meson/mesonbuild/interpreter/interpreterobjects.py

import os
import shlex
import subprocess
import copy
import textwrap

from pathlib import Path, PurePath

from .. import mesonlib
from .. import coredata
from .. import build
from .. import mlog

from ..modules import ModuleReturnValue, ModuleObject, ModuleState, ExtensionModule
from ..backend.backends import TestProtocol
from ..interpreterbase import (
                               ContainerTypeInfo, KwargInfo, MesonOperator,
                               InterpreterObject, MesonInterpreterObject, ObjectHolder, MutableInterpreterObject,
                               FeatureCheckBase, FeatureNewKwargs, FeatureNew, FeatureDeprecated,
                               typed_pos_args, typed_kwargs, typed_operator, permittedKwargs,
                               noArgsFlattening, noPosargs, noKwargs, unholder_return, TYPE_var, TYPE_kwargs, TYPE_nvar, TYPE_nkwargs,
                               flatten, resolve_second_level_holders, InterpreterException, InvalidArguments, InvalidCode)
from ..interpreter.type_checking import NoneType
from ..dependencies import Dependency, ExternalLibrary, InternalDependency
from ..programs import ExternalProgram
from ..mesonlib import HoldableObject, MesonException, OptionKey, listify, Popen_safe

import typing as T

if T.TYPE_CHECKING:
    from . import kwargs
    from .interpreter import Interpreter
    from ..envconfig import MachineInfo

    from typing_extensions import TypedDict

    class EnvironmentSeparatorKW(TypedDict):

        separator: str


def extract_required_kwarg(kwargs: 'kwargs.ExtractRequired',
                           subproject: str,
                           feature_check: T.Optional[FeatureCheckBase] = None,
                           default: bool = True) -> T.Tuple[bool, bool, T.Optional[str]]:
    val = kwargs.get('required', default)
    disabled = False
    required = False
    feature: T.Optional[str] = None
    if isinstance(val, coredata.UserFeatureOption):
        if not feature_check:
            feature_check = FeatureNew('User option "feature"', '0.47.0')
        feature_check.use(subproject)
        feature = val.name
        if val.is_disabled():
            disabled = True
        elif val.is_enabled():
            required = True
    elif isinstance(val, bool):
        required = val
    else:
        raise InterpreterException('required keyword argument must be boolean or a feature option')

    # Keep boolean value in kwargs to simplify other places where this kwarg is
    # checked.
    # TODO: this should be removed, and those callers should learn about FeatureOptions
    kwargs['required'] = required

    return disabled, required, feature

def extract_search_dirs(kwargs: 'kwargs.ExtractSearchDirs') -> T.List[str]:
    search_dirs_str = mesonlib.stringlistify(kwargs.get('dirs', []))
    search_dirs = [Path(d).expanduser() for d in search_dirs_str]
    for d in search_dirs:
        if mesonlib.is_windows() and d.root.startswith('\\'):
            # a Unix-path starting with `/` that is not absolute on Windows.
            # discard without failing for end-user ease of cross-platform directory arrays
            continue
        if not d.is_absolute():
            raise InvalidCode(f'Search directory {d} is not an absolute path.')
    return list(map(str, search_dirs))

class FeatureOptionHolder(ObjectHolder[coredata.UserFeatureOption]):
    def __init__(self, option: coredata.UserFeatureOption, interpreter: 'Interpreter'):
        super().__init__(option, interpreter)
        if option and option.is_auto():
            # TODO: we need to case here because options is not a TypedDict
            self.held_object = T.cast(coredata.UserFeatureOption, self.env.coredata.options[OptionKey('auto_features')])
            self.held_object.name = option.name
        self.methods.update({'enabled': self.enabled_method,
                             'disabled': self.disabled_method,
                             'allowed': self.allowed_method,
                             'auto': self.auto_method,
                             'require': self.require_method,
                             'disable_auto_if': self.disable_auto_if_method,
                             })

    @property
    def value(self) -> str:
        return 'disabled' if not self.held_object else self.held_object.value

    def as_disabled(self) -> coredata.UserFeatureOption:
        disabled = copy.deepcopy(self.held_object)
        disabled.value = 'disabled'
        return disabled

    @noPosargs
    @noKwargs
    def enabled_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.value == 'enabled'

    @noPosargs
    @noKwargs
    def disabled_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.value == 'disabled'

    @noPosargs
    @noKwargs
    def allowed_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.value != 'disabled'

    @noPosargs
    @noKwargs
    def auto_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.value == 'auto'

