def main() -> None: platform: PlatformName parser = argparse.ArgumentParser( description='Build wheels for all the platforms.', epilog=''' Most options are supplied via environment variables. See https://github.com/joerick/cibuildwheel#options for info. ''') parser.add_argument('--platform', choices=['auto', 'linux', 'macos', 'windows'], default=os.environ.get('CIBW_PLATFORM', 'auto'), help=''' Platform to build for. For "linux" you need docker running, on Mac or Linux. For "macos", you need a Mac machine, and note that this script is going to automatically install MacPython on your system, so don't run on your development machine. For "windows", you need to run in Windows, and it will build and test for all versions of Python. Default: auto. ''') parser.add_argument('--archs', default=None, help=''' Comma-separated list of CPU architectures to build for. When set to 'auto', builds the architectures natively supported on this machine. Set this option to build an architecture via emulation, for example, using binfmt_misc and QEMU. Default: auto. Choices: auto, auto64, auto32, native, all, {} '''.format(", ".join(a.name for a in Architecture))) parser.add_argument('--output-dir', default=os.environ.get('CIBW_OUTPUT_DIR', 'wheelhouse'), help='Destination folder for the wheels.') parser.add_argument('package_dir', default='.', nargs='?', help=''' Path to the package that you want wheels for. Must be a subdirectory of the working directory. When set, the working directory is still considered the 'project' and is copied into the Docker container on Linux. Default: the working directory. ''') parser.add_argument( '--print-build-identifiers', action='store_true', help= 'Print the build identifiers matched by the current invocation and exit.' ) parser.add_argument( '--allow-empty', action='store_true', help= 'Do not report an error code if the build does not match any wheels.') args = parser.parse_args() detect_obsolete_options() if args.platform != 'auto': platform = args.platform else: ci_provider = detect_ci_provider() if ci_provider is None: print(textwrap.dedent(''' cibuildwheel: Unable to detect platform. cibuildwheel should run on your CI server; Travis CI, AppVeyor, Azure Pipelines, GitHub Actions, CircleCI, and Gitlab are supported. You can run on your development machine or other CI providers using the --platform argument. Check --help output for more information. '''), file=sys.stderr) sys.exit(2) if sys.platform.startswith('linux'): platform = 'linux' elif sys.platform == 'darwin': platform = 'macos' elif sys.platform == 'win32': platform = 'windows' else: print( 'cibuildwheel: Unable to detect platform from "sys.platform" in a CI environment. You can run ' 'cibuildwheel using the --platform argument. Check --help output for more information.', file=sys.stderr) sys.exit(2) if platform not in PLATFORMS: print(f'cibuildwheel: Unsupported platform: {platform}', file=sys.stderr) sys.exit(2) package_dir = Path(args.package_dir) output_dir = Path(args.output_dir) if platform == 'linux': repair_command_default = 'auditwheel repair -w {dest_dir} {wheel}' elif platform == 'macos': repair_command_default = 'delocate-listdeps {wheel} && delocate-wheel --require-archs {delocate_archs} -w {dest_dir} {wheel}' elif platform == 'windows': repair_command_default = 'delvewheel repair -w {dest_dir} {wheel}' else: assert_never(platform) build_config = os.environ.get('CIBW_BUILD') or '*' skip_config = os.environ.get('CIBW_SKIP', '') test_skip = os.environ.get('CIBW_TEST_SKIP', '') environment_config = get_option_from_environment('CIBW_ENVIRONMENT', platform=platform, default='') before_all = get_option_from_environment('CIBW_BEFORE_ALL', platform=platform, default='') before_build = get_option_from_environment('CIBW_BEFORE_BUILD', platform=platform) repair_command = get_option_from_environment( 'CIBW_REPAIR_WHEEL_COMMAND', platform=platform, default=repair_command_default) dependency_versions = get_option_from_environment( 'CIBW_DEPENDENCY_VERSIONS', platform=platform, default='pinned') test_command = get_option_from_environment('CIBW_TEST_COMMAND', platform=platform) before_test = get_option_from_environment('CIBW_BEFORE_TEST', platform=platform) test_requires = get_option_from_environment('CIBW_TEST_REQUIRES', platform=platform, default='').split() test_extras = get_option_from_environment('CIBW_TEST_EXTRAS', platform=platform, default='') build_verbosity_str = get_option_from_environment('CIBW_BUILD_VERBOSITY', platform=platform, default='') package_files = {'setup.py', 'setup.cfg', 'pyproject.toml'} if not any(package_dir.joinpath(name).exists() for name in package_files): names = ', '.join(sorted(package_files, reverse=True)) print( f'cibuildwheel: Could not find any of {{{names}}} at root of package', file=sys.stderr) sys.exit(2) # Passing this in as an environment variable will override pyproject.toml, setup.cfg, or setup.py requires_python_str: Optional[str] = os.environ.get( 'CIBW_PROJECT_REQUIRES_PYTHON') or get_requires_python_str(package_dir) requires_python = None if requires_python_str is None else SpecifierSet( requires_python_str) build_selector = BuildSelector(build_config=build_config, skip_config=skip_config, requires_python=requires_python) test_selector = TestSelector(skip_config=test_skip) try: environment = parse_environment(environment_config) except (EnvironmentParseError, ValueError): print( f'cibuildwheel: Malformed environment option "{environment_config}"', file=sys.stderr) traceback.print_exc(None, sys.stderr) sys.exit(2) if dependency_versions == 'pinned': dependency_constraints: Optional[ DependencyConstraints] = DependencyConstraints.with_defaults() elif dependency_versions == 'latest': dependency_constraints = None else: dependency_versions_path = Path(dependency_versions) dependency_constraints = DependencyConstraints( dependency_versions_path) if test_extras: test_extras = f'[{test_extras}]' try: build_verbosity = min(3, max(-3, int(build_verbosity_str))) except ValueError: build_verbosity = 0 # Add CIBUILDWHEEL environment variable # This needs to be passed on to the docker container in linux.py os.environ['CIBUILDWHEEL'] = '1' if args.archs is not None: archs_config_str = args.archs else: archs_config_str = get_option_from_environment('CIBW_ARCHS', platform=platform, default='auto') archs = Architecture.parse_config(archs_config_str, platform=platform) identifiers = get_build_identifiers(platform, build_selector, archs) if args.print_build_identifiers: for identifier in identifiers: print(identifier) sys.exit(0) manylinux_images: Optional[Dict[str, str]] = None if platform == 'linux': pinned_docker_images_file = resources_dir / 'pinned_docker_images.cfg' all_pinned_docker_images = ConfigParser() all_pinned_docker_images.read(pinned_docker_images_file) # all_pinned_docker_images looks like a dict of dicts, e.g. # { 'x86_64': {'manylinux1': '...', 'manylinux2010': '...', 'manylinux2014': '...'}, # 'i686': {'manylinux1': '...', 'manylinux2010': '...', 'manylinux2014': '...'}, # 'pypy_x86_64': {'manylinux2010': '...' } # ... } manylinux_images = {} for build_platform in [ 'x86_64', 'i686', 'pypy_x86_64', 'aarch64', 'ppc64le', 's390x' ]: pinned_images = all_pinned_docker_images[build_platform] config_name = f'CIBW_MANYLINUX_{build_platform.upper()}_IMAGE' config_value = os.environ.get(config_name) if config_value is None: # default to manylinux2010 if it's available, otherwise manylinux2014 image = pinned_images.get( 'manylinux2010') or pinned_images.get('manylinux2014') elif config_value in pinned_images: image = pinned_images[config_value] else: image = config_value manylinux_images[build_platform] = image build_options = BuildOptions( architectures=archs, package_dir=package_dir, output_dir=output_dir, test_command=test_command, test_requires=test_requires, test_extras=test_extras, before_test=before_test, before_build=before_build, before_all=before_all, build_verbosity=build_verbosity, build_selector=build_selector, test_selector=test_selector, repair_command=repair_command, environment=environment, dependency_constraints=dependency_constraints, manylinux_images=manylinux_images, ) # Python is buffering by default when running on the CI platforms, giving problems interleaving subprocess call output with unflushed calls to 'print' sys.stdout = Unbuffered(sys.stdout) # type: ignore print_preamble(platform, build_options) try: allowed_architectures_check(platform, build_options.architectures) except ValueError as err: print("cibuildwheel:", *err.args, file=sys.stderr) sys.exit(4) if not identifiers: print(f'cibuildwheel: No build identifiers selected: {build_selector}', file=sys.stderr) if not args.allow_empty: sys.exit(3) if not output_dir.exists(): output_dir.mkdir(parents=True) with cibuildwheel.util.print_new_wheels( "\n{n} wheels produced in {m:.0f} minutes:", output_dir): if platform == 'linux': cibuildwheel.linux.build(build_options) elif platform == 'windows': cibuildwheel.windows.build(build_options) elif platform == 'macos': cibuildwheel.macos.build(build_options) else: assert_never(platform)
