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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
from pathlib import Path
import copy
import functools
import json
import os
import shutil
import typing as T
from . import ExtensionModule, ModuleInfo
from .. import mesonlib
from .. import mlog
from ..coredata import UserFeatureOption
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
from ..build import known_shmod_kwargs
from ..dependencies import DependencyMethods, PkgConfigDependency, NotFoundDependency, SystemDependency, ExtraFrameworkDependency
from ..dependencies.base import process_method_kw
from ..dependencies.detect import get_dep_identifier
from ..environment import detect_cpu_family
from ..interpreter import ExternalProgramHolder, extract_required_kwarg, permitted_dependency_kwargs
from ..interpreter import primitives as P_OBJ
from ..interpreter.type_checking import NoneType, PRESERVE_PATH_KW
from ..interpreterbase import (
noPosargs, noKwargs, permittedKwargs, ContainerTypeInfo,
InvalidArguments, typed_pos_args, typed_kwargs, KwargInfo,
FeatureNew, FeatureNewKwargs, disablerIfNotFound
)
from ..mesonlib import MachineChoice
from ..programs import ExternalProgram, NonExistingExternalProgram
if T.TYPE_CHECKING:
from typing_extensions import TypedDict
from . import ModuleState
from ..build import SharedModule, Data
from ..dependencies import ExternalDependency, Dependency
from ..dependencies.factory import DependencyGenerator
from ..environment import Environment
from ..interpreter import Interpreter
from ..interpreter.kwargs import ExtractRequired
from ..interpreterbase.interpreterbase import TYPE_var, TYPE_kwargs
class PythonIntrospectionDict(TypedDict):
install_paths: T.Dict[str, str]
is_pypy: bool
is_venv: bool
link_libpython: bool
sysconfig_paths: T.Dict[str, str]
paths: T.Dict[str, str]
platform: str
suffix: str
variables: T.Dict[str, str]
version: str
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]
_Base = ExternalDependency
else:
_Base = object
mod_kwargs = {'subdir'}
mod_kwargs.update(known_shmod_kwargs)
mod_kwargs -= {'name_prefix', 'name_suffix'}
class _PythonDependencyBase(_Base):
def __init__(self, python_holder: 'PythonInstallation', embed: bool):
self.embed = embed
self.version: str = python_holder.version
self.platform = python_holder.platform
self.variables = python_holder.variables
self.paths = python_holder.paths
self.link_libpython = python_holder.link_libpython
self.info: T.Optional[T.Dict[str, str]] = None
if mesonlib.version_compare(self.version, '>= 3.0'):
self.major_version = 3
else:
self.major_version = 2
class PythonPkgConfigDependency(PkgConfigDependency, _PythonDependencyBase):
def __init__(self, name: str, environment: 'Environment',
kwargs: T.Dict[str, T.Any], installation: 'PythonInstallation',
libpc: bool = False):
if libpc:
mlog.debug(f'Searching for {name!r} via pkgconfig lookup in LIBPC')
else:
mlog.debug(f'Searching for {name!r} via fallback pkgconfig lookup in default paths')
PkgConfigDependency.__init__(self, name, environment, kwargs)
_PythonDependencyBase.__init__(self, installation, kwargs.get('embed', False))
if libpc and not self.is_found:
mlog.debug(f'"python-{self.version}" could not be found in LIBPC, this is likely due to a relocated python installation')
# The "-embed" version of python.pc was introduced in 3.8, and distutils
# extension linking was changed to be considered a non embed usage. Before
# then, this dependency always uses the embed=True file because that is the
# only one that exists,
#
# On macOS and some Linux distros (Debian) distutils doesn't link extensions
# against libpython, even on 3.7 and below. We call into distutils and
# mirror its behavior. See https://github.com/mesonbuild/meson/issues/4117
if not self.embed and not self.link_libpython and mesonlib.version_compare(self.version, '< 3.8'):
self.link_args = []
class PythonFrameworkDependency(ExtraFrameworkDependency, _PythonDependencyBase):
def __init__(self, name: str, environment: 'Environment',
kwargs: T.Dict[str, T.Any], installation: 'PythonInstallation'):
ExtraFrameworkDependency.__init__(self, name, environment, kwargs)
_PythonDependencyBase.__init__(self, installation, kwargs.get('embed', False))
class PythonSystemDependency(SystemDependency, _PythonDependencyBase):
def __init__(self, name: str, environment: 'Environment',
kwargs: T.Dict[str, T.Any], installation: 'PythonInstallation'):
SystemDependency.__init__(self, name, environment, kwargs)
