED_LOCATION_<CONFIG>`) which specifies the location of
the main executable file on disk. See documentation of the ``IMPORTED_*``
properties for more information.
Alias Executables
^^^^^^^^^^^^^^^^^
.. signature::
add_executable(<name> ALIAS <target>)
:target: ALIAS
Creates an :ref:`Alias Target <Alias Targets>`, such that ``<name>`` can
be used to refer to ``<target>`` in subsequent commands. The ``<name>``
does not appear in the generated buildsystem as a make target. The
``<target>`` may not be an ``ALIAS``.
.. versionadded:: 3.11
An ``ALIAS`` can target a ``GLOBAL`` :ref:`Imported Target <Imported Targets>`
.. versionadded:: 3.18
An ``ALIAS`` can target a non-``GLOBAL`` Imported Target. Such alias is
scoped to the directory in which it is created and subdirectories.
The :prop_tgt:`ALIAS_GLOBAL` target property can be used to check if the
alias is global or not.
``ALIAS`` targets can be used as targets to read properties
from, executables for custom commands and custom targets. They can also be
tested for existence with the regular :command:`if(TARGET)` subcommand.
The ``<name>`` may not be used to modify properties of ``<target>``, that
is, it may not be used as the operand of :command:`set_property`,
:command:`set_target_properties`, :command:`target_link_libraries` etc.
An ``ALIAS`` target may not be installed or exported.
See Also
^^^^^^^^
* :command:`add_library`

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add_library
-----------
.. only:: html
.. contents::
Add a library to the project using the specified source files.
Normal Libraries
^^^^^^^^^^^^^^^^
.. signature::
add_library(<name> [<type>] [EXCLUDE_FROM_ALL] <sources>...)
:target: normal
Add a library target called ``<name>`` to be built from the source files
listed in the command invocation.
The optional ``<type>`` specifies the type of library to be created:
``STATIC``
An archive of object files for use when linking other targets.
``SHARED``
A dynamic library that may be linked by other targets and loaded
at runtime.
``MODULE``
A plugin that may not be linked by other targets, but may be
dynamically loaded at runtime using dlopen-like functionality.
If no ``<type>`` is given the default is ``STATIC`` or ``SHARED``
based on the value of the :variable:`BUILD_SHARED_LIBS` variable.
The options are:
``EXCLUDE_FROM_ALL``
Set the :prop_tgt:`EXCLUDE_FROM_ALL` target property automatically.
See documentation of that target property for details.
The ``<name>`` corresponds to the logical target name and must be globally
unique within a project. The actual file name of the library built is
constructed based on conventions of the native platform (such as
``lib<name>.a`` or ``<name>.lib``).
.. versionadded:: 3.1
Source arguments to ``add_library`` may use "generator expressions" with
the syntax ``$<...>``. See the :manual:`cmake-generator-expressions(7)`
manual for available expressions.
.. versionadded:: 3.11
The source files can be omitted if they are added later using
:command:`target_sources`.
For ``SHARED`` and ``MODULE`` libraries the
:prop_tgt:`POSITION_INDEPENDENT_CODE` target
property is set to ``ON`` automatically.
A ``SHARED`` library may be marked with the :prop_tgt:`FRAMEWORK`
target property to create an macOS Framework.
.. versionadded:: 3.8
A ``STATIC`` library may be marked with the :prop_tgt:`FRAMEWORK`
target property to create a static Framework.
If a library does not export any symbols, it must not be declared as a
``SHARED`` library. For example, a Windows resource DLL or a managed C++/CLI
DLL that exports no unmanaged symbols would need to be a ``MODULE`` library.
This is because CMake expects a ``SHARED`` library to always have an
associated import library on Windows.
By default the library file will be created in the build tree directory
corresponding to the source tree directory in which the command was
invoked. See documentation of the :prop_tgt:`ARCHIVE_OUTPUT_DIRECTORY`,
:prop_tgt:`LIBRARY_OUTPUT_DIRECTORY`, and
:prop_tgt:`RUNTIME_OUTPUT_DIRECTORY` target properties to change this
location. See documentation of the :prop_tgt:`OUTPUT_NAME` target
property to change the ``<name>`` part of the final file name.
See the :manual:`cmake-buildsystem(7)` manual for more on defining
buildsystem properties.
See also :prop_sf:`HEADER_FILE_ONLY` on what to do if some sources are
pre-processed, and you want to have the original sources reachable from
within IDE.
.. versionchanged:: 3.30
On platforms that do not support shared libraries, ``add_library``
now fails on calls creating ``SHARED`` libraries instead of
automatically converting them to ``STATIC`` libraries as before.
See policy :policy:`CMP0164`.
Object Libraries
^^^^^^^^^^^^^^^^
.. signature::
add_library(<name> OBJECT <sources>...)
:target: OBJECT
Add an :ref:`Object Library <Object Libraries>` to compile source files
without archiving or linking their object files into a library.
Other targets created by ``add_library`` or :command:`add_executable`
may reference the objects using an expression of the
form :genex:`$\<TARGET_OBJECTS:objlib\> <TARGET_OBJECTS>` as a source, where
``objlib`` is the object library name. For example:
.. code-block:: cmake
add_library(... $<TARGET_OBJECTS:objlib> ...)
add_executable(... $<TARGET_OBJECTS:objlib> ...)
will include objlib's object files in a library and an executable
along with those compiled from their own sources. Object libraries
may contain only sources that compile, header files, and other files
that would not affect linking of a normal library (e.g. ``.txt``).
They may contain custom commands generating such sources, but not
``PRE_BUILD``, ``PRE_LINK``, or ``POST_BUILD`` commands. Some native build
systems (such as Xcode) may not like targets that have only object files, so
consider adding at least one real source file to any target that references
:genex:`$\<TARGET_OBJECTS:objlib\> <TARGET_OBJECTS>`.
.. versionadded:: 3.12
Object libraries can be linked to with :command:`target_link_libraries`.
Interface Libraries
^^^^^^^^^^^^^^^^^^^
.. signature::
add_library(<name> INTERFACE)
:target: INTERFACE
Add an :ref:`Interface Library <Interface Libraries>` target that may
specify usage requirements for dependents but does not compile sources
and does not produce a library artifact on disk.
An interface library with no source files is not included as a target
in the generated buildsystem. However, it may have
properties set on it and it may be installed and exported.
Typically, ``INTERFACE_*`` properties are populated on an interface
target using the commands:
* :command:`set_property`,
* :command:`target_link_libraries(INTERFACE)`,
* :command:`target_link_options(INTERFACE)`,
* :command:`target_include_directories(INTERFACE)`,
* :command:`target_compile_options(INTERFACE)`,
* :command:`target_compile_definitions(INTERFACE)`, and
* :command:`target_sources(INTERFACE)`,
and then it is used as an argument to :command:`target_link_libraries`
like any other target.
.. versionadded:: 3.15
An interface library can have :prop_tgt:`PUBLIC_HEADER` and
:prop_tgt:`PRIVATE_HEADER` properties. The headers specified by those
properties can be installed using the :command:`install(TARGETS)` command.
.. signature::
add_library(<name> INTERFACE [EXCLUDE_FROM_ALL] <sources>...)
:target: INTERFACE-with-sources
.. versionadded:: 3.19
Add an :ref:`Interface Library <Interface Libraries>` target with
source files (in addition to usage requirements and properties as
documented by the :command:`above signature <add_library(INTERFACE)>`).
Source files may be listed directly in the ``add_library`` call
or added later by calls to :command:`target_sources` with the
``PRIVATE`` or ``PUBLIC`` keywords.
If an interface library has source files (i.e. the :prop_tgt:`SOURCES`
target property is set), or header sets (i.e. the :prop_tgt:`HEADER_SETS`
target property is set), it will appear in the generated buildsystem
as a build target much like a target defined by the
:command:`add_custom_target` command. It does not compile any sources,
but does contain build rules for custom commands created by the
:command:`add_custom_command` command.
The options are:
``EXCLUDE_FROM_ALL``
Set the :prop_tgt:`EXCLUDE_FROM_ALL` target property automatically.
See documentation of that target property for details.
.. note::
In most command signatures where the ``INTERFACE`` keyword appears,
the items listed after it only become part of that target's usage
requirements and are not part of the target's own settings. However,
in this signature of ``add_library``, the ``INTERFACE`` keyword refers
to the library type only. Sources listed after it in the ``add_library``
call are ``PRIVATE`` to the interface library and do not appear in its
:prop_tgt:`INTERFACE_SOURCES` target property.
.. _`add_library imported libraries`:
Imported Libraries
^^^^^^^^^^^^^^^^^^
.. signature::
add_library(<name> <type> IMPORTED [GLOBAL])
:target: IMPORTED
Add an :ref:`IMPORTED library target <Imported Targets>` called ``<name>``.
The target name may be referenced like any target built within the project,
except that by default it is visible only in the directory in which it is
created, and below.
The ``<type>`` must be one of:
``STATIC``, ``SHARED``, ``MODULE``, ``UNKNOWN``
References a library file located outside the project. The
:prop_tgt:`IMPORTED_LOCATION` target property (or its per-configuration
variant :prop_tgt:`IMPORTED_LOCATION_<CONFIG>`) specifies the
location of the main library file on disk:
* For a ``SHARED`` library on most non-Windows platforms, the main library
file is the ``.so`` or ``.dylib`` file used by both linkers and dynamic
loaders. If the referenced library file has a ``SONAME`` (or on macOS,
has a ``LC_ID_DYLIB`` starting in ``@rpath/``), the value of that field
should be set in the :prop_tgt:`IMPORTED_SONAME` target property.
If the referenced library file does not have a ``SONAME``, but the
platform supports it, then the :prop_tgt:`IMPORTED_NO_SONAME` target
property should be set.
* For a ``SHARED`` library on Windows, the :prop_tgt:`IMPORTED_IMPLIB`
target property (or its per-configuration variant
:prop_tgt:`IMPORTED_IMPLIB_<CONFIG>`) specifies the location of the
DLL import library file (``.lib`` or ``.dll.a``) on disk, and the
``IMPORTED_LOCATION`` is the location of the ``.dll`` runtime
library (and is optional, but needed by the :genex:`TARGET_RUNTIME_DLLS`
generator expression).
Additional usage requirements may be specified in ``INTERFACE_*``
properties.
An ``UNKNOWN`` library type is typically only used in the implementation
of :ref:`Find Modules`. It allows the path to an imported library
(often found using the :command:`find_library` command) to be used
without having to know what type of library it is. This is especially
useful on Windows where a static library and a DLL's import library
both have the same file extension.
``OBJECT``
References a set of object files located outside the project.
The :prop_tgt:`IMPORTED_OBJECTS` target property (or its per-configuration
variant :prop_tgt:`IMPORTED_OBJECTS_<CONFIG>`) specifies the locations of
object files on disk.
Additional usage requirements may be specified in ``INTERFACE_*``
properties.
``INTERFACE``
Does not reference any library or object files on disk, but may
specify usage requirements in ``INTERFACE_*`` properties.
The options are:
``GLOBAL``
Make the target name globally visible.
No rules are generated to build imported targets, and the :prop_tgt:`IMPORTED`
target property is ``True``. Imported libraries are useful for convenient
reference from commands like :command:`target_link_libraries`.
Details about the imported library are specified by setting properties whose
names begin in ``IMPORTED_`` and ``INTERFACE_``. See documentation of
such properties for more information.
Alias Libraries
^^^^^^^^^^^^^^^
.. signature::
add_library(<name> ALIAS <target>)
:target: ALIAS
Creates an :ref:`Alias Target <Alias Targets>`, such that ``<name>`` can be
used to refer to ``<target>`` in subsequent commands. The ``<name>`` does
not appear in the generated buildsystem as a make target. The ``<target>``
may not be an ``ALIAS``.
.. versionadded:: 3.11
An ``ALIAS`` can target a ``GLOBAL`` :ref:`Imported Target <Imported Targets>`
.. versionadded:: 3.18
An ``ALIAS`` can target a non-``GLOBAL`` Imported Target. Such alias is
scoped to the directory in which it is created and below.
The :prop_tgt:`ALIAS_GLOBAL` target property can be used to check if the
alias is global or not.
``ALIAS`` targets can be used as linkable targets and as targets to
read properties from. They can also be tested for existence with the
regular :command:`if(TARGET)` subcommand. The ``<name>`` may not be used
to modify properties of ``<target>``, that is, it may not be used as the
operand of :command:`set_property`, :command:`set_target_properties`,
:command:`target_link_libraries` etc. An ``ALIAS`` target may not be
installed or exported.
See Also
^^^^^^^^
* :command:`add_executable`

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add_link_options
----------------
.. versionadded:: 3.13
Add options to the link step for executable, shared library or module
library targets in the current directory and below that are added after
this command is invoked.
.. code-block:: cmake
add_link_options(<option> ...)
This command can be used to add any link options, but alternative commands
exist to add libraries (:command:`target_link_libraries` or
:command:`link_libraries`). See documentation of the
:prop_dir:`directory <LINK_OPTIONS>` and
:prop_tgt:`target <LINK_OPTIONS>` ``LINK_OPTIONS`` properties.
.. note::
This command cannot be used to add options for static library targets,
since they do not use a linker. To add archiver or MSVC librarian flags,
see the :prop_tgt:`STATIC_LIBRARY_OPTIONS` target property.
.. |command_name| replace:: ``add_link_options``
.. include:: GENEX_NOTE.txt
.. include:: DEVICE_LINK_OPTIONS.txt
.. include:: OPTIONS_SHELL.txt
.. include:: LINK_OPTIONS_LINKER.txt
See Also
^^^^^^^^
* :command:`link_libraries`
* :command:`target_link_libraries`
* :command:`target_link_options`
* :variable:`CMAKE_<LANG>_FLAGS` and :variable:`CMAKE_<LANG>_FLAGS_<CONFIG>`
add language-wide flags passed to all invocations of the compiler.
This includes invocations that drive compiling and those that drive linking.
add_link_options
----------------
.. versionadded:: 3.13
Add options to the link step for executable, shared library or module
library targets in the current directory and below that are added after
this command is invoked.
.. code-block:: cmake
add_link_options(<option> ...)
This command can be used to add any link options, but alternative commands
exist to add libraries (:command:`target_link_libraries` or
:command:`link_libraries`). See documentation of the
:prop_dir:`directory <LINK_OPTIONS>` and
:prop_tgt:`target <LINK_OPTIONS>` ``LINK_OPTIONS`` properties.
.. note::
This command cannot be used to add options for static library targets,
since they do not use a linker. To add archiver or MSVC librarian flags,
see the :prop_tgt:`STATIC_LIBRARY_OPTIONS` target property.
.. |command_name| replace:: ``add_link_options``
.. include:: GENEX_NOTE.txt
.. include:: DEVICE_LINK_OPTIONS.txt
.. include:: OPTIONS_SHELL.txt
.. include:: LINK_OPTIONS_LINKER.txt
See Also
^^^^^^^^
* :command:`link_libraries`
* :command:`target_link_libraries`
* :command:`target_link_options`
* :variable:`CMAKE_<LANG>_FLAGS` and :variable:`CMAKE_<LANG>_FLAGS_<CONFIG>`
add language-wide flags passed to all invocations of the compiler.
This includes invocations that drive compiling and those that drive linking.

