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413 lines
16 KiB
413 lines
16 KiB
#!/usr/bin/env python3 |
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# SPDX-License-Identifier: Apache-2.0 |
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# Copyright 2012-2021 The Meson development team |
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# Copyright © 2023-2024 Intel Corporation |
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from __future__ import annotations |
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# Work around some pathlib bugs... |
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from mesonbuild import _pathlib |
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import sys |
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sys.modules['pathlib'] = _pathlib |
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import collections |
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import os |
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import time |
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import shutil |
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import subprocess |
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import platform |
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import argparse |
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import traceback |
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from io import StringIO |
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from enum import Enum |
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from glob import glob |
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from pathlib import Path |
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from unittest import mock |
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import typing as T |
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from mesonbuild.compilers.c import CCompiler |
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from mesonbuild.compilers.detect import detect_c_compiler |
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from mesonbuild.dependencies.pkgconfig import PkgConfigInterface |
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from mesonbuild import mesonlib |
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from mesonbuild import mesonmain |
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from mesonbuild import mtest |
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from mesonbuild import mlog |
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from mesonbuild.environment import Environment, detect_ninja, detect_machine_info |
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from mesonbuild.coredata import version as meson_version |
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from mesonbuild.options import backendlist |
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from mesonbuild.mesonlib import setup_vsenv |
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from mesonbuild.options import OptionKey |
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if T.TYPE_CHECKING: |
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from mesonbuild.coredata import SharedCMDOptions |
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NINJA_1_12_OR_NEWER = False |
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NINJA_CMD = None |
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# If we're on CI, detecting ninja for every subprocess unit test that we run is slow |
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# Optimize this by respecting $NINJA and skipping detection, then exporting it on |
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# first run. |
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try: |
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NINJA_1_12_OR_NEWER = bool(int(os.environ['NINJA_1_12_OR_NEWER'])) |
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NINJA_CMD = [os.environ['NINJA']] |
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except (KeyError, ValueError): |
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# Look for 1.12, which removes -w dupbuild=err |
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NINJA_CMD = detect_ninja('1.12') |
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if NINJA_CMD is not None: |
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NINJA_1_12_OR_NEWER = True |
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else: |
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NINJA_CMD = detect_ninja() |
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if NINJA_CMD is not None: |
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os.environ['NINJA_1_12_OR_NEWER'] = str(int(NINJA_1_12_OR_NEWER)) |
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os.environ['NINJA'] = NINJA_CMD[0] |
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else: |
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raise RuntimeError('Could not find Ninja.') |
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# Emulate running meson with -X utf8 by making sure all open() calls have a |
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# sane encoding. This should be a python default, but PEP 540 considered it not |
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# backwards compatible. Instead, much line noise in diffs to update this, and in |
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# python 3.10 we can also make it a warning when absent. |
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os.environ['PYTHONWARNDEFAULTENCODING'] = '1' |
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# work around https://bugs.python.org/issue34624 |
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os.environ['MESON_RUNNING_IN_PROJECT_TESTS'] = '1' |
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# python 3.11 adds a warning that in 3.15, UTF-8 mode will be default. |
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# This is fantastic news, we'd love that. Less fantastic: this warning is silly, |
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# we *want* these checks to be affected. Plus, the recommended alternative API |
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# would (in addition to warning people when UTF-8 mode removed the problem) also |
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# require using a minimum python version of 3.11 (in which the warning was added) |
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# or add verbose if/else soup. |
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if sys.version_info >= (3, 10): |
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import warnings |
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warnings.filterwarnings('ignore', message="UTF-8 Mode affects .*getpreferredencoding", category=EncodingWarning) |
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def guess_backend(backend_str: str, msbuild_exe: str) -> T.Tuple['Backend', T.List[str]]: |
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# Auto-detect backend if unspecified |
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backend_flags = [] |
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if backend_str is None: |
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if msbuild_exe is not None and (mesonlib.is_windows() and not _using_intelcl()): |
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backend_str = 'vs' # Meson will auto-detect VS version to use |
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else: |
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backend_str = 'ninja' |
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# Set backend arguments for Meson |
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if backend_str.startswith('vs'): |
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backend_flags = ['--backend=' + backend_str] |
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backend = Backend.vs |
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elif backend_str == 'xcode': |
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backend_flags = ['--backend=xcode'] |
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backend = Backend.xcode |
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elif backend_str == 'ninja': |
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backend_flags = ['--backend=ninja'] |
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backend = Backend.ninja |
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else: |
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raise RuntimeError(f'Unknown backend: {backend_str!r}') |
