""" This module provides utility methods for dealing with path-specs. """ import os import os.path import posixpath import stat import warnings from collections.abc import ( Collection as CollectionType, Iterable as IterableType) from os import ( PathLike) from typing import ( Any, AnyStr, Callable, Collection, Dict, Iterable, Iterator, List, Optional, Sequence, Set, Union) from .pattern import ( Pattern) NORMALIZE_PATH_SEPS = [ __sep for __sep in [os.sep, os.altsep] if __sep and __sep != posixpath.sep ] """ *NORMALIZE_PATH_SEPS* (:class:`list` of :class:`str`) contains the path separators that need to be normalized to the POSIX separator for the current operating system. The separators are determined by examining :data:`os.sep` and :data:`os.altsep`. """ _registered_patterns = {} """ *_registered_patterns* (:class:`dict`) maps a name (:class:`str`) to the registered pattern factory (:class:`~collections.abc.Callable`). """ def detailed_match_files( patterns: Iterable[Pattern], files: Iterable[str], all_matches: Optional[bool] = None, ) -> Dict[str, 'MatchDetail']: """ Matches the files to the patterns, and returns which patterns matched the files. *patterns* (:class:`~collections.abc.Iterable` of :class:`~pathspec.pattern.Pattern`) contains the patterns to use. *files* (:class:`~collections.abc.Iterable` of :class:`str`) contains the normalized file paths to be matched against *patterns*. *all_matches* (:class:`boot` or :data:`None`) is whether to return all matches patterns (:data:`True`), or only the last matched pattern (:data:`False`). Default is :data:`None` for :data:`False`. Returns the matched files (:class:`dict`) which maps each matched file (:class:`str`) to the patterns that matched in order (:class:`.MatchDetail`). """ all_files = files if isinstance(files, CollectionType) else list(files) return_files = {} for pattern in patterns: if pattern.include is not None: result_files = pattern.match(all_files) # TODO: Replace with `.match_file()`. if pattern.include: # Add files and record pattern. for result_file in result_files: if result_file in return_files: if all_matches: return_files[result_file].patterns.append(pattern) else: return_files[result_file].patterns[0] = pattern else: return_files[result_file] = MatchDetail([pattern]) else: # Remove files. for file in result_files: del return_files[file] return return_files def _filter_patterns(patterns: Iterable[Pattern]) -> List[Pattern]: """ Filters out null-patterns. *patterns* (:class:`Iterable` of :class:`.Pattern`) contains the patterns. Returns the patterns (:class:`list` of :class:`.Pattern`). """ return [ __pat for __pat in patterns if __pat.include is not None ] def _is_iterable(value: Any) -> bool: """ Check whether the value is an iterable (excludes strings). *value* is the value to check, Returns whether *value* is a iterable (:class:`bool`). """ return isinstance(value, IterableType) and not isinstance(value, (str, bytes)) def iter_tree_entries( root: str, on_error: Optional[Callable] = None, follow_links: Optional[bool] = None, ) -> Iterator['TreeEntry']: """ Walks the specified directory for all files and directories. *root* (:class:`str`) is the root directory to search. *on_error* (:class:`~collections.abc.Callable` or :data:`None`) optionally is the error handler for file-system exceptions. It will be called with the exception (:exc:`OSError`). Reraise the exception to abort the walk. Default is :data:`None` to ignore file-system exceptions. *follow_links* (:class:`bool` or :data:`None`) optionally is whether to walk symbolic links that resolve to directories. Default is :data:`None` for :data:`True`. Raises :exc:`RecursionError` if recursion is detected. Returns an :class:`~collections.abc.Iterator` yielding each file or directory entry (:class:`.TreeEntry`) relative to *root*. """ if on_error is not None and not callable(on_error): raise TypeError(f"on_error:{on_error!r} is not callable.") if follow_links is None: follow_links = True yield from _iter_tree_entries_next(os.path.abspath(root), '', {}, on_error, follow_links) def _iter_tree_entries_next( root_full: str, dir_rel: str, memo: Dict[str, str], on_error: Callable, follow_links: bool, ) -> Iterator['TreeEntry']: """ Scan the directory for all descendant files. *root_full* (:class:`str`) the absolute path to the root directory. *dir_rel* (:class:`str`) the path to the directory to scan relative to *root_full*. *memo* (:class:`dict`) keeps track of ancestor directories encountered. Maps each ancestor real path (:class:`str`) to relative path (:class:`str`). *on_error* (:class:`~collections.abc.Callable` or :data:`None`) optionally