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add_subdirectory
----------------
Add a subdirectory to the build.
.. code-block:: cmake
add_subdirectory(source_dir [binary_dir] [EXCLUDE_FROM_ALL] [SYSTEM])
Adds a subdirectory to the build. The ``source_dir`` specifies the
directory in which the source ``CMakeLists.txt`` and code files are
located. If it is a relative path, it will be evaluated with respect
to the current directory (the typical usage), but it may also be an
absolute path. The ``binary_dir`` specifies the directory in which to
place the output files. If it is a relative path, it will be evaluated
with respect to the current output directory, but it may also be an
absolute path. If ``binary_dir`` is not specified, the value of
``source_dir``, before expanding any relative path, will be used (the
typical usage). The ``CMakeLists.txt`` file in the specified source
directory will be processed immediately by CMake before processing in
the current input file continues beyond this command.
If the ``EXCLUDE_FROM_ALL`` argument is provided then targets in the
subdirectory will not be included in the ``ALL`` target of the parent
directory by default, and will be excluded from IDE project files.
Users must explicitly build targets in the subdirectory. This is
meant for use when the subdirectory contains a separate part of the
project that is useful but not necessary, such as a set of examples.
Typically the subdirectory should contain its own :command:`project`
command invocation so that a full build system will be generated in the
subdirectory (such as a Visual Studio IDE solution file). Note that
inter-target dependencies supersede this exclusion. If a target built by
the parent project depends on a target in the subdirectory, the dependee
target will be included in the parent project build system to satisfy
the dependency.
.. versionadded:: 3.25
If the ``SYSTEM`` argument is provided, the :prop_dir:`SYSTEM` directory
property of the subdirectory will be set to true. This property is
used to initialize the :prop_tgt:`SYSTEM` property of each non-imported
target created in that subdirectory.
add_subdirectory
----------------
Add a subdirectory to the build.
.. code-block:: cmake
add_subdirectory(source_dir [binary_dir] [EXCLUDE_FROM_ALL] [SYSTEM])
Adds a subdirectory to the build. The ``source_dir`` specifies the
directory in which the source ``CMakeLists.txt`` and code files are
located. If it is a relative path, it will be evaluated with respect
to the current directory (the typical usage), but it may also be an
absolute path. The ``binary_dir`` specifies the directory in which to
place the output files. If it is a relative path, it will be evaluated
with respect to the current output directory, but it may also be an
absolute path. If ``binary_dir`` is not specified, the value of
``source_dir``, before expanding any relative path, will be used (the
typical usage). The ``CMakeLists.txt`` file in the specified source
directory will be processed immediately by CMake before processing in
the current input file continues beyond this command.
If the ``EXCLUDE_FROM_ALL`` argument is provided then the
:prop_dir:`EXCLUDE_FROM_ALL` property will be set on the added directory.
This will exclude the directory from a default build. See the directory
property :prop_dir:`EXCLUDE_FROM_ALL` for full details.
.. versionadded:: 3.25
If the ``SYSTEM`` argument is provided, the :prop_dir:`SYSTEM` directory
property of the subdirectory will be set to true. This property is
used to initialize the :prop_tgt:`SYSTEM` property of each non-imported
target created in that subdirectory.

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add_test
--------
Add a test to the project to be run by :manual:`ctest(1)`.
.. code-block:: cmake
add_test(NAME <name> COMMAND <command> [<arg>...]
[CONFIGURATIONS <config>...]
[WORKING_DIRECTORY <dir>]
[COMMAND_EXPAND_LISTS])
Adds a test called ``<name>``. The test name may contain arbitrary
characters, expressed as a :ref:`Quoted Argument` or :ref:`Bracket Argument`
if necessary. See policy :policy:`CMP0110`.
CMake only generates tests if the :command:`enable_testing` command has been
invoked. The :module:`CTest` module invokes ``enable_testing`` automatically
unless ``BUILD_TESTING`` is set to ``OFF``.
Tests added with the ``add_test(NAME)`` signature support using
:manual:`generator expressions <cmake-generator-expressions(7)>`
in test properties set by :command:`set_property(TEST)` or
:command:`set_tests_properties`. Test properties may only be set in the
directory the test is created in.
``add_test`` options are:
``COMMAND``
Specify the test command-line. If ``<command>`` specifies an executable
target created by :command:`add_executable`, it will automatically be
replaced by the location of the executable created at build time.
The command may be specified using
:manual:`generator expressions <cmake-generator-expressions(7)>`.
``CONFIGURATIONS``
Restrict execution of the test only to the named configurations.
``WORKING_DIRECTORY``
Set the test property :prop_test:`WORKING_DIRECTORY` in which to execute the
test. If not specified, the test will be run in
:variable:`CMAKE_CURRENT_BINARY_DIR`. The working directory may be specified
using :manual:`generator expressions <cmake-generator-expressions(7)>`.
``COMMAND_EXPAND_LISTS``
.. versionadded:: 3.16
Lists in ``COMMAND`` arguments will be expanded, including those created with
:manual:`generator expressions <cmake-generator-expressions(7)>`.
If the test command exits with code ``0`` the test passes. Non-zero exit code
is a "failed" test. The test property :prop_test:`WILL_FAIL` inverts this
logic. Note that system-level test failures such as segmentation faults or
heap errors will still fail the test even if ``WILL_FALL`` is true. Output
written to stdout or stderr is captured by :manual:`ctest(1)` and only
affects the pass/fail status via the :prop_test:`PASS_REGULAR_EXPRESSION`,
:prop_test:`FAIL_REGULAR_EXPRESSION`, or :prop_test:`SKIP_REGULAR_EXPRESSION`
test properties.
.. versionadded:: 3.16
Added :prop_test:`SKIP_REGULAR_EXPRESSION` property.
Example usage:
.. code-block:: cmake
add_test(NAME mytest
COMMAND testDriver --config $<CONFIG>
--exe $<TARGET_FILE:myexe>)
This creates a test ``mytest`` whose command runs a ``testDriver`` tool
passing the configuration name and the full path to the executable
file produced by target ``myexe``.
---------------------------------------------------------------------
The command syntax above is recommended over the older, less flexible form:
.. code-block:: cmake
add_test(<name> <command> [<arg>...])
Add a test called ``<name>`` with the given command-line.
Unlike the above ``NAME`` signature, target names are not supported
in the command-line. Furthermore, tests added with this signature do not
support :manual:`generator expressions <cmake-generator-expressions(7)>`
in the command-line or test properties.
add_test
--------
Add a test to the project to be run by :manual:`ctest(1)`.
.. code-block:: cmake
add_test(NAME <name> COMMAND <command> [<arg>...]
[CONFIGURATIONS <config>...]
[WORKING_DIRECTORY <dir>]
[COMMAND_EXPAND_LISTS])
Adds a test called ``<name>``. The test name may contain arbitrary
characters, expressed as a :ref:`Quoted Argument` or :ref:`Bracket Argument`
if necessary. See policy :policy:`CMP0110`.
CMake only generates tests if the :command:`enable_testing` command has been
invoked. The :module:`CTest` module invokes ``enable_testing`` automatically
unless ``BUILD_TESTING`` is set to ``OFF``.
Tests added with the ``add_test(NAME)`` signature support using
:manual:`generator expressions <cmake-generator-expressions(7)>`
in test properties set by :command:`set_property(TEST)` or
:command:`set_tests_properties`. Test properties may only be set in the
directory the test is created in.
``add_test`` options are:
``COMMAND``
Specify the test command-line.
If ``<command>`` specifies an executable target created by
:command:`add_executable`:
* It will automatically be replaced by the location of the executable
created at build time.
* .. versionadded:: 3.3
The target's :prop_tgt:`CROSSCOMPILING_EMULATOR`, if set, will be
used to run the command on the host::
<emulator> <command>
.. versionchanged:: 3.29
The emulator is used only when
:variable:`cross-compiling <CMAKE_CROSSCOMPILING>`.
See policy :policy:`CMP0158`.
* .. versionadded:: 3.29
The target's :prop_tgt:`TEST_LAUNCHER`, if set, will be
used to launch the command::
<launcher> <command>
If the :prop_tgt:`CROSSCOMPILING_EMULATOR` is also set, both are used::
<launcher> <emulator> <command>
The command may be specified using
:manual:`generator expressions <cmake-generator-expressions(7)>`.
``CONFIGURATIONS``
Restrict execution of the test only to the named configurations.
``WORKING_DIRECTORY``
Set the test property :prop_test:`WORKING_DIRECTORY` in which to execute the
test. If not specified, the test will be run in
:variable:`CMAKE_CURRENT_BINARY_DIR`. The working directory may be specified
using :manual:`generator expressions <cmake-generator-expressions(7)>`.
``COMMAND_EXPAND_LISTS``
.. versionadded:: 3.16
Lists in ``COMMAND`` arguments will be expanded, including those created with
:manual:`generator expressions <cmake-generator-expressions(7)>`.
If the test command exits with code ``0`` the test passes. Non-zero exit code
is a "failed" test. The test property :prop_test:`WILL_FAIL` inverts this
logic. Note that system-level test failures such as segmentation faults or
heap errors will still fail the test even if ``WILL_FAIL`` is true. Output
written to stdout or stderr is captured by :manual:`ctest(1)` and only
affects the pass/fail status via the :prop_test:`PASS_REGULAR_EXPRESSION`,
:prop_test:`FAIL_REGULAR_EXPRESSION`, or :prop_test:`SKIP_REGULAR_EXPRESSION`
test properties.
.. versionadded:: 3.16
Added :prop_test:`SKIP_REGULAR_EXPRESSION` property.
Example usage:
.. code-block:: cmake
add_test(NAME mytest
COMMAND testDriver --config $<CONFIG>
--exe $<TARGET_FILE:myexe>)
This creates a test ``mytest`` whose command runs a ``testDriver`` tool
passing the configuration name and the full path to the executable
file produced by target ``myexe``.
---------------------------------------------------------------------
The command syntax above is recommended over the older, less flexible form:
.. code-block:: cmake
add_test(<name> <command> [<arg>...])
Add a test called ``<name>`` with the given command-line.
Unlike the above ``NAME`` signature, target names are not supported
in the command-line. Furthermore, tests added with this signature do not
support :manual:`generator expressions <cmake-generator-expressions(7)>`
in the command-line or test properties.

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aux_source_directory
--------------------
Find all source files in a directory.
.. code-block:: cmake
aux_source_directory(<dir> <variable>)
Collects the names of all the source files in the specified directory
and stores the list in the ``<variable>`` provided. This command is
intended to be used by projects that use explicit template
instantiation. Template instantiation files can be stored in a
``Templates`` subdirectory and collected automatically using this
command to avoid manually listing all instantiations.
It is tempting to use this command to avoid writing the list of source
files for a library or executable target. While this seems to work,
there is no way for CMake to generate a build system that knows when a
new source file has been added. Normally the generated build system
knows when it needs to rerun CMake because the ``CMakeLists.txt`` file is
modified to add a new source. When the source is just added to the
directory without modifying this file, one would have to manually
rerun CMake to generate a build system incorporating the new file.
aux_source_directory
--------------------
Find all source files in a directory.
.. code-block:: cmake
aux_source_directory(<dir> <variable>)
Collects the names of all the source files in the specified directory
and stores the list in the ``<variable>`` provided. This command is
intended to be used by projects that use explicit template
instantiation. Template instantiation files can be stored in a
``Templates`` subdirectory and collected automatically using this
command to avoid manually listing all instantiations.
It is tempting to use this command to avoid writing the list of source
files for a library or executable target. While this seems to work,
there is no way for CMake to generate a build system that knows when a
new source file has been added. Normally the generated build system
knows when it needs to rerun CMake because the ``CMakeLists.txt`` file is
modified to add a new source. When the source is just added to the
directory without modifying this file, one would have to manually
rerun CMake to generate a build system incorporating the new file.

