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# Copyright 2018 The Meson development team
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from __future__ import annotations
import copy, json, os, shutil, re
import typing as T
from . import ExtensionModule, ModuleInfo
from .. import mesonlib
from .. import mlog
from ..coredata import UserFeatureOption
from ..build import known_shmod_kwargs, CustomTarget, CustomTargetIndex, BuildTarget, GeneratedList, StructuredSources, ExtractedObjects, SharedModule
from ..dependencies import NotFoundDependency
from ..dependencies.detect import get_dep_identifier, find_external_dependency
from ..dependencies.python import BasicPythonExternalProgram, python_factory, _PythonDependencyBase
from ..interpreter import extract_required_kwarg, permitted_dependency_kwargs, primitives as P_OBJ
from ..interpreter.interpreterobjects import _ExternalProgramHolder
from ..interpreter.type_checking import NoneType, PRESERVE_PATH_KW, SHARED_MOD_KWS
from ..interpreterbase import (
noPosargs, noKwargs, permittedKwargs, ContainerTypeInfo,
InvalidArguments, typed_pos_args, typed_kwargs, KwargInfo,
FeatureNew, FeatureNewKwargs, disablerIfNotFound
)
from ..mesonlib import MachineChoice, OptionKey
from ..programs import ExternalProgram, NonExistingExternalProgram
if T.TYPE_CHECKING:
from typing_extensions import TypedDict, NotRequired
from . import ModuleState
from ..build import Build, Data
from ..dependencies import Dependency
from ..interpreter import Interpreter
from ..interpreter.interpreter import BuildTargetSource
from ..interpreter.kwargs import ExtractRequired, SharedModule as SharedModuleKw
from ..interpreterbase.baseobjects import TYPE_var, TYPE_kwargs
class PyInstallKw(TypedDict):
pure: T.Optional[bool]
subdir: str
install_tag: T.Optional[str]
class FindInstallationKw(ExtractRequired):
disabler: bool
modules: T.List[str]
pure: T.Optional[bool]
class ExtensionModuleKw(SharedModuleKw):
subdir: NotRequired[T.Optional[str]]
MaybePythonProg = T.Union[NonExistingExternalProgram, 'PythonExternalProgram']
mod_kwargs = {'subdir', 'limited_api'}
mod_kwargs.update(known_shmod_kwargs)
mod_kwargs -= {'name_prefix', 'name_suffix'}
_MOD_KWARGS = [k for k in SHARED_MOD_KWS if k.name not in {'name_prefix', 'name_suffix'}]
class PythonExternalProgram(BasicPythonExternalProgram):
# This is a ClassVar instead of an instance bool, because although an
# installation is cached, we actually copy it, modify attributes such as pure,
# and return a temporary one rather than the cached object.
run_bytecompile: T.ClassVar[T.Dict[str, bool]] = {}
def sanity(self, state: T.Optional['ModuleState'] = None) -> bool:
ret = super().sanity()
if ret:
self.platlib = self._get_path(state, 'platlib')
self.purelib = self._get_path(state, 'purelib')
return ret
def _get_path(self, state: T.Optional['ModuleState'], key: str) -> str:
rel_path = self.info['install_paths'][key][1:]
if not state:
# This happens only from run_project_tests.py
return rel_path
value = T.cast('str', state.get_option(f'{key}dir', module='python'))
if value:
if state.is_user_defined_option('install_env', module='python'):
raise mesonlib.MesonException(f'python.{key}dir and python.install_env are mutually exclusive')
return value
install_env = state.get_option('install_env', module='python')
if install_env == 'auto':
install_env = 'venv' if self.info['is_venv'] else 'system'
if install_env == 'system':
rel_path = os.path.join(self.info['variables']['prefix'], rel_path)
elif install_env == 'venv':
if not self.info['is_venv']:
raise mesonlib.MesonException('python.install_env cannot be set to "venv" unless you are in a venv!')
