# Copyright 2015-2022 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. from __future__ import annotations from collections import defaultdict from dataclasses import dataclass from pathlib import PurePath import os import typing as T from . import NewExtensionModule, ModuleInfo from . import ModuleReturnValue from .. import build from .. import dependencies from .. import mesonlib from .. import mlog from ..coredata import BUILTIN_DIR_OPTIONS from ..dependencies import ThreadDependency from ..interpreter.type_checking import D_MODULE_VERSIONS_KW, INSTALL_DIR_KW, VARIABLES_KW, NoneType from ..interpreterbase import FeatureNew, FeatureDeprecated from ..interpreterbase.decorators import ContainerTypeInfo, KwargInfo, typed_kwargs, typed_pos_args if T.TYPE_CHECKING: from typing_extensions import TypedDict from . import ModuleState from .. import mparser from ..interpreter import Interpreter ANY_DEP = T.Union[dependencies.Dependency, build.BuildTargetTypes, str] LIBS = T.Union[build.LibTypes, str] class GenerateKw(TypedDict): version: T.Optional[str] name: T.Optional[str] filebase: T.Optional[str] description: T.Optional[str] url: str subdirs: T.List[str] conflicts: T.List[str] dataonly: bool libraries: T.List[ANY_DEP] libraries_private: T.List[ANY_DEP] requires: T.List[T.Union[str, build.StaticLibrary, build.SharedLibrary, dependencies.Dependency]] requires_private: T.List[T.Union[str, build.StaticLibrary, build.SharedLibrary, dependencies.Dependency]] install_dir: T.Optional[str] d_module_versions: T.List[T.Union[str, int]] extra_cflags: T.List[str] variables: T.Dict[str, str] uninstalled_variables: T.Dict[str, str] unescaped_variables: T.Dict[str, str] unescaped_uninstalled_variables: T.Dict[str, str] _PKG_LIBRARIES: KwargInfo[T.List[T.Union[str, dependencies.Dependency, build.SharedLibrary, build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex]]] = KwargInfo( 'libraries', ContainerTypeInfo(list, (str, dependencies.Dependency, build.SharedLibrary, build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex)), default=[], listify=True, ) _PKG_REQUIRES: KwargInfo[T.List[T.Union[str, build.SharedLibrary, build.StaticLibrary, dependencies.Dependency]]] = KwargInfo( 'requires', ContainerTypeInfo(list, (str, build.SharedLibrary, build.StaticLibrary, dependencies.Dependency)), default=[], listify=True, ) def _as_str(obj: object) -> str: assert isinstance(obj, str) return obj @dataclass class MetaData: filebase: str display_name: str location: mparser.BaseNode warned: bool = False class DependenciesHelper: def __init__(self, state: ModuleState, name: str, metadata: T.Dict[str, MetaData]) -> None: self.state = state self.name = name self.pub_libs: T.List[LIBS] = [] self.pub_reqs: T.List[str] = [] self.priv_libs: T.List[LIBS] = [] self.priv_reqs: T.List[str] = [] self.cflags: T.List[str] = [] self.version_reqs: T.DefaultDict[str, T.Set[str]] = defaultdict(set) self.link_whole_targets: T.List[T.Union[build.CustomTarget, build.CustomTargetIndex, build.StaticLibrary]] = [] self.metadata = metadata def add_pub_libs(self, libs: T.List[ANY_DEP]) -> None: p_libs, reqs, cflags = self._process_libs(libs, True) self.pub_libs = p_libs + self.pub_libs # prepend to preserve dependencies self.pub_reqs += reqs self.cflags += cflags def add_priv_libs(self, libs: T.List[ANY_DEP]) -> None: p_libs, reqs, _ = self._process_libs(libs, False) self.priv_libs = p_libs + self.priv_libs self.priv_reqs += reqs def add_pub_reqs(self, reqs: T.List[T.Union[str, build.StaticLibrary, build.SharedLibrary, dependencies.Dependency]]) -> None: self.pub_reqs += self._process_reqs(reqs) def add_priv_reqs(self, reqs: T.List[T.Union[str, build.StaticLibrary, build.SharedLibrary, dependencies.Dependency]]) -> None: self.priv_reqs += self._process_reqs(reqs) def _check_generated_pc_deprecation(self, obj: T.Union[build.CustomTarget, build.CustomTargetIndex, build.StaticLibrary, build.SharedLibrary]) -> None: if obj.get_id() in self.metadata: return data = self.metadata[obj.get_id()] if data.warned: return mlog.deprecation('Library', mlog.bold(obj.name), 