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block
-----
.. versionadded:: 3.25
Evaluate a group of commands with a dedicated variable and/or policy scope.
.. code-block:: cmake
block([SCOPE_FOR [POLICIES] [VARIABLES] ] [PROPAGATE <var-name>...])
<commands>
endblock()
All commands between ``block()`` and the matching :command:`endblock` are
recorded without being invoked. Once the :command:`endblock` is evaluated, the
recorded list of commands is invoked inside the requested scopes, then the
scopes created by the ``block()`` command are removed.
``SCOPE_FOR``
Specify which scopes must be created.
``POLICIES``
Create a new policy scope. This is equivalent to
:command:`cmake_policy(PUSH)`.
``VARIABLES``
Create a new variable scope.
If ``SCOPE_FOR`` is not specified, this is equivalent to:
.. code-block:: cmake
block(SCOPE_FOR VARIABLES POLICIES)
``PROPAGATE``
When a variable scope is created by the :command:`block` command, this
option sets or unsets the specified variables in the parent scope. This is
equivalent to :command:`set(PARENT_SCOPE)` or :command:`unset(PARENT_SCOPE)`
commands.
.. code-block:: cmake
set(var1 "INIT1")
set(var2 "INIT2")
block(PROPAGATE var1 var2)
set(var1 "VALUE1")
unset(var2)
endblock()
# Now var1 holds VALUE1, and var2 is unset
This option is only allowed when a variable scope is created. An error will
be raised in the other cases.
When the ``block()`` is inside a :command:`foreach` or :command:`while`
command, the :command:`break` and :command:`continue` commands can be used
inside the block.
.. code-block:: cmake
while(TRUE)
block()
...
# the break() command will terminate the while() command
break()
endblock()
endwhile()
See Also
^^^^^^^^
* :command:`endblock`
* :command:`return`
* :command:`cmake_policy`
block
-----
.. versionadded:: 3.25
Evaluate a group of commands with a dedicated variable and/or policy scope.
.. code-block:: cmake
block([SCOPE_FOR [POLICIES] [VARIABLES] ] [PROPAGATE <var-name>...])
<commands>
endblock()
All commands between ``block()`` and the matching :command:`endblock` are
recorded without being invoked. Once the :command:`endblock` is evaluated, the
recorded list of commands is invoked inside the requested scopes, then the
scopes created by the ``block()`` command are removed.
``SCOPE_FOR``
Specify which scopes must be created.
``POLICIES``
Create a new policy scope. This is equivalent to
:command:`cmake_policy(PUSH)` with an automatic
:command:`cmake_policy(POP)` when leaving the block scope.
``VARIABLES``
Create a new variable scope.
If ``SCOPE_FOR`` is not specified, this is equivalent to:
.. code-block:: cmake
block(SCOPE_FOR VARIABLES POLICIES)
``PROPAGATE``
When a variable scope is created by the :command:`block` command, this
option sets or unsets the specified variables in the parent scope. This is
equivalent to :command:`set(PARENT_SCOPE)` or :command:`unset(PARENT_SCOPE)`
commands.
.. code-block:: cmake
set(var1 "INIT1")
set(var2 "INIT2")
block(PROPAGATE var1 var2)
set(var1 "VALUE1")
unset(var2)
endblock()
# Now var1 holds VALUE1, and var2 is unset
This option is only allowed when a variable scope is created. An error will
be raised in the other cases.
When the ``block()`` is inside a :command:`foreach` or :command:`while`
command, the :command:`break` and :command:`continue` commands can be used
inside the block.
.. code-block:: cmake
while(TRUE)
block()
...
# the break() command will terminate the while() command
break()
endblock()
endwhile()
See Also
^^^^^^^^
* :command:`endblock`
* :command:`return`
* :command:`cmake_policy`

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break
-----
Break from an enclosing foreach or while loop.
.. code-block:: cmake
break()
Breaks from an enclosing :command:`foreach` or :command:`while` loop.
See also the :command:`continue` command.
break
-----
Break from an enclosing foreach or while loop.
.. code-block:: cmake
break()
Breaks from an enclosing :command:`foreach` or :command:`while` loop.
See also the :command:`continue` command.

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build_command
-------------
Get a command line to build the current project.
This is mainly intended for internal use by the :module:`CTest` module.
.. code-block:: cmake
build_command(<variable>
[CONFIGURATION <config>]
[PARALLEL_LEVEL <parallel>]
[TARGET <target>]
[PROJECT_NAME <projname>] # legacy, causes warning
)
Sets the given ``<variable>`` to a command-line string of the form::
<cmake> --build . [--config <config>] [--parallel <parallel>] [--target <target>...] [-- -i]
where ``<cmake>`` is the location of the :manual:`cmake(1)` command-line
tool, and ``<config>``, ``<parallel>`` and ``<target>`` are the values
provided to the ``CONFIGURATION``, ``PARALLEL_LEVEL`` and ``TARGET``
options, if any. The trailing ``-- -i`` option is added for
:ref:`Makefile Generators` if policy :policy:`CMP0061` is not set to
``NEW``.
When invoked, this :option:`cmake --build` command line will launch the
underlying build system tool.
.. versionadded:: 3.21
The ``PARALLEL_LEVEL`` argument can be used to set the
:option:`--parallel <cmake--build --parallel>` flag.
.. code-block:: cmake
build_command(<cachevariable> <makecommand>)
This second signature is deprecated, but still available for backwards
compatibility. Use the first signature instead.
It sets the given ``<cachevariable>`` to a command-line string as
above but without the :option:`--target <cmake--build --target>` option.
The ``<makecommand>`` is ignored but should be the full path to
devenv, nmake, make or one of the end user build tools
for legacy invocations.
.. note::
In CMake versions prior to 3.0 this command returned a command
line that directly invokes the native build tool for the current
generator. Their implementation of the ``PROJECT_NAME`` option
had no useful effects, so CMake now warns on use of the option.
build_command
-------------
Get a command line to build the current project.
This is mainly intended for internal use by the :module:`CTest` module.
.. code-block:: cmake
build_command(<variable>
[CONFIGURATION <config>]
[PARALLEL_LEVEL <parallel>]
[TARGET <target>]
[PROJECT_NAME <projname>] # legacy, causes warning
)
Sets the given ``<variable>`` to a command-line string of the form::
<cmake> --build . [--config <config>] [--parallel <parallel>] [--target <target>...] [-- -i]
where ``<cmake>`` is the location of the :manual:`cmake(1)` command-line
tool, and ``<config>``, ``<parallel>`` and ``<target>`` are the values
provided to the ``CONFIGURATION``, ``PARALLEL_LEVEL`` and ``TARGET``
options, if any. The trailing ``-- -i`` option is added for
:ref:`Makefile Generators` if policy :policy:`CMP0061` is not set to
``NEW``.
When invoked, this :option:`cmake --build` command line will launch the
underlying build system tool.
.. versionadded:: 3.21
The ``PARALLEL_LEVEL`` argument can be used to set the
:option:`--parallel <cmake--build --parallel>` flag.
.. code-block:: cmake
build_command(<cachevariable> <makecommand>)
This second signature is deprecated, but still available for backwards
compatibility. Use the first signature instead.
It sets the given ``<cachevariable>`` to a command-line string as
above but without the :option:`--target <cmake--build --target>` option.
The ``<makecommand>`` is ignored but should be the full path to
devenv, nmake, make or one of the end user build tools
for legacy invocations.
.. note::
In CMake versions prior to 3.0 this command returned a command
line that directly invokes the native build tool for the current
generator. Their implementation of the ``PROJECT_NAME`` option
had no useful effects, so CMake now warns on use of the option.

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build_name
----------
Disallowed since version 3.0. See CMake Policy :policy:`CMP0036`.
Use ``${CMAKE_SYSTEM}`` and ``${CMAKE_CXX_COMPILER}`` instead.
.. code-block:: cmake
build_name(variable)
Sets the specified variable to a string representing the platform and
compiler settings. These values are now available through the
:variable:`CMAKE_SYSTEM` and
:variable:`CMAKE_CXX_COMPILER <CMAKE_<LANG>_COMPILER>` variables.
build_name
----------
Disallowed since version 3.0. See CMake Policy :policy:`CMP0036`.
Use ``${CMAKE_SYSTEM}`` and ``${CMAKE_CXX_COMPILER}`` instead.
.. code-block:: cmake
build_name(variable)
Sets the specified variable to a string representing the platform and
compiler settings. These values are now available through the
:variable:`CMAKE_SYSTEM` and
:variable:`CMAKE_CXX_COMPILER <CMAKE_<LANG>_COMPILER>` variables.

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cmake_file_api
--------------
.. versionadded:: 3.27
Enables interacting with the :manual:`CMake file API <cmake-file-api(7)>`.
.. signature::
cmake_file_api(QUERY ...)
The ``QUERY`` subcommand adds a file API query for the current CMake
invocation.
.. code-block:: cmake
cmake_file_api(
QUERY
API_VERSION <version>
[CODEMODEL <versions>...]
[CACHE <versions>...]
[CMAKEFILES <versions>...]
[TOOLCHAINS <versions>...]
)
The ``API_VERSION`` must always be given. Currently, the only supported
value for ``<version>`` is 1. See :ref:`file-api v1` for details of the
reply content and location.
Each of the optional keywords ``CODEMODEL``, ``CACHE``, ``CMAKEFILES`` and
``TOOLCHAINS`` correspond to one of the object kinds that can be requested
by the project. The ``configureLog`` object kind cannot be set with this
command, since it must be set before CMake starts reading the top level
``CMakeLists.txt`` file.
For each of the optional keywords, the ``<versions>`` list must contain one
or more version values of the form ``major`` or ``major.minor``, where
``major`` and ``minor`` are integers. Projects should list the versions they
accept in their preferred order, as only the first supported value from the
list will be selected. The command will ignore versions with a ``major``
version higher than any major version it supports for that object kind.
It will raise an error if it encounters an invalid version number, or if none
of the requested versions is supported.
For each type of object kind requested, a query equivalent to a shared,
stateless query will be added internally. No query file will be created in
the file system. The reply *will* be written to the file system at
generation time.
It is not an error to add a query for the same thing more than once, whether
from query files or from multiple calls to ``cmake_file_api(QUERY)``.
The final set of queries will be a merged combination of all queries
specified on disk and queries submitted by the project.
Example
^^^^^^^
A project may want to use replies from the file API at build time to implement
some form of verification task. Instead of relying on something outside of
CMake to create a query file, the project can use ``cmake_file_api(QUERY)``
to request the required information for the current run. It can then create
a custom command to run at build time, knowing that the requested information
should always be available.
.. code-block:: cmake
cmake_file_api(
QUERY
API_VERSION 1
CODEMODEL 2.3
TOOLCHAINS 1
)
add_custom_target(verify_project
COMMAND ${CMAKE_COMMAND}
-D BUILD_DIR=${CMAKE_BINARY_DIR}
-D CONFIG=$<CONFIG>
-P ${CMAKE_CURRENT_SOURCE_DIR}/verify_project.cmake
)
cmake_file_api
--------------
.. versionadded:: 3.27
Enables interacting with the :manual:`CMake file API <cmake-file-api(7)>`.
.. signature::
cmake_file_api(QUERY ...)
The ``QUERY`` subcommand adds a file API query for the current CMake
invocation.
.. code-block:: cmake
cmake_file_api(
QUERY
API_VERSION <version>
[CODEMODEL <versions>...]
[CACHE <versions>...]
[CMAKEFILES <versions>...]
[TOOLCHAINS <versions>...]
)
The ``API_VERSION`` must always be given. Currently, the only supported
value for ``<version>`` is 1. See :ref:`file-api v1` for details of the
reply content and location.
Each of the optional keywords ``CODEMODEL``, ``CACHE``, ``CMAKEFILES`` and
``TOOLCHAINS`` correspond to one of the object kinds that can be requested
by the project. The ``configureLog`` object kind cannot be set with this
command, since it must be set before CMake starts reading the top level
``CMakeLists.txt`` file.
For each of the optional keywords, the ``<versions>`` list must contain one
or more version values of the form ``major`` or ``major.minor``, where
``major`` and ``minor`` are integers. Projects should list the versions they
accept in their preferred order, as only the first supported value from the
list will be selected. The command will ignore versions with a ``major``
version higher than any major version it supports for that object kind.
It will raise an error if it encounters an invalid version number, or if none
of the requested versions is supported.
For each type of object kind requested, a query equivalent to a shared,
stateless query will be added internally. No query file will be created in
the file system. The reply *will* be written to the file system at
generation time.
It is not an error to add a query for the same thing more than once, whether
from query files or from multiple calls to ``cmake_file_api(QUERY)``.
The final set of queries will be a merged combination of all queries
specified on disk and queries submitted by the project.
Example
^^^^^^^
A project may want to use replies from the file API at build time to implement
some form of verification task. Instead of relying on something outside of
CMake to create a query file, the project can use ``cmake_file_api(QUERY)``
to request the required information for the current run. It can then create
a custom command to run at build time, knowing that the requested information
should always be available.
.. code-block:: cmake
cmake_file_api(
QUERY
API_VERSION 1
CODEMODEL 2.3
TOOLCHAINS 1
)
add_custom_target(verify_project
COMMAND ${CMAKE_COMMAND}
-D BUILD_DIR=${CMAKE_BINARY_DIR}
-D CONFIG=$<CONFIG>
-P ${CMAKE_CURRENT_SOURCE_DIR}/verify_project.cmake
)

799
cmake/share/cmake-3.27/Help/command/cmake_host_system_information.rst → cmake/share/cmake-3.30/Help/command/cmake_host_system_information.rst
View File

