# Copyright 2012-2019 The Meson development team # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import contextlib, os.path, re, tempfile import collections.abc import itertools import typing as T from functools import lru_cache from ..linkers import ( GnuLikeDynamicLinkerMixin, LinkerEnvVarsMixin, SolarisDynamicLinker, StaticLinker, ) from .. import coredata from .. import mlog from .. import mesonlib from ..mesonlib import ( EnvironmentException, MachineChoice, MesonException, Popen_safe, split_args ) from ..envconfig import ( Properties, get_env_var ) if T.TYPE_CHECKING: from ..coredata import OptionDictType from ..envconfig import MachineInfo from ..environment import Environment from ..linkers import DynamicLinker # noqa: F401 CompilerType = T.TypeVar('CompilerType', bound=Compiler) """This file contains the data files of all compilers Meson knows about. To support a new compiler, add its information below. Also add corresponding autodetection code in environment.py.""" header_suffixes = ('h', 'hh', 'hpp', 'hxx', 'H', 'ipp', 'moc', 'vapi', 'di') obj_suffixes = ('o', 'obj', 'res') lib_suffixes = ('a', 'lib', 'dll', 'dll.a', 'dylib', 'so') # Mapping of language to suffixes of files that should always be in that language # This means we can't include .h headers here since they could be C, C++, ObjC, etc. lang_suffixes = { 'c': ('c',), 'cpp': ('cpp', 'cc', 'cxx', 'c++', 'hh', 'hpp', 'ipp', 'hxx', 'ino'), 'cuda': ('cu',), # f90, f95, f03, f08 are for free-form fortran ('f90' recommended) # f, for, ftn, fpp are for fixed-form fortran ('f' or 'for' recommended) 'fortran': ('f90', 'f95', 'f03', 'f08', 'f', 'for', 'ftn', 'fpp'), 'd': ('d', 'di'), 'objc': ('m',), 'objcpp': ('mm',), 'rust': ('rs',), 'vala': ('vala', 'vapi', 'gs'), 'cs': ('cs',), 'swift': ('swift',), 'java': ('java',), } all_languages = lang_suffixes.keys() cpp_suffixes = lang_suffixes['cpp'] + ('h',) c_suffixes = lang_suffixes['c'] + ('h',) # List of languages that by default consume and output libraries following the # C ABI; these can generally be used interchangebly clib_langs = ('objcpp', 'cpp', 'objc', 'c', 'fortran',) # List of languages that can be linked with C code directly by the linker # used in build.py:process_compilers() and build.py:get_dynamic_linker() clink_langs = ('d', 'cuda') + clib_langs clink_suffixes = () for _l in clink_langs + ('vala',): clink_suffixes += lang_suffixes[_l] clink_suffixes += ('h', 'll', 's') all_suffixes = set(itertools.chain(*lang_suffixes.values(), clink_suffixes)) # Languages that should use LDFLAGS arguments when linking. languages_using_ldflags = {'objcpp', 'cpp', 'objc', 'c', 'fortran', 'd', 'cuda'} # Languages that should use CPPFLAGS arguments when linking. languages_using_cppflags = {'c', 'cpp', 'objc', 'objcpp'} soregex = re.compile(r'.*\.so(\.[0-9]+)?(\.[0-9]+)?(\.[0-9]+)?$') # Environment variables that each lang uses. cflags_mapping = {'c': 'CFLAGS', 'cpp': 'CXXFLAGS', 'cuda': 'CUFLAGS', 'objc': 'OBJCFLAGS', 'objcpp': 'OBJCXXFLAGS', 'fortran': 'FFLAGS', 'd': 'DFLAGS', 'vala': 'VALAFLAGS', 'rust': 'RUSTFLAGS'} unixy_compiler_internal_libs = ('m', 'c', 'pthread', 'dl', 'rt') # execinfo is a compiler lib on FreeBSD and NetBSD if mesonlib.is_freebsd() or mesonlib.is_netbsd(): unixy_compiler_internal_libs += ('execinfo',) # All these are only for C-linkable languages; see `clink_langs` above. def sort_clink(lang): ''' Sorting function to sort the list of languages according to reversed(compilers.clink_langs) and append the unknown langs in the end. The purpose is to prefer C over C++ for files that can be compiled by both such as assembly, C, etc. Also applies to ObjC, ObjC++, etc. ''' if lang not in clink_langs: return 1 return -clink_langs.index(lang) def is_header(fname): if hasattr(fname, 'fname'): fname = fname.fname suffix = fname.split('.')[-1] return suffix in header_suffixes def is_source(fname): if hasattr(fname, 'fname'): fname = fname.fname suffix = fname.split('.')[-1].lower() return suffix in clink_suffixes def is_assembly(fname): if hasattr(fname, 'fname'): fname = fname.fname return fname.split('.')[-1].lower() == 's' def is_llvm_ir(fname): if hasattr(fname, 'fname'): fname = fname.fname return fname.split('.')[-1] == 'll' def is_object(fname): if hasattr(fname, 'fname'): fname = fname.fname suffix = fname.split('.')[-1] return suffix in obj_suffixes def is_library(fname): if hasattr(fname, 'fname'): fname = fname.fname if soregex.match(fname): return True suffix = fname.split('.')[-1] return suffix in lib_suffixes def is_known_suffix(fname): if hasattr(fname, 'fname'): fname = fname.fname suffix = fname.split('.')