CMake wrapper for the Conan C and C++ package manager.
⚠️ Compatibility with Conan 2.0: please check for experimental support in the develop2 branch.
This cmake module allows to launch conan install
from cmake.
The branches in this repo are:
- develop: PR are merged to this branch. Latest state of development
- master: Latest release
- tagged releases: https://github.com/conan-io/cmake-conan/releases.
You probably want to use a tagged release to ensure controlled upgrades.
You can just clone or grab the conan.cmake file and put in in your project.
Or it can be used in this way. Note the 0.18.1
tag in the URL, change it to point to your desired release:
cmake_minimum_required(VERSION 3.9)
project(FormatOutput CXX)
list(APPEND CMAKE_MODULE_PATH ${CMAKE_BINARY_DIR})
list(APPEND CMAKE_PREFIX_PATH ${CMAKE_BINARY_DIR})
add_definitions("-std=c++11")
if(NOT EXISTS "${CMAKE_BINARY_DIR}/conan.cmake")
message(STATUS "Downloading conan.cmake from https://github.com/conan-io/cmake-conan")
file(DOWNLOAD "https://raw.githubusercontent.com/conan-io/cmake-conan/0.18.1/conan.cmake"
"${CMAKE_BINARY_DIR}/conan.cmake"
TLS_VERIFY ON)
endif()
include(${CMAKE_BINARY_DIR}/conan.cmake)
conan_cmake_configure(REQUIRES fmt/6.1.2
GENERATORS cmake_find_package)
conan_cmake_autodetect(settings)
conan_cmake_install(PATH_OR_REFERENCE .
BUILD missing
REMOTE conancenter
SETTINGS ${settings})
find_package(fmt)
add_executable(main main.cpp)
target_link_libraries(main fmt::fmt)
There are different functions you can use from your CMake project to use Conan from there. The
recommended flow to use cmake-conan is successively calling to conan_cmake_configure
,
conan_cmake_autodetect
and conan_cmake_install
. This flow is recommended from v0.16 where these
functions were introduced.
The example above is using the Conan cmake_find_package
generator which is less intrusive than the
cmake
generator and more aligned with the direction Conan is taking for the 2.0 version. If you
want to continue using the cmake
generator with conan_cmake_configure
, conan_cmake_autodetect
and conan_cmake_install
flow, you should manually include the conanbuildinfo.cmake
file generated
and also call to conan_basic_setup
:
include(${CMAKE_BINARY_DIR}/conanbuildinfo.cmake)
conan_basic_setup(TARGETS)
Please check the cmake generator documentation for further details.
This function will accept the same arguments as the sections of the conanfile.txt.
conan_cmake_configure(REQUIRES fmt/6.1.2
GENERATORS cmake_find_package
BUILD_REQUIRES cmake/3.15.7
IMPORTS "bin, *.dll -> ./bin"
IMPORTS "lib, *.dylib* -> ./bin")
OPTIONS fmt:shared=True)
This function will return the auto-detected settings (things like build_type, compiler or system
name) so you can pass that information to conan_cmake_install
. This step is optional as you may
want to rely on profiles, lockfiles or any other way of passing that information. This function will
also accept as arguments BUILD_TYPE
and ARCH
. Setting those arguments will force that settings
to the value provided (this can be useful for the multi-configuration generator scenario below).
conan_cmake_autodetect(settings)
This function is a wrapper for the conan
install command. You can
pass all the arguments that the command supports. Also, you can pass the auto-detected settings from
conan_cmake_autodetect
in the SETTINGS
argument.
It can receive as arguments: UPDATE
, NO_IMPORTS
, PATH_OR_REFERENCE
, REFERENCE
, REMOTE
,
LOCKFILE
, LOCKFILE_OUT
, LOCKFILE_NODE_ID
, INSTALL_FOLDER
, OUTPUT_FOLDER
, GENERATOR
, BUILD
(if this
parameter takes the all
value, Conan will build everything from source), ENV
, ENV_HOST
,
ENV_BUILD
, OPTIONS_HOST
, OPTIONS
, OPTIONS_BUILD
, PROFILE
, PROFILE_HOST
, PROFILE_BUILD
,
SETTINGS
, SETTINGS_HOST
, SETTINGS_BUILD
. For more information, check conan
install documentation.
It will also accept OUTPUT_QUIET
and ERROR_QUIET
arguments so that when it runs the conan install
command the output is quiet or the error is bypassed (or both).
conan_cmake_install(PATH_OR_REFERENCE .
BUILD missing
REMOTE conancenter
SETTINGS ${settings})
This function is an additional wrapper for the conan lock
create
sub-command of conan lock command to enable lockfile based workflows. You can pass all the arguments
that the command supports. Also, you can pass the auto-detected settings from
conan_cmake_autodetect
in the SETTINGS
argument.
