def write(self, writer): data = ByteWriter() write_list(data, self.block_actions) write_list(data, self.player_hits) write_list(data, self.particles) write_list(data, self.sound_actions) write_list(data, self.shoot_actions) write_list(data, self.static_entities) write_list(data, self.chunk_items) data.write_uint32(len(self.items_8)) for item in self.items_8: something, sub_items = item data.write_uint64(something) data.write_uint32(len(sub_items)) for item in sub_items: data.write(item) write_list(data, self.pickups) write_list(data, self.kill_actions) write_list(data, self.damage_actions) write_list(data, self.passive_actions) write_list(data, self.missions) compressed_data = zlib.compress(data.get()) writer.write_uint32(len(compressed_data)) writer.write(compressed_data)
def set_entity(self, entity, entity_id, mask=None): if mask is None: mask = FULL_MASK writer = ByteWriter() writer.write_uint64(entity_id) write_masked_data(entity, writer, mask) self.data = writer.get()
def convert_qmo(data, path): qmo_file = QubicleFile() qmo_model = QubicleModel() x_size, y_size, z_size = 256, 256, 256 qmo_model.x_size = x_size qmo_model.y_size = y_size qmo_model.z_size = z_size qmo_model.x_offset = -x_size / 2 qmo_model.y_offset = 0 qmo_model.z_offset = -z_size / 2 blocks = data.get_dict() min_z = max_z = None for pos in blocks.keys(): x, y, z = pos if min_z is None: min_z = max_z = z min_z = min(min_z, z) max_z = max(max_z, z) qmo_model.y_size = max_z - min_z + 1 for pos, color in blocks.items(): x, y, z = switch_axes(*pos) y -= min_z qmo_model.blocks[(x, y, z)] = color qmo_file.models.append(qmo_model) writer = ByteWriter() qmo_file.write(writer) open(path, 'wb').write(writer.get())
def write_debug(self): if self.debug_fp is None: return writer = ByteWriter() writer.write_uint32(len(self.entities)) for entity in self.entities.values(): writer.write_uint8(int(entity.is_tgen)) entity.write(writer) self.debug_fp.write(writer.get())
def to_cub(in_file, out_file): qmo_file = QubicleFile(ByteReader(open(in_file, 'rb').read())) qmo_model = qmo_file.models[0] cub = CubModel() x_size, y_size, z_size = switch_axes(qmo_model.x_size, qmo_model.y_size, qmo_model.z_size) cub.x_size = x_size cub.y_size = y_size cub.z_size = z_size for k, v in qmo_model.blocks.iteritems(): x, y, z = k x2, y2, z2 = switch_axes(x, y, z) cub.blocks[x2, y2, z2] = v cub.write(ByteWriter(fp=open(out_file, 'wb')))
def to_qmo(in_file, out_file): cub = CubModel(ByteReader(open(in_file, 'rb').read())) qmo_file = QubicleFile() qmo_model = QubicleModel() x_size, y_size, z_size = switch_axes(cub.x_size, cub.y_size, cub.z_size) qmo_model.x_size = x_size qmo_model.y_size = y_size qmo_model.z_size = z_size qmo_model.x_offset = -x_size / 2 qmo_model.y_offset = 0 qmo_model.z_offset = -z_size / 2 for k, v in cub.blocks.iteritems(): x, y, z = k x2, y2, z2 = switch_axes(x, y, z) qmo_model.blocks[x2, y2, z2] = v qmo_file.models.append(qmo_model) qmo_file.write(ByteWriter(fp=open(out_file, 'wb')))
def write_packet(packet): writer = ByteWriter() writer.write_uint32(packet.packet_id) packet.write(writer) return writer.get()