def build_in_directory(args: CommandLineArguments) -> None: platform: PlatformName if args.platform != "auto": platform = args.platform else: ci_provider = detect_ci_provider() if ci_provider is None: print( textwrap.dedent( """ cibuildwheel: Unable to detect platform. cibuildwheel should run on your CI server; Travis CI, AppVeyor, Azure Pipelines, GitHub Actions, CircleCI, and Gitlab are supported. You can run on your development machine or other CI providers using the --platform argument. Check --help output for more information. """ ), file=sys.stderr, ) sys.exit(2) if sys.platform.startswith("linux"): platform = "linux" elif sys.platform == "darwin": platform = "macos" elif sys.platform == "win32": platform = "windows" else: print( 'cibuildwheel: Unable to detect platform from "sys.platform" in a CI environment. You can run ' "cibuildwheel using the --platform argument. Check --help output for more information.", file=sys.stderr, ) sys.exit(2) if platform not in PLATFORMS: print(f"cibuildwheel: Unsupported platform: {platform}", file=sys.stderr) sys.exit(2) options = compute_options(platform=platform, command_line_arguments=args) package_dir = options.globals.package_dir package_files = {"setup.py", "setup.cfg", "pyproject.toml"} if not any(package_dir.joinpath(name).exists() for name in package_files): names = ", ".join(sorted(package_files, reverse=True)) msg = f"cibuildwheel: Could not find any of {{{names}}} at root of package" print(msg, file=sys.stderr) sys.exit(2) identifiers = get_build_identifiers( platform=platform, build_selector=options.globals.build_selector, architectures=options.globals.architectures, ) if args.print_build_identifiers: for identifier in identifiers: print(identifier) sys.exit(0) # Add CIBUILDWHEEL environment variable os.environ["CIBUILDWHEEL"] = "1" # Python is buffering by default when running on the CI platforms, giving problems interleaving subprocess call output with unflushed calls to 'print' sys.stdout = Unbuffered(sys.stdout) # type: ignore[assignment] # create the cache dir before it gets printed & builds performed CIBW_CACHE_PATH.mkdir(parents=True, exist_ok=True) print_preamble(platform=platform, options=options, identifiers=identifiers) try: options.check_for_invalid_configuration(identifiers) allowed_architectures_check(platform, options.globals.architectures) except ValueError as err: print("cibuildwheel:", *err.args, file=sys.stderr) sys.exit(4) if not identifiers: print( f"cibuildwheel: No build identifiers selected: {options.globals.build_selector}", file=sys.stderr, ) if not args.allow_empty: sys.exit(3) output_dir = options.globals.output_dir if not output_dir.exists(): output_dir.mkdir(parents=True) tmp_path = Path(mkdtemp(prefix="cibw-run-")).resolve(strict=True) try: with cibuildwheel.util.print_new_wheels( "\n{n} wheels produced in {m:.0f} minutes:", output_dir ): if platform == "linux": cibuildwheel.linux.build(options, tmp_path) elif platform == "windows": cibuildwheel.windows.build(options, tmp_path) elif platform == "macos": cibuildwheel.macos.build(options, tmp_path) else: assert_never(platform) finally: shutil.rmtree(tmp_path, ignore_errors=sys.platform.startswith("win")) if tmp_path.exists(): log.warning(f"Can't delete temporary folder '{str(tmp_path)}'")
def main() -> None: platform: PlatformName parser = argparse.ArgumentParser( description="Build wheels for all the platforms.", epilog=""" Most options are supplied via environment variables or in --config-file (pyproject.toml usually). See https://github.com/pypa/cibuildwheel#options for info. """, ) parser.add_argument( "--platform", choices=["auto", "linux", "macos", "windows"], default=os.environ.get("CIBW_PLATFORM", "auto"), help=""" Platform to build for. Use this option to override the auto-detected platform or to run cibuildwheel on your development machine. Specifying "macos" or "windows" only works on that operating system, but "linux" works on all three, as long as Docker is installed. Default: auto. """, ) arch_list_str = ", ".join(a.name for a in Architecture) parser.add_argument( "--archs", default=None, help=f""" Comma-separated list of CPU architectures to build for. When set to 'auto', builds the architectures natively supported on this machine. Set this option to build