@ -1,396 +1,403 @@
cmake_host_system_information
-----------------------------
Query various host system information.
Synopsis
^^^^^^^^
.. parsed-literal::
`Query host system specific information`_
cmake_host_system_information(RESULT <variable> QUERY <key> ...)
`Query Windows registry`_
cmake_host_system_information(RESULT <variable> QUERY WINDOWS_REGISTRY <key> ...)
Query host system specific information
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
cmake_host_system_information(RESULT <variable> QUERY <key> ...)
Queries system information of the host system on which cmake runs.
One or more ``<key>`` can be provided to select the information to be
queried. The list of queried values is stored in ``<variable>``.
``<key>`` can be one of the following values:
``NUMBER_OF_LOGICAL_CORES``
Number of logical cores
``NUMBER_OF_PHYSICAL_CORES``
Number of physical cores
``HOSTNAME``
Hostname
``FQDN``
Fully qualified domain name
``TOTAL_VIRTUAL_MEMORY``
Total virtual memory in MiB [#mebibytes]_
``AVAILABLE_VIRTUAL_MEMORY``
Available virtual memory in MiB [#mebibytes]_
``TOTAL_PHYSICAL_MEMORY``
Total physical memory in MiB [#mebibytes]_
``AVAILABLE_PHYSICAL_MEMORY``
Available physical memory in MiB [#mebibytes]_
``IS_64BIT``
.. versionadded:: 3.10
One if processor is 64Bit
``HAS_FPU``
.. versionadded:: 3.10
One if processor has floating point unit
``HAS_MMX``
.. versionadded:: 3.10
One if processor supports MMX instructions
``HAS_MMX_PLUS``
.. versionadded:: 3.10
One if processor supports Ext. MMX instructions
``HAS_SSE``
.. versionadded:: 3.10
One if processor supports SSE instructions
``HAS_SSE2``
.. versionadded:: 3.10
One if processor supports SSE2 instructions
``HAS_SSE_FP``
.. versionadded:: 3.10
One if processor supports SSE FP instructions
``HAS_SSE_MMX``
.. versionadded:: 3.10
One if processor supports SSE MMX instructions
``HAS_AMD_3DNOW``
.. versionadded:: 3.10
One if processor supports 3DNow instructions
``HAS_AMD_3DNOW_PLUS``
.. versionadded:: 3.10
One if processor supports 3DNow+ instructions
``HAS_IA64``
.. versionadded:: 3.10
One if IA64 processor emulating x86
``HAS_SERIAL_NUMBER``
.. versionadded:: 3.10
One if processor has serial number
``PROCESSOR_SERIAL_NUMBER``
.. versionadded:: 3.10
Processor serial number
``PROCESSOR_NAME``
.. versionadded:: 3.10
Human readable processor name
``PROCESSOR_DESCRIPTION``
.. versionadded:: 3.10
Human readable full processor description
``OS_NAME``
.. versionadded:: 3.10
See :variable:`CMAKE_HOST_SYSTEM_NAME`
``OS_RELEASE``
.. versionadded:: 3.10
The OS sub-type e.g. on Windows ``Professional``
``OS_VERSION``
.. versionadded:: 3.10
The OS build ID
``OS_PLATFORM``
.. versionadded:: 3.10
See :variable:`CMAKE_HOST_SYSTEM_PROCESSOR`
``DISTRIB_INFO``
.. versionadded:: 3.22
Read :file:`/etc/os-release` file and define the given ``<variable>``
into a list of read variables
``DISTRIB_<name>``
.. versionadded:: 3.22
Get the ``<name>`` variable (see `man 5 os-release`_) if it exists in the
:file:`/etc/os-release` file
Example:
.. code-block:: cmake
cmake_host_system_information(RESULT PRETTY_NAME QUERY DISTRIB_PRETTY_NAME)
message(STATUS "${PRETTY_NAME}")
cmake_host_system_information(RESULT DISTRO QUERY DISTRIB_INFO)
foreach(VAR IN LISTS DISTRO)
message(STATUS "${VAR}=`${${VAR}}`")
endforeach()
Output::
-- Ubuntu 20.04.2 LTS
-- DISTRO_BUG_REPORT_URL=`https://bugs.launchpad.net/ubuntu/`
-- DISTRO_HOME_URL=`https://www.ubuntu.com/`
-- DISTRO_ID=`ubuntu`
-- DISTRO_ID_LIKE=`debian`
-- DISTRO_NAME=`Ubuntu`
-- DISTRO_PRETTY_NAME=`Ubuntu 20.04.2 LTS`
-- DISTRO_PRIVACY_POLICY_URL=`https://www.ubuntu.com/legal/terms-and-policies/privacy-policy`
-- DISTRO_SUPPORT_URL=`https://help.ubuntu.com/`
-- DISTRO_UBUNTU_CODENAME=`focal`
-- DISTRO_VERSION=`20.04.2 LTS (Focal Fossa)`
-- DISTRO_VERSION_CODENAME=`focal`
-- DISTRO_VERSION_ID=`20.04`
If :file:`/etc/os-release` file is not found, the command tries to gather OS
identification via fallback scripts. The fallback script can use `various
distribution-specific files`_ to collect OS identification data and map it
into `man 5 os-release`_ variables.
Fallback Interface Variables
""""""""""""""""""""""""""""
.. variable:: CMAKE_GET_OS_RELEASE_FALLBACK_SCRIPTS
In addition to the scripts shipped with CMake, a user may append full
paths to his script(s) to the this list. The script filename has the
following format: ``NNN-<name>.cmake``, where ``NNN`` is three digits
used to apply collected scripts in a specific order.
.. variable:: CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_<varname>
Variables collected by the user provided fallback script
ought to be assigned to CMake variables using this naming
convention. Example, the ``ID`` variable from the manual becomes
``CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_ID``.
.. variable:: CMAKE_GET_OS_RELEASE_FALLBACK_RESULT
The fallback script ought to store names of all assigned
``CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_<varname>`` variables in this list.
Example:
.. code-block:: cmake
# Try to detect some old distribution
# See also
# - http://linuxmafia.com/faq/Admin/release-files.html
#
if(NOT EXISTS "${CMAKE_SYSROOT}/etc/foobar-release")
return()
endif()
# Get the first string only
file(
STRINGS "${CMAKE_SYSROOT}/etc/foobar-release" CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT
LIMIT_COUNT 1
)
#
# Example:
#
# Foobar distribution release 1.2.3 (server)
#
if(CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT MATCHES "Foobar distribution release ([0-9\.]+) .*")
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_NAME Foobar)
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_PRETTY_NAME "${CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT}")
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_ID foobar)
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION ${CMAKE_MATCH_1})
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION_ID ${CMAKE_MATCH_1})
list(
APPEND CMAKE_GET_OS_RELEASE_FALLBACK_RESULT
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_NAME
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_PRETTY_NAME
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_ID
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION_ID
)
endif()
unset(CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT)
.. rubric:: Footnotes
.. [#mebibytes] One MiB (mebibyte) is equal to 1024x1024 bytes.
.. _man 5 os-release: https://www.freedesktop.org/software/systemd/man/os-release.html
.. _various distribution-specific files: http://linuxmafia.com/faq/Admin/release-files.html
.. _Query Windows registry:
Query Windows registry
^^^^^^^^^^^^^^^^^^^^^^
.. versionadded:: 3.24
::
cmake_host_system_information(RESULT <variable>
QUERY WINDOWS_REGISTRY <key> [VALUE_NAMES|SUBKEYS|VALUE <name>]
[VIEW (64|32|64_32|32_64|HOST|TARGET|BOTH)]
[SEPARATOR <separator>]
[ERROR_VARIABLE <result>])
Performs query operations on local computer registry subkey. Returns a list of
subkeys or value names that are located under the specified subkey in the
registry or the data of the specified value name. The result of the queried
entity is stored in ``<variable>``.
.. note::
Querying registry for any other platforms than ``Windows``, including
``CYGWIN``, will always returns an empty string and sets an error message in
the variable specified with sub-option ``ERROR_VARIABLE``.
``<key>`` specify the full path of a subkey on the local computer. The
``<key>`` must include a valid root key. Valid root keys for the local computer
are:
* ``HKLM`` or ``HKEY_LOCAL_MACHINE``
* ``HKCU`` or ``HKEY_CURRENT_USER``
* ``HKCR`` or ``HKEY_CLASSES_ROOT``
* ``HKU`` or ``HKEY_USERS``
* ``HKCC`` or ``HKEY_CURRENT_CONFIG``
And, optionally, the path to a subkey under the specified root key. The path
separator can be the slash or the backslash. ``<key>`` is not case sensitive.
For example:
.. code-block:: cmake
cmake_host_system_information(RESULT result QUERY WINDOWS_REGISTRY "HKLM")
cmake_host_system_information(RESULT result QUERY WINDOWS_REGISTRY "HKLM/SOFTWARE/Kitware")
cmake_host_system_information(RESULT result QUERY WINDOWS_REGISTRY "HKCU\\SOFTWARE\\Kitware")
``VALUE_NAMES``
Request the list of value names defined under ``<key>``. If a default value
is defined, it will be identified with the special name ``(default)``.
``SUBKEYS``
Request the list of subkeys defined under ``<key>``.
``VALUE <name>``
Request the data stored in value named ``<name>``. If ``VALUE`` is not
specified or argument is the special name ``(default)``, the content of the
default value, if any, will be returned.
.. code-block:: cmake
# query default value for HKLM/SOFTWARE/Kitware key
cmake_host_system_information(RESULT result
QUERY WINDOWS_REGISTRY "HKLM/SOFTWARE/Kitware")
# query default value for HKLM/SOFTWARE/Kitware key using special value name
cmake_host_system_information(RESULT result
QUERY WINDOWS_REGISTRY "HKLM/SOFTWARE/Kitware"
VALUE "(default)")
Supported types are:
* ``REG_SZ``.
* ``REG_EXPAND_SZ``. The returned data is expanded.
* ``REG_MULTI_SZ``. The returned is expressed as a CMake list. See also
``SEPARATOR`` sub-option.
* ``REG_DWORD``.
* ``REG_QWORD``.
For all other types, an empty string is returned.
``VIEW``
Specify which registry views must be queried. When not specified, ``BOTH``
view is used.
``64``
Query the 64bit registry. On ``32bit Windows``, returns always an empty
string.
``32``
Query the 32bit registry.
``64_32``
For ``VALUE`` sub-option or default value, query the registry using view
``64``, and if the request failed, query the registry using view ``32``.
For ``VALUE_NAMES`` and ``SUBKEYS`` sub-options, query both views (``64``
and ``32``) and merge the results (sorted and duplicates removed).
``32_64``
For ``VALUE`` sub-option or default value, query the registry using view
``32``, and if the request failed, query the registry using view ``64``.
For ``VALUE_NAMES`` and ``SUBKEYS`` sub-options, query both views (``32``
and ``64``) and merge the results (sorted and duplicates removed).
``HOST``
Query the registry matching the architecture of the host: ``64`` on ``64bit
Windows`` and ``32`` on ``32bit Windows``.
``TARGET``
Query the registry matching the architecture specified by
:variable:`CMAKE_SIZEOF_VOID_P` variable. If not defined, fallback to
``HOST`` view.
``BOTH``
Query both views (``32`` and ``64``). The order depends of the following
rules: If :variable:`CMAKE_SIZEOF_VOID_P` variable is defined. Use the
following view depending of the content of this variable:
* ``8``: ``64_32``
* ``4``: ``32_64``
If :variable:`CMAKE_SIZEOF_VOID_P` variable is not defined, rely on
architecture of the host:
* ``64bit``: ``64_32``
* ``32bit``: ``32``
``SEPARATOR``
Specify the separator character for ``REG_MULTI_SZ`` type. When not
specified, the character ``\0`` is used.
``ERROR_VARIABLE <result>``
Returns any error raised during query operation. In case of success, the
variable holds an empty string.
cmake_host_system_information
-----------------------------
Query various host system information.
Synopsis
^^^^^^^^
.. parsed-literal::
`Query host system specific information`_
cmake_host_system_information(RESULT <variable> QUERY <key> ...)
`Query Windows registry`_
cmake_host_system_information(RESULT <variable> QUERY WINDOWS_REGISTRY <key> ...)
Query host system specific information
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
cmake_host_system_information(RESULT <variable> QUERY <key> ...)
Queries system information of the host system on which cmake runs.
One or more ``<key>`` can be provided to select the information to be
queried. The list of queried values is stored in ``<variable>``.
``<key>`` can be one of the following values:
``NUMBER_OF_LOGICAL_CORES``
Number of logical cores
``NUMBER_OF_PHYSICAL_CORES``
Number of physical cores
``HOSTNAME``
Hostname
``FQDN``
Fully qualified domain name
``TOTAL_VIRTUAL_MEMORY``
Total virtual memory in MiB [#mebibytes]_
``AVAILABLE_VIRTUAL_MEMORY``
Available virtual memory in MiB [#mebibytes]_
``TOTAL_PHYSICAL_MEMORY``
Total physical memory in MiB [#mebibytes]_
``AVAILABLE_PHYSICAL_MEMORY``
Available physical memory in MiB [#mebibytes]_
``IS_64BIT``
.. versionadded:: 3.10
One if processor is 64Bit
``HAS_FPU``
.. versionadded:: 3.10
One if processor has floating point unit
``HAS_MMX``
.. versionadded:: 3.10
One if processor supports MMX instructions
``HAS_MMX_PLUS``
.. versionadded:: 3.10
One if processor supports Ext. MMX instructions
``HAS_SSE``
.. versionadded:: 3.10
One if processor supports SSE instructions
``HAS_SSE2``
.. versionadded:: 3.10
One if processor supports SSE2 instructions
``HAS_SSE_FP``
.. versionadded:: 3.10
One if processor supports SSE FP instructions
``HAS_SSE_MMX``
.. versionadded:: 3.10
One if processor supports SSE MMX instructions
``HAS_AMD_3DNOW``
.. versionadded:: 3.10
One if processor supports 3DNow instructions
``HAS_AMD_3DNOW_PLUS``
.. versionadded:: 3.10
One if processor supports 3DNow+ instructions
``HAS_IA64``
.. versionadded:: 3.10
One if IA64 processor emulating x86
``HAS_SERIAL_NUMBER``
.. versionadded:: 3.10
One if processor has serial number
``PROCESSOR_SERIAL_NUMBER``
.. versionadded:: 3.10
Processor serial number
``PROCESSOR_NAME``
.. versionadded:: 3.10
Human readable processor name
``PROCESSOR_DESCRIPTION``
.. versionadded:: 3.10
Human readable full processor description
``OS_NAME``
.. versionadded:: 3.10
See :variable:`CMAKE_HOST_SYSTEM_NAME`
``OS_RELEASE``
.. versionadded:: 3.10
The OS sub-type e.g. on Windows ``Professional``
``OS_VERSION``
.. versionadded:: 3.10
The OS build ID
``OS_PLATFORM``
.. versionadded:: 3.10
See :variable:`CMAKE_HOST_SYSTEM_PROCESSOR`
``MSYSTEM_PREFIX``
.. versionadded:: 3.28
Available only on Windows hosts. In a MSYS or MinGW development
environment that sets the ``MSYSTEM`` environment variable, this
is its installation prefix. Otherwise, this is the empty string.
``DISTRIB_INFO``
.. versionadded:: 3.22
Read :file:`/etc/os-release` file and define the given ``<variable>``
into a list of read variables
``DISTRIB_<name>``
.. versionadded:: 3.22
Get the ``<name>`` variable (see `man 5 os-release`_) if it exists in the
:file:`/etc/os-release` file
Example:
.. code-block:: cmake
cmake_host_system_information(RESULT PRETTY_NAME QUERY DISTRIB_PRETTY_NAME)
message(STATUS "${PRETTY_NAME}")
cmake_host_system_information(RESULT DISTRO QUERY DISTRIB_INFO)
foreach(VAR IN LISTS DISTRO)
message(STATUS "${VAR}=`${${VAR}}`")
endforeach()
Output::
-- Ubuntu 20.04.2 LTS
-- DISTRO_BUG_REPORT_URL=`https://bugs.launchpad.net/ubuntu/`
-- DISTRO_HOME_URL=`https://www.ubuntu.com/`
-- DISTRO_ID=`ubuntu`
-- DISTRO_ID_LIKE=`debian`
-- DISTRO_NAME=`Ubuntu`
-- DISTRO_PRETTY_NAME=`Ubuntu 20.04.2 LTS`
-- DISTRO_PRIVACY_POLICY_URL=`https://www.ubuntu.com/legal/terms-and-policies/privacy-policy`
-- DISTRO_SUPPORT_URL=`https://help.ubuntu.com/`
-- DISTRO_UBUNTU_CODENAME=`focal`
-- DISTRO_VERSION=`20.04.2 LTS (Focal Fossa)`
-- DISTRO_VERSION_CODENAME=`focal`
-- DISTRO_VERSION_ID=`20.04`
If :file:`/etc/os-release` file is not found, the command tries to gather OS
identification via fallback scripts. The fallback script can use `various
distribution-specific files`_ to collect OS identification data and map it
into `man 5 os-release`_ variables.
Fallback Interface Variables
""""""""""""""""""""""""""""
.. variable:: CMAKE_GET_OS_RELEASE_FALLBACK_SCRIPTS
In addition to the scripts shipped with CMake, a user may append full
paths to his script(s) to the this list. The script filename has the
following format: ``NNN-<name>.cmake``, where ``NNN`` is three digits
used to apply collected scripts in a specific order.
.. variable:: CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_<varname>
Variables collected by the user provided fallback script
ought to be assigned to CMake variables using this naming
convention. Example, the ``ID`` variable from the manual becomes
``CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_ID``.
.. variable:: CMAKE_GET_OS_RELEASE_FALLBACK_RESULT
The fallback script ought to store names of all assigned
``CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_<varname>`` variables in this list.
Example:
.. code-block:: cmake
# Try to detect some old distribution
# See also
# - http://linuxmafia.com/faq/Admin/release-files.html
#
if(NOT EXISTS "${CMAKE_SYSROOT}/etc/foobar-release")
return()
endif()
# Get the first string only
file(
STRINGS "${CMAKE_SYSROOT}/etc/foobar-release" CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT
LIMIT_COUNT 1
)
#
# Example:
#
# Foobar distribution release 1.2.3 (server)
#
if(CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT MATCHES "Foobar distribution release ([0-9\.]+) .*")
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_NAME Foobar)
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_PRETTY_NAME "${CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT}")
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_ID foobar)
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION ${CMAKE_MATCH_1})
set(CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION_ID ${CMAKE_MATCH_1})
list(
APPEND CMAKE_GET_OS_RELEASE_FALLBACK_RESULT
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_NAME
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_PRETTY_NAME
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_ID
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION
CMAKE_GET_OS_RELEASE_FALLBACK_RESULT_VERSION_ID
)
endif()
unset(CMAKE_GET_OS_RELEASE_FALLBACK_CONTENT)
.. rubric:: Footnotes
.. [#mebibytes] One MiB (mebibyte) is equal to 1024x1024 bytes.
.. _man 5 os-release: https://www.freedesktop.org/software/systemd/man/latest/os-release.html
.. _various distribution-specific files: http://linuxmafia.com/faq/Admin/release-files.html
.. _Query Windows registry:
Query Windows registry
^^^^^^^^^^^^^^^^^^^^^^
.. versionadded:: 3.24
::
cmake_host_system_information(RESULT <variable>
QUERY WINDOWS_REGISTRY <key> [VALUE_NAMES|SUBKEYS|VALUE <name>]
[VIEW (64|32|64_32|32_64|HOST|TARGET|BOTH)]
[SEPARATOR <separator>]
[ERROR_VARIABLE <result>])
Performs query operations on local computer registry subkey. Returns a list of
subkeys or value names that are located under the specified subkey in the
registry or the data of the specified value name. The result of the queried
entity is stored in ``<variable>``.
.. note::
Querying registry for any other platforms than ``Windows``, including
``CYGWIN``, will always returns an empty string and sets an error message in
the variable specified with sub-option ``ERROR_VARIABLE``.
``<key>`` specify the full path of a subkey on the local computer. The
``<key>`` must include a valid root key. Valid root keys for the local computer
are:
* ``HKLM`` or ``HKEY_LOCAL_MACHINE``
* ``HKCU`` or ``HKEY_CURRENT_USER``
* ``HKCR`` or ``HKEY_CLASSES_ROOT``
* ``HKU`` or ``HKEY_USERS``
* ``HKCC`` or ``HKEY_CURRENT_CONFIG``
And, optionally, the path to a subkey under the specified root key. The path
separator can be the slash or the backslash. ``<key>`` is not case sensitive.
For example:
.. code-block:: cmake
cmake_host_system_information(RESULT result QUERY WINDOWS_REGISTRY "HKLM")
cmake_host_system_information(RESULT result QUERY WINDOWS_REGISTRY "HKLM/SOFTWARE/Kitware")
cmake_host_system_information(RESULT result QUERY WINDOWS_REGISTRY "HKCU\\SOFTWARE\\Kitware")
``VALUE_NAMES``
Request the list of value names defined under ``<key>``. If a default value
is defined, it will be identified with the special name ``(default)``.
``SUBKEYS``
Request the list of subkeys defined under ``<key>``.
``VALUE <name>``
Request the data stored in value named ``<name>``. If ``VALUE`` is not
specified or argument is the special name ``(default)``, the content of the
default value, if any, will be returned.
.. code-block:: cmake
# query default value for HKLM/SOFTWARE/Kitware key
cmake_host_system_information(RESULT result
QUERY WINDOWS_REGISTRY "HKLM/SOFTWARE/Kitware")
# query default value for HKLM/SOFTWARE/Kitware key using special value name
cmake_host_system_information(RESULT result
QUERY WINDOWS_REGISTRY "HKLM/SOFTWARE/Kitware"
VALUE "(default)")
Supported types are:
* ``REG_SZ``.
* ``REG_EXPAND_SZ``. The returned data is expanded.
* ``REG_MULTI_SZ``. The returned is expressed as a CMake list. See also
``SEPARATOR`` sub-option.
* ``REG_DWORD``.
* ``REG_QWORD``.
For all other types, an empty string is returned.
``VIEW``
Specify which registry views must be queried. When not specified, ``BOTH``
view is used.
``64``
Query the 64bit registry. On ``32bit Windows``, returns always an empty
string.
``32``
Query the 32bit registry.
``64_32``
For ``VALUE`` sub-option or default value, query the registry using view
``64``, and if the request failed, query the registry using view ``32``.
For ``VALUE_NAMES`` and ``SUBKEYS`` sub-options, query both views (``64``
and ``32``) and merge the results (sorted and duplicates removed).
``32_64``
For ``VALUE`` sub-option or default value, query the registry using view
``32``, and if the request failed, query the registry using view ``64``.
For ``VALUE_NAMES`` and ``SUBKEYS`` sub-options, query both views (``32``
and ``64``) and merge the results (sorted and duplicates removed).
``HOST``
Query the registry matching the architecture of the host: ``64`` on ``64bit
Windows`` and ``32`` on ``32bit Windows``.
``TARGET``
Query the registry matching the architecture specified by
:variable:`CMAKE_SIZEOF_VOID_P` variable. If not defined, fallback to
``HOST`` view.
``BOTH``
Query both views (``32`` and ``64``). The order depends of the following
rules: If :variable:`CMAKE_SIZEOF_VOID_P` variable is defined. Use the
following view depending of the content of this variable:
* ``8``: ``64_32``
* ``4``: ``32_64``
If :variable:`CMAKE_SIZEOF_VOID_P` variable is not defined, rely on
architecture of the host:
* ``64bit``: ``64_32``
* ``32bit``: ``32``
``SEPARATOR``
Specify the separator character for ``REG_MULTI_SZ`` type. When not
specified, the character ``\0`` is used.
``ERROR_VARIABLE <result>``
Returns any error raised during query operation. In case of success, the
variable holds an empty string.