[-1] return suffix in all_suffixes cuda_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': [], 'release': [], 'minsize': [], } java_buildtype_args = {'plain': [], 'debug': ['-g'], 'debugoptimized': ['-g'], 'release': [], 'minsize': [], 'custom': [], } rust_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': [], 'release': [], 'minsize': [], 'custom': [], } d_gdc_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': ['-finline-functions'], 'release': ['-finline-functions'], 'minsize': [], 'custom': [], } d_ldc_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': ['-enable-inlining', '-Hkeep-all-bodies'], 'release': ['-enable-inlining', '-Hkeep-all-bodies'], 'minsize': [], 'custom': [], } d_dmd_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': ['-inline'], 'release': ['-inline'], 'minsize': [], 'custom': [], } mono_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': ['-optimize+'], 'release': ['-optimize+'], 'minsize': [], 'custom': [], } swift_buildtype_args = {'plain': [], 'debug': [], 'debugoptimized': [], 'release': [], 'minsize': [], 'custom': [], } gnu_winlibs = ['-lkernel32', '-luser32', '-lgdi32', '-lwinspool', '-lshell32', '-lole32', '-loleaut32', '-luuid', '-lcomdlg32', '-ladvapi32'] msvc_winlibs = ['kernel32.lib', 'user32.lib', 'gdi32.lib', 'winspool.lib', 'shell32.lib', 'ole32.lib', 'oleaut32.lib', 'uuid.lib', 'comdlg32.lib', 'advapi32.lib'] clike_optimization_args = {'0': [], 'g': [], '1': ['-O1'], '2': ['-O2'], '3': ['-O3'], 's': ['-Os'], } cuda_optimization_args = {'0': [], 'g': ['-O0'], '1': ['-O1'], '2': ['-O2'], '3': ['-O3'], 's': ['-O3'] } cuda_debug_args = {False: [], True: ['-g']} clike_debug_args = {False: [], True: ['-g']} base_options = {'b_pch': coredata.UserBooleanOption('Use precompiled headers', True), 'b_lto': coredata.UserBooleanOption('Use link time optimization', False), 'b_sanitize': coredata.UserComboOption('Code sanitizer to use', ['none', 'address', 'thread', 'undefined', 'memory', 'address,undefined'], 'none'), 'b_lundef': coredata.UserBooleanOption('Use -Wl,--no-undefined when linking', True), 'b_asneeded': coredata.UserBooleanOption('Use -Wl,--as-needed when linking', True), 'b_pgo': coredata.UserComboOption('Use profile guided optimization', ['off', 'generate', 'use'], 'off'), 'b_coverage': coredata.UserBooleanOption('Enable coverage tracking.', False), 'b_colorout': coredata.UserComboOption('Use colored output', ['auto', 'always', 'never'], 'always'), 'b_ndebug': coredata.UserComboOption('Disable asserts', ['true', 'false', 'if-release'], 'false'), 'b_staticpic': coredata.UserBooleanOption('Build static libraries as position independent', True), 'b_pie': coredata.UserBooleanOption('Build executables as position independent', False), 'b_bitcode': coredata.UserBooleanOption('Generate and embed bitcode (only macOS/iOS/tvOS)', False), 'b_vscrt': coredata.UserComboOption('VS run-time library type to use.', ['none', 'md', 'mdd', 'mt', 'mtd', 'from_buildtype'], 'from_buildtype'), } def option_enabled(boptions, options, option): try: if option not in boptions: return False return options[option].value except KeyError: return False def get_base_compile_args(options, compiler): args = [] try: if options['b_lto'].value: args.extend(compiler.get_lto_compile_args()) except KeyError: pass try: args += compiler.get_colorout_args(options['b_colorout'].value) except KeyError: pass try: args += compiler.sanitizer_compile_args(options['b_sanitize'].value) except KeyError: pass try: pgo_val = options['b_pgo'].value if pgo_val == 'generate': args.extend(compiler.get_profile_generate_args()) elif pgo_val == 'use': args.extend(compiler.get_profile_use_args()) except KeyError: pass try: if options['b_coverage'].value: args += compiler.get_coverage_args() except KeyError: pass try: if (options['b_ndebug'].value == 'true' or (options['b_ndebug'].value == 'if-release' and options['buildtype'].value in {'release', 'plain'})): args += compiler.get_disable_assert_args() except KeyError: pass # This does not need a try...except if option_enabled(compiler.base_options, options, 'b_bitcode'): args.append('-fembed-bitcode') try: crt_val = options['b_vscrt'].value buildtype = options['buildtype'].value try: args += compiler.get_crt_compile_args(crt_val, buildtype) except AttributeError: pass except KeyError: pass return args def get_base_link_args(options, linker, is_shared_module): args = [] try: if options['b_lto'].value: args.extend(linker.get_lto_link_args()) except KeyError: pass try: args += linker.sanitizer_link_args(options['b_sanitize'].value) except KeyError: pass try: pgo_val = options['b_pgo'].value if pgo_val == 'generate': args.extend(linker.get_profile_generate_args()) elif pgo_val == 'use': args.extend(linker.get_profile_use_args()) except KeyError: pass try: if options['b_coverage'].value: args += linker.get_coverage_link_args() except KeyError: pass as_needed = option_enabled(linker.base_options, options, 'b_asneeded') bitcode = option_enabled(linker.base_options, options, 'b_bitcode') # Shared modules cannot be built with bitcode_bundle because # -bitcode_bundle is incompatible with -undefined and -bundle if bitcode and not is_shared_module: args.extend(linker.bitcode_args()) elif as_needed: # -Wl,-dead_strip_dylibs is incompatible with bitcode args.extend(linker.get_asneeded_args()) # Apple's ld (the only one that supports bitcode) does not like any # -undefined arguments at all, so don't pass these when using bitcode if not bitcode: if (not is_shared_module and option_enabled(linker.base_options, options, 'b_lundef')): args.extend(linker.no_undefined_link_args()) else: