"""Module with functions which are supposed to be as fast as possible""" from stat import S_ISDIR __all__ = ('tree_to_stream', 'tree_entries_from_data', 'traverse_trees_recursive', 'traverse_tree_recursive') def tree_to_stream(entries, write): """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 = '' for i in xrange(6): mode_str = chr(((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] == '0': 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, unicode): name = name.encode("utf8") write("%s %s\0%s" % (mode_str, name, binsha)) # END for each item def tree_entries_from_data(data): """Reads the binary representation of a tree and returns tuples of Tree items :param data: data block with tree data :return: list(tuple(binsha, mode, tree_relative_path), ...)""" ord_zero = ord('0') len_data = len(data) i = 0 out = list() 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] != ' ': # move existing mode integer up one level being 3 bits # and add the actual ordinal value of the character mode = (mode << 3) + (ord(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 = data[ns:i] name_enc = name.decode("utf-8") if len(name) > len(name_enc): name = name_enc # END handle encoding # 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, name, is_dir, start_at): """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 def _to_full_path(item, path_prefix): """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, tree_shas, path_prefix): """ :return: 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() nt = len(tree_shas) for tree_sha in tree_shas: if tree_sha is None: data = list() else: data = 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() out_append = out.append # 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 = [ None for n in range(nt) ] entries[ti] = item sha, mode, name = item # its faster to unpack 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, tree_sha, path_prefix): """ :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 = list() 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