mesonbuild/modules/rust.py - meson - Git at Google

 # SPDX-License-Identifier: Apache-2.0
 # Copyright © 2020-2024 Intel Corporation

 from __future__ import annotations
 import itertools
 import os
 import typing as T

 from mesonbuild.interpreterbase.decorators import FeatureNew

 from . import ExtensionModule, ModuleReturnValue, ModuleInfo
 from .. import mesonlib, mlog
 from ..build import (BothLibraries, BuildTarget, CustomTargetIndex, Executable, ExtractedObjects, GeneratedList,
                      CustomTarget, InvalidArguments, Jar, StructuredSources, SharedLibrary)
 from ..compilers.compilers import are_asserts_disabled, lang_suffixes
 from ..interpreter.type_checking import (
     DEPENDENCIES_KW, LINK_WITH_KW, SHARED_LIB_KWS, TEST_KWS, OUTPUT_KW,
     INCLUDE_DIRECTORIES, SOURCES_VARARGS, NoneType, in_set_validator
 )
 from ..interpreterbase import ContainerTypeInfo, InterpreterException, KwargInfo, typed_kwargs, typed_pos_args, noPosargs, permittedKwargs
 from ..mesonlib import File
 from ..programs import ExternalProgram

 if T.TYPE_CHECKING:
     from . import ModuleState
     from ..build import IncludeDirs, LibTypes
     from ..dependencies import Dependency, ExternalLibrary
     from ..interpreter import Interpreter
     from ..interpreter import kwargs as _kwargs
     from ..interpreter.interpreter import SourceInputs, SourceOutputs
     from ..programs import OverrideProgram
     from ..interpreter.type_checking import SourcesVarargsType

     from typing_extensions import TypedDict, Literal

     class FuncTest(_kwargs.BaseTest):

         dependencies: T.List[T.Union[Dependency, ExternalLibrary]]
         is_parallel: bool
         link_with: T.List[LibTypes]
         rust_args: T.List[str]

     class FuncBindgen(TypedDict):

         args: T.List[str]
         c_args: T.List[str]
         include_directories: T.List[IncludeDirs]
         input: T.List[SourceInputs]
         output: str
         output_inline_wrapper: str
         dependencies: T.List[T.Union[Dependency, ExternalLibrary]]
         language: T.Optional[Literal['c', 'cpp']]
         bindgen_version: T.List[str]


 class RustModule(ExtensionModule):

     """A module that holds helper functions for rust."""

     INFO = ModuleInfo('rust', '0.57.0', stabilized='1.0.0')

     def __init__(self, interpreter: Interpreter) -> None:
         super().__init__(interpreter)
         self._bindgen_bin: T.Optional[T.Union[ExternalProgram, Executable, OverrideProgram]] = None
         self.methods.update({
             'test': self.test,
             'bindgen': self.bindgen,
             'proc_macro': self.proc_macro,
         })

     @typed_pos_args('rust.test', str, BuildTarget)
     @typed_kwargs(
         'rust.test',
         *TEST_KWS,
         DEPENDENCIES_KW,
         LINK_WITH_KW.evolve(since='1.2.0'),
         KwargInfo(
             'rust_args',
             ContainerTypeInfo(list, str),
             listify=True,
             default=[],
             since='1.2.0',
         ),
         KwargInfo('is_parallel', bool, default=False),
     )
     def test(self, state: ModuleState, args: T.Tuple[str, BuildTarget], kwargs: FuncTest) -> ModuleReturnValue:
         """Generate a rust test target from a given rust target.