args.extend(linker.get_allow_undefined_link_args()) try: crt_val = options['b_vscrt'].value buildtype = options['buildtype'].value try: args += linker.get_crt_link_args(crt_val, buildtype) except AttributeError: pass except KeyError: pass return args class CrossNoRunException(MesonException): pass class RunResult: def __init__(self, compiled, returncode=999, stdout='UNDEFINED', stderr='UNDEFINED'): self.compiled = compiled self.returncode = returncode self.stdout = stdout self.stderr = stderr class CompilerArgs(collections.abc.MutableSequence): ''' List-like class that manages a list of compiler arguments. Should be used while constructing compiler arguments from various sources. Can be operated with ordinary lists, so this does not need to be used everywhere. All arguments must be inserted and stored in GCC-style (-lfoo, -Idir, etc) and can converted to the native type of each compiler by using the .to_native() method to which you must pass an instance of the compiler or the compiler class. New arguments added to this class (either with .append(), .extend(), or +=) are added in a way that ensures that they override previous arguments. For example: >>> a = ['-Lfoo', '-lbar'] >>> a += ['-Lpho', '-lbaz'] >>> print(a) ['-Lpho', '-Lfoo', '-lbar', '-lbaz'] Arguments will also be de-duped if they can be de-duped safely. Note that because of all this, this class is not commutative and does not preserve the order of arguments if it is safe to not. For example: >>> ['-Ifoo', '-Ibar'] + ['-Ifez', '-Ibaz', '-Werror'] ['-Ifez', '-Ibaz', '-Ifoo', '-Ibar', '-Werror'] >>> ['-Ifez', '-Ibaz', '-Werror'] + ['-Ifoo', '-Ibar'] ['-Ifoo', '-Ibar', '-Ifez', '-Ibaz', '-Werror'] ''' # NOTE: currently this class is only for C-like compilers, but it can be # extended to other languages easily. Just move the following to the # compiler class and initialize when self.compiler is set. # Arg prefixes that override by prepending instead of appending prepend_prefixes = ('-I', '-L') # Arg prefixes and args that must be de-duped by returning 2 dedup2_prefixes = ('-I', '-isystem', '-L', '-D', '-U') dedup2_suffixes = () dedup2_args = () # Arg prefixes and args that must be de-duped by returning 1 # # NOTE: not thorough. A list of potential corner cases can be found in # https://github.com/mesonbuild/meson/pull/4593#pullrequestreview-182016038 dedup1_prefixes = ('-l', '-Wl,-l', '-Wl,--export-dynamic') dedup1_suffixes = ('.lib', '.dll', '.so', '.dylib', '.a') # Match a .so of the form path/to/libfoo.so.0.1.0 # Only UNIX shared libraries require this. Others have a fixed extension. dedup1_regex = re.compile(r'([\/\\]|\A)lib.*\.so(\.[0-9]+)?(\.[0-9]+)?(\.[0-9]+)?$') dedup1_args = ('-c', '-S', '-E', '-pipe', '-pthread') # In generate_link() we add external libs without de-dup, but we must # *always* de-dup these because they're special arguments to the linker always_dedup_args = tuple('-l' + lib for lib in unixy_compiler_internal_libs) def __init__(self, compiler: T.Union['Compiler', StaticLinker], iterable: T.Optional[T.Iterable[str]] = None): self.compiler = compiler self.__container = list(iterable) if iterable is not None else [] # type: T.List[str] self.__seen_args = set() for arg in self.__container: self.__seen_args.add(arg) @T.overload # noqa: F811 def __getitem__(self, index: int) -> str: # noqa: F811 pass @T.overload # noqa: F811 def __getitem__(self, index: slice) -> T.List[str]: # noqa: F811 pass def __getitem__(self, index): # noqa: F811 return self.__container[index] @T.overload # noqa: F811 def __setitem__(self, index: int, value: str) -> None: # noqa: F811 pass @T.overload # noqa: F811 def __setitem__(self, index: slice, value: T.List[str]) -> None: # noqa: F811 pass def __setitem__(self, index, value) -> None: # noqa: F811 self.__container[index] = value for v in value: self.__seen_args.add(v) def __delitem__(self, index: T.Union[int, slice]) -> None: value = self.__container[index] del self.__container[index] if value in self.__seen_args and value in self.__container: # this is also honoring that you can have duplicated entries self.__seen_args.remove(value) def __len__(self) -> int: return len(self.__container) def insert(self, index: int, value: str) -> None: self.__container.insert(index, value) self.__seen_args.add(value) def copy(self) -> 'CompilerArgs': return CompilerArgs(self.compiler, self.__container.copy()) @classmethod @lru_cache(maxsize=None) def _can_dedup(cls, arg): ''' Returns whether the argument can be safely de-duped. This is dependent on three things: a) Whether an argument can be 'overridden' by a later argument. For example, -DFOO defines FOO and -UFOO undefines FOO. In this case, we can safely remove the previous occurrence and add a new one. The same is true for include paths and library paths with -I and -L. For these we return `2`. See `dedup2_prefixes` and `dedup2_args`. b) Arguments that once specified cannot be undone, such as `-c` or `-pipe`. New instances of these can be completely skipped. For these we return `1`. See `dedup1_prefixes` and `dedup1_args`. c) Whether it matters where or how many times on the command-line a particular argument is present. This can