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cmake_minimum_required
----------------------
Require a minimum version of cmake.
.. code-block:: cmake
cmake_minimum_required(VERSION <min>[...<policy_max>] [FATAL_ERROR])
.. versionadded:: 3.12
The optional ``<policy_max>`` version.
Sets the minimum required version of cmake for a project.
Also updates the policy settings as explained below.
``<min>`` and the optional ``<policy_max>`` are each CMake versions of the
form ``major.minor[.patch[.tweak]]``, and the ``...`` is literal.
If the running version of CMake is lower than the ``<min>`` required
version it will stop processing the project and report an error.
The optional ``<policy_max>`` version, if specified, must be at least the
``<min>`` version and affects policy settings as described in `Policy Settings`_.
If the running version of CMake is older than 3.12, the extra ``...``
dots will be seen as version component separators, resulting in the
``...<max>`` part being ignored and preserving the pre-3.12 behavior
of basing policies on ``<min>``.
This command will set the value of the
:variable:`CMAKE_MINIMUM_REQUIRED_VERSION` variable to ``<min>``.
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.
.. note::
Call the ``cmake_minimum_required()`` command at the beginning of
the top-level ``CMakeLists.txt`` file even before calling the
:command:`project` command. It is important to establish version
and policy settings before invoking other commands whose behavior
they may affect. See also policy :policy:`CMP0000`.
Calling ``cmake_minimum_required()`` inside a :command:`function`
limits some effects to the function scope when invoked. For example,
the :variable:`CMAKE_MINIMUM_REQUIRED_VERSION` variable won't be set
in the calling scope. Functions do not introduce their own policy
scope though, so policy settings of the caller *will* be affected
(see below). Due to this mix of things that do and do not affect the
calling scope, calling ``cmake_minimum_required()`` inside a function
is generally discouraged.
.. _`Policy Settings`:
Policy Settings
^^^^^^^^^^^^^^^
The ``cmake_minimum_required(VERSION)`` command implicitly invokes the
:command:`cmake_policy(VERSION)` command to specify that the current
project code is written for the given range of CMake versions.
All policies known to the running version of CMake and introduced
in the ``<min>`` (or ``<max>``, if specified) version or earlier will
be set to use ``NEW`` behavior. All policies introduced in later
versions will be unset. This effectively requests behavior preferred
as of a given CMake version and tells newer CMake versions to warn
about their new policies.
When a ``<min>`` version higher than 2.4 is specified the command
implicitly invokes
.. code-block:: cmake
cmake_policy(VERSION <min>[...<max>])
which sets CMake policies based on the range of versions specified.
When a ``<min>`` version 2.4 or lower is given the command implicitly
invokes
.. code-block:: cmake
cmake_policy(VERSION 2.4[...<max>])
which enables compatibility features for CMake 2.4 and lower.
.. include:: DEPRECATED_POLICY_VERSIONS.txt
See Also
^^^^^^^^
* :command:`cmake_policy`
cmake_minimum_required
----------------------
Require a minimum version of cmake.
.. code-block:: cmake
cmake_minimum_required(VERSION <min>[...<policy_max>] [FATAL_ERROR])
.. versionadded:: 3.12
The optional ``<policy_max>`` version.
Sets the minimum required version of cmake for a project.
Also updates the policy settings as explained below.
``<min>`` and the optional ``<policy_max>`` are each CMake versions of the
form ``major.minor[.patch[.tweak]]``, and the ``...`` is literal.
If the running version of CMake is lower than the ``<min>`` required
version it will stop processing the project and report an error.
The optional ``<policy_max>`` version, if specified, must be at least the
``<min>`` version and affects policy settings as described in `Policy Settings`_.
If the running version of CMake is older than 3.12, the extra ``...``
dots will be seen as version component separators, resulting in the
``...<max>`` part being ignored and preserving the pre-3.12 behavior
of basing policies on ``<min>``.
This command will set the value of the
:variable:`CMAKE_MINIMUM_REQUIRED_VERSION` variable to ``<min>``.
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.
.. note::
Call the ``cmake_minimum_required()`` command at the beginning of
the top-level ``CMakeLists.txt`` file even before calling the
:command:`project` command. It is important to establish version
and policy settings before invoking other commands whose behavior
they may affect. See also policy :policy:`CMP0000`.
Calling ``cmake_minimum_required()`` inside a :command:`function`
limits some effects to the function scope when invoked. For example,
the :variable:`CMAKE_MINIMUM_REQUIRED_VERSION` variable won't be set
in the calling scope. Functions do not introduce their own policy
scope though, so policy settings of the caller *will* be affected
(see below). Due to this mix of things that do and do not affect the
calling scope, calling ``cmake_minimum_required()`` inside a function
is generally discouraged.
.. _`Policy Settings`:
Policy Settings
^^^^^^^^^^^^^^^
The ``cmake_minimum_required(VERSION)`` command implicitly invokes the
:command:`cmake_policy(VERSION)` command to specify that the current
project code is written for the given range of CMake versions.
All policies known to the running version of CMake and introduced
in the ``<min>`` (or ``<max>``, if specified) version or earlier will
be set to use ``NEW`` behavior. All policies introduced in later
versions will be unset. This effectively requests behavior preferred
as of a given CMake version and tells newer CMake versions to warn
about their new policies.
When a ``<min>`` version higher than 2.4 is specified the command
implicitly invokes
.. code-block:: cmake
cmake_policy(VERSION <min>[...<max>])
which sets CMake policies based on the range of versions specified.
When a ``<min>`` version 2.4 or lower is given the command implicitly
invokes
.. code-block:: cmake
cmake_policy(VERSION 2.4[...<max>])
which enables compatibility features for CMake 2.4 and lower.
.. include:: DEPRECATED_POLICY_VERSIONS.txt
See Also
^^^^^^^^
* :command:`cmake_policy`

