from collections import ( OrderedDict, abc, ) from datetime import ( date, datetime, timedelta, ) import functools import itertools import re import warnings import numpy as np import numpy.ma as ma import numpy.ma.mrecords as mrecords import pytest import pytz import pandas.util._test_decorators as td from pandas.core.dtypes.common import is_integer_dtype from pandas.core.dtypes.dtypes import ( DatetimeTZDtype, IntervalDtype, PandasDtype, PeriodDtype, ) import pandas as pd from pandas import ( Categorical, CategoricalIndex, DataFrame, DatetimeIndex, Index, Interval, MultiIndex, Period, RangeIndex, Series, Timedelta, Timestamp, cut, date_range, isna, ) import pandas._testing as tm from pandas.arrays import ( DatetimeArray, IntervalArray, PeriodArray, SparseArray, TimedeltaArray, ) from pandas.core.api import Int64Index MIXED_FLOAT_DTYPES = ["float16", "float32", "float64"] MIXED_INT_DTYPES = [ "uint8", "uint16", "uint32", "uint64", "int8", "int16", "int32", "int64", ] class TestDataFrameConstructors: def test_constructor_from_ndarray_with_str_dtype(self): # If we don't ravel/reshape around ensure_str_array, we end up # with an array of strings each of which is e.g. "[0 1 2]" arr = np.arange(12).reshape(4, 3) df = DataFrame(arr, dtype=str) expected = DataFrame(arr.astype(str)) tm.assert_frame_equal(df, expected) def test_constructor_from_2d_datetimearray(self, using_array_manager): dti = date_range("2016-01-01", periods=6, tz="US/Pacific") dta = dti._data.reshape(3, 2) df = DataFrame(dta) expected = DataFrame({0: dta[:, 0], 1: dta[:, 1]}) tm.assert_frame_equal(df, expected) if not using_array_manager: # GH#44724 big performance hit if we de-consolidate assert len(df._mgr.blocks) == 1 def test_constructor_dict_with_tzaware_scalar(self): # GH#42505 dt = Timestamp("2019-11-03 01:00:00-0700").tz_convert("America/Los_Angeles") df = DataFrame({"dt": dt}, index=[0]) expected = DataFrame({"dt": [dt]}) tm.assert_frame_equal(df, expected) # Non-homogeneous df = DataFrame({"dt": dt, "value": [1]}) expected = DataFrame({"dt": [dt], "value": [1]}) tm.assert_frame_equal(df, expected) def test_construct_ndarray_with_nas_and_int_dtype(self): # GH#26919 match Series by not casting np.nan to meaningless int arr = np.array([[1, np.nan], [2, 3]]) with tm.assert_produces_warning(FutureWarning): df = DataFrame(arr, dtype="i8") assert df.values.dtype == arr.dtype assert isna(df.iloc[0, 1]) # check this matches Series behavior with tm.assert_produces_warning(FutureWarning): ser = Series(arr[0], dtype="i8", name=0) expected = df.iloc[0] tm.assert_series_equal(ser, expected) def test_construct_from_list_of_datetimes(self): df = DataFrame([datetime.now(), datetime.now()]) assert df[0].dtype == np.dtype("M8[ns]") def test_constructor_from_tzaware_datetimeindex(self): # don't cast a DatetimeIndex WITH a tz, leave as object # GH#6032 naive = DatetimeIndex(["2013-1-1 13:00", "2013-1-2 14:00"], name="B") idx = naive.tz_localize("US/Pacific") expected = Series(np.array(idx.tolist(), dtype="object"), name="B") assert expected.dtype == idx.dtype # convert index to series result = Series(idx) tm.assert_series_equal(result, expected) def test_array_of_dt64_nat_with_td64dtype_raises(self, frame_or_series): # GH#39462 nat = np.datetime64("NaT", "ns") arr = np.array([nat], dtype=object) if frame_or_series is DataFrame: arr = arr.reshape(1, 1) msg = "|".join( [ "Could not convert object to NumPy timedelta", "Invalid type for timedelta scalar: ", ] ) with pytest.raises(ValueError, match=msg): frame_or_series(arr, dtype="m8[ns]") @pytest.mark.parametrize("kind", ["m", "M"]) def test_datetimelike_values_with_object_dtype(self, kind, frame_or_series): # with dtype=object, we should cast dt64 values to Timestamps, not pydatetimes if kind == "M": dtype = "M8[ns]" scalar_type = Timestamp else: dtype = "m8[ns]" scalar_type = Timedelta arr = np.arange(6, dtype="i8").view(dtype).reshape(3, 2) if frame_or_series is Series: arr = arr[:, 0] obj = frame_or_series(arr, dtype=object) assert obj._mgr.arrays[0].dtype == object assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) # go through a different path in internals.construction obj = frame_or_series(frame_or_series(arr), dtype=object) assert obj._mgr.arrays[0].dtype == object assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) obj = frame_or_series(frame_or_series(arr), dtype=PandasDtype(object)) assert obj._mgr.arrays[0].dtype == object assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) if frame_or_series is DataFrame: # other paths through internals.construction sers = [Series(x) for x in arr] obj = frame_or_series(sers, dtype=object) assert obj._mgr.arrays[0].dtype == object assert isinstance(obj._mgr.arrays[0].ravel()[0], scalar_type) def test_series_with_name_not_matching_column(self): # GH#9232 x = Series(range(5), name=1) y = Series(range(5), name=0) result = DataFrame(x, columns=[0]) expected = DataFrame([], columns=[0]) tm.assert_frame_equal(result, expected) result = DataFrame(y, columns=[1]) expected = DataFrame([], columns=[1]) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "constructor", [ lambda: DataFrame(), lambda: DataFrame(None), lambda: DataFrame({}), lambda: DataFrame(()), lambda: DataFrame([]), lambda: DataFrame(_ for _ in []), lambda: DataFrame(range(0)), lambda: DataFrame(data=None), lambda: DataFrame(data={}), lambda: DataFrame(data=()), lambda: DataFrame(data=[]), lambda: DataFrame(data=(_ for _ in [])), lambda: DataFrame(data=range(0)), ], ) def test_empty_constructor(self, constructor): expected = DataFrame() result = constructor() assert len(result.index) == 0 assert len(result.columns) == 0 tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "emptylike,expected_index,expected_columns", [ ([[]], RangeIndex(1), RangeIndex(0)), ([[], []], RangeIndex(2), RangeIndex(0)), ([(_ for _ in [])], RangeIndex(1), RangeIndex(0)), ], ) def test_emptylike_constructor(self, emptylike, expected_index, expected_columns): expected = DataFrame(index=expected_index, columns=expected_columns) result = DataFrame(emptylike) tm.assert_frame_equal(result, expected) def test_constructor_mixed(self, float_string_frame): index, data = tm.getMixedTypeDict() # TODO(wesm), incomplete test? indexed_frame = DataFrame(data, index=index) # noqa unindexed_frame = DataFrame(data) # noqa assert float_string_frame["foo"].dtype == np.object_ def test_constructor_cast_failure(self): msg = "either all columns will be cast to that dtype, or a TypeError will" with tm.assert_produces_warning(FutureWarning, match=msg): foo = DataFrame({"a": ["a", "b", "c"]}, dtype=np.float64) assert foo["a"].dtype == object # GH 3010, constructing with odd arrays df = DataFrame(np.ones((4, 2))) # this is ok df["foo"] = np.ones((4, 2)).tolist() # this is not ok msg = "Expected a 1D array, got an array with shape \\(4, 2\\)" with pytest.raises(ValueError, match=msg): df["test"] = np.ones((4, 2)) # this is ok df["foo2"] = np.ones((4, 2)).tolist() def test_constructor_dtype_copy(self): orig_df = DataFrame({"col1": [1.0], "col2": [2.0], "col3": [3.0]}) new_df = DataFrame(orig_df, dtype=float, copy=True) new_df["col1"] = 200.0 assert orig_df["col1"][0] == 1.0 def test_constructor_dtype_nocast_view_dataframe(self, using_copy_on_write): df = DataFrame([[1, 2]]) should_be_view = DataFrame(df, dtype=df[0].dtype) if using_copy_on_write: # INFO(CoW) doesn't mutate original should_be_view.iloc[0, 0] = 99 assert df.values[0, 0] == 1 else: should_be_view[0][0] = 99 assert df.values[0, 0] == 99 def test_constructor_dtype_nocast_view_2d_array( self, using_array_manager, using_copy_on_write ): df = DataFrame([[1, 2], [3, 4]], dtype="int64") if not using_array_manager and not using_copy_on_write: should_be_view = DataFrame(df.values, dtype=df[0].dtype) should_be_view[0][0] = 97 assert df.values[0, 0] == 97 else: # INFO(ArrayManager) DataFrame(ndarray) doesn't necessarily preserve # a view on the array to ensure contiguous 1D arrays df2 = DataFrame(df.values, dtype=df[0].dtype) assert df2._mgr.arrays[0].flags.c_contiguous @td.skip_array_manager_invalid_test def test_1d_object_array_does_not_copy(self): # https://github.com/pandas-dev/pandas/issues/39272 arr = np.array(["a", "b"], dtype="object") df = DataFrame(arr) assert np.shares_memory(df.values, arr) @td.skip_array_manager_invalid_test def test_2d_object_array_does_not_copy(self): # https://github.com/pandas-dev/pandas/issues/39272 arr = np.array([["a", "b"], ["c", "d"]], dtype="object") df = DataFrame(arr) assert np.shares_memory(df.values, arr) def test_constructor_dtype_list_data(self): df = DataFrame([[1, "2"], [None, "a"]], dtype=object) assert df.loc[1, 0] is None assert df.loc[0, 1] == "2" def test_constructor_list_of_2d_raises(self): # https://github.com/pandas-dev/pandas/issues/32289 a = DataFrame() b = np.empty((0, 0)) with pytest.raises(ValueError, match=r"shape=\(1, 0, 0\)"): DataFrame([a]) with pytest.raises(ValueError, match=r"shape=\(1, 0, 0\)"): DataFrame([b]) a = DataFrame({"A": [1, 2]}) with pytest.raises(ValueError, match=r"shape=\(2, 2, 1\)"): DataFrame([a, a]) @pytest.mark.parametrize( "typ, ad", [ # mixed floating and integer coexist in the same frame ["float", {}], # add lots of types ["float", {"A": 1, "B": "foo", "C": "bar"}], # GH 622 ["int", {}], ], ) def test_constructor_mixed_dtypes(self, typ, ad): if typ == "int": dtypes = MIXED_INT_DTYPES arrays = [np.array(np.random.rand(10), dtype=d) for d in dtypes] elif typ == "float": dtypes = MIXED_FLOAT_DTYPES arrays = [np.array(np.random.randint(10, size=10), dtype=d) for d in dtypes] for d, a in zip(dtypes, arrays): assert a.dtype == d ad.update({d: a for d, a in zip(dtypes, arrays)}) df = DataFrame(ad) dtypes = MIXED_FLOAT_DTYPES + MIXED_INT_DTYPES for d in dtypes: if d in df: assert df.dtypes[d] == d def test_constructor_complex_dtypes(self): # GH10952 a = np.random.rand(10).astype(np.complex64) b = np.random.rand(10).astype(np.complex128) df = DataFrame({"a": a, "b": b}) assert a.dtype == df.a.dtype assert b.dtype == df.b.dtype def test_constructor_dtype_str_na_values(self, string_dtype): # https://github.com/pandas-dev/pandas/issues/21083 df = DataFrame({"A": ["x", None]}, dtype=string_dtype) result = df.isna() expected = DataFrame({"A": [False, True]}) tm.assert_frame_equal(result, expected) assert df.iloc[1, 0] is None df = DataFrame({"A": ["x", np.nan]}, dtype=string_dtype) assert np.isnan(df.iloc[1, 0]) def test_constructor_rec(self, float_frame): rec = float_frame.to_records(index=False) rec.dtype.names = list(rec.dtype.names)[::-1] index = float_frame.index df = DataFrame(rec) tm.assert_index_equal(df.columns, Index(rec.dtype.names)) df2 = DataFrame(rec, index=index) tm.assert_index_equal(df2.columns, Index(rec.dtype.names)) tm.assert_index_equal(df2.index, index) # case with columns != the ones we would infer from the data rng = np.arange(len(rec))[::-1] df3 = DataFrame(rec, index=rng, columns=["C", "B"]) expected = DataFrame(rec, index=rng).reindex(columns=["C", "B"]) tm.assert_frame_equal(df3, expected) def test_constructor_bool(self): df = DataFrame({0: np.ones(10, dtype=bool), 1: np.zeros(10, dtype=bool)}) assert df.values.dtype == np.bool_ def test_constructor_overflow_int64(self): # see gh-14881 values = np.array([2**64 - i for i in range(1, 10)], dtype=np.uint64) result = DataFrame({"a": values}) assert result["a"].dtype == np.uint64 # see gh-2355 data_scores = [ (6311132704823138710, 273), (2685045978526272070, 23), (8921811264899370420, 45), (17019687244989530680, 270), (9930107427299601010, 273), ] dtype = [("uid", "u8"), ("score", "u8")] data = np.zeros((len(data_scores),), dtype=dtype) data[:] = data_scores