""" manage legacy pickle tests How to add pickle tests: 1. Install pandas version intended to output the pickle. 2. Execute "generate_legacy_storage_files.py" to create the pickle. $ python generate_legacy_storage_files.py pickle 3. Move the created pickle to "data/legacy_pickle/" directory. """ import bz2 import glob import gzip import os import pickle import shutil from warnings import catch_warnings, simplefilter import zipfile import pytest from pandas.compat import _get_lzma_file, _import_lzma, is_platform_little_endian import pandas.util._test_decorators as td import pandas as pd from pandas import Index import pandas._testing as tm from pandas.tseries.offsets import Day, MonthEnd lzma = _import_lzma() @pytest.fixture(scope="module") def current_pickle_data(): # our current version pickle data from pandas.tests.io.generate_legacy_storage_files import create_pickle_data return create_pickle_data() # --------------------- # comparison functions # --------------------- def compare_element(result, expected, typ, version=None): if isinstance(expected, Index): tm.assert_index_equal(expected, result) return if typ.startswith("sp_"): comparator = tm.assert_equal comparator(result, expected) elif typ == "timestamp": if expected is pd.NaT: assert result is pd.NaT else: assert result == expected assert result.freq == expected.freq else: comparator = getattr( tm, "assert_{typ}_equal".format(typ=typ), tm.assert_almost_equal ) comparator(result, expected) def compare(data, vf, version): data = pd.read_pickle(vf) m = globals() for typ, dv in data.items(): for dt, result in dv.items(): expected = data[typ][dt] # use a specific comparator # if available comparator = "compare_{typ}_{dt}".format(typ=typ, dt=dt) comparator = m.get(comparator, m["compare_element"]) comparator(result, expected, typ, version) return data def compare_series_ts(result, expected, typ, version): # GH 7748 tm.assert_series_equal(result, expected) assert result.index.freq == expected.index.freq assert not result.index.freq.normalize tm.assert_series_equal(result > 0, expected > 0) # GH 9291 freq = result.index.freq assert freq + Day(1) == Day(2) res = freq + pd.Timedelta(hours=1) assert isinstance(res, pd.Timedelta) assert res == pd.Timedelta(days=1, hours=1) res = freq + pd.Timedelta(nanoseconds=1) assert isinstance(res, pd.Timedelta) assert res == pd.Timedelta(days=1, nanoseconds=1) def compare_series_dt_tz(result, expected, typ, version): tm.assert_series_equal(result, expected) def compare_series_cat(result, expected, typ, version): tm.assert_series_equal(result, expected) def compare_frame_dt_mixed_tzs(result, expected, typ, version): tm.assert_frame_equal(result, expected) def compare_frame_cat_onecol(result, expected, typ, version): tm.assert_frame_equal(result, expected) def compare_frame_cat_and_float(result, expected, typ, version): compare_frame_cat_onecol(result, expected, typ, version) def compare_index_period(result, expected, typ, version): tm.assert_index_equal(result, expected) assert isinstance(result.freq, MonthEnd) assert result.freq == MonthEnd() assert result.freqstr == "M" tm.assert_index_equal(result.shift(2), expected.shift(2)) files = glob.glob( os.path.join(os.path.dirname(__file__), "data", "legacy_pickle", "*", "*.pickle") ) @pytest.fixture(params=files) def legacy_pickle(request, datapath): return datapath(request.param) # --------------------- # tests # --------------------- def test_pickles(current_pickle_data, legacy_pickle): if not is_platform_little_endian(): pytest.skip("known failure on non-little endian") version = os.path.basename(os.path.dirname(legacy_pickle)) with catch_warnings(record=True): simplefilter("ignore") compare(current_pickle_data, legacy_pickle, version) def test_round_trip_current(current_pickle_data): def python_pickler(obj, path): with open(path, "wb") as fh: pickle.dump(obj, fh, protocol=-1) def python_unpickler(path): with open(path, "rb") as fh: fh.seek(0) return pickle.load(fh) data = current_pickle_data for typ, dv in data.items(): for