def test_schema_equality():
col = ColumnSchema(logical_type=Categorical)
diff_description_col = ColumnSchema(logical_type=Categorical, description='description')
diff_metadata_col = ColumnSchema(logical_type=Categorical, metadata={'interesting_values': ['a', 'b']})
use_standard_tags_col = ColumnSchema(logical_type=Categorical, use_standard_tags=True)
diff_tags_col = ColumnSchema(logical_type=Categorical, semantic_tags={'new_tag'})
assert col != diff_description_col
assert col != diff_metadata_col
assert col != use_standard_tags_col
assert col != diff_tags_col
# Check columns with same logical types but different parameters
ordinal_ltype_1 = Ordinal(order=['a', 'b', 'c'])
ordinal_ltype_2 = Ordinal(order=['b', 'a', 'c'])
ordinal_col_1 = ColumnSchema(logical_type=ordinal_ltype_1)
ordinal_col_2 = ColumnSchema(logical_type=ordinal_ltype_2)
assert col != ordinal_col_1
assert ordinal_col_1 != ordinal_col_2
assert ordinal_col_1 == ordinal_col_1
datetime_ltype_instantiated = Datetime(datetime_format='%Y-%m%d')
datetime_col_format = ColumnSchema(logical_type=datetime_ltype_instantiated)
datetime_col_param = ColumnSchema(logical_type=Datetime(datetime_format=None))
datetime_col_instantiated = ColumnSchema(logical_type=Datetime())
datetime_col = ColumnSchema(logical_type=Datetime)
assert datetime_col != datetime_col_instantiated
assert datetime_col_instantiated != datetime_col_format
assert datetime_col_instantiated == datetime_col_param
def test_logical_eq():
assert Boolean == Boolean
assert Boolean() == Boolean()
assert Categorical != Boolean
assert Datetime != Datetime()
assert Datetime() == Datetime(datetime_format=None)
assert Datetime() != Datetime(datetime_format='%Y-%m-%d')
def test_datetime_transform(datetimes):
datetime = Datetime()
for series in datetimes:
assert str(series.dtype) == "object"
transform = datetime.transform(series)
assert str(transform.dtype) == "datetime64[ns]"
assert datetime.datetime_format is not None
def test_datetime_coerce_user_format():
datetime = Datetime(datetime_format="%m/%d/%Y")
dates = pd.Series(["01/01/2017"] * 2 + ["13/12/2017"], name="dates")
warning = (
"Some rows in series 'dates' are incompatible with datetime format "
"'%m/%d/%Y' and have been replaced with null values. You may be able "
"to fix this by using an instantiated Datetime logical type with a different "
"format string specified for this column during Woodwork initialization."
)
with pytest.warns(TypeConversionWarning, match=warning):
transformed = datetime.transform(dates)
assert str(transformed.dtype) == "datetime64[ns]"
assert transformed[2] is pd.NaT
assert datetime.datetime_format == "%m/%d/%Y"
def test_is_col_datetime():
datetime_column = ColumnSchema(logical_type=Datetime)
assert _is_col_datetime(datetime_column)
formatted_datetime_column = ColumnSchema(logical_type=Datetime(datetime_format='%Y-%m%d'))
assert _is_col_datetime(formatted_datetime_column)
instantiated_datetime_column = ColumnSchema(logical_type=Datetime())
assert _is_col_datetime(instantiated_datetime_column)
nl_column = ColumnSchema(logical_type=NaturalLanguage)
assert not _is_col_datetime(nl_column)
double_column = ColumnSchema(logical_type=Double)
assert not _is_col_datetime(double_column)
def test_get_ltype_params():
params_empty_class = _get_specified_ltype_params(Categorical)
assert params_empty_class == {}
params_empty = _get_specified_ltype_params(Categorical())
assert params_empty == {}
params_class = _get_specified_ltype_params(Datetime)
assert params_class == {}
params_null = _get_specified_ltype_params(Datetime())
assert params_null == {'datetime_format': None}
ymd = '%Y-%m-%d'
params_value = _get_specified_ltype_params(Datetime(datetime_format=ymd))
assert params_value == {'datetime_format': ymd}
def test_select_semantic_tags_no_match(sample_df):
dt = DataTable(sample_df,
time_index='signup_date',