matter for symbol resolution in static or shared libraries, so we cannot de-dup or reorder them. For these we return `0`. This is the default. In addition to these, we handle library arguments specially. With GNU ld, we surround library arguments with -Wl,--start/end-group to recursively search for symbols in the libraries. This is not needed with other linkers. ''' # A standalone argument must never be deduplicated because it is # defined by what comes _after_ it. Thus dedupping this: # -D FOO -D BAR # would yield either # -D FOO BAR # or # FOO -D BAR # both of which are invalid. if arg in cls.dedup2_prefixes: return 0 if arg.startswith('-L='): # DMD and LDC proxy all linker arguments using -L=; in conjunction # with ld64 on macOS this can lead to command line arguments such # as: `-L=-compatibility_version -L=0 -L=current_version -L=0`. # These cannot be combined, ld64 insists they must be passed with # spaces and quoting does not work. if we deduplicate these then # one of the -L=0 arguments will be removed and the version # argument will consume the next argument instead. return 0 if arg in cls.dedup2_args or \ arg.startswith(cls.dedup2_prefixes) or \ arg.endswith(cls.dedup2_suffixes): return 2 if arg in cls.dedup1_args or \ arg.startswith(cls.dedup1_prefixes) or \ arg.endswith(cls.dedup1_suffixes) or \ re.search(cls.dedup1_regex, arg): return 1 return 0 @classmethod @lru_cache(maxsize=None) def _should_prepend(cls, arg): if arg.startswith(cls.prepend_prefixes): return True return False def need_to_split_linker_args(self): return isinstance(self.compiler, Compiler) and self.compiler.get_language() == 'd' def to_native(self, copy: bool = False) -> T.List[str]: # Check if we need to add --start/end-group for circular dependencies # between static libraries, and for recursively searching for symbols # needed by static libraries that are provided by object files or # shared libraries. if copy: new = self.copy() else: new = self # To proxy these arguments with D you need to split the # arguments, thus you get `-L=-soname -L=lib.so` we don't # want to put the lib in a link -roup split_linker_args = self.need_to_split_linker_args() # This covers all ld.bfd, ld.gold, ld.gold, and xild on Linux, which # all act like (or are) gnu ld # TODO: this could probably be added to the DynamicLinker instead if (isinstance(self.compiler, Compiler) and self.compiler.linker is not None and isinstance(self.compiler.linker, (GnuLikeDynamicLinkerMixin, SolarisDynamicLinker))): group_start = -1 group_end = -1 is_soname = False for i, each in enumerate(new): if is_soname: is_soname = False continue elif split_linker_args and '-soname' in each: is_soname = True continue if not each.startswith(('-Wl,-l', '-l')) and not each.endswith('.a') and \ not soregex.match(each): continue group_end = i if group_start < 0: # First occurrence of a library group_start = i if group_start >= 0: # Last occurrence of a library new.insert(group_end + 1, '-Wl,--end-group') new.insert(group_start, '-Wl,--start-group') # Remove system/default include paths added with -isystem if hasattr(self.compiler, 'get_default_include_dirs'): default_dirs = self.compiler.get_default_include_dirs() bad_idx_list = [] # type: T.List[int] for i, each in enumerate(new): # Remove the -isystem and the path if the path is a default path if (each == '-isystem' and i < (len(new) - 1) and new[i + 1] in default_dirs): bad_idx_list += [i, i + 1] elif each.startswith('-isystem=') and each[9:] in default_dirs: bad_idx_list += [i] elif each.startswith('-isystem') and each[8:] in default_dirs: bad_idx_list += [i] for i in reversed(bad_idx_list): new.pop(i) return self.compiler.unix_args_to_native(new.__container) def append_direct(self, arg: str) -> None: ''' Append the specified argument without any reordering or de-dup except for absolute paths to libraries, etc, which can always be de-duped safely. ''' if os.path.isabs(arg): self.append(arg) else: self.__container.append(arg) self.__seen_args.add(arg) def extend_direct(self, iterable: T.Iterable[str]) -> None: ''' Extend using the elements in the specified iterable without any reordering or de-dup except for absolute paths where the order of include search directories is not relevant ''' for elem in iterable: self.append_direct(elem) def extend_preserving_lflags(self, iterable: T.Iterable[str]) -> None: normal_flags = [] lflags = [] for i in iterable: if i not in self.always_dedup_args and (i.startswith('-l') or i.startswith('-L')): lflags.append(i) else: normal_flags.append(i) self.extend(normal_flags) self.extend_direct(lflags) def __add__(self, args: T.Iterable[str]) -> 'CompilerArgs': new = self.copy() new += args return new def __iadd__(self, args: T.Iterable[str]) -> 'CompilerArgs': ''' Add two CompilerArgs while taking into account overriding of arguments and while preserving the order of arguments as much as possible ''' this_round_added = set() # a dict that contains a value, when the value was added this round pre = [] # type: T.List[str] post = [] # type: T.List[str] if not isinstance(args, collections.abc.Iterable): raise TypeError('can only concatenate Iterable[str] (not "{}") to CompilerArgs'.format(args)) for arg in args: # If the argument can be de-duped, do it either by removing the # previous occurrence of it and adding a new one, or not adding the # new occurrence. dedup = self._can_dedup(arg) if dedup == 1: # Argument already exists and adding a new instance is useless if arg in self.