         Rust puts it's unitests inside it's main source files, unlike most
         languages that put them in external files. This means that normally
         you have to define two separate targets with basically the same
         arguments to get tests:

         ```meson
         rust_lib_sources = [...]
         rust_lib = static_library(
             'rust_lib',
             rust_lib_sources,
         )

         rust_lib_test = executable(
             'rust_lib_test',
             rust_lib_sources,
             rust_args : ['--test'],
         )

         test(
             'rust_lib_test',
             rust_lib_test,
             protocol : 'rust',
         )
         ```

         This is all fine, but not very DRY. This method makes it much easier
         to define rust tests:

         ```meson
         rust = import('unstable-rust')

         rust_lib = static_library(
             'rust_lib',
             [sources],
         )

         rust.test('rust_lib_test', rust_lib)
         ```
         """
         if any(isinstance(t, Jar) for t in kwargs.get('link_with', [])):
             raise InvalidArguments('Rust tests cannot link with Jar targets')

         name = args[0]
         base_target: BuildTarget = args[1]
         if not base_target.uses_rust():
             raise InterpreterException('Second positional argument to rustmod.test() must be a rust based target')
         extra_args = kwargs['args']

         # Delete any arguments we don't want passed
         if '--test' in extra_args:
             mlog.warning('Do not add --test to rustmod.test arguments')
             extra_args.remove('--test')
         if '--format' in extra_args:
             mlog.warning('Do not add --format to rustmod.test arguments')
             i = extra_args.index('--format')
             # Also delete the argument to --format
             del extra_args[i + 1]
             del extra_args[i]
         for i, a in enumerate(extra_args):
             if isinstance(a, str) and a.startswith('--format='):
                 del extra_args[i]
                 break

         # We need to cast here, as currently these don't have protocol in them, but test itself does.
         tkwargs = T.cast('_kwargs.FuncTest', kwargs.copy())

         tkwargs['args'] = extra_args + ['--test', '--format', 'pretty']
         tkwargs['protocol'] = 'rust'

         new_target_kwargs = base_target.original_kwargs.copy()
         # Don't mutate the shallow copied list, instead replace it with a new
         # one
         new_target_kwargs['install'] = False
         new_target_kwargs['dependencies'] = new_target_kwargs.get('dependencies', []) + kwargs['dependencies']
         new_target_kwargs['link_with'] = new_target_kwargs.get('link_with', []) + kwargs['link_with']
         del new_target_kwargs['rust_crate_type']

         lang_args = base_target.extra_args.copy()
         lang_args['rust'] = base_target.extra_args['rust'] + kwargs['rust_args'] + ['--test']
         new_target_kwargs['language_args'] = lang_args

         sources = T.cast('T.List[SourceOutputs]', base_target.sources.copy())
         sources.extend(base_target.generated)

         new_target = Executable(
             name, base_target.subdir, state.subproject, base_target.for_machine,
             sources, base_target.structured_sources,
             base_target.objects, base_target.environment, base_target.compilers,
             new_target_kwargs
         )

         test = self.interpreter.make_test(
             self.interpreter.current_node, (name, new_target), tkwargs)

         return ModuleReturnValue(None, [new_target, test])

     @noPosargs
     @typed_kwargs(
         'rust.bindgen',
         KwargInfo('c_args', ContainerTypeInfo(list, str), default=[], listify=True),
         KwargInfo('args', ContainerTypeInfo(list, str), default=[], listify=True),
         KwargInfo(
             'input',
             ContainerTypeInfo(list, (File, GeneratedList, BuildTarget, BothLibraries, ExtractedObjects, CustomTargetIndex, CustomTarget, str), allow_empty=False),
             default=[],
             listify=True,
             required=True,
         ),
         KwargInfo('language', (str, NoneType), since='1.4.0', validator=in_set_validator({'c', 'cpp'})),
         KwargInfo('bindgen_version', ContainerTypeInfo(list, str), default=[], listify=True, since='1.4.0'),
         INCLUDE_DIRECTORIES.evolve(since_values={ContainerTypeInfo(list, str): '1.0.0'}),
         OUTPUT_KW,
         KwargInfo(
             'output_inline_wrapper',
             str,
             default='',
             since='1.4.0',
         ),
         DEPENDENCIES_KW.evolve(since='1.0.0'),
     )
     def bindgen(self, state: ModuleState, args: T.List, kwargs: FuncBindgen) -> ModuleReturnValue:
         """Wrapper around bindgen to simplify it's use.