index='id',
name='dt_name')
dt = dt.set_types(
logical_types={
'full_name': FullName,
'email': EmailAddress,
'phone_number': PhoneNumber,
'signup_date': Datetime(datetime_format='%Y-%m-%d'),
})
dt = dt.set_types(
semantic_tags={
'full_name': ['new_tag', 'tag2'],
'age': 'numeric',
'signup_date': 'date_of_birth',
'email': 'tag2'
})
assert len(dt.select(['doesnt_exist']).columns) == 0
dt_multiple_unused = dt.select(
['doesnt_exist', 'boolean', 'category', PhoneNumber])
assert len(dt_multiple_unused.columns) == 2
dt_unused_ltype = dt.select(
['date_of_birth', 'doesnt_exist', ZIPCode, Integer])
assert len(dt_unused_ltype.columns) == 3
def test_filter_schema_errors(sample_column_names,
sample_inferred_logical_types):
schema = TableSchema(
sample_column_names,
sample_inferred_logical_types,
time_index="signup_date",
index="id",
name="df_name",
)
err_msg = "Invalid selector used in include: {} must be a string, uninstantiated and registered LogicalType, or valid column name"
with pytest.raises(TypeError, match=err_msg):
schema._filter_cols(include=["boolean", "index", Double, {}])
err_msg = "Invalid selector used in include: {} must be a string, uninstantiated and registered LogicalType, or valid column name"
with pytest.raises(TypeError, match=err_msg):
schema._filter_cols(include=["boolean", "index", Double, {}],
col_names=True)
err_msg = "Invalid selector used in include: Datetime cannot be instantiated"
with pytest.raises(TypeError, match=err_msg):
schema._filter_cols(Datetime())
type_system.remove_type(EmailAddress)
err_msg = "Specified LogicalType selector EmailAddress is not registered in Woodwork's type system."
with pytest.raises(TypeError, match=err_msg):
schema._filter_cols(EmailAddress)
err_msg = "Invalid selector used in include: EmailAddress must be a string, uninstantiated and registered LogicalType, or valid column name"
with pytest.raises(TypeError, match=err_msg):
schema._filter_cols(EmailAddress())
type_system.reset_defaults()
def test_mutual_info(df_mi):
df_mi.ww.init(logical_types={'dates': Datetime(datetime_format='%Y-%m-%d')})
original_df = df_mi.copy()
mi = df_mi.ww.mutual_information()
assert mi.shape[0] == 10
np.testing.assert_almost_equal(mi_between_cols('ints', 'bools', mi), 1.0, 3)
np.testing.assert_almost_equal(mi_between_cols('ints', 'strs', mi), 0.0, 3)
np.testing.assert_almost_equal(mi_between_cols('strs', 'bools', mi), 0, 3)
np.testing.assert_almost_equal(mi_between_cols('dates', 'ints', mi), 0.274, 3)
np.testing.assert_almost_equal(mi_between_cols('dates', 'bools', mi), 0.274, 3)
mi_many_rows = df_mi.ww.mutual_information(nrows=100000)
pd.testing.assert_frame_equal(mi, mi_many_rows)
mi = df_mi.ww.mutual_information(nrows=1)
assert mi.shape[0] == 10
assert (mi['mutual_info'] == 1.0).all()
mi = df_mi.ww.mutual_information(num_bins=2)
assert mi.shape[0] == 10
np.testing.assert_almost_equal(mi_between_cols('bools', 'ints', mi), 0.0, 3)
np.testing.assert_almost_equal(mi_between_cols('strs', 'ints', mi), 1.0, 3)
np.testing.assert_almost_equal(mi_between_cols('bools', 'strs', mi), 0, 3)
np.testing.assert_almost_equal(mi_between_cols('dates', 'strs', mi), 1.0, 3)
np.testing.assert_almost_equal(mi_between_cols('dates', 'ints', mi), 1.0, 3)
# Confirm that none of this changed the underlying df
pd.testing.assert_frame_equal(to_pandas(df_mi), to_pandas(original_df))
def test_datacolumn_equality(sample_series, sample_datetime_series):
# Check different parameters to DataColumn
str_col = DataColumn(sample_series, logical_type='Categorical')
str_col_2 = DataColumn(sample_series, logical_type=Categorical)
str_col_diff_tags = DataColumn(sample_series, logical_type=Categorical, semantic_tags={'test'})
diff_name_col = DataColumn(sample_datetime_series, logical_type=Categorical)
diff_dtype_col = DataColumn(sample_series, logical_type=NaturalLanguage)