is the error handler for file-system exceptions. *follow_links* (:class:`bool`) is whether to walk symbolic links that resolve to directories. Yields each entry (:class:`.TreeEntry`). """ dir_full = os.path.join(root_full, dir_rel) dir_real = os.path.realpath(dir_full) # Remember each encountered ancestor directory and its canonical # (real) path. If a canonical path is encountered more than once, # recursion has occurred. if dir_real not in memo: memo[dir_real] = dir_rel else: raise RecursionError(real_path=dir_real, first_path=memo[dir_real], second_path=dir_rel) with os.scandir(dir_full) as scan_iter: node_ent: os.DirEntry for node_ent in scan_iter: node_rel = os.path.join(dir_rel, node_ent.name) # Inspect child node. try: node_lstat = node_ent.stat(follow_symlinks=False) except OSError as e: if on_error is not None: on_error(e) continue if node_ent.is_symlink(): # Child node is a link, inspect the target node. try: node_stat = node_ent.stat() except OSError as e: if on_error is not None: on_error(e) continue else: node_stat = node_lstat if node_ent.is_dir(follow_symlinks=follow_links): # Child node is a directory, recurse into it and yield its # descendant files. yield TreeEntry(node_ent.name, node_rel, node_lstat, node_stat) yield from _iter_tree_entries_next(root_full, node_rel, memo, on_error, follow_links) elif node_ent.is_file() or node_ent.is_symlink(): # Child node is either a file or an unfollowed link, yield it. yield TreeEntry(node_ent.name, node_rel, node_lstat, node_stat) # NOTE: Make sure to remove the canonical (real) path of the directory # from the ancestors memo once we are done with it. This allows the # same directory to appear multiple times. If this is not done, the # second occurrence of the directory will be incorrectly interpreted # as a recursion. See . del memo[dir_real] def iter_tree_files( root: str, on_error: Optional[Callable] = None, follow_links: Optional[bool] = None, ) -> Iterator[str]: """ Walks the specified directory for all files. *root* (:class:`str`) is the root directory to search for files. *on_error* (:class:`~collections.abc.Callable` or :data:`None`) optionally is the error handler for file-system exceptions. It will be called with the exception (:exc:`OSError`). Reraise the exception to abort the walk. Default is :data:`None` to ignore file-system exceptions. *follow_links* (:class:`bool` or :data:`None`) optionally is whether to walk symbolic links that resolve to directories. Default is :data:`None` for :data:`True`. Raises :exc:`RecursionError` if recursion is detected. Returns an :class:`~collections.abc.Iterator` yielding the path to each file (:class:`str`) relative to *root*. """ for entry in iter_tree_entries(root, on_error=on_error, follow_links=follow_links): if not entry.is_dir(follow_links): yield entry.path def iter_tree(root, on_error=None, follow_links=None): """ DEPRECATED: The :func:`.iter_tree` function is an alias for the :func:`.iter_tree_files` function. """ warnings.warn(( "util.iter_tree() is deprecated. Use util.iter_tree_files() instead." ), DeprecationWarning, stacklevel=2) return iter_tree_files(root, on_error=on_error, follow_links=follow_links) def lookup_pattern(name: str) -> Callable[[AnyStr], Pattern]: """ Lookups a registered pattern factory by name. *name* (:class:`str`) is the name of the pattern factory. Returns the registered pattern factory (:class:`~collections.abc.Callable`). If no pattern factory is registered, raises :exc:`KeyError`. """ return _registered_patterns[name] def match_file(patterns: Iterable[Pattern], file: str) -> bool: """ Matches the file to the patterns. *patterns* (:class:`~collections.abc.Iterable` of :class:`~pathspec.pattern.Pattern`) contains the patterns to use. *file* (:class:`str`) is the normalized file path to be matched against *patterns*. Returns :data:`True` if *file* matched; otherwise, :data:`False`. """ matched = False for pattern in patterns: if pattern.include is not None: if pattern.match_file(file) is not None: matched = pattern.include return matched def match_files( patterns: Iterable[Pattern], files: Iterable[str], ) -> Set[str]: """ DEPRECATED: This is an old function no longer used. Use the :func:`.match_file` function with a loop for better results. Matches the files to the patterns. *patterns* (:class:`~collections.abc.Iterable` of :class:`~pathspec.pattern.Pattern`) contains the patterns to use. *files* (:class:`~collections.abc.Iterable` of :class:`str`) contains the normalized file paths to be matched against *patterns*. Returns the matched files (:class:`set` of :class:`str`). """ warnings.warn(( "util.match_files() is