from datetime import datetime import numpy as np import pytest import pandas as pd from pandas import ( Categorical, CategoricalIndex, DataFrame, Index, MultiIndex, Series, qcut, ) import pandas._testing as tm from pandas.tests.groupby import get_groupby_method_args def cartesian_product_for_groupers(result, args, names, fill_value=np.NaN): """Reindex to a cartesian production for the groupers, preserving the nature (Categorical) of each grouper """ def f(a): if isinstance(a, (CategoricalIndex, Categorical)): categories = a.categories a = Categorical.from_codes( np.arange(len(categories)), categories=categories, ordered=a.ordered ) return a index = MultiIndex.from_product(map(f, args), names=names) return result.reindex(index, fill_value=fill_value).sort_index() _results_for_groupbys_with_missing_categories = { # This maps the builtin groupby functions to their expected outputs for # missing categories when they are called on a categorical grouper with # observed=False. Some functions are expected to return NaN, some zero. # These expected values can be used across several tests (i.e. they are # the same for SeriesGroupBy and DataFrameGroupBy) but they should only be # hardcoded in one place. "all": np.NaN, "any": np.NaN, "count": 0, "corrwith": np.NaN, "first": np.NaN, "idxmax": np.NaN, "idxmin": np.NaN, "last": np.NaN, "mad": np.NaN, "max": np.NaN, "mean": np.NaN, "median": np.NaN, "min": np.NaN, "nth": np.NaN, "nunique": 0, "prod": np.NaN, "quantile": np.NaN, "sem": np.NaN, "size": 0, "skew": np.NaN, "std": np.NaN, "sum": 0, "var": np.NaN, } def test_apply_use_categorical_name(df): cats = qcut(df.C, 4) def get_stats(group): return { "min": group.min(), "max": group.max(), "count": group.count(), "mean": group.mean(), } result = df.groupby(cats, observed=False).D.apply(get_stats) assert result.index.names[0] == "C" def test_basic(): # TODO: split this test cats = Categorical( ["a", "a", "a", "b", "b", "b", "c", "c", "c"], categories=["a", "b", "c", "d"], ordered=True, ) data = DataFrame({"a": [1, 1, 1, 2, 2, 2, 3, 4, 5], "b": cats}) exp_index = CategoricalIndex(list("abcd"), name="b", ordered=True) expected = DataFrame({"a": [1, 2, 4, np.nan]}, index=exp_index) result = data.groupby("b", observed=False).mean() tm.assert_frame_equal(result, expected) cat1 = Categorical(["a", "a", "b", "b"], categories=["a", "b", "z"], ordered=True) cat2 = Categorical(["c", "d", "c", "d"], categories=["c", "d", "y"], ordered=True) df = DataFrame({"A": cat1, "B": cat2, "values": [1, 2, 3, 4]}) # single grouper gb = df.groupby("A", observed=False) exp_idx = CategoricalIndex(["a", "b", "z"], name="A", ordered=True) expected = DataFrame({"values": Series([3, 7, 0], index=exp_idx)}) msg = "The default value of numeric_only" with tm.assert_produces_warning(FutureWarning, match=msg): result = gb.sum() tm.assert_frame_equal(result, expected) # GH 8623 x = DataFrame( [[1, "John P. Doe"], [2, "Jane Dove"], [1, "John P. Doe"]], columns=["person_id", "person_name"], ) x["person_name"] = Categorical(x.person_name) g = x.groupby(["person_id"], observed=False) result = g.transform(lambda x: x) tm.assert_frame_equal(result, x[["person_name"]]) result = x.drop_duplicates("person_name") expected = x.iloc[[0, 1]] tm.assert_frame_equal(result, expected) def f(x): return x.drop_duplicates("person_name").iloc[0] result = g.apply(f) expected = x.iloc[[0, 1]].copy() expected.index = Index([1, 2], name="person_id") expected["person_name"] = expected["person_name"].astype("object") tm.assert_frame_equal(result, expected) # GH 9921 # Monotonic df = DataFrame({"a": [5, 15, 25]}) c = pd.cut(df.a, bins=[0, 10, 20, 30, 40]) result = df.a.groupby(c, observed=False).transform(sum) tm.assert_series_equal(result, df["a"]) tm.assert_series_equal( df.a.groupby(c, observed=False).transform(lambda xs: np.sum(xs)), df["a"] ) tm.assert_frame_equal(df.groupby(c, observed=False).transform(sum), df[["a"]]) gbc = df.groupby(c, observed=False) with tm.assert_produces_warning( FutureWarning, match="scalar max", check_stacklevel=False ): # stacklevel is thrown off (i think) bc the stack goes through numpy C code result = gbc.transform(lambda xs: np.max(xs)) tm.assert_frame_equal(result, df[["a"]]) with tm.assert_produces_warning(None): result2 = gbc.transform(lambda xs: np.max(xs, axis=0)) result3 = gbc.transform(max) result4 = gbc.transform(np.maximum.reduce) result5 = gbc.transform(lambda xs: np.maximum.reduce(xs)) tm.assert_frame_equal(result2, df[["a"]], check_dtype=False) tm.assert_frame_equal(result3, df[["a"]], check_dtype=False) tm.assert_frame_equal(result4, df[["a"]]) tm.assert_frame_equal(result5, df[["a"]]) # Filter tm.assert_series_equal(df.a.groupby(c, observed=False).filter(np.all), df["a"]) tm.assert_frame_equal(df.groupby(c, observed=False).filter(np.all), df) # Non-monotonic df = DataFrame({"a": [5, 15, 25, -5]}) c = pd.cut(df.a, bins=[-10, 0, 10, 20, 30, 40]) result = df.a.groupby(c, observed=False).transform(sum) tm.assert_series_equal(result, df["a"]) tm.assert_series_equal( df.a.groupby(c, observed=False).transform(lambda xs: np.sum(xs)), df["a"] ) tm.assert_frame_equal(df.groupby(c, observed=False).transform(sum), df[["a"]]) tm.assert_frame_equal( df.groupby(c, observed=False).transform(lambda xs: np.sum(xs)), df[["a"]] ) # GH 9603 df = DataFrame({"a": [1, 0, 0, 0]}) c = pd.cut(df.a, [0, 1, 2, 3, 4], labels=Categorical(list("abcd"))) result = df.groupby(c, observed=False).apply(len) exp_index = CategoricalIndex(c.values.categories, ordered=c.values.ordered) expected = Series([1, 0, 0, 0], index=exp_index) expected.index.name = "a" tm.assert_series_equal(result, expected) # more basic levels = ["foo", "bar", "baz", "qux"] codes = np.random.randint(0, 4, size=100) cats = Categorical.from_codes(codes, levels, ordered=True) data = DataFrame(np.random.randn(100, 4)) result = data.groupby(cats, observed=False).mean() expected = data.groupby(np.asarray(cats), observed=False).mean() exp_idx = CategoricalIndex(levels, categories=cats.categories, ordered=True) expected = expected.reindex(exp_idx) tm.assert_frame_equal(result, expected) grouped = data.groupby(cats, observed=False) desc_result = grouped.describe() idx = cats.codes.argsort() ord_labels = np.asarray(cats).take(idx) ord_data = data.take(idx) exp_cats = Categorical( ord_labels, ordered=True, categories=["foo", "bar", "baz", "qux"] ) expected = ord_data.groupby(exp_cats, sort=False, observed=False).describe() tm.assert_frame_equal(desc_result, expected) # GH 10460 expc = Categorical.from_codes(np.arange(4).repeat(8), levels, ordered=True) exp = CategoricalIndex(expc) tm.assert_index_equal((desc_result.stack().index.get_level_values(0)), exp) exp = Index(["count", "mean", "std", "min", "25%", "50%", "75%", "max"] * 4) tm.assert_index_equal((desc_result.stack().index.get_level_values(1)), exp) def test_level_get_group(observed): # GH15155 df = DataFrame( data=np.arange(2, 22, 2), index=MultiIndex( levels=[CategoricalIndex(["a", "b"]), range(10)], codes=[[0] * 5 + [1] * 5, range(10)], names=["Index1", "Index2"], ), ) g = df.groupby(level=["Index1"], observed=observed) # expected should equal test.loc[["a"]] # GH15166 expected = DataFrame( data=np.arange(2, 12, 2), index=MultiIndex( levels=[CategoricalIndex(["a", "b"]), range(5)], codes=[[0] * 5, range(5)], names=["Index1", "Index2"], ), ) result = g.get_group("a") tm.assert_frame_equal(result, expected) def test_sorting_with_different_categoricals(): # GH 24271 df = DataFrame( { "group": ["A"] * 6 + ["B"] * 6, "dose": ["high", "med", "low"] * 4, "outcomes": np.arange(12.0), } ) df.dose = Categorical(df.dose, categories=["low", "med", "high"], ordered=True) result = df.groupby("group")["dose"].value_counts() result = result.sort_index(level=0, sort_remaining=True) index = ["low", "med", "high", "low", "med", "high"] index = Categorical(index, categories=["low", "med", "high"], ordered=True) index = [["A", "A", "A", "B", "B", "B"], CategoricalIndex(index)] index = MultiIndex.from_arrays(index, names=["group", "dose"]) expected = Series([2] * 6, index=index, name="dose") tm.assert_series_equal(result, expected) @pytest.mark.parametrize("ordered", [True, False]) def test_apply(ordered): # GH 10138 dense = Categorical(list("abc"), ordered=ordered) # 'b' is in the categories but not in the list missing = Categorical(list("aaa"), categories=["a", "b"], ordered=ordered) values = np.arange(len(dense)) df = DataFrame({"missing": missing, "dense": dense, "values": values}) grouped = df.groupby(["missing", "dense"], observed=True) # missing category 'b' should still exist in the output index idx = MultiIndex.from_arrays([missing, dense], names=["missing", "dense"]) expected = DataFrame([0, 1, 2.0], index=idx, columns=["values"]) # GH#21636 tracking down the xfail, in some builds np.mean(df.loc[[0]]) # is coming back as Series([0., 1., 0.], index=["missing", "dense", "values"]) # when we expect Series(0., index=["values"]) with tm.assert_produces_warning( FutureWarning, match="Select only valid", check_stacklevel=False ): result = grouped.apply(lambda x: np.mean(x)) tm.assert_frame_equal(result, expected) result = grouped.mean() tm.assert_frame_equal(result, expected) result = grouped.agg(np.mean) tm.assert_frame_equal(result, expected) # but for transform we should still get back the original index idx = MultiIndex.from_arrays([missing, dense], names=["missing", "dense"]) expected = Series(1, index=idx) result = grouped.apply(lambda x: 1) tm.assert_series_equal(result, expected) @pytest.mark.filterwarnings("ignore:.*value of numeric_only.*:FutureWarning") def test_observed(observed): # multiple groupers, don't re-expand the output space # of the grouper # gh-14942 (implement) # gh-10132 (back-compat) # gh-8138 (back-compat) # gh-8869 cat1 = Categorical(["a", "a", "b", "b"], categories=["a", "b", "z"], ordered=True) cat2 = Categorical(["c", "d", "c", "d"], categories=["c", "d", "y"], ordered=True) df = DataFrame({"A": cat1, "B": cat2, "values": [1, 2, 3, 4]}) df["C"] = ["foo", "bar"] * 2 # multiple groupers with a non-cat gb = df.groupby(["A", "B", "C"], observed=observed) exp_index = MultiIndex.from_arrays( [cat1, cat2, ["foo", "bar"] * 2], names=["A", "B", "C"] ) expected = DataFrame({"values": Series([1, 2, 3, 4], index=exp_index)}).sort_index() result = gb.sum() if not observed: expected = cartesian_product_for_groupers( expected, [cat1, cat2, ["foo", "bar"]], list("ABC"), fill_value=0 ) tm.assert_frame_equal(result, expected) gb = df.groupby(["A", "B"], observed=observed) exp_index = MultiIndex.from_arrays([cat1, cat2], names=["A", "B"]) expected = DataFrame({"values": [1, 2, 3, 4]}, index=exp_index) result = gb.sum() if not observed: expected = cartesian_product_for_groupers( expected, [cat1, cat2], list("AB"), fill_value=0 ) tm.assert_frame_equal(result, expected) # https://github.com/pandas-dev/pandas/issues/8138 d = { "cat": Categorical( ["a", "b", "a", "b"], categories=["a", "b", "c"], ordered=True ), "ints": [1, 1, 2, 2], "val": [10, 20, 30, 40], } df = DataFrame(d) # Grouping on a single column groups_single_key = df.groupby("cat", observed=observed) result = groups_single_key.mean() exp_index = CategoricalIndex( list("ab"), name="cat", categories=list("abc"), ordered=True ) expected = DataFrame({"ints": [1.5, 1.5], "val": [20.0, 30]}, index=exp_index) if not observed: index = CategoricalIndex( list("abc"), name="cat", categories=list("abc"), ordered=True ) expected = expected.reindex(index) tm.assert_frame_equal(result, expected) # Grouping on two columns groups_double_key = df.groupby(["cat", "ints"], observed=observed) result = groups_double_key.agg("mean") expected = DataFrame( { "val": [10.0, 30.0, 20.0, 40.0], "cat": Categorical( ["a", "a", "b", "b"], categories=["a", "b", "c"], ordered=True ), "ints": [1, 2, 1, 2], } ).set_index(["cat", "ints"]) if not observed: expected = cartesian_product_for_groupers( expected, [df.cat.values, [1, 2]], ["cat", "ints"] ) tm.assert_frame_equal(result, expected) # GH 10132 for key in [("a", 1), ("b", 2), ("b", 1), ("a", 2)]: c, i = key result = groups_double_key.get_group(key) expected = df[(df.cat == c) & (df.ints == i)] tm.assert_frame_equal(result, expected) # gh-8869 # with as_index d = { "foo": [10, 8, 4, 8, 4, 1, 1], "bar": [10, 20, 30, 40, 50, 60, 70], "baz": ["d", "c", "e", "a", "a", "d", "c"], } df = DataFrame(d) cat = pd.cut(df["foo"], np.linspace(0, 10, 3)) df["range"] = cat groups = df.groupby(["range", "baz"], as_index=False, observed=observed) result = groups.agg("mean") groups2 = df.groupby(["range", "baz"], as_index=True, observed=observed) expected = groups2.agg("mean").reset_index() tm.assert_frame_equal(result, expected) def test_observed_codes_remap(observed): d = {"C1": [3, 3, 4, 5], "C2": [1, 2, 3, 4], "C3": [10, 100, 200, 34]} df = DataFrame(d) values = pd.cut(df["C1"], [1, 2, 3, 6]) values.name = "cat" groups_double_key = df.groupby([values, "C2"], observed=observed) idx = MultiIndex.from_arrays([values, [1, 2, 3, 4]], names=["cat", "C2"]) expected = DataFrame( {"C1": [3.0, 3.0, 4.0, 5.0], "C3": [10.0, 100.0, 200.0, 