    @permittedKwargs({'error_message'})
    def require_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> coredata.UserFeatureOption:
        if len(args) != 1:
            raise InvalidArguments('Expected 1 argument, got %d.' % (len(args), ))
        if not isinstance(args[0], bool):
            raise InvalidArguments('boolean argument expected.')
        error_message = kwargs.pop('error_message', '')
        if error_message and not isinstance(error_message, str):
            raise InterpreterException("Error message must be a string.")
        if args[0]:
            return copy.deepcopy(self.held_object)

        assert isinstance(error_message, str)
        if self.value == 'enabled':
            prefix = f'Feature {self.held_object.name} cannot be enabled'
            prefix = prefix + ': ' if error_message else ''
            raise InterpreterException(prefix + error_message)
        return self.as_disabled()

    @noKwargs
    def disable_auto_if_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> coredata.UserFeatureOption:
        if len(args) != 1:
            raise InvalidArguments('Expected 1 argument, got %d.' % (len(args), ))
        if not isinstance(args[0], bool):
            raise InvalidArguments('boolean argument expected.')
        return copy.deepcopy(self.held_object) if self.value != 'auto' or not args[0] else self.as_disabled()


class RunProcess(MesonInterpreterObject):

    def __init__(self,
                 cmd: ExternalProgram,
                 args: T.List[str],
                 env: build.EnvironmentVariables,
                 source_dir: str,
                 build_dir: str,
                 subdir: str,
                 mesonintrospect: T.List[str],
                 in_builddir: bool = False,
                 check: bool = False,
                 capture: bool = True) -> None:
        super().__init__()
        if not isinstance(cmd, ExternalProgram):
            raise AssertionError('BUG: RunProcess must be passed an ExternalProgram')
        self.capture = capture
        self.returncode, self.stdout, self.stderr = self.run_command(cmd, args, env, source_dir, build_dir, subdir, mesonintrospect, in_builddir, check)
        self.methods.update({'returncode': self.returncode_method,
                             'stdout': self.stdout_method,
                             'stderr': self.stderr_method,
                             })

    def run_command(self,
                    cmd: ExternalProgram,
                    args: T.List[str],
                    env: build.EnvironmentVariables,
                    source_dir: str,
                    build_dir: str,
                    subdir: str,
                    mesonintrospect: T.List[str],
                    in_builddir: bool,
                    check: bool = False) -> T.Tuple[int, str, str]:
        command_array = cmd.get_command() + args
        menv = {'MESON_SOURCE_ROOT': source_dir,
                'MESON_BUILD_ROOT': build_dir,
                'MESON_SUBDIR': subdir,
                'MESONINTROSPECT': ' '.join([shlex.quote(x) for x in mesonintrospect]),
                }
        if in_builddir:
            cwd = os.path.join(build_dir, subdir)
        else:
            cwd = os.path.join(source_dir, subdir)
        child_env = os.environ.copy()
        child_env.update(menv)
        child_env = env.get_env(child_env)
        stdout = subprocess.PIPE if self.capture else subprocess.DEVNULL
        mlog.debug('Running command:', ' '.join(command_array))
        try:
            p, o, e = Popen_safe(command_array, stdout=stdout, env=child_env, cwd=cwd)
            if self.capture:
                mlog.debug('--- stdout ---')
                mlog.debug(o)
            else:
                o = ''
                mlog.debug('--- stdout disabled ---')
            mlog.debug('--- stderr ---')
            mlog.debug(e)
            mlog.debug('')

            if check and p.returncode != 0:
                raise InterpreterException('Command "{}" failed with status {}.'.format(' '.join(command_array), p.returncode))

            return p.returncode, o, e
        except FileNotFoundError:
            raise InterpreterException('Could not execute command "%s".' % ' '.join(command_array))

    @noPosargs
    @noKwargs
    def returncode_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> int:
        return self.returncode

    @noPosargs
    @noKwargs
    def stdout_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.stdout

    @noPosargs
    @noKwargs
    def stderr_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.stderr


_ENV_SEPARATOR_KW = KwargInfo('separator', str, default=os.pathsep)


class EnvironmentVariablesHolder(ObjectHolder[build.EnvironmentVariables], MutableInterpreterObject):

    def __init__(self, obj: build.EnvironmentVariables, interpreter: 'Interpreter'):
        super().__init__(obj, interpreter)
        self.methods.update({'set': self.set_method,
                             'append': self.append_method,
                             'prepend': self.prepend_method,
                             })

    def __repr__(self) -> str:
        repr_str = "<{0}: {1}>"
        return repr_str.format(self.__class__.__name__, self.held_object.envvars)

    def __deepcopy__(self, memo: T.Dict[str, object]) -> 'EnvironmentVariablesHolder':
        # Avoid trying to copy the intepreter
        return EnvironmentVariablesHolder(copy.deepcopy(self.held_object), self.interpreter)

    def warn_if_has_name(self, name: str) -> None:
        # Multiple append/prepend operations was not supported until 0.58.0.
        if self.held_object.has_name(name):
            m = f'Overriding previous value of environment variable {name!r} with a new one'
            FeatureNew('0.58.0', m).use(self.subproject)