It can receive as arguments: PATH
, REFERENCE
, UPDATE
, BASE
, REMOTE
, LOCKFILE
,
LOCKFILE_OUT
, LOCKFILE_NODE_ID
, INSTALL_FOLDER
, GENERATOR
, BUILD
, ENV
, ENV_HOST
,
ENV_BUILD
, OPTIONS
, OPTIONS_HOST
, OPTIONS_BUILD
, PROFILE
, PROFILE_HOST
, PROFILE_BUILD
,
SETTINGS
, SETTINGS_HOST
, SETTINGS_BUILD
. For more information, check conan lock
create
documentation.
It will also accept OUTPUT_QUIET
and ERROR_QUIET
arguments so that when it runs the conan install
command the output is quiet or the error is bypassed (or both).
The recommended approach when using Multi Configuration generators like Visual Studio or Xcode is
looping through the CMAKE_CONFIGURATION_TYPES
in your CMakeLists.txt and calling
conan_cmake_autodetect
with the BUILD_TYPE
argument and conan_cmake_install
for each one using
a Conan multiconfig generator like cmake_find_package_multi
. Please check the example:
cmake_minimum_required(VERSION 3.9)
project(FormatOutput CXX)
list(APPEND CMAKE_MODULE_PATH ${CMAKE_BINARY_DIR})
list(APPEND CMAKE_PREFIX_PATH ${CMAKE_BINARY_DIR})
add_definitions("-std=c++11")
include(conan.cmake)
conan_cmake_configure(REQUIRES fmt/6.1.2 GENERATORS cmake_find_package_multi)
foreach(TYPE ${CMAKE_CONFIGURATION_TYPES})
conan_cmake_autodetect(settings BUILD_TYPE ${TYPE})
conan_cmake_install(PATH_OR_REFERENCE .
BUILD missing
REMOTE conancenter
SETTINGS ${settings})
endforeach()
find_package(fmt CONFIG)
add_executable(main main.cpp)
target_link_libraries(main fmt::fmt)
This function is not the recommended way of using cmake-conan any more and will be deprecated in the near future. It will make the configure, auto-detect and install in one step so if you plan to use any new Conan features like lockfiles or build and host profiles it's possible that the auto-detected settings collide with the call to conan install.
conan_cmake_run(REQUIRES fmt/1.9.4
cgal/5.0.2
OPTIONS Pkg:shared=True
OtherPkg:option=value
)
Define requirements and their options. These values are written to a temporary conanfile.py
. If you need more advanced functionality, like conditional requirements, you can define your own conanfile.txt
or conanfile.py
and provide
it with the CONANFILE
argument
If you want to use targets, you could do:
include(conan.cmake)
conan_cmake_run(REQUIRES fmt/1.9.4
BASIC_SETUP CMAKE_TARGETS
BUILD missing)
add_executable(main main.cpp)
target_link_libraries(main CONAN_PKG::fmt)
This will do a conan_basic_setup(TARGETS)
for modern CMake targets definition.
If you want to use your own conanfile.txt
or conanfile.py
instead of generating a temporary one, you could do:
include(conan.cmake)
conan_cmake_run(CONANFILE conanfile.txt # or relative build/conanfile.txt
BASIC_SETUP CMAKE_TARGETS
BUILD missing)
The resolution of the path will be relative to the root CMakeLists.txt
file.
conan_cmake_run(REQUIRES fmt/6.1.2 boost...
BASIC_SETUP
BUILD <value>)
Used to define the build policy used for conan install
. Can take different values:
BUILD all
. Build all the dependencies for the project.BUILD missing
. Build packages from source whose binary package is not found.BUILD outdated
. Build packages from source whose binary package was not generated from the latest recipe or is not found.BUILD cascade
. Build packages from source that have at least one dependency being built from source.BUILD [pattern]
. Build packages from source whose package reference matches the pattern. The pattern uses 'fnmatch' style wildcards.
include(conan.cmake)
conan_cmake_run(CONANFILE conanfile.txt
BASIC_SETUP KEEP_RPATHS)
include(conan.cmake)
conan_cmake_run(CONANFILE conanfile.txt
BASIC_SETUP NO_OUTPUT_DIRS)
Pass to conan_basic_setup(NO_OUTPUT_DIRS)
so conanbuildinfo.cmake does not change the output directories (lib, bin).
include(conan.cmake)
conan_cmake_run(ARCH armv7)
Use it to override the architecture detection and force to call conan with the provided one. The architecture should exist in settings.yml.
include(conan.cmake)
conan_cmake_run(BUILD_TYPE "None")
Use it to override the build_type detection and force to call conan with the provided one. The build type should exist in settings.yml.
include(conan.cmake)
conan_cmake_run(CONFIGURATION_TYPES "Release;Debug;RelWithDebInfo")
Use it to set the different configurations when using multi-configuration generators. The default
configurations used for multi-configuration generators are Debug
and Release
if the argument
CONFIGURATION_TYPES
is not specified The build types passed through this argument should exist
in settings.yml.
include(conan.cmake)
conan_cmake_run(PROFILE default)
Use it to use the "default" (or your own profile) conan profile rather than inferring settings from CMake. When it is defined, the CMake automatically detected settings are not used at all, and are overridden by the values from the profile.
include(conan.cmake)
conan_cmake_run(PROFILE default
PROFILE_AUTO build_type)
Use the CMake automatically detected value, instead of the profile one. The above
means use the profile named "default", but override its content with the build_type
automatically detected by CMake.