_PythonDependencyBase.__init__(self, installation, kwargs.get('embed', False))
if mesonlib.is_windows():
self._find_libpy_windows(environment)
else:
self._find_libpy(installation, environment)
def _find_libpy(self, python_holder: 'PythonInstallation', environment: 'Environment') -> None:
if python_holder.is_pypy:
if self.major_version == 3:
libname = 'pypy3-c'
else:
libname = 'pypy-c'
libdir = os.path.join(self.variables.get('base'), 'bin')
libdirs = [libdir]
else:
libname = f'python{self.version}'
if 'DEBUG_EXT' in self.variables:
libname += self.variables['DEBUG_EXT']
if 'ABIFLAGS' in self.variables:
libname += self.variables['ABIFLAGS']
libdirs = []
largs = self.clib_compiler.find_library(libname, environment, libdirs)
if largs is not None:
self.link_args = largs
self.is_found = largs is not None or not self.link_libpython
inc_paths = mesonlib.OrderedSet([
self.variables.get('INCLUDEPY'),
self.paths.get('include'),
self.paths.get('platinclude')])
self.compile_args += ['-I' + path for path in inc_paths if path]
def _get_windows_python_arch(self) -> T.Optional[str]:
if self.platform == 'mingw':
pycc = self.variables.get('CC')
if pycc.startswith('x86_64'):
return '64'
elif pycc.startswith(('i686', 'i386')):
return '32'
else:
3 years ago
mlog.log(f'MinGW Python built with unknown CC {pycc!r}, please file a bug')
return None
elif self.platform == 'win32':
return '32'
elif self.platform in {'win64', 'win-amd64'}:
return '64'
mlog.log(f'Unknown Windows Python platform {self.platform!r}')
return None
def _get_windows_link_args(self) -> T.Optional[T.List[str]]:
if self.platform.startswith('win'):
vernum = self.variables.get('py_version_nodot')
verdot = self.variables.get('py_version_short')
imp_lower = self.variables.get('implementation_lower', 'python')
if self.static:
libpath = Path('libs') / f'libpython{vernum}.a'
else:
comp = self.get_compiler()
if comp.id == "gcc":
if imp_lower == 'pypy' and verdot == '3.8':
# The naming changed between 3.8 and 3.9
libpath = Path('libpypy3-c.dll')
elif imp_lower == 'pypy':
libpath = Path(f'libpypy{verdot}-c.dll')
else:
libpath = Path(f'python{vernum}.dll')
else:
libpath = Path('libs') / f'python{vernum}.lib'
# base_prefix to allow for virtualenvs.
lib = Path(self.variables.get('base_prefix')) / libpath
elif self.platform == 'mingw':
if self.static:
libname = self.variables.get('LIBRARY')
else:
libname = self.variables.get('LDLIBRARY')
lib = Path(self.variables.get('LIBDIR')) / libname
else:
raise mesonlib.MesonBugException(
'On a Windows path, but the OS doesn\'t appear to be Windows or MinGW.')
if not lib.exists():
mlog.log('Could not find Python3 library {!r}'.format(str(lib)))
return None
return [str(lib)]
def _find_libpy_windows(self, env: 'Environment') -> None:
'''
Find python3 libraries on Windows and also verify that the arch matches
what we are building for.
'''
pyarch = self._get_windows_python_arch()
if pyarch is None:
self.is_found = False
return
arch = detect_cpu_family(env.coredata.compilers.host)
if arch == 'x86':
arch = '32'
elif arch == 'x86_64':
arch = '64'
else:
# We can't cross-compile Python 3 dependencies on Windows yet
mlog.log(f'Unknown architecture {arch!r} for',
mlog.bold(self.name))
self.is_found = False
return
# Pyarch ends in '32' or '64'
if arch != pyarch:
3 years ago
mlog.log('Need', mlog.bold(self.name), f'for {arch}-bit, but found {pyarch}-bit')
self.is_found = False
return
# This can fail if the library is not found
largs = self._get_windows_link_args()
if largs is None:
self.is_found = False
return
self.link_args = largs
# Compile args
inc_paths = mesonlib.OrderedSet([
self.variables.get('INCLUDEPY'),
self.paths.get('include'),
self.paths.get('platinclude')])
self.compile_args += ['-I' + path for path in inc_paths if path]
# https://sourceforge.net/p/mingw-w64/mailman/message/30504611/
if pyarch == '64' and self.major_version == 2:
self.compile_args += ['-DMS_WIN64']
self.is_found = True
def python_factory(env: 'Environment', for_machine: 'MachineChoice',
kwargs: T.Dict[str, T.Any], methods: T.List[DependencyMethods],
installation: 'PythonInstallation') -> T.List['DependencyGenerator']:
# We can't use the factory_methods decorator here, as we need to pass the
# extra installation argument
embed = kwargs.get('embed', False)
candidates: T.List['DependencyGenerator'] = []
pkg_version = installation.variables.get('LDVERSION') or installation.version
if DependencyMethods.PKGCONFIG in methods:
pkg_libdir = installation.variables.get('LIBPC')
