""" test parquet compat """ import pytest import datetime from distutils.version import LooseVersion from warnings import catch_warnings import numpy as np import pandas as pd from pandas.compat import PY3, is_platform_windows, is_platform_mac from pandas.io.parquet import (to_parquet, read_parquet, get_engine, PyArrowImpl, FastParquetImpl) from pandas.util import testing as tm try: import pyarrow # noqa _HAVE_PYARROW = True except ImportError: _HAVE_PYARROW = False try: import fastparquet # noqa _HAVE_FASTPARQUET = True except ImportError: _HAVE_FASTPARQUET = False # setup engines & skips @pytest.fixture(params=[ pytest.param('fastparquet', marks=pytest.mark.skipif(not _HAVE_FASTPARQUET, reason='fastparquet is ' 'not installed')), pytest.param('pyarrow', marks=pytest.mark.skipif(not _HAVE_PYARROW, reason='pyarrow is ' 'not installed'))]) def engine(request): return request.param @pytest.fixture def pa(): if not _HAVE_PYARROW: pytest.skip("pyarrow is not installed") return 'pyarrow' @pytest.fixture def pa_lt_070(): if not _HAVE_PYARROW: pytest.skip("pyarrow is not installed") if LooseVersion(pyarrow.__version__) >= LooseVersion('0.7.0'): pytest.skip("pyarrow is >= 0.7.0") return 'pyarrow' @pytest.fixture def pa_ge_070(): if not _HAVE_PYARROW: pytest.skip("pyarrow is not installed") if LooseVersion(pyarrow.__version__) < LooseVersion('0.7.0'): pytest.skip("pyarrow is < 0.7.0") return 'pyarrow' @pytest.fixture def fp(): if not _HAVE_FASTPARQUET: pytest.skip("fastparquet is not installed") return 'fastparquet' @pytest.fixture def fp_lt_014(): if not _HAVE_FASTPARQUET: pytest.skip("fastparquet is not installed") if LooseVersion(fastparquet.__version__) >= LooseVersion('0.1.4'): pytest.skip("fastparquet is >= 0.1.4") return 'fastparquet' @pytest.fixture def df_compat(): return pd.DataFrame({'A': [1, 2, 3], 'B': 'foo'}) @pytest.fixture def df_cross_compat(): df = pd.DataFrame({'a': list('abc'), 'b': list(range(1, 4)), # 'c': np.arange(3, 6).astype('u1'), 'd': np.arange(4.0, 7.0, dtype='float64'), 'e': [True, False, True], 'f': pd.date_range('20130101', periods=3), # 'g': pd.date_range('20130101', periods=3, # tz='US/Eastern'), # 'h': pd.date_range('20130101', periods=3, freq='ns') }) return df @pytest.fixture def df_full(): return pd.DataFrame( {'string': list('abc'), 'string_with_nan': ['a', np.nan, 'c'], 'string_with_none': ['a', None, 'c'], 'bytes': [b'foo', b'bar', b'baz'], 'unicode': [u'foo', u'bar', u'baz'], 'int': list(range(1, 4)), 'uint': np.arange(3, 6).astype('u1'), 'float': np.arange(4.0, 7.0, dtype='float64'), 'float_with_nan': [2., np.nan, 3.], 'bool': [True, False, True], 'datetime': pd.date_range('20130101', periods=3), 'datetime_with_nat': [pd.Timestamp('20130101'), pd.NaT, pd.Timestamp('20130103')]}) def check_round_trip(df, engine=None, path=None, write_kwargs=None, read_kwargs=None, expected=None, check_names=True, repeat=2): """Verify parquet serializer and deserializer produce the same results. Performs a pandas to disk and disk to pandas round trip, then compares the 2 resulting DataFrames to verify equality. Parameters ---------- df: Dataframe engine: str, optional 'pyarrow' or 'fastparquet' path: str, optional write_kwargs: dict of str:str, optional read_kwargs: dict of str:str, optional expected: DataFrame, optional Expected deserialization result, otherwise will be equal to `df` check_names: list of str, optional Closed set of column names to be compared repeat: int, optional How many times to repeat the test """ write_kwargs = write_kwargs or {'compression': None} read_kwargs = read_kwargs or {} if expected is None: expected = df if engine: write_kwargs['engine'] = engine read_kwargs['engine'] = engine def compare(repeat): for _ in range(repeat): df.to_parquet(path, **write_kwargs) with catch_warnings(record=True): actual = read_parquet(path, **read_kwargs) tm.assert_frame_equal(expected, actual, check_names=check_names) if path is None: with tm.ensure_clean() as path: compare(repeat) else: compare(repeat) def test_invalid_engine(df_compat): with pytest.raises(ValueError): check_round_trip(df_compat, 'foo', 'bar') def test_options_py(df_compat, pa): # use the set option with pd.option_context('io.parquet.engine', 'pyarrow'): check_round_trip(df_compat) def test_options_fp(df_compat, fp): # use the set option with pd.option_context('io.parquet.engine', 'fastparquet'): check_round_trip(df_compat) def test_options_auto(df_compat, fp, pa): # use the set option with pd.option_context('io.parquet.engine', 'auto'): check_round_trip(df_compat) def test_options_get_engine(fp, pa): assert isinstance(get_engine('pyarrow'), PyArrowImpl) assert isinstance(get_engine('fastparquet'), FastParquetImpl) with pd.option_context('io.parquet.engine', 'pyarrow'): assert isinstance(get_engine('auto'), PyArrowImpl) assert isinstance(get_engine('pyarrow'), PyArrowImpl) assert isinstance(get_engine('fastparquet'), FastParquetImpl) with pd.option_context('io.parquet.engine', 'fastparquet'): assert isinstance(get_engine('auto'), FastParquetImpl) assert isinstance(get_engine('pyarrow'), PyArrowImpl) assert isinstance(get_engine('fastparquet'), FastParquetImpl) with pd.option_context('io.parquet.engine', 'auto'): assert isinstance(get_engine('auto'), PyArrowImpl) assert isinstance(get_engine('pyarrow'), PyArrowImpl) assert isinstance(get_engine('fastparquet'), FastParquetImpl) @pytest.mark.xfail(is_platform_windows() or is_platform_mac(), reason="reading pa metadata failing on Windows/mac") def test_cross_engine_pa_fp(df_cross_compat, pa, fp): # cross-compat with differing reading/writing engines df = df_cross_compat with tm.ensure_clean() as path: df.to_parquet(path, engine=pa, compression=None) result = read_parquet(path, engine=fp) tm.assert_frame_equal(result, df) result = read_parquet(path, engine=fp, columns=['a', 'd']) tm.assert_frame_equal(result, df[['a', 'd']]) def test_cross_engine_fp_pa(df_cross_compat, pa, fp): # cross-compat with differing reading/writing engines df = df_cross_compat with tm.ensure_clean() as path: df.to_parquet(path, engine=fp, compression=None) with catch_warnings(record=True): result = read_parquet(path, engine=pa) tm.assert_frame_equal(result, df) result = read_parquet(path, engine=pa, columns=['a', 'd']) tm.assert_frame_equal(result, df[['a', 'd']]) class Base(object): def check_error_on_write(self, df, engine, exc): # check that we are raising the exception on writing with tm.ensure_clean() as path: with pytest.raises(exc): to_parquet(df, path, engine, compression=None) class TestBasic(Base): def test_error(self, engine): for obj in [pd.Series([1, 2, 3]), 1, 'foo', pd.Timestamp('20130101'), np.array([1, 2, 3])]: self.check_error_on_write(obj, engine, ValueError) def