# Copyright (C) 2008, 2009 Michael Trier (mtrier@gmail.com) and contributors # # This module is part of GitPython and is released under the # 3-Clause BSD License: https://opensource.org/license/bsd-3-clause/ __all__ = ["TreeModifier", "Tree"] import sys import git.diff as git_diff from git.util import IterableList, join_path, to_bin_sha from . import util from .base import IndexObjUnion, IndexObject from .blob import Blob from .fun import tree_entries_from_data, tree_to_stream from .submodule.base import Submodule # typing ------------------------------------------------- from typing import ( Any, Callable, Dict, Iterable, Iterator, List, Tuple, TYPE_CHECKING, Type, Union, cast, ) if sys.version_info >= (3, 8): from typing import Literal else: from typing_extensions import Literal from git.types import PathLike if TYPE_CHECKING: from io import BytesIO from git.repo import Repo TreeCacheTup = Tuple[bytes, int, str] TraversedTreeTup = Union[Tuple[Union["Tree", None], IndexObjUnion, Tuple["Submodule", "Submodule"]]] # -------------------------------------------------------- cmp: Callable[[str, str], int] = lambda a, b: (a > b) - (a < b) class TreeModifier: """A utility class providing methods to alter the underlying cache in a list-like fashion. Once all adjustments are complete, the :attr:`_cache`, which really is a reference to the cache of a tree, will be sorted. This ensures it will be in a serializable state. """ __slots__ = ("_cache",) def __init__(self, cache: List[TreeCacheTup]) -> None: self._cache = cache def _index_by_name(self, name: str) -> int: """:return: index of an item with name, or -1 if not found""" for i, t in enumerate(self._cache): if t[2] == name: return i # END found item # END for each item in cache return -1 # { Interface def set_done(self) -> "TreeModifier": """Call this method once you are done modifying the tree information. This may be called several times, but be aware that each call will cause a sort operation. :return: self """ self._cache.sort(key=lambda x: (x[2] + "/") if x[1] == Tree.tree_id << 12 else x[2]) return self # } END interface # { Mutators def add(self, sha: bytes, mode: int, name: str, force: bool = False) -> "TreeModifier": """Add the given item to the tree. If an item with the given name already exists, nothing will be done, but a :exc:`ValueError` will be raised if the sha and mode of the existing item do not match the one you add, unless `force` is ``True``. :param sha: The 20 or 40 byte sha of the item to add. :param mode: :class:`int` representing the stat-compatible mode of the item. :param force: If ``True``, an item with your name and information will overwrite any existing item with the same name, no matter which information it has. :return: self """ if "/" in name: raise ValueError("Name must not contain '/' characters") if (mode >> 12) not in Tree._map_id_to_type: raise ValueError("Invalid object type according to mode %o" % mode) sha = to_bin_sha(sha) index = self._index_by_name(name) item = (sha, mode, name) if index == -1: self._cache.append(item) else: if force: self._cache[index] = item else: ex_item = self._cache[index] if ex_item[0] != sha or ex_item[1] != mode: raise ValueError("Item %r existed with different properties" % name) # END handle mismatch # END handle force # END handle name exists return self def add_unchecked(self, binsha: bytes, mode: int, name: str) -> None: """Add the given item to the tree. Its correctness is assumed, so it is the caller's responsibility to ensure that the input is correct. For more information on the parameters, see :meth:`add`. :param binsha: 20 byte binary sha. """ assert isinstance(binsha, bytes) and isinstance(mode, int) and isinstance(name, str) tree_cache = (binsha, mode, name) self._cache.append(tree_cache) def __delitem__(self, name: str) -> None: """Delete an item with the given name if it exists.""" index = self._index_by_name(name) if index > -1: del self._cache[index] # } END mutators class Tree(IndexObject, git_diff.Diffable, util.Traversable, util.Serializable): R"""Tree objects represent an ordered list of :class:`~git.objects.blob.Blob`\s and other :class:`Tree`\s. See :manpage:`gitglossary(7)` on "tree object": https://git-scm.com/docs/gitglossary#def_tree_object Subscripting is supported, as with a list or dict: * Access a specific blob using the ``tree["filename"]`` notation. * You may likewise access by index, like ``blob = tree[0]``. """ type: Literal["tree"] = "tree" __slots__ = ("_cache",) # Actual integer IDs for comparison. commit_id = 0o16 # Equals stat.S_IFDIR | stat.S_IFLNK - a directory link. blob_id = 0o10 symlink_id = 0o12 tree_id = 0o04 _map_id_to_type: Dict[int, Type[IndexObjUnion]] = { commit_id: Submodule, blob_id: Blob, symlink_id: Blob, # Tree ID added once Tree is defined. } def __init__( self, repo: "Repo", binsha: bytes, mode: int = tree_id << 12, path: Union[PathLike, None] = None, ): super().