'was passed to the ' '"libraries" keyword argument of a previous call ' 'to generate() method instead of first positional ' 'argument.', 'Adding', mlog.bold(data.display_name), 'to "Requires" field, but this is a deprecated ' 'behaviour that will change in a future version ' 'of Meson. Please report the issue if this ' 'warning cannot be avoided in your case.', location=data.location) data.warned = True def _process_reqs(self, reqs: T.Sequence[T.Union[str, build.StaticLibrary, build.SharedLibrary, dependencies.Dependency]]) -> T.List[str]: '''Returns string names of requirements''' processed_reqs: T.List[str] = [] for obj in mesonlib.listify(reqs): if not isinstance(obj, str): FeatureNew.single_use('pkgconfig.generate requirement from non-string object', '0.46.0', self.state.subproject) if (isinstance(obj, (build.CustomTarget, build.CustomTargetIndex, build.SharedLibrary, build.StaticLibrary)) and obj.get_id() in self.metadata): self._check_generated_pc_deprecation(obj) processed_reqs.append(self.metadata[obj.get_id()].filebase) elif isinstance(obj, dependencies.PkgConfigDependency): if obj.found(): processed_reqs.append(obj.name) self.add_version_reqs(obj.name, obj.version_reqs) elif isinstance(obj, str): name, version_req = self.split_version_req(obj) processed_reqs.append(name) self.add_version_reqs(name, [version_req] if version_req is not None else None) elif isinstance(obj, dependencies.Dependency) and not obj.found(): pass elif isinstance(obj, ThreadDependency): pass else: raise mesonlib.MesonException('requires argument not a string, ' 'library with pkgconfig-generated file ' f'or pkgconfig-dependency object, got {obj!r}') return processed_reqs def add_cflags(self, cflags: T.List[str]) -> None: self.cflags += mesonlib.stringlistify(cflags) def _process_libs( self, libs: T.List[ANY_DEP], public: bool ) -> T.Tuple[T.List[T.Union[str, build.SharedLibrary, build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex]], T.List[str], T.List[str]]: libs = mesonlib.listify(libs) processed_libs: T.List[T.Union[str, build.SharedLibrary, build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex]] = [] processed_reqs: T.List[str] = [] processed_cflags: T.List[str] = [] for obj in libs: if (isinstance(obj, (build.CustomTarget, build.CustomTargetIndex, build.SharedLibrary, build.StaticLibrary)) and obj.get_id() in self.metadata): self._check_generated_pc_deprecation(obj) processed_reqs.append(self.metadata[obj.get_id()].filebase) elif isinstance(obj, dependencies.ValgrindDependency): pass elif isinstance(obj, dependencies.PkgConfigDependency): if obj.found(): processed_reqs.append(obj.name) self.add_version_reqs(obj.name, obj.version_reqs) elif isinstance(obj, dependencies.InternalDependency): if obj.found(): processed_libs += obj.get_link_args() processed_cflags += obj.get_compile_args() self._add_lib_dependencies(obj.libraries, obj.whole_libraries, obj.ext_deps, public, private_external_deps=True) elif isinstance(obj, dependencies.Dependency): if obj.found(): processed_libs += obj.get_link_args() processed_cflags += obj.get_compile_args() elif isinstance(obj, build.SharedLibrary) and obj.shared_library_only: # Do not pull dependencies for shared libraries because they are # only required for static linking. Adding private requires has # the side effect of exposing their cflags, which is the # intended behaviour of pkg-config but force Debian to add more # than needed build deps. # See https://bugs.freedesktop.org/show_bug.cgi?id=105572 processed_libs.append(obj) elif isinstance(obj, (build.SharedLibrary, build.StaticLibrary)): processed_libs.append(obj) # If there is a static library in `Libs:` all its deps must be # public too, otherwise the generated pc file will never be # usable without --static. self._add_lib_dependencies(obj.link_targets, obj.link_whole_targets, obj.external_deps, isinstance(obj, build.StaticLibrary) and public) elif isinstance(obj, (build.CustomTarget, build.CustomTargetIndex)): if not obj.is_linkable_target(): raise mesonlib.MesonException('library argument contains a not linkable custom_target.') FeatureNew.single_use('custom_target in pkgconfig.generate libraries', '0.58.0', self.state.subproject) processed_libs.append(obj) elif isinstance(obj, str): processed_libs.append(obj) else: raise mesonlib.MesonException(f'library argument of type {type(obj).