test_columns_dtypes(self, engine): df = pd.DataFrame({'string': list('abc'), 'int': list(range(1, 4))}) # unicode df.columns = [u'foo', u'bar'] check_round_trip(df, engine) def test_columns_dtypes_invalid(self, engine): df = pd.DataFrame({'string': list('abc'), 'int': list(range(1, 4))}) # numeric df.columns = [0, 1] self.check_error_on_write(df, engine, ValueError) if PY3: # bytes on PY3, on PY2 these are str df.columns = [b'foo', b'bar'] self.check_error_on_write(df, engine, ValueError) # python object df.columns = [datetime.datetime(2011, 1, 1, 0, 0), datetime.datetime(2011, 1, 1, 1, 1)] self.check_error_on_write(df, engine, ValueError) @pytest.mark.parametrize('compression', [None, 'gzip', 'snappy', 'brotli']) def test_compression(self, engine, compression): if compression == 'snappy': pytest.importorskip('snappy') elif compression == 'brotli': pytest.importorskip('brotli') df = pd.DataFrame({'A': [1, 2, 3]}) check_round_trip(df, engine, write_kwargs={'compression': compression}) def test_read_columns(self, engine): # GH18154 df = pd.DataFrame({'string': list('abc'), 'int': list(range(1, 4))}) expected = pd.DataFrame({'string': list('abc')}) check_round_trip(df, engine, expected=expected, read_kwargs={'columns': ['string']}) def test_write_index(self, engine): check_names = engine != 'fastparquet' if engine == 'pyarrow': import pyarrow if LooseVersion(pyarrow.__version__) < LooseVersion('0.7.0'): pytest.skip("pyarrow is < 0.7.0") df = pd.DataFrame({'A': [1, 2, 3]}) check_round_trip(df, engine) indexes = [ [2, 3, 4], pd.date_range('20130101', periods=3), list('abc'), [1, 3, 4], ] # non-default index for index in indexes: df.index = index check_round_trip(df, engine, check_names=check_names) # index with meta-data df.index = [0, 1, 2] df.index.name = 'foo' check_round_trip(df, engine) def test_write_multiindex(self, pa_ge_070): # Not suppoprted in fastparquet as of 0.1.3 or older pyarrow version engine = pa_ge_070 df = pd.DataFrame({'A': [1, 2, 3]}) index = pd.MultiIndex.from_tuples([('a', 1), ('a', 2), ('b', 1)]) df.index = index check_round_trip(df, engine) def test_write_column_multiindex(self, engine): # column multi-index mi_columns = pd.MultiIndex.from_tuples([('a', 1), ('a', 2), ('b', 1)]) df = pd.DataFrame(np.random.randn(4, 3), columns=mi_columns) self.check_error_on_write(df, engine, ValueError) def test_multiindex_with_columns(self, pa_ge_070): engine = pa_ge_070 dates = pd.date_range('01-Jan-2018', '01-Dec-2018', freq='MS') df = pd.DataFrame(np.random.randn(2 * len(dates), 3), columns=list('ABC')) index1 = pd.MultiIndex.from_product( [['Level1', 'Level2'], dates], names=['level', 'date']) index2 = index1.copy(names=None) for index in [index1, index2]: df.index = index check_round_trip(df, engine) check_round_trip(df, engine, read_kwargs={'columns': ['A', 'B']}, expected=df[['A', 'B']]) class TestParquetPyArrow(Base): def test_basic(self, pa, df_full): df = df_full # additional supported types for pyarrow import pyarrow if LooseVersion(pyarrow.