df_crawls = DataFrame(data) assert df_crawls["uid"].dtype == np.uint64 @pytest.mark.parametrize( "values", [ np.array([2**64], dtype=object), np.array([2**65]), [2**64 + 1], np.array([-(2**63) - 4], dtype=object), np.array([-(2**64) - 1]), [-(2**65) - 2], ], ) def test_constructor_int_overflow(self, values): # see gh-18584 value = values[0] result = DataFrame(values) assert result[0].dtype == object assert result[0][0] == value @pytest.mark.parametrize( "values", [ np.array([1], dtype=np.uint16), np.array([1], dtype=np.uint32), np.array([1], dtype=np.uint64), [np.uint16(1)], [np.uint32(1)], [np.uint64(1)], ], ) def test_constructor_numpy_uints(self, values): # GH#47294 value = values[0] result = DataFrame(values) assert result[0].dtype == value.dtype assert result[0][0] == value def test_constructor_ordereddict(self): import random nitems = 100 nums = list(range(nitems)) random.shuffle(nums) expected = [f"A{i:d}" for i in nums] df = DataFrame(OrderedDict(zip(expected, [[0]] * nitems))) assert expected == list(df.columns) def test_constructor_dict(self): datetime_series = tm.makeTimeSeries(nper=30) # test expects index shifted by 5 datetime_series_short = tm.makeTimeSeries(nper=30)[5:] frame = DataFrame({"col1": datetime_series, "col2": datetime_series_short}) # col2 is padded with NaN assert len(datetime_series) == 30 assert len(datetime_series_short) == 25 tm.assert_series_equal(frame["col1"], datetime_series.rename("col1")) exp = Series( np.concatenate([[np.nan] * 5, datetime_series_short.values]), index=datetime_series.index, name="col2", ) tm.assert_series_equal(exp, frame["col2"]) frame = DataFrame( {"col1": datetime_series, "col2": datetime_series_short}, columns=["col2", "col3", "col4"], ) assert len(frame) == len(datetime_series_short) assert "col1" not in frame assert isna(frame["col3"]).all() # Corner cases assert len(DataFrame()) == 0 # mix dict and array, wrong size - no spec for which error should raise # first msg = "Mixing dicts with non-Series may lead to ambiguous ordering." with pytest.raises(ValueError, match=msg): DataFrame({"A": {"a": "a", "b": "b"}, "B": ["a", "b", "c"]}) def test_constructor_dict_length1(self): # Length-one dict micro-optimization frame = DataFrame({"A": {"1": 1, "2": 2}}) tm.assert_index_equal(frame.index, Index(["1", "2"])) def test_constructor_dict_with_index(self): # empty dict plus index idx = Index([0, 1, 2]) frame = DataFrame({}, index=idx) assert frame.index is idx def test_constructor_dict_with_index_and_columns(self): # empty dict with index and columns idx = Index([0, 1, 2]) frame = DataFrame({}, index=idx, columns=idx) assert frame.index is idx assert frame.columns is idx assert len(frame._series) == 3 def test_constructor_dict_of_empty_lists(self): # with dict of empty list and Series frame = DataFrame({"A": [], "B": []}, columns=["A", "B"]) tm.assert_index_equal(frame.index, RangeIndex(0), exact=True) def test_constructor_dict_with_none(self): # GH 14381 # Dict with None value frame_none = DataFrame({"a": None}, index=[0]) frame_none_list = DataFrame({"a": [None]}, index=[0]) assert frame_none._get_value(0, "a") is None assert frame_none_list._get_value(0, "a") is None tm.assert_frame_equal(frame_none, frame_none_list) def test_constructor_dict_errors(self): # GH10856 # dict with scalar values should raise error, even if columns passed msg = "If using all scalar values, you must pass an index" with pytest.raises(ValueError, match=msg): DataFrame({"a": 0.7}) with pytest.raises(ValueError, match=msg): DataFrame({"a": 0.7}, columns=["a"]) @pytest.mark.parametrize("scalar", [2, np.nan, None, "D"]) def test_constructor_invalid_items_unused(self, scalar): # No error if invalid (scalar) value is in fact not used: result = DataFrame({"a": scalar}, columns=["b"]) expected = DataFrame(columns=["b"]) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("value", [2, np.nan, None, float("nan")]) def test_constructor_dict_nan_key(self, value): # GH 18455 cols = [1, value, 3] idx = ["a", value] values = [[0, 3], [1, 4], [2, 5]] data = {cols[c]: Series(values[c], index=idx) for c in range(3)} result = DataFrame(data).sort_values(1).sort_values("a", axis=1) expected = DataFrame( np.arange(6, dtype="int64").reshape(2, 3), index=idx, columns=cols ) tm.assert_frame_equal(result, expected) result = DataFrame(data, index=idx).sort_values("a", axis=1) tm.assert_frame_equal(result, expected) result = DataFrame(data, index=idx, columns=cols) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("value", [np.nan, None, float("nan")]) def test_constructor_dict_nan_tuple_key(self, value): # GH 18455 cols = Index([(11, 21), (value, 22), (13, value)]) idx = Index([("a", value), (value, 2)]) values = [[0, 3], [1, 4], [2, 5]] data = {cols[c]: Series(values[c], index=idx) for c in range(3)} result = DataFrame(data).sort_values((11, 21)).sort_values(("a", value), axis=1) expected = DataFrame( np.arange(6, dtype="int64").reshape(2, 3), index=idx, columns=cols ) tm.assert_frame_equal(result, expected) result = DataFrame(data, index=idx).sort_values(("a", value), axis=1) tm.assert_frame_equal(result, expected) result = DataFrame(data, index=idx, columns=cols) tm.assert_frame_equal(result, expected) def test_constructor_dict_order_insertion(self): datetime_series = tm.makeTimeSeries(nper=30) datetime_series_short = tm.makeTimeSeries(nper=25) # GH19018 # initialization ordering: by insertion order if python>= 3.6 d = {"b": datetime_series_short, "a": datetime_series} frame = DataFrame(data=d) expected = DataFrame(data=d, columns=list("ba")) tm.assert_frame_equal(frame, expected) def test_constructor_dict_nan_key_and_columns(self): # GH 16894 result = DataFrame({np.nan: [1, 2], 2: [2, 3]}, columns=[np.nan, 2]) expected = DataFrame([[1, 2], [2, 3]], columns=[np.nan, 2]) tm.assert_frame_equal(result, expected) def