Server IP : 66.29.132.122 / Your IP : 18.190.156.214 Web Server : LiteSpeed System : Linux business142.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64 User : admazpex ( 531) PHP Version : 7.2.34 Disable Function : NONE MySQL : OFF | cURL : ON | WGET : ON | Perl : ON | Python : ON | Sudo : OFF | Pkexec : OFF Directory : /proc/self/root/proc/self/root/proc/thread-self/root/proc/thread-self/root/opt/alt/python312/lib/python3.12/site-packages/setuptools/ |
Upload File : |
"""A PEP 517 interface to setuptools Previously, when a user or a command line tool (let's call it a "frontend") needed to make a request of setuptools to take a certain action, for example, generating a list of installation requirements, the frontend would would call "setup.py egg_info" or "setup.py bdist_wheel" on the command line. PEP 517 defines a different method of interfacing with setuptools. Rather than calling "setup.py" directly, the frontend should: 1. Set the current directory to the directory with a setup.py file 2. Import this module into a safe python interpreter (one in which setuptools can potentially set global variables or crash hard). 3. Call one of the functions defined in PEP 517. What each function does is defined in PEP 517. However, here is a "casual" definition of the functions (this definition should not be relied on for bug reports or API stability): - `build_wheel`: build a wheel in the folder and return the basename - `get_requires_for_build_wheel`: get the `setup_requires` to build - `prepare_metadata_for_build_wheel`: get the `install_requires` - `build_sdist`: build an sdist in the folder and return the basename - `get_requires_for_build_sdist`: get the `setup_requires` to build Again, this is not a formal definition! Just a "taste" of the module. """ import io import os import shlex import sys import tokenize import shutil import contextlib import tempfile import warnings from pathlib import Path from typing import Dict, Iterator, List, Optional, Union import setuptools import distutils from . import errors from ._path import same_path from ._reqs import parse_strings from .warnings import SetuptoolsDeprecationWarning from distutils.util import strtobool __all__ = [ 'get_requires_for_build_sdist', 'get_requires_for_build_wheel', 'prepare_metadata_for_build_wheel', 'build_wheel', 'build_sdist', 'get_requires_for_build_editable', 'prepare_metadata_for_build_editable', 'build_editable', '__legacy__', 'SetupRequirementsError', ] SETUPTOOLS_ENABLE_FEATURES = os.getenv("SETUPTOOLS_ENABLE_FEATURES", "").lower() LEGACY_EDITABLE = "legacy-editable" in SETUPTOOLS_ENABLE_FEATURES.replace("_", "-") class SetupRequirementsError(BaseException): def __init__(self, specifiers): self.specifiers = specifiers class Distribution(setuptools.dist.Distribution): def fetch_build_eggs(self, specifiers): specifier_list = list(parse_strings(specifiers)) raise SetupRequirementsError(specifier_list) @classmethod @contextlib.contextmanager def patch(cls): """ Replace distutils.dist.Distribution with this class for the duration of this context. """ orig = distutils.core.Distribution distutils.core.Distribution = cls try: yield finally: distutils.core.Distribution = orig @contextlib.contextmanager def no_install_setup_requires(): """Temporarily disable installing setup_requires Under PEP 517, the backend reports build dependencies to the frontend, and the frontend is responsible for ensuring they're installed. So setuptools (acting as a backend) should not try to install them. """ orig = setuptools._install_setup_requires setuptools._install_setup_requires = lambda attrs: None try: yield finally: setuptools._install_setup_requires = orig def _get_immediate_subdirectories(a_dir): return [ name for name in os.listdir(a_dir) if os.path.isdir(os.path.join(a_dir, name)) ] def _file_with_extension(directory, extension): matching = (f for f in os.listdir(directory) if f.endswith(extension)) try: (file,) = matching except ValueError: raise ValueError( 'No distribution was found. Ensure