# SPDX-License-Identifier: Apache-2.0 # Copyright 2013-2024 Contributors to the The Meson project # Copyright © 2019-2024 Intel Corporation from __future__ import annotations from collections import OrderedDict from itertools import chain from functools import total_ordering import argparse import typing as T from .mesonlib import ( HoldableObject, default_prefix, default_datadir, default_includedir, default_infodir, default_libdir, default_libexecdir, default_localedir, default_mandir, default_sbindir, default_sysconfdir, MesonException, listify_array_value, MachineChoice, ) from . import mlog if T.TYPE_CHECKING: from typing_extensions import TypedDict class ArgparseKWs(TypedDict, total=False): action: str dest: str default: str choices: T.List DEFAULT_YIELDING = False # Can't bind this near the class method it seems, sadly. _T = T.TypeVar('_T') backendlist = ['ninja', 'vs', 'vs2010', 'vs2012', 'vs2013', 'vs2015', 'vs2017', 'vs2019', 'vs2022', 'xcode', 'none'] genvslitelist = ['vs2022'] buildtypelist = ['plain', 'debug', 'debugoptimized', 'release', 'minsize', 'custom'] # This is copied from coredata. There is no way to share this, because this # is used in the OptionKey constructor, and the coredata lists are # OptionKeys... _BUILTIN_NAMES = { 'prefix', 'bindir', 'datadir', 'includedir', 'infodir', 'libdir', 'licensedir', 'libexecdir', 'localedir', 'localstatedir', 'mandir', 'sbindir', 'sharedstatedir', 'sysconfdir', 'auto_features', 'backend', 'buildtype', 'debug', 'default_library', 'default_both_libraries', 'errorlogs', 'genvslite', 'install_umask', 'layout', 'optimization', 'prefer_static', 'stdsplit', 'strip', 'unity', 'unity_size', 'warning_level', 'werror', 'wrap_mode', 'force_fallback_for', 'pkg_config_path', 'cmake_prefix_path', 'vsenv', } @total_ordering class OptionKey: """Represents an option key in the various option dictionaries. This provides a flexible, powerful way to map option names from their external form (things like subproject:build.option) to something that internally easier to reason about and produce. """ __slots__ = ['name', 'subproject', 'machine', '_hash'] name: str subproject: str machine: MachineChoice _hash: int def __init__(self, name: str, subproject: str = '', machine: MachineChoice = MachineChoice.HOST): # the _type option to the constructor is kinda private. We want to be # able to save the state and avoid the lookup function when # pickling/unpickling, but we need to be able to calculate it when # constructing a new OptionKey object.__setattr__(self, 'name', name) object.__setattr__(self, 'subproject', subproject) object.__setattr__(self, 'machine', machine) object.__setattr__(self, '_hash', hash((name, subproject, machine))) def __setattr__(self, key: str, value: T.Any) -> None: raise AttributeError('OptionKey instances do not support mutation.') def __getstate__(self) -> T.Dict[str, T.Any]: return { 'name': self.name, 'subproject': self.subproject, 'machine': self.machine, } def __setstate__(self, state: T.Dict[str, T.Any]) -> None: """De-serialize the state of a pickle. This is very clever. __init__ is not a constructor, it's an initializer, therefore it's safe to call more than once. We create a state in the custom __getstate__ method, which is valid to pass splatted to the initializer. """ # Mypy doesn't like this, because it's so clever. self.__init__(**state) # type: ignore def __hash__(self) -> int: return self._hash def _to_tuple(self) -> T.Tuple[str, str, str, MachineChoice, str]: return (self.subproject, self.machine, self.name) def __eq__(self, other: object) -> bool: if isinstance(other, OptionKey): return self._to_tuple() == other._to_tuple() return NotImplemented def __lt__(self, other: object) -> bool: if isinstance(other, OptionKey): return self._to_tuple() < other._to_tuple() return NotImplemented def __str__(self) -> str: out = self.name if self.machine is MachineChoice.BUILD: out = f'build.