def write_pack(cls, object_iter, pack_write, index_write=None, object_count=None, zlib_compression=zlib.Z_BEST_SPEED): """ Create a new pack by putting all objects obtained by the object_iterator into a pack which is written using the pack_write method. The respective index is produced as well if index_write is not Non. :param object_iter: iterator yielding odb output objects :param pack_write: function to receive strings to write into the pack stream :param indx_write: if not None, the function writes the index file corresponding to the pack. :param object_count: if you can provide the amount of objects in your iteration, this would be the place to put it. Otherwise we have to pre-iterate and store all items into a list to get the number, which uses more memory than necessary. :param zlib_compression: the zlib compression level to use :return: tuple(pack_sha, index_binsha) binary sha over all the contents of the pack and over all contents of the index. If index_write was None, index_binsha will be None **Note:** The destination of the write functions is up to the user. It could be a socket, or a file for instance **Note:** writes only undeltified objects""" objs = object_iter if not object_count: if not isinstance(object_iter, (tuple, list)): objs = list(object_iter) # END handle list type object_count = len(objs) # END handle object pack_writer = FlexibleSha1Writer(pack_write) pwrite = pack_writer.write ofs = 0 # current offset into the pack file index = None wants_index = index_write is not None # write header pwrite( pack('>LLL', PackFile.pack_signature, PackFile.pack_version_default, object_count)) ofs += 12 if wants_index: index = IndexWriter() # END handle index header actual_count = 0 for obj in objs: actual_count += 1 crc = 0 # object header hdr = create_pack_object_header(obj.type_id, obj.size) if index_write: crc = crc32(hdr) else: crc = None # END handle crc pwrite(hdr) # data stream zstream = zlib.compressobj(zlib_compression) ostream = obj.stream br, bw, crc = write_stream_to_pack(ostream.read, pwrite, zstream, base_crc=crc) assert (br == obj.size) if wants_index: index.append(obj.binsha, crc, ofs) # END handle index ofs += len(hdr) + bw if actual_count == object_count: break # END abort once we are done # END for each object if actual_count != object_count: raise ValueError( "Expected to write %i objects into pack, but received only %i from iterators" % (object_count, actual_count)) # END count assertion # write footer pack_sha = pack_writer.sha(as_hex=False) assert len(pack_sha) == 20 pack_write(pack_sha) ofs += len(pack_sha) # just for completeness ;) index_sha = None if wants_index: index_sha = index.write(pack_sha, index_write) # END handle index return pack_sha, index_sha
def write_pack(cls, object_iter, pack_write, index_write=None, object_count=None, zlib_compression=zlib.Z_BEST_SPEED): """ Create a new pack by putting all objects obtained by the object_iterator into a pack which is written using the pack_write method. The respective index is produced as well if index_write is not Non. :param object_iter: iterator yielding odb output objects :param pack_write: function to receive strings to write into the pack stream :param indx_write: if not None, the function writes the index file corresponding to the pack. :param object_count: if you can provide the amount of objects in your iteration, this would be the place to put it. Otherwise we have to pre-iterate and store all items into a list to get the number, which uses more memory than necessary. :param zlib_compression: the zlib compression level to use :return: tuple(pack_sha, index_binsha) binary sha over all the contents of the pack and over all contents of the index. If index_write was None, index_binsha will be None **Note:** The destination of the write functions is up to the user. It could be a socket, or a file for instance **Note:** writes only undeltified objects""" objs = object_iter if not object_count: if not isinstance(object_iter, (tuple, list)): objs = list(object_iter) # END handle list type object_count = len(objs) # END handle object pack_writer = FlexibleSha1Writer(pack_write) pwrite = pack_writer.write ofs = 0 # current offset into the pack file index = None wants_index = index_write is not None # write header pwrite(pack('>LLL', PackFile.pack_signature, PackFile.pack_version_default, object_count)) ofs += 12 if wants_index: index = IndexWriter() # END handle index header actual_count = 0 for obj in objs: actual_count += 1 crc = 0 # object header hdr = create_pack_object_header(obj.type_id, obj.size) if index_write: crc = crc32(hdr) else: crc = None # END handle crc pwrite(hdr) # data stream zstream = zlib.compressobj(zlib_compression) ostream = obj.stream br, bw, crc = write_stream_to_pack(ostream.read, pwrite, zstream, base_crc=crc) assert(br == obj.size) if wants_index: index.append(obj.binsha, crc, ofs) # END handle index ofs += len(hdr) + bw if actual_count == object_count: break # END abort once we are done # END for each object if actual_count != object_count: raise ValueError( "Expected to write %i objects into pack, but received only %i from iterators" % (object_count, actual_count)) # END count assertion # write footer pack_sha = pack_writer.sha(as_hex=False) assert len(pack_sha) == 20 pack_write(pack_sha) ofs += len(pack_sha) # just for completeness ;) index_sha = None if wants_index: index_sha = index.write(pack_sha, index_write) # END handle index return pack_sha, index_sha