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return (backend, backend_flags) |
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def _using_intelcl() -> bool: |
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""" |
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detect if intending to using Intel-Cl compilers (Intel compilers on Windows) |
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Sufficient evidence of intent is that user is working in the Intel compiler |
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shell environment, otherwise this function returns False |
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""" |
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if not mesonlib.is_windows(): |
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return False |
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# handle where user tried to "blank" MKLROOT and left space(s) |
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if not os.environ.get('MKLROOT', '').strip(): |
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return False |
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if (os.environ.get('CC') == 'icl' or |
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os.environ.get('CXX') == 'icl' or |
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os.environ.get('FC') == 'ifort'): |
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return True |
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# Intel-Cl users might not have the CC,CXX,FC envvars set, |
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# but because they're in Intel shell, the exe's below are on PATH |
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if shutil.which('icl') or shutil.which('ifort'): |
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return True |
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mlog.warning('It appears you might be intending to use Intel compiler on Windows ' |
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'since non-empty environment variable MKLROOT is set to {} ' |
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'However, Meson cannot find the Intel WIndows compiler executables (icl,ifort).' |
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'Please try using the Intel shell.'.format(os.environ.get('MKLROOT'))) |
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return False |
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# Fake classes and objects for mocking |
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class FakeBuild: |
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def __init__(self, env): |
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self.environment = env |
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class FakeCompilerOptions: |
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def __init__(self): |
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self.value = [] |
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def get_fake_options(prefix: str = '') -> SharedCMDOptions: |
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opts = T.cast('SharedCMDOptions', argparse.Namespace()) |
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opts.native_file = [] |
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opts.cross_file = None |
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opts.wrap_mode = None |
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opts.prefix = prefix |
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opts.cmd_line_options = {} |
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return opts |
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def get_fake_env(sdir='', bdir=None, prefix='', opts=None): |
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if opts is None: |
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opts = get_fake_options(prefix) |
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env = Environment(sdir, bdir, opts) |
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env.coredata.optstore.set_value_object(OptionKey('args', lang='c'), FakeCompilerOptions()) |
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env.machines.host.cpu_family = 'x86_64' # Used on macOS inside find_library |
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# Invalidate cache when using a different Environment object. |
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clear_meson_configure_class_caches() |
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return env |
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def get_convincing_fake_env_and_cc(bdir, prefix): |
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''' |
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Return a fake env and C compiler with the fake env |
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machine info properly detected using that compiler. |
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Useful for running compiler checks in the unit tests. |
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''' |
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env = get_fake_env('', bdir, prefix) |
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cc = detect_c_compiler(env, mesonlib.MachineChoice.HOST) |
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# Detect machine info |
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env.machines.host = detect_machine_info({'c':cc}) |
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return (env, cc) |
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Backend = Enum('Backend', 'ninja vs xcode') |
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if 'MESON_EXE' in os.environ: |
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meson_exe = mesonlib.split_args(os.environ['MESON_EXE']) |
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else: |
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meson_exe = None |
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if mesonlib.is_windows() or mesonlib.is_cygwin(): |
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exe_suffix = '.exe' |
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else: |
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exe_suffix = '' |
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def handle_meson_skip_test(out: str) -> T.Tuple[bool, str]: |
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for line in out.splitlines(): |
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for prefix in {'Problem encountered', 'Assert failed', 'Failed to configure the CMake subproject'}: |
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if f'{prefix}: MESON_SKIP_TEST' in line: |
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offset = line.index('MESON_SKIP_TEST') + 16 |
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reason = line[offset:].strip() |
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return (True, reason) |
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return (False, '') |
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def get_meson_script() -> str: |
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''' |
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Guess the meson that corresponds to the `mesonbuild` that has been imported |
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so we can run configure and other commands in-process, since mesonmain.run |
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needs to know the meson_command to use. |
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Also used by run_unittests.py to determine what meson to run when not |
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running in-process (which is the default). |
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''' |
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# Is there a meson.py next to the mesonbuild currently in use? |
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mesonbuild_dir = Path(mesonmain.__file__).resolve().parent.parent |
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meson_script = mesonbuild_dir / 'meson.py' |
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if meson_script.is_file(): |
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return str(meson_script) |
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# Then if mesonbuild is in PYTHONPATH, meson must be in PATH |
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mlog.warning('Could not find meson.py next to the mesonbuild module. ' |
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'Trying system meson...') |
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meson_cmd = shutil.which('meson') |