{out}' if self.subproject: out = f'{self.subproject}:{out}' return out def __repr__(self) -> str: return f'OptionKey({self.name!r}, {self.subproject!r}, {self.machine!r})' @classmethod def from_string(cls, raw: str) -> 'OptionKey': """Parse the raw command line format into a three part tuple. This takes strings like `mysubproject:build.myoption` and Creates an OptionKey out of them. """ try: subproject, raw2 = raw.split(':') except ValueError: subproject, raw2 = '', raw for_machine = MachineChoice.HOST try: prefix, raw3 = raw2.split('.') if prefix == 'build': for_machine = MachineChoice.BUILD else: raw3 = raw2 except ValueError: raw3 = raw2 opt = raw3 assert ':' not in opt assert opt.count('.') < 2 return cls(opt, subproject, for_machine) def evolve(self, name: T.Optional[str] = None, subproject: T.Optional[str] = None, machine: T.Optional[MachineChoice] = None) -> 'OptionKey': """Create a new copy of this key, but with altered members. For example: >>> a = OptionKey('foo', '', MachineChoice.Host) >>> b = OptionKey('foo', 'bar', MachineChoice.Host) >>> b == a.evolve(subproject='bar') True """ # We have to be a little clever with lang here, because lang is valid # as None, for non-compiler options return OptionKey( name if name is not None else self.name, subproject if subproject is not None else self.subproject, machine if machine is not None else self.machine, ) def as_root(self) -> 'OptionKey': """Convenience method for key.evolve(subproject='').""" return self.evolve(subproject='') def as_build(self) -> 'OptionKey': """Convenience method for key.evolve(machine=MachineChoice.BUILD).""" return self.evolve(machine=MachineChoice.BUILD) def as_host(self) -> 'OptionKey': """Convenience method for key.evolve(machine=MachineChoice.HOST).""" return self.evolve(machine=MachineChoice.HOST) def is_project_hack_for_optionsview(self) -> bool: """This method will be removed once we can delete OptionsView.""" import sys sys.exit('FATAL internal error. This should not make it into an actual release. File a bug.') def has_module_prefix(self) -> bool: return '.' in self.name def get_module_prefix(self) -> T.Optional[str]: if self.has_module_prefix(): return self.name.split('.', 1)[0] return None def without_module_prefix(self) -> 'OptionKey': if self.has_module_prefix(): newname = self.name.split('.', 1)[1] return self.evolve(newname) return self class UserOption(T.Generic[_T], HoldableObject): def __init__(self, name: str, description: str, choices: T.Optional[T.Union[str, T.List[_T]]], yielding: bool, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__() self.name = name self.choices = choices self.description = description if not isinstance(yielding, bool): raise MesonException('Value of "yielding" must be a boolean.') self.yielding = yielding self.deprecated = deprecated self.readonly = False def listify(self, value: T.Any) -> T.List[T.Any]: return [value] def printable_value(self) -> T.Union[str, int, bool, T.List[T.Union[str, int, bool]]]: assert isinstance(self.value, (str, int, bool, list)) return self.value # Check that the input is a valid value and return the # "cleaned" or "native" version. For example the Boolean # option could take the string "true" and return True. def validate_value(self, value: T.Any) -> _T: raise RuntimeError('Derived option class did not override validate_value.') def set_value(self, newvalue: T.Any) -> bool: oldvalue = getattr(self, 'value', None) self.value = self.validate_value(newvalue) return self.value != oldvalue _U = T.TypeVar('_U', bound=UserOption[_T]) class UserStringOption(UserOption[str]): def __init__(self, name: str, description: str, value: T.Any, yielding: bool = DEFAULT_YIELDING, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__(name, description, None, yielding, deprecated) self.set_value(value) def validate_value(self, value: T.Any) -> str: if not isinstance(value, str): raise MesonException(f'The value of option "{self.name}" is "{value}", which is not a string.') return value class UserBooleanOption(UserOption[bool]): def __init__(self, name: str, description: str, value: bool, yielding: bool = DEFAULT_YIELDING, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__(name, description, [True, False], yielding, deprecated) self.set_value(value) def __bool__(self) -> bool: return self.value def validate_value(self, value: T.Any) -> bool: if isinstance(value, bool): return value if not isinstance(value, str): raise MesonException(f'Option "{self.name}" value {value} cannot be converted to a boolean') if value.lower() == 'true': return True if value.lower() == 'false': return False raise MesonException(f'Option "{self.name}" value {value} is not boolean (true or false).') class UserIntegerOption(UserOption[int]): def __init__(self, name: str, description: str, value: T.Any, yielding: bool = DEFAULT_YIELDING, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): min_value, max_value, default_value = value self.min_value = min_value self.max_value = max_value c: T.List[str] = [] if min_value is not None: c.append('>=' + str(min_value)) if max_value is not None: c.append('<=' + str(max_value)) choices = ', '.join(c) super().