test_constructor_multi_index(self): # GH 4078 # construction error with mi and all-nan frame tuples = [(2, 3), (3, 3), (3, 3)] mi = MultiIndex.from_tuples(tuples) df = DataFrame(index=mi, columns=mi) assert isna(df).values.ravel().all() tuples = [(3, 3), (2, 3), (3, 3)] mi = MultiIndex.from_tuples(tuples) df = DataFrame(index=mi, columns=mi) assert isna(df).values.ravel().all() def test_constructor_2d_index(self): # GH 25416 # handling of 2d index in construction df = DataFrame([[1]], columns=[[1]], index=[1, 2]) expected = DataFrame( [1, 1], index=Int64Index([1, 2], dtype="int64"), columns=MultiIndex(levels=[[1]], codes=[[0]]), ) tm.assert_frame_equal(df, expected) df = DataFrame([[1]], columns=[[1]], index=[[1, 2]]) expected = DataFrame( [1, 1], index=MultiIndex(levels=[[1, 2]], codes=[[0, 1]]), columns=MultiIndex(levels=[[1]], codes=[[0]]), ) tm.assert_frame_equal(df, expected) def test_constructor_error_msgs(self): msg = "Empty data passed with indices specified." # passing an empty array with columns specified. with pytest.raises(ValueError, match=msg): DataFrame(np.empty(0), columns=list("abc")) msg = "Mixing dicts with non-Series may lead to ambiguous ordering." # mix dict and array, wrong size with pytest.raises(ValueError, match=msg): DataFrame({"A": {"a": "a", "b": "b"}, "B": ["a", "b", "c"]}) # wrong size ndarray, GH 3105 msg = r"Shape of passed values is \(4, 3\), indices imply \(3, 3\)" with pytest.raises(ValueError, match=msg): DataFrame( np.arange(12).reshape((4, 3)), columns=["foo", "bar", "baz"], index=date_range("2000-01-01", periods=3), ) arr = np.array([[4, 5, 6]]) msg = r"Shape of passed values is \(1, 3\), indices imply \(1, 4\)" with pytest.raises(ValueError, match=msg): DataFrame(index=[0], columns=range(0, 4), data=arr) arr = np.array([4, 5, 6]) msg = r"Shape of passed values is \(3, 1\), indices imply \(1, 4\)" with pytest.raises(ValueError, match=msg): DataFrame(index=[0], columns=range(0, 4), data=arr) # higher dim raise exception with pytest.raises(ValueError, match="Must pass 2-d input"): DataFrame(np.zeros((3, 3, 3)), columns=["A", "B", "C"], index=[1]) # wrong size axis labels msg = r"Shape of passed values is \(2, 3\), indices imply \(1, 3\)" with pytest.raises(ValueError, match=msg): DataFrame(np.random.rand(2, 3), columns=["A", "B", "C"], index=[1]) msg = r"Shape of passed values is \(2, 3\), indices imply \(2, 2\)" with pytest.raises(ValueError, match=msg): DataFrame(np.random.rand(2, 3), columns=["A", "B"], index=[1, 2]) # gh-26429 msg = "2 columns passed, passed data had 10 columns" with pytest.raises(ValueError, match=msg): DataFrame((range(10), range(10, 20)), columns=("ones", "twos")) msg = "If using all scalar values, you must pass an index" with pytest.raises(ValueError, match=msg): DataFrame({"a": False, "b": True}) def test_constructor_subclass_dict(self, dict_subclass): # Test for passing dict subclass to constructor data = { "col1": dict_subclass((x, 10.0 * x) for x in range(10)), "col2": dict_subclass((x, 20.0 * x) for x in range(10)), } df = DataFrame(data) refdf = DataFrame({col: dict(val.items()) for col, val in data.items()}) tm.assert_frame_equal(refdf, df) data = dict_subclass(data.items()) df = DataFrame(data) tm.assert_frame_equal(refdf, df) def test_constructor_defaultdict(self, float_frame): # try with defaultdict from collections import defaultdict data = {} float_frame["B"][:10] = np.nan for k, v in float_frame.items(): dct = defaultdict(dict) dct.update(v.to_dict()) data[k] = dct frame = DataFrame(data) expected = frame.reindex(index=float_frame.index) tm.assert_frame_equal(float_frame, expected) def test_constructor_dict_block(self): expected = np.array([[4.0, 3.0, 2.0, 1.0]]) df = DataFrame( {"d": [4.0], "c": [3.0], "b": [2.0], "a": [1.0]}, columns=["d", "c", "b", "a"], ) tm.assert_numpy_array_equal(df.values, expected) def test_constructor_dict_cast(self): # cast float tests test_data = {"A": {"1": 1, "2": 2}, "B": {"1": "1", "2": "2", "3": "3"}} frame = DataFrame(test_data, dtype=float) assert len(frame) == 3 assert frame["B"].dtype == np.float64 assert frame["A"].dtype == np.float64 frame = DataFrame(test_data) assert len(frame) == 3 assert frame["B"].dtype == np.object_ assert frame["A"].dtype == np.float64 def test_constructor_dict_cast2(self): # can't cast to float test_data = { "A": dict(zip(range(20), tm.makeStringIndex(20))), "B": dict(zip(range(15), np.random.randn(15))), } msg = "either all columns will be cast to that dtype, or a TypeError will" with tm.assert_produces_warning(FutureWarning, match=msg): frame = DataFrame(test_data, dtype=float) assert len(frame) == 20 assert frame["A"].dtype == np.object_ assert frame["B"].dtype == np.float64 def test_constructor_dict_dont_upcast(self): d = {"Col1": {"Row1": "A String", "Row2": np.nan}} df = DataFrame(d) assert isinstance(df["Col1"]["Row2"], float) def test_constructor_dict_dont_upcast2(self): dm = DataFrame([[1, 2], ["a", "b"]], index=[1, 2], columns=[1, 2]) assert isinstance(dm[1][1], int) def test_constructor_dict_of_tuples(self): # GH #1491 data = {"a": (1, 2, 3), "b": (4, 5, 6)} result = DataFrame(data) expected = DataFrame({k: list(v) for k, v in data.items()}) tm.assert_frame_equal(result, expected, check_dtype=False) def test_constructor_dict_of_ranges(self): # GH 26356 data = {"a": range(3), "b": range(3, 6)} result = DataFrame(data) expected = DataFrame({"a": [0, 1, 2], "b": [3, 4, 5]}) tm.assert_frame_equal(result, expected) def test_constructor_dict_of_iterators(self): # GH 26349 data = {"a": iter(range(3)), "b": reversed(range(3))} result = DataFrame(data) expected = DataFrame({"a": [0, 1, 2], "b": [2, 1, 0]}) tm.assert_frame_equal(result, expected) def test_constructor_dict_of_generators(self): # GH 26349 data = {"a": (i for i in (range(3))), "b": (i