# inside a venv, deb_system is *never* active hence info['paths'] may be wrong
rel_path = self.info['sysconfig_paths'][key]
return rel_path
_PURE_KW = KwargInfo('pure', (bool, NoneType))
_SUBDIR_KW = KwargInfo('subdir', str, default='')
_LIMITED_API_KW = KwargInfo('limited_api', str, default='', since='1.3.0')
_DEFAULTABLE_SUBDIR_KW = KwargInfo('subdir', (str, NoneType))
class PythonInstallation(_ExternalProgramHolder['PythonExternalProgram']):
def __init__(self, python: 'PythonExternalProgram', interpreter: 'Interpreter'):
_ExternalProgramHolder.__init__(self, python, interpreter)
info = python.info
prefix = self.interpreter.environment.coredata.get_option(mesonlib.OptionKey('prefix'))
assert isinstance(prefix, str), 'for mypy'
self.variables = info['variables']
self.suffix = info['suffix']
self.limited_api_suffix = info['limited_api_suffix']
self.paths = info['paths']
self.pure = python.pure
self.platlib_install_path = os.path.join(prefix, python.platlib)
self.purelib_install_path = os.path.join(prefix, python.purelib)
self.version = info['version']
self.platform = info['platform']
self.is_pypy = info['is_pypy']
self.link_libpython = info['link_libpython']
self.methods.update({
'extension_module': self.extension_module_method,
'dependency': self.dependency_method,
'install_sources': self.install_sources_method,
'get_install_dir': self.get_install_dir_method,
'language_version': self.language_version_method,
'found': self.found_method,
'has_path': self.has_path_method,
'get_path': self.get_path_method,
'has_variable': self.has_variable_method,
'get_variable': self.get_variable_method,
'path': self.path_method,
})
@permittedKwargs(mod_kwargs)
@typed_pos_args('python.extension_module', str, varargs=(str, mesonlib.File, CustomTarget, CustomTargetIndex, GeneratedList, StructuredSources, ExtractedObjects, BuildTarget))
@typed_kwargs('python.extension_module', *_MOD_KWARGS, _DEFAULTABLE_SUBDIR_KW, _LIMITED_API_KW, allow_unknown=True)
def extension_module_method(self, args: T.Tuple[str, T.List[BuildTargetSource]], kwargs: ExtensionModuleKw) -> 'SharedModule':
if 'install_dir' in kwargs:
if kwargs['subdir'] is not None:
raise InvalidArguments('"subdir" and "install_dir" are mutually exclusive')
else:
# We want to remove 'subdir', but it may be None and we want to replace it with ''
# It must be done this way since we don't allow both `install_dir`
# and `subdir` to be set at the same time
subdir = kwargs.pop('subdir') or ''
Revert "devenv: Set PYTHONPATH where we install python modules" This reverts commit 79c6075b560dbf1c3e4e0b30f1c472dc2086421e. # Conflicts: # docs/markdown/snippets/devenv.md # mesonbuild/modules/python.py # test cases/unit/91 devenv/test-devenv.py PYTHONPATH cannot be reliably determined. The standard use case for installing python modules with Meson is mixed pure sources (at least `__init__.py`) and compiled extension_modules or configured files. Unfortunately that doesn't actually work because python will not load the same package hierarchy from two different directories, one a source directory and one a (mandatory) out of tree build directory. (It kind of can, but you need to do what this test case accidentally stumbled upon, which is namespace packages. Namespace packages are a very specific use case and you are NOT SUPPOSED to use them outside that use case, so people are not going to use them just to circumvent Meson devenv stuff as that would have negative install-time effects.) Adding PYTHONPATH anyway will just lead to documentation commitments which we cannot actually uphold, and confusing issues at time of use because some imports *will* work... and some will *not*. The end result will be a half-created tree of modules which just doesn't work together at all, but because it partially works, users attempting to debug it will spend time wondering why parts of it do import. For any case where the automatic devenv would work correctly, it will also work correctly to use `meson.add_devenv()` a single time, which is very easy to manually get correct and doesn't provide any significant value to automate. In the long run, an uninstalled python package environment will require "editable installs" support.