that `setup.py` ' 'is not empty and that it calls `setup()`.' ) return file def _open_setup_script(setup_script): if not os.path.exists(setup_script): # Supply a default setup.py return io.StringIO(u"from setuptools import setup; setup()") return getattr(tokenize, 'open', open)(setup_script) @contextlib.contextmanager def suppress_known_deprecation(): with warnings.catch_warnings(): warnings.filterwarnings('ignore', 'setup.py install is deprecated') yield _ConfigSettings = Optional[Dict[str, Union[str, List[str], None]]] """ Currently the user can run:: pip install -e . --config-settings key=value python -m build -C--key=value -C key=value - pip will pass both key and value as strings and overwriting repeated keys (pypa/pip#11059). - build will accumulate values associated with repeated keys in a list. It will also accept keys with no associated value. This means that an option passed by build can be ``str | list[str] | None``. - PEP 517 specifies that ``config_settings`` is an optional dict. """ class _ConfigSettingsTranslator: """Translate ``config_settings`` into distutils-style command arguments. Only a limited number of options is currently supported. """ # See pypa/setuptools#1928 pypa/setuptools#2491 def _get_config(self, key: str, config_settings: _ConfigSettings) -> List[str]: """ Get the value of a specific key in ``config_settings`` as a list of strings. >>> fn = _ConfigSettingsTranslator()._get_config >>> fn("--global-option", None) [] >>> fn("--global-option", {}) [] >>> fn("--global-option", {'--global-option': 'foo'}) ['foo'] >>> fn("--global-option", {'--global-option': ['foo']}) ['foo'] >>> fn("--global-option", {'--global-option': 'foo'}) ['foo'] >>> fn("--global-option", {'--global-option': 'foo bar'}) ['foo', 'bar'] """ cfg = config_settings or {} opts = cfg.get(key) or [] return shlex.split(opts) if isinstance(opts, str) else opts def _global_args(self, config_settings: _ConfigSettings) -> Iterator[str]: """ Let the user specify ``verbose`` or ``quiet`` + escape hatch via ``--global-option``. Note: ``-v``, ``-vv``, ``-vvv`` have similar effects in setuptools, so we just have to cover the basic scenario ``-v``. >>> fn = _ConfigSettingsTranslator()._global_args >>> list(fn(None)) [] >>> list(fn({"verbose": "False"})) ['-q'] >>> list(fn({"verbose": "1"})) ['-v'] >>> list(fn({"--verbose": None})) ['-v'] >>> list(fn({"verbose": "true", "--global-option": "-q --no-user-cfg"})) ['-v', '-q', '--no-user-cfg'] >>> list(fn({"--quiet": None})) ['-q'] """ cfg = config_settings or {} falsey = {"false", "no", "0", "off"} if "verbose" in cfg or "--verbose" in cfg: level = str(cfg.get("verbose") or cfg.get("--verbose") or "1") yield ("-q" if level.lower() in falsey else "-v") if "quiet" in cfg or "--quiet" in cfg: level = str(cfg.get("quiet") or cfg.get("--quiet") or "1") yield ("-v" if level.lower() in falsey else "-q") yield from self._get_config("--global-option", config_settings) def __dist_info_args(self, config_settings: _ConfigSettings) -> Iterator[str]: """ The ``dist_info`` command accepts ``tag-date`` and ``tag-build``. .. warning:: We cannot use this yet as it requires the ``sdist`` and ``bdist_wheel`` commands run in ``build_sdist`` and ``build_wheel`` to reuse the egg-info directory created in ``prepare_metadata_for_build_wheel``. >>> fn = _ConfigSettingsTranslator()._ConfigSettingsTranslator__dist_info_args >>> list(fn(None)) [] >>> list(fn({"tag-date": "False"})) ['--no-date'] >>> list(fn({"tag-date": None})) ['--no-date'] >>> list(fn({"tag-date": "true", "tag-build": ".a"})) ['--tag-date', '--tag-build', '.a'] """ cfg = config_settings or {} if "tag-date" in cfg: val = strtobool(str(cfg["tag-date"] or "false")) yield ("--tag-date" if val else "--no-date") if "tag-build" in cfg: yield from ["--tag-build", str(cfg["tag-build"])] def _editable_args(self, config_settings: _ConfigSettings) -> Iterator[str]: """ The ``editable_wheel`` command accepts ``editable-mode=strict``. >>> fn = _ConfigSettingsTranslator()._editable_args >>> list(fn(None)) [] >>> list(fn({"editable-mode": "strict"})) ['--mode', 'strict'] """ cfg = config_settings or {} mode = cfg.get("editable-mode") or cfg.get("editable_mode") if not mode: return yield from ["--mode", str(mode)] def _arbitrary_args(self, config_settings: _ConfigSettings) -> Iterator[str]: """ Users may expect to pass arbitrary lists of arguments to a command via "--global-option" (example provided in PEP 517 of a "escape hatch"). >>> fn = _ConfigSettingsTranslator()._arbitrary_args >>> list(fn(None)) [] >>> list(fn({})) [] >>> list(fn({'--build-option': 'foo'})) ['foo'] >>> list(fn({'--build-option': ['foo']})) ['foo'] >>> list(fn({'--build-option': 'foo'})) ['foo'] >>> list(fn({'--build-option': 'foo bar'})) ['foo', 'bar'] >>> list(fn({'--global-option': 'foo'})) [] """ yield from self._get_config("--build-option", config_settings) class _BuildMetaBackend(_ConfigSettingsTranslator): def _get_build_requires(self, config_settings, requirements): sys.argv = [ *sys.argv[:1], *self._global_args(config_settings), "egg_info", ] try: with Distribution.patch(): self.run_setup() except SetupRequirementsError as e: requirements += e.specifiers return requirements def run_setup(self, setup_script='setup.py'): # Note that we can reuse our build directory between calls # Correctness comes first, then optimization later __file__ = os.path.abspath(setup_script) __name__ = '__main__' with _open_setup_script(__file__) as f: code = f.read().replace(r'\r\n', r'\n') try: exec(code, locals()) except SystemExit as e: if e.code: raise # We ignore exit code indicating success SetuptoolsDeprecationWarning.emit( "Running `setup.py` directly as CLI tool is deprecated.", "Please avoid using `sys.exit(0)` or similar statements " "that don't fit in the paradigm of a configuration file.", see_url="https://blog.ganssle.io/articles/2021/10/" "setup-py-deprecated.html", ) def get_requires_for_build_wheel(self, config_settings=None): return self._get_build_requires(config_settings, requirements=['wheel']) def get_requires_for_build_sdist(self, config_settings=None): return self._get_build_requires(config_settings, requirements=[]) def _bubble_up_info_directory(self, metadata_directory: str, suffix: str) -> str: """ PEP 517 requires that the .dist-info directory be placed in the metadata_directory. To comply, we MUST copy the directory to the root. Returns the basename of the info directory, e.g. `proj-0.0.0.dist-info`. """ info_dir = self._find_info_directory(metadata_directory, suffix) if not same_path(info_dir.parent, metadata_directory): shutil.move(str(info_dir), metadata_directory) # PEP 517 allow other files and dirs to exist in metadata_directory return info_dir.name def _find_info_directory(self, metadata_directory: str, suffix: str) -> Path: for parent, dirs, _ in os.walk(metadata_directory): candidates = [f for f in dirs if f.endswith(suffix)] if len(candidates) != 0 or len(dirs) != 1: assert len(candidates) == 1, f"Multiple {suffix} directories found" return Path(parent, candidates[0]) msg = f"No {suffix} directory found in {metadata_directory}" raise errors.InternalError(msg) def prepare_metadata_for_build_wheel( self, metadata_directory, config_settings=None ): sys.argv = [ *sys.argv[:1], *self._global_args(config_settings), "dist_info", "--output-dir", metadata_directory, "--keep-egg-info", ] with no_install_setup_requires(): self.run_setup() self._bubble_up_info_directory(metadata_directory, ".egg-info") return self._bubble_up_info_directory(metadata_directory, ".dist-info") def _build_with_temp_dir( self, setup_command, result_extension, result_directory, config_settings ): result_directory = os.path.abspath(result_directory) # Build in a temporary directory, then copy to the target. os.makedirs(result_directory, exist_ok=True) temp_opts = {"prefix": ".tmp-", "dir": result_directory} with tempfile.TemporaryDirectory(**temp_opts) as tmp_dist_dir: sys.argv = [ *sys.argv[:1], *self._global_args(config_settings), *setup_command, "--dist-dir", tmp_dist_dir, ] with