diff_description_col = DataColumn(sample_series, logical_type='Categorical', description='description')
diff_metadata_col = DataColumn(sample_series, logical_type='Categorical', metadata={'interesting_values': ['a', 'b']})
assert str_col == str_col_2
assert str_col != str_col_diff_tags
assert str_col != diff_name_col
assert str_col != diff_dtype_col
assert str_col != diff_description_col
assert str_col != diff_metadata_col
# Check columns with same logical types but different parameters
ordinal_ltype_1 = Ordinal(order=['a', 'b', 'c'])
ordinal_ltype_2 = Ordinal(order=['b', 'a', 'c'])
ordinal_col_1 = DataColumn(sample_series, logical_type=ordinal_ltype_1)
ordinal_col_2 = DataColumn(sample_series, logical_type=ordinal_ltype_2)
assert str_col != ordinal_col_1
assert ordinal_col_1 != ordinal_col_2
assert ordinal_col_1 == ordinal_col_1
datetime_ltype_instantiated = Datetime(datetime_format='%Y-%m%d')
datetime_col_format = DataColumn(sample_datetime_series, logical_type=datetime_ltype_instantiated)
datetime_col_param = DataColumn(sample_datetime_series, logical_type=Datetime(datetime_format=None))
datetime_col_instantiated = DataColumn(sample_datetime_series, logical_type=Datetime())
datetime_col = DataColumn(sample_datetime_series, logical_type=Datetime)
assert datetime_col != datetime_col_instantiated
assert datetime_col_instantiated != datetime_col_format
assert datetime_col_instantiated == datetime_col_param
# Check different underlying series
str_col = DataColumn(sample_series, logical_type='NaturalLanguage')
changed_series = sample_series.copy().replace(to_replace='a', value='test')
null_col = DataColumn(changed_series, logical_type='NaturalLanguage')
# We only check underlying data for equality with pandas dataframes
if isinstance(str_col.to_series(), pd.Series):
assert str_col != null_col
else:
assert str_col == null_col
def test_get_ltype_params():
params_empty_class = _get_specified_ltype_params(Categorical)
assert params_empty_class == {}
params_empty = _get_specified_ltype_params(Categorical())
assert params_empty == {}
params_class = _get_specified_ltype_params(Datetime)
assert params_class == {}
params_null = _get_specified_ltype_params(Datetime())
assert params_null == {"datetime_format": None, "timezone": None}
ymd = "%Y-%m-%d"
params_value = _get_specified_ltype_params(
Datetime(datetime_format=ymd, timezone="UTC")
)
assert params_value == {"datetime_format": ymd, "timezone": "UTC"}
def test_str_to_logical_type():
all_types = ww.type_system.registered_types
with pytest.raises(ValueError,
match='String test is not a valid logical type'):
ww.type_system.str_to_logical_type('test')
assert ww.type_system.str_to_logical_type('test',
raise_error=False) is None
for logical_type in all_types:
assert ww.type_system.str_to_logical_type(
logical_type.__name__) == logical_type
assert ww.type_system.str_to_logical_type(
logical_type.type_string) == logical_type
assert ww.type_system.str_to_logical_type('bOoLeAn') == Boolean
assert ww.type_system.str_to_logical_type(
'person_full_NAME') == PersonFullName
assert ww.type_system.str_to_logical_type(
'PersonFullnamE') == PersonFullName
ymd = '%Y-%m-%d'
datetime_with_format = ww.type_system.str_to_logical_type(
'datetime', params={'datetime_format': ymd})
assert datetime_with_format.__class__ == Datetime
assert datetime_with_format.datetime_format == ymd
assert datetime_with_format == Datetime(datetime_format=ymd)
datetime_no_format = ww.type_system.str_to_logical_type(
'datetime', params={'datetime_format': None})
assert datetime_no_format.__class__ == Datetime
assert datetime_no_format.datetime_format is None
assert datetime_no_format == Datetime()
# When parameters are supplied in a non-empty dictionary, the logical type gets instantiated
assert ww.type_system.str_to_logical_type('person_full_NAME',
params={}) == PersonFullName
assert datetime_no_format != Datetime