         The main thing this simplifies is the use of `include_directory`
         objects, instead of having to pass a plethora of `-I` arguments.
         """
         header, *_deps = self.interpreter.source_strings_to_files(kwargs['input'])

         # Split File and Target dependencies to add pass to CustomTarget
         depends: T.List[SourceOutputs] = []
         depend_files: T.List[File] = []
         for d in _deps:
             if isinstance(d, File):
                 depend_files.append(d)
             else:
                 depends.append(d)

         # Copy to avoid subsequent calls mutating the original
         # TODO: if we want this to be per-machine we'll need a native kwarg
         clang_args = state.environment.properties.host.get_bindgen_clang_args().copy()

         for i in state.process_include_dirs(kwargs['include_directories']):
             # bindgen always uses clang, so it's safe to hardcode -I here
             clang_args.extend([f'-I{x}' for x in i.to_string_list(
                 state.environment.get_source_dir(), state.environment.get_build_dir())])
         if are_asserts_disabled(state.environment.coredata.options):
             clang_args.append('-DNDEBUG')

         for de in kwargs['dependencies']:
             for i in de.get_include_dirs():
                 clang_args.extend([f'-I{x}' for x in i.to_string_list(
                     state.environment.get_source_dir(), state.environment.get_build_dir())])
             clang_args.extend(de.get_all_compile_args())
             for s in de.get_sources():
                 if isinstance(s, File):
                     depend_files.append(s)
                 elif isinstance(s, CustomTarget):
                     depends.append(s)

         if self._bindgen_bin is None:
             self._bindgen_bin = state.find_program('bindgen', wanted=kwargs['bindgen_version'])

         name: str
         if isinstance(header, File):
             name = header.fname
         elif isinstance(header, (BuildTarget, BothLibraries, ExtractedObjects, StructuredSources)):
             raise InterpreterException('bindgen source file must be a C header, not an object or build target')
         else:
             name = header.get_outputs()[0]

         # bindgen assumes that C++ headers will be called .hpp. We want to
         # ensure that anything Meson considers a C++ header is treated as one.
         language = kwargs['language']
         if language is None:
             ext = os.path.splitext(name)[1][1:]
             if ext in lang_suffixes['cpp']:
                 language = 'cpp'
             elif ext == 'h':
                 language = 'c'
             else:
                 raise InterpreterException(f'Unknown file type extension for: {name}')

         # We only want include directories and defines, other things may not be valid
         cargs = state.get_option('args', state.subproject, lang=language)
         assert isinstance(cargs, list), 'for mypy'
         for a in itertools.chain(state.global_args.get(language, []), state.project_args.get(language, []), cargs):
             if a.startswith(('-I', '/I', '-D', '/D', '-U', '/U')):
                 clang_args.append(a)

         if language == 'cpp':
             clang_args.extend(['-x', 'c++'])

         # Add the C++ standard to the clang arguments. Attempt to translate VS
         # extension versions into the nearest standard version
         std = state.get_option('std', lang=language)
         assert isinstance(std, str), 'for mypy'
         if std.startswith('vc++'):
             if std.endswith('latest'):
                 mlog.warning('Attempting to translate vc++latest into a clang compatible version.',
                              'Currently this is hardcoded for c++20', once=True, fatal=False)
                 std = 'c++20'
             else:
                 mlog.debug('The current C++ standard is a Visual Studio extension version.',
                            'bindgen will use a the nearest C++ standard instead')
                 std = std[1:]

         if std != 'none':
             clang_args.append(f'-std={std}')

         inline_wrapper_args: T.List[str] = []
         outputs = [kwargs['output']]
         if kwargs['output_inline_wrapper']:
             # Todo drop this isinstance once Executable supports version_compare
             if isinstance(self._bindgen_bin, ExternalProgram):
                 if mesonlib.version_compare(self._bindgen_bin.get_version(), '< 0.65'):
                     raise InterpreterException('\'output_inline_wrapper\' parameter of rust.bindgen requires bindgen-0.65 or newer')

             outputs.append(kwargs['output_inline_wrapper'])
             inline_wrapper_args = [
                 '--experimental', '--wrap-static-fns',
                 '--wrap-static-fns-path', os.path.join(state.environment.build_dir, '@OUTPUT1@')
             ]