pkg_embed = '-embed' if embed and mesonlib.version_compare(installation.version, '>=3.8') else ''
pkg_name = f'python-{pkg_version}{pkg_embed}'
# If python-X.Y.pc exists in LIBPC, we will try to use it
def wrap_in_pythons_pc_dir(name: str, env: 'Environment', kwargs: T.Dict[str, T.Any],
installation: 'PythonInstallation') -> 'ExternalDependency':
if not pkg_libdir:
# there is no LIBPC, so we can't search in it
return NotFoundDependency('python', env)
old_pkg_libdir = os.environ.pop('PKG_CONFIG_LIBDIR', None)
old_pkg_path = os.environ.pop('PKG_CONFIG_PATH', None)
os.environ['PKG_CONFIG_LIBDIR'] = pkg_libdir
try:
return PythonPkgConfigDependency(name, env, kwargs, installation, True)
finally:
def set_env(name, value):
if value is not None:
os.environ[name] = value
elif name in os.environ:
del os.environ[name]
set_env('PKG_CONFIG_LIBDIR', old_pkg_libdir)
set_env('PKG_CONFIG_PATH', old_pkg_path)
candidates.append(functools.partial(wrap_in_pythons_pc_dir, pkg_name, env, kwargs, installation))
# We only need to check both, if a python install has a LIBPC. It might point to the wrong location,
# e.g. relocated / cross compilation, but the presence of LIBPC indicates we should definitely look for something.
if pkg_libdir is not None:
candidates.append(functools.partial(PythonPkgConfigDependency, pkg_name, env, kwargs, installation))
if DependencyMethods.SYSTEM in methods:
candidates.append(functools.partial(PythonSystemDependency, 'python', env, kwargs, installation))
if DependencyMethods.EXTRAFRAMEWORK in methods:
nkwargs = kwargs.copy()
if mesonlib.version_compare(pkg_version, '>= 3'):
# There is a python in /System/Library/Frameworks, but that's python 2.x,
# Python 3 will always be in /Library
nkwargs['paths'] = ['/Library/Frameworks']
candidates.append(functools.partial(PythonFrameworkDependency, 'Python', env, nkwargs, installation))
return candidates
INTROSPECT_COMMAND = '''\
import os.path
import sysconfig
import json
import sys
import distutils.command.install
def get_distutils_paths(scheme=None, prefix=None):
import distutils.dist
distribution = distutils.dist.Distribution()
install_cmd = distribution.get_command_obj('install')
if prefix is not None:
install_cmd.prefix = prefix
if scheme:
install_cmd.select_scheme(scheme)
install_cmd.finalize_options()
return {
'data': install_cmd.install_data,
'include': os.path.dirname(install_cmd.install_headers),
'platlib': install_cmd.install_platlib,
'purelib': install_cmd.install_purelib,
'scripts': install_cmd.install_scripts,
}
# On Debian derivatives, the Python interpreter shipped by the distribution uses
# a custom install scheme, deb_system, for the system install, and changes the
# default scheme to a custom one pointing to /usr/local and replacing
# site-packages with dist-packages.
# See https://github.com/mesonbuild/meson/issues/8739.
# XXX: We should be using sysconfig, but Debian only patches distutils.
if 'deb_system' in distutils.command.install.INSTALL_SCHEMES:
paths = get_distutils_paths(scheme='deb_system')
install_paths = get_distutils_paths(scheme='deb_system', prefix='')
else:
paths = sysconfig.get_paths()
empty_vars = {'base': '', 'platbase': '', 'installed_base': ''}
install_paths = sysconfig.get_paths(vars=empty_vars)
def links_against_libpython():
from distutils.core import Distribution, Extension
cmd = Distribution().get_command_obj('build_ext')
cmd.ensure_finalized()
return bool(cmd.get_libraries(Extension('dummy', [])))
variables = sysconfig.get_config_vars()
variables.update({'base_prefix': getattr(sys, 'base_prefix', sys.prefix)})
if sys.version_info < (3, 0):
suffix = variables.get('SO')
elif sys.version_info < (3, 8, 7):
# https://bugs.python.org/issue?@action=redirect&bpo=39825
from distutils.sysconfig import get_config_var
suffix = get_config_var('EXT_SUFFIX')
else:
suffix = variables.get('EXT_SUFFIX')
print(json.dumps({
'variables': variables,
'paths': paths,
'sysconfig_paths': sysconfig.get_paths(),
'install_paths': install_paths,
'version': sysconfig.get_python_version(),
'platform': sysconfig.get_platform(),
'is_pypy': '__pypy__' in sys.builtin_module_names,
'is_venv': sys.prefix != variables['base_prefix'],
'link_libpython': links_against_libpython(),
'suffix': suffix,
}))
'''
class PythonExternalProgram(ExternalProgram):
def __init__(self, name: str, command: T.Optional[T.List[str]] = None,
ext_prog: T.Optional[ExternalProgram] = None):
if ext_prog is None:
super().__init__(name, command=command, silent=True)
else:
