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# Copyright 2019 The Meson development team
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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# http://www.apache.org/licenses/LICENSE-2.0
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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from __future__ import annotations
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from pathlib import Path, PurePath, PureWindowsPath
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import hashlib
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import os
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import typing as T
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from . import ExtensionModule, ModuleReturnValue, ModuleInfo
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from .. import mlog
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from ..build import CustomTarget, InvalidArguments
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from ..interpreter.type_checking import INSTALL_KW, INSTALL_MODE_KW, INSTALL_TAG_KW, NoneType
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from ..interpreterbase import FeatureNew, KwargInfo, typed_kwargs, typed_pos_args, noKwargs
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from ..mesonlib import (
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File,
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MesonException,
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has_path_sep,
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path_is_in_root,
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)
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if T.TYPE_CHECKING:
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from . import ModuleState
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from ..interpreter import Interpreter
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from ..mesonlib import FileOrString, FileMode
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from typing_extensions import TypedDict
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class ReadKwArgs(TypedDict):
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"""Keyword Arguments for fs.read."""
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encoding: str
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class CopyKw(TypedDict):
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"""Kwargs for fs.copy"""
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install: bool
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install_dir: T.Optional[str]
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install_mode: FileMode
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install_tag: T.Optional[str]
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class FSModule(ExtensionModule):
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INFO = ModuleInfo('fs', '0.53.0')
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def __init__(self, interpreter: 'Interpreter') -> None:
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super().__init__(interpreter)
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self.methods.update({
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'expanduser': self.expanduser,
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'is_absolute': self.is_absolute,
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'as_posix': self.as_posix,
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'exists': self.exists,
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'is_symlink': self.is_symlink,
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'is_file': self.is_file,
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'is_dir': self.is_dir,
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'hash': self.hash,
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'size': self.size,
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'is_samepath': self.is_samepath,
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'replace_suffix': self.replace_suffix,
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'parent': self.parent,
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'name': self.name,
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'stem': self.stem,
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'read': self.read,
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'copyfile': self.copyfile,
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})
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def _absolute_dir(self, state: 'ModuleState', arg: 'FileOrString') -> Path:
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"""
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make an absolute path from a relative path, WITHOUT resolving symlinks
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"""
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if isinstance(arg, File):
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return Path(arg.absolute_path(state.source_root, self.interpreter.environment.get_build_dir()))
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return Path(state.source_root) / Path(state.subdir) / Path(arg).expanduser()
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def _resolve_dir(self, state: 'ModuleState', arg: 'FileOrString') -> Path:
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"""
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resolves symlinks and makes absolute a directory relative to calling meson.build,
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if not already absolute
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"""
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path = self._absolute_dir(state, arg)
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try:
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# accommodate unresolvable paths e.g. symlink loops
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path = path.resolve()
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except Exception:
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# return the best we could do
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pass
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return path
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@noKwargs
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@FeatureNew('fs.expanduser', '0.54.0')
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@typed_pos_args('fs.expanduser', str)
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def expanduser(self, state: 'ModuleState', args: T.Tuple[str], kwargs: T.Dict[str, T.Any]) -> str:
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return str(Path(args[0]).expanduser())
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@noKwargs
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@FeatureNew('fs.is_absolute', '0.54.0')
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@typed_pos_args('fs.is_absolute', (str, File))
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def is_absolute(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: T.Dict[str, T.Any]) -> bool:
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if isinstance(args[0], File):
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FeatureNew('fs.is_absolute_file', '0.59.0').use(state.subproject)
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return PurePath(str(args[0])).is_absolute()
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@noKwargs
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@FeatureNew('fs.as_posix', '0.54.0')
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@typed_pos_args('fs.as_posix', str)
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def as_posix(self, state: 'ModuleState', args: T.Tuple[str], kwargs: T.Dict[str, T.Any]) -> str:
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"""
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this function assumes you are passing a Windows path, even if on a Unix-like system
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and so ALL '\' are turned to '/', even if you meant to escape a character
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"""
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return PureWindowsPath(args[0]).as_posix()
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@noKwargs
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@typed_pos_args('fs.exists', str)
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def exists(self, state: 'ModuleState', args: T.Tuple[str], kwargs: T.Dict[str, T.Any]) -> bool:
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return self._resolve_dir(state, args[0]).exists()
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@noKwargs
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@typed_pos_args('fs.is_symlink', (str, File))