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if meson_cmd: |
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return meson_cmd |
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raise RuntimeError(f'Could not find {meson_script!r} or a meson in PATH') |
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def get_backend_args_for_dir(backend: Backend, builddir: str) -> T.List[str]: |
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''' |
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Visual Studio backend needs to be given the solution to build |
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''' |
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if backend is Backend.vs: |
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sln_name = glob(os.path.join(builddir, '*.sln'))[0] |
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return [os.path.split(sln_name)[-1]] |
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return [] |
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def find_vcxproj_with_target(builddir, target): |
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import re, fnmatch |
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t, ext = os.path.splitext(target) |
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if ext: |
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p = fr'<TargetName>{t}</TargetName>\s*<TargetExt>\{ext}</TargetExt>' |
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else: |
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p = fr'<TargetName>{t}</TargetName>' |
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for _, _, files in os.walk(builddir): |
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for f in fnmatch.filter(files, '*.vcxproj'): |
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f = os.path.join(builddir, f) |
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with open(f, encoding='utf-8') as o: |
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if re.search(p, o.read(), flags=re.MULTILINE): |
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return f |
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raise RuntimeError(f'No vcxproj matching {p!r} in {builddir!r}') |
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def get_builddir_target_args(backend: Backend, builddir, target): |
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dir_args = [] |
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if not target: |
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dir_args = get_backend_args_for_dir(backend, builddir) |
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if target is None: |
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return dir_args |
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if backend is Backend.vs: |
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vcxproj = find_vcxproj_with_target(builddir, target) |
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target_args = [vcxproj] |
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elif backend is Backend.xcode: |
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target_args = ['-target', target] |
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elif backend is Backend.ninja: |
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target_args = [target] |
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else: |
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raise AssertionError(f'Unknown backend: {backend!r}') |
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return target_args + dir_args |
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def get_backend_commands(backend: Backend, debug: bool = False) -> \ |
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T.Tuple[T.List[str], T.List[str], T.List[str], T.List[str], T.List[str]]: |
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install_cmd: T.List[str] = [] |
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uninstall_cmd: T.List[str] = [] |
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clean_cmd: T.List[str] |
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cmd: T.List[str] |
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test_cmd: T.List[str] |
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if backend is Backend.vs: |
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cmd = ['msbuild'] |
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clean_cmd = cmd + ['/target:Clean'] |
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test_cmd = cmd + ['RUN_TESTS.vcxproj'] |
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elif backend is Backend.xcode: |
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cmd = ['xcodebuild'] |
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clean_cmd = cmd + ['-alltargets', 'clean'] |
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test_cmd = cmd + ['-target', 'RUN_TESTS'] |
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elif backend is Backend.ninja: |
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global NINJA_CMD |
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cmd = NINJA_CMD + ['-d', 'explain'] |
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if not NINJA_1_12_OR_NEWER: |
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cmd += ['-w', 'dupbuild=err'] |
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if debug: |
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cmd += ['-v'] |
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clean_cmd = cmd + ['clean'] |
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test_cmd = cmd + ['test', 'benchmark'] |
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install_cmd = cmd + ['install'] |
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uninstall_cmd = cmd + ['uninstall'] |
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else: |
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raise AssertionError(f'Unknown backend: {backend!r}') |
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return cmd, clean_cmd, test_cmd, install_cmd, uninstall_cmd |
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def run_mtest_inprocess(commandlist: T.List[str]) -> T.Tuple[int, str]: |
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out = StringIO() |
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with mock.patch.object(sys, 'stdout', out), mock.patch.object(sys, 'stderr', out): |
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returncode = mtest.run_with_args(commandlist) |
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return returncode, out.getvalue() |
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def clear_meson_configure_class_caches() -> None: |
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CCompiler.find_library_cache.clear() |
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CCompiler.find_framework_cache.clear() |
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PkgConfigInterface.class_impl.assign(False, False) |
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mesonlib.project_meson_versions.clear() |
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def run_configure_inprocess(commandlist: T.List[str], env: T.Optional[T.Dict[str, str]] = None, catch_exception: bool = False) -> T.Tuple[int, str, str]: |
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stderr = StringIO() |
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stdout = StringIO() |
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returncode = 0 |
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with mock.patch.dict(os.environ, env or {}), mock.patch.object(sys, 'stdout', stdout), mock.patch.object(sys, 'stderr', stderr): |
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try: |
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returncode = mesonmain.run(commandlist, get_meson_script()) |
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except Exception: |
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if catch_exception: |
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returncode = 1 |
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traceback.print_exc() |
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else: |
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raise |
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finally: |
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clear_meson_configure_class_caches() |
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return returncode, stdout.getvalue(), stderr.getvalue() |