    @typed_pos_args('environment.set', str, varargs=str, min_varargs=1)
    @typed_kwargs('environment.set', _ENV_SEPARATOR_KW)
    def set_method(self, args: T.Tuple[str, T.List[str]], kwargs: 'EnvironmentSeparatorKW') -> None:
        name, values = args
        self.held_object.set(name, values, kwargs['separator'])

    @typed_pos_args('environment.append', str, varargs=str, min_varargs=1)
    @typed_kwargs('environment.append', _ENV_SEPARATOR_KW)
    def append_method(self, args: T.Tuple[str, T.List[str]], kwargs: 'EnvironmentSeparatorKW') -> None:
        name, values = args
        self.warn_if_has_name(name)
        self.held_object.append(name, values, kwargs['separator'])

    @typed_pos_args('environment.prepend', str, varargs=str, min_varargs=1)
    @typed_kwargs('environment.prepend', _ENV_SEPARATOR_KW)
    def prepend_method(self, args: T.Tuple[str, T.List[str]], kwargs: 'EnvironmentSeparatorKW') -> None:
        name, values = args
        self.warn_if_has_name(name)
        self.held_object.prepend(name, values, kwargs['separator'])


class ConfigurationDataObject(MutableInterpreterObject, MesonInterpreterObject):
    def __init__(self, subproject: str, initial_values: T.Optional[T.Dict[str, T.Any]] = None) -> None:
        self.used = False # These objects become immutable after use in configure_file.
        super().__init__(subproject=subproject)
        self.conf_data = build.ConfigurationData()
        self.methods.update({'set': self.set_method,
                             'set10': self.set10_method,
                             'set_quoted': self.set_quoted_method,
                             'has': self.has_method,
                             'get': self.get_method,
                             'keys': self.keys_method,
                             'get_unquoted': self.get_unquoted_method,
                             'merge_from': self.merge_from_method,
                             })
        if isinstance(initial_values, dict):
            for k, v in initial_values.items():
                self.set_method([k, v], {})
        elif initial_values:
            raise AssertionError('Unsupported ConfigurationDataObject initial_values')

    def is_used(self) -> bool:
        return self.used

    def mark_used(self) -> None:
        self.used = True

    def validate_args(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> T.Tuple[str, T.Union[str, int, bool], T.Optional[str]]:
        if len(args) == 1 and isinstance(args[0], list) and len(args[0]) == 2:
            mlog.deprecation('Passing a list as the single argument to '
                             'configuration_data.set is deprecated. This will '
                             'become a hard error in the future.',
                             location=self.current_node)
            args = args[0]

        if len(args) != 2:
            raise InterpreterException("Configuration set requires 2 arguments.")
        if self.used:
            raise InterpreterException("Can not set values on configuration object that has been used.")
        name, val = args
        if not isinstance(val, (int, str)):
            msg = f'Setting a configuration data value to {val!r} is invalid, ' \
                  'and will fail at configure_file(). If you are using it ' \
                  'just to store some values, please use a dict instead.'
            mlog.deprecation(msg, location=self.current_node)
        desc = kwargs.get('description', None)
        if not isinstance(name, str):
            raise InterpreterException("First argument to set must be a string.")
        if desc is not None and not isinstance(desc, str):
            raise InterpreterException('Description must be a string.')

        # TODO: Remove the cast once we get rid of the deprecation
        return name, T.cast(T.Union[str, bool, int], val), desc

    @noArgsFlattening
    def set_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> None:
        (name, val, desc) = self.validate_args(args, kwargs)
        self.conf_data.values[name] = (val, desc)

    def set_quoted_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> None:
        (name, val, desc) = self.validate_args(args, kwargs)
        if not isinstance(val, str):
            raise InterpreterException("Second argument to set_quoted must be a string.")
        escaped_val = '\\"'.join(val.split('"'))
        self.conf_data.values[name] = ('"' + escaped_val + '"', desc)

    def set10_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> None:
        (name, val, desc) = self.validate_args(args, kwargs)
        if val:
            self.conf_data.values[name] = (1, desc)
        else:
            self.conf_data.values[name] = (0, desc)

    def has_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return args[0] in self.conf_data.values