34.0]}, index=idx ) if not observed: expected = cartesian_product_for_groupers( expected, [values.values, [1, 2, 3, 4]], ["cat", "C2"] ) result = groups_double_key.agg("mean") tm.assert_frame_equal(result, expected) def test_observed_perf(): # we create a cartesian product, so this is # non-performant if we don't use observed values # gh-14942 df = DataFrame( { "cat": np.random.randint(0, 255, size=30000), "int_id": np.random.randint(0, 255, size=30000), "other_id": np.random.randint(0, 10000, size=30000), "foo": 0, } ) df["cat"] = df.cat.astype(str).astype("category") grouped = df.groupby(["cat", "int_id", "other_id"], observed=True) result = grouped.count() assert result.index.levels[0].nunique() == df.cat.nunique() assert result.index.levels[1].nunique() == df.int_id.nunique() assert result.index.levels[2].nunique() == df.other_id.nunique() def test_observed_groups(observed): # gh-20583 # test that we have the appropriate groups cat = Categorical(["a", "c", "a"], categories=["a", "b", "c"]) df = DataFrame({"cat": cat, "vals": [1, 2, 3]}) g = df.groupby("cat", observed=observed) result = g.groups if observed: expected = {"a": Index([0, 2], dtype="int64"), "c": Index([1], dtype="int64")} else: expected = { "a": Index([0, 2], dtype="int64"), "b": Index([], dtype="int64"), "c": Index([1], dtype="int64"), } tm.assert_dict_equal(result, expected) def test_observed_groups_with_nan(observed): # GH 24740 df = DataFrame( { "cat": Categorical(["a", np.nan, "a"], categories=["a", "b", "d"]), "vals": [1, 2, 3], } ) g = df.groupby("cat", observed=observed) result = g.groups if observed: expected = {"a": Index([0, 2], dtype="int64")} else: expected = { "a": Index([0, 2], dtype="int64"), "b": Index([], dtype="int64"), "d": Index([], dtype="int64"), } tm.assert_dict_equal(result, expected) def test_observed_nth(): # GH 26385 cat = Categorical(["a", np.nan, np.nan], categories=["a", "b", "c"]) ser = Series([1, 2, 3]) df = DataFrame({"cat": cat, "ser": ser}) result = df.groupby("cat", observed=False)["ser"].nth(0) index = Categorical(["a", "b", "c"], categories=["a", "b", "c"]) expected = Series([1, np.nan, np.nan], index=index, name="ser") expected.index.name = "cat" tm.assert_series_equal(result, expected) def test_dataframe_categorical_with_nan(observed): # GH 21151 s1 = Categorical([np.nan, "a", np.nan, "a"], categories=["a", "b", "c"]) s2 = Series([1, 2, 3, 4]) df = DataFrame({"s1": s1, "s2": s2}) result = df.groupby("s1", observed=observed).first().reset_index() if observed: expected = DataFrame( {"s1": Categorical(["a"], categories=["a", "b", "c"]), "s2": [2]} ) else: expected = DataFrame( { "s1": Categorical(["a", "b", "c"], categories=["a", "b", "c"]), "s2": [2, np.nan, np.nan], } ) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("ordered", [True, False]) @pytest.mark.parametrize("observed", [True, False]) @pytest.mark.parametrize("sort", [True, False]) def test_dataframe_categorical_ordered_observed_sort(ordered, observed, sort): # GH 25871: Fix groupby sorting on ordered Categoricals # GH 25167: Groupby with observed=True doesn't sort # Build a dataframe with cat having one unobserved category ('missing'), # and a Series with identical values label = Categorical( ["d", "a", "b", "a", "d", "b"], categories=["a", "b", "missing", "d"], ordered=ordered, ) val = Series(["d", "a", "b", "a", "d", "b"]) df = DataFrame({"label": label, "val": val}) # aggregate on the Categorical result = df.groupby("label", observed=observed, sort=sort)["val"].aggregate("first") # If ordering works, we expect index labels equal to aggregation results, # except for 'observed=False': label 'missing' has aggregation None label = Series(result.index.array, dtype="object") aggr = Series(result.array) if not observed: aggr[aggr.isna()] = "missing" if not all(label == aggr): msg = ( "Labels and aggregation results not consistently sorted\n" f"for (ordered={ordered}, observed={observed}, sort={sort})\n" f"Result:\n{result}" ) assert False, msg def test_datetime(): # GH9049: ensure backward compatibility levels = pd.date_range("2014-01-01", periods=4) codes = np.random.randint(0, 4, size=100) cats = Categorical.from_codes(codes, levels, ordered=True) data = DataFrame(np.random.randn(100, 4)) result = data.groupby(cats, observed=False).mean() expected = data.groupby(np.asarray(cats), observed=False).mean() expected = expected.reindex(levels) expected.index = CategoricalIndex( expected.index, categories=expected.index, ordered=True ) tm.assert_frame_equal(result, expected) grouped = data.groupby(cats, observed=False) desc_result = grouped.describe() idx = cats.codes.argsort() ord_labels = cats.take(idx) ord_data = data.take(idx) expected = ord_data.groupby(ord_labels, observed=False).describe() tm.assert_frame_equal(desc_result, expected) tm.assert_index_equal(desc_result.index, expected.index) tm.assert_index_equal( desc_result.index.get_level_values(0), expected.index.get_level_values(0) ) # GH 10460 expc = Categorical.from_codes(np.arange(4).repeat(8), levels, ordered=True) exp = CategoricalIndex(expc) tm.assert_index_equal((desc_result.stack().index.get_level_values(0)), exp) exp = Index(["count", "mean", "std", "min", "25%", "50%", "75%", "max"] * 4) tm.assert_index_equal((desc_result.stack().index.get_level_values(1)), exp) def test_categorical_index(): s = np.random.RandomState(12345) levels = ["foo", "bar", "baz", "qux"] codes = s.randint(0, 4, size=20) cats = Categorical.from_codes(codes, levels, ordered=True) df = DataFrame(np.repeat(np.arange(20), 4).reshape(-1, 4), columns=list("abcd")) df["cats"] = cats # with a cat index result = df.set_index("cats").groupby(level=0, observed=False).sum() expected = df[list("abcd")].groupby(cats.codes, observed=False).sum() expected.index = CategoricalIndex( Categorical.from_codes([0, 1, 2, 3], levels, ordered=True), name="cats" ) tm.assert_frame_equal(result, expected) # with a cat column, should produce a cat index result = df.groupby("cats", observed=False).sum() expected = df[list("abcd")].groupby(cats.codes, observed=False).sum() expected.index = CategoricalIndex( Categorical.from_codes([0, 1, 2, 3], levels, ordered=True), name="cats" ) tm.assert_frame_equal(result, expected) def test_describe_categorical_columns(): # GH 11558 cats = CategoricalIndex( ["qux", "foo", "baz", "bar"], categories=["foo", "bar", "baz", "qux"], ordered=True, ) df = DataFrame(np.random.randn(20, 4), columns=cats) result = df.groupby([1, 2, 3, 4] * 5).describe() tm.assert_index_equal(result.stack().columns, cats) tm.assert_categorical_equal(result.stack().columns.values, cats.values) def