3 years ago
kwargs['install_dir'] = self._get_install_dir_impl(False, subdir)
target_suffix = self.suffix
new_deps = mesonlib.extract_as_list(kwargs, 'dependencies')
pydep = next((dep for dep in new_deps if isinstance(dep, _PythonDependencyBase)), None)
if pydep is None:
pydep = self._dependency_method_impl({})
if not pydep.found():
raise mesonlib.MesonException('Python dependency not found')
new_deps.append(pydep)
FeatureNew.single_use('python_installation.extension_module with implicit dependency on python',
'0.63.0', self.subproject, 'use python_installation.dependency()',
self.current_node)
limited_api_version = kwargs.pop('limited_api')
allow_limited_api = self.interpreter.environment.coredata.get_option(OptionKey('allow_limited_api', module='python'))
if limited_api_version != '' and allow_limited_api:
target_suffix = self.limited_api_suffix
limited_api_version_hex = self._convert_api_version_to_py_version_hex(limited_api_version, pydep.version)
limited_api_definition = f'-DPy_LIMITED_API={limited_api_version_hex}'
new_c_args = mesonlib.extract_as_list(kwargs, 'c_args')
new_c_args.append(limited_api_definition)
kwargs['c_args'] = new_c_args
new_cpp_args = mesonlib.extract_as_list(kwargs, 'cpp_args')
new_cpp_args.append(limited_api_definition)
kwargs['cpp_args'] = new_cpp_args
# When compiled under MSVC, Python's PC/pyconfig.h forcibly inserts pythonMAJOR.MINOR.lib
# into the linker path when not running in debug mode via a series #pragma comment(lib, "")
# directives. We manually override these here as this interferes with the intended
# use of the 'limited_api' kwarg
for_machine = self.interpreter.machine_from_native_kwarg(kwargs)
compilers = self.interpreter.environment.coredata.compilers[for_machine]
if any(compiler.get_id() == 'msvc' for compiler in compilers.values()):
pydep_copy = copy.copy(pydep)
pydep_copy.find_libpy_windows(self.env, limited_api=True)
if not pydep_copy.found():
raise mesonlib.MesonException('Python dependency supporting limited API not found')
new_deps.remove(pydep)
new_deps.append(pydep_copy)
pyver = pydep.version.replace('.', '')
python_windows_debug_link_exception = f'/NODEFAULTLIB:python{pyver}_d.lib'
python_windows_release_link_exception = f'/NODEFAULTLIB:python{pyver}.lib'
new_link_args = mesonlib.extract_as_list(kwargs, 'link_args')
is_debug = self.interpreter.environment.coredata.options[OptionKey('debug')].value
if is_debug:
new_link_args.append(python_windows_debug_link_exception)
else:
new_link_args.append(python_windows_release_link_exception)
kwargs['link_args'] = new_link_args
kwargs['dependencies'] = new_deps
# msys2's python3 has "-cpython-36m.dll", we have to be clever
# FIXME: explain what the specific cleverness is here
split, target_suffix = target_suffix.rsplit('.', 1)
args = (args[0] + split, args[1])
kwargs['name_prefix'] = ''
kwargs['name_suffix'] = target_suffix
if 'gnu_symbol_visibility' not in kwargs and \
(self.is_pypy or mesonlib.version_compare(self.version, '>=3.9')):
kwargs['gnu_symbol_visibility'] = 'inlineshidden'
return self.interpreter.build_target(self.current_node, args, kwargs, SharedModule)
def _convert_api_version_to_py_version_hex(self, api_version: str, detected_version: str) -> str:
python_api_version_format = re.compile(r'[0-9]\.[0-9]{1,2}')
decimal_match = python_api_version_format.fullmatch(api_version)
if not decimal_match:
raise InvalidArguments(f'Python API version invalid: "{api_version}".')
if mesonlib.version_compare(api_version, '<3.2'):
raise InvalidArguments(f'Python Limited API version invalid: {api_version} (must be greater than 3.2)')
if mesonlib.version_compare(api_version, '>' + detected_version):
raise InvalidArguments(f'Python Limited API version too high: {api_version} (detected {detected_version})')
version_components = api_version.split('.')