    @FeatureNew('configuration_data.get()', '0.38.0')
    @noArgsFlattening
    def get_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> T.Union[str, int, bool]:
        if len(args) < 1 or len(args) > 2:
            raise InterpreterException('Get method takes one or two arguments.')
        if not isinstance(args[0], str):
            raise InterpreterException('The variable name must be a string.')
        name = args[0]
        if name in self.conf_data:
            return self.conf_data.get(name)[0]
        if len(args) > 1:
            # Assertion does not work because setting other values is still
            # supported, but deprecated. Use T.cast in the meantime (even though
            # this is a lie).
            # TODO: Fix this once the deprecation is removed
            # assert isinstance(args[1], (int, str, bool))
            return T.cast(T.Union[str, int, bool], args[1])
        raise InterpreterException('Entry %s not in configuration data.' % name)

    @FeatureNew('configuration_data.get_unquoted()', '0.44.0')
    def get_unquoted_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> T.Union[str, int, bool]:
        if len(args) < 1 or len(args) > 2:
            raise InterpreterException('Get method takes one or two arguments.')
        if not isinstance(args[0], str):
            raise InterpreterException('The variable name must be a string.')
        name = args[0]
        if name in self.conf_data:
            val = self.conf_data.get(name)[0]
        elif len(args) > 1:
            assert isinstance(args[1], (str, int, bool))
            val = args[1]
        else:
            raise InterpreterException('Entry %s not in configuration data.' % name)
        if isinstance(val, str) and val[0] == '"' and val[-1] == '"':
            return val[1:-1]
        return val

    def get(self, name: str) -> T.Tuple[T.Union[str, int, bool], T.Optional[str]]:
        return self.conf_data.values[name]

    @FeatureNew('configuration_data.keys()', '0.57.0')
    @noPosargs
    def keys_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> T.List[str]:
        return sorted(self.keys())

    def keys(self) -> T.List[str]:
        return list(self.conf_data.values.keys())

    def merge_from_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> None:
        if len(args) != 1:
            raise InterpreterException('Merge_from takes one positional argument.')
        from_object_holder = args[0]
        if not isinstance(from_object_holder, ConfigurationDataObject):
            raise InterpreterException('Merge_from argument must be a configuration data object.')
        from_object = from_object_holder.conf_data
        for k, v in from_object.values.items():
            self.conf_data.values[k] = v


_PARTIAL_DEP_KWARGS = [
    KwargInfo('compile_args', bool, default=False),
    KwargInfo('link_args',    bool, default=False),
    KwargInfo('links',        bool, default=False),
    KwargInfo('includes',     bool, default=False),
    KwargInfo('sources',      bool, default=False),
]

class DependencyHolder(ObjectHolder[Dependency]):
    def __init__(self, dep: Dependency, interpreter: 'Interpreter'):
        super().__init__(dep, interpreter)
        self.methods.update({'found': self.found_method,
                             'type_name': self.type_name_method,
                             'version': self.version_method,
                             'name': self.name_method,
                             'get_pkgconfig_variable': self.pkgconfig_method,
                             'get_configtool_variable': self.configtool_method,
                             'get_variable': self.variable_method,
                             'partial_dependency': self.partial_dependency_method,
                             'include_type': self.include_type_method,
                             'as_system': self.as_system_method,
                             'as_link_whole': self.as_link_whole_method,
                             })

    def found(self) -> bool:
        return self.found_method([], {})

    @noPosargs
    @noKwargs
    def type_name_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.type_name

    @noPosargs
    @noKwargs
    def found_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        if self.held_object.type_name == 'internal':
            return True
        return self.held_object.found()

    @noPosargs
    @noKwargs
    def version_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.get_version()

    @noPosargs
    @noKwargs
    def name_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.get_name()

    @FeatureDeprecated('Dependency.get_pkgconfig_variable', '0.56.0',
                       'use Dependency.get_variable(pkgconfig : ...) instead')
    @permittedKwargs({'define_variable', 'default'})
    def pkgconfig_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        args = listify(args)
        if len(args) != 1:
            raise InterpreterException('get_pkgconfig_variable takes exactly one argument.')
        varname = args[0]
        if not isinstance(varname, str):
            raise InterpreterException('Variable name must be a string.')
        return self.held_object.get_pkgconfig_variable(varname, kwargs)

    @FeatureNew('dep.get_configtool_variable', '0.44.0')
    @FeatureDeprecated('Dependency.get_configtool_variable', '0.56.0',
                       'use Dependency.get_variable(configtool : ...) instead')
    @noKwargs
    def configtool_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        args = listify(args)
        if len(args) != 1:
            raise InterpreterException('get_configtool_variable takes exactly one argument.')
        varname = args[0]
        if not isinstance(varname, str):
            raise InterpreterException('Variable name must be a string.')
        return self.held_object.get_configtool_variable(varname)