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def run_configure_external(full_command: T.List[str], env: T.Optional[T.Dict[str, str]] = None) -> T.Tuple[int, str, str]: |
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pc, o, e = mesonlib.Popen_safe(full_command, env=env) |
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return pc.returncode, o, e |
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def run_configure(commandlist: T.List[str], env: T.Optional[T.Dict[str, str]] = None, catch_exception: bool = False) -> T.Tuple[bool, T.Tuple[int, str, str]]: |
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global meson_exe |
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if meson_exe: |
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return (False, run_configure_external(meson_exe + commandlist, env=env)) |
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return (True, run_configure_inprocess(commandlist, env=env, catch_exception=catch_exception)) |
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def print_system_info(): |
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print(mlog.bold('System information.')) |
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print('Architecture:', platform.architecture()) |
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print('Machine:', platform.machine()) |
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print('Platform:', platform.system()) |
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print('Processor:', platform.processor()) |
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print('System:', platform.system()) |
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print('') |
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print(flush=True) |
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def subprocess_call(cmd, **kwargs): |
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print(f'$ {mesonlib.join_args(cmd)}') |
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return subprocess.call(cmd, **kwargs) |
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def main(): |
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print_system_info() |
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parser = argparse.ArgumentParser() |
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parser.add_argument('--backend', default=None, dest='backend', |
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choices=backendlist) |
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parser.add_argument('--cross', default=[], dest='cross', action='append') |
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parser.add_argument('--cross-only', action='store_true') |
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parser.add_argument('--failfast', action='store_true') |
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parser.add_argument('--no-unittests', action='store_true', default=False) |
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(options, _) = parser.parse_known_args() |
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returncode = 0 |
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_, backend_flags = guess_backend(options.backend, shutil.which('msbuild')) |
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no_unittests = options.no_unittests |
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# Running on a developer machine? Be nice! |
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if not mesonlib.is_windows() and not mesonlib.is_haiku() and 'CI' not in os.environ: |
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os.nice(20) |
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# Appveyor sets the `platform` environment variable which completely messes |
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# up building with the vs2010 and vs2015 backends. |
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# |
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# Specifically, MSBuild reads the `platform` environment variable to set |
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# the configured value for the platform (Win32/x64/arm), which breaks x86 |
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# builds. |
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# |
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# Appveyor setting this also breaks our 'native build arch' detection for |
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# Windows in environment.py:detect_windows_arch() by overwriting the value |
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# of `platform` set by vcvarsall.bat. |
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# |
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# While building for x86, `platform` should be unset. |
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if 'APPVEYOR' in os.environ and os.environ['arch'] == 'x86': |
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os.environ.pop('platform') |
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# Run tests |
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# Can't pass arguments to unit tests, so set the backend to use in the environment |
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env = os.environ.copy() |
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if not options.cross: |
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cmd = mesonlib.python_command + ['run_meson_command_tests.py', '-v'] |
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if options.failfast: |
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cmd += ['--failfast'] |
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returncode += subprocess_call(cmd, env=env) |
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if options.failfast and returncode != 0: |
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return returncode |
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if no_unittests: |
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print('Skipping all unit tests.') |
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print(flush=True) |
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returncode = 0 |
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else: |
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print(mlog.bold('Running unittests.')) |
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print(flush=True) |
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cmd = mesonlib.python_command + ['run_unittests.py'] + backend_flags |
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if options.failfast: |
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cmd += ['--failfast'] |
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returncode += subprocess_call(cmd, env=env) |
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if options.failfast and returncode != 0: |
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return returncode |
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cmd = mesonlib.python_command + ['run_project_tests.py'] + sys.argv[1:] |
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returncode += subprocess_call(cmd, env=env) |
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else: |
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cross_test_args = mesonlib.python_command + ['run_cross_test.py'] |
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for cf in options.cross: |
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print(mlog.bold(f'Running {cf} cross tests.')) |
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print(flush=True) |
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cmd = cross_test_args + ['cross/' + cf] |
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if options.failfast: |
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cmd += ['--failfast'] |
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if options.cross_only: |
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cmd += ['--cross-only'] |
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returncode += subprocess_call(cmd, env=env) |
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if options.failfast and returncode != 0: |
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return returncode |
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return returncode |
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if __name__ == '__main__': |
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setup_vsenv() |
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print('Meson build system', meson_version, 'Project and Unit Tests') |
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raise SystemExit(main())
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