         cmd = self._bindgen_bin.get_command() + \
             [
                 '@INPUT@', '--output',
                 os.path.join(state.environment.build_dir, '@OUTPUT0@')
             ] + \
             kwargs['args'] + inline_wrapper_args + ['--'] + \
             kwargs['c_args'] + clang_args + \
             ['-MD', '-MQ', '@INPUT@', '-MF', '@DEPFILE@']

         target = CustomTarget(
             f'rustmod-bindgen-{name}'.replace('/', '_'),
             state.subdir,
             state.subproject,
             state.environment,
             cmd,
             [header],
             outputs,
             depfile='@PLAINNAME@.d',
             extra_depends=depends,
             depend_files=depend_files,
             backend=state.backend,
             description='Generating bindings for Rust {}',
         )

         return ModuleReturnValue(target, [target])

     # Allow a limited set of kwargs, but still use the full set of typed_kwargs()
     # because it could be setting required default values.
     @FeatureNew('rust.proc_macro', '1.3.0')
     @permittedKwargs({'rust_args', 'rust_dependency_map', 'sources', 'dependencies', 'extra_files',
                       'link_args', 'link_depends', 'link_with', 'override_options'})
     @typed_pos_args('rust.proc_macro', str, varargs=SOURCES_VARARGS)
     @typed_kwargs('rust.proc_macro', *SHARED_LIB_KWS, allow_unknown=True)
     def proc_macro(self, state: ModuleState, args: T.Tuple[str, SourcesVarargsType], kwargs: _kwargs.SharedLibrary) -> SharedLibrary:
         kwargs['native'] = True  # type: ignore
         kwargs['rust_crate_type'] = 'proc-macro'  # type: ignore
         kwargs['rust_args'] = kwargs['rust_args'] + ['--extern', 'proc_macro']
         target = state._interpreter.build_target(state.current_node, args, kwargs, SharedLibrary)
         return target


 def initialize(interp: Interpreter) -> RustModule:
     return RustModule(interp)
	# SPDX-License-Identifier: Apache-2.0
	# Copyright © 2020-2024 Intel Corporation

	from __future__ import annotations
	import itertools
	import os
	import typing as T

	from mesonbuild.interpreterbase.decorators import FeatureNew

	from . import ExtensionModule, ModuleReturnValue, ModuleInfo
	from .. import mesonlib, mlog
	from ..build import (BothLibraries, BuildTarget, CustomTargetIndex, Executable, ExtractedObjects, GeneratedList,
	CustomTarget, InvalidArguments, Jar, StructuredSources, SharedLibrary)
	from ..compilers.compilers import are_asserts_disabled, lang_suffixes
	from ..interpreter.type_checking import (
	DEPENDENCIES_KW, LINK_WITH_KW, SHARED_LIB_KWS, TEST_KWS, OUTPUT_KW,
	INCLUDE_DIRECTORIES, SOURCES_VARARGS, NoneType, in_set_validator
	)
	from ..interpreterbase import ContainerTypeInfo, InterpreterException, KwargInfo, typed_kwargs, typed_pos_args, noPosargs, permittedKwargs
	from ..mesonlib import File
	from ..programs import ExternalProgram

	if T.TYPE_CHECKING:
	from . import ModuleState
	from ..build import IncludeDirs, LibTypes
	from ..dependencies import Dependency, ExternalLibrary
	from ..interpreter import Interpreter
	from ..interpreter import kwargs as _kwargs
	from ..interpreter.interpreter import SourceInputs, SourceOutputs
	from ..programs import OverrideProgram
	from ..interpreter.type_checking import SourcesVarargsType

	from typing_extensions import TypedDict, Literal

	class FuncTest(_kwargs.BaseTest):

	dependencies: T.List[T.Union[Dependency, ExternalLibrary]]
	is_parallel: bool
	link_with: T.List[LibTypes]
	rust_args: T.List[str]

	class FuncBindgen(TypedDict):

	args: T.List[str]
	c_args: T.List[str]
	include_directories: T.List[IncludeDirs]
	input: T.List[SourceInputs]
	output: str
	output_inline_wrapper: str
	dependencies: T.List[T.Union[Dependency, ExternalLibrary]]
	language: T.Optional[Literal['c', 'cpp']]
	bindgen_version: T.List[str]


	class RustModule(ExtensionModule):

	"""A module that holds helper functions for rust."""