major = int(version_components[0])
minor = int(version_components[1])
return '0x{:02x}{:02x}0000'.format(major, minor)
def _dependency_method_impl(self, kwargs: TYPE_kwargs) -> Dependency:
for_machine = self.interpreter.machine_from_native_kwarg(kwargs)
identifier = get_dep_identifier(self._full_path(), kwargs)
dep = self.interpreter.coredata.deps[for_machine].get(identifier)
if dep is not None:
return dep
new_kwargs = kwargs.copy()
new_kwargs['required'] = False
candidates = python_factory(self.interpreter.environment, for_machine, new_kwargs, self.held_object)
dep = find_external_dependency('python', self.interpreter.environment, new_kwargs, candidates)
self.interpreter.coredata.deps[for_machine].put(identifier, dep)
return dep
@disablerIfNotFound
@permittedKwargs(permitted_dependency_kwargs | {'embed'})
@FeatureNewKwargs('python_installation.dependency', '0.53.0', ['embed'])
@noPosargs
def dependency_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> 'Dependency':
disabled, required, feature = extract_required_kwarg(kwargs, self.subproject)
if disabled:
mlog.log('Dependency', mlog.bold('python'), 'skipped: feature', mlog.bold(feature), 'disabled')
return NotFoundDependency('python', self.interpreter.environment)
else:
dep = self._dependency_method_impl(kwargs)
if required and not dep.found():
raise mesonlib.MesonException('Python dependency not found')
return dep
@typed_pos_args('install_data', varargs=(str, mesonlib.File))
@typed_kwargs(
'python_installation.install_sources',
_PURE_KW,
_SUBDIR_KW,
PRESERVE_PATH_KW,
KwargInfo('install_tag', (str, NoneType), since='0.60.0')
)
def install_sources_method(self, args: T.Tuple[T.List[T.Union[str, mesonlib.File]]],
kwargs: 'PyInstallKw') -> 'Data':
self.held_object.run_bytecompile[self.version] = True
tag = kwargs['install_tag'] or 'python-runtime'
pure = kwargs['pure'] if kwargs['pure'] is not None else self.pure
install_dir = self._get_install_dir_impl(pure, kwargs['subdir'])
Revert "devenv: Set PYTHONPATH where we install python modules" This reverts commit 79c6075b560dbf1c3e4e0b30f1c472dc2086421e. # Conflicts: # docs/markdown/snippets/devenv.md # mesonbuild/modules/python.py # test cases/unit/91 devenv/test-devenv.py PYTHONPATH cannot be reliably determined. The standard use case for installing python modules with Meson is mixed pure sources (at least `__init__.py`) and compiled extension_modules or configured files. Unfortunately that doesn't actually work because python will not load the same package hierarchy from two different directories, one a source directory and one a (mandatory) out of tree build directory. (It kind of can, but you need to do what this test case accidentally stumbled upon, which is namespace packages. Namespace packages are a very specific use case and you are NOT SUPPOSED to use them outside that use case, so people are not going to use them just to circumvent Meson devenv stuff as that would have negative install-time effects.) Adding PYTHONPATH anyway will just lead to documentation commitments which we cannot actually uphold, and confusing issues at time of use because some imports *will* work... and some will *not*. The end result will be a half-created tree of modules which just doesn't work together at all, but because it partially works, users attempting to debug it will spend time wondering why parts of it do import. For any case where the automatic devenv would work correctly, it will also work correctly to use `meson.add_devenv()` a single time, which is very easy to manually get correct and doesn't provide any significant value to automate. In the long run, an uninstalled python package environment will require "editable installs" support.
3 years ago
return self.interpreter.install_data_impl(
self.interpreter.source_strings_to_files(args[0]),
install_dir,
mesonlib.FileMode(), rename=None, tag=tag, install_data_type='python',
preserve_path=kwargs['preserve_path'])
@noPosargs
@typed_kwargs('python_installation.install_dir', _PURE_KW, _SUBDIR_KW)
def get_install_dir_method(self, args: T.List['TYPE_var'], kwargs: 'PyInstallKw') -> str:
self.held_object.run_bytecompile[self.version] = True
pure = kwargs['pure'] if kwargs['pure'] is not None else self.pure
return self._get_install_dir_impl(pure, kwargs['subdir'])
def _get_install_dir_impl(self, pure: bool, subdir: str) -> P_OBJ.OptionString:
if pure:
base = self.purelib_install_path
name = '{py_purelib}'
else:
base = self.platlib_install_path
name = '{py_platlib}'