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def is_symlink(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: T.Dict[str, T.Any]) -> bool:
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if isinstance(args[0], File):
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FeatureNew('fs.is_symlink_file', '0.59.0').use(state.subproject)
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return self._absolute_dir(state, args[0]).is_symlink()
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@noKwargs
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@typed_pos_args('fs.is_file', str)
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def is_file(self, state: 'ModuleState', args: T.Tuple[str], kwargs: T.Dict[str, T.Any]) -> bool:
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return self._resolve_dir(state, args[0]).is_file()
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@noKwargs
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@typed_pos_args('fs.is_dir', str)
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def is_dir(self, state: 'ModuleState', args: T.Tuple[str], kwargs: T.Dict[str, T.Any]) -> bool:
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return self._resolve_dir(state, args[0]).is_dir()
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@noKwargs
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@typed_pos_args('fs.hash', (str, File), str)
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def hash(self, state: 'ModuleState', args: T.Tuple['FileOrString', str], kwargs: T.Dict[str, T.Any]) -> str:
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if isinstance(args[0], File):
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FeatureNew('fs.hash_file', '0.59.0').use(state.subproject)
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file = self._resolve_dir(state, args[0])
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if not file.is_file():
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raise MesonException(f'{file} is not a file and therefore cannot be hashed')
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try:
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h = hashlib.new(args[1])
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except ValueError:
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raise MesonException('hash algorithm {} is not available'.format(args[1]))
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mlog.debug('computing {} sum of {} size {} bytes'.format(args[1], file, file.stat().st_size))
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h.update(file.read_bytes())
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return h.hexdigest()
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@noKwargs
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@typed_pos_args('fs.size', (str, File))
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def size(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: T.Dict[str, T.Any]) -> int:
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if isinstance(args[0], File):
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FeatureNew('fs.size_file', '0.59.0').use(state.subproject)
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file = self._resolve_dir(state, args[0])
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if not file.is_file():
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raise MesonException(f'{file} is not a file and therefore cannot be sized')
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try:
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return file.stat().st_size
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except ValueError:
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raise MesonException('{} size could not be determined'.format(args[0]))
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@noKwargs
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@typed_pos_args('fs.is_samepath', (str, File), (str, File))
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def is_samepath(self, state: 'ModuleState', args: T.Tuple['FileOrString', 'FileOrString'], kwargs: T.Dict[str, T.Any]) -> bool:
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if isinstance(args[0], File) or isinstance(args[1], File):
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FeatureNew('fs.is_samepath_file', '0.59.0').use(state.subproject)
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file1 = self._resolve_dir(state, args[0])
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file2 = self._resolve_dir(state, args[1])
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if not file1.exists():
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return False
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if not file2.exists():
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return False
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try:
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return file1.samefile(file2)
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except OSError:
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return False
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@noKwargs
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@typed_pos_args('fs.replace_suffix', (str, File), str)
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def replace_suffix(self, state: 'ModuleState', args: T.Tuple['FileOrString', str], kwargs: T.Dict[str, T.Any]) -> str:
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if isinstance(args[0], File):
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FeatureNew('fs.replace_suffix_file', '0.59.0').use(state.subproject)
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original = PurePath(str(args[0]))
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new = original.with_suffix(args[1])
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return str(new)
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@noKwargs
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@typed_pos_args('fs.parent', (str, File))
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def parent(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: T.Dict[str, T.Any]) -> str:
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if isinstance(args[0], File):
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FeatureNew('fs.parent_file', '0.59.0').use(state.subproject)
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original = PurePath(str(args[0]))
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new = original.parent
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return str(new)
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@noKwargs
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@typed_pos_args('fs.name', (str, File))
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def name(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: T.Dict[str, T.Any]) -> str:
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if isinstance(args[0], File):
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FeatureNew('fs.name_file', '0.59.0').use(state.subproject)
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original = PurePath(str(args[0]))
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new = original.name
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return str(new)
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@noKwargs
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@typed_pos_args('fs.stem', (str, File))
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@FeatureNew('fs.stem', '0.54.0')
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def stem(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: T.Dict[str, T.Any]) -> str:
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if isinstance(args[0], File):
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FeatureNew('fs.stem_file', '0.59.0').use(state.subproject)
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original = PurePath(str(args[0]))
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new = original.stem
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return str(new)
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@FeatureNew('fs.read', '0.57.0')
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@typed_pos_args('fs.read', (str, File))
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@typed_kwargs('fs.read', KwargInfo('encoding', str, default='utf-8'))
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def read(self, state: 'ModuleState', args: T.Tuple['FileOrString'], kwargs: 'ReadKwArgs') -> str:
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"""Read a file from the source tree and return its value as a decoded
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string.