# Input a different type system
new_type_sys = TypeSystem()
with pytest.raises(ValueError,
match='String Integer is not a valid logical type'):
new_type_sys.str_to_logical_type('Integer')
new_type_sys.add_type(Boolean)
assert Boolean == new_type_sys.str_to_logical_type('Boolean')
def test_str_to_logical_type():
all_types = ww.type_system.registered_types
with pytest.raises(ValueError,
match="String test is not a valid logical type"):
ww.type_system.str_to_logical_type("test")
assert ww.type_system.str_to_logical_type("test",
raise_error=False) is None
for logical_type in all_types:
assert ww.type_system.str_to_logical_type(
logical_type.__name__) == logical_type
assert (ww.type_system.str_to_logical_type(
logical_type.type_string) == logical_type)
assert ww.type_system.str_to_logical_type("bOoLeAn") == Boolean
assert ww.type_system.str_to_logical_type(
"person_full_NAME") == PersonFullName
assert ww.type_system.str_to_logical_type(
"PersonFullnamE") == PersonFullName
ymd = "%Y-%m-%d"
datetime_with_format = ww.type_system.str_to_logical_type(
"datetime", params={"datetime_format": ymd})
assert datetime_with_format.__class__ == Datetime
assert datetime_with_format.datetime_format == ymd
assert datetime_with_format == Datetime(datetime_format=ymd)
datetime_no_format = ww.type_system.str_to_logical_type(
"datetime", params={"datetime_format": None})
assert datetime_no_format.__class__ == Datetime
assert datetime_no_format.datetime_format is None
assert datetime_no_format == Datetime()
# When parameters are supplied in a non-empty dictionary, the logical type gets instantiated
assert (ww.type_system.str_to_logical_type("person_full_NAME",
params={}) == PersonFullName)
assert datetime_no_format != Datetime
# Input a different type system
new_type_sys = TypeSystem()
with pytest.raises(ValueError,
match="String Integer is not a valid logical type"):
new_type_sys.str_to_logical_type("Integer")
new_type_sys.add_type(Boolean)
assert Boolean == new_type_sys.str_to_logical_type("Boolean")
def test_is_datetime():
datetime_column = ColumnSchema(logical_type=Datetime)
assert datetime_column.is_datetime
formatted_datetime_column = ColumnSchema(logical_type=Datetime(
datetime_format='%Y-%m%d'))
assert formatted_datetime_column.is_datetime
instantiated_datetime_column = ColumnSchema(logical_type=Datetime())
assert instantiated_datetime_column.is_datetime
nl_column = ColumnSchema(logical_type=NaturalLanguage)
assert not nl_column.is_datetime
double_column = ColumnSchema(logical_type=Double)
assert not double_column.is_datetime
empty_column = ColumnSchema()
assert not empty_column.is_datetime
def test_schema_equality():
col = ColumnSchema(logical_type=Categorical)
diff_description_col = ColumnSchema(logical_type=Categorical,
description="description")
diff_origin_col = ColumnSchema(logical_type=Categorical, origin="base")
diff_metadata_col = ColumnSchema(
logical_type=Categorical, metadata={"interesting_values": ["a", "b"]})
use_standard_tags_col = ColumnSchema(logical_type=Categorical,
use_standard_tags=True)
diff_tags_col = ColumnSchema(logical_type=Categorical,
semantic_tags={"new_tag"})
assert col != diff_description_col
assert col != diff_origin_col
assert col != diff_metadata_col
assert col != use_standard_tags_col
assert col != diff_tags_col
# Check columns with same logical types but different parameters
ordinal_ltype_1 = Ordinal(order=["a", "b", "c"])
ordinal_ltype_2 = Ordinal(order=["b", "a", "c"])
ordinal_col_1 = ColumnSchema(logical_type=ordinal_ltype_1)
ordinal_col_2 = ColumnSchema(logical_type=ordinal_ltype_2)
assert col != ordinal_col_1
assert ordinal_col_1 != ordinal_col_2
assert ordinal_col_1 == ordinal_col_1
datetime_ltype_instantiated = Datetime(datetime_format="%Y-%m%d")
datetime_col_format = ColumnSchema(
logical_type=datetime_ltype_instantiated)
datetime_col_param = ColumnSchema(logical_type=Datetime(