dt, expected in dv.items(): for writer in [pd.to_pickle, python_pickler]: if writer is None: continue with tm.ensure_clean() as path: # test writing with each pickler writer(expected, path) # test reading with each unpickler result = pd.read_pickle(path) compare_element(result, expected, typ) result = python_unpickler(path) compare_element(result, expected, typ) def test_pickle_path_pathlib(): df = tm.makeDataFrame() result = tm.round_trip_pathlib(df.to_pickle, pd.read_pickle) tm.assert_frame_equal(df, result) def test_pickle_path_localpath(): df = tm.makeDataFrame() result = tm.round_trip_localpath(df.to_pickle, pd.read_pickle) tm.assert_frame_equal(df, result) def test_legacy_sparse_warning(datapath): """ Generated with >>> df = pd.DataFrame({"A": [1, 2, 3, 4], "B": [0, 0, 1, 1]}).to_sparse() >>> df.to_pickle("pandas/tests/io/data/pickle/sparseframe-0.20.3.pickle.gz", ... compression="gzip") >>> s = df['B'] >>> s.to_pickle("pandas/tests/io/data/pickle/sparseseries-0.20.3.pickle.gz", ... compression="gzip") """ with tm.assert_produces_warning(FutureWarning): simplefilter("ignore", DeprecationWarning) # from boto pd.read_pickle( datapath("io", "data", "pickle", "sparseseries-0.20.3.pickle.gz"), compression="gzip", ) with tm.assert_produces_warning(FutureWarning): simplefilter("ignore", DeprecationWarning) # from boto pd.read_pickle( datapath("io", "data", "pickle", "sparseframe-0.20.3.pickle.gz"), compression="gzip", ) # --------------------- # test pickle compression # --------------------- @pytest.fixture def get_random_path(): return "__{}__.pickle".format(tm.rands(10)) class TestCompression: _compression_to_extension = { None: ".none", "gzip": ".gz", "bz2": ".bz2", "zip": ".zip", "xz": ".xz", } def compress_file(self, src_path, dest_path, compression): if compression is None: shutil.copyfile(src_path, dest_path) return if compression == "gzip": f = gzip.open(dest_path, "w") elif compression == "bz2": f = bz2.BZ2File(dest_path, "w") elif compression == "zip": with zipfile.ZipFile(dest_path, "w", compression=zipfile.ZIP_DEFLATED) as f: f.write(src_path, os.path.basename(src_path)) elif compression == "xz": f = _get_lzma_file(lzma)(dest_path, "w") else: msg = "Unrecognized compression type: {}".format(compression) raise ValueError(msg) if compression != "zip": with open(src_path, "rb") as fh, f: f.write(fh.read()) def test_write_explicit(self, compression, get_random_path): base = get_random_path path1 = base + ".compressed" path2 = base + ".raw" with tm.ensure_clean(path1) as p1, tm.ensure_clean(path2) as p2: df = tm.makeDataFrame() # write to compressed file df.to_pickle(p1, compression=compression) # decompress with tm.decompress_file(p1, compression=compression) as f: with open(p2, "wb") as fh: fh.write(f.read()) # read decompressed file df2 = pd.read_pickle(p2, compression=None) tm.assert_frame_equal(df, df2) @pytest.mark.parametrize("compression", ["", "None", "bad", "7z"]) def test_write_explicit_bad(self, compression, get_random_path): with pytest.raises(ValueError, match="Unrecognized compression type"): with tm.ensure_clean(get_random_path) as path: df = tm.makeDataFrame() df.to_pickle(path, compression=compression) @pytest.mark.parametrize("ext", ["", ".gz", ".bz2", ".no_compress", ".xz"]) def test_write_infer(self, ext, get_random_path): base = get_random_path path1 = base + ext path2 = base + ".raw" compression = None for c in self._compression_to_extension: if self._compression_to_extension[c] == ext: compression = c break with tm.ensure_clean(path1) as p1, tm.ensure_clean(path2) as p2: df = tm.makeDataFrame() # write to compressed file by inferred compression method df.to_pickle(p1) # decompress with tm.decompress_file(p1, compression=compression) as f: with open(p2, "wb") as fh: fh.write(f.read()) # read decompressed file df2 = pd.read_pickle(p2, compression=None) tm.assert_frame_equal(df, df2) def test_read_explicit(self, compression, get_random_path): base = get_random_path path1 = base + ".raw" path2 = base + ".compressed" with tm.ensure_clean(path1) as