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If the encoding is not specified, the file is assumed to be utf-8
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encoded. Paths must be relative by default (to prevent accidents) and
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are forbidden to be read from the build directory (to prevent build
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loops)
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"""
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path = args[0]
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encoding = kwargs['encoding']
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src_dir = self.interpreter.environment.source_dir
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sub_dir = self.interpreter.subdir
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build_dir = self.interpreter.environment.get_build_dir()
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if isinstance(path, File):
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if path.is_built:
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raise MesonException(
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'fs.read_file does not accept built files() objects')
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path = os.path.join(src_dir, path.relative_name())
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else:
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if sub_dir:
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src_dir = os.path.join(src_dir, sub_dir)
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path = os.path.join(src_dir, path)
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path = os.path.abspath(path)
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if path_is_in_root(Path(path), Path(build_dir), resolve=True):
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raise MesonException('path must not be in the build tree')
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try:
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with open(path, encoding=encoding) as f:
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data = f.read()
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except UnicodeDecodeError:
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raise MesonException(f'decoding failed for {path}')
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# Reconfigure when this file changes as it can contain data used by any
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# part of the build configuration (e.g. `project(..., version:
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# fs.read_file('VERSION')` or `configure_file(...)`
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self.interpreter.add_build_def_file(path)
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return data
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@FeatureNew('fs.copyfile', '0.64.0')
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@typed_pos_args('fs.copyfile', (File, str), optargs=[str])
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@typed_kwargs(
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'fs.copyfile',
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INSTALL_KW,
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INSTALL_MODE_KW,
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INSTALL_TAG_KW,
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KwargInfo('install_dir', (str, NoneType)),
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)
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def copyfile(self, state: ModuleState, args: T.Tuple[FileOrString, T.Optional[str]],
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kwargs: CopyKw) -> ModuleReturnValue:
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"""Copy a file into the build directory at build time."""
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if kwargs['install'] and not kwargs['install_dir']:
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raise InvalidArguments('"install_dir" must be specified when "install" is true')
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src = self.interpreter.source_strings_to_files([args[0]])[0]
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# The input is allowed to have path separators, but the output may not,
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# so use the basename for the default case
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dest = args[1] if args[1] else os.path.basename(src.fname)
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if has_path_sep(dest):
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raise InvalidArguments('Destination path may not have path separators')
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ct = CustomTarget(
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dest,
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state.subdir,
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state.subproject,
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state.environment,
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state.environment.get_build_command() + ['--internal', 'copy', '@INPUT@', '@OUTPUT@'],
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[src],
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[dest],
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build_by_default=True,
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install=kwargs['install'],
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install_dir=[kwargs['install_dir']],
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install_mode=kwargs['install_mode'],
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simplify install_tag handling according to the accepted API
There are two problems here: a typing problem, and an algorithm problem.
We expect it to always be passed to CustomTarget() as a list, but we ran
list() on it, which became horribly mangled if you violated the types
and passed a string instead. This caused weird*er* errors and didn't
even do anything. We want to do all validation in the interpreter,
anyway, and make the build level dumb.
Meanwhile we type it as accepting a T.Sequence, which technically
permits... a string, actually. This isn't intentional; the point of
using T.Sequence is out of a misguided idea that APIs are supposed to be
"technically correct" by allowing "anything that fulfills an interface",
which is a flawed concept because we aren't using interfaces here, and
also because "technically string fulfills the same interface as a list,
if we're talking sequences".
Basically:
- mypy is broken by design, because it typechecks "python", not "what we
wish python to be"
- we do not actually need to graciously permit passing tuples instead of
lists
As far as historic implementations of this logic go, we have formerly:
- originally, typeslistified anything
- switched to accepting list from the interpreter, redundantly ran list()
on the list we got, and mishandling API violations passing a string
(commit 11f96380351a88059ec55f1070fdebc1b1033117)
- switched to accepting anything, stringlistifying it if it was not
`None`, mishandling `[None]`, and invoking list(x) on a brand new list
from stringlistify (commit 157d43883515507f42618b065a64fb26501734a0)
- stopped stringlistify, just accept T.List[str | None] and re-cast to
list, violates typing because we use/handle plain None too
(commit a8521fef70ef76fb742d80aceb2e9ed634bd6a70)
- break typing by declaring we accept a simple string, which still
results in mishandling by converting 'foo' -> ['f', 'o', 'o']
(commit ac576530c43734495815f22456596772a8f6a8cc)
All of this. ALL of it. Is because we tried to be fancy and say we
accept T.Tuple; the only version of this logic that has ever worked
correctly is the original untyped do-all-validation-in-the-build-phase
typeslistified version.
Let's just call it what it is. We want a list | None, and we handle it too.
3 years ago
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install_tag=[kwargs['install_tag']],
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backend=state.backend,
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)
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return ModuleReturnValue(ct, [ct])
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def initialize(*args: T.Any, **kwargs: T.Any) -> FSModule:
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return FSModule(*args, **kwargs)
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