test_unstack_categorical(): # GH11558 (example is taken from the original issue) df = DataFrame( {"a": range(10), "medium": ["A", "B"] * 5, "artist": list("XYXXY") * 2} ) df["medium"] = df["medium"].astype("category") gcat = df.groupby(["artist", "medium"], observed=False)["a"].count().unstack() result = gcat.describe() exp_columns = CategoricalIndex(["A", "B"], ordered=False, name="medium") tm.assert_index_equal(result.columns, exp_columns) tm.assert_categorical_equal(result.columns.values, exp_columns.values) result = gcat["A"] + gcat["B"] expected = Series([6, 4], index=Index(["X", "Y"], name="artist")) tm.assert_series_equal(result, expected) def test_bins_unequal_len(): # GH3011 series = Series([np.nan, np.nan, 1, 1, 2, 2, 3, 3, 4, 4]) bins = pd.cut(series.dropna().values, 4) # len(bins) != len(series) here with pytest.raises(ValueError, match="Grouper and axis must be same length"): series.groupby(bins).mean() @pytest.mark.parametrize( ["series", "data"], [ # Group a series with length and index equal to those of the grouper. (Series(range(4)), {"A": [0, 3], "B": [1, 2]}), # Group a series with length equal to that of the grouper and index unequal to # that of the grouper. (Series(range(4)).rename(lambda idx: idx + 1), {"A": [2], "B": [0, 1]}), # GH44179: Group a series with length unequal to that of the grouper. (Series(range(7)), {"A": [0, 3], "B": [1, 2]}), ], ) def test_categorical_series(series, data): # Group the given series by a series with categorical data type such that group A # takes indices 0 and 3 and group B indices 1 and 2, obtaining the values mapped in # the given data. groupby = series.groupby(Series(list("ABBA"), dtype="category")) result = groupby.aggregate(list) expected = Series(data, index=CategoricalIndex(data.keys())) tm.assert_series_equal(result, expected) def test_as_index(): # GH13204 df = DataFrame( { "cat": Categorical([1, 2, 2], [1, 2, 3]), "A": [10, 11, 11], "B": [101, 102, 103], } ) result = df.groupby(["cat", "A"], as_index=False, observed=True).sum() expected = DataFrame( { "cat": Categorical([1, 2], categories=df.cat.cat.categories), "A": [10, 11], "B": [101, 205], }, columns=["cat", "A", "B"], ) tm.assert_frame_equal(result, expected) # function grouper f = lambda r: df.loc[r, "A"] result = df.groupby(["cat", f], as_index=False, observed=True).sum() expected = DataFrame( { "cat": Categorical([1, 2], categories=df.cat.cat.categories), "A": [10, 22], "B": [101, 205], }, columns=["cat", "A", "B"], ) tm.assert_frame_equal(result, expected) # another not in-axis grouper (conflicting names in index) s = Series(["a", "b", "b"], name="cat") result = df.groupby(["cat", s], as_index=False, observed=True).sum() tm.assert_frame_equal(result, expected) # is original index dropped? group_columns = ["cat", "A"] expected = DataFrame( { "cat": Categorical([1, 2], categories=df.cat.cat.categories), "A": [10, 11], "B": [101, 205], }, columns=["cat", "A", "B"], ) for name in [None, "X", "B"]: df.index = Index(list("abc"), name=name) result = df.groupby(group_columns, as_index=False, observed=True).sum() tm.assert_frame_equal(result, expected) def test_preserve_categories(): # GH-13179 categories = list("abc") # ordered=True df = DataFrame({"A": Categorical(list("ba"), categories=categories, ordered=True)}) index = CategoricalIndex(categories, categories, ordered=True, name="A") tm.assert_index_equal( df.groupby("A", sort=True, observed=False).first().index, index ) tm.assert_index_equal( df.groupby("A", sort=False, observed=False).first().index, index ) # ordered=False df = DataFrame({"A": Categorical(list("ba"), categories=categories, ordered=False)}) sort_index = CategoricalIndex(categories, categories, ordered=False, name="A") nosort_index = CategoricalIndex(list("bac"), list("bac"), ordered=False, name="A") tm.assert_index_equal( df.groupby("A", sort=True, observed=False).first().index, sort_index ) tm.assert_index_equal( df.groupby("A", sort=False, observed=False).first().index, nosort_index ) def test_preserve_categorical_dtype(): # GH13743, GH13854 df = DataFrame( { "A": [1, 2, 1, 1, 2], "B": [10, 16, 22, 28, 34], "C1": Categorical(list("abaab"), categories=list("bac"), ordered=False), "C2": Categorical(list("abaab"), categories=list("bac"), ordered=True), } ) # single grouper exp_full = DataFrame( { "A": [2.0, 1.0, np.nan], "B": [25.0, 20.0, np.nan], "C1": Categorical(list("bac"), categories=list("bac"), ordered=False), "C2": Categorical(list("bac"), categories=list("bac"), ordered=True), } ) for col in ["C1", "C2"]: msg = "The default value of numeric_only" with tm.assert_produces_warning(FutureWarning, match=msg): result1 = df.groupby(by=col, as_index=False, observed=False).mean() result2 = ( df.groupby(by=col, as_index=True, observed=False).mean().reset_index() ) expected = exp_full.reindex(columns=result1.columns) tm.assert_frame_equal(result1, expected) tm.assert_frame_equal(result2, expected) @pytest.mark.parametrize( "func, values", [ ("first", ["second", "first"]), ("last", ["fourth", "third"]), ("min", ["fourth", "first"]), ("max", ["second", "third"]), ], ) def test_preserve_on_ordered_ops(func, values): # gh-18502 # preserve the categoricals on ops c = Categorical(["first", "second", "third", "fourth"], ordered=True) df = DataFrame({"payload": [-1, -2, -1, -2], "col": c}) g = df.groupby("payload") result = getattr(g, func)() expected = DataFrame( {"payload": [-2, -1], "col": Series(values, dtype=c.dtype)} ).set_index("payload") tm.assert_frame_equal(result, expected) # we should also preserve categorical for SeriesGroupBy sgb = df.groupby("payload")["col"] result = getattr(sgb, func)() expected = expected["col"] tm.assert_series_equal(result, expected) def test_categorical_no_compress(): data = Series(np.random.randn(9)) codes = np.array([0, 0, 0, 1, 1, 1, 2, 2, 2]) cats = Categorical.from_codes(codes, [0, 1, 2], ordered=True) result = data.groupby(cats, observed=False).mean() exp = data.groupby(codes, observed=False).mean() exp.index = CategoricalIndex( exp.index, categories=cats.categories, ordered=cats.ordered ) tm.assert_series_equal(result, exp) codes = np.array([0, 0, 0, 1, 1, 1, 3, 3, 3]) cats = Categorical.from_codes(codes, [0, 1, 2, 3], ordered=True) result = data.groupby(cats, observed=False).mean() exp = data.groupby(codes, observed=False).mean().reindex(cats.categories) exp.index = CategoricalIndex( exp.index, categories=cats.categories, ordered=cats.ordered ) tm.assert_series_equal(result, exp) cats = Categorical( ["a", "a", "a", "b", "b", "b", "c", "c", "c"], categories=["a", "b", "c", "d"], ordered=True, ) data = DataFrame({"a": [1, 1, 1, 2, 2, 2, 3, 4, 5], "b": cats}) result = data.groupby("b", observed=False).mean() result = result["a"].values exp = np.array([1, 2, 4, np.nan]) tm.assert_numpy_array_equal(result, exp) def test_groupby_empty_with_category(): # GH-9614 # test fix for when group by on None resulted in # coercion of dtype categorical -> float df = DataFrame({"A": [None] * 3, "B": Categorical(["train", "train", "test"])}) result = df.groupby("A").first()["B"] expected = Series( Categorical([], categories=["test", "train"]), index=Series([], dtype="object", name="A"), name="B", ) tm.assert_series_equal(result, expected) def test_sort(): # https://stackoverflow.com/questions/23814368/sorting-pandas- # categorical-labels-after-groupby # This should result in a properly sorted Series so that the plot # has a sorted x axis # self.cat.groupby(['value_group'])['value_group'].count().plot(kind='bar') df = DataFrame({"value": np.random.randint(0, 10000, 100)}) labels = [f"{i} - {i+499}" for i in range(0, 10000, 500)] cat_labels = Categorical(labels, labels) df = df.sort_values(by=["value"], ascending=True) df["value_group"] = pd.cut( df.value, range(0, 10500, 500), right=False, labels=cat_labels ) res = df.groupby(["value_group"], observed=False)["value_group"].count() exp = res[sorted(res.index, key=lambda x: float(x.split()[0]))] exp.index = CategoricalIndex(exp.index, name=exp.index.name) tm.assert_series_equal(res, exp) def test_sort2(): # dataframe groupby sort was being ignored # GH 8868 df = DataFrame( [ ["(7.5, 10]", 10, 10], ["(7.5, 10]", 8, 20], ["(2.5, 5]", 5, 30], ["(5, 7.5]", 6, 40], ["(2.5, 5]", 4, 50], ["(0, 2.5]", 1, 60], ["(5, 7.5]", 7, 70], ], columns=["range", "foo", "bar"], ) df["range"] = Categorical(df["range"], ordered=True) index = CategoricalIndex( ["(0, 2.5]", "(2.5, 5]", "(5, 7.5]", "(7.5, 10]"], name="range", ordered=True ) expected_sort = DataFrame( [[1, 60], [5, 30], [6, 40], [10, 10]], columns=["foo", "bar"], index=index ) col = "range" result_sort = df.groupby(col, sort=True, observed=False).first() tm.assert_frame_equal(result_sort, expected_sort) # when categories is ordered, group is ordered by category's order expected_sort = result_sort result_sort = df.groupby(col, sort=False, observed=False).first() tm.assert_frame_equal(result_sort, expected_sort) df["range"] = Categorical(df["range"], ordered=False) index = CategoricalIndex( ["(0, 2.5]", "(2.5, 5]", "(5, 7.5]", "(7.5, 10]"], name="range" ) expected_sort = DataFrame( [[1, 60], [5, 30], [6, 40], [10, 10]], columns=["foo", "bar"], index=index ) index = CategoricalIndex( ["(7.5, 10]", "(2.5, 5]", "(5, 7.5]", "(0, 2.5]"], categories=["(7.5, 10]", "(2.5, 5]", "(5, 7.5]", "(0, 2.5]"], name="range", ) expected_nosort = DataFrame( [[10, 10], [5, 30], [6, 40], [1, 60]], index=index, columns=["foo", "bar"] ) col = "range" # this is an unordered categorical, but we allow this #### result_sort = df.groupby(col, sort=True, observed=False).first() tm.assert_frame_equal(result_sort, expected_sort) result_nosort = df.groupby(col, sort=False, observed=False).first() tm.assert_frame_equal(result_nosort, expected_nosort) def test_sort_datetimelike(): # GH10505 # use same data as test_groupby_sort_categorical, which category is # corresponding to datetime.month df = DataFrame( { "dt": [ datetime(2011, 7, 1), datetime(2011, 7, 1), datetime(2011, 2, 1), datetime(2011, 5, 1), datetime(2011, 2, 1), datetime(2011, 1, 1), datetime(2011, 5, 1), ], "foo": [10, 8, 5, 6, 4, 1, 7], "bar": [10, 20, 30, 40, 50, 60, 70], }, columns=["dt", "foo", "bar"], ) # ordered=True df["dt"] = Categorical(df["dt"], ordered=True) index = [ datetime(2011, 1, 1), datetime(2011, 2, 1), datetime(2011, 5, 1), datetime(2011, 7, 1), ] result_sort = DataFrame( [[1, 60], [5, 30], [6, 40], [10, 10]], columns=["foo", "bar"] ) result_sort.index = CategoricalIndex(index, name="dt", ordered=True) index = [ datetime(2011, 7, 1), datetime(2011, 2, 1), datetime(2011, 5, 1), datetime(2011, 1, 1), ] result_nosort = DataFrame( [[10, 10], [5, 30], [6, 40], [1, 60]], columns=["foo", "bar"] ) result_nosort.index = CategoricalIndex( index, categories=index, name="dt", ordered=True ) col = "dt" tm.assert_frame_equal( result_sort, df.groupby(col, sort=True, observed=False).first() ) # when categories is ordered, group is ordered by category's order tm.assert_frame_equal( result_sort, df.groupby(col, sort=False, observed=False).first() ) # ordered = False df["dt"] = Categorical(df["dt"], ordered=False) index = [ datetime(2011, 1, 1), datetime(2011, 2, 1), datetime(2011, 5, 1), datetime(2011, 7, 1), ] result_sort = DataFrame( [[1, 60], [5, 30], [6, 40], [10, 10]], columns=["foo", "bar"] ) result_sort.index = CategoricalIndex(index, name="dt") index = [ datetime(2011, 7, 1), datetime(2011, 2, 1), datetime(2011, 5, 1), datetime(2011, 1, 1), ] result_nosort = DataFrame( [[10, 10], [5, 30], [6, 40], [1, 60]], columns=["foo", "bar"] ) result_nosort.index = CategoricalIndex(index, categories=index, name="dt") col = "dt" tm.assert_frame_equal( result_sort, df.groupby(col, sort=True, observed=False).first() ) tm.assert_frame_equal( result_nosort, df.groupby(col, sort=False, observed=False).first() ) def test_empty_sum(): # https://github.com/pandas-dev/pandas/issues/18678 df = DataFrame( {"A": Categorical(["a", "a", "b"], categories=["a", "b", "c"]), "B": [1, 2, 1]} ) expected_idx = CategoricalIndex(["a", "b", "c"], name="A") # 0 by default result = df.groupby("A", observed=False).B.sum() expected = Series([3, 1, 0], expected_idx, name="B") tm.assert_series_equal(result, expected) # min_count=0 result = df.groupby("A", observed=False).B.sum(min_count=0) expected = Series([3, 1, 0], expected_idx, name="B") tm.assert_series_equal(result, expected) # min_count=1 result = df.groupby("A", observed=False).B.sum(min_count=1) expected = Series([3, 1, np.nan], expected_idx, name="B") tm.assert_series_equal(result, expected) # min_count>1 result = df.groupby("A", observed=False).B.sum(min_count=2) expected = Series([3, np.nan, np.nan], expected_idx, name="B") tm.assert_series_equal(result, expected) def test_empty_prod(): # https://github.com/pandas-dev/pandas/issues/18678 df = DataFrame( {"A": Categorical(["a", "a", "b"], categories=["a", "b", "c"]), "B": [1, 2, 1]} ) expected_idx = CategoricalIndex(["a", "b", "c"], name="A") # 1 by default result = df.groupby("A", observed=False).B.prod() expected = Series([2, 