conan.tools.apple
Warning
These tools are still experimental (so subject to breaking changes) but with very stable syntax. We encourage the usage of it to be prepared for Conan 2.0.
XcodeDeps
Available since: 1.42.0
The XcodeDeps
tool is the dependency information generator for Xcode. It will generate multiple
.xcconfig configuration files, the can be used by consumers using xcodebuild or Xcode. To use
them just add the generated configuration files to the Xcode project or set the -xcconfig
argument from the command line.
The XcodeDeps
generator can be used by name in conanfiles:
class Pkg(ConanFile):
generators = "XcodeDeps"
[generators]
XcodeDeps
And it can also be fully instantiated in the conanfile generate()
method:
from conan import ConanFile
from conan.tools.apple import XcodeDeps
class Pkg(ConanFile):
settings = "os", "compiler", "arch", "build_type"
requires = "libpng/1.6.37@" # Note libpng has zlib as transitive dependency
def generate(self):
xcode = XcodeDeps(self)
xcode.generate()
When the XcodeDeps
generator is used, every invocation of conan install
will
generate several configuration files, per dependency and configuration. For the conanfile.py
above, for example:
$ conan install conanfile.py # default is Release
$ conan install conanfile.py -s build_type=Debug
This generator is multi-configuration. It will generate different files for the different Debug/Release configurations for each requirement. It will also generate one single file (conandeps.xcconfig) aggregating all the files for the direct dependencies (just libpng in this case). The above commands generate the following files:
.
├── conan_libpng.xcconfig
├── conan_libpng_debug_x86_64.xcconfig
├── conan_libpng_release_x86_64.xcconfig
├── conan_libpng_vars_debug_x86_64.xcconfig
├── conan_libpng_vars_release_x86_64.xcconfig
├── conan_zlib.xcconfig
├── conan_zlib_debug_x86_64.xcconfig
├── conan_zlib_release_x86_64.xcconfig
├── conan_zlib_vars_debug_x86_64.xcconfig
├── conan_zlib_vars_release_x86_64.xcconfig
├── conandeps.xcconfig
└── conan_config.xcconfig
The first conan install
with the default Release and x86_64 configuration generates:
conan_libpng_vars_release_x86_64.xcconfig: declares some intermediate variables that are included in conan_libpng_release_x86_64.xcconfig
conan_libpng_release_x86_64.xcconfig: includes conan_libpng_vars_release_x86_64.xcconfig and declares variables with conditional logic to be considered only for the active configuration in Xcode or the one passed by command line to xcodebuild.
conan_libpng.xcconfig: includes conan_libpng_release_x86_64.xcconfig and declares the following Xcode build settings:
HEADER_SEARCH_PATHS
,GCC_PREPROCESSOR_DEFINITIONS
,OTHER_CFLAGS
,OTHER_CPLUSPLUSFLAGS
,FRAMEWORK_SEARCH_PATHS
,LIBRARY_SEARCH_PATHS
,OTHER_LDFLAGS
. It also includes the generated xcconfig files for transitive dependencies (conan_zlib.xcconfig in this case).Same 3 files will be generated for each dependency in the graph. In this case, as zlib is a dependency of libpng it will generate: conan_zlib_vars_release_x86_64.xcconfig, conan_zlib_release_x86_64.xcconfig and conan_zlib.xcconfig.
conandeps.xcconfig: configuration files including all direct dependencies, in this case, it just includes
conan_libpng.xcconfig
.The main conan_config.xcconfig file, to be added to the project. Includes both the files from this generator and the generated by the XcodeToolchain in case it was also set.
The second conan install -s build_type=Debug
generates:
conan_libpng_vars_debug_x86_64.xcconfig: same variables as the one below for Debug configuration.
conan_libpng_debug_x86_64.xcconfig: same variables as the one below for Debug configuration.
conan_libpng.xcconfig: this file has been already creted by the previous command, now it’s modified to add the include for conan_libpng_debug_x86_64.xcconfig.
Like in the previous command the same 3 files will be generated for each dependency in the graph. In this case, as zlib is a dependency of libpng it will generate: conan_zlib_vars_debug_x86_64.xcconfig, conan_zlib_debug_x86_64.xcconfig and conan_zlib.xcconfig.
conandeps.xcconfig: configuration files including all direct dependencies, in this case, it just includes
conan_libpng.xcconfig
.The main conan_config.xcconfig file, to be added to the project. Includes both the files from this generator and the generated by the XcodeToolchain in case it was also set.
If you want to add this dependencies to you Xcode project, you just have to add the conan_config.xcconfig configuration file for all of the configurations you want to use (usually Debug and Release).