for i in reversed(range(3)))} result = DataFrame(data) expected = DataFrame({"a": [0, 1, 2], "b": [2, 1, 0]}) tm.assert_frame_equal(result, expected) def test_constructor_dict_multiindex(self): d = { ("a", "a"): {("i", "i"): 0, ("i", "j"): 1, ("j", "i"): 2}, ("b", "a"): {("i", "i"): 6, ("i", "j"): 5, ("j", "i"): 4}, ("b", "c"): {("i", "i"): 7, ("i", "j"): 8, ("j", "i"): 9}, } _d = sorted(d.items()) df = DataFrame(d) expected = DataFrame( [x[1] for x in _d], index=MultiIndex.from_tuples([x[0] for x in _d]) ).T expected.index = MultiIndex.from_tuples(expected.index) tm.assert_frame_equal( df, expected, ) d["z"] = {"y": 123.0, ("i", "i"): 111, ("i", "j"): 111, ("j", "i"): 111} _d.insert(0, ("z", d["z"])) expected = DataFrame( [x[1] for x in _d], index=Index([x[0] for x in _d], tupleize_cols=False) ).T expected.index = Index(expected.index, tupleize_cols=False) df = DataFrame(d) df = df.reindex(columns=expected.columns, index=expected.index) tm.assert_frame_equal(df, expected) def test_constructor_dict_datetime64_index(self): # GH 10160 dates_as_str = ["1984-02-19", "1988-11-06", "1989-12-03", "1990-03-15"] def create_data(constructor): return {i: {constructor(s): 2 * i} for i, s in enumerate(dates_as_str)} data_datetime64 = create_data(np.datetime64) data_datetime = create_data(lambda x: datetime.strptime(x, "%Y-%m-%d")) data_Timestamp = create_data(Timestamp) expected = DataFrame( [ {0: 0, 1: None, 2: None, 3: None}, {0: None, 1: 2, 2: None, 3: None}, {0: None, 1: None, 2: 4, 3: None}, {0: None, 1: None, 2: None, 3: 6}, ], index=[Timestamp(dt) for dt in dates_as_str], ) result_datetime64 = DataFrame(data_datetime64) result_datetime = DataFrame(data_datetime) result_Timestamp = DataFrame(data_Timestamp) tm.assert_frame_equal(result_datetime64, expected) tm.assert_frame_equal(result_datetime, expected) tm.assert_frame_equal(result_Timestamp, expected) def test_constructor_dict_timedelta64_index(self): # GH 10160 td_as_int = [1, 2, 3, 4] def create_data(constructor): return {i: {constructor(s): 2 * i} for i, s in enumerate(td_as_int)} data_timedelta64 = create_data(lambda x: np.timedelta64(x, "D")) data_timedelta = create_data(lambda x: timedelta(days=x)) data_Timedelta = create_data(lambda x: Timedelta(x, "D")) expected = DataFrame( [ {0: 0, 1: None, 2: None, 3: None}, {0: None, 1: 2, 2: None, 3: None}, {0: None, 1: None, 2: 4, 3: None}, {0: None, 1: None, 2: None, 3: 6}, ], index=[Timedelta(td, "D") for td in td_as_int], ) result_timedelta64 = DataFrame(data_timedelta64) result_timedelta = DataFrame(data_timedelta) result_Timedelta = DataFrame(data_Timedelta) tm.assert_frame_equal(result_timedelta64, expected) tm.assert_frame_equal(result_timedelta, expected) tm.assert_frame_equal(result_Timedelta, expected) def test_constructor_period_dict(self): # PeriodIndex a = pd.PeriodIndex(["2012-01", "NaT", "2012-04"], freq="M") b = pd.PeriodIndex(["2012-02-01", "2012-03-01", "NaT"], freq="D") df = DataFrame({"a": a, "b": b}) assert df["a"].dtype == a.dtype assert df["b"].dtype == b.dtype # list of periods df = DataFrame({"a": a.astype(object).tolist(), "b": b.astype(object).tolist()}) assert df["a"].dtype == a.dtype assert df["b"].dtype == b.dtype def test_constructor_dict_extension_scalar(self, ea_scalar_and_dtype): ea_scalar, ea_dtype = ea_scalar_and_dtype df = DataFrame({"a": ea_scalar}, index=[0]) assert df["a"].dtype == ea_dtype expected = DataFrame(index=[0], columns=["a"], data=ea_scalar) tm.assert_frame_equal(df, expected) @pytest.mark.parametrize( "data,dtype", [ (Period("2020-01"), PeriodDtype("M")), (Interval(left=0, right=5), IntervalDtype("int64", "right")), ( Timestamp("2011-01-01", tz="US/Eastern"), DatetimeTZDtype(tz="US/Eastern"), ), ], ) def test_constructor_extension_scalar_data(self, data, dtype): # GH 34832 df = DataFrame(index=[0, 1], columns=["a", "b"], data=data) assert df["a"].dtype == dtype assert df["b"].dtype == dtype arr = pd.array([data] * 2, dtype=dtype) expected = DataFrame({"a": arr, "b": arr}) tm.assert_frame_equal(df, expected) def test_nested_dict_frame_constructor(self): rng = pd.period_range("1/1/2000", periods=5) df = DataFrame(np.random.randn(10, 5), columns=rng) data = {} for col in df.columns: for row in df.index: data.setdefault(col, {})[row] = df._get_value(row, col) result = DataFrame(data, columns=rng) tm.assert_frame_equal(result, df) data = {} for col in df.columns: for row in df.index: data.setdefault(row, {})[col] = df._get_value(row, col) result = DataFrame(data, index=rng).T tm.assert_frame_equal(result, df) def _check_basic_constructor(self, empty): # mat: 2d matrix with shape (3, 2) to input. empty - makes sized # objects mat = empty((2, 3), dtype=float) # 2-D input frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) assert len(frame.index) == 2 assert len(frame.columns) == 3 # 1-D input frame = DataFrame(empty((3,)), columns=["A"], index=[1, 2, 3]) assert len(frame.index) == 3 assert len(frame.columns) == 1 warn = None if empty is np.ones else FutureWarning with tm.assert_produces_warning(warn): frame = DataFrame( mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.int64 ) if empty is np.ones: # passing dtype casts assert frame.values.dtype == np.int64 else: # i.e. ma.masked_all # Since we have NaNs, refuse to cast to int dtype, which would take NaN # to meaningless integers. This matches Series behavior. GH#26919 assert frame.isna().all().all() assert frame.values.dtype == np.float64 assert isna(frame.values).all() # wrong size axis labels msg = r"Shape of passed values is \(2, 3\), indices imply \(1, 3\)" with pytest.raises(ValueError, match=msg): DataFrame(mat, columns=["A", "B", "C"], index=[1]) msg = r"Shape of passed values is \(2, 3\), indices imply \(2, 2\)" with pytest.raises(ValueError, match=msg): DataFrame(mat, columns=["A", "B"], index=[1, 2]) # higher