    @FeatureNew('dep.partial_dependency', '0.46.0')
    @noPosargs
    @typed_kwargs('dep.partial_dependency', *_PARTIAL_DEP_KWARGS)
    def partial_dependency_method(self, args: T.List[TYPE_nvar], kwargs: 'kwargs.DependencyMethodPartialDependency') -> Dependency:
        pdep = self.held_object.get_partial_dependency(**kwargs)
        return pdep

    @FeatureNew('dep.get_variable', '0.51.0')
    @typed_pos_args('dep.get_variable', optargs=[str])
    @permittedKwargs({'cmake', 'pkgconfig', 'configtool', 'internal', 'default_value', 'pkgconfig_define'})
    @FeatureNewKwargs('dep.get_variable', '0.54.0', ['internal'])
    def variable_method(self, args: T.Tuple[T.Optional[str]], kwargs: T.Dict[str, T.Any]) -> T.Union[str, T.List[str]]:
        default_varname = args[0]
        if default_varname is not None:
            FeatureNew('0.58.0', 'Positional argument to dep.get_variable()').use(self.subproject)
            for k in ['cmake', 'pkgconfig', 'configtool', 'internal']:
                kwargs.setdefault(k, default_varname)
        return self.held_object.get_variable(**kwargs)

    @FeatureNew('dep.include_type', '0.52.0')
    @noPosargs
    @noKwargs
    def include_type_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.get_include_type()

    @FeatureNew('dep.as_system', '0.52.0')
    @noKwargs
    def as_system_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> Dependency:
        args = listify(args)
        new_is_system = 'system'
        if len(args) > 1:
            raise InterpreterException('as_system takes only one optional value')
        if len(args) == 1:
            if not isinstance(args[0], str):
                raise InterpreterException('as_system takes exactly one string parameter')
            new_is_system = args[0]
        new_dep = self.held_object.generate_system_dependency(new_is_system)
        return new_dep

    @FeatureNew('dep.as_link_whole', '0.56.0')
    @noKwargs
    @noPosargs
    def as_link_whole_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> Dependency:
        if not isinstance(self.held_object, InternalDependency):
            raise InterpreterException('as_link_whole method is only supported on declare_dependency() objects')
        new_dep = self.held_object.generate_link_whole_dependency()
        return new_dep

class ExternalProgramHolder(ObjectHolder[ExternalProgram]):
    def __init__(self, ep: ExternalProgram, interpreter: 'Interpreter') -> None:
        super().__init__(ep, interpreter)
        self.methods.update({'found': self.found_method,
                             'path': self.path_method,
                             'full_path': self.full_path_method})

    @noPosargs
    @noKwargs
    def found_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.found()

    @noPosargs
    @noKwargs
    @FeatureDeprecated('ExternalProgram.path', '0.55.0',
                       'use ExternalProgram.full_path() instead')
    def path_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self._full_path()

    @noPosargs
    @noKwargs
    @FeatureNew('ExternalProgram.full_path', '0.55.0')
    def full_path_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self._full_path()

    def _full_path(self) -> str:
        if not self.found():
            raise InterpreterException('Unable to get the path of a not-found external program')
        path = self.held_object.get_path()
        assert path is not None
        return path

    def found(self) -> bool:
        return self.held_object.found()

class ExternalLibraryHolder(ObjectHolder[ExternalLibrary]):
    def __init__(self, el: ExternalLibrary, interpreter: 'Interpreter'):
        super().__init__(el, interpreter)
        self.methods.update({'found': self.found_method,
                             'type_name': self.type_name_method,
                             'partial_dependency': self.partial_dependency_method,
                             })

    @noPosargs
    @noKwargs
    def type_name_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.type_name

    @noPosargs
    @noKwargs
    def found_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.held_object.found()

    @FeatureNew('dep.partial_dependency', '0.46.0')
    @noPosargs
    @typed_kwargs('dep.partial_dependency', *_PARTIAL_DEP_KWARGS)
    def partial_dependency_method(self, args: T.List[TYPE_nvar], kwargs: 'kwargs.DependencyMethodPartialDependency') -> Dependency:
        pdep = self.held_object.get_partial_dependency(**kwargs)
        return pdep

# A machine that's statically known from the cross file
class MachineHolder(ObjectHolder['MachineInfo']):
    def __init__(self, machine_info: 'MachineInfo', interpreter: 'Interpreter'):
        super().__init__(machine_info, interpreter)
        self.methods.update({'system': self.system_method,
                             'cpu': self.cpu_method,
                             'cpu_family': self.cpu_family_method,
                             'endian': self.endian_method,
                             })