__seen_args or arg in pre or arg in post: continue should_prepend = self._should_prepend(arg) if dedup == 2: # Remove all previous occurrences of the arg and add it anew if arg in self.__seen_args and arg not in this_round_added: # if __seen_args contains arg as well as this_round_added, then its not yet part in self. self.remove(arg) if should_prepend: if arg in pre: pre.remove(arg) else: if arg in post: post.remove(arg) if should_prepend: pre.append(arg) else: post.append(arg) self.__seen_args.add(arg) this_round_added.add(arg) # Insert at the beginning self[:0] = pre # Append to the end self.__container += post return self def __radd__(self, args: T.Iterable[str]): new = CompilerArgs(self.compiler, args) new += self return new def __eq__(self, other: T.Any) -> T.Union[bool, type(NotImplemented)]: # Only allow equality checks against other CompilerArgs and lists instances if isinstance(other, CompilerArgs): return self.compiler == other.compiler and self.__container == other.__container elif isinstance(other, list): return self.__container == other return NotImplemented def append(self, arg: str) -> None: self.__iadd__([arg]) def extend(self, args: T.Iterable[str]) -> None: self.__iadd__(args) def __repr__(self) -> str: return 'CompilerArgs({!r}, {!r})'.format(self.compiler, self.__container) class Compiler: # Libraries to ignore in find_library() since they are provided by the # compiler or the C library. Currently only used for MSVC. ignore_libs = () # Libraries that are internal compiler implementations, and must not be # manually searched. internal_libs = () LINKER_PREFIX = None # type: T.Union[None, str, T.List[str]] INVOKES_LINKER = True def __init__(self, exelist, version, for_machine: MachineChoice, info: 'MachineInfo', linker: T.Optional['DynamicLinker'] = None, **kwargs): if isinstance(exelist, str): self.exelist = [exelist] elif isinstance(exelist, list): self.exelist = exelist else: raise TypeError('Unknown argument to Compiler') # In case it's been overridden by a child class already if not hasattr(self, 'file_suffixes'): self.file_suffixes = lang_suffixes[self.language] if not hasattr(self, 'can_compile_suffixes'): self.can_compile_suffixes = set(self.file_suffixes) self.default_suffix = self.file_suffixes[0] self.version = version if 'full_version' in kwargs: self.full_version = kwargs['full_version'] else: self.full_version = None self.for_machine = for_machine self.base_options = [] self.linker = linker self.info = info def __repr__(self): repr_str = "<{0}: v{1} `{2}`>" return repr_str.format(self.__class__.__name__, self.version, ' '.join(self.exelist)) @lru_cache(maxsize=None) def can_compile(self, src) -> bool: if hasattr(src, 'fname'): src = src.fname suffix = os.path.splitext(src)[1].lower() if suffix and suffix[1:] in self.can_compile_suffixes: return True return False def get_id(self) -> str: return self.id def get_linker_id(self) -> str: # There is not guarantee that we have a dynamic linker instance, as # some languages don't have separate linkers and compilers. In those # cases return the compiler id try: return self.linker.id except AttributeError: return self.id def get_version_string(self) -> str: details = [self.id, self.version] if self.full_version: details += ['"%s"' % (self.full_version)] return '(%s)' % (' '.join(details)) def get_language(self) -> str: return self.language @classmethod def get_display_language(cls) -> str: return cls.language.capitalize() def get_default_suffix(self) -> str: return self.default_suffix def get_define(self, dname, prefix, env, extra_args, dependencies) -> T.Tuple[str, bool]: raise EnvironmentException('%s does not support get_define ' % self.get_id()) def compute_int(self, expression, low, high, guess, prefix, env, extra_args, dependencies) -> int: raise EnvironmentException('%s does not support compute_int ' % self.get_id()) def compute_parameters_with_absolute_paths(self, parameter_list, build_dir): raise EnvironmentException('%s does not support compute_parameters_with_absolute_paths ' % self.get_id()) def has_members(self, typename, membernames, prefix, env, *, extra_args=None, dependencies=None) -> T.Tuple[bool, bool]: raise EnvironmentException('%s does not support has_member(s) ' % self.get_id()) def has_type(self, typename, prefix, env, extra_args, *, dependencies=None) -> T.Tuple[bool, bool]: raise EnvironmentException('%s does not support has_type ' % self.get_id()) def symbols_have_underscore_prefix(self, env) -> bool: raise EnvironmentException('%s does not support symbols_have_underscore_prefix ' % self.get_id()) def get_exelist(self): return self.exelist[:] def get_linker_exelist(self) -> T.List[str]: return self.linker.get_exelist() def get_linker_output_args(self, outputname: str) -> T.List[str]: return