Custom configurations
If your Xcode project defines custom configurations, like ReleaseShared
, or MyCustomConfig
,
it is possible to define it into the XcodeDeps
generator, so different project configurations can
use different set of dependencies. Let’s say that our current project can be built as a shared library,
with the custom configuration ReleaseShared
, and the package also controls this with the shared
option:
from conan import ConanFile
from conan.tools.apple import XcodeDeps
class Pkg(ConanFile):
settings = "os", "compiler", "arch", "build_type"
options = {"shared": [True, False]}
default_options = {"shared": False}
requires = "zlib/1.2.11"
def generate(self):
xcode = XcodeDeps(self)
# We assume that -o *:shared=True is used to install all shared deps too
if self.options.shared:
xcode.configuration = str(self.settings.build_type) + "Shared"
xcode.generate()
This will manage to generate new .xcconfig files for this custom configuration, and when you switch to this configuration in the IDE, the build system will take the correct values depending wether we want to link with shared or static libraries.
XcodeToolchain
Available since: 1.46.0
The XcodeToolchain
is the toolchain generator for Xcode. It will generate .xcconfig
configuration files that can be added to Xcode projects. This generator translates the
current package configuration, settings, and options, into Xcode .xcconfig files syntax.
The XcodeToolchain
generator can be used by name in conanfiles:
class Pkg(ConanFile):
generators = "XcodeToolchain"
[generators]
XcodeToolchain
And it can also be fully instantiated in the conanfile generate()
method:
from conan import ConanFile
from conan.tools.apple import XcodeToolchain
class App(ConanFile):
settings = "os", "arch", "compiler", "build_type"
def generate(self):
tc = XcodeToolchain(self)
tc.generate()
The XcodeToolchain
will generate three files after a conan install
command. As
explained above for the XcodeDeps generator, each different configuration will create a
set of files with different names. For example, running conan install
for Release
first and then Debug configuration:
$ conan install conanfile.py # default is Release
$ conan install conanfile.py -s build_type=Debug
Will create these files:
.
├── conan_config.xcconfig
├── conantoolchain_release_x86_64.xcconfig
├── conantoolchain_debug_x86_64.xcconfig
└── conantoolchain.xcconfig
Those files are:
The main conan_config.xcconfig file, to be added to the project. Includes both the files from this generator and the generated by the XcodeDeps in case it was also set.
conantoolchain_<debug/release>_x86_64.xcconfig: declares
CLANG_CXX_LIBRARY
,CLANG_CXX_LANGUAGE_STANDARD
andMACOSX_DEPLOYMENT_TARGET
variables with conditional logic depending on the build configuration, architecture and sdk set.conantoolchain.xcconfig: aggregates all the conantoolchain_<config>_<arch>.xcconfig files for the different installed configurations.
Every invocation to conan install
with different configuration will create a new
conantoolchain_<config>_<arch>.xcconfig file that is aggregated in the
conantoolchain.xcconfig, so you can have different configurations included in your Xcode
project.
The XcodeToolchain files can declare the following Xcode build settings based on Conan settings values:
MACOSX_DEPLOYMENT_TARGET
is based on the value of theos.version
setting and will make the build system to pass the flag-mmacosx-version-min
with that value (if set). It defines the operating system version the binary should run into.CLANG_CXX_LANGUAGE_STANDARD
is based on the value of thecompiler.cppstd
setting that sets the C++ language standard.CLANG_CXX_LIBRARY
is based on the value of the compiler.libcxx setting and sets the version of the C++ standard library to use.
One of the advantages of using toolchains is that they can help to achieve the exact same build with local development flows, than when the package is created in the cache.
XcodeBuild
Available since: 1.46.0
The Xcode
build helper is a wrapper around the command line invocation of Xcode. It
will abstract the calls like xcodebuild -project app.xcodeproj -configuration <config>
-arch <arch> ...
The Xcode
helper can be used like:
from conan import conanfile
from conan.tools.apple import XcodeBuild
class App(ConanFile):
settings = "os", "arch", "compiler", "build_type"
def build(self):
xcodebuild = XcodeBuild(self)
xcodebuild.build("app.xcodeproj")
The Xcode.build()
method internally implements a call to xcodebuild
like:
$ xcodebuild -project app.xcodeproj -configuration <configuration> -arch <architecture> <sdk> <verbosity>
Where:
configuration
is the configuration, typically Release or Debug, which will be obtained fromsettings.build_type
.architecture
is the build architecture, a mapping from thesettings.arch
to the common architectures defined by Apple ‘i386’, ‘x86_64’, ‘armv7’, ‘arm64’, etc.sdk
is set based on the values of theos.sdk
andos.sdk_version
defining theSDKROOT
Xcode build setting according to them. For example, settingos.sdk=iOS
and os.sdk_version=8.3` will passSDKROOT=iOS8.3
to the build system. In case you defined thetools.apple:sdk_path
in your [conf] this value will take preference and will directly passSDKROOT=<tools.apple:sdk_path>
so take into account that for this case the skd located in that path should set youros.sdk
andos.sdk_version
settings values.verbosity
is the verbosity level for the build and can take value ‘verbose’ or ‘quiet’ if set bytools.apple.xcodebuild:verbosity
in your [conf]
conf
tools.apple.xcodebuild:verbosity
verbosity value for the build, can be ‘verbose’ or ‘quiet’tools.apple:sdk_path
path for the sdk location, will set theSDKROOT
value with preference over composing the value from theos.sdk
andos.sdk_version
settings.