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cmake_parse_arguments
---------------------
Parse function or macro arguments.
.. code-block:: cmake
cmake_parse_arguments(<prefix> <options> <one_value_keywords>
<multi_value_keywords> <args>...)
cmake_parse_arguments(PARSE_ARGV <N> <prefix> <options>
<one_value_keywords> <multi_value_keywords>)
.. versionadded:: 3.5
This command is implemented natively. Previously, it has been defined in the
module :module:`CMakeParseArguments`.
This command is for use in macros or functions.
It processes the arguments given to that macro or function,
and defines a set of variables which hold the values of the
respective options.
The first signature reads processes arguments passed in the ``<args>...``.
This may be used in either a :command:`macro` or a :command:`function`.
.. versionadded:: 3.7
The ``PARSE_ARGV`` signature is only for use in a :command:`function`
body. In this case the arguments that are parsed come from the
``ARGV#`` variables of the calling function. The parsing starts with
the ``<N>``-th argument, where ``<N>`` is an unsigned integer.
This allows for the values to have special characters like ``;`` in them.
The ``<options>`` argument contains all options for the respective macro,
i.e. keywords which can be used when calling the macro without any value
following, like e.g. the ``OPTIONAL`` keyword of the :command:`install`
command.
The ``<one_value_keywords>`` argument contains all keywords for this macro
which are followed by one value, like e.g. ``DESTINATION`` keyword of the
:command:`install` command.
The ``<multi_value_keywords>`` argument contains all keywords for this
macro which can be followed by more than one value, like e.g. the
``TARGETS`` or ``FILES`` keywords of the :command:`install` command.
.. versionchanged:: 3.5
All keywords shall be unique. I.e. every keyword shall only be specified
once in either ``<options>``, ``<one_value_keywords>`` or
``<multi_value_keywords>``. A warning will be emitted if uniqueness is
violated.
When done, ``cmake_parse_arguments`` will consider for each of the
keywords listed in ``<options>``, ``<one_value_keywords>`` and
``<multi_value_keywords>`` a variable composed of the given ``<prefix>``
followed by ``"_"`` and the name of the respective keyword. These
variables will then hold the respective value from the argument list
or be undefined if the associated option could not be found.
For the ``<options>`` keywords, these will always be defined,
to ``TRUE`` or ``FALSE``, whether the option is in the argument list or not.
All remaining arguments are collected in a variable
``<prefix>_UNPARSED_ARGUMENTS`` that will be undefined if all arguments
were recognized. This can be checked afterwards to see
whether your macro was called with unrecognized parameters.
.. versionadded:: 3.15
``<one_value_keywords>`` and ``<multi_value_keywords>`` that were given no
values at all are collected in a variable
``<prefix>_KEYWORDS_MISSING_VALUES`` that will be undefined if all keywords
received values. This can be checked to see if there were keywords without
any values given.
Consider the following example macro, ``my_install()``, which takes similar
arguments to the real :command:`install` command:
.. code-block:: cmake
macro(my_install)
set(options OPTIONAL FAST)
set(oneValueArgs DESTINATION RENAME)
set(multiValueArgs TARGETS CONFIGURATIONS)
cmake_parse_arguments(MY_INSTALL "${options}" "${oneValueArgs}"
"${multiValueArgs}" ${ARGN} )
# ...
Assume ``my_install()`` has been called like this:
.. code-block:: cmake
my_install(TARGETS foo bar DESTINATION bin OPTIONAL blub CONFIGURATIONS)
After the ``cmake_parse_arguments`` call the macro will have set or undefined
the following variables::
MY_INSTALL_OPTIONAL = TRUE
MY_INSTALL_FAST = FALSE # was not used in call to my_install
MY_INSTALL_DESTINATION = "bin"
MY_INSTALL_RENAME <UNDEFINED> # was not used
MY_INSTALL_TARGETS = "foo;bar"
MY_INSTALL_CONFIGURATIONS <UNDEFINED> # was not used
MY_INSTALL_UNPARSED_ARGUMENTS = "blub" # nothing expected after "OPTIONAL"
MY_INSTALL_KEYWORDS_MISSING_VALUES = "CONFIGURATIONS"
# No value for "CONFIGURATIONS" given
You can then continue and process these variables.
Keywords terminate lists of values, e.g. if directly after a
``one_value_keyword`` another recognized keyword follows, this is
interpreted as the beginning of the new option. E.g.
``my_install(TARGETS foo DESTINATION OPTIONAL)`` would result in
``MY_INSTALL_DESTINATION`` set to ``"OPTIONAL"``, but as ``OPTIONAL``
is a keyword itself ``MY_INSTALL_DESTINATION`` will be empty (but added
to ``MY_INSTALL_KEYWORDS_MISSING_VALUES``) and ``MY_INSTALL_OPTIONAL`` will
therefore be set to ``TRUE``.
See Also
^^^^^^^^
* :command:`function`
* :command:`macro`
cmake_parse_arguments
---------------------
Parse function or macro arguments.
.. code-block:: cmake
cmake_parse_arguments(<prefix> <options> <one_value_keywords>
<multi_value_keywords> <args>...)
cmake_parse_arguments(PARSE_ARGV <N> <prefix> <options>
<one_value_keywords> <multi_value_keywords>)
.. versionadded:: 3.5
This command is implemented natively. Previously, it has been defined in the
module :module:`CMakeParseArguments`.
This command is for use in macros or functions.
It processes the arguments given to that macro or function,
and defines a set of variables which hold the values of the
respective options.
The first signature reads processes arguments passed in the ``<args>...``.
This may be used in either a :command:`macro` or a :command:`function`.
.. versionadded:: 3.7
The ``PARSE_ARGV`` signature is only for use in a :command:`function`
body. In this case the arguments that are parsed come from the
``ARGV#`` variables of the calling function. The parsing starts with
the ``<N>``-th argument, where ``<N>`` is an unsigned integer.
This allows for the values to have special characters like ``;`` in them.
The ``<options>`` argument contains all options for the respective macro,
i.e. keywords which can be used when calling the macro without any value
following, like e.g. the ``OPTIONAL`` keyword of the :command:`install`
command.
The ``<one_value_keywords>`` argument contains all keywords for this macro
which are followed by one value, like e.g. ``DESTINATION`` keyword of the
:command:`install` command.
The ``<multi_value_keywords>`` argument contains all keywords for this
macro which can be followed by more than one value, like e.g. the
``TARGETS`` or ``FILES`` keywords of the :command:`install` command.
.. versionchanged:: 3.5
All keywords shall be unique. I.e. every keyword shall only be specified
once in either ``<options>``, ``<one_value_keywords>`` or
``<multi_value_keywords>``. A warning will be emitted if uniqueness is
violated.
When done, ``cmake_parse_arguments`` will consider for each of the
keywords listed in ``<options>``, ``<one_value_keywords>`` and
``<multi_value_keywords>`` a variable composed of the given ``<prefix>``
followed by ``"_"`` and the name of the respective keyword. These
variables will then hold the respective value from the argument list
or be undefined if the associated option could not be found.
For the ``<options>`` keywords, these will always be defined,
to ``TRUE`` or ``FALSE``, whether the option is in the argument list or not.
All remaining arguments are collected in a variable
``<prefix>_UNPARSED_ARGUMENTS`` that will be undefined if all arguments
were recognized. This can be checked afterwards to see
whether your macro was called with unrecognized parameters.
.. versionadded:: 3.15
``<one_value_keywords>`` and ``<multi_value_keywords>`` that were given no
values at all are collected in a variable
``<prefix>_KEYWORDS_MISSING_VALUES`` that will be undefined if all keywords
received values. This can be checked to see if there were keywords without
any values given.
Consider the following example macro, ``my_install()``, which takes similar
arguments to the real :command:`install` command:
.. code-block:: cmake
macro(my_install)
set(options OPTIONAL FAST)
set(oneValueArgs DESTINATION RENAME)
set(multiValueArgs TARGETS CONFIGURATIONS)
cmake_parse_arguments(MY_INSTALL "${options}" "${oneValueArgs}"
"${multiValueArgs}" ${ARGN} )
# ...
Assume ``my_install()`` has been called like this:
.. code-block:: cmake
my_install(TARGETS foo bar DESTINATION bin OPTIONAL blub CONFIGURATIONS)
After the ``cmake_parse_arguments`` call the macro will have set or undefined
the following variables::
MY_INSTALL_OPTIONAL = TRUE
MY_INSTALL_FAST = FALSE # was not used in call to my_install
MY_INSTALL_DESTINATION = "bin"
MY_INSTALL_RENAME <UNDEFINED> # was not used
MY_INSTALL_TARGETS = "foo;bar"
MY_INSTALL_CONFIGURATIONS <UNDEFINED> # was not used
MY_INSTALL_UNPARSED_ARGUMENTS = "blub" # nothing expected after "OPTIONAL"
MY_INSTALL_KEYWORDS_MISSING_VALUES = "CONFIGURATIONS"
# No value for "CONFIGURATIONS" given
You can then continue and process these variables.
Keywords terminate lists of values, e.g. if directly after a
``one_value_keyword`` another recognized keyword follows, this is
interpreted as the beginning of the new option. E.g.
``my_install(TARGETS foo DESTINATION OPTIONAL)`` would result in
``MY_INSTALL_DESTINATION`` set to ``"OPTIONAL"``, but as ``OPTIONAL``
is a keyword itself ``MY_INSTALL_DESTINATION`` will be empty (but added
to ``MY_INSTALL_KEYWORDS_MISSING_VALUES``) and ``MY_INSTALL_OPTIONAL`` will
therefore be set to ``TRUE``.
See Also
^^^^^^^^
* :command:`function`
* :command:`macro`