    @noPosargs
    @noKwargs
    def cpu_family_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.cpu_family

    @noPosargs
    @noKwargs
    def cpu_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.cpu

    @noPosargs
    @noKwargs
    def system_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.system

    @noPosargs
    @noKwargs
    def endian_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.held_object.endian

class IncludeDirsHolder(ObjectHolder[build.IncludeDirs]):
    pass

class FileHolder(ObjectHolder[mesonlib.File]):
    pass

class HeadersHolder(ObjectHolder[build.Headers]):
    pass

class DataHolder(ObjectHolder[build.Data]):
    pass

class InstallDirHolder(ObjectHolder[build.InstallDir]):
    pass

class ManHolder(ObjectHolder[build.Man]):
    pass

class EmptyDirHolder(ObjectHolder[build.EmptyDir]):
    pass

class GeneratedObjectsHolder(ObjectHolder[build.ExtractedObjects]):
    pass

class Test(MesonInterpreterObject):
    def __init__(self, name: str, project: str, suite: T.List[str],
                 exe: T.Union[ExternalProgram, build.Executable, build.CustomTarget],
                 depends: T.List[T.Union[build.CustomTarget, build.BuildTarget]],
                 is_parallel: bool,
                 cmd_args: T.List[T.Union[str, mesonlib.File, build.Target]],
                 env: build.EnvironmentVariables,
                 should_fail: bool, timeout: int, workdir: T.Optional[str], protocol: str,
                 priority: int):
        super().__init__()
        self.name = name
        self.suite = listify(suite)
        self.project_name = project
        self.exe = exe
        self.depends = depends
        self.is_parallel = is_parallel
        self.cmd_args = cmd_args
        self.env = env
        self.should_fail = should_fail
        self.timeout = timeout
        self.workdir = workdir
        self.protocol = TestProtocol.from_str(protocol)
        self.priority = priority

    def get_exe(self) -> T.Union[ExternalProgram, build.Executable, build.CustomTarget]:
        return self.exe

    def get_name(self) -> str:
        return self.name

class NullSubprojectInterpreter(HoldableObject):
    pass

# TODO: This should really be an `ObjectHolder`, but the additional stuff in this
#       class prevents this. Thus, this class should be split into a pure
#       `ObjectHolder` and a class specifically for stroing in `Interpreter`.
class SubprojectHolder(MesonInterpreterObject):

    def __init__(self, subinterpreter: T.Union['Interpreter', NullSubprojectInterpreter],
                 subdir: str,
                 warnings: int = 0,
                 disabled_feature: T.Optional[str] = None,
                 exception: T.Optional[MesonException] = None) -> None:
        super().__init__()
        self.held_object = subinterpreter
        self.warnings = warnings
        self.disabled_feature = disabled_feature
        self.exception = exception
        self.subdir = PurePath(subdir).as_posix()
        self.methods.update({'get_variable': self.get_variable_method,
                             'found': self.found_method,
                             })

    @noPosargs
    @noKwargs
    def found_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        return self.found()

    def found(self) -> bool:
        return not isinstance(self.held_object, NullSubprojectInterpreter)

    @noKwargs
    @noArgsFlattening
    @unholder_return
    def get_variable_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> T.Union[TYPE_var, InterpreterObject]:
        if len(args) < 1 or len(args) > 2:
            raise InterpreterException('Get_variable takes one or two arguments.')
        if isinstance(self.held_object, NullSubprojectInterpreter):  # == not self.found()
            raise InterpreterException('Subproject "%s" disabled can\'t get_variable on it.' % (self.subdir))
        varname = args[0]
        if not isinstance(varname, str):
            raise InterpreterException('Get_variable first argument must be a string.')
        try:
            return self.held_object.variables[varname]
        except KeyError:
            pass

        if len(args) == 2:
            return self.held_object._holderify(args[1])

        raise InvalidArguments(f'Requested variable "{varname}" not found.')