datetime_format=None))
datetime_col_instantiated = ColumnSchema(logical_type=Datetime())
assert datetime_col_instantiated != datetime_col_format
assert datetime_col_instantiated == datetime_col_param
def test_schema_types(sample_column_names, sample_inferred_logical_types):
sample_column_names.append("formatted_date")
ymd_format = Datetime(datetime_format="%Y~%m~%d")
schema = TableSchema(
sample_column_names,
logical_types={
**sample_inferred_logical_types, "formatted_date": ymd_format
},
use_standard_tags=True,
)
returned_types = schema.types
assert isinstance(returned_types, pd.DataFrame)
assert "Logical Type" in returned_types.columns
assert "Semantic Tag(s)" in returned_types.columns
assert returned_types.shape[1] == 2
assert len(returned_types.index) == len(sample_column_names)
correct_logical_types = {
name: ltype()
for name, ltype in sample_inferred_logical_types.items()
}
correct_logical_types["formatted_date"] = ymd_format
correct_logical_types = pd.Series(list(correct_logical_types.values()),
index=list(correct_logical_types.keys()))
assert correct_logical_types.equals(returned_types["Logical Type"])
correct_semantic_tags = {
"id": "['numeric']",
"full_name": "[]",
"email": "[]",
"phone_number": "[]",
"age": "['numeric']",
"signup_date": "[]",
"is_registered": "[]",
"double": "['numeric']",
"double_with_nan": "['numeric']",
"integer": "['numeric']",
"nullable_integer": "['numeric']",
"boolean": "[]",
"categorical": "['category']",
"datetime_with_NaT": "[]",
"url": "[]",
"ip_address": "[]",
"formatted_date": "[]",
}
correct_semantic_tags = pd.Series(list(correct_semantic_tags.values()),
index=list(correct_semantic_tags.keys()))
assert correct_semantic_tags.equals(returned_types["Semantic Tag(s)"])
def test_schema_types(sample_column_names, sample_inferred_logical_types):
sample_column_names.append('formatted_date')
ymd_format = Datetime(datetime_format='%Y~%m~%d')
schema = TableSchema(sample_column_names,
logical_types={
**sample_inferred_logical_types, 'formatted_date':
ymd_format
},
use_standard_tags=True)
returned_types = schema.types
assert isinstance(returned_types, pd.DataFrame)
assert 'Logical Type' in returned_types.columns
assert 'Semantic Tag(s)' in returned_types.columns
assert returned_types.shape[1] == 2
assert len(returned_types.index) == len(sample_column_names)
correct_logical_types = {
'id': Integer,
'full_name': NaturalLanguage,
'email': NaturalLanguage,
'phone_number': NaturalLanguage,
'age': Integer,
'signup_date': Datetime,
'is_registered': Boolean,
'formatted_date': ymd_format
}
correct_logical_types = pd.Series(list(correct_logical_types.values()),
index=list(correct_logical_types.keys()))
assert correct_logical_types.equals(returned_types['Logical Type'])
correct_semantic_tags = {
'id': "['numeric']",
'full_name': "[]",
'email': "[]",
'phone_number': "[]",
'age': "['numeric']",
'signup_date': "[]",
'is_registered': "[]",
'formatted_date': "[]",
}
correct_semantic_tags = pd.Series(list(correct_semantic_tags.values()),
index=list(correct_semantic_tags.keys()))
assert correct_semantic_tags.equals(returned_types['Semantic Tag(s)'])
def make_logical_types(with_integer_time_index=False):
region_logical_types = {'id': Categorical, 'language': Categorical}
store_logical_types = {'id': Integer, u'région_id': Categorical}
product_logical_types = {
'id': Categorical,
'rating': Double,
'department': Categorical,
'url': URL,
}
customer_logical_types = {
'id': Integer,
'age': Integer,
u'région_id': Categorical,
'loves_ice_cream': Boolean,
'favorite_quote': NaturalLanguage,
'signup_date': Datetime(datetime_format='%Y-%m-%d'),
'upgrade_date': Datetime(datetime_format='%Y-%m-%d'),
'cancel_date': Datetime(datetime_format='%Y-%m-%d'),
'cancel_reason': Categorical,
'engagement_level': Ordinal(order=[1, 2, 3]),
'full_name': PersonFullName,
'email': EmailAddress,