self.linker.get_output_args(outputname) def get_builtin_define(self, *args, **kwargs): raise EnvironmentException('%s does not support get_builtin_define.' % self.id) def has_builtin_define(self, *args, **kwargs): raise EnvironmentException('%s does not support has_builtin_define.' % self.id) def get_always_args(self): return [] def can_linker_accept_rsp(self) -> bool: """ Determines whether the linker can accept arguments using the @rsp syntax. """ return self.linker.get_accepts_rsp() def get_linker_always_args(self) -> T.List[str]: return self.linker.get_always_args() def get_linker_lib_prefix(self): return self.linker.get_lib_prefix() def gen_import_library_args(self, implibname): """ Used only on Windows for libraries that need an import library. This currently means C, C++, Fortran. """ return [] def get_linker_args_from_envvars(self, for_machine: MachineChoice, is_cross: bool) -> T.List[str]: return self.linker.get_args_from_envvars(for_machine, is_cross) def get_options(self) -> T.Dict[str, coredata.UserOption]: return {} def get_option_compile_args(self, options): return [] def get_option_link_args(self, options: 'OptionDictType') -> T.List[str]: return self.linker.get_option_args(options) def check_header(self, *args, **kwargs) -> T.Tuple[bool, bool]: raise EnvironmentException('Language %s does not support header checks.' % self.get_display_language()) def has_header(self, *args, **kwargs) -> T.Tuple[bool, bool]: raise EnvironmentException('Language %s does not support header checks.' % self.get_display_language()) def has_header_symbol(self, *args, **kwargs) -> T.Tuple[bool, bool]: raise EnvironmentException('Language %s does not support header symbol checks.' % self.get_display_language()) def compiles(self, *args, **kwargs) -> T.Tuple[bool, bool]: raise EnvironmentException('Language %s does not support compile checks.' % self.get_display_language()) def links(self, *args, **kwargs) -> T.Tuple[bool, bool]: raise EnvironmentException('Language %s does not support link checks.' % self.get_display_language()) def run(self, *args, **kwargs) -> RunResult: raise EnvironmentException('Language %s does not support run checks.' % self.get_display_language()) def sizeof(self, *args, **kwargs) -> int: raise EnvironmentException('Language %s does not support sizeof checks.' % self.get_display_language()) def alignment(self, *args, **kwargs) -> int: raise EnvironmentException('Language %s does not support alignment checks.' % self.get_display_language()) def has_function(self, *args, **kwargs) -> T.Tuple[bool, bool]: raise EnvironmentException('Language %s does not support function checks.' % self.get_display_language()) @classmethod def unix_args_to_native(cls, args): "Always returns a copy that can be independently mutated" return args[:] @classmethod def native_args_to_unix(cls, args: T.List[str]) -> T.List[str]: "Always returns a copy that can be independently mutated" return args[:] def find_library(self, *args, **kwargs): raise EnvironmentException('Language {} does not support library finding.'.format(self.get_display_language())) def get_library_dirs(self, *args, **kwargs): return () def get_program_dirs(self, *args, **kwargs): return [] def has_multi_arguments(self, args, env) -> T.Tuple[bool, bool]: raise EnvironmentException( 'Language {} does not support has_multi_arguments.'.format( self.get_display_language())) def has_multi_link_arguments(self, args: T.List[str], env: 'Environment') -> T.Tuple[bool, bool]: return self.linker.has_multi_arguments(args, env) def _get_compile_output(self, dirname, mode): # In pre-processor mode, the output is sent to stdout and discarded if mode == 'preprocess': return None # Extension only matters if running results; '.exe' is # guaranteed to be executable on every platform. if mode == 'link': suffix = 'exe' else: suffix = 'obj' return os.path.join(dirname, 'output.' + suffix) def get_compiler_args_for_mode(self, mode): args = [] args += self.get_always_args() if mode == 'compile': args += self.get_compile_only_args() if mode == 'preprocess': args += self.get_preprocess_only_args() return args @contextlib.contextmanager def compile(self, code: str, extra_args: list = None, *, mode: str = 'link', want_output: bool = False, temp_dir: str = None): if extra_args is None: extra_args = [] try: with tempfile.TemporaryDirectory(dir=temp_dir) as tmpdirname: no_ccache = False if isinstance(code, str): srcname = os.path.join(tmpdirname, 'testfile.' + self.default_suffix) with open(srcname, 'w') as ofile: ofile.write(code) # ccache would result in a cache miss no_ccache = True elif isinstance(code, mesonlib.File): srcname = code.fname # Construct the compiler command-line commands = CompilerArgs(self) commands.append(srcname) # Preprocess mode outputs to stdout, so no output args if mode != 'preprocess': output = self._get_compile_output(tmpdirname, mode) commands += self.get_output_args(output) commands.extend(self.get_compiler_args_for_mode(mode)) # extra_args must be last because it could contain '/link' to # pass args to VisualStudio's linker. In that case everything # in the command line after '/link' is given to the