class ModuleObjectHolder(ObjectHolder[ModuleObject]):
    def method_call(self, method_name: str, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> TYPE_var:
        modobj = self.held_object
        method = modobj.methods.get(method_name)
        if not method:
            raise InvalidCode(f'Unknown method {method_name!r} in object.')
        if not getattr(method, 'no-args-flattening', False):
            args = flatten(args)
        if not getattr(method, 'no-second-level-holder-flattening', False):
            args, kwargs = resolve_second_level_holders(args, kwargs)
        state = ModuleState(self.interpreter)
        # Many modules do for example self.interpreter.find_program_impl(),
        # so we have to ensure they use the current interpreter and not the one
        # that first imported that module, otherwise it will use outdated
        # overrides.
        if isinstance(modobj, ExtensionModule):
            modobj.interpreter = self.interpreter
        ret = method(state, args, kwargs)
        if isinstance(ret, ModuleReturnValue):
            self.interpreter.process_new_values(ret.new_objects)
            ret = ret.return_value
        return ret

class MutableModuleObjectHolder(ModuleObjectHolder, MutableInterpreterObject):
    def __deepcopy__(self, memo: T.Dict[int, T.Any]) -> 'MutableModuleObjectHolder':
        # Deepcopy only held object, not interpreter
        modobj = copy.deepcopy(self.held_object, memo)
        return MutableModuleObjectHolder(modobj, self.interpreter)


_BuildTarget = T.TypeVar('_BuildTarget', bound=T.Union[build.BuildTarget, build.BothLibraries])

class BuildTargetHolder(ObjectHolder[_BuildTarget]):
    def __init__(self, target: _BuildTarget, interp: 'Interpreter'):
        super().__init__(target, interp)
        self.methods.update({'extract_objects': self.extract_objects_method,
                             'extract_all_objects': self.extract_all_objects_method,
                             'name': self.name_method,
                             'get_id': self.get_id_method,
                             'outdir': self.outdir_method,
                             'full_path': self.full_path_method,
                             'path': self.path_method,
                             'found': self.found_method,
                             'private_dir_include': self.private_dir_include_method,
                             })

    def __repr__(self) -> str:
        r = '<{} {}: {}>'
        h = self.held_object
        return r.format(self.__class__.__name__, h.get_id(), h.filename)

    @property
    def _target_object(self) -> build.BuildTarget:
        if isinstance(self.held_object, build.BothLibraries):
            return self.held_object.get_default_object()
        assert isinstance(self.held_object, build.BuildTarget)
        return self.held_object

    def is_cross(self) -> bool:
        return not self._target_object.environment.machines.matches_build_machine(self._target_object.for_machine)

    @noPosargs
    @noKwargs
    def found_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> bool:
        if not (isinstance(self.held_object, build.Executable) and self.held_object.was_returned_by_find_program):
            FeatureNew.single_use('BuildTarget.found', '0.59.0', subproject=self.held_object.subproject)
        return True

    @noPosargs
    @noKwargs
    def private_dir_include_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> build.IncludeDirs:
        return build.IncludeDirs('', [], False, [self.interpreter.backend.get_target_private_dir(self._target_object)])

    @noPosargs
    @noKwargs
    def full_path_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.interpreter.backend.get_target_filename_abs(self._target_object)

    @noPosargs
    @noKwargs
    @FeatureDeprecated('BuildTarget.path', '0.55.0', 'Use BuildTarget.full_path instead')
    def path_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.interpreter.backend.get_target_filename_abs(self._target_object)

    @noPosargs
    @noKwargs
    def outdir_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.interpreter.backend.get_target_dir(self._target_object)

    @noKwargs
    @typed_pos_args('extract_objects', varargs=(mesonlib.File, str))
    def extract_objects_method(self, args: T.Tuple[T.List[mesonlib.FileOrString]], kwargs: TYPE_nkwargs) -> build.ExtractedObjects:
        return self._target_object.extract_objects(args[0])

    @noPosargs
    @typed_kwargs(
        'extract_all_objects',
        KwargInfo(
            'recursive', bool, default=False, since='0.46.0',
            not_set_warning=textwrap.dedent('''\
                extract_all_objects called without setting recursive
                keyword argument. Meson currently defaults to
                non-recursive to maintain backward compatibility but
                the default will be changed in the future.
            ''')
        )
    )
    def extract_all_objects_method(self, args: T.List[TYPE_nvar], kwargs: 'kwargs.BuildTargeMethodExtractAllObjects') -> build.ExtractedObjects:
        return self._target_object.extract_all_objects(kwargs['recursive'])

    @noPosargs
    @noKwargs
    def get_id_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self._target_object.get_id()

    @FeatureNew('name', '0.54.0')
    @noPosargs
    @noKwargs
    def name_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self._target_object.name

class ExecutableHolder(BuildTargetHolder[build.Executable]):
    pass

class StaticLibraryHolder(BuildTargetHolder[build.StaticLibrary]):
    pass

class SharedLibraryHolder(BuildTargetHolder[build.SharedLibrary]):
    pass

class BothLibrariesHolder(BuildTargetHolder[build.BothLibraries]):
    def __init__(self, libs: build.BothLibraries, interp: 'Interpreter'):
        # FIXME: This build target always represents the shared library, but
        # that should be configurable.
        super().__init__(libs, interp)
        self.methods.update({'get_shared_lib': self.get_shared_lib_method,
                             'get_static_lib': self.get_static_lib_method,
                             })

    def __repr__(self) -> str:
        r = '<{} {}: {}, {}: {}>'
        h1 = self.held_object.shared
        h2 = self.held_object.static
        return r.format(self.__class__.__name__, h1.get_id(), h1.filename, h2.get_id(), h2.filename)