'phone_number': PhoneNumber,
'date_of_birth': Datetime(datetime_format='%Y-%m-%d'),
'cohort_name': Categorical,
}
session_logical_types = {
'id': Integer,
'customer_id': Integer,
'device_type': Categorical,
'device_name': Categorical,
'ip': IPAddress,
'filepath': Filepath,
}
log_logical_types = {
'id': Integer,
'session_id': Integer,
'product_id': Categorical,
'datetime': Datetime(datetime_format='%Y-%m-%d'),
'value': Double,
'value_2': Double,
'latlong': LatLong,
'latlong2': LatLong,
'zipcode': PostalCode,
'countrycode': CountryCode,
'subregioncode': SubRegionCode,
'value_many_nans': Double,
'priority_level': Ordinal(order=[0, 1, 2]),
'purchased': Boolean,
'url': URL,
'email_address': EmailAddress,
'comments': NaturalLanguage
}
if with_integer_time_index:
log_logical_types['datetime'] = Integer
customer_logical_types['signup_date'] = Integer
customer_logical_types['upgrade_date'] = Integer
customer_logical_types['cancel_date'] = Integer
customer_logical_types['date_of_birth'] = Integer
return {
'customers': customer_logical_types,
'sessions': session_logical_types,
'log': log_logical_types,
'products': product_logical_types,
'stores': store_logical_types,
u'régions': region_logical_types
}
def make_logical_types(with_integer_time_index=False):
region_logical_types = {"id": Categorical, "language": Categorical}
store_logical_types = {"id": Integer, "région_id": Categorical}
product_logical_types = {
"id": Categorical,
"rating": Double,
"department": Categorical,
"url": URL,
}
customer_logical_types = {
"id": Integer,
"age": Integer,
"région_id": Categorical,
"loves_ice_cream": Boolean,
"favorite_quote": NaturalLanguage,
"signup_date": Datetime(datetime_format="%Y-%m-%d"),
"upgrade_date": Datetime(datetime_format="%Y-%m-%d"),
"cancel_date": Datetime(datetime_format="%Y-%m-%d"),
"cancel_reason": Categorical,
"engagement_level": Ordinal(order=[1, 2, 3]),
"full_name": PersonFullName,
"email": EmailAddress,
"phone_number": PhoneNumber,
"birthday": Datetime(datetime_format="%Y-%m-%d"),
"cohort_name": Categorical,
}
session_logical_types = {
"id": Integer,
"customer_id": Integer,
"device_type": Categorical,
"device_name": Categorical,
"ip": IPAddress,
"filepath": Filepath,
}
log_logical_types = {
"id": Integer,
"session_id": Integer,
"product_id": Categorical,
"datetime": Datetime(datetime_format="%Y-%m-%d"),
"value": Double,
"value_2": Double,
"latlong": LatLong,
"latlong2": LatLong,
"zipcode": PostalCode,
"countrycode": CountryCode,
"subregioncode": SubRegionCode,
"value_many_nans": Double,
"priority_level": Ordinal(order=[0, 1, 2]),
"purchased": Boolean,
"url": URL,
"email_address": EmailAddress,
"comments": NaturalLanguage,
}
if with_integer_time_index:
log_logical_types["datetime"] = Integer
customer_logical_types["signup_date"] = Integer
customer_logical_types["upgrade_date"] = Integer
customer_logical_types["cancel_date"] = Integer
customer_logical_types["birthday"] = Integer
return {
"customers": customer_logical_types,
"sessions": session_logical_types,
"log": log_logical_types,
"products": product_logical_types,
"stores": store_logical_types,
"régions": region_logical_types,
}
def test_parse_logical_type():
assert _parse_logical_type('Datetime', 'col_name') == Datetime
assert _parse_logical_type(Datetime, 'col_name') == Datetime
ymd_format = Datetime(datetime_format='%Y-%m-%d')
assert _parse_logical_type(ymd_format, 'col_name') == ymd_format
def test_parse_logical_type():
assert isinstance(_parse_logical_type("Datetime", "col_name"), Datetime)
assert isinstance(_parse_logical_type(Datetime, "col_name"), Datetime)
ymd_format = Datetime(datetime_format="%Y-%m-%d")
assert _parse_logical_type(ymd_format, "col_name") == ymd_format
def test_describe_accessor_method(describe_df):
categorical_ltypes = [
Categorical, CountryCode,
Ordinal(order=('yellow', 'red', 'blue')), PostalCode, SubRegionCode