__init__(name, description, choices, yielding, deprecated) self.set_value(default_value) def validate_value(self, value: T.Any) -> int: if isinstance(value, str): value = self.toint(value) if not isinstance(value, int): raise MesonException(f'Value {value!r} for option "{self.name}" is not an integer.') if self.min_value is not None and value < self.min_value: raise MesonException(f'Value {value} for option "{self.name}" is less than minimum value {self.min_value}.') if self.max_value is not None and value > self.max_value: raise MesonException(f'Value {value} for option "{self.name}" is more than maximum value {self.max_value}.') return value def toint(self, valuestring: str) -> int: try: return int(valuestring) except ValueError: raise MesonException(f'Value string "{valuestring}" for option "{self.name}" is not convertible to an integer.') class OctalInt(int): # NinjaBackend.get_user_option_args uses str() to converts it to a command line option # UserUmaskOption.toint() uses int(str, 8) to convert it to an integer # So we need to use oct instead of dec here if we do not want values to be misinterpreted. def __str__(self) -> str: return oct(int(self)) class UserUmaskOption(UserIntegerOption, UserOption[T.Union[str, OctalInt]]): def __init__(self, name: str, description: str, value: T.Any, yielding: bool = DEFAULT_YIELDING, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__(name, description, (0, 0o777, value), yielding, deprecated) self.choices = ['preserve', '0000-0777'] def printable_value(self) -> str: if self.value == 'preserve': return self.value return format(self.value, '04o') def validate_value(self, value: T.Any) -> T.Union[str, OctalInt]: if value == 'preserve': return 'preserve' return OctalInt(super().validate_value(value)) def toint(self, valuestring: T.Union[str, OctalInt]) -> int: try: return int(valuestring, 8) except ValueError as e: raise MesonException(f'Invalid mode for option "{self.name}" {e}') class UserComboOption(UserOption[str]): def __init__(self, name: str, description: str, choices: T.List[str], value: T.Any, yielding: bool = DEFAULT_YIELDING, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__(name, description, choices, yielding, deprecated) if not isinstance(self.choices, list): raise MesonException(f'Combo choices for option "{self.name}" must be an array.') for i in self.choices: if not isinstance(i, str): raise MesonException(f'Combo choice elements for option "{self.name}" must be strings.') self.set_value(value) def validate_value(self, value: T.Any) -> str: if value not in self.choices: if isinstance(value, bool): _type = 'boolean' elif isinstance(value, (int, float)): _type = 'number' else: _type = 'string' optionsstring = ', '.join([f'"{item}"' for item in self.choices]) raise MesonException('Value "{}" (of type "{}") for option "{}" is not one of the choices.' ' Possible choices are (as string): {}.'.format( value, _type, self.name, optionsstring)) return value class UserArrayOption(UserOption[T.List[str]]): def __init__(self, name: str, description: str, value: T.Union[str, T.List[str]], split_args: bool = False, allow_dups: bool = False, yielding: bool = DEFAULT_YIELDING, choices: T.Optional[T.List[str]] = None, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__(name, description, choices if choices is not None else [], yielding, deprecated) self.split_args = split_args self.allow_dups = allow_dups self.set_value(value) def listify(self, value: T.Any) -> T.List[T.Any]: try: return listify_array_value(value, self.split_args) except MesonException as e: raise MesonException(f'error in option "{self.name}": {e!s}') def validate_value(self, value: T.Union[str, T.List[str]]) -> T.List[str]: newvalue = self.listify(value) if not self.allow_dups and len(set(newvalue)) != len(newvalue): msg = 'Duplicated values in array option is deprecated. ' \ 