	INFO = ModuleInfo('rust', '0.57.0', stabilized='1.0.0')

	def __init__(self, interpreter: Interpreter) -> None:
	super().__init__(interpreter)
	self._bindgen_bin: T.Optional[T.Union[ExternalProgram, Executable, OverrideProgram]] = None
	self.methods.update({
	'test': self.test,
	'bindgen': self.bindgen,
	'proc_macro': self.proc_macro,
	})

	@typed_pos_args('rust.test', str, BuildTarget)
	@typed_kwargs(
	'rust.test',
	*TEST_KWS,
	DEPENDENCIES_KW,
	LINK_WITH_KW.evolve(since='1.2.0'),
	KwargInfo(
	'rust_args',
	ContainerTypeInfo(list, str),
	listify=True,
	default=[],
	since='1.2.0',
	),
	KwargInfo('is_parallel', bool, default=False),
	)
	def test(self, state: ModuleState, args: T.Tuple[str, BuildTarget], kwargs: FuncTest) -> ModuleReturnValue:
	"""Generate a rust test target from a given rust target.

	Rust puts it's unitests inside it's main source files, unlike most
	languages that put them in external files. This means that normally
	you have to define two separate targets with basically the same
	arguments to get tests:

	```meson
	rust_lib_sources = [...]
	rust_lib = static_library(
	'rust_lib',
	rust_lib_sources,
	)

	rust_lib_test = executable(
	'rust_lib_test',
	rust_lib_sources,
	rust_args : ['--test'],
	)

	test(
	'rust_lib_test',
	rust_lib_test,
	protocol : 'rust',
	)
	```

	This is all fine, but not very DRY. This method makes it much easier
	to define rust tests:

	```meson
	rust = import('unstable-rust')

	rust_lib = static_library(
	'rust_lib',
	[sources],
	)

	rust.test('rust_lib_test', rust_lib)
	```
	"""
	if any(isinstance(t, Jar) for t in kwargs.get('link_with', [])):
	raise InvalidArguments('Rust tests cannot link with Jar targets')

	name = args[0]
	base_target: BuildTarget = args[1]
	if not base_target.uses_rust():
	raise InterpreterException('Second positional argument to rustmod.test() must be a rust based target')
	extra_args = kwargs['args']

	# Delete any arguments we don't want passed
	if '--test' in extra_args:
	mlog.warning('Do not add --test to rustmod.test arguments')
	extra_args.remove('--test')
	if '--format' in extra_args:
	mlog.warning('Do not add --format to rustmod.test arguments')
	i = extra_args.index('--format')
	# Also delete the argument to --format
	del extra_args[i + 1]
	del extra_args[i]
	for i, a in enumerate(extra_args):
	if isinstance(a, str) and a.startswith('--format='):
	del extra_args[i]
	break

	# We need to cast here, as currently these don't have protocol in them, but test itself does.
	tkwargs = T.cast('_kwargs.FuncTest', kwargs.copy())

	tkwargs['args'] = extra_args + ['--test', '--format', 'pretty']
	tkwargs['protocol'] = 'rust'

	new_target_kwargs = base_target.original_kwargs.copy()
	# Don't mutate the shallow copied list, instead replace it with a new
	# one
	new_target_kwargs['install'] = False
	new_target_kwargs['dependencies'] = new_target_kwargs.get('dependencies', []) + kwargs['dependencies']
	new_target_kwargs['link_with'] = new_target_kwargs.get('link_with', []) + kwargs['link_with']
	del new_target_kwargs['rust_crate_type']