return P_OBJ.OptionString(os.path.join(base, subdir), os.path.join(name, subdir))
@noPosargs
@noKwargs
def language_version_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> str:
return self.version
@typed_pos_args('python_installation.has_path', str)
@noKwargs
def has_path_method(self, args: T.Tuple[str], kwargs: 'TYPE_kwargs') -> bool:
return args[0] in self.paths
@typed_pos_args('python_installation.get_path', str, optargs=[object])
@noKwargs
def get_path_method(self, args: T.Tuple[str, T.Optional['TYPE_var']], kwargs: 'TYPE_kwargs') -> 'TYPE_var':
path_name, fallback = args
try:
return self.paths[path_name]
except KeyError:
if fallback is not None:
return fallback
raise InvalidArguments(f'{path_name} is not a valid path name')
@typed_pos_args('python_installation.has_variable', str)
@noKwargs
def has_variable_method(self, args: T.Tuple[str], kwargs: 'TYPE_kwargs') -> bool:
return args[0] in self.variables
@typed_pos_args('python_installation.get_variable', str, optargs=[object])
@noKwargs
def get_variable_method(self, args: T.Tuple[str, T.Optional['TYPE_var']], kwargs: 'TYPE_kwargs') -> 'TYPE_var':
var_name, fallback = args
try:
return self.variables[var_name]
except KeyError:
if fallback is not None:
return fallback
raise InvalidArguments(f'{var_name} is not a valid variable name')
@noPosargs
@noKwargs
@FeatureNew('Python module path method', '0.50.0')
def path_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> str:
return super().path_method(args, kwargs)
class PythonModule(ExtensionModule):
INFO = ModuleInfo('python', '0.46.0')
def __init__(self, interpreter: 'Interpreter') -> None:
super().__init__(interpreter)
self.installations: T.Dict[str, MaybePythonProg] = {}
self.methods.update({
'find_installation': self.find_installation,
})
def _get_install_scripts(self) -> T.List[mesonlib.ExecutableSerialisation]:
backend = self.interpreter.backend
ret = []
optlevel = self.interpreter.environment.coredata.get_option(mesonlib.OptionKey('bytecompile', module='python'))
if optlevel == -1:
return ret
if not any(PythonExternalProgram.run_bytecompile.values()):
return ret
installdata = backend.create_install_data()
py_files = []
def should_append(f, isdir: bool = False):
# This uses the install_plan decorated names to see if the original source was propagated via
# install_sources() or get_install_dir().
return f.startswith(('{py_platlib}', '{py_purelib}')) and (f.endswith('.py') or isdir)
for t in installdata.targets:
if should_append(t.out_name):
py_files.append((t.out_name, os.path.join(installdata.prefix, t.outdir, os.path.basename(t.fname))))
for d in installdata.data:
if should_append(d.install_path_name):
py_files.append((d.install_path_name, os.path.join(installdata.prefix, d.install_path)))
for d in installdata.install_subdirs:
if should_append(d.install_path_name, True):
py_files.append((d.install_path_name, os.path.join(installdata.prefix, d.install_path)))
import importlib.resources
pycompile = os.path.join(self.interpreter.environment.get_scratch_dir(), 'pycompile.py')
with open(pycompile, 'wb') as f:
f.write(importlib.resources.read_binary('mesonbuild.scripts', 'pycompile.py'))
for i in self.installations.values():
if isinstance(i, PythonExternalProgram) and i.run_bytecompile[i.info['version']]:
i = T.cast('PythonExternalProgram', i)
manifest = f'python-{i.info["version"]}-installed.json'
manifest_json = []
for name, f in py_files:
if f.startswith((os.path.join(installdata.prefix, i.platlib), os.path.join(installdata.prefix, i.purelib))):
manifest_json.append(name)
with open(os.path.join(self.interpreter.environment.get_scratch_dir(), manifest), 'w', encoding='utf-8') as f:
json.dump(manifest_json, f)
cmd = i.command + [pycompile, manifest, str(optlevel)]
script = backend.get_executable_serialisation(cmd, verbose=True, tag='python-runtime',
installdir_map={'py_purelib': i.purelib, 'py_platlib': i.platlib})
ret.append(script)
return ret
def postconf_hook(self, b: Build) -> None:
b.install_scripts.extend(self._get_install_scripts())
# https://www.python.org/dev/peps/pep-0397/
@staticmethod
def _get_win_pythonpath(name_or_path: str) -> T.Optional[str]:
if not name_or_path.startswith(('python2', 'python3')):
return None
if not shutil.which('py'):
# program not installed, return without an exception
return None
ver = f'-{name_or_path[6:]}'
cmd = ['py', ver, '-c', "import sysconfig; print(sysconfig.get_config_var('BINDIR'))"]
_, stdout, _ = mesonlib.Popen_safe(cmd)
directory = stdout.strip()
if os.path.exists(directory):
return os.path.join(directory, 'python')