'This will become a hard error in meson 2.0.' mlog.deprecation(msg) for i in newvalue: if not isinstance(i, str): raise MesonException(f'String array element "{newvalue!s}" for option "{self.name}" is not a string.') if self.choices: bad = [x for x in newvalue if x not in self.choices] if bad: raise MesonException('Value{} "{}" for option "{}" {} not in allowed choices: "{}"'.format( '' if len(bad) == 1 else 's', ', '.join(bad), self.name, 'is' if len(bad) == 1 else 'are', ', '.join(self.choices)) ) return newvalue def extend_value(self, value: T.Union[str, T.List[str]]) -> None: """Extend the value with an additional value.""" new = self.validate_value(value) self.set_value(self.value + new) class UserFeatureOption(UserComboOption): static_choices = ['enabled', 'disabled', 'auto'] def __init__(self, name: str, description: str, value: T.Any, yielding: bool = DEFAULT_YIELDING, deprecated: T.Union[bool, str, T.Dict[str, str], T.List[str]] = False): super().__init__(name, description, self.static_choices, value, yielding, deprecated) self.name: T.Optional[str] = None # TODO: Refactor options to all store their name def is_enabled(self) -> bool: return self.value == 'enabled' def is_disabled(self) -> bool: return self.value == 'disabled' def is_auto(self) -> bool: return self.value == 'auto' class UserStdOption(UserComboOption): ''' UserOption specific to c_std and cpp_std options. User can set a list of STDs in preference order and it selects the first one supported by current compiler. For historical reasons, some compilers (msvc) allowed setting a GNU std and silently fell back to C std. This is now deprecated. Projects that support both GNU and MSVC compilers should set e.g. c_std=gnu11,c11. This is not using self.deprecated mechanism we already have for project options because we want to print a warning if ALL values are deprecated, not if SOME values are deprecated. ''' def __init__(self, lang: str, all_stds: T.List[str]) -> None: self.lang = lang.lower() self.all_stds = ['none'] + all_stds # Map a deprecated std to its replacement. e.g. gnu11 -> c11. self.deprecated_stds: T.Dict[str, str] = {} opt_name = 'cpp_std' if lang == 'c++' else f'{lang}_std' super().__init__(opt_name, f'{lang} language standard to use', ['none'], 'none') def set_versions(self, versions: T.List[str], gnu: bool = False, gnu_deprecated: bool = False) -> None: assert all(std in self.all_stds for std in versions) self.choices += versions if gnu: gnu_stds_map = {f'gnu{std[1:]}': std for std in versions} if gnu_deprecated: self.deprecated_stds.update(gnu_stds_map) else: self.choices += gnu_stds_map.keys() def validate_value(self, value: T.Union[str, T.List[str]]) -> str: try: candidates = listify_array_value(value) except MesonException as e: raise MesonException(f'error in option "{self.name}": {e!s}') unknown = ','.join(std for std in candidates if std not in self.all_stds) if unknown: raise MesonException(f'Unknown option "{self.name}" value {unknown}. Possible values are {self.all_stds}.') # Check first if any of the candidates are not deprecated for std in candidates: if std in self.choices: return std # Fallback to a deprecated std if any for std in candidates: newstd = self.deprecated_stds.get(std) if newstd is not None: mlog.deprecation( f'None of the values {candidates} are supported by the {self.lang} compiler.\n' + f'However, the deprecated {std} std currently falls back to {newstd}.\n' + 'This will be an error in meson 2.0.\n' + 'If the project supports both GNU and MSVC compilers, a value such as\n' + '"c_std=gnu11,c11" specifies that GNU is preferred but it can safely fallback to plain c11.') return newstd raise MesonException(f'None of values {candidates} are supported by the {self.lang.upper()} compiler. ' + f'Possible values for option "{self.name}" are {self.choices}') class BuiltinOption(T.Generic[_T, _U]): """Class for a builtin option type. There are some cases that are not fully supported yet. """ def __init__(self, opt_type: T.Type[_U], description: str, default: T.Any, yielding: bool = True, *, choices: T.Any = None, readonly: bool = False): self.opt_type = opt_type self.description = description self.default = default self.choices = choices self.yielding = yielding self.readonly = readonly def init_option(self, name: 'OptionKey', value: T.Optional[T.Any], prefix: str) -> _U: """Create an instance of opt_type and return it.""" if value is None: value = self.prefixed_default(name, prefix) keywords = {'yielding': self.yielding, 'value': value} if self.choices: keywords['choices'] = self.choices o = self.opt_type(name.name, self.description, **keywords) o.readonly = self.readonly return o def _argparse_action(self) -> T.Optional[str]: # If the type is a boolean, the presence of the argument in --foo form # is to enable it. Disabling happens by using -Dfoo=false, which is # parsed under `args.projectoptions` and does not hit this codepath. if isinstance(self.default, bool): return 'store_true' return None def _argparse_choices(self) -> T.Any: if self.opt_type is UserBooleanOption: return [True, False] elif self.opt_type is UserFeatureOption: return UserFeatureOption.static_choices return self.choices @staticmethod def argparse_name_to_arg(name: str) -> str: if name == 'warning_level': return '--warnlevel' else: return '--' + name.replace('_', '-') def prefixed_default(self, name: 'OptionKey', prefix: str = '') -> T.Any: if self.opt_type in [UserComboOption, UserIntegerOption]: return self.default try: return BUILTIN_DIR_NOPREFIX_OPTIONS[name][prefix] except KeyError: pass return self.default def add_to_argparse(self, name: str, parser: argparse.ArgumentParser, help_suffix: str) -> None: kwargs: ArgparseKWs = {} c = self._argparse_choices() b = self._argparse_action() h = self.description if not b: h = '{} (default: {}).'.format(h.rstrip('.'), self.prefixed_default(name)) else: kwargs['action'] = b if c and not b: kwargs['choices'] = c kwargs['default'] = argparse.SUPPRESS kwargs['dest'] = name cmdline_name = self.argparse_name_to_arg(name) parser.add_argument(cmdline_name, help=h + help_suffix, **kwargs) # Update `docs/markdown/Builtin-options.md` after changing the options below # Also update mesonlib._BUILTIN_NAMES. See the comment there for why this is required. # Please also update completion scripts in $MESONSRC/data/shell-completions/ BUILTIN_DIR_OPTIONS: T.Dict['OptionKey', 'BuiltinOption'] = OrderedDict([ (OptionKey('prefix'), BuiltinOption(UserStringOption, 'Installation prefix', default_prefix())), (OptionKey('bindir'), BuiltinOption(UserStringOption, 'Executable directory', 'bin')), (OptionKey('datadir'), BuiltinOption(UserStringOption, 'Data file directory', default_datadir())), (OptionKey('includedir'), BuiltinOption(UserStringOption, 'Header file directory', default_includedir())), (OptionKey('infodir'), BuiltinOption(UserStringOption, 'Info page directory', default_infodir())), (OptionKey('libdir'), BuiltinOption(UserStringOption, 'Library directory', default_libdir())), (OptionKey('licensedir'), BuiltinOption(UserStringOption, 'Licenses directory', '')), (OptionKey('libexecdir'), BuiltinOption(UserStringOption, 'Library executable directory', default_libexecdir())), (OptionKey('localedir'), BuiltinOption(UserStringOption, 'Locale data directory', default_localedir())), (OptionKey('localstatedir'), BuiltinOption(UserStringOption, 'Localstate data directory', 'var')), (OptionKey('mandir'), BuiltinOption(UserStringOption, 'Manual page directory', default_mandir())), (OptionKey('sbindir'), BuiltinOption(UserStringOption, 'System executable directory', default_sbindir())), (OptionKey('sharedstatedir'), BuiltinOption(UserStringOption, 'Architecture-independent data directory', 'com')), (OptionKey('sysconfdir'), BuiltinOption(UserStringOption, 'Sysconf data directory', default_sysconfdir())), ]) BUILTIN_CORE_OPTIONS: T.Dict['OptionKey', 'BuiltinOption'] = OrderedDict([ (OptionKey('auto_features'), BuiltinOption(UserFeatureOption, "Override value of all 'auto' features", 'auto')), (OptionKey('backend'), BuiltinOption(UserComboOption, 'Backend to use', 'ninja', choices=backendlist, readonly=True)), (OptionKey('genvslite'), BuiltinOption( UserComboOption, 'Setup multiple buildtype-suffixed ninja-backend build directories, ' 'and a [builddir]_vs containing a Visual Studio meta-backend with multiple configurations that calls into them', 'vs2022', choices=genvslitelist) ), (OptionKey('buildtype'), BuiltinOption(UserComboOption, 'Build type to use', 'debug', choices=buildtypelist)), (OptionKey('debug'), BuiltinOption(UserBooleanOption, 'Enable debug symbols and other