dim raise exception with pytest.raises(ValueError, match="Must pass 2-d input"): DataFrame(empty((3, 3, 3)), columns=["A", "B", "C"], index=[1]) # automatic labeling frame = DataFrame(mat) tm.assert_index_equal(frame.index, Index(range(2)), exact=True) tm.assert_index_equal(frame.columns, Index(range(3)), exact=True) frame = DataFrame(mat, index=[1, 2]) tm.assert_index_equal(frame.columns, Index(range(3)), exact=True) frame = DataFrame(mat, columns=["A", "B", "C"]) tm.assert_index_equal(frame.index, Index(range(2)), exact=True) # 0-length axis frame = DataFrame(empty((0, 3))) assert len(frame.index) == 0 frame = DataFrame(empty((3, 0))) assert len(frame.columns) == 0 def test_constructor_ndarray(self): self._check_basic_constructor(np.ones) frame = DataFrame(["foo", "bar"], index=[0, 1], columns=["A"]) assert len(frame) == 2 def test_constructor_maskedarray(self): self._check_basic_constructor(ma.masked_all) # Check non-masked values mat = ma.masked_all((2, 3), dtype=float) mat[0, 0] = 1.0 mat[1, 2] = 2.0 frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) assert 1.0 == frame["A"][1] assert 2.0 == frame["C"][2] # what is this even checking?? mat = ma.masked_all((2, 3), dtype=float) frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) assert np.all(~np.asarray(frame == frame)) def test_constructor_maskedarray_nonfloat(self): # masked int promoted to float mat = ma.masked_all((2, 3), dtype=int) # 2-D input frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) assert len(frame.index) == 2 assert len(frame.columns) == 3 assert np.all(~np.asarray(frame == frame)) # cast type frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.float64) assert frame.values.dtype == np.float64 # Check non-masked values mat2 = ma.copy(mat) mat2[0, 0] = 1 mat2[1, 2] = 2 frame = DataFrame(mat2, columns=["A", "B", "C"], index=[1, 2]) assert 1 == frame["A"][1] assert 2 == frame["C"][2] # masked np.datetime64 stays (use NaT as null) mat = ma.masked_all((2, 3), dtype="M8[ns]") # 2-D input frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) assert len(frame.index) == 2 assert len(frame.columns) == 3 assert isna(frame).values.all() # cast type msg = r"datetime64\[ns\] values and dtype=int64" with tm.assert_produces_warning(FutureWarning, match=msg): with warnings.catch_warnings(): warnings.filterwarnings( "ignore", category=DeprecationWarning, message="elementwise comparison failed", ) frame = DataFrame( mat, columns=["A", "B", "C"], index=[1, 2], dtype=np.int64 ) assert frame.values.dtype == np.int64 # Check non-masked values mat2 = ma.copy(mat) mat2[0, 0] = 1 mat2[1, 2] = 2 frame = DataFrame(mat2, columns=["A", "B", "C"], index=[1, 2]) assert 1 == frame["A"].view("i8")[1] assert 2 == frame["C"].view("i8")[2] # masked bool promoted to object mat = ma.masked_all((2, 3), dtype=bool) # 2-D input frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2]) assert len(frame.index) == 2 assert len(frame.columns) == 3 assert np.all(~np.asarray(frame == frame)) # cast type frame = DataFrame(mat, columns=["A", "B", "C"], index=[1, 2], dtype=object) assert frame.values.dtype == object # Check non-masked values mat2 = ma.copy(mat) mat2[0, 0] = True mat2[1, 2] = False frame = DataFrame(mat2, columns=["A", "B", "C"], index=[1, 2]) assert frame["A"][1] is True assert frame["C"][2] is False def test_constructor_maskedarray_hardened(self): # Check numpy masked arrays with hard masks -- from GH24574 mat_hard = ma.masked_all((2, 2), dtype=float).harden_mask() result = DataFrame(mat_hard, columns=["A", "B"], index=[1, 2]) expected = DataFrame( {"A": [np.nan, np.nan], "B": [np.nan, np.nan]}, columns=["A", "B"], index=[1, 2], dtype=float, ) tm.assert_frame_equal(result, expected) # Check case where mask is hard but no data are masked mat_hard = ma.ones((2, 2), dtype=float).harden_mask() result = DataFrame(mat_hard, columns=["A", "B"], index=[1, 2]) expected = DataFrame( {"A": [1.0, 1.0], "B": [1.0, 1.0]}, columns=["A", "B"], index=[1, 2], dtype=float, ) tm.assert_frame_equal(result, expected) def test_constructor_maskedrecarray_dtype(self): # Ensure constructor honors dtype data = np.ma.array( np.ma.zeros(5, dtype=[("date", " None: self._lst = lst def __getitem__(self, n): return self._lst.__getitem__(n) def __len__(self): return self._lst.__len__() lst_containers = [DummyContainer([1, "a"]), DummyContainer([2, "b"])] columns = ["num", "str"] result = DataFrame(lst_containers, columns=columns) expected = DataFrame([[1, "a"], [2, "b"]], columns=columns) tm.assert_frame_equal(result, expected, check_dtype=False) def test_constructor_stdlib_array(self): # GH 4297 # support Array import array result = DataFrame({"A": array.array("i", range(10))}) expected = DataFrame({"A": list(range(10))}) tm.assert_frame_equal(result, expected, check_dtype=False) expected = DataFrame([list(range(10)), list(range(10))]) result = DataFrame([array.array("i", range(10)), array.array("i", range(10))]) tm.assert_frame_equal(result, expected, check_dtype=False) def test_constructor_range(self): # GH26342 result = DataFrame(range(10)) expected = DataFrame(list(range(10))) tm.assert_frame_equal(result, expected) def test_constructor_list_of_ranges(self): result = DataFrame([range(10), range(10)]) expected = DataFrame([list(range(10)), list(range(10))]) tm.assert_frame_equal(result, expected) def test_constructor_iterable(self): # GH 21987 class Iter: def __iter__(self): for i in range(10): yield [1, 2, 3] expected = DataFrame([[1, 2, 3]] * 10) result = DataFrame(Iter()) tm.assert_frame_equal(result, expected) def test_constructor_iterator(self): result = DataFrame(iter(range(10))) expected = DataFrame(list(range(10))) tm.assert_frame_equal(result, expected) def test_constructor_list_of_iterators(self): result = DataFrame([iter(range(10)), iter(range(10))]) expected = DataFrame([list(range(10)), list(range(10))]) tm.assert_frame_equal(result, expected) def test_constructor_generator(self): # related #2305 gen1 = (i for i in range(10)) gen2 = (i for i in range(10)) expected = DataFrame([list(range(10)), list(range(10))]) result = DataFrame([gen1, gen2]) tm.assert_frame_equal(result, expected) gen = ([i, "a"] for i in range(10)) result = DataFrame(gen) expected = DataFrame({0: range(10), 1: "a"}) tm.assert_frame_equal(result, expected, check_dtype=False) def test_constructor_list_of_dicts(self): result = DataFrame([{}]) expected = DataFrame(index=[0]) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("dict_type", [dict, OrderedDict]) def test_constructor_ordered_dict_preserve_order(self, dict_type): # see gh-13304 expected = DataFrame([[2, 1]], columns=["b", "a"]) data = dict_type() data["b"] = [2] data["a"] = [1] result = DataFrame(data) tm.assert_frame_equal(result, expected) data = dict_type() data["b"] = 2 data["a"] = 1 result = DataFrame([data]) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("dict_type", [dict, OrderedDict]) def test_constructor_ordered_dict_conflicting_orders(self, dict_type): # the first dict element sets the ordering for the DataFrame, # even if there are conflicting orders from subsequent ones row_one = dict_type() row_one["b"] = 2 row_one["a"] = 1 row_two = dict_type() row_two["a"] = 1 row_two["b"] = 2 row_three = {"b": 2, "a": 1} expected = DataFrame([[2, 1], [2, 1]], columns=["b", "a"]) result = DataFrame([row_one, row_two]) tm.assert_frame_equal(result, expected) expected = DataFrame([[2, 1], [2, 1], [2, 1]], columns=["b", "a"]) result = DataFrame([row_one, row_two, row_three]) tm.assert_frame_equal(result, expected) def test_constructor_list_of_series_aligned_index(self): series = [Series(i, index=["b", "a", "c"], name=str(i)) for i in range(3)] result = DataFrame(series) expected = DataFrame( {"b": [0, 1, 2], "a": [0, 1, 2], "c": [0, 1, 2]}, columns=["b", "a", "c"], index=["0", "1", "2"], ) tm.assert_frame_equal(result, expected) def test_constructor_list_of_derived_dicts(self): class CustomDict(dict): pass d = {"a": 1.5, "b": 3} data_custom = [CustomDict(d)] data = [d] result_custom = DataFrame(data_custom) result = DataFrame(data) tm.assert_frame_equal(result, result_custom) def test_constructor_ragged(self): data = {"A": np.random.randn(10), "B": np.random.randn(8)} with pytest.raises(ValueError, match="All arrays must be of the same length"): DataFrame(data) def test_constructor_scalar(self): idx = Index(range(3)) df = DataFrame({"a": 0}, index=idx) expected = DataFrame({"a": [0, 0, 0]}, index=idx) tm.assert_frame_equal(df, expected, check_dtype=False) def test_constructor_Series_copy_bug(self, float_frame): df = DataFrame(float_frame["A"], index=float_frame.index, columns=["A"]) df.copy() def test_constructor_mixed_dict_and_Series(self): data = {} data["A"] = {"foo": 1, "bar": 2, "baz": 3} data["B"] = Series([4, 3, 2, 1], index=["bar", "qux", "baz", "foo"]) result = DataFrame(data) assert result.index.is_monotonic_increasing # ordering ambiguous, raise exception with pytest.raises(ValueError, match="ambiguous ordering"): DataFrame({"A": ["a", "b"], "B": {"a": "a", "b": "b"}}) # this is OK though result = DataFrame({"A": ["a", "b"], "B": Series(["a", "b"], index=["a", "b"])}) expected = DataFrame({"A": ["a", "b"], "B": ["a", "b"]}, index=["a", "b"]) tm.assert_frame_equal(result, expected) def test_constructor_mixed_type_rows(self): # Issue 25075 data = [[1, 2], (3, 4)] result = DataFrame(data) expected = DataFrame([[1, 2], [3, 4]]) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "tuples,lists", [ ((), []), ((()), []), (((), ()), [(), ()]), (((), ()), [[], []]), (([], []), [[], []]), (([1], [2]), [[1], [2]]), # GH 32776 (([1, 2, 3], [4, 5, 6]), [[1, 2, 3], [4, 5, 6]]), ], ) def test_constructor_tuple(self, tuples, lists): # GH 25691 result = DataFrame(tuples) expected = DataFrame(lists) tm.assert_frame_equal(result, expected) def test_constructor_list_of_tuples(self): result = DataFrame({"A": [(1, 2), (3, 4)]}) expected = DataFrame({"A": Series([(1, 2), (3, 4)])}) tm.assert_frame_equal(result, expected) def test_constructor_list_of_namedtuples(self): # GH11181 from collections import namedtuple named_tuple = namedtuple("Pandas", list("ab")) tuples = [named_tuple(1, 3), named_tuple(2, 4)] expected = DataFrame({"a": [1, 2], "b": [3, 4]}) result = DataFrame(tuples) tm.assert_frame_equal(result, expected) # with columns expected = DataFrame({"y": [1, 2], "z": [3, 4]}) result = DataFrame(tuples, columns=["y", "z"]) tm.assert_frame_equal(result, expected) def test_constructor_list_of_dataclasses(self): # GH21910 from dataclasses import make_dataclass Point = make_dataclass("Point", [("x", int), ("y", int)]) data = [Point(0, 3), Point(1, 3)] expected = DataFrame({"x": [0, 1], "y": [3, 3]}) result = DataFrame(data) tm.assert_frame_equal(result, expected) def test_constructor_list_of_dataclasses_with_varying_types(self): # GH21910 from dataclasses import make_dataclass # varying types Point = make_dataclass("Point", [("x", int), ("y", int)]) HLine = make_dataclass("HLine", [("x0", int), ("x1", int), ("y", int)]) data = [Point(0, 3), HLine(1, 3, 3)] expected = DataFrame( {"x": [0, np.nan], "y": [3, 3], "x0": [np.nan, 1], "x1": [np.nan, 3]} ) result = DataFrame(data) tm.assert_frame_equal(result, expected) def test_constructor_list_of_dataclasses_error_thrown(self): # GH21910 from dataclasses import make_dataclass Point = make_dataclass("Point", [("x", int), ("y", int)]) # expect TypeError msg = "asdict() should be called on dataclass instances" with pytest.raises(TypeError, match=re.escape(msg)): DataFrame([Point(0, 0), {"x": 1, "y": 0}]) def test_constructor_list_of_dict_order(self): # GH10056 data = [ {"First": 1, "Second": 4, "Third": 