# Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. from __future__ import annotations import io import struct import uuid from pyiceberg.avro.encoder import BinaryEncoder def test_write() -> None: output = io.BytesIO() encoder = BinaryEncoder(output) _input = b"\x12\x34\x56" encoder.write(_input) assert output.getbuffer() == _input def test_write_boolean() -> None: output = io.BytesIO() encoder = BinaryEncoder(output) encoder.write_boolean(True) encoder.write_boolean(False) assert output.getbuffer() == struct.pack("??", True, False) def test_write_int() -> None: output = io.BytesIO() encoder = BinaryEncoder(output) _1byte_input = 2 _2byte_input = 7466 _3byte_input = 523490 _4byte_input = 86561570 _5byte_input = 2510416930 _6byte_input = 734929016866 _7byte_input = 135081528772642 _8byte_input = 35124861473277986 encoder.write_int(_1byte_input) encoder.write_int(_2byte_input) encoder.write_int(_3byte_input) encoder.write_int(_4byte_input) encoder.write_int(_5byte_input) encoder.write_int(_6byte_input) encoder.write_int(_7byte_input) encoder.write_int(_8byte_input) buffer = output.getbuffer() assert buffer[0:1] == b"\x04" assert buffer[1:3] == b"\xd4\x74" assert buffer[3:6] == b"\xc4\xf3\x3f" assert buffer[6:10] == b"\xc4\xcc\xc6\x52" assert buffer[10:15] == b"\xc4\xb0\x8f\xda\x12" assert buffer[15:21] == b"\xc4\xe0\xf6\xd2\xe3\x2a" assert buffer[21:28] == b"\xc4\xa0\xce\xe8\xe3\xb6\x3d" assert buffer[28:36] == b"\xc4\xa0\xb2\xae\x83\xf8\xe4\x7c" def test_write_float() -> None: output = io.BytesIO() encoder = BinaryEncoder(output) _input = 3.14159265359 encoder.write_float(_input) assert output.getbuffer() == struct.pack(" None: output = io.BytesIO() encoder = BinaryEncoder(output) _input = 3.14159265359 encoder.write_double(_input) assert output.getbuffer() == struct.pack(" None: output = io.BytesIO() encoder = BinaryEncoder(output) _input = b"\x12\x34\x56" encoder.write_bytes(_input) assert output.getbuffer() == b"".join([b"\x06", _input]) def test_write_utf8() -> None: output = io.BytesIO() encoder = BinaryEncoder(output) _input = "That, my liege, is how we know the Earth to be banana-shaped." bin_input = _input.encode() encoder.write_utf8(_input) assert output.getbuffer() == b"".join([b"\x7a", bin_input]) def test_write_uuid() -> None: output = io.BytesIO() encoder = BinaryEncoder(output) _input = uuid.UUID("12345678-1234-5678-1234-567812345678") encoder.write_uuid(_input) buf = output.getbuffer() assert len(buf) == 16 assert buf.tobytes() == b"\x124Vx\x124Vx\x124Vx\x124Vx"