The precedence for settings definition is:
CMake detected < PROFILE < PROFILE_AUTO < Explicit ``conan_cmake_run()`` args
The ALL
value is used to use all detected settings from CMake, instead of the ones
defined in the profile:
include(conan.cmake)
conan_cmake_run(PROFILE default
PROFILE_AUTO ALL)
This is still useful, as the profile can have many other things defined (options, build_requires, etc).
To use the cmake_multi generator you just need to make sure CMAKE_BUILD_TYPE
is empty and use a CMake generator that supports multi-configuration.
If the BUILD_TYPE
is explictly passed to conan_cmake_run()
, then single configuration cmake
generator will be used.
include(conan.cmake)
conan_cmake_run(...
SETTINGS arch=armv6
SETTINGS compiler.cppstd=14)
include(conan.cmake)
conan_cmake_run(...
ENV env_var=value
ENV Pkg:env_var2=value2)
Define command line environment variables. Even if with CMake it is also possible to directly define environment variables, with this syntax you can define environment variables per-package, as the above is equivalent to:
$ conan install .... -e env_var=value -e Pkg:env_var2=value
If environment variables were defined in a given profile, command line arguments have higher precedence, so these values would be used instead of the profiles ones.
Provide the conan install --install-folder=[folder]
argument:
include(conan.cmake)
conan_cmake_run(...
INSTALL_FOLDER myfolder
)
Add additional generators. It may useful to add the virtualrunenv-generator:
include(conan.cmake)
conan_cmake_run(...
GENERATORS virtualrunenv)
List of files to be imported to a local folder. Read more about imports in Conan docs.
conan_cmake_run(...
IMPORTS "bin, *.dll -> ./bin"
IMPORTS "lib, *.dylib* -> ./bin")
Use NO_LOAD
argument to avoid loading the conanbuildinfo.cmake generated by the default cmake
generator.
include(conan.cmake)
conan_cmake_run(...
NO_LOAD)
Use CONAN_COMMAND
argument to specify the conan path, e.g. in case of running from source cmake
does not identify conan as command, even if it is +x and it is in the path.
include(conan.cmake)
conan_cmake_run(...
CONAN_COMMAND "path_to_conan")
Checks conan availability in PATH.
Arguments REQUIRED
and VERSION
are optional.
Example usage:
conan_check(VERSION 1.0.0 REQUIRED)
Returns the Conan client version.
Example usage:
conan_version(CONAN_VERSION)
if(${CONAN_VERSION} VERSION_LESS "2.0.0")
...
endif()
Adds a remote.
Arguments URL
and NAME
are required, INDEX
and VERIFY_SSL
are optional.
Example usage:
conan_add_remote(NAME bincrafters
INDEX 1
URL https://api.bintray.com/conan/bincrafters/public-conan
VERIFY_SSL True)
Installs a full configuration from a local or remote zip file.
Argument ITEM
is required, arguments TYPE
, SOURCE
, TARGET
and VERIFY_SSL
are optional.
Example usage:
conan_config_install(ITEM ./config.git TYPE git SOURCE src TARGET dst VERIFY_SSL False)
This function will create a profile with the same arguments as the section of the profile.
conan_cmake_profile(FILEPATH "${CMAKE_BINARY_DIR}/profile"
SETTINGS os=Windows
arch=x86_64
build_type=Debug
compiler=msvc
compiler.version=192
compiler.runtime=dynamic
compiler.runtime_type=Debug
compiler.cppstd=14
OPTIONS fmt:shared=True
fmt:header_only=False
CONF "tools.cmake.cmaketoolchain:generator=Visual Studio 16 2019"
"tools.cmake.cmaketoolchain:toolset_arch=x64"
TOOL_REQUIRES cmake/3.16.3)
This cmake wrapper launches conan, installing dependencies, and injecting a conan_basic_setup()
call. So it is for end-users only, but not necessary at all for creating packages, because conan already downloaded and installed dependencies the moment that a package needs to be built. If you are using the same CMakeLists.txt for both consuming and creating packages, consider doing something like:
if(CONAN_EXPORTED) # in conan local cache
# standard conan installation, deps will be defined in conanfile.py
# and not necessary to call conan again, conan is already running
include(${CMAKE_BINARY_DIR}/conanbuildinfo.cmake)
conan_basic_setup()
else() # in user space
include(conan.cmake)
# Make sure to use conanfile.py to define dependencies, to stay consistent
conan_cmake_configure(REQUIRES fmt/6.1.2 GENERATORS cmake_find_package)
conan_cmake_autodetect(settings)
conan_cmake_install(PATH_OR_REFERENCE . BUILD missing REMOTE conancenter SETTINGS ${settings})
endif()
Please check the source code for other options and arguments.
There are some tests, you can run in python, with pytest, for example:
$ pytest tests.py -rA