__name__} not a string, library or dependency object.') return processed_libs, processed_reqs, processed_cflags def _add_lib_dependencies( self, link_targets: T.Sequence[build.BuildTargetTypes], link_whole_targets: T.Sequence[T.Union[build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex]], external_deps: T.List[dependencies.Dependency], public: bool, private_external_deps: bool = False) -> None: add_libs = self.add_pub_libs if public else self.add_priv_libs # Recursively add all linked libraries for t in link_targets: # Internal libraries (uninstalled static library) will be promoted # to link_whole, treat them as such here. if t.is_internal(): # `is_internal` shouldn't return True for anything but a # StaticLibrary, or a CustomTarget that is a StaticLibrary assert isinstance(t, (build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex)), 'for mypy' self._add_link_whole(t, public) else: add_libs([t]) for t in link_whole_targets: self._add_link_whole(t, public) # And finally its external dependencies if private_external_deps: self.add_priv_libs(T.cast('T.List[ANY_DEP]', external_deps)) else: add_libs(T.cast('T.List[ANY_DEP]', external_deps)) def _add_link_whole(self, t: T.Union[build.CustomTarget, build.CustomTargetIndex, build.StaticLibrary], public: bool) -> None: # Don't include static libraries that we link_whole. But we still need to # include their dependencies: a static library we link_whole # could itself link to a shared library or an installed static library. # Keep track of link_whole_targets so we can remove them from our # lists in case a library is link_with and link_whole at the same time. # See remove_dups() below. self.link_whole_targets.append(t) if isinstance(t, build.BuildTarget): self._add_lib_dependencies(t.link_targets, t.link_whole_targets, t.external_deps, public) def add_version_reqs(self, name: str, version_reqs: T.Optional[T.List[str]]) -> None: if version_reqs: # Note that pkg-config is picky about whitespace. # 'foo > 1.2' is ok but 'foo>1.2' is not. # foo, bar' is ok, but 'foo,bar' is not. new_vreqs = [s for s in mesonlib.stringlistify(version_reqs)] self.version_reqs[name].update(new_vreqs) def split_version_req(self, s: str) -> T.Tuple[str, T.Optional[str]]: for op in ['>=', '<=', '!=', '==', '=', '>', '<']: pos = s.find(op) if pos > 0: return s[0:pos].strip(), s[pos:].strip() return s, None def format_vreq(self, vreq: str) -> str: # vreq are '>=1.0' and pkgconfig wants '>= 1.0' for op in ['>=', '<=', '!=', '==', '=', '>', '<']: if vreq.startswith(op): return op + ' ' + vreq[len(op):] return vreq def format_reqs(self, reqs: T.List[str]) -> str: result: T.List[str] = [] for name in reqs: vreqs = self.version_reqs.get(name, None) if vreqs: result += [name + ' ' + self.format_vreq(vreq) for vreq in vreqs] else: result += [name] return ', '.join(result) def remove_dups(self) -> None: # Set of ids that have already been handled and should not be added any more exclude: T.Set[str] = set() # We can't just check if 'x' is excluded because we could have copies of # the same SharedLibrary object for example. def _ids(x: T.Union[str, build.CustomTarget, build.CustomTargetIndex, build.StaticLibrary, build.SharedLibrary]) -> T.Iterable[str]: if isinstance(x, str): yield x else: if x.get_id() in self.metadata: yield self.metadata[x.get_id()].display_name yield x.get_id() # Exclude 'x' in all its forms and return if it was already excluded def _add_exclude(x: T.Union[str, build.CustomTarget, build.CustomTargetIndex, build.StaticLibrary, build.SharedLibrary]) -> bool: was_excluded = False for i in _ids(x): if i in exclude: was_excluded = True else: exclude.add(i) return was_excluded # link_whole targets are already part of other targets, exclude them all. for t in self.link_whole_targets: _add_exclude(t) # Mypy