else:
return None
def _find_installation_impl(self, state: 'ModuleState', display_name: str, name_or_path: str, required: bool) -> MaybePythonProg:
if not name_or_path:
python = PythonExternalProgram('python3', mesonlib.python_command)
else:
tmp_python = ExternalProgram.from_entry(display_name, name_or_path)
python = PythonExternalProgram(display_name, ext_prog=tmp_python)
if not python.found() and mesonlib.is_windows():
pythonpath = self._get_win_pythonpath(name_or_path)
if pythonpath is not None:
name_or_path = pythonpath
python = PythonExternalProgram(name_or_path)
# Last ditch effort, python2 or python3 can be named python
# on various platforms, let's not give up just yet, if an executable
# named python is available and has a compatible version, let's use
# it
if not python.found() and name_or_path in {'python2', 'python3'}:
tmp_python = ExternalProgram.from_entry(display_name, 'python')
python = PythonExternalProgram(name_or_path, ext_prog=tmp_python)
if python.found():
if python.sanity(state):
return python
else:
sanitymsg = f'{python} is not a valid python or it is missing distutils'
if required:
raise mesonlib.MesonException(sanitymsg)
else:
mlog.warning(sanitymsg, location=state.current_node)
return NonExistingExternalProgram(python.name)
@disablerIfNotFound
@typed_pos_args('python.find_installation', optargs=[str])
@typed_kwargs(
'python.find_installation',
KwargInfo('required', (bool, UserFeatureOption), default=True),
KwargInfo('disabler', bool, default=False, since='0.49.0'),
KwargInfo('modules', ContainerTypeInfo(list, str), listify=True, default=[], since='0.51.0'),
_PURE_KW.evolve(default=True, since='0.64.0'),
)
def find_installation(self, state: 'ModuleState', args: T.Tuple[T.Optional[str]],
kwargs: 'FindInstallationKw') -> MaybePythonProg:
feature_check = FeatureNew('Passing "feature" option to find_installation', '0.48.0')
disabled, required, feature = extract_required_kwarg(kwargs, state.subproject, feature_check)
# FIXME: this code is *full* of sharp corners. It assumes that it's
# going to get a string value (or now a list of length 1), of `python2`
# or `python3` which is completely nonsense. On windows the value could
# easily be `['py', '-3']`, or `['py', '-3.7']` to get a very specific
# version of python. On Linux we might want a python that's not in
# $PATH, or that uses a wrapper of some kind.
np: T.List[str] = state.environment.lookup_binary_entry(MachineChoice.HOST, 'python') or []
fallback = args[0]
display_name = fallback or 'python'
if not np and fallback is not None:
np = [fallback]
name_or_path = np[0] if np else None
if disabled:
mlog.log('Program', name_or_path or 'python', 'found:', mlog.red('NO'), '(disabled by:', mlog.bold(feature), ')')
return NonExistingExternalProgram()
python = self.installations.get(name_or_path)
if not python:
python = self._find_installation_impl(state, display_name, name_or_path, required)
self.installations[name_or_path] = python
want_modules = kwargs['modules']
found_modules: T.List[str] = []
missing_modules: T.List[str] = []
if python.found() and want_modules:
for mod in want_modules:
p, *_ = mesonlib.Popen_safe(
python.command +
['-c', f'import {mod}'])
if p.returncode != 0:
missing_modules.append(mod)
else:
found_modules.append(mod)
msg: T.List['mlog.TV_Loggable'] = ['Program', python.name]
if want_modules:
msg.append('({})'.format(', '.join(want_modules)))
msg.append('found:')
if python.found() and not missing_modules:
msg.extend([mlog.green('YES'), '({})'.format(' '.join(python.command))])
else:
msg.append(mlog.red('NO'))
if found_modules:
msg.append('modules:')
msg.append(', '.join(found_modules))
mlog.log(*msg)
if not python.found():
if required:
raise mesonlib.MesonException('{} not found'.format(name_or_path or 'python'))
return NonExistingExternalProgram(python.name)
elif missing_modules:
if required:
raise mesonlib.MesonException('{} is missing modules: {}'.format(name_or_path or 'python', ', '.join(missing_modules)))
return NonExistingExternalProgram(python.name)
else:
assert isinstance(python, PythonExternalProgram), 'for mypy'
python = copy.copy(python)
python.pure = kwargs['pure']
python.run_bytecompile.setdefault(python.info['version'], False)
return python
raise mesonlib.MesonBugException('Unreachable code was reached (PythonModule.find_installation).')
def initialize(interpreter: 'Interpreter') -> PythonModule:
mod = PythonModule(interpreter)
mod.interpreter.append_holder_map(PythonExternalProgram, PythonInstallation)
return mod