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# SPDX-License-Identifier: Apache-2.0
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# Copyright 2020 The Meson development team
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from __future__ import annotations
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from pathlib import Path
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from .traceparser import CMakeTraceParser
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from ..envconfig import CMakeSkipCompilerTest
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from .common import language_map, cmake_get_generator_args
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from .. import mlog
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import shutil
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import typing as T
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from enum import Enum
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from textwrap import dedent
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if T.TYPE_CHECKING:
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from .executor import CMakeExecutor
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from ..environment import Environment
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cmake: handle arguments in the [binaries] section of the machine file
Sometimes, the machine file can include compiler command line options,
in order to pick the correct multilib. For example, Meson uses "$cc
--print-search-dirs" to find the library search path, where $cc is the
cc from the machine file. Because the outputs of "gcc -m32
--print-search-dirs" and "gcc --print-search-dirs" are different, this
only works if you have
[binaries]
cc = ['gcc', '-m32']
in the machine file. Right now, however, the cmake module assumes that
the compiler listed in the machine file is either a compiler, or a
"launcher" followed by the compiler. Check if the second argument
starts with a slash (for Microsoft-like compilers) or a dash (for
everyone else), and if so presume that the CMAKE_*_COMPILER_LAUNCHER
need not be defined.
3 years ago
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from ..compilers import Compiler
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from ..mesonlib import MachineChoice
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class CMakeExecScope(Enum):
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SUBPROJECT = 'subproject'
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DEPENDENCY = 'dependency'
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class CMakeToolchain:
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def __init__(self, cmakebin: 'CMakeExecutor', env: 'Environment', for_machine: MachineChoice, exec_scope: CMakeExecScope, build_dir: Path, preload_file: T.Optional[Path] = None) -> None:
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self.env = env
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self.cmakebin = cmakebin
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self.for_machine = for_machine
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self.exec_scope = exec_scope
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self.preload_file = preload_file
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self.build_dir = build_dir
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self.build_dir = self.build_dir.resolve()
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self.toolchain_file = build_dir / 'CMakeMesonToolchainFile.cmake'
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self.cmcache_file = build_dir / 'CMakeCache.txt'
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self.minfo = self.env.machines[self.for_machine]
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self.properties = self.env.properties[self.for_machine]
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self.compilers = self.env.coredata.compilers[self.for_machine]
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self.cmakevars = self.env.cmakevars[self.for_machine]
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self.cmakestate = self.env.coredata.cmake_cache[self.for_machine]
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self.variables = self.get_defaults()
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self.variables.update(self.cmakevars.get_variables())
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# Determine whether CMake the compiler test should be skipped
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skip_status = self.properties.get_cmake_skip_compiler_test()
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self.skip_check = skip_status == CMakeSkipCompilerTest.ALWAYS
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if skip_status == CMakeSkipCompilerTest.DEP_ONLY and self.exec_scope == CMakeExecScope.DEPENDENCY:
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self.skip_check = True
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if not self.properties.get_cmake_defaults():
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self.skip_check = False
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assert self.toolchain_file.is_absolute()
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def write(self) -> Path:
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if not self.toolchain_file.parent.exists():
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self.toolchain_file.parent.mkdir(parents=True)
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self.toolchain_file.write_text(self.generate(), encoding='utf-8')
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self.cmcache_file.write_text(self.generate_cache(), encoding='utf-8')
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mlog.cmd_ci_include(self.toolchain_file.as_posix())
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return self.toolchain_file
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def get_cmake_args(self) -> T.List[str]:
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args = ['-DCMAKE_TOOLCHAIN_FILE=' + self.toolchain_file.as_posix()]
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if self.preload_file is not None:
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args += ['-DMESON_PRELOAD_FILE=' + self.preload_file.as_posix()]
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return args
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@staticmethod
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def _print_vars(vars: T.Dict[str, T.List[str]]) -> str:
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res = ''
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for key, value in vars.items():
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res += 'set(' + key
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for i in value:
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res += f' "{i}"'
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res += ')\n'
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return res
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def generate(self) -> str:
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res = dedent('''\
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######################################
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### AUTOMATICALLY GENERATED FILE ###
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######################################
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# This file was generated from the configuration in the
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# relevant meson machine file. See the meson documentation
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# https://mesonbuild.com/Machine-files.html for more information
