GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

"""Module with functions which are supposed to be as fast as possible""" from stat import S_ISDIR from git.compat import safe_decode, defenc # typing ---------------------------------------------- from typing import ( Callable, List, MutableSequence, Sequence, Tuple, TYPE_CHECKING, Union, overload, ) if TYPE_CHECKING: from _typeshed import ReadableBuffer from git import GitCmdObjectDB EntryTup = Tuple[bytes, int, str] # same as TreeCacheTup in tree.py EntryTupOrNone = Union[EntryTup, None] # --------------------------------------------------- __all__ = ( "tree_to_stream", "tree_entries_from_data", "traverse_trees_recursive", "traverse_tree_recursive", ) def tree_to_stream(entries: Sequence[EntryTup], write: Callable[["ReadableBuffer"], Union[int, None]]) -> None: """Write the give list of entries into a stream using its write method :param entries: **sorted** list of tuples with (binsha, mode, name) :param write: write method which takes a data string""" ord_zero = ord("0") bit_mask = 7 # 3 bits set for binsha, mode, name in entries: mode_str = b"" for i in range(6): mode_str = bytes([((mode >> (i * 3)) & bit_mask) + ord_zero]) + mode_str # END for each 8 octal value # git slices away the first octal if its zero if mode_str[0] == ord_zero: mode_str = mode_str[1:] # END save a byte # here it comes: if the name is actually unicode, the replacement below # will not work as the binsha is not part of the ascii unicode encoding - # hence we must convert to an utf8 string for it to work properly. # According to my tests, this is exactly what git does, that is it just # takes the input literally, which appears to be utf8 on linux. if isinstance(name, str): name_bytes = name.encode(defenc) else: name_bytes = name # type: ignore[unreachable] # check runtime types - is always str? write(b"".join((mode_str, b" ", name_bytes, b"\0", binsha))) # END for each item def tree_entries_from_data(data: bytes) -> List[EntryTup]: """Reads the binary representation of a tree and returns tuples of Tree items :param data: data block with tree data (as bytes) :return: list(tuple(binsha, mode, tree_relative_path), ...)""" ord_zero = ord("0") space_ord = ord(" ") len_data = len(data) i = 0 out = [] while i < len_data: mode = 0 # read mode # Some git versions truncate the leading 0, some don't # The type will be extracted from the mode later while data[i] != space_ord: # move existing mode integer up one level being 3 bits # and add the actual ordinal value of the character mode = (mode << 3) + (data[i] - ord_zero) i += 1 # END while reading mode # byte is space now, skip it i += 1 # parse name, it is NULL separated ns = i while data[i] != 0: i += 1 # END while not reached NULL # default encoding for strings in git is utf8 # Only use the respective unicode object if the byte stream was encoded name_bytes = data[ns:i] name = safe_decode(name_bytes) # byte is NULL, get next 20 i += 1 sha = data[i : i + 20] i = i + 20 out.append((sha, mode, name)) # END for each byte in data stream return out def _find_by_name(tree_data: MutableSequence[EntryTupOrNone], name: str, is_dir: bool, start_at: int) -> EntryTupOrNone: """return data entry matching the given name and tree mode or None. Before the item is returned, the respective data item is set None in the tree_data list to mark it done""" try: item = tree_data[start_at] if item and item[2] == name and S_ISDIR(item[1]) == is_dir: tree_data[start_at] = None return item except IndexError: pass # END exception handling for index, item in enumerate(tree_data): if item and item[2] == name and S_ISDIR(item[1]) == is_dir: tree_data[index] = None return item # END if item matches # END for each item return None @overload def _to_full_path(item: None, path_prefix: str) -> None: ... @overload def _to_full_path(item: EntryTup, path_prefix: str) -> EntryTup: ... def _to_full_path(item: EntryTupOrNone, path_prefix: str) -> EntryTupOrNone: """Rebuild entry with given path prefix""" if not item: return item return (item[0], item[1], path_prefix + item[2]) def traverse_trees_recursive( odb: "GitCmdObjectDB", tree_shas: Sequence[Union[bytes, None]], path_prefix: str ) -> List[Tuple[EntryTupOrNone, ...]]: """ :return: list of list with entries according to the given binary tree-shas. The result is encoded in a list of n tuple|None per blob/commit, (n == len(tree_shas)), where * [0] == 20 byte sha * [1] == mode as int * [2] == path relative to working tree root The entry tuple is None if the respective blob/commit did not exist in the given tree. :param tree_shas: iterable of shas pointing to trees. All trees must be on the same level. A tree-sha may be None in which case None :param path_prefix: a prefix to be added to the returned paths on this level, set it '' for the first iteration :note: The ordering of the returned items will be partially lost""" trees_data: List[List[EntryTupOrNone]] = [] nt = len(tree_shas) for tree_sha in tree_shas: if tree_sha is None: data: List[EntryTupOrNone] = [] else: # make new list for typing as list invariant data = list(tree_entries_from_data(odb.stream(tree_sha).read())) # END handle muted trees trees_data.append(data) # END for each sha to get data for out: List[Tuple[EntryTupOrNone, ...]] = [] # find all matching entries and recursively process them together if the match # is a tree. If the match is a non-tree item, put it into the result. # Processed items will be set None for ti, tree_data in enumerate(trees_data): for ii, item in enumerate(tree_data): if not item: continue # END skip already done items entries: List[EntryTupOrNone] entries = [None for _ in range(nt)] entries[ti] = item _sha, mode, name = item is_dir = S_ISDIR(mode) # type mode bits # find this item in all other tree data items # wrap around, but stop one before our current index, hence # ti+nt, not ti+1+nt for tio in range(ti + 1, ti + nt): tio = tio % nt entries[tio] = _find_by_name(trees_data[tio], name, is_dir, ii) # END for each other item data # if we are a directory, enter recursion if is_dir: out.extend( traverse_trees_recursive( odb, [((ei and ei[0]) or None) for ei in entries], path_prefix + name + "/", ) ) else: out.append(tuple(_to_full_path(e, path_prefix) for e in entries)) # END handle recursion # finally mark it done tree_data[ii] = None # END for each item # we are done with one tree, set all its data empty del tree_data[:] # END for each tree_data chunk return out def traverse_tree_recursive(odb: "GitCmdObjectDB", tree_sha: bytes, path_prefix: str) -> List[EntryTup]: """ :return: list of entries of the tree pointed to by the binary tree_sha. An entry has the following format: * [0] 20 byte sha * [1] mode as int * [2] path relative to the repository :param path_prefix: prefix to prepend to the front of all returned paths""" entries = [] data = tree_entries_from_data(odb.stream(tree_sha).read()) # unpacking/packing is faster than accessing individual items for sha, mode, name in data: if S_ISDIR(mode): entries.extend(traverse_tree_recursive(odb, sha, path_prefix + name + "/")) else: entries.append((sha, mode, path_prefix + name)) # END for each item return entries