thinks these overlap, but since List is invariant they don't, # `List[str]`` is not a valid input to `List[str | BuildTarget]`. # pylance/pyright gets this right, but for mypy we have to ignore the # error @T.overload def _fn(xs: T.List[str], libs: bool = False) -> T.List[str]: ... # type: ignore @T.overload def _fn(xs: T.List[LIBS], libs: bool = False) -> T.List[LIBS]: ... def _fn(xs: T.Union[T.List[str], T.List[LIBS]], libs: bool = False) -> T.Union[T.List[str], T.List[LIBS]]: # Remove duplicates whilst preserving original order result = [] for x in xs: # Don't de-dup unknown strings to avoid messing up arguments like: # ['-framework', 'CoreAudio', '-framework', 'CoreMedia'] known_flags = ['-pthread'] cannot_dedup = libs and isinstance(x, str) and \ not x.startswith(('-l', '-L')) and \ x not in known_flags if not cannot_dedup and _add_exclude(x): continue result.append(x) return result # Handle lists in priority order: public items can be excluded from # private and Requires can excluded from Libs. self.pub_reqs = _fn(self.pub_reqs) self.pub_libs = _fn(self.pub_libs, True) self.priv_reqs = _fn(self.priv_reqs) self.priv_libs = _fn(self.priv_libs, True) # Reset exclude list just in case some values can be both cflags and libs. exclude = set() self.cflags = _fn(self.cflags) class PkgConfigModule(NewExtensionModule): INFO = ModuleInfo('pkgconfig') # Track already generated pkg-config files This is stored as a class # variable so that multiple `import()`s share metadata _metadata: T.ClassVar[T.Dict[str, MetaData]] = {} def __init__(self) -> None: super().__init__() self.methods.update({ 'generate': self.generate, }) def _get_lname(self, l: T.Union[build.SharedLibrary, build.StaticLibrary, build.CustomTarget, build.CustomTargetIndex], msg: str, pcfile: str) -> str: if isinstance(l, (build.CustomTargetIndex, build.CustomTarget)): basename = os.path.basename(l.get_filename()) name = os.path.splitext(basename)[0] if name.startswith('lib'): name = name[3:] return name # Nothing special if not l.name_prefix_set: return l.name # Sometimes people want the library to start with 'lib' everywhere, # which is achieved by setting name_prefix to '' and the target name to # 'libfoo'. In that case, try to get the pkg-config '-lfoo' arg correct. if l.prefix == '' and l.name.startswith('lib'): return l.name[3:] # If the library is imported via an import library which is always # named after the target name, '-lfoo' is correct. if isinstance(l, build.SharedLibrary) and l.import_filename: return l.name # In other cases, we can't guarantee that the compiler will be able to # find the library via '-lfoo', so tell the user that. mlog.warning(msg.format(l.name, 'name_prefix', l.name, pcfile)) return l.name def _escape(self, value: T.Union[str, PurePath]) -> str: ''' We cannot use quote_arg because it quotes with ' and " which does not work with pkg-config and pkgconf at all. ''' # We should always write out paths with / because pkg-config requires # spaces to be quoted with \ and that messes up on Windows: # https://bugs.freedesktop.org/show_bug.cgi?id=103203 if isinstance(value, PurePath): value = value.as_posix() return value.replace(' ', r'\ ') def _make_relative(self, prefix: T.Union[PurePath, str], subdir: T.Union[PurePath, str]) -> str: prefix = PurePath(prefix) subdir = PurePath(subdir) try: libdir = subdir.relative_to(prefix) except ValueError: libdir = subdir # pathlib joining makes sure absolute libdir is not appended to '${prefix}' return ('${prefix}' / libdir).as_posix() def _generate_pkgconfig_file(self, state: ModuleState, deps: DependenciesHelper, subdirs: T.List[str], name: T.Optional[str], description: T.Optional[str], url: str, version: str, pcfile: str, conflicts: T.List[str], variables: T.List[T.Tuple[str, str]], unescaped_variables: T.List[T.Tuple[str, str]], uninstalled: bool = False, dataonly: bool = False, pkgroot: T.Optional[str] = None) -> None: coredata = state.environment.get_coredata() referenced_vars = set() optnames = [x.name for x in BUILTIN_DIR_OPTIONS.keys()] if not dataonly: # includedir is always