self.name = name
self.command = ext_prog.command
self.path = ext_prog.path
# We want strong key values, so we always populate this with bogus data.
# Otherwise to make the type checkers happy we'd have to do .get() for
# everycall, even though we know that the introspection data will be
# complete
self.info: 'PythonIntrospectionDict' = {
'install_paths': {},
'is_pypy': False,
'is_venv': False,
'link_libpython': False,
'sysconfig_paths': {},
'paths': {},
'platform': 'sentinal',
'variables': {},
'version': '0.0',
}
self.pure: bool = True
def _check_version(self, version: str) -> bool:
if self.name == 'python2':
return mesonlib.version_compare(version, '< 3.0')
elif self.name == 'python3':
return mesonlib.version_compare(version, '>= 3.0')
return True
def sanity(self, state: T.Optional['ModuleState'] = None) -> bool:
# Sanity check, we expect to have something that at least quacks in tune
from tempfile import NamedTemporaryFile
with NamedTemporaryFile(suffix='.py', delete=False, mode='w', encoding='utf-8') as tf:
tmpfilename = tf.name
tf.write(INTROSPECT_COMMAND)
cmd = self.get_command() + [tmpfilename]
p, stdout, stderr = mesonlib.Popen_safe(cmd)
os.unlink(tmpfilename)
try:
info = json.loads(stdout)
except json.JSONDecodeError:
info = None
mlog.debug('Could not introspect Python (%s): exit code %d' % (str(p.args), p.returncode))
mlog.debug('Program stdout:\n')
mlog.debug(stdout)
mlog.debug('Program stderr:\n')
mlog.debug(stderr)
if info is not None and self._check_version(info['version']):
self.info = T.cast('PythonIntrospectionDict', info)
self.platlib = self._get_path(state, 'platlib')
self.purelib = self._get_path(state, 'purelib')
return True
else:
return False
def _get_path(self, state: T.Optional['ModuleState'], key: str) -> None:
rel_path = self.info['install_paths'][key][1:]
if not state:
# This happens only from run_project_tests.py
return rel_path
value = 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='')
class PythonInstallation(ExternalProgramHolder):
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.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)
def extension_module_method(self, args: T.List['TYPE_var'], kwargs: 'TYPE_kwargs') -> 'SharedModule':
if 'install_dir' in kwargs:
if 'subdir' in kwargs:
raise InvalidArguments('"subdir" and "install_dir" are mutually exclusive')
else:
subdir = kwargs.pop('subdir', '')
if not isinstance(subdir, str):
raise InvalidArguments('"subdir" argument must be a string.')
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)
new_deps = mesonlib.extract_as_list(kwargs, 'dependencies')
has_pydep = any(isinstance(dep, _PythonDependencyBase) for dep in new_deps)
if not has_pydep:
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)
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, suffix = self.suffix.rsplit('.', 1)
args[0] += split
kwargs['name_prefix'] = ''
kwargs['name_suffix'] = 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.func_shared_module(None, args, kwargs)
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
methods = process_method_kw({DependencyMethods.PKGCONFIG, DependencyMethods.SYSTEM}, kwargs)
# it's theoretically (though not practically) possible to not bind dep, let's ensure it is.
dep: Dependency = NotFoundDependency('python', self.interpreter.environment)
for d in python_factory(self.interpreter.environment, for_machine, new_kwargs, methods, self):
dep = d()
if dep.found():
break
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':
tag = kwargs['install_tag'] or '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',
install_dir_name=install_dir.optname,
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:
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, ExternalProgram] = {}
self.methods.update({
'find_installation': self.find_installation,
})
# https://www.python.org/dev/peps/pep-0397/
@staticmethod
def _get_win_pythonpath(name_or_path: str) -> T.Optional[str]:
if name_or_path not in ['python2', 'python3']:
return None
if not shutil.which('py'):
# program not installed, return without an exception
return None
ver = {'python2': '-2', 'python3': '-3'}[name_or_path]
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) -> ExternalProgram:
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'}:
python = PythonExternalProgram('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()
@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') -> ExternalProgram:
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()
elif missing_modules:
if required:
raise mesonlib.MesonException('{} is missing modules: {}'.format(name_or_path or 'python', ', '.join(missing_modules)))
return NonExistingExternalProgram()
else:
python = copy.copy(python)
python.pure = kwargs['pure']
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