an architecture via emulation, for example, using binfmt_misc and QEMU. Default: auto. Choices: auto, auto64, auto32, native, all, {arch_list_str} """, ) parser.add_argument( "--output-dir", help="Destination folder for the wheels. Default: wheelhouse.", ) parser.add_argument( "--config-file", default="", help=""" TOML config file. Default: "", meaning {package}/pyproject.toml, if it exists. """, ) parser.add_argument( "package_dir", default=".", nargs="?", help=""" Path to the package that you want wheels for. Must be a subdirectory of the working directory. When set, the working directory is still considered the 'project' and is copied into the Docker container on Linux. Default: the working directory. """, ) parser.add_argument( "--print-build-identifiers", action="store_true", help="Print the build identifiers matched by the current invocation and exit.", ) parser.add_argument( "--allow-empty", action="store_true", help="Do not report an error code if the build does not match any wheels.", ) parser.add_argument( "--prerelease-pythons", action="store_true", help="Enable pre-release Python versions if available.", ) args = parser.parse_args(namespace=CommandLineArguments()) if args.platform != "auto": platform = args.platform else: ci_provider = detect_ci_provider() if ci_provider is None: print( textwrap.dedent( """ cibuildwheel: Unable to detect platform. cibuildwheel should run on your CI server; Travis CI, AppVeyor, Azure Pipelines, GitHub Actions, CircleCI, and Gitlab are supported. You can run on your development machine or other CI providers using the --platform argument. Check --help output for more information. """ ), file=sys.stderr, ) sys.exit(2) if sys.platform.startswith("linux"): platform = "linux" elif sys.platform == "darwin": platform = "macos" elif sys.platform == "win32": platform = "windows" else: print( 'cibuildwheel: Unable to detect platform from "sys.platform" in a CI environment. You can run ' "cibuildwheel using the --platform argument. Check --help output for more information.", file=sys.stderr, ) sys.exit(2) if platform not in PLATFORMS: print(f"cibuildwheel: Unsupported platform: {platform}", file=sys.stderr) sys.exit(2) options = compute_options(platform=platform, command_line_arguments=args) package_dir = options.globals.package_dir package_files = {"setup.py", "setup.cfg", "pyproject.toml"} if not any(package_dir.joinpath(name).exists() for name in package_files): names = ", ".join(sorted(package_files, reverse=True)) msg = f"cibuildwheel: Could not find any of {{{names}}} at root of package" print(msg, file=sys.stderr) sys.exit(2) identifiers = get_build_identifiers( platform=platform, build_selector=options.globals.build_selector, architectures=options.globals.architectures, ) if args.print_build_identifiers: for identifier in identifiers: print(identifier) sys.exit(0) # Add CIBUILDWHEEL environment variable # This needs to be passed on to the docker container in linux.py os.environ["CIBUILDWHEEL"] = "1" # Python is buffering by default when running on the CI platforms, giving problems interleaving subprocess call output with unflushed calls to 'print' sys.stdout = Unbuffered(sys.stdout) # type: ignore[assignment] # create the cache dir before it gets printed & builds performed CIBW_CACHE_PATH.mkdir(parents=True, exist_ok=True) print_preamble(platform=platform, options=options, identifiers=identifiers) try: options.check_for_invalid_configuration(identifiers) allowed_architectures_check(platform, options.globals.architectures) except ValueError as err: print("cibuildwheel:", *err.args, file=sys.stderr) sys.exit(4) if not identifiers: print( f"cibuildwheel: No build identifiers selected: {options.globals.build_selector}", file=sys.stderr, ) if not args.allow_empty: sys.exit(3) output_dir = options.globals.output_dir if not output_dir.exists(): output_dir.mkdir(parents=True) tmp_path = Path(mkdtemp(prefix="cibw-run-")).resolve(strict=True) try: with cibuildwheel.util.print_new_wheels( "\n{n} wheels produced in {m:.0f} minutes:", output_dir ): if platform == "linux": cibuildwheel.linux.build(options, tmp_path) elif platform == "windows": cibuildwheel.windows.build(options, tmp_path) elif platform == "macos": cibuildwheel.macos.build(options, tmp_path) else: assert_never(platform) finally: shutil.rmtree(tmp_path, ignore_errors=sys.platform.startswith("win")) if tmp_path.exists(): log.warning(f"Can't delete temporary folder '{str(tmp_path)}'")