implied, although libdir may not be # needed for header-only libraries referenced_vars |= {'prefix', 'includedir'} if deps.pub_libs or deps.priv_libs: referenced_vars |= {'libdir'} # also automatically infer variables referenced in other variables implicit_vars_warning = False redundant_vars_warning = False varnames = set() varstrings = set() for k, v in variables + unescaped_variables: varnames |= {k} varstrings |= {v} for optname in optnames: optvar = f'${{{optname}}}' if any(x.startswith(optvar) for x in varstrings): if optname in varnames: redundant_vars_warning = True else: # these 3 vars were always "implicit" if dataonly or optname not in {'prefix', 'includedir', 'libdir'}: implicit_vars_warning = True referenced_vars |= {'prefix', optname} if redundant_vars_warning: FeatureDeprecated.single_use('pkgconfig.generate variable for builtin directories', '0.62.0', state.subproject, 'They will be automatically included when referenced', state.current_node) if implicit_vars_warning: FeatureNew.single_use('pkgconfig.generate implicit variable for builtin directories', '0.62.0', state.subproject, location=state.current_node) if uninstalled: outdir = os.path.join(state.environment.build_dir, 'meson-uninstalled') if not os.path.exists(outdir): os.mkdir(outdir) prefix = PurePath(state.environment.get_build_dir()) srcdir = PurePath(state.environment.get_source_dir()) else: outdir = state.environment.scratch_dir prefix = PurePath(_as_str(coredata.get_option(mesonlib.OptionKey('prefix')))) if pkgroot: pkgroot_ = PurePath(pkgroot) if not pkgroot_.is_absolute(): pkgroot_ = prefix / pkgroot elif prefix not in pkgroot_.parents: raise mesonlib.MesonException('Pkgconfig prefix cannot be outside of the prefix ' 'when pkgconfig.relocatable=true. ' f'Pkgconfig prefix is {pkgroot_.as_posix()}.') prefix = PurePath('${pcfiledir}', os.path.relpath(prefix, pkgroot_)) fname = os.path.join(outdir, pcfile) with open(fname, 'w', encoding='utf-8') as ofile: for optname in optnames: if optname in referenced_vars - varnames: if optname == 'prefix': ofile.write('prefix={}\n'.format(self._escape(prefix))) else: dirpath = PurePath(_as_str(coredata.get_option(mesonlib.OptionKey(optname)))) ofile.write('{}={}\n'.format(optname, self._escape('${prefix}' / dirpath))) if uninstalled and not dataonly: ofile.write('srcdir={}\n'.format(self._escape(srcdir))) if variables or unescaped_variables: ofile.write('\n') for k, v in variables: ofile.write('{}={}\n'.format(k, self._escape(v))) for k, v in unescaped_variables: ofile.write(f'{k}={v}\n') ofile.write('\n') ofile.write(f'Name: {name}\n') if len(description) > 0: ofile.write(f'Description: {description}\n') if len(url) > 0: ofile.write(f'URL: {url}\n') ofile.write(f'Version: {version}\n') reqs_str = deps.format_reqs(deps.pub_reqs) if len(reqs_str) > 0: ofile.write(f'Requires: {reqs_str}\n') reqs_str = deps.format_reqs(deps.priv_reqs) if len(reqs_str) > 0: ofile.write(f'Requires.private: {reqs_str}\n') if len(conflicts) > 0: ofile.write('Conflicts: {}\n'.format(' '.join(conflicts))) def generate_libs_flags(libs: T.List[LIBS]) -> T.Iterable[str]: msg = 'Library target {0!r} has {1!r} set. Compilers ' \ 'may not find it from its \'-l{2}\' linker flag in the ' \ '{3!r} pkg-config file.' Lflags = [] for l in libs: if isinstance(l, str): yield l else: install_dir: T.Union[str, bool] if uninstalled: install_dir = os.path.dirname(state.backend.get_target_filename_abs(l)) else: _i = l.get_custom_install_dir() install_dir = _i[0] if _i else None if install_dir is False: continue if isinstance(l, build.BuildTarget) and 'cs' in l.compilers: if isinstance(install_dir, str): Lflag = '-r{}/{}'.format(self._escape(self._make_relative(prefix, install_dir)), l.filename) else: # install_dir is True Lflag = '-r${libdir}/%s' % l.filename else: if isinstance(install_dir, str): Lflag = '-L{}'.format(self._escape(self._make_relative(prefix, install_dir))) else: # install_dir is True Lflag = '-L${libdir}' if Lflag not in Lflags: Lflags.append(Lflag) yield Lflag lname = self._get_lname(l, msg, pcfile) # If using a custom