__init__(repo, binsha, mode, path) @classmethod def _get_intermediate_items( cls, index_object: IndexObjUnion, ) -> Union[Tuple["Tree", ...], Tuple[()]]: if index_object.type == "tree": return tuple(index_object._iter_convert_to_object(index_object._cache)) return () def _set_cache_(self, attr: str) -> None: if attr == "_cache": # Set the data when we need it. ostream = self.repo.odb.stream(self.binsha) self._cache: List[TreeCacheTup] = tree_entries_from_data(ostream.read()) else: super()._set_cache_(attr) # END handle attribute def _iter_convert_to_object(self, iterable: Iterable[TreeCacheTup]) -> Iterator[IndexObjUnion]: """Iterable yields tuples of (binsha, mode, name), which will be converted to the respective object representation. """ for binsha, mode, name in iterable: path = join_path(self.path, name) try: yield self._map_id_to_type[mode >> 12](self.repo, binsha, mode, path) except KeyError as e: raise TypeError("Unknown mode %o found in tree data for path '%s'" % (mode, path)) from e # END for each item def join(self, file: str) -> IndexObjUnion: """Find the named object in this tree's contents. :return: :class:`~git.objects.blob.Blob`, :class:`Tree`, or :class:`~git.objects.submodule.base.Submodule` :raise KeyError: If the given file or tree does not exist in this tree. """ msg = "Blob or Tree named %r not found" if "/" in file: tree = self item = self tokens = file.split("/") for i, token in enumerate(tokens): item = tree[token] if item.type == "tree": tree = item else: # Safety assertion - blobs are at the end of the path. if i != len(tokens) - 1: raise KeyError(msg % file) return item # END handle item type # END for each token of split path if item == self: raise KeyError(msg % file) return item else: for info in self._cache: if info[2] == file: # [2] == name return self._map_id_to_type[info[1] >> 12]( self.repo, info[0], info[1], join_path(self.path, info[2]) ) # END for each obj raise KeyError(msg % file) # END handle long paths def __truediv__(self, file: str) -> IndexObjUnion: """The ``/`` operator is another syntax for joining. See :meth:`join` for details. """ return self.join(file) @property def trees(self) -> List["Tree"]: """:return: list(Tree, ...) List of trees directly below this tree""" return [i for i in self if i.type == "tree"] @property def blobs(self) -> List[Blob]: """:return: list(Blob, ...) List of blobs directly below this tree""" return [i for i in self if i.type == "blob"] @property def cache(self) -> TreeModifier: """ :return: An object allowing modification of the internal cache. This can be used to change the tree's contents. When done, make sure you call :meth:`~TreeModifier.set_done` on the tree modifier, or serialization behaviour will be incorrect. :note: See :class:`TreeModifier` for more information on how to alter the cache. """ return TreeModifier(self._cache) def traverse( self, predicate: Callable[[Union[IndexObjUnion, TraversedTreeTup], int], bool] = lambda i, d: True, prune: Callable[[Union[IndexObjUnion, TraversedTreeTup], int], bool] = lambda i, d: False, depth: int = -1, branch_first: bool = True, visit_once: bool = False, ignore_self: int = 1, as_edge: bool = False, ) -> Union[Iterator[IndexObjUnion], Iterator[TraversedTreeTup]]: """For documentation, see `Traversable._traverse() `. Trees are set to ``visit_once = False`` to gain more performance in the traversal. """ # # To typecheck instead of using cast. # import itertools # def is_tree_traversed(inp: Tuple) -> TypeGuard[Tuple[Iterator[Union['Tree', 'Blob', 'Submodule']]]]: # return all(isinstance(x, (Blob, Tree, Submodule)) for x in inp[1]) # ret = super().traverse(predicate, prune, depth, branch_first, visit_once, ignore_self) # ret_tup = itertools.tee(ret, 2) # assert is_tree_traversed(ret_tup), f"Type is {[type(x) for x in list(ret_tup[0])]}" # return ret_tup[0] return cast( Union[Iterator[IndexObjUnion], Iterator[TraversedTreeTup]], super()._traverse( predicate, # type: ignore[arg-type] prune, # type: ignore[arg-type] depth, branch_first, visit_once, ignore_self, ), ) def list_traverse(self, *args: Any, **kwargs: Any) -> IterableList[IndexObjUnion]: """ :return: :class:`~git.util.IterableList` with the results of the traversal as produced by :meth:`traverse` Tree -> IterableList[Union[Submodule, Tree, Blob]] """ return super()._list_traverse(*args, **kwargs) # List protocol def __getslice__(self, i: int, j: int) -> List[IndexObjUnion]: return list(self._iter_convert_to_object(self._cache[i:j])) def __iter__(self) -> Iterator[IndexObjUnion]: return self._iter_convert_to_object(self._cache) def __len__(self) -> int: return len(self._cache) def __getitem__(self, item: Union[str, int, slice]) -> IndexObjUnion: if isinstance(item, int): info = self._cache[item] return self._map_id_to_type[info[1] >> 12](self.repo, info[0], info[1], join_path(self.path, info[2])) if isinstance(item, str): # compatibility return self.join(item) # END index is basestring raise TypeError("Invalid index type: %r" % item) def __contains__(self, item: Union[IndexObjUnion, PathLike]) -> bool: if isinstance(item, IndexObject): for info in self._cache: if item.binsha == info[0]: return True # END compare sha # END for each entry # END handle item is index object # compatibility # Treat item as repo-relative path. else: path = self.path for info in self._cache: if item == join_path(path, info[2]): return True # END for each item return False def __reversed__(self) -> Iterator[IndexObjUnion]: return reversed(self._iter_convert_to_object(self._cache)) # type: ignore[call-overload] def _serialize(self, stream: "BytesIO") -> "Tree": """Serialize this tree into the stream. Assumes sorted tree data. :note: We will assume our tree data to be in a sorted state. If this is not the case, serialization will not generate a correct tree representation as these are assumed to be sorted by algorithms. """ tree_to_stream(self._cache, stream.write) return self def _deserialize(self, stream: "BytesIO") -> "Tree": self._cache = tree_entries_from_data(stream.read()) return self # END tree # Finalize map definition. Tree._map_id_to_type[Tree.tree_id] = Tree