deprecated. Use util.match_file() with a " "loop for better results." ), DeprecationWarning, stacklevel=2) use_patterns = _filter_patterns(patterns) return_files = set() for file in files: if match_file(use_patterns, file): return_files.add(file) return return_files def normalize_file( file: Union[str, PathLike], separators: Optional[Collection[str]] = None, ) -> str: """ Normalizes the file path to use the POSIX path separator (i.e., :data:`'/'`), and make the paths relative (remove leading :data:`'/'`). *file* (:class:`str` or :class:`os.PathLike`) is the file path. *separators* (:class:`~collections.abc.Collection` of :class:`str`; or :data:`None`) optionally contains the path separators to normalize. This does not need to include the POSIX path separator (:data:`'/'`), but including it will not affect the results. Default is :data:`None` for :data:`NORMALIZE_PATH_SEPS`. To prevent normalization, pass an empty container (e.g., an empty tuple :data:`()`). Returns the normalized file path (:class:`str`). """ # Normalize path separators. if separators is None: separators = NORMALIZE_PATH_SEPS # Convert path object to string. norm_file = str(file) for sep in separators: norm_file = norm_file.replace(sep, posixpath.sep) if norm_file.startswith('/'): # Make path relative. norm_file = norm_file[1:] elif norm_file.startswith('./'): # Remove current directory prefix. norm_file = norm_file[2:] return norm_file def normalize_files( files: Iterable[Union[str, PathLike]], separators: Optional[Collection[str]] = None, ) -> Dict[str, List[Union[str, PathLike]]]: """ DEPRECATED: This function is no longer used. Use the :func:`.normalize_file` function with a loop for better results. Normalizes the file paths to use the POSIX path separator. *files* (:class:`~collections.abc.Iterable` of :class:`str` or :class:`os.PathLike`) contains the file paths to be normalized. *separators* (:class:`~collections.abc.Collection` of :class:`str`; or :data:`None`) optionally contains the path separators to normalize. See :func:`normalize_file` for more information. Returns a :class:`dict` mapping each normalized file path (:class:`str`) to the original file paths (:class:`list` of :class:`str` or :class:`os.PathLike`). """ warnings.warn(( "util.normalize_files() is deprecated. Use util.normalize_file() " "with a loop for better results." ), DeprecationWarning, stacklevel=2) norm_files = {} for path in files: norm_file = normalize_file(path, separators=separators) if norm_file in norm_files: norm_files[norm_file].append(path) else: norm_files[norm_file] = [path] return norm_files def register_pattern( name: str, pattern_factory: Callable[[AnyStr], Pattern], override: Optional[bool] = None, ) -> None: """ Registers the specified pattern factory. *name* (:class:`str`) is the name to register the pattern factory under. *pattern_factory* (:class:`~collections.abc.Callable`) is used to compile patterns. It must accept an uncompiled pattern (:class:`str`) and return the compiled pattern (:class:`.Pattern`). *override* (:class:`bool` or :data:`None`) optionally is whether to allow overriding an already registered pattern under the same name (:data:`True`), instead of raising an :exc:`AlreadyRegisteredError` (:data:`False`). Default is :data:`None` for :data:`False`. """ if not isinstance(name, str): raise TypeError(f"name:{name!r} is not a string.") if not callable(pattern_factory): raise TypeError(f"pattern_factory:{pattern_factory!r} is not callable.") if name in _registered_patterns and not override: raise AlreadyRegisteredError(name, _registered_patterns[name]) _registered_patterns[name] = pattern_factory class AlreadyRegisteredError(Exception): """ The :exc:`AlreadyRegisteredError` exception is raised when a pattern factory is registered under a name already in use. """ def __init__( self, name: str, pattern_factory: Callable[[AnyStr], Pattern], ) -> None: """ Initializes the :exc:`AlreadyRegisteredError` instance. *name* (:class:`str`) is the name of the registered pattern. *pattern_factory* (:class:`~collections.abc.Callable`) is the registered pattern factory. """ super(AlreadyRegisteredError, self).