suffix, the compiler may not be able to # find the library if isinstance(l, build.BuildTarget) and l.name_suffix_set: mlog.warning(msg.format(l.name, 'name_suffix', lname, pcfile)) if isinstance(l, (build.CustomTarget, build.CustomTargetIndex)) or 'cs' not in l.compilers: yield f'-l{lname}' def get_uninstalled_include_dirs(libs: T.List[LIBS]) -> T.List[str]: result: T.List[str] = [] for l in libs: if isinstance(l, (str, build.CustomTarget, build.CustomTargetIndex)): continue if l.get_subdir() not in result: result.append(l.get_subdir()) for i in l.get_include_dirs(): curdir = i.get_curdir() for d in i.get_incdirs(): path = os.path.join(curdir, d) if path not in result: result.append(path) return result def generate_uninstalled_cflags(libs: T.List[LIBS]) -> T.Iterable[str]: for d in get_uninstalled_include_dirs(libs): for basedir in ['${prefix}', '${srcdir}']: path = PurePath(basedir, d) yield '-I%s' % self._escape(path.as_posix()) if len(deps.pub_libs) > 0: ofile.write('Libs: {}\n'.format(' '.join(generate_libs_flags(deps.pub_libs)))) if len(deps.priv_libs) > 0: ofile.write('Libs.private: {}\n'.format(' '.join(generate_libs_flags(deps.priv_libs)))) cflags: T.List[str] = [] if uninstalled: cflags += generate_uninstalled_cflags(deps.pub_libs + deps.priv_libs) else: for d in subdirs: if d == '.': cflags.append('-I${includedir}') else: cflags.append(self._escape(PurePath('-I${includedir}') / d)) cflags += [self._escape(f) for f in deps.cflags] if cflags and not dataonly: ofile.write('Cflags: {}\n'.format(' '.join(cflags))) @typed_pos_args('pkgconfig.generate', optargs=[(build.SharedLibrary, build.StaticLibrary)]) @typed_kwargs( 'pkgconfig.generate', D_MODULE_VERSIONS_KW.evolve(since='0.43.0'), INSTALL_DIR_KW, KwargInfo('conflicts', ContainerTypeInfo(list, str), default=[], listify=True), KwargInfo('dataonly', bool, default=False, since='0.54.0'), KwargInfo('description', (str, NoneType)), KwargInfo('extra_cflags', ContainerTypeInfo(list, str), default=[], listify=True, since='0.42.0'), KwargInfo('filebase', (str, NoneType), validator=lambda x: 'must not be an empty string' if x == '' else None), KwargInfo('name', (str, NoneType), validator=lambda x: 'must not be an empty string' if x == '' else None), KwargInfo('subdirs', ContainerTypeInfo(list, str), default=[], listify=True), KwargInfo('url', str, default=''), KwargInfo('version', (str, NoneType)), VARIABLES_KW.evolve(name="unescaped_uninstalled_variables", since='0.59.0'), VARIABLES_KW.evolve(name="unescaped_variables", since='0.59.0'), VARIABLES_KW.evolve(name="uninstalled_variables", since='0.54.0', since_values={dict: '0.56.0'}), VARIABLES_KW.evolve(since='0.41.0', since_values={dict: '0.56.0'}), _PKG_LIBRARIES, _PKG_LIBRARIES.evolve(name='libraries_private'), _PKG_REQUIRES, _PKG_REQUIRES.evolve(name='requires_private'), ) def generate(self, state: ModuleState, args: T.Tuple[T.Optional[T.Union[build.SharedLibrary, build.StaticLibrary]]], kwargs: GenerateKw) -> ModuleReturnValue: default_version = state.project_version default_install_dir: T.Optional[str] = None default_description: T.Optional[str] = None default_name: T.Optional[str] = None mainlib: T.Optional[T.Union[build.SharedLibrary, build.StaticLibrary]] = None default_subdirs = ['.'] if args[0]: FeatureNew.single_use('pkgconfig.generate optional positional argument', '0.46.0', state.subproject) mainlib = args[0] default_name = mainlib.name default_description = state.project_name + ': ' + mainlib.name install_dir = mainlib.get_custom_install_dir() if install_dir and isinstance(install_dir[0], str): default_install_dir = os.path.join(install_dir[0], 'pkgconfig') else: if kwargs['version'] is None: FeatureNew.single_use('pkgconfig.generate implicit version keyword', '0.46.0', state.subproject) if kwargs['name'] is None: raise build.InvalidArguments( 'pkgconfig.generate: if a library is not passed as a ' 'positional argument, the name keyword argument is ' 'required.') dataonly = kwargs['dataonly'] if dataonly: default_subdirs = [] blocked_vars = ['libraries', 'libraries_private', 'requires_private', 