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if(DEFINED MESON_PRELOAD_FILE)
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include("${MESON_PRELOAD_FILE}")
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endif()
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''')
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# Escape all \ in the values
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for key, value in self.variables.items():
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self.variables[key] = [x.replace('\\', '/') for x in value]
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# Set compiler
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if self.skip_check:
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self.update_cmake_compiler_state()
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res += '# CMake compiler state variables\n'
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for lang, vars in self.cmakestate:
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res += f'# -- Variables for language {lang}\n'
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res += self._print_vars(vars)
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res += '\n'
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res += '\n'
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# Set variables from the current machine config
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res += '# Variables from meson\n'
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res += self._print_vars(self.variables)
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res += '\n'
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# Add the user provided toolchain file
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user_file = self.properties.get_cmake_toolchain_file()
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if user_file is not None:
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res += dedent('''
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# Load the CMake toolchain file specified by the user
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include("{}")
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'''.format(user_file.as_posix()))
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return res
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def generate_cache(self) -> str:
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if not self.skip_check:
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return ''
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res = ''
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for name, v in self.cmakestate.cmake_cache.items():
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res += f'{name}:{v.type}={";".join(v.value)}\n'
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return res
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def get_defaults(self) -> T.Dict[str, T.List[str]]:
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defaults: T.Dict[str, T.List[str]] = {}
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# Do nothing if the user does not want automatic defaults
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if not self.properties.get_cmake_defaults():
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return defaults
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# Best effort to map the meson system name to CMAKE_SYSTEM_NAME, which
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# is not trivial since CMake lacks a list of all supported
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# CMAKE_SYSTEM_NAME values.
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SYSTEM_MAP: T.Dict[str, str] = {
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'android': 'Android',
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'linux': 'Linux',
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'windows': 'Windows',
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'freebsd': 'FreeBSD',
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'darwin': 'Darwin',
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}
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# Only set these in a cross build. Otherwise CMake will trip up in native
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# builds and thing they are cross (which causes TRY_RUN() to break)
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if self.env.is_cross_build(when_building_for=self.for_machine):
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defaults['CMAKE_SYSTEM_NAME'] = [SYSTEM_MAP.get(self.minfo.system, self.minfo.system)]
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defaults['CMAKE_SYSTEM_PROCESSOR'] = [self.minfo.cpu_family]
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defaults['CMAKE_SIZEOF_VOID_P'] = ['8' if self.minfo.is_64_bit else '4']
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sys_root = self.properties.get_sys_root()
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if sys_root:
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defaults['CMAKE_SYSROOT'] = [sys_root]
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def make_abs(exe: str) -> str:
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if Path(exe).is_absolute():
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return exe
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p = shutil.which(exe)
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if p is None:
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return exe
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return p
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# Set the compiler variables
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for lang, comp_obj in self.compilers.items():
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prefix = 'CMAKE_{}_'.format(language_map.get(lang, lang.upper()))
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cmake: handle arguments in the [binaries] section of the machine file
Sometimes, the machine file can include compiler command line options,
in order to pick the correct multilib. For example, Meson uses "$cc
--print-search-dirs" to find the library search path, where $cc is the
cc from the machine file. Because the outputs of "gcc -m32
--print-search-dirs" and "gcc --print-search-dirs" are different, this
only works if you have
[binaries]
cc = ['gcc', '-m32']
in the machine file. Right now, however, the cmake module assumes that
the compiler listed in the machine file is either a compiler, or a
"launcher" followed by the compiler. Check if the second argument
starts with a slash (for Microsoft-like compilers) or a dash (for
everyone else), and if so presume that the CMAKE_*_COMPILER_LAUNCHER
need not be defined.
3 years ago
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exe_list = comp_obj.get_exelist()
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if not exe_list:
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continue
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cmake: handle arguments in the [binaries] section of the machine file
Sometimes, the machine file can include compiler command line options,
in order to pick the correct multilib. For example, Meson uses "$cc
--print-search-dirs" to find the library search path, where $cc is the
cc from the machine file. Because the outputs of "gcc -m32
--print-search-dirs" and "gcc --print-search-dirs" are different, this
only works if you have
[binaries]
cc = ['gcc', '-m32']
in the machine file. Right now, however, the cmake module assumes that
the compiler listed in the machine file is either a compiler, or a
"launcher" followed by the compiler. Check if the second argument
starts with a slash (for Microsoft-like compilers) or a dash (for
everyone else), and if so presume that the CMAKE_*_COMPILER_LAUNCHER
need not be defined.