	lang_args = base_target.extra_args.copy()
	lang_args['rust'] = base_target.extra_args['rust'] + kwargs['rust_args'] + ['--test']
	new_target_kwargs['language_args'] = lang_args

	sources = T.cast('T.List[SourceOutputs]', base_target.sources.copy())
	sources.extend(base_target.generated)

	new_target = Executable(
	name, base_target.subdir, state.subproject, base_target.for_machine,
	sources, base_target.structured_sources,
	base_target.objects, base_target.environment, base_target.compilers,
	new_target_kwargs
	)

	test = self.interpreter.make_test(
	self.interpreter.current_node, (name, new_target), tkwargs)

	return ModuleReturnValue(None, [new_target, test])

	@noPosargs
	@typed_kwargs(
	'rust.bindgen',
	KwargInfo('c_args', ContainerTypeInfo(list, str), default=[], listify=True),
	KwargInfo('args', ContainerTypeInfo(list, str), default=[], listify=True),
	KwargInfo(
	'input',
	ContainerTypeInfo(list, (File, GeneratedList, BuildTarget, BothLibraries, ExtractedObjects, CustomTargetIndex, CustomTarget, str), allow_empty=False),
	default=[],
	listify=True,
	required=True,
	),
	KwargInfo('language', (str, NoneType), since='1.4.0', validator=in_set_validator({'c', 'cpp'})),
	KwargInfo('bindgen_version', ContainerTypeInfo(list, str), default=[], listify=True, since='1.4.0'),
	INCLUDE_DIRECTORIES.evolve(since_values={ContainerTypeInfo(list, str): '1.0.0'}),
	OUTPUT_KW,
	KwargInfo(
	'output_inline_wrapper',
	str,
	default='',
	since='1.4.0',
	),
	DEPENDENCIES_KW.evolve(since='1.0.0'),
	)
	def bindgen(self, state: ModuleState, args: T.List, kwargs: FuncBindgen) -> ModuleReturnValue:
	"""Wrapper around bindgen to simplify it's use.

	The main thing this simplifies is the use of `include_directory`
	objects, instead of having to pass a plethora of `-I` arguments.
	"""
	header, *_deps = self.interpreter.source_strings_to_files(kwargs['input'])

	# Split File and Target dependencies to add pass to CustomTarget
	depends: T.List[SourceOutputs] = []
	depend_files: T.List[File] = []
	for d in _deps:
	if isinstance(d, File):
	depend_files.append(d)
	else:
	depends.append(d)

	# Copy to avoid subsequent calls mutating the original
	# TODO: if we want this to be per-machine we'll need a native kwarg
	clang_args = state.environment.properties.host.get_bindgen_clang_args().copy()

	for i in state.process_include_dirs(kwargs['include_directories']):
	# bindgen always uses clang, so it's safe to hardcode -I here
	clang_args.extend([f'-I{x}' for x in i.to_string_list(
	state.environment.get_source_dir(), state.environment.get_build_dir())])
	if are_asserts_disabled(state.environment.coredata.options):
	clang_args.append('-DNDEBUG')

	for de in kwargs['dependencies']:
	for i in de.get_include_dirs():
	clang_args.extend([f'-I{x}' for x in i.to_string_list(
	state.environment.get_source_dir(), state.environment.get_build_dir())])
	clang_args.extend(de.get_all_compile_args())
	for s in de.get_sources():
	if isinstance(s, File):
	depend_files.append(s)
	elif isinstance(s, CustomTarget):
	depends.append(s)

	if self._bindgen_bin is None:
	self._bindgen_bin = state.find_program('bindgen', wanted=kwargs['bindgen_version'])

	name: str
	if isinstance(header, File):
	name = header.fname
	elif isinstance(header, (BuildTarget, BothLibraries, ExtractedObjects, StructuredSources)):
	raise InterpreterException('bindgen source file must be a C header, not an object or build target')
	else:
	name = header.get_outputs()[0]