    @noPosargs
    @noKwargs
    def get_shared_lib_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> build.SharedLibrary:
        return self.held_object.shared

    @noPosargs
    @noKwargs
    def get_static_lib_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> build.StaticLibrary:
        return self.held_object.static

class SharedModuleHolder(BuildTargetHolder[build.SharedModule]):
    pass

class JarHolder(BuildTargetHolder[build.Jar]):
    pass

class CustomTargetIndexHolder(ObjectHolder[build.CustomTargetIndex]):
    def __init__(self, target: build.CustomTargetIndex, interp: 'Interpreter'):
        super().__init__(target, interp)
        self.methods.update({'full_path': self.full_path_method,
                             })

    @FeatureNew('custom_target[i].full_path', '0.54.0')
    @noPosargs
    @noKwargs
    def full_path_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        assert self.interpreter.backend is not None
        return self.interpreter.backend.get_target_filename_abs(self.held_object)

class CustomTargetHolder(ObjectHolder[build.CustomTarget]):
    def __init__(self, target: 'build.CustomTarget', interp: 'Interpreter'):
        super().__init__(target, interp)
        self.methods.update({'full_path': self.full_path_method,
                             'to_list': self.to_list_method,
                             })

        self.operators.update({
            MesonOperator.INDEX: self.op_index,
        })

    def __repr__(self) -> str:
        r = '<{} {}: {}>'
        h = self.held_object
        return r.format(self.__class__.__name__, h.get_id(), h.command)

    @noPosargs
    @noKwargs
    def full_path_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> str:
        return self.interpreter.backend.get_target_filename_abs(self.held_object)

    @FeatureNew('custom_target.to_list', '0.54.0')
    @noPosargs
    @noKwargs
    def to_list_method(self, args: T.List[TYPE_var], kwargs: TYPE_kwargs) -> T.List[build.CustomTargetIndex]:
        result = []
        for i in self.held_object:
            result.append(i)
        return result

    @noKwargs
    @typed_operator(MesonOperator.INDEX, int)
    def op_index(self, other: int) -> build.CustomTargetIndex:
        try:
            return self.held_object[other]
        except IndexError:
            raise InvalidArguments(f'Index {other} out of bounds of custom target {self.held_object.name} output of size {len(self.held_object)}.')

class RunTargetHolder(ObjectHolder[build.RunTarget]):
    pass

class AliasTargetHolder(ObjectHolder[build.AliasTarget]):
    pass

class GeneratedListHolder(ObjectHolder[build.GeneratedList]):
    pass

class GeneratorHolder(ObjectHolder[build.Generator]):
    def __init__(self, gen: build.Generator, interpreter: 'Interpreter'):
        super().__init__(gen, interpreter)
        self.methods.update({'process': self.process_method})

    @typed_pos_args('generator.process', min_varargs=1, varargs=(str, mesonlib.File, build.CustomTarget, build.CustomTargetIndex, build.GeneratedList))
    @typed_kwargs(
        'generator.process',
        KwargInfo('preserve_path_from', (str, NoneType), since='0.45.0'),
        KwargInfo('extra_args', ContainerTypeInfo(list, str), listify=True, default=[]),
    )
    def process_method(self,
                       args: T.Tuple[T.List[T.Union[str, mesonlib.File, build.CustomTarget, build.CustomTargetIndex, build.GeneratedList]]],
                       kwargs: 'kwargs.GeneratorProcess') -> build.GeneratedList:
        preserve_path_from = kwargs['preserve_path_from']
        if preserve_path_from is not None:
            preserve_path_from = os.path.normpath(preserve_path_from)
            if not os.path.isabs(preserve_path_from):
                # This is a bit of a hack. Fix properly before merging.
                raise InvalidArguments('Preserve_path_from must be an absolute path for now. Sorry.')

        if any(isinstance(a, (build.CustomTarget, build.CustomTargetIndex, build.GeneratedList)) for a in args[0]):
            FeatureNew.single_use(
                'Calling generator.process with CustomTaget or Index of CustomTarget.',
                '0.57.0', self.interpreter.subproject)

        gl = self.held_object.process_files(args[0], self.interpreter,
                                            preserve_path_from, extra_args=kwargs['extra_args'])

        return gl