]
boolean_ltypes = [BooleanNullable]
non_nullable_boolean_ltypes = [Boolean]
datetime_ltypes = [Datetime]
formatted_datetime_ltypes = [Datetime(datetime_format='%Y~%m~%d')]
timedelta_ltypes = [Timedelta]
nullable_numeric_ltypes = [Double, IntegerNullable]
non_nullable_numeric_ltypes = [Integer]
natural_language_ltypes = [
EmailAddress, Filepath, PersonFullName, IPAddress, PhoneNumber, URL
]
latlong_ltypes = [LatLong]
expected_index = [
'physical_type', 'logical_type', 'semantic_tags', 'count', 'nunique',
'nan_count', 'mean', 'mode', 'std', 'min', 'first_quartile',
'second_quartile', 'third_quartile', 'max', 'num_true', 'num_false'
]
# Test categorical columns
category_data = describe_df[['category_col']]
if ks and isinstance(category_data, ks.DataFrame):
expected_dtype = 'string'
else:
expected_dtype = 'category'
for ltype in categorical_ltypes:
expected_vals = pd.Series(
{
'physical_type': expected_dtype,
'logical_type': ltype,
'semantic_tags': {'category', 'custom_tag'},
'count': 7,
'nunique': 3,
'nan_count': 1,
'mode': 'red'
},
name='category_col')
category_data.ww.init(logical_types={'category_col': ltype},
semantic_tags={'category_col': 'custom_tag'})
stats_df = category_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'category_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['category_col'].dropna())
# Test nullable boolean columns
boolean_data = describe_df[['boolean_col']]
for ltype in boolean_ltypes:
expected_dtype = ltype.primary_dtype
expected_vals = pd.Series(
{
'physical_type': expected_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 7,
'nan_count': 1,
'mode': True,
'num_true': 4,
'num_false': 3
},
name='boolean_col')
boolean_data.ww.init(logical_types={'boolean_col': ltype},
semantic_tags={'boolean_col': 'custom_tag'})
stats_df = boolean_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'boolean_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['boolean_col'].dropna())
# Test non-nullable boolean columns
boolean_data = describe_df[['boolean_col']].fillna(True)
for ltype in non_nullable_boolean_ltypes:
expected_dtype = ltype.primary_dtype
expected_vals = pd.Series(
{
'physical_type': expected_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 8,
'nan_count': 0,
'mode': True,
'num_true': 5,
'num_false': 3
},
name='boolean_col')
boolean_data.ww.init(logical_types={'boolean_col': ltype},
semantic_tags={'boolean_col': 'custom_tag'})
stats_df = boolean_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'boolean_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['boolean_col'].dropna())
# Test datetime columns
datetime_data = describe_df[['datetime_col']]
for ltype in datetime_ltypes:
expected_vals = pd.Series(
{
'physical_type': ltype.primary_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 7,
'nunique': 6,
'nan_count': 1,
'mean': pd.Timestamp('2020-01-19 09:25:42.857142784'),
'mode': pd.Timestamp('2020-02-01 00:00:00'),
'min': pd.Timestamp('2020-01-01 00:00:00'),
'max': pd.Timestamp('2020-02-02 18:00:00')
},
name='datetime_col')
datetime_data.ww.init(logical_types={'datetime_col': ltype},
semantic_tags={'datetime_col': 'custom_tag'})
stats_df = datetime_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'datetime_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['datetime_col'].dropna())
# Test formatted datetime columns
formatted_datetime_data = describe_df[['formatted_datetime_col']]
for ltype in formatted_datetime_ltypes:
converted_to_datetime = pd.to_datetime([
'2020-01-01', '2020-02-01', '2020-03-01', '2020-02-02',
'2020-03-02', pd.NaT, '2020-02-01', '2020-01-02'
])
expected_vals = pd.Series(
{
'physical_type': ltype.primary_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 7,
'nunique': 6,
'nan_count': 1,
'mean': converted_to_datetime.mean(),
'mode': pd.to_datetime('2020-02-01'),
'min': converted_to_datetime.min(),