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cmake_policy
------------
Manage CMake Policy settings. See the :manual:`cmake-policies(7)`
manual for defined policies.
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.
Setting Policies by CMake Version
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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:
.. code-block:: cmake
cmake_policy(VERSION <min>[...<max>])
.. versionadded:: 3.12
The optional ``<max>`` version.
``<min>`` and the optional ``<max>`` are each CMake versions of the form
``major.minor[.patch[.tweak]]``, and the ``...`` is literal. The ``<min>``
version must be at least ``2.4`` and at most the running version of CMake.
The ``<max>`` version, if specified, must be at least the ``<min>`` version
but may exceed the running version of CMake. If the running version of
CMake is older than 3.12, the extra ``...`` dots will be seen as version
component separators, resulting in the ``...<max>`` part being ignored and
preserving the pre-3.12 behavior of basing policies on ``<min>``.
This specifies that the current CMake code is written for the given
range of CMake versions. All policies known to the running version of CMake
and introduced in the ``<min>`` (or ``<max>``, if specified) version
or earlier will be set to use ``NEW`` behavior. All policies
introduced in later versions will be unset (unless the
:variable:`CMAKE_POLICY_DEFAULT_CMP<NNNN>` variable 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.
Note that the :command:`cmake_minimum_required(VERSION)`
command implicitly calls ``cmake_policy(VERSION)`` too.
.. include:: DEPRECATED_POLICY_VERSIONS.txt
Setting Policies Explicitly
^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
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``.
.. include:: ../policy/DEPRECATED.txt
Checking Policy Settings
^^^^^^^^^^^^^^^^^^^^^^^^
.. code-block:: cmake
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 Policy Stack
^^^^^^^^^^^^^^^^^^
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 :command:`include` and :command:`find_package` commands
except when invoked with the ``NO_POLICY_SCOPE`` option
(see also policy :policy:`CMP0011`).
The ``cmake_policy`` command provides an interface to manage custom
entries on the policy stack:
.. code-block:: cmake
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.
Calls to the :command:`cmake_minimum_required(VERSION)`,
``cmake_policy(VERSION)``, or ``cmake_policy(SET)`` commands
influence only the current top of the policy stack.
.. versionadded:: 3.25
The :command:`block` and :command:`endblock` commands offer a more flexible
and more secure way to manage the policy stack. The pop action is done
automatically when the :command:`endblock` command is executed, so it avoid
to call the :command:`cmake_policy(POP)` command before each
:command:`return` command.
.. code-block:: cmake
# stack management with cmake_policy()
function(my_func)
cmake_policy(PUSH)
cmake_policy(SET ...)
if (<cond1>)
...
cmake_policy(POP)
return()
elseif(<cond2>)
...
cmake_policy(POP)
return()
endif()
...
cmake_policy(POP)
endfunction()
# stack management with block()/endblock()
function(my_func)
block(SCOPE_FOR POLICIES)
cmake_policy(SET ...)
if (<cond1>)
...
return()
elseif(<cond2>)
...
return()
endif()
...
endblock()
endfunction()
Commands created by the :command:`function` and :command:`macro`
commands 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.
See Also
^^^^^^^^
* :command:`cmake_minimum_required`
cmake_policy
------------
Manage CMake Policy settings. See the :manual:`cmake-policies(7)`
manual for defined policies.
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.
Setting Policies by CMake Version
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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:
.. signature:: cmake_policy(VERSION <min>[...<max>])
:target: VERSION
.. versionadded:: 3.12
The optional ``<max>`` version.
``<min>`` and the optional ``<max>`` are each CMake versions of the form
``major.minor[.patch[.tweak]]``, and the ``...`` is literal. The ``<min>``
version must be at least ``2.4`` and at most the running version of CMake.
The ``<max>`` version, if specified, must be at least the ``<min>`` version
but may exceed the running version of CMake. If the running version of
CMake is older than 3.12, the extra ``...`` dots will be seen as version
component separators, resulting in the ``...<max>`` part being ignored and
preserving the pre-3.12 behavior of basing policies on ``<min>``.
This specifies that the current CMake code is written for the given
range of CMake versions. All policies known to the running version of CMake
and introduced in the ``<min>`` (or ``<max>``, if specified) version
or earlier will be set to use ``NEW`` behavior. All policies
introduced in later versions will be unset (unless the
:variable:`CMAKE_POLICY_DEFAULT_CMP<NNNN>` variable 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.
Note that the :command:`cmake_minimum_required(VERSION)`
command implicitly calls ``cmake_policy(VERSION)`` too.
.. include:: DEPRECATED_POLICY_VERSIONS.txt
Setting Policies Explicitly
^^^^^^^^^^^^^^^^^^^^^^^^^^^
.. signature:: cmake_policy(SET CMP<NNNN> NEW|OLD)
:target: SET
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``.
.. include:: ../policy/DEPRECATED.txt
Checking Policy Settings
^^^^^^^^^^^^^^^^^^^^^^^^
.. signature:: cmake_policy(GET CMP<NNNN> <variable>)
:target: GET
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 Policy Stack
^^^^^^^^^^^^^^^^^^
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 :command:`include` and :command:`find_package` commands
except when invoked with the ``NO_POLICY_SCOPE`` option
(see also policy :policy:`CMP0011`).
The ``cmake_policy`` command provides an interface to manage custom
entries on the policy stack:
.. signature:: cmake_policy(PUSH)
:target: PUSH
Create a new entry on the policy stack.
.. signature:: cmake_policy(POP)
:target: POP
Remove the last policy stack entry created with ``cmake_policy(PUSH)``.
Each ``PUSH`` must have a matching ``POP`` to erase any changes.
This is useful to make temporary changes to policy settings.
Calls to the :command:`cmake_minimum_required(VERSION)`,
:command:`cmake_policy(VERSION)`, or :command:`cmake_policy(SET)` commands
influence only the current top of the policy stack.
.. versionadded:: 3.25
The :command:`block(SCOPE_FOR POLICIES)` command offers a more flexible
and more secure way to manage the policy stack. The pop action is done
automatically when leaving the block scope, so there is no need to
precede each :command:`return` with a call to :command:`cmake_policy(POP)`.
.. code-block:: cmake
# stack management with cmake_policy()
function(my_func)
cmake_policy(PUSH)
cmake_policy(SET ...)
if (<cond1>)
...
cmake_policy(POP)
return()
elseif(<cond2>)
...
cmake_policy(POP)
return()
endif()
...
cmake_policy(POP)
endfunction()
# stack management with block()/endblock()
function(my_func)
block(SCOPE_FOR POLICIES)
cmake_policy(SET ...)
if (<cond1>)
...
return()
elseif(<cond2>)
...
return()
endif()
...
endblock()
endfunction()
Commands created by the :command:`function` and :command:`macro`
commands 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.
See Also
^^^^^^^^
* :command:`cmake_minimum_required`

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configure_file
--------------
Copy a file to another location and modify its contents.
.. code-block:: cmake
configure_file(<input> <output>
[NO_SOURCE_PERMISSIONS | USE_SOURCE_PERMISSIONS |
FILE_PERMISSIONS <permissions>...]
[COPYONLY] [ESCAPE_QUOTES] [@ONLY]
[NEWLINE_STYLE [UNIX|DOS|WIN32|LF|CRLF] ])
Copies an ``<input>`` file to an ``<output>`` file and substitutes
variable values referenced as ``@VAR@``, ``${VAR}``, ``$CACHE{VAR}`` or
``$ENV{VAR}`` in the input file content. Each variable reference will be
replaced with the current value of the variable, or the empty string if
the variable is not defined. Furthermore, input lines of the form
.. code-block:: c
#cmakedefine VAR ...
will be replaced with either
.. code-block:: c
#define VAR ...
or
.. code-block:: c
/* #undef VAR */
depending on whether ``VAR`` is set in CMake to any value not considered
a false constant by the :command:`if` command. The "..." content on the
line after the variable name, if any, is processed as above.
Unlike lines of the form ``#cmakedefine VAR ...``, in lines of the form
``#cmakedefine01 VAR``, ``VAR`` itself will expand to ``VAR 0`` or ``VAR 1``
rather than being assigned the value ``...``. Therefore, input lines of the form
.. code-block:: c
#cmakedefine01 VAR
will be replaced with either
.. code-block:: c
#define VAR 0
or
.. code-block:: c
#define VAR 1
Input lines of the form ``#cmakedefine01 VAR ...`` will expand
as ``#cmakedefine01 VAR ... 0`` or ``#cmakedefine01 VAR ... 1``,
which may lead to undefined behavior.
.. versionadded:: 3.10
The result lines (with the exception of the ``#undef`` comments) can be
indented using spaces and/or tabs between the ``#`` character
and the ``cmakedefine`` or ``cmakedefine01`` words. This whitespace
indentation will be preserved in the output lines:
.. code-block:: c
# cmakedefine VAR
# cmakedefine01 VAR
will be replaced, if ``VAR`` is defined, with
.. code-block:: c
# define VAR
# define VAR 1
If the input file is modified the build system will re-run CMake to
re-configure the file and generate the build system again.
The generated file is modified and its timestamp updated on subsequent
cmake runs only if its content is changed.
The arguments are:
``<input>``
Path to the input file. A relative path is treated with respect to
the value of :variable:`CMAKE_CURRENT_SOURCE_DIR`. The input path
must be a file, not a directory.
``<output>``
Path to the output file or directory. A relative path is treated
with respect to the value of :variable:`CMAKE_CURRENT_BINARY_DIR`.
If the path names an existing directory the output file is placed
in that directory with the same file name as the input file.
If the path contains non-existent directories, they are created.
``NO_SOURCE_PERMISSIONS``
.. versionadded:: 3.19
Do not transfer the permissions of the input file to the output file.
The copied file permissions default to the standard 644 value
(-rw-r--r--).
``USE_SOURCE_PERMISSIONS``
.. versionadded:: 3.20
Transfer the permissions of the input file to the output file.
This is already the default behavior if none of the three permissions-related
keywords are given (``NO_SOURCE_PERMISSIONS``, ``USE_SOURCE_PERMISSIONS``
or ``FILE_PERMISSIONS``). The ``USE_SOURCE_PERMISSIONS`` keyword mostly
serves as a way of making the intended behavior clearer at the call site.
``FILE_PERMISSIONS <permissions>...``
.. versionadded:: 3.20
Ignore the input file's permissions and use the specified ``<permissions>``
for the output file instead.
``COPYONLY``
Copy the file without replacing any variable references or other
content. This option may not be used with ``NEWLINE_STYLE``.
``ESCAPE_QUOTES``
Escape any substituted quotes with backslashes (C-style).
``@ONLY``
Restrict variable replacement to references of the form ``@VAR@``.
This is useful for configuring scripts that use ``${VAR}`` syntax.
``NEWLINE_STYLE <style>``
Specify the newline style for the output file. Specify
``UNIX`` or ``LF`` for ``\n`` newlines, or specify
``DOS``, ``WIN32``, or ``CRLF`` for ``\r\n`` newlines.
This option may not be used with ``COPYONLY``.
Example
^^^^^^^
Consider a source tree containing a ``foo.h.in`` file:
.. code-block:: c
#cmakedefine FOO_ENABLE
#cmakedefine FOO_STRING "@FOO_STRING@"
An adjacent ``CMakeLists.txt`` may use ``configure_file`` to
configure the header:
.. code-block:: cmake
option(FOO_ENABLE "Enable Foo" ON)
if(FOO_ENABLE)
set(FOO_STRING "foo")
endif()
configure_file(foo.h.in foo.h @ONLY)
This creates a ``foo.h`` in the build directory corresponding to
this source directory. If the ``FOO_ENABLE`` option is on, the
configured file will contain:
.. code-block:: c
#define FOO_ENABLE
#define FOO_STRING "foo"
Otherwise it will contain:
.. code-block:: c
/* #undef FOO_ENABLE */
/* #undef FOO_STRING */
One may then use the :command:`target_include_directories` command to
specify the output directory as an include directory:
.. code-block:: cmake
target_include_directories(<target> [SYSTEM] <INTERFACE|PUBLIC|PRIVATE> "${CMAKE_CURRENT_BINARY_DIR}")
so that sources may include the header as ``#include <foo.h>``.
See Also
^^^^^^^^
* :command:`file(GENERATE)`
configure_file
--------------
.. only:: html
.. contents::
Copy a file to another location and modify its contents.
.. code-block:: cmake
configure_file(<input> <output>
[NO_SOURCE_PERMISSIONS | USE_SOURCE_PERMISSIONS |
FILE_PERMISSIONS <permissions>...]
[COPYONLY] [ESCAPE_QUOTES] [@ONLY]
[NEWLINE_STYLE [UNIX|DOS|WIN32|LF|CRLF] ])
Copies an ``<input>`` file to an ``<output>`` file while performing
`transformations`_ of the input file content.
If the input file is modified the build system will re-run CMake to
re-configure the file and generate the build system again.
The generated file is modified and its timestamp updated on subsequent
cmake runs only if its content is changed.
Options
^^^^^^^
The options are:
``<input>``
Path to the input file. A relative path is treated with respect to
the value of :variable:`CMAKE_CURRENT_SOURCE_DIR`. The input path
must be a file, not a directory.
``<output>``
Path to the output file or directory. A relative path is treated
with respect to the value of :variable:`CMAKE_CURRENT_BINARY_DIR`.
If the path names an existing directory the output file is placed
in that directory with the same file name as the input file.
If the path contains non-existent directories, they are created.
``NO_SOURCE_PERMISSIONS``
.. versionadded:: 3.19
Do not transfer the permissions of the input file to the output file.
The copied file permissions default to the standard 644 value
(-rw-r--r--).
``USE_SOURCE_PERMISSIONS``
.. versionadded:: 3.20
Transfer the permissions of the input file to the output file.
This is already the default behavior if none of the three permissions-related
keywords are given (``NO_SOURCE_PERMISSIONS``, ``USE_SOURCE_PERMISSIONS``
or ``FILE_PERMISSIONS``). The ``USE_SOURCE_PERMISSIONS`` keyword mostly
serves as a way of making the intended behavior clearer at the call site.
``FILE_PERMISSIONS <permissions>...``
.. versionadded:: 3.20
Ignore the input file's permissions and use the specified ``<permissions>``
for the output file instead.
``COPYONLY``
Copy the file without replacing any variable references or other
content. This option may not be used with ``NEWLINE_STYLE``.
``ESCAPE_QUOTES``
Escape any substituted quotes with backslashes (C-style).
``@ONLY``
Restrict variable replacement to references of the form ``@VAR@``.
This is useful for configuring scripts that use ``${VAR}`` syntax.
``NEWLINE_STYLE <style>``
Specify the newline style for the output file. Specify
``UNIX`` or ``LF`` for ``\n`` newlines, or specify
``DOS``, ``WIN32``, or ``CRLF`` for ``\r\n`` newlines.
This option may not be used with ``COPYONLY``.
Transformations
^^^^^^^^^^^^^^^
:ref:`Variables <CMake Language Variables>` referenced in the input
file content as ``@VAR@``, ``${VAR}``, ``$CACHE{VAR}``, and
:ref:`environment variables <CMake Language Environment Variables>`
referenced as ``$ENV{VAR}``, will each be replaced with the current value
of the variable, or the empty string if the variable is not defined.
Furthermore, input lines of the form
.. code-block:: c
#cmakedefine VAR ...
will be replaced with either
.. code-block:: c
#define VAR ...
or
.. code-block:: c
/* #undef VAR */
depending on whether ``VAR`` is set in CMake to any value not considered
a false constant by the :command:`if` command. The "..." content on the
line after the variable name, if any, is processed as above.
Unlike lines of the form ``#cmakedefine VAR ...``, in lines of the form
``#cmakedefine01 VAR``, ``VAR`` itself will expand to ``VAR 0`` or ``VAR 1``
rather than being assigned the value ``...``. Therefore, input lines of the form
.. code-block:: c
#cmakedefine01 VAR
will be replaced with either
.. code-block:: c
#define VAR 0
or
.. code-block:: c
#define VAR 1
Input lines of the form ``#cmakedefine01 VAR ...`` will expand
as ``#cmakedefine01 VAR ... 0`` or ``#cmakedefine01 VAR ... 1``,
which may lead to undefined behavior.
.. versionadded:: 3.10
The result lines (with the exception of the ``#undef`` comments) can be
indented using spaces and/or tabs between the ``#`` character
and the ``cmakedefine`` or ``cmakedefine01`` words. This whitespace
indentation will be preserved in the output lines:
.. code-block:: c
# cmakedefine VAR
# cmakedefine01 VAR
will be replaced, if ``VAR`` is defined, with
.. code-block:: c
# define VAR
# define VAR 1
Example
^^^^^^^
Consider a source tree containing a ``foo.h.in`` file:
.. code-block:: c
#cmakedefine FOO_ENABLE
#cmakedefine FOO_STRING "@FOO_STRING@"
An adjacent ``CMakeLists.txt`` may use ``configure_file`` to
configure the header:
.. code-block:: cmake
option(FOO_ENABLE "Enable Foo" ON)
if(FOO_ENABLE)
set(FOO_STRING "foo")
endif()
configure_file(foo.h.in foo.h @ONLY)
This creates a ``foo.h`` in the build directory corresponding to
this source directory. If the ``FOO_ENABLE`` option is on, the
configured file will contain:
.. code-block:: c
#define FOO_ENABLE
#define FOO_STRING "foo"
Otherwise it will contain:
.. code-block:: c
/* #undef FOO_ENABLE */
/* #undef FOO_STRING */
One may then use the :command:`target_include_directories` command to
specify the output directory as an include directory:
.. code-block:: cmake
target_include_directories(<target> [SYSTEM] <INTERFACE|PUBLIC|PRIVATE> "${CMAKE_CURRENT_BINARY_DIR}")
so that sources may include the header as ``#include <foo.h>``.
See Also
^^^^^^^^
* :command:`file(GENERATE)`