information', True)), (OptionKey('default_library'), BuiltinOption(UserComboOption, 'Default library type', 'shared', choices=['shared', 'static', 'both'], yielding=False)), (OptionKey('default_both_libraries'), BuiltinOption(UserComboOption, 'Default library type for both_libraries', 'shared', choices=['shared', 'static', 'auto'])), (OptionKey('errorlogs'), BuiltinOption(UserBooleanOption, "Whether to print the logs from failing tests", True)), (OptionKey('install_umask'), BuiltinOption(UserUmaskOption, 'Default umask to apply on permissions of installed files', '022')), (OptionKey('layout'), BuiltinOption(UserComboOption, 'Build directory layout', 'mirror', choices=['mirror', 'flat'])), (OptionKey('optimization'), BuiltinOption(UserComboOption, 'Optimization level', '0', choices=['plain', '0', 'g', '1', '2', '3', 's'])), (OptionKey('prefer_static'), BuiltinOption(UserBooleanOption, 'Whether to try static linking before shared linking', False)), (OptionKey('stdsplit'), BuiltinOption(UserBooleanOption, 'Split stdout and stderr in test logs', True)), (OptionKey('strip'), BuiltinOption(UserBooleanOption, 'Strip targets on install', False)), (OptionKey('unity'), BuiltinOption(UserComboOption, 'Unity build', 'off', choices=['on', 'off', 'subprojects'])), (OptionKey('unity_size'), BuiltinOption(UserIntegerOption, 'Unity block size', (2, None, 4))), (OptionKey('warning_level'), BuiltinOption(UserComboOption, 'Compiler warning level to use', '1', choices=['0', '1', '2', '3', 'everything'], yielding=False)), (OptionKey('werror'), BuiltinOption(UserBooleanOption, 'Treat warnings as errors', False, yielding=False)), (OptionKey('wrap_mode'), BuiltinOption(UserComboOption, 'Wrap mode', 'default', choices=['default', 'nofallback', 'nodownload', 'forcefallback', 'nopromote'])), (OptionKey('force_fallback_for'), BuiltinOption(UserArrayOption, 'Force fallback for those subprojects', [])), (OptionKey('vsenv'), BuiltinOption(UserBooleanOption, 'Activate Visual Studio environment', False, readonly=True)), # Pkgconfig module (OptionKey('pkgconfig.relocatable'), BuiltinOption(UserBooleanOption, 'Generate pkgconfig files as relocatable', False)), # Python module (OptionKey('python.bytecompile'), BuiltinOption(UserIntegerOption, 'Whether to compile bytecode', (-1, 2, 0))), (OptionKey('python.install_env'), BuiltinOption(UserComboOption, 'Which python environment to install to', 'prefix', choices=['auto', 'prefix', 'system', 'venv'])), (OptionKey('python.platlibdir'), BuiltinOption(UserStringOption, 'Directory for site-specific, platform-specific files.', '')), (OptionKey('python.purelibdir'), BuiltinOption(UserStringOption, 'Directory for site-specific, non-platform-specific files.', '')), (OptionKey('python.allow_limited_api'), BuiltinOption(UserBooleanOption, 'Whether to allow use of the Python Limited API', True)), ]) BUILTIN_OPTIONS = OrderedDict(chain(BUILTIN_DIR_OPTIONS.items(), BUILTIN_CORE_OPTIONS.items())) BUILTIN_OPTIONS_PER_MACHINE: T.Dict['OptionKey', 'BuiltinOption'] = OrderedDict([ (OptionKey('pkg_config_path'), BuiltinOption(UserArrayOption, 'List of additional paths for pkg-config to search', [])), (OptionKey('cmake_prefix_path'), BuiltinOption(UserArrayOption, 'List of additional prefixes for cmake to search', [])), ]) # Special prefix-dependent defaults for installation directories that reside in # a path outside of the prefix in FHS and common usage. BUILTIN_DIR_NOPREFIX_OPTIONS: T.Dict[OptionKey, T.Dict[str, str]] = { OptionKey('sysconfdir'): {'/usr': '/etc'}, OptionKey('localstatedir'): {'/usr': '/var', '/usr/local': '/var/local'}, OptionKey('sharedstatedir'): {'/usr': '/var/lib', '/usr/local': '/var/local/lib'}, OptionKey('python.platlibdir'): {}, OptionKey('python.purelibdir'): {}, } class OptionStore: def __init__(self) -> None: self.d: T.Dict['OptionKey', 'UserOption[T.Any]'] = {} self.project_options: T.Set[OptionKey] = set() self.module_options: T.Set[OptionKey] = set() from .compilers import all_languages self.all_languages = set(all_languages) def __len__(self) -> int: return len(self.d) def ensure_key(self, key: T.Union[OptionKey, str]) -> OptionKey: if isinstance(key, str): return OptionKey(key) return key def get_value_object(self, key: T.Union[OptionKey, str]) -> 'UserOption[T.Any]': return self.d[self.ensure_key(key)] def get_value(self, key: T.Union[OptionKey, str]) -> 'T.Any': return self.get_value_object(key).value def add_system_option(self, key: T.Union[OptionKey, str], valobj: 'UserOption[T.Any]') -> None: key = self.ensure_key(key) if '.' in key.name: raise MesonException(f'Internal error: non-module option has a period in its name {key.name}.') self.add_system_option_internal(key, valobj) def add_system_option_internal(self, key: T.Union[OptionKey, str], valobj: 'UserOption[T.Any]') -> None: key = self.ensure_key(key) assert isinstance(valobj, UserOption) self.d[key] = valobj def add_compiler_option(self, language: str, key: T.Union[OptionKey, str], valobj: 'UserOption[T.Any]') -> None: key = self.ensure_key(key) if not key.name.startswith(language + '_'): raise MesonException(f'Internal error: all compiler option names must start with language prefix. ({key.name} vs {language}_)') self.add_system_option(key, valobj) def add_project_option(self, key: T.Union[OptionKey, str], valobj: 'UserOption[T.Any]') -> None: key = self.ensure_key(key) self.d[key] = valobj self.project_options.add(key) def add_module_option(self, modulename: str, key: T.Union[OptionKey, str], valobj: 'UserOption[T.Any]') -> None: key = self.ensure_key(key) if key.name.startswith('build.'): raise MesonException('FATAL internal error: somebody goofed option handling.') if not key.name.startswith(modulename + '.'): raise MesonException('Internal error: module option name {key.name} does not start with module prefix {modulename}.') self.add_system_option_internal(key, valobj) self.module_options.add(key) def set_value(self, key: T.Union[OptionKey, str], new_value: 'T.Any') -> bool: key = self.ensure_key(key) return self.d[key].set_value(new_value) # FIXME, this should be removed.or renamed to "change_type_of_existing_object" or something like that def set_value_object(self, key: T.Union[OptionKey, str], new_object: 'UserOption[T.Any]') -> None: key = self.ensure_key(key) self.d[key] = new_object def remove(self, key: OptionKey) -> None: del self.d[key] def __contains__(self, key: OptionKey) -> bool: key = self.ensure_key(key) return key in self.d def __repr__(self) -> str: return repr(self.d) def keys(self) -> T.KeysView[OptionKey]: return self.d.keys() def values(self) -> T.ValuesView[UserOption[T.Any]]: return self.d.values() def items(self) -> T.ItemsView['OptionKey', 'UserOption[T.Any]']: return self.d.items() # FIXME: this method must be deleted and users moved to use "add_xxx_option"s instead. def update(self, **kwargs: UserOption[T.Any]) -> None: self.d.update(**kwargs) def setdefault(self, k: OptionKey, o: UserOption[T.Any]) -> UserOption[T.Any]: return self.d.setdefault(k, o) def get(self, o: OptionKey, default: T.Optional[UserOption[T.Any]] = None) -> T.Optional[UserOption[T.Any]]: return self.d.get(o, default) def is_project_option(self, key: OptionKey) -> bool: """Convenience method to check if this is a project option.""" return key in self.project_options def is_reserved_name(self, key: OptionKey) -> bool: if key.name in _BUILTIN_NAMES: return True if '_' not in key.name: return False prefix = key.name.split('_')[0] # Pylint seems to think that it is faster to build a set object # and all related work just to test whether a string has one of two # values. It is not, thank you very much. if prefix in ('b', 'backend'): # pylint: disable=R6201 return True if prefix in self.all_languages: return True return False def is_builtin_option(self, key: OptionKey) -> bool: """Convenience method to check if this is a builtin option.""" return key.name in _BUILTIN_NAMES or self.is_module_option(key) def is_base_option(self, key: OptionKey) -> bool: """Convenience method to check if this is a base option.""" return key.name.startswith('b_') def is_backend_option(self, key: OptionKey) -> bool: """Convenience method to check if this is a backend option.""" return key.name.startswith('backend_') def is_compiler_option(self, key: OptionKey) -> bool: """Convenience method to check if this is a compiler option.""" # FIXME, duplicate of is_reserved_name above. Should maybe store a cache instead. if '_' not in key.name: return False prefix = key.name.split('_')[0] if prefix in self.all_languages: return True return False def is_module_option(self, key: OptionKey) -> bool: return key in self.module_options