1, 1], expected_idx, name="B") tm.assert_series_equal(result, expected) # min_count=0 result = df.groupby("A", observed=False).B.prod(min_count=0) expected = Series([2, 1, 1], expected_idx, name="B") tm.assert_series_equal(result, expected) # min_count=1 result = df.groupby("A", observed=False).B.prod(min_count=1) expected = Series([2, 1, np.nan], expected_idx, name="B") tm.assert_series_equal(result, expected) def test_groupby_multiindex_categorical_datetime(): # https://github.com/pandas-dev/pandas/issues/21390 df = DataFrame( { "key1": Categorical(list("abcbabcba")), "key2": Categorical( list(pd.date_range("2018-06-01 00", freq="1T", periods=3)) * 3 ), "values": np.arange(9), } ) result = df.groupby(["key1", "key2"]).mean() idx = MultiIndex.from_product( [ Categorical(["a", "b", "c"]), Categorical(pd.date_range("2018-06-01 00", freq="1T", periods=3)), ], names=["key1", "key2"], ) expected = DataFrame({"values": [0, 4, 8, 3, 4, 5, 6, np.nan, 2]}, index=idx) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "as_index, expected", [ ( True, Series( index=MultiIndex.from_arrays( [Series([1, 1, 2], dtype="category"), [1, 2, 2]], names=["a", "b"] ), data=[1, 2, 3], name="x", ), ), ( False, DataFrame( { "a": Series([1, 1, 2], dtype="category"), "b": [1, 2, 2], "x": [1, 2, 3], } ), ), ], ) def test_groupby_agg_observed_true_single_column(as_index, expected): # GH-23970 df = DataFrame( {"a": Series([1, 1, 2], dtype="category"), "b": [1, 2, 2], "x": [1, 2, 3]} ) result = df.groupby(["a", "b"], as_index=as_index, observed=True)["x"].sum() tm.assert_equal(result, expected) @pytest.mark.parametrize("fill_value", [None, np.nan, pd.NaT]) def test_shift(fill_value): ct = Categorical( ["a", "b", "c", "d"], categories=["a", "b", "c", "d"], ordered=False ) expected = Categorical( [None, "a", "b", "c"], categories=["a", "b", "c", "d"], ordered=False ) res = ct.shift(1, fill_value=fill_value) tm.assert_equal(res, expected) @pytest.fixture def df_cat(df): """ DataFrame with multiple categorical columns and a column of integers. Shortened so as not to contain all possible combinations of categories. Useful for testing `observed` kwarg functionality on GroupBy objects. Parameters ---------- df: DataFrame Non-categorical, longer DataFrame from another fixture, used to derive this one Returns ------- df_cat: DataFrame """ df_cat = df.copy()[:4] # leave out some groups df_cat["A"] = df_cat["A"].astype("category") df_cat["B"] = df_cat["B"].astype("category") df_cat["C"] = Series([1, 2, 3, 4]) df_cat = df_cat.drop(["D"], axis=1) return df_cat @pytest.mark.parametrize("operation", ["agg", "apply"]) def test_seriesgroupby_observed_true(df_cat, operation): # GH 24880 lev_a = Index(["foo", "foo", "bar", "bar"], dtype=df_cat["A"].dtype, name="A") lev_b = Index(["one", "two", "one", "three"], dtype=df_cat["B"].dtype, name="B") index = MultiIndex.from_arrays([lev_a, lev_b]) expected = Series(data=[1, 3, 2, 4], index=index, name="C") grouped = df_cat.groupby(["A", "B"], observed=True)["C"] result = getattr(grouped, operation)(sum) tm.assert_series_equal(result, expected) @pytest.mark.parametrize("operation", ["agg", "apply"]) @pytest.mark.parametrize("observed", [False, None]) def test_seriesgroupby_observed_false_or_none(df_cat, observed, operation): # GH 24880 index, _ = MultiIndex.from_product( [ CategoricalIndex(["bar", "foo"], ordered=False), CategoricalIndex(["one", "three", "two"], ordered=False), ], names=["A", "B"], ).sortlevel() expected = Series(data=[2, 4, np.nan, 1, np.nan, 3], index=index, name="C") if operation == "agg": expected = expected.fillna(0, downcast="infer") grouped = df_cat.groupby(["A", "B"], observed=observed)["C"] result = getattr(grouped, operation)(sum) tm.assert_series_equal(result, expected) @pytest.mark.parametrize( "observed, index, data", [ ( True, MultiIndex.from_arrays( [ Index(["foo"] * 4 + ["bar"] * 4, dtype="category", name="A"), Index( ["one", "one", "two", "two", "one", "one", "three", "three"], dtype="category", name="B", ), Index(["min", "max"] * 4), ] ), [1, 1, 3, 3, 2, 2, 4, 4], ), ( False, MultiIndex.from_product( [ CategoricalIndex(["bar", "foo"], ordered=False), CategoricalIndex(["one", "three", "two"], ordered=False), Index(["min", "max"]), ], names=["A", "B", None], ), [2, 2, 4, 4, np.nan, np.nan, 1, 1, np.nan, np.nan, 3, 3], ), ( None, MultiIndex.from_product( [ CategoricalIndex(["bar", "foo"], ordered=False), CategoricalIndex(["one", "three", "two"], ordered=False), Index(["min", "max"]), ], names=["A", "B", None], ), [2, 2, 4, 4, np.nan, np.nan, 1, 1, np.nan, np.nan, 3, 3], ), ], ) def test_seriesgroupby_observed_apply_dict(df_cat, observed, index, data): # GH 24880 expected = Series(data=data, index=index, name="C") result = df_cat.groupby(["A", "B"], observed=observed)["C"].apply( lambda x: {"min": x.min(), "max": x.max()} ) tm.assert_series_equal(result, expected) def test_groupby_categorical_series_dataframe_consistent(df_cat): # GH 20416 expected = df_cat.groupby(["A", "B"])["C"].mean() result = df_cat.groupby(["A", "B"]).mean()["C"] tm.assert_series_equal(result, expected) @pytest.mark.parametrize("code", [([1, 0, 0]), ([0, 0, 0])]) def test_groupby_categorical_axis_1(code): # GH 13420 df = DataFrame({"a": [1, 2, 3, 4], "b": [-1, -2, -3, -4], "c": [5, 6, 7, 8]}) cat = Categorical.from_codes(code, categories=list("abc")) result = df.groupby(cat, axis=1).mean() expected = df.T.groupby(cat, axis=0).mean().T tm.assert_frame_equal(result, expected) @pytest.mark.filterwarnings("ignore:.*Select only valid:FutureWarning") def test_groupby_cat_preserves_structure(observed, ordered): # GH 28787 df = DataFrame( {"Name": Categorical(["Bob", "Greg"], ordered=ordered), "Item": [1, 2]}, columns=["Name", "Item"], ) expected = df.copy() result = ( df.groupby("Name", observed=observed) .agg(DataFrame.sum, skipna=True) .reset_index() ) tm.assert_frame_equal(result, expected) def test_get_nonexistent_category(): # Accessing a Category that is not in the dataframe df = DataFrame({"var": ["a", "a", "b", "b"], "val": range(4)}) with pytest.raises(KeyError, match="'vau'"): df.groupby("var").apply( lambda rows: DataFrame( {"var": [rows.iloc[-1]["var"]], "val": [rows.iloc[-1]["vau"]]} ) ) def test_series_groupby_on_2_categoricals_unobserved(reduction_func, observed, request): # GH 17605 if reduction_func == "ngroup": pytest.skip("ngroup is not truly a reduction") if reduction_func == "corrwith": # GH 32293 mark = pytest.mark.xfail( reason="TODO: implemented SeriesGroupBy.corrwith. See GH 32293" ) request.node.add_marker(mark) warn = FutureWarning if reduction_func == "mad" else None df = DataFrame( { "cat_1": Categorical(list("AABB"), categories=list("ABCD")), "cat_2": Categorical(list("AB") * 2, categories=list("ABCD")), "value": [0.1] * 4, } ) args = get_groupby_method_args(reduction_func, df) expected_length = 4 if observed else 16 series_groupby = df.groupby(["cat_1", "cat_2"], observed=observed)["value"] agg = getattr(series_groupby, reduction_func) with tm.assert_produces_warning(warn, match="The 'mad' method is deprecated"): result = agg(*args) assert len(result) == expected_length def test_series_groupby_on_2_categoricals_unobserved_zeroes_or_nans( reduction_func, request ): # GH 17605 # Tests whether the unobserved categories in the result contain 0 or NaN if reduction_func == "ngroup": pytest.skip("ngroup is not truly a reduction") if reduction_func == "corrwith": # GH 32293 mark = pytest.mark.xfail( reason="TODO: implemented SeriesGroupBy.corrwith. See GH 32293" ) request.node.add_marker(mark) warn = FutureWarning if reduction_func == "mad" else None df = DataFrame( { "cat_1": Categorical(list("AABB"), categories=list("ABC")), "cat_2": Categorical(list("AB") * 2, categories=list("ABC")), "value": [0.1] * 4, } ) unobserved = [tuple("AC"), tuple("BC"), tuple("CA"), tuple("CB"), tuple("CC")] args = get_groupby_method_args(reduction_func, df) series_groupby = df.groupby(["cat_1", "cat_2"], observed=False)["value"] agg = getattr(series_groupby, reduction_func) with tm.assert_produces_warning(warn, match="The 'mad' method is deprecated"): result = agg(*args) zero_or_nan = _results_for_groupbys_with_missing_categories[reduction_func] for idx in unobserved: val = result.loc[idx] assert (pd.isna(zero_or_nan) and pd.isna(val)) or (val == zero_or_nan) # If we expect unobserved values to be zero, we also expect the dtype to be int. # Except for .sum(). If the observed categories sum to dtype=float (i.e. their # sums have decimals), then the zeros for the missing categories should also be # floats. if zero_or_nan == 0 and reduction_func != "sum": assert np.issubdtype(result.dtype, np.integer) def test_dataframe_groupby_on_2_categoricals_when_observed_is_true(reduction_func): # GH 23865 # GH 27075 # Ensure that df.groupby, when 'by' is two Categorical variables, # does not return the categories that are not in df when observed=True if reduction_func == "ngroup": pytest.skip("ngroup does not return the Categories on the index") warn = FutureWarning if reduction_func == "mad" else None df = DataFrame( { "cat_1": Categorical(list("AABB"), categories=list("ABC")), "cat_2": Categorical(list("1111"), categories=list("12")), "value": [0.1, 0.1, 0.1, 0.1], } ) unobserved_cats = [("A", "2"), ("B", "2"), ("C", "1"), ("C", "2")] df_grp = df.groupby(["cat_1", "cat_2"], observed=True) args = get_groupby_method_args(reduction_func, df) with tm.assert_produces_warning(warn, match="The 'mad' method is deprecated"): res = getattr(df_grp, reduction_func)(*args) for cat in unobserved_cats: assert cat not in res.index @pytest.mark.parametrize("observed", [False, None]) def test_dataframe_groupby_on_2_categoricals_when_observed_is_false( reduction_func, observed ): # GH 23865 # GH 27075 # Ensure that df.groupby, when 'by' is two Categorical variables, # returns the categories that are not in df when observed=False/None if reduction_func == "ngroup": pytest.skip("ngroup does not return the Categories on the index") warn = FutureWarning if reduction_func == "mad" else None df = DataFrame( { "cat_1": Categorical(list("AABB"), categories=list("ABC")), "cat_2": Categorical(list("1111"), categories=list("12")), "value": [0.1, 0.1, 0.1, 0.1], } ) unobserved_cats = [("A", "2"), ("B", "2"), ("C", "1"), ("C", "2")] df_grp = df.groupby(["cat_1", "cat_2"], observed=observed) args = get_groupby_method_args(reduction_func, df) with tm.assert_produces_warning(warn, match="The 'mad' method is deprecated"): res = getattr(df_grp, reduction_func)(*args) expected = _results_for_groupbys_with_missing_categories[reduction_func] if expected is np.nan: assert res.loc[unobserved_cats].isnull().all().all() else: assert (res.loc[unobserved_cats] == expected).all().all() def test_series_groupby_categorical_aggregation_getitem(): # GH 8870 d = {"foo": [10, 8, 4, 1], "bar": [10, 20, 30, 40], "baz": ["d", "c", "d", "c"]} df = DataFrame(d) cat = pd.cut(df["foo"], np.linspace(0, 20, 5)) df["range"] = cat groups = df.groupby(["range", "baz"], as_index=True, sort=True) result = groups["foo"].agg("mean") expected = groups.agg("mean")["foo"] tm.assert_series_equal(result, expected) @pytest.mark.parametrize( "func, expected_values", [(Series.nunique, [1, 1, 2]), (Series.count, [1, 2, 2])], ) def test_groupby_agg_categorical_columns(func, expected_values): # 31256 df = DataFrame( { "id": [0, 1, 2, 3, 4], "groups": [0, 1, 1, 2, 2], "value": Categorical([0, 0, 0, 0, 1]), } ).set_index("id") result = df.groupby("groups").agg(func) expected = DataFrame( {"value": expected_values}, index=Index([0, 1, 2], name="groups") ) tm.assert_frame_equal(result, expected) def test_groupby_agg_non_numeric(): df = DataFrame({"A": Categorical(["a", "a", "b"], categories=["a", "b", "c"])}) expected = DataFrame({"A": [2, 1]}, index=[1, 2]) result = df.groupby([1, 2, 1]).agg(Series.nunique) tm.assert_frame_equal(result, expected) result = df.groupby([1, 2, 1]).nunique() tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("func", ["first", "last"]) def test_groupby_first_returned_categorical_instead_of_dataframe(func): # GH 28641: groupby drops index, when grouping over categorical column with # first/last. Renamed Categorical instead of DataFrame previously. df = DataFrame({"A": [1997], "B": Series(["b"], dtype="category").cat.as_ordered()}) df_grouped = df.groupby("A")["B"] result = getattr(df_grouped, func)() # ordered categorical dtype should be preserved expected = Series( ["b"], index=Index([1997], name="A"), name="B", dtype=df["B"].dtype ) tm.assert_series_equal(result, expected) def test_read_only_category_no_sort(): # GH33410 cats = np.array([1, 2]) cats.flags.writeable = False df = DataFrame( {"a": [1, 3, 5, 7], "b": Categorical([1, 1, 2, 2], categories=Index(cats))} ) expected = DataFrame( data={"a": [2.0, 6.0]}, index=CategoricalIndex([1, 2], name="b") ) result = df.groupby("b", sort=False).mean() tm.assert_frame_equal(result, expected) def test_sorted_missing_category_values(): # GH 28597 df = DataFrame( { "foo": [ "small", "large", "large", "large", "medium", "large", "large", "medium", ], "bar": ["C", "A", "A", "C", "A", "C", "A", "C"], } ) df["foo"] = ( df["foo"] .astype("category") .cat.set_categories(["tiny", "small", "medium", "large"], ordered=True) ) expected = DataFrame( { "tiny": {"A": 0, "C": 0}, "small": {"A": 0, "C": 1}, "medium": {"A": 1, "C": 1}, "large": {"A": 3, "C": 2}, } ) expected = expected.rename_axis("bar", axis="index") expected.columns = CategoricalIndex( ["tiny", "small", "medium", "large"], categories=["tiny", "small", "medium", "large"], ordered=True, name="foo", dtype="category", ) result = df.groupby(["bar", "foo"]).size().unstack() tm.assert_frame_equal(result, expected) def test_agg_cython_category_not_implemented_fallback(): # https://github.com/pandas-dev/pandas/issues/31450 df = DataFrame({"col_num": [1, 1, 2, 3]}) df["col_cat"] = df["col_num"].astype("category") result = df.groupby("col_num").col_cat.first() # ordered categorical dtype should definitely be preserved; # this is unordered, so is less-clear case (if anything, it should raise) expected = Series( [1, 2, 3], index=Index([1, 2, 3], name="col_num"), name="col_cat", dtype=df["col_cat"].dtype, ) tm.assert_series_equal(result, expected) result = df.groupby("col_num").agg({"col_cat": "first"}) expected = expected.to_frame() tm.assert_frame_equal(result, expected) def test_aggregate_categorical_with_isnan(): # GH 29837 df = DataFrame( { "A": [1, 1, 1, 1], "B": [1, 2, 1, 2], "numerical_col": [0.1, 0.2, np.nan, 0.3], "object_col": ["foo", "bar", "foo", "fee"], "categorical_col": ["foo", "bar", "foo", "fee"], } ) df = df.astype({"categorical_col": "category"}) result = df.groupby(["A", "B"]).agg(lambda df: df.isna().sum()) index = MultiIndex.from_arrays([[1, 1], [1, 2]], names=("A", "B")) expected = DataFrame( data={ "numerical_col": [1, 0], "object_col": [0, 0], "categorical_col": [0, 0], }, index=index, ) tm.assert_frame_equal(result, expected) def test_categorical_transform(): # GH 29037 df = DataFrame( { "package_id": [1, 1, 1, 2, 2, 3], "status": [ "Waiting", "OnTheWay", "Delivered", "Waiting", "OnTheWay", "Waiting", ], } ) delivery_status_type = pd.CategoricalDtype( categories=["Waiting", "OnTheWay", "Delivered"], ordered=True ) df["status"] = df["status"].astype(delivery_status_type) df["last_status"] = df.groupby("package_id")["status"].transform(max) result = df.copy() expected = DataFrame( { "package_id": [1, 1, 1, 2, 2, 3], "status": [ "Waiting", "OnTheWay", "Delivered", "Waiting", "OnTheWay", "Waiting", ], "last_status": [ "Delivered", "Delivered", "Delivered", "OnTheWay", "OnTheWay", "Waiting", ], } ) expected["status"] = expected["status"].astype(delivery_status_type) # .transform(max) should preserve ordered categoricals expected["last_status"] = expected["last_status"].astype(delivery_status_type) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("func", ["first", "last"]) def test_series_groupby_first_on_categorical_col_grouped_on_2_categoricals( func: str, observed: bool ): # GH 34951 cat = Categorical([0, 0, 1, 1]) val = [0, 1, 1, 0] df = DataFrame({"a": cat, "b": cat, "c": val}) cat2 = Categorical([0, 1]) idx = MultiIndex.from_product([cat2, cat2], names=["a", "b"]) expected_dict = { "first": Series([0, np.NaN, np.NaN, 1], idx, name="c"), "last": Series([1, np.NaN, np.NaN, 0], idx, name="c"), } expected = expected_dict[func] if observed: expected = expected.dropna().astype(np.int64) srs_grp = df.groupby(["a", "b"], observed=observed)["c"] result = getattr(srs_grp, func)() tm.assert_series_equal(result, expected) @pytest.mark.parametrize("func", ["first", "last"]) def test_df_groupby_first_on_categorical_col_grouped_on_2_categoricals( func: str, observed: bool ): # GH 34951 cat = Categorical([0, 0, 1, 1]) val = [0, 1, 1, 0] df = DataFrame({"a": cat, "b": cat, "c": val}) cat2 = Categorical([0, 1]) idx = MultiIndex.from_product([cat2, cat2], names=["a", "b"]) expected_dict = { "first": Series([0, np.NaN, np.NaN, 1], idx, name="c"), "last": Series([1, np.NaN, np.NaN, 0], idx, name="c"), } expected = expected_dict[func].to_frame() if observed: expected = expected.dropna().astype(np.int64) df_grp = df.groupby(["a", "b"], observed=observed) result = getattr(df_grp, func)() tm.assert_frame_equal(result, expected) def test_groupby_categorical_indices_unused_categories(): # GH#38642 df = DataFrame( { "key": Categorical(["b", "b", "a"], categories=["a", "b", "c"]), "col": range(3), } ) grouped = df.groupby("key", sort=False) result = grouped.indices expected = { "b": np.array([0, 1], dtype="intp"), "a": np.array([2], dtype="intp"), "c": np.array([], dtype="intp"), } assert result.keys() == expected.keys() for key in result.keys(): tm.assert_numpy_array_equal(result[key], expected[key]) @pytest.mark.parametrize("func", ["first", "last"]) def test_groupby_last_first_preserve_categoricaldtype(func): # GH#33090 df = DataFrame({"a": [1, 2, 3]}) df["b"] = df["a"].astype("category") result = getattr(df.groupby("a")["b"], func)() expected = Series( Categorical([1, 2, 3]), name="b", index=Index([1, 2, 3], name="a") ) tm.assert_series_equal(expected, result) def test_groupby_categorical_observed_nunique(): # GH#45128 df = DataFrame({"a": [1, 2], "b": [1, 2], "c": [10, 11]}) df = df.astype(dtype={"a": "category", "b": "category"}) result = df.groupby(["a", "b"], observed=True).nunique()["c"] expected = Series( [1, 1], index=MultiIndex.from_arrays( [CategoricalIndex([1, 2], name="a"), CategoricalIndex([1, 2], name="b")] ), name="c", ) tm.assert_series_equal(result, expected) def test_groupby_categorical_aggregate_functions(): # GH#37275 dtype = pd.CategoricalDtype(categories=["small", "big"], ordered=True) df = DataFrame( [[1, "small"], [1, "big"], [2, "small"]], columns=["grp", "description"] ).astype({"description": dtype}) result = df.groupby("grp")["description"].max() expected = Series( ["big", "small"], index=Index([1, 2], name="grp"), name="description", dtype=pd.CategoricalDtype(categories=["small", "big"], ordered=True), ) tm.assert_series_equal(result, expected) def test_groupby_categorical_dropna(observed, dropna): # GH#48645 - dropna should have no impact on the result when there are no NA values cat = Categorical([1, 2], categories=[1, 2, 3]) df = DataFrame({"x": Categorical([1, 2], categories=[1, 2, 3]), "y": [3, 4]}) gb = df.groupby("x", observed=observed, dropna=dropna) result = gb.sum() if observed: expected = DataFrame({"y": [3, 4]}, index=cat) else: index = CategoricalIndex([1, 2, 3], [1, 2, 3]) expected = DataFrame({"y": [3, 4, 0]}, index=index) expected.index.name = "x" tm.assert_frame_equal(result, expected)