__init__(name, pattern_factory) @property def message(self) -> str: """ *message* (:class:`str`) is the error message. """ return "{name!r} is already registered for pattern factory:{pattern_factory!r}.".format( name=self.name, pattern_factory=self.pattern_factory, ) @property def name(self) -> str: """ *name* (:class:`str`) is the name of the registered pattern. """ return self.args[0] @property def pattern_factory(self) -> Callable[[AnyStr], Pattern]: """ *pattern_factory* (:class:`~collections.abc.Callable`) is the registered pattern factory. """ return self.args[1] class RecursionError(Exception): """ The :exc:`RecursionError` exception is raised when recursion is detected. """ def __init__( self, real_path: str, first_path: str, second_path: str, ) -> None: """ Initializes the :exc:`RecursionError` instance. *real_path* (:class:`str`) is the real path that recursion was encountered on. *first_path* (:class:`str`) is the first path encountered for *real_path*. *second_path* (:class:`str`) is the second path encountered for *real_path*. """ super(RecursionError, self).__init__(real_path, first_path, second_path) @property def first_path(self) -> str: """ *first_path* (:class:`str`) is the first path encountered for :attr:`self.real_path `. """ return self.args[1] @property def message(self) -> str: """ *message* (:class:`str`) is the error message. """ return "Real path {real!r} was encountered at {first!r} and then {second!r}.".format( real=self.real_path, first=self.first_path, second=self.second_path, ) @property def real_path(self) -> str: """ *real_path* (:class:`str`) is the real path that recursion was encountered on. """ return self.args[0] @property def second_path(self) -> str: """ *second_path* (:class:`str`) is the second path encountered for :attr:`self.real_path `. """ return self.args[2] class MatchDetail(object): """ The :class:`.MatchDetail` class contains information about """ # Make the class dict-less. __slots__ = ('patterns',) def __init__(self, patterns: Sequence[Pattern]) -> None: """ Initialize the :class:`.MatchDetail` instance. *patterns* (:class:`~collections.abc.Sequence` of :class:`~pathspec.pattern.Pattern`) contains the patterns that matched the file in the order they were encountered. """ self.patterns = patterns """ *patterns* (:class:`~collections.abc.Sequence` of :class:`~pathspec.pattern.Pattern`) contains the patterns that matched the file in the order they were encountered. """ class TreeEntry(object): """ The :class:`.TreeEntry` class contains information about a file-system entry. """ # Make the class dict-less. __slots__ = ('_lstat', 'name', 'path', '_stat') def __init__( self, name: str, path: str, lstat: os.stat_result, stat: os.stat_result, ) -> None: """ Initialize the :class:`.TreeEntry` instance. *name* (:class:`str`) is the base name of the entry. *path* (:class:`str`) is the relative path of the entry. *lstat* (:class:`os.stat_result`) is the stat result of the direct entry. *stat* (:class:`os.stat_result`) is the stat result of the entry, potentially linked. """ self._lstat: os.stat_result = lstat """ *_lstat* (:class:`os.stat_result`) is the stat result of the direct entry. """ self.name: str = name """ *name* (:class:`str`) is the base name of the entry. """ self.path: str = path """ *path* (:class:`str`) is the path of the entry. """ self._stat: os.stat_result = stat """ *_stat* (:class:`os.stat_result`) is the stat result of the linked entry. """ def is_dir(self, follow_links: Optional[bool] = None) -> bool: """ Get whether the entry is a directory. *follow_links* (:class:`bool` or :data:`None`) is whether to follow symbolic links. If this is :data:`True`, a symlink to a directory will result in :data:`True`. Default is :data:`None` for :data:`True`. Returns whether the entry is a directory (:class:`bool`). """ if follow_links is None: follow_links = True node_stat = self._stat if follow_links else self._lstat return stat.S_ISDIR(node_stat.st_mode) def is_file(self, follow_links: Optional[bool] = None) -> bool: """ Get whether the entry is a regular file. *follow_links* (:class:`bool` or :data:`None`) is whether to follow symbolic links. If this is :data:`True`, a symlink to a regular file will result in :data:`True`. Default is :data:`None` for :data:`True`. Returns whether the entry is a regular file (:class:`bool`). """ if follow_links is None: follow_links = True node_stat = self._stat if follow_links else self._lstat return stat.S_ISREG(node_stat.st_mode) def is_symlink(self) -> bool: """ Returns whether the entry is a symbolic link (:class:`bool`). """ return stat.S_ISLNK(self._lstat.st_mode) def stat(self, follow_links: Optional[bool] = None) -> os.stat_result: """ Get the cached stat result for the entry. *follow_links* (:class:`bool` or :data:`None`) is whether to follow symbolic links. If this is :data:`True`, the stat result of the linked file will be returned. Default is :data:`None` for :data:`True`. Returns that stat result (:class:`os.stat_result`). """ if follow_links is None: follow_links = True return self._stat if follow_links else self._lstat