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continue
--------
.. versionadded:: 3.2
Continue to the top of enclosing foreach or while loop.
.. code-block:: cmake
continue()
The ``continue()`` command allows a cmake script to abort the rest of the
current iteration of a :command:`foreach` or :command:`while` loop, and start
at the top of the next iteration.
See also the :command:`break` command.
continue
--------
.. versionadded:: 3.2
Continue to the top of enclosing foreach or while loop.
.. code-block:: cmake
continue()
The ``continue()`` command allows a cmake script to abort the rest of the
current iteration of a :command:`foreach` or :command:`while` loop, and start
at the top of the next iteration.
See also the :command:`break` command.

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create_test_sourcelist
----------------------
Create a test driver program that links together many small tests into a
single executable. This is useful when building static executables with
large libraries to shrink the total required size.
.. signature::
create_test_sourcelist(<sourceListName> <driverName> <test>... <options>...)
:target: original
Generate a test driver source file from a list of individual test sources
and provide a combined list of sources that can be built as an executable.
The options are:
``<sourceListName>``
The name of a variable in which to store the list of source files needed
to build the test driver. The list will contain the ``<test>...`` sources
and the generated ``<driverName>`` source.
.. versionchanged:: 3.29
The test driver source is listed by absolute path in the build tree.
Previously it was listed only as ``<driverName>``.
``<driverName>``
Name of the test driver source file to be generated into the build tree.
The source file will contain a ``main()`` program entry point that
dispatches to whatever test is named on the command line.
``<test>...``
Test source files to be added to the driver binary. Each test source
file must have a function in it that is the same name as the file with the
extension removed. For example, a ``foo.cxx`` test source might contain:
.. code-block:: c++
int foo(int argc, char** argv)
``EXTRA_INCLUDE <header>``
Specify a header file to ``#include`` in the generated test driver source.
``FUNCTION <function>``
Specify a function to be called with pointers to ``argc`` and ``argv``.
The function may be provided in the ``EXTRA_INCLUDE`` header:
.. code-block:: c++
void function(int* pargc, char*** pargv)
This can be used to add extra command line processing to each test.
Additionally, some CMake variables affect test driver generation:
.. variable:: CMAKE_TESTDRIVER_BEFORE_TESTMAIN
Code to be placed directly before calling each test's function.
.. variable:: CMAKE_TESTDRIVER_AFTER_TESTMAIN
Code to be placed directly after the call to each test's function.

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ctest_build
-----------
Perform the :ref:`CTest Build Step` as a :ref:`Dashboard Client`.
.. code-block:: cmake
ctest_build([BUILD <build-dir>] [APPEND]
[CONFIGURATION <config>]
[PARALLEL_LEVEL <parallel>]
[FLAGS <flags>]
[PROJECT_NAME <project-name>]
[TARGET <target-name>]
[NUMBER_ERRORS <num-err-var>]
[NUMBER_WARNINGS <num-warn-var>]
[RETURN_VALUE <result-var>]
[CAPTURE_CMAKE_ERROR <result-var>]
)
Build the project and store results in ``Build.xml``
for submission with the :command:`ctest_submit` command.
The :variable:`CTEST_BUILD_COMMAND` variable may be set to explicitly
specify the build command line. Otherwise the build command line is
computed automatically based on the options given.
The options are:
``BUILD <build-dir>``
Specify the top-level build directory. If not given, the
:variable:`CTEST_BINARY_DIRECTORY` variable is used.
``APPEND``
Mark ``Build.xml`` for append to results previously submitted to a
dashboard server since the last :command:`ctest_start` call.
Append semantics are defined by the dashboard server in use.
This does *not* cause results to be appended to a ``.xml`` file
produced by a previous call to this command.
``CONFIGURATION <config>``
Specify the build configuration (e.g. ``Debug``). If not
specified the ``CTEST_BUILD_CONFIGURATION`` variable will be checked.
Otherwise the :option:`-C \<cfg\> <ctest -C>` option given to the
:manual:`ctest(1)` command will be used, if any.
``PARALLEL_LEVEL <parallel>``
.. versionadded:: 3.21
Specify the parallel level of the underlying build system. If not
specified, the :envvar:`CMAKE_BUILD_PARALLEL_LEVEL` environment
variable will be checked.
``FLAGS <flags>``
Pass additional arguments to the underlying build command.
If not specified the ``CTEST_BUILD_FLAGS`` variable will be checked.
This can, e.g., be used to trigger a parallel build using the
``-j`` option of ``make``. See the :module:`ProcessorCount` module
for an example.
``PROJECT_NAME <project-name>``
Ignored since CMake 3.0.
.. versionchanged:: 3.14
This value is no longer required.
``TARGET <target-name>``
Specify the name of a target to build. If not specified the
``CTEST_BUILD_TARGET`` variable will be checked. Otherwise the
default target will be built. This is the "all" target
(called ``ALL_BUILD`` in :ref:`Visual Studio Generators`).
``NUMBER_ERRORS <num-err-var>``
Store the number of build errors detected in the given variable.
``NUMBER_WARNINGS <num-warn-var>``
Store the number of build warnings detected in the given variable.
``RETURN_VALUE <result-var>``
Store the return value of the native build tool in the given variable.
``CAPTURE_CMAKE_ERROR <result-var>``
.. versionadded:: 3.7
Store in the ``<result-var>`` variable -1 if there are any errors running
the command and prevent ctest from returning non-zero if an error occurs.
``QUIET``
.. versionadded:: 3.3
Suppress any CTest-specific non-error output that would have been
printed to the console otherwise. The summary of warnings / errors,
as well as the output from the native build tool is unaffected by
this option.
ctest_build
-----------
Perform the :ref:`CTest Build Step` as a :ref:`Dashboard Client`.
.. code-block:: cmake
ctest_build([BUILD <build-dir>] [APPEND]
[CONFIGURATION <config>]
[PARALLEL_LEVEL <parallel>]
[FLAGS <flags>]
[PROJECT_NAME <project-name>]
[TARGET <target-name>]
[NUMBER_ERRORS <num-err-var>]
[NUMBER_WARNINGS <num-warn-var>]
[RETURN_VALUE <result-var>]
[CAPTURE_CMAKE_ERROR <result-var>]
)
Build the project and store results in ``Build.xml``
for submission with the :command:`ctest_submit` command.
The :variable:`CTEST_BUILD_COMMAND` variable may be set to explicitly
specify the build command line. Otherwise the build command line is
computed automatically based on the options given.
The options are:
``BUILD <build-dir>``
Specify the top-level build directory. If not given, the
:variable:`CTEST_BINARY_DIRECTORY` variable is used.
``APPEND``
Mark ``Build.xml`` for append to results previously submitted to a
dashboard server since the last :command:`ctest_start` call.
Append semantics are defined by the dashboard server in use.
This does *not* cause results to be appended to a ``.xml`` file
produced by a previous call to this command.
``CONFIGURATION <config>``
Specify the build configuration (e.g. ``Debug``). If not
specified the ``CTEST_BUILD_CONFIGURATION`` variable will be checked.
Otherwise the :option:`-C \<cfg\> <ctest -C>` option given to the
:manual:`ctest(1)` command will be used, if any.
``PARALLEL_LEVEL <parallel>``
.. versionadded:: 3.21
Specify the parallel level of the underlying build system. If not
specified, the :envvar:`CMAKE_BUILD_PARALLEL_LEVEL` environment
variable will be checked.
``FLAGS <flags>``
Pass additional arguments to the underlying build command.
If not specified the ``CTEST_BUILD_FLAGS`` variable will be checked.
This can, e.g., be used to trigger a parallel build using the
``-j`` option of ``make``. See the :module:`ProcessorCount` module
for an example.
``PROJECT_NAME <project-name>``
Ignored since CMake 3.0.
.. versionchanged:: 3.14
This value is no longer required.
``TARGET <target-name>``
Specify the name of a target to build. If not specified the
``CTEST_BUILD_TARGET`` variable will be checked. Otherwise the
default target will be built. This is the "all" target
(called ``ALL_BUILD`` in :ref:`Visual Studio Generators`).
``NUMBER_ERRORS <num-err-var>``
Store the number of build errors detected in the given variable.
``NUMBER_WARNINGS <num-warn-var>``
Store the number of build warnings detected in the given variable.
``RETURN_VALUE <result-var>``
Store the return value of the native build tool in the given variable.
``CAPTURE_CMAKE_ERROR <result-var>``
.. versionadded:: 3.7
Store in the ``<result-var>`` variable -1 if there are any errors running
the command and prevent ctest from returning non-zero if an error occurs.
``QUIET``
.. versionadded:: 3.3
Suppress any CTest-specific non-error output that would have been
printed to the console otherwise. The summary of warnings / errors,
as well as the output from the native build tool is unaffected by
this option.

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ctest_configure
---------------
Perform the :ref:`CTest Configure Step` as a :ref:`Dashboard Client`.
.. code-block:: cmake
ctest_configure([BUILD <build-dir>] [SOURCE <source-dir>] [APPEND]
[OPTIONS <options>] [RETURN_VALUE <result-var>] [QUIET]
[CAPTURE_CMAKE_ERROR <result-var>])
Configure the project build tree and record results in ``Configure.xml``
for submission with the :command:`ctest_submit` command.
The options are:
``BUILD <build-dir>``
Specify the top-level build directory. If not given, the
:variable:`CTEST_BINARY_DIRECTORY` variable is used.
``SOURCE <source-dir>``
Specify the source directory. If not given, the
:variable:`CTEST_SOURCE_DIRECTORY` variable is used.
``APPEND``
Mark ``Configure.xml`` for append to results previously submitted to a
dashboard server since the last :command:`ctest_start` call.
Append semantics are defined by the dashboard server in use.
This does *not* cause results to be appended to a ``.xml`` file
produced by a previous call to this command.
``OPTIONS <options>``
Specify command-line arguments to pass to the configuration tool.
``RETURN_VALUE <result-var>``
Store in the ``<result-var>`` variable the return value of the native
configuration tool.
``CAPTURE_CMAKE_ERROR <result-var>``
.. versionadded:: 3.7
Store in the ``<result-var>`` variable -1 if there are any errors running
the command and prevent ctest from returning non-zero if an error occurs.
``QUIET``
.. versionadded:: 3.3
Suppress any CTest-specific non-error messages that would have
otherwise been printed to the console. Output from the underlying
configure command is not affected.
ctest_configure
---------------
Perform the :ref:`CTest Configure Step` as a :ref:`Dashboard Client`.
.. code-block:: cmake
ctest_configure([BUILD <build-dir>] [SOURCE <source-dir>] [APPEND]
[OPTIONS <options>] [RETURN_VALUE <result-var>] [QUIET]
[CAPTURE_CMAKE_ERROR <result-var>])
Configure the project build tree and record results in ``Configure.xml``
for submission with the :command:`ctest_submit` command.
The options are:
``BUILD <build-dir>``
Specify the top-level build directory. If not given, the
:variable:`CTEST_BINARY_DIRECTORY` variable is used.
``SOURCE <source-dir>``
Specify the source directory. If not given, the
:variable:`CTEST_SOURCE_DIRECTORY` variable is used.
``APPEND``
Mark ``Configure.xml`` for append to results previously submitted to a
dashboard server since the last :command:`ctest_start` call.
Append semantics are defined by the dashboard server in use.
This does *not* cause results to be appended to a ``.xml`` file
produced by a previous call to this command.
``OPTIONS <options>``
Specify command-line arguments to pass to the configuration tool.
``RETURN_VALUE <result-var>``
Store in the ``<result-var>`` variable the return value of the native
configuration tool.
``CAPTURE_CMAKE_ERROR <result-var>``
.. versionadded:: 3.7
Store in the ``<result-var>`` variable -1 if there are any errors running
the command and prevent ctest from returning non-zero if an error occurs.
``QUIET``
.. versionadded:: 3.3
Suppress any CTest-specific non-error messages that would have
otherwise been printed to the console. Output from the underlying
configure command is not affected.

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