	# bindgen assumes that C++ headers will be called .hpp. We want to
	# ensure that anything Meson considers a C++ header is treated as one.
	language = kwargs['language']
	if language is None:
	ext = os.path.splitext(name)[1][1:]
	if ext in lang_suffixes['cpp']:
	language = 'cpp'
	elif ext == 'h':
	language = 'c'
	else:
	raise InterpreterException(f'Unknown file type extension for: {name}')

	# We only want include directories and defines, other things may not be valid
	cargs = state.get_option('args', state.subproject, lang=language)
	assert isinstance(cargs, list), 'for mypy'
	for a in itertools.chain(state.global_args.get(language, []), state.project_args.get(language, []), cargs):
	if a.startswith(('-I', '/I', '-D', '/D', '-U', '/U')):
	clang_args.append(a)

	if language == 'cpp':
	clang_args.extend(['-x', 'c++'])

	# Add the C++ standard to the clang arguments. Attempt to translate VS
	# extension versions into the nearest standard version
	std = state.get_option('std', lang=language)
	assert isinstance(std, str), 'for mypy'
	if std.startswith('vc++'):
	if std.endswith('latest'):
	mlog.warning('Attempting to translate vc++latest into a clang compatible version.',
	'Currently this is hardcoded for c++20', once=True, fatal=False)
	std = 'c++20'
	else:
	mlog.debug('The current C++ standard is a Visual Studio extension version.',
	'bindgen will use a the nearest C++ standard instead')
	std = std[1:]

	if std != 'none':
	clang_args.append(f'-std={std}')

	inline_wrapper_args: T.List[str] = []
	outputs = [kwargs['output']]
	if kwargs['output_inline_wrapper']:
	# Todo drop this isinstance once Executable supports version_compare
	if isinstance(self._bindgen_bin, ExternalProgram):
	if mesonlib.version_compare(self._bindgen_bin.get_version(), '< 0.65'):
	raise InterpreterException('\'output_inline_wrapper\' parameter of rust.bindgen requires bindgen-0.65 or newer')

	outputs.append(kwargs['output_inline_wrapper'])
	inline_wrapper_args = [
	'--experimental', '--wrap-static-fns',
	'--wrap-static-fns-path', os.path.join(state.environment.build_dir, '@OUTPUT1@')
	]

	cmd = self._bindgen_bin.get_command() + \
	[
	'@INPUT@', '--output',
	os.path.join(state.environment.build_dir, '@OUTPUT0@')
	] + \
	kwargs['args'] + inline_wrapper_args + ['--'] + \
	kwargs['c_args'] + clang_args + \
	['-MD', '-MQ', '@INPUT@', '-MF', '@DEPFILE@']

	target = CustomTarget(
	f'rustmod-bindgen-{name}'.replace('/', '_'),
	state.subdir,
	state.subproject,
	state.environment,
	cmd,
	[header],
	outputs,
	depfile='@PLAINNAME@.d',
	extra_depends=depends,
	depend_files=depend_files,
	backend=state.backend,
	description='Generating bindings for Rust {}',
	)

	return ModuleReturnValue(target, [target])

	# Allow a limited set of kwargs, but still use the full set of typed_kwargs()
	# because it could be setting required default values.
	@FeatureNew('rust.proc_macro', '1.3.0')
	@permittedKwargs({'rust_args', 'rust_dependency_map', 'sources', 'dependencies', 'extra_files',
	'link_args', 'link_depends', 'link_with', 'override_options'})
	@typed_pos_args('rust.proc_macro', str, varargs=SOURCES_VARARGS)
	@typed_kwargs('rust.proc_macro', *SHARED_LIB_KWS, allow_unknown=True)
	def proc_macro(self, state: ModuleState, args: T.Tuple[str, SourcesVarargsType], kwargs: _kwargs.SharedLibrary) -> SharedLibrary:
	kwargs['native'] = True # type: ignore
	kwargs['rust_crate_type'] = 'proc-macro' # type: ignore
	kwargs['rust_args'] = kwargs['rust_args'] + ['--extern', 'proc_macro']
	target = state._interpreter.build_target(state.current_node, args, kwargs, SharedLibrary)
	return target


	def initialize(interp: Interpreter) -> RustModule:
	return RustModule(interp)