'max': converted_to_datetime.max()
},
name='formatted_datetime_col')
formatted_datetime_data.ww.init(
logical_types={'formatted_datetime_col': ltype},
semantic_tags={'formatted_datetime_col': 'custom_tag'})
stats_df = formatted_datetime_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'formatted_datetime_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(
stats_df['formatted_datetime_col'].dropna())
# Test timedelta columns - Skip for Koalas
if not (ks and isinstance(describe_df, ks.DataFrame)):
timedelta_data = describe_df['timedelta_col']
for ltype in timedelta_ltypes:
expected_vals = pd.Series(
{
'physical_type': ltype.primary_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 7,
'nan_count': 1,
'mode': pd.Timedelta('31days')
},
name='col')
df = pd.DataFrame({'col': timedelta_data})
df.ww.init(logical_types={'col': ltype},
semantic_tags={'col': 'custom_tag'})
stats_df = df.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['col'].dropna())
# Test numeric columns with nullable ltypes
numeric_data = describe_df[['numeric_col']]
for ltype in nullable_numeric_ltypes:
expected_vals = pd.Series(
{
'physical_type': ltype.primary_dtype,
'logical_type': ltype,
'semantic_tags': {'numeric', 'custom_tag'},
'count': 7,
'nunique': 6,
'nan_count': 1,
'mean': 20.857142857142858,
'mode': 10,
'std': 18.27957486220227,
'min': 1,
'first_quartile': 10,
'second_quartile': 17,
'third_quartile': 26,
'max': 56
},
name='numeric_col')
numeric_data.ww.init(logical_types={'numeric_col': ltype},
semantic_tags={'numeric_col': 'custom_tag'})
stats_df = numeric_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'numeric_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['numeric_col'].dropna())
# Test numeric with non-nullable ltypes
numeric_data = describe_df[['numeric_col']].fillna(0)
for ltype in non_nullable_numeric_ltypes:
expected_vals = pd.Series(
{
'physical_type': ltype.primary_dtype,
'logical_type': ltype,
'semantic_tags': {'numeric', 'custom_tag'},
'count': 8,
'nunique': 7,
'nan_count': 0,
'mean': 18.25,
'mode': 10,
'std': 18.460382289804137,
'min': 0,
'first_quartile': 7.75,
'second_quartile': 13.5,
'third_quartile': 23,
'max': 56
},
name='numeric_col')
numeric_data.ww.init(logical_types={'numeric_col': ltype},
semantic_tags={'numeric_col': 'custom_tag'})
stats_df = numeric_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'numeric_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['numeric_col'].dropna())
# Test natural language columns
natural_language_data = describe_df[['natural_language_col']]
expected_dtype = 'string'
for ltype in natural_language_ltypes:
expected_vals = pd.Series(
{
'physical_type': expected_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 7,
'nan_count': 1,
'mode': 'Duplicate sentence.'
},
name='natural_language_col')
natural_language_data.ww.init(
logical_types={'natural_language_col': ltype},
semantic_tags={'natural_language_col': 'custom_tag'})
stats_df = natural_language_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'natural_language_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['natural_language_col'].dropna())
# Test latlong columns
latlong_data = describe_df[['latlong_col']]
expected_dtype = 'object'
for ltype in latlong_ltypes:
mode = [0, 0] if ks and isinstance(describe_df, ks.DataFrame) else (0,
0)
expected_vals = pd.Series(
{
'physical_type': expected_dtype,
'logical_type': ltype,
'semantic_tags': {'custom_tag'},
'count': 6,
'nan_count': 2,
'mode': mode
},
name='latlong_col')
latlong_data.ww.init(logical_types={'latlong_col': ltype},
semantic_tags={'latlong_col': 'custom_tag'})
stats_df = latlong_data.ww.describe()
assert isinstance(stats_df, pd.DataFrame)
assert set(stats_df.columns) == {'latlong_col'}
assert stats_df.index.tolist() == expected_index
assert expected_vals.equals(stats_df['latlong_col'].dropna())