__version__) >= LooseVersion('0.7.0'): df['datetime_tz'] = pd.date_range('20130101', periods=3, tz='Europe/Brussels') df['bool_with_none'] = [True, None, True] check_round_trip(df, pa) @pytest.mark.xfail(reason="pyarrow fails on this (ARROW-1883)") def test_basic_subset_columns(self, pa, df_full): # GH18628 df = df_full # additional supported types for pyarrow df['datetime_tz'] = pd.date_range('20130101', periods=3, tz='Europe/Brussels') check_round_trip(df, pa, expected=df[['string', 'int']], read_kwargs={'columns': ['string', 'int']}) def test_duplicate_columns(self, pa): # not currently able to handle duplicate columns df = pd.DataFrame(np.arange(12).reshape(4, 3), columns=list('aaa')).copy() self.check_error_on_write(df, pa, ValueError) def test_unsupported(self, pa): # period df = pd.DataFrame({'a': pd.period_range('2013', freq='M', periods=3)}) self.check_error_on_write(df, pa, ValueError) # timedelta df = pd.DataFrame({'a': pd.timedelta_range('1 day', periods=3)}) self.check_error_on_write(df, pa, NotImplementedError) # mixed python objects df = pd.DataFrame({'a': ['a', 1, 2.0]}) self.check_error_on_write(df, pa, ValueError) def test_categorical(self, pa_ge_070): pa = pa_ge_070 # supported in >= 0.7.0 df = pd.DataFrame({'a': pd.Categorical(list('abc'))}) # de-serialized as object expected = df.assign(a=df.a.astype(object)) check_round_trip(df, pa, expected=expected) def test_categorical_unsupported(self, pa_lt_070): pa = pa_lt_070 # supported in >= 0.7.0 df = pd.DataFrame({'a': pd.Categorical(list('abc'))}) self.check_error_on_write(df, pa, NotImplementedError) def test_s3_roundtrip(self, df_compat, s3_resource, pa): # GH #19134 check_round_trip(df_compat, pa, path='s3://pandas-test/pyarrow.parquet') class TestParquetFastParquet(Base): def test_basic(self, fp, df_full): df = df_full # additional supported types for fastparquet if LooseVersion(fastparquet.__version__) >= LooseVersion('0.1.4'): df['datetime_tz'] = pd.date_range('20130101', periods=3, tz='US/Eastern') df['timedelta'] = pd.timedelta_range('1 day', periods=3) check_round_trip(df, fp) @pytest.mark.skip(reason="not supported") def test_duplicate_columns(self, fp): # not currently able to handle duplicate columns df = pd.DataFrame(np.arange(12).reshape(4, 3), columns=list('aaa')).copy() self.check_error_on_write(df, fp, ValueError) def test_bool_with_none(self, fp): df = pd.DataFrame({'a': [True, None, False]}) expected = pd.DataFrame({'a': [1.0, np.nan, 0.0]}, dtype='float16') check_round_trip(df, fp, expected=expected) def test_unsupported(self, fp): # period df = pd.DataFrame({'a': pd.period_range('2013', freq='M', periods=3)}) self.check_error_on_write(df, fp, ValueError) # mixed df = pd.DataFrame({'a': ['a', 1, 2.0]}) self.check_error_on_write(df, fp, ValueError) def test_categorical(self, fp): if LooseVersion(fastparquet.__version__) < LooseVersion("0.1.3"): pytest.skip("CategoricalDtype not supported for older fp") df = pd.DataFrame({'a': pd.Categorical(list('abc'))}) check_round_trip(df, fp) def test_datetime_tz(self, fp_lt_014): # fastparquet<0.1.4 doesn't preserve tz df = pd.DataFrame({'a': pd.date_range('20130101', periods=3, tz='US/Eastern')}) # warns on the coercion with catch_warnings(record=True): check_round_trip(df, fp_lt_014, expected=df.astype('datetime64[ns]')) def test_filter_row_groups(self, fp): d = {'a': list(range(0, 3))} df = pd.DataFrame(d) with tm.ensure_clean() as path: df.to_parquet(path, fp, compression=None, row_group_offsets=1) result = read_parquet(path, fp, filters=[('a', '==', 0)]) assert len(result) == 1 def test_s3_roundtrip(self, df_compat, s3_resource, fp): # GH #19134 check_round_trip(df_compat, fp, path='s3://pandas-test/fastparquet.parquet')