3 years ago
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if len(exe_list) >= 2 and not self.is_cmdline_option(comp_obj, exe_list[1]):
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defaults[prefix + 'COMPILER_LAUNCHER'] = [make_abs(exe_list[0])]
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exe_list = exe_list[1:]
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exe_list[0] = make_abs(exe_list[0])
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defaults[prefix + 'COMPILER'] = exe_list
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if comp_obj.get_id() == 'clang-cl':
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defaults['CMAKE_LINKER'] = comp_obj.get_linker_exelist()
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if lang.startswith('objc') and comp_obj.get_id().startswith('clang'):
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defaults[f'{prefix}FLAGS'] = ['-D__STDC__=1']
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return defaults
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cmake: handle arguments in the [binaries] section of the machine file
Sometimes, the machine file can include compiler command line options,
in order to pick the correct multilib. For example, Meson uses "$cc
--print-search-dirs" to find the library search path, where $cc is the
cc from the machine file. Because the outputs of "gcc -m32
--print-search-dirs" and "gcc --print-search-dirs" are different, this
only works if you have
[binaries]
cc = ['gcc', '-m32']
in the machine file. Right now, however, the cmake module assumes that
the compiler listed in the machine file is either a compiler, or a
"launcher" followed by the compiler. Check if the second argument
starts with a slash (for Microsoft-like compilers) or a dash (for
everyone else), and if so presume that the CMAKE_*_COMPILER_LAUNCHER
need not be defined.
3 years ago
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@staticmethod
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def is_cmdline_option(compiler: 'Compiler', arg: str) -> bool:
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if compiler.get_argument_syntax() == 'msvc':
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cmake: handle arguments in the [binaries] section of the machine file
Sometimes, the machine file can include compiler command line options,
in order to pick the correct multilib. For example, Meson uses "$cc
--print-search-dirs" to find the library search path, where $cc is the
cc from the machine file. Because the outputs of "gcc -m32
--print-search-dirs" and "gcc --print-search-dirs" are different, this
only works if you have
[binaries]
cc = ['gcc', '-m32']
in the machine file. Right now, however, the cmake module assumes that
the compiler listed in the machine file is either a compiler, or a
"launcher" followed by the compiler. Check if the second argument
starts with a slash (for Microsoft-like compilers) or a dash (for
everyone else), and if so presume that the CMAKE_*_COMPILER_LAUNCHER
need not be defined.
3 years ago
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return arg.startswith('/')
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else:
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return arg.startswith('-')
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def update_cmake_compiler_state(self) -> None:
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# Check if all variables are already cached
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if self.cmakestate.languages.issuperset(self.compilers.keys()):
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return
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# Generate the CMakeLists.txt
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mlog.debug('CMake Toolchain: Calling CMake once to generate the compiler state')
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languages = list(self.compilers.keys())
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lang_ids = [language_map.get(x, x.upper()) for x in languages]
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cmake_content = dedent(f'''
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cmake_minimum_required(VERSION 3.7)
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project(CompInfo {' '.join(lang_ids)})
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''')
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build_dir = Path(self.env.scratch_dir) / '__CMake_compiler_info__'
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build_dir.mkdir(parents=True, exist_ok=True)
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cmake_file = build_dir / 'CMakeLists.txt'
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cmake_file.write_text(cmake_content, encoding='utf-8')
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# Generate the temporary toolchain file
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temp_toolchain_file = build_dir / 'CMakeMesonTempToolchainFile.cmake'
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temp_toolchain_file.write_text(CMakeToolchain._print_vars(self.variables), encoding='utf-8')
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# Configure
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trace = CMakeTraceParser(self.cmakebin.version(), build_dir, self.env)
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self.cmakebin.set_exec_mode(print_cmout=False, always_capture_stderr=trace.requires_stderr())
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cmake_args = []
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cmake_args += trace.trace_args()
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cmake_args += cmake_get_generator_args(self.env)
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cmake_args += [f'-DCMAKE_TOOLCHAIN_FILE={temp_toolchain_file.as_posix()}', '.']
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rc, _, raw_trace = self.cmakebin.call(cmake_args, build_dir=build_dir, disable_cache=True)
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if rc != 0:
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mlog.warning('CMake Toolchain: Failed to determine CMake compilers state')
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return
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# Parse output
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trace.parse(raw_trace)
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self.cmakestate.cmake_cache = {**trace.cache}
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vars_by_file = {k.name: v for (k, v) in trace.vars_by_file.items()}
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for lang in languages:
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lang_cmake = language_map.get(lang, lang.upper())
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file_name = f'CMake{lang_cmake}Compiler.cmake'
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vars = vars_by_file.setdefault(file_name, {})
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vars[f'CMAKE_{lang_cmake}_COMPILER_FORCED'] = ['1']
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self.cmakestate.update(lang, vars)
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