linker. commands += extra_args # Generate full command-line with the exelist commands = self.get_exelist() + commands.to_native() mlog.debug('Running compile:') mlog.debug('Working directory: ', tmpdirname) mlog.debug('Command line: ', ' '.join(commands), '\n') mlog.debug('Code:\n', code) os_env = os.environ.copy() os_env['LC_ALL'] = 'C' if no_ccache: os_env['CCACHE_DISABLE'] = '1' p, p.stdo, p.stde = Popen_safe(commands, cwd=tmpdirname, env=os_env) mlog.debug('Compiler stdout:\n', p.stdo) mlog.debug('Compiler stderr:\n', p.stde) p.commands = commands p.input_name = srcname if want_output: p.output_name = output p.cached = False # Make sure that the cached attribute always exists yield p except OSError: # On Windows antivirus programs and the like hold on to files so # they can't be deleted. There's not much to do in this case. Also, # catch OSError because the directory is then no longer empty. pass @contextlib.contextmanager def cached_compile(self, code, cdata: coredata.CoreData, *, extra_args=None, mode: str = 'link', temp_dir=None): assert(isinstance(cdata, coredata.CoreData)) # Calculate the key textra_args = tuple(extra_args) if extra_args is not None else None key = (tuple(self.exelist), self.version, code, textra_args, mode) # Check if not cached if key not in cdata.compiler_check_cache: with self.compile(code, extra_args=extra_args, mode=mode, want_output=False, temp_dir=temp_dir) as p: # Remove all attributes except the following # This way the object can be serialized tokeep = ['args', 'commands', 'input_name', 'output_name', 'pid', 'returncode', 'stdo', 'stde', 'text_mode'] todel = [x for x in vars(p).keys() if x not in tokeep] for i in todel: delattr(p, i) p.cached = False cdata.compiler_check_cache[key] = p yield p return # Return cached p = cdata.compiler_check_cache[key] p.cached = True mlog.debug('Using cached compile:') mlog.debug('Cached command line: ', ' '.join(p.commands), '\n') mlog.debug('Code:\n', code) mlog.debug('Cached compiler stdout:\n', p.stdo) mlog.debug('Cached compiler stderr:\n', p.stde) yield p def get_colorout_args(self, colortype): return [] # Some compilers (msvc) write debug info to a separate file. # These args specify where it should be written. def get_compile_debugfile_args(self, rel_obj, **kwargs): return [] def get_link_debugfile_name(self, targetfile: str) -> str: return self.linker.get_debugfile_name(targetfile) def get_link_debugfile_args(self, targetfile: str) -> T.List[str]: return self.linker.get_debugfile_args(targetfile) def get_std_shared_lib_link_args(self) -> T.List[str]: return self.linker.get_std_shared_lib_args() def get_std_shared_module_link_args(self, options: 'OptionDictType') -> T.List[str]: return self.linker.get_std_shared_module_args(options) def get_link_whole_for(self, args: T.List[str]) -> T.List[str]: return self.linker.get_link_whole_for(args) def get_allow_undefined_link_args(self) -> T.List[str]: return self.linker.get_allow_undefined_args() def no_undefined_link_args(self) -> T.List[str]: return self.linker.no_undefined_args() # Compiler arguments needed to enable the given instruction set. # May be [] meaning nothing needed or None meaning the given set # is not supported. def get_instruction_set_args(self, instruction_set): return None def build_rpath_args(self, env: 'Environment', build_dir: str, from_dir: str, rpath_paths: str, build_rpath: str, install_rpath: str) -> T.Tuple[T.List[str], T.Set[bytes]]: return self.linker.build_rpath_args( env, build_dir, from_dir, rpath_paths, build_rpath, install_rpath) def thread_flags(self, env): return [] def openmp_flags(self): raise EnvironmentException('Language %s does not support OpenMP flags.' % self.get_display_language()) def language_stdlib_only_link_flags(self): return [] def gnu_symbol_visibility_args(self, vistype): return [] def get_gui_app_args(self, value): return [] def has_func_attribute(self, name, env): raise EnvironmentException( 'Language {} does not support function attributes.'.format(self.get_display_language())) def get_pic_args(self): m = 'Language {} does not support position-independent code' raise EnvironmentException(m.format(self.get_display_language())) def get_pie_args(self): m = 'Language {} does not support position-independent executable' raise EnvironmentException(m.format(self.get_display_language())) def get_pie_link_args(self) -> T.List[str]: return self.linker.get_pie_args() def get_argument_syntax(self): """Returns the argument family type. Compilers fall into families if they try to emulate the command line interface of another compiler. For example, clang is in the GCC family since it accepts most of the same arguments as GCC. ICL (ICC on windows) is in the MSVC family since it accepts most of the same arguments as MSVC. """ return 'other' def get_profile_generate_args(self): raise EnvironmentException( '%s does not support get_profile_generate_args ' % self.get_id()) def get_profile_use_args(self): raise EnvironmentException( '%s does not support get_profile_use_args ' % self.get_id()) def get_undefined_link_args(self) -> T.List[str]: return self.linker.get_undefined_link_args() def