no_install_setup_requires(): self.run_setup() result_basename = _file_with_extension(tmp_dist_dir, result_extension) result_path = os.path.join(result_directory, result_basename) if os.path.exists(result_path): # os.rename will fail overwriting on non-Unix. os.remove(result_path) os.rename(os.path.join(tmp_dist_dir, result_basename), result_path) return result_basename def build_wheel( self, wheel_directory, config_settings=None, metadata_directory=None ): with suppress_known_deprecation(): return self._build_with_temp_dir( ['bdist_wheel', *self._arbitrary_args(config_settings)], '.whl', wheel_directory, config_settings, ) def build_sdist(self, sdist_directory, config_settings=None): return self._build_with_temp_dir( ['sdist', '--formats', 'gztar'], '.tar.gz', sdist_directory, config_settings ) def _get_dist_info_dir(self, metadata_directory: Optional[str]) -> Optional[str]: if not metadata_directory: return None dist_info_candidates = list(Path(metadata_directory).glob("*.dist-info")) assert len(dist_info_candidates) <= 1 return str(dist_info_candidates[0]) if dist_info_candidates else None if not LEGACY_EDITABLE: # PEP660 hooks: # build_editable # get_requires_for_build_editable # prepare_metadata_for_build_editable def build_editable( self, wheel_directory, config_settings=None, metadata_directory=None ): # XXX can or should we hide our editable_wheel command normally? info_dir = self._get_dist_info_dir(metadata_directory) opts = ["--dist-info-dir", info_dir] if info_dir else [] cmd = ["editable_wheel", *opts, *self._editable_args(config_settings)] with suppress_known_deprecation(): return self._build_with_temp_dir( cmd, ".whl", wheel_directory, config_settings ) def get_requires_for_build_editable(self, config_settings=None): return self.get_requires_for_build_wheel(config_settings) def prepare_metadata_for_build_editable( self, metadata_directory, config_settings=None ): return self.prepare_metadata_for_build_wheel( metadata_directory, config_settings ) class _BuildMetaLegacyBackend(_BuildMetaBackend): """Compatibility backend for setuptools This is a version of setuptools.build_meta that endeavors to maintain backwards compatibility with pre-PEP 517 modes of invocation. It exists as a temporary bridge between the old packaging mechanism and the new packaging mechanism, and will eventually be removed. """ def run_setup(self, setup_script='setup.py'): # In order to maintain compatibility with scripts assuming that # the setup.py script is in a directory on the PYTHONPATH, inject # '' into sys.path. (pypa/setuptools#1642) sys_path = list(sys.path) # Save the original path script_dir = os.path.dirname(os.path.abspath(setup_script)) if script_dir not in sys.path: sys.path.insert(0, script_dir) # Some setup.py scripts (e.g. in pygame and numpy) use sys.argv[0] to # get the directory of the source code. They expect it to refer to the # setup.py script. sys_argv_0 = sys.argv[0] sys.argv[0] = setup_script try: super(_BuildMetaLegacyBackend, self).run_setup(setup_script=setup_script) finally: # While PEP 517 frontends should be calling each hook in a fresh # subprocess according to the standard (and thus it should not be # strictly necessary to restore the old sys.path), we'll restore # the original path so that the path manipulation does not persist # within the hook after run_setup is called. sys.path[:] = sys_path sys.argv[0] = sys_argv_0 # The primary backend _BACKEND = _BuildMetaBackend() get_requires_for_build_wheel = _BACKEND.get_requires_for_build_wheel get_requires_for_build_sdist = _BACKEND.get_requires_for_build_sdist prepare_metadata_for_build_wheel = _BACKEND.prepare_metadata_for_build_wheel build_wheel = _BACKEND.build_wheel build_sdist = _BACKEND.build_sdist if not LEGACY_EDITABLE: get_requires_for_build_editable = _BACKEND.get_requires_for_build_editable prepare_metadata_for_build_editable = _BACKEND.prepare_metadata_for_build_editable build_editable = _BACKEND.build_editable # The legacy backend __legacy__ = _BuildMetaLegacyBackend()