p1, tm.ensure_clean(path2) as p2: df = tm.makeDataFrame() # write to uncompressed file df.to_pickle(p1, compression=None) # compress self.compress_file(p1, p2, compression=compression) # read compressed file df2 = pd.read_pickle(p2, compression=compression) tm.assert_frame_equal(df, df2) @pytest.mark.parametrize("ext", ["", ".gz", ".bz2", ".zip", ".no_compress", ".xz"]) def test_read_infer(self, ext, get_random_path): base = get_random_path path1 = base + ".raw" path2 = base + ext compression = None for c in self._compression_to_extension: if self._compression_to_extension[c] == ext: compression = c break with tm.ensure_clean(path1) as p1, tm.ensure_clean(path2) as p2: df = tm.makeDataFrame() # write to uncompressed file df.to_pickle(p1, compression=None) # compress self.compress_file(p1, p2, compression=compression) # read compressed file by inferred compression method df2 = pd.read_pickle(p2) tm.assert_frame_equal(df, df2) # --------------------- # test pickle compression # --------------------- class TestProtocol: @pytest.mark.parametrize("protocol", [-1, 0, 1, 2]) def test_read(self, protocol, get_random_path): with tm.ensure_clean(get_random_path) as path: df = tm.makeDataFrame() df.to_pickle(path, protocol=protocol) df2 = pd.read_pickle(path) tm.assert_frame_equal(df, df2) @pytest.mark.parametrize( ["pickle_file", "excols"], [ ("test_py27.pkl", pd.Index(["a", "b", "c"])), ( "test_mi_py27.pkl", pd.MultiIndex.from_arrays([["a", "b", "c"], ["A", "B", "C"]]), ), ], ) def test_unicode_decode_error(datapath, pickle_file, excols): # pickle file written with py27, should be readable without raising # UnicodeDecodeError, see GH#28645 and GH#31988 path = datapath("io", "data", "pickle", pickle_file) df = pd.read_pickle(path) # just test the columns are correct since the values are random tm.assert_index_equal(df.columns, excols) # --------------------- # tests for buffer I/O # --------------------- def test_pickle_buffer_roundtrip(): with tm.ensure_clean() as path: df = tm.makeDataFrame() with open(path, "wb") as fh: df.to_pickle(fh) with open(path, "rb") as fh: result = pd.read_pickle(fh) tm.assert_frame_equal(df, result) # --------------------- # tests for URL I/O # --------------------- @pytest.mark.parametrize( "mockurl", ["http://url.com", "ftp://test.com", "http://gzip.com"] ) def test_pickle_generalurl_read(monkeypatch, mockurl): def python_pickler(obj, path): with open(path, "wb") as fh: pickle.dump(obj, fh, protocol=-1) class MockReadResponse: def __init__(self, path): self.file = open(path, "rb") if "gzip" in path: self.headers = {"Content-Encoding": "gzip"} else: self.headers = {"Content-Encoding": None} def read(self): return self.file.read() def close(self): return self.file.close() with tm.ensure_clean() as path: def mock_urlopen_read(*args, **kwargs): return MockReadResponse(path) df = tm.makeDataFrame() python_pickler(df, path) monkeypatch.setattr("urllib.request.urlopen", mock_urlopen_read) result = pd.read_pickle(mockurl) tm.assert_frame_equal(df, result) @td.skip_if_no("gcsfs") @pytest.mark.parametrize("mockurl", ["gs://gcs.com", "gcs://gcs.com"]) def test_pickle_gcsurl_roundtrip(monkeypatch, mockurl): with tm.ensure_clean() as path: class MockGCSFileSystem: def __init__(self, *args, **kwargs): pass def open(self, *args): mode = args[1] or None f = open(path, mode) return f monkeypatch.setattr("gcsfs.GCSFileSystem", MockGCSFileSystem) df = tm.makeDataFrame() df.to_pickle(mockurl) result = pd.read_pickle(mockurl) tm.assert_frame_equal(df, result) @td.skip_if_no("s3fs") @pytest.mark.parametrize("mockurl", ["s3://s3.com", "s3n://s3.com", "s3a://s3.com"]) def test_pickle_s3url_roundtrip(monkeypatch, mockurl): with tm.ensure_clean() as path: class MockS3FileSystem: def __init__(self, *args, **kwargs): pass def open(self, *args): mode = args[1] or None f = open(path, mode) return f monkeypatch.setattr("s3fs.S3FileSystem", MockS3FileSystem) df = tm.makeDataFrame() df.to_pickle(mockurl) result = pd.read_pickle(mockurl) tm.assert_frame_equal(df, result)