'extra_cflags', 'subdirs'] if any(kwargs[k] for k in blocked_vars): # type: ignore raise mesonlib.MesonException(f'Cannot combine dataonly with any of {blocked_vars}') default_install_dir = os.path.join(state.environment.get_datadir(), 'pkgconfig') subdirs = kwargs['subdirs'] or default_subdirs version = kwargs['version'] if kwargs['version'] is not None else default_version name = kwargs['name'] if kwargs['name'] is not None else default_name assert isinstance(name, str), 'for mypy' filebase = kwargs['filebase'] if kwargs['filebase'] is not None else name description = kwargs['description'] if kwargs['description'] is not None else default_description url = kwargs['url'] conflicts = kwargs['conflicts'] # Prepend the main library to public libraries list. This is required # so dep.add_pub_libs() can handle dependency ordering correctly and put # extra libraries after the main library. libraries = kwargs['libraries'].copy() if mainlib: libraries.insert(0, mainlib) deps = DependenciesHelper(state, filebase, self._metadata) deps.add_pub_libs(libraries) deps.add_priv_libs(kwargs['libraries_private']) deps.add_pub_reqs(kwargs['requires']) deps.add_priv_reqs(kwargs['requires_private']) deps.add_cflags(kwargs['extra_cflags']) dversions = kwargs['d_module_versions'] if dversions: compiler = state.environment.coredata.compilers.host.get('d') if compiler: deps.add_cflags(compiler.get_feature_args({'versions': dversions}, None)) deps.remove_dups() def parse_variable_list(vardict: T.Dict[str, str]) -> T.List[T.Tuple[str, str]]: reserved = ['prefix', 'libdir', 'includedir'] variables = [] for name, value in vardict.items(): if not dataonly and name in reserved: raise mesonlib.MesonException(f'Variable "{name}" is reserved') variables.append((name, value)) return variables variables = parse_variable_list(kwargs['variables']) unescaped_variables = parse_variable_list(kwargs['unescaped_variables']) pcfile = filebase + '.pc' pkgroot = pkgroot_name = kwargs['install_dir'] or default_install_dir if pkgroot is None: if mesonlib.is_freebsd(): pkgroot = os.path.join(_as_str(state.environment.coredata.get_option(mesonlib.OptionKey('prefix'))), 'libdata', 'pkgconfig') pkgroot_name = os.path.join('{prefix}', 'libdata', 'pkgconfig') else: pkgroot = os.path.join(_as_str(state.environment.coredata.get_option(mesonlib.OptionKey('libdir'))), 'pkgconfig') pkgroot_name = os.path.join('{libdir}', 'pkgconfig') relocatable = state.get_option('relocatable', module='pkgconfig') self._generate_pkgconfig_file(state, deps, subdirs, name, description, url, version, pcfile, conflicts, variables, unescaped_variables, False, dataonly, pkgroot=pkgroot if relocatable else None) res = build.Data([mesonlib.File(True, state.environment.get_scratch_dir(), pcfile)], pkgroot, pkgroot_name, None, state.subproject, install_tag='devel') variables = parse_variable_list(kwargs['uninstalled_variables']) unescaped_variables = parse_variable_list(kwargs['unescaped_uninstalled_variables']) pcfile = filebase + '-uninstalled.pc' self._generate_pkgconfig_file(state, deps, subdirs, name, description, url, version, pcfile, conflicts, variables, unescaped_variables, uninstalled=True, dataonly=dataonly) # Associate the main library with this generated pc file. If the library # is used in any subsequent call to the generated, it will generate a # 'Requires:' or 'Requires.private:'. # Backward compatibility: We used to set 'generated_pc' on all public # libraries instead of just the main one. Keep doing that but warn if # anyone is relying on that deprecated behaviour. if mainlib: if mainlib.get_id() not in self._metadata: self._metadata[mainlib.get_id()] = MetaData( filebase, name, state.current_node) else: mlog.warning('Already generated a pkg-config file for', mlog.bold(mainlib.name)) else: for lib in deps.pub_libs: if not isinstance(lib, str) and lib.get_id() not in self._metadata: self._metadata[lib.get_id()] = MetaData( filebase, name, state.current_node) return ModuleReturnValue(res, [res]) def initialize(interp: Interpreter) -> PkgConfigModule: return PkgConfigModule()