remove_linkerlike_args(self, args): rm_exact = ('-headerpad_max_install_names',) rm_prefixes = ('-Wl,', '-L',) rm_next = ('-L', '-framework',) ret = [] iargs = iter(args) for arg in iargs: # Remove this argument if arg in rm_exact: continue # If the argument starts with this, but is not *exactly* this # f.ex., '-L' should match ['-Lfoo'] but not ['-L', 'foo'] if arg.startswith(rm_prefixes) and arg not in rm_prefixes: continue # Ignore this argument and the one after it if arg in rm_next: next(iargs) continue ret.append(arg) return ret def get_lto_compile_args(self) -> T.List[str]: return [] def get_lto_link_args(self) -> T.List[str]: return self.linker.get_lto_args() def sanitizer_compile_args(self, value: str) -> T.List[str]: return [] def sanitizer_link_args(self, value: str) -> T.List[str]: return self.linker.sanitizer_args(value) def get_asneeded_args(self) -> T.List[str]: return self.linker.get_asneeded_args() def bitcode_args(self) -> T.List[str]: return self.linker.bitcode_args() def get_linker_debug_crt_args(self) -> T.List[str]: return self.linker.get_debug_crt_args() def get_buildtype_linker_args(self, buildtype: str) -> T.List[str]: return self.linker.get_buildtype_args(buildtype) def get_soname_args(self, env: 'Environment', prefix: str, shlib_name: str, suffix: str, soversion: str, darwin_versions: T.Tuple[str, str], is_shared_module: bool) -> T.List[str]: return self.linker.get_soname_args( env, prefix, shlib_name, suffix, soversion, darwin_versions, is_shared_module) def get_target_link_args(self, target): return target.link_args def get_dependency_compile_args(self, dep): return dep.get_compile_args() def get_dependency_link_args(self, dep): return dep.get_link_args() @classmethod def use_linker_args(cls, linker: str) -> T.List[str]: """Get a list of arguments to pass to the compiler to set the linker. """ return [] def get_coverage_link_args(self) -> T.List[str]: return self.linker.get_coverage_args() def get_disable_assert_args(self) -> T.List[str]: return [] def get_largefile_args(compiler): ''' Enable transparent large-file-support for 32-bit UNIX systems ''' if not (compiler.info.is_windows() or compiler.info.is_darwin()): # Enable large-file support unconditionally on all platforms other # than macOS and Windows. macOS is now 64-bit-only so it doesn't # need anything special, and Windows doesn't have automatic LFS. # You must use the 64-bit counterparts explicitly. # glibc, musl, and uclibc, and all BSD libcs support this. On Android, # support for transparent LFS is available depending on the version of # Bionic: https://github.com/android/platform_bionic#32-bit-abi-bugs # https://code.google.com/p/android/issues/detail?id=64613 # # If this breaks your code, fix it! It's been 20+ years! return ['-D_FILE_OFFSET_BITS=64'] # We don't enable -D_LARGEFILE64_SOURCE since that enables # transitionary features and must be enabled by programs that use # those features explicitly. return [] def get_args_from_envvars(lang: str, for_machine: MachineChoice, is_cross: bool, use_linker_args: bool) -> T.Tuple[T.List[str], T.List[str]]: """ Returns a tuple of (compile_flags, link_flags) for the specified language from the inherited environment """ if lang not in cflags_mapping: return [], [] compile_flags = [] # type: T.List[str] link_flags = [] # type: T.List[str] env_compile_flags = get_env_var(for_machine, is_cross, cflags_mapping[lang]) if env_compile_flags is not None: compile_flags += split_args(env_compile_flags) # Link flags (same for all languages) if lang in languages_using_ldflags: link_flags += LinkerEnvVarsMixin.get_args_from_envvars(for_machine, is_cross) if use_linker_args: # When the compiler is used as a wrapper around the linker (such as # with GCC and Clang), the compile flags can be needed while linking # too. This is also what Autotools does. However, we don't want to do # this when the linker is stand-alone such as with MSVC C/C++, etc. link_flags = compile_flags + link_flags # Pre-processor flags for certain languages if lang in languages_using_cppflags: env_preproc_flags = get_env_var(for_machine, is_cross, 'CPPFLAGS') if env_preproc_flags is not None: compile_flags += split_args(env_preproc_flags) return compile_flags, link_flags def get_global_options(lang: str, comp: T.Type[Compiler], for_machine: MachineChoice, is_cross: bool, properties: Properties) -> T.Dict[str, coredata.UserOption]: """Retreive options that apply to all compilers for a given language.""" description = 'Extra arguments passed to the {}'.format(lang) opts = { 'args': coredata.UserArrayOption( description + ' compiler', [], split_args=True, user_input=True, allow_dups=True), 'link_args': coredata.UserArrayOption( description + ' linker', [], split_args=True, user_input=True, allow_dups=True), } # Get from env vars. compile_args, link_args = get_args_from_envvars( lang, for_machine, is_cross, comp.INVOKES_LINKER) for k, o in opts.items(): user_k = lang + '_' + k if user_k in properties: # Get from configuration files. o.set_value(properties[user_k]) elif k == 'args': o.set_value(compile_args) elif k == 'link_args': o.set_value(link_args) return opts