7, "Fourth": 10}, {"Second": 5, "First": 2, "Fourth": 11, "Third": 8}, {"Second": 6, "First": 3, "Fourth": 12, "Third": 9, "YYY": 14, "XXX": 13}, ] expected = DataFrame( { "First": [1, 2, 3], "Second": [4, 5, 6], "Third": [7, 8, 9], "Fourth": [10, 11, 12], "YYY": [None, None, 14], "XXX": [None, None, 13], } ) result = DataFrame(data) tm.assert_frame_equal(result, expected) def test_constructor_Series_named(self): a = Series([1, 2, 3], index=["a", "b", "c"], name="x") df = DataFrame(a) assert df.columns[0] == "x" tm.assert_index_equal(df.index, a.index) # ndarray like arr = np.random.randn(10) s = Series(arr, name="x") df = DataFrame(s) expected = DataFrame({"x": s}) tm.assert_frame_equal(df, expected) s = Series(arr, index=range(3, 13)) df = DataFrame(s) expected = DataFrame({0: s}) tm.assert_frame_equal(df, expected) msg = r"Shape of passed values is \(10, 1\), indices imply \(10, 2\)" with pytest.raises(ValueError, match=msg): DataFrame(s, columns=[1, 2]) # #2234 a = Series([], name="x", dtype=object) df = DataFrame(a) assert df.columns[0] == "x" # series with name and w/o s1 = Series(arr, name="x") df = DataFrame([s1, arr]).T expected = DataFrame({"x": s1, "Unnamed 0": arr}, columns=["x", "Unnamed 0"]) tm.assert_frame_equal(df, expected) # this is a bit non-intuitive here; the series collapse down to arrays df = DataFrame([arr, s1]).T expected = DataFrame({1: s1, 0: arr}, columns=[0, 1]) tm.assert_frame_equal(df, expected) def test_constructor_Series_named_and_columns(self): # GH 9232 validation s0 = Series(range(5), name=0) s1 = Series(range(5), name=1) # matching name and column gives standard frame tm.assert_frame_equal(DataFrame(s0, columns=[0]), s0.to_frame()) tm.assert_frame_equal(DataFrame(s1, columns=[1]), s1.to_frame()) # non-matching produces empty frame assert DataFrame(s0, columns=[1]).empty assert DataFrame(s1, columns=[0]).empty def test_constructor_Series_differently_indexed(self): # name s1 = Series([1, 2, 3], index=["a", "b", "c"], name="x") # no name s2 = Series([1, 2, 3], index=["a", "b", "c"]) other_index = Index(["a", "b"]) df1 = DataFrame(s1, index=other_index) exp1 = DataFrame(s1.reindex(other_index)) assert df1.columns[0] == "x" tm.assert_frame_equal(df1, exp1) df2 = DataFrame(s2, index=other_index) exp2 = DataFrame(s2.reindex(other_index)) assert df2.columns[0] == 0 tm.assert_index_equal(df2.index, other_index) tm.assert_frame_equal(df2, exp2) @pytest.mark.parametrize( "name_in1,name_in2,name_in3,name_out", [ ("idx", "idx", "idx", "idx"), ("idx", "idx", None, None), ("idx", None, None, None), ("idx1", "idx2", None, None), ("idx1", "idx1", "idx2", None), ("idx1", "idx2", "idx3", None), (None, None, None, None), ], ) def test_constructor_index_names(self, name_in1, name_in2, name_in3, name_out): # GH13475 indices = [ Index(["a", "b", "c"], name=name_in1), Index(["b", "c", "d"], name=name_in2), Index(["c", "d", "e"], name=name_in3), ] series = { c: Series([0, 1, 2], index=i) for i, c in zip(indices, ["x", "y", "z"]) } result = DataFrame(series) exp_ind = Index(["a", "b", "c", "d", "e"], name=name_out) expected = DataFrame( { "x": [0, 1, 2, np.nan, np.nan], "y": [np.nan, 0, 1, 2, np.nan], "z": [np.nan, np.nan, 0, 1, 2], }, index=exp_ind, ) tm.assert_frame_equal(result, expected) def test_constructor_manager_resize(self, float_frame): index = list(float_frame.index[:5]) columns = list(float_frame.columns[:3]) result = DataFrame(float_frame._mgr, index=index, columns=columns) tm.assert_index_equal(result.index, Index(index)) tm.assert_index_equal(result.columns, Index(columns)) def test_constructor_mix_series_nonseries(self, float_frame): df = DataFrame( {"A": float_frame["A"], "B": list(float_frame["B"])}, columns=["A", "B"] ) tm.assert_frame_equal(df, float_frame.loc[:, ["A", "B"]]) msg = "does not match index length" with pytest.raises(ValueError, match=msg): DataFrame({"A": float_frame["A"], "B": list(float_frame["B"])[:-2]}) def test_constructor_miscast_na_int_dtype(self): msg = "float-dtype values containing NaN and an integer dtype" with tm.assert_produces_warning(FutureWarning, match=msg): df = DataFrame([[np.nan, 1], [1, 0]], dtype=np.int64) expected = DataFrame([[np.nan, 1], [1, 0]]) tm.assert_frame_equal(df, expected) def test_constructor_column_duplicates(self): # it works! #2079 df = DataFrame([[8, 5]], columns=["a", "a"]) edf = DataFrame([[8, 5]]) edf.columns = ["a", "a"] tm.assert_frame_equal(df, edf) idf = DataFrame.from_records([(8, 5)], columns=["a", "a"]) tm.assert_frame_equal(idf, edf) def test_constructor_empty_with_string_dtype(self): # GH 9428 expected = DataFrame(index=[0, 1], columns=[0, 1], dtype=object) df = DataFrame(index=[0, 1], columns=[0, 1], dtype=str) tm.assert_frame_equal(df, expected) df = DataFrame(index=[0, 1], columns=[0, 1], dtype=np.str_) tm.assert_frame_equal(df, expected) df = DataFrame(index=[0, 1], columns=[0, 1], dtype=np.unicode_) tm.assert_frame_equal(df, expected) df = DataFrame(index=[0, 1], columns=[0, 1], dtype="U5") tm.assert_frame_equal(df, expected) def test_constructor_empty_with_string_extension(self, nullable_string_dtype): # GH 34915 expected = DataFrame(index=[], columns=["c1"], dtype=nullable_string_dtype) df = DataFrame(columns=["c1"], dtype=nullable_string_dtype) tm.assert_frame_equal(df, expected) def test_constructor_single_value(self): # expecting single value upcasting here df = DataFrame(0.0, index=[1, 2, 3], columns=["a", "b", "c"]) tm.assert_frame_equal( df, DataFrame(np.zeros(df.shape).astype("float64"), df.index, df.columns) ) df = DataFrame(0, index=[1, 2, 3], columns=["a", "b", "c"]) tm.assert_frame_equal( df, DataFrame(np.zeros(df.shape).astype("int64"), df.index, df.columns) ) df = DataFrame("a", index=[1, 2], columns=["a", "c"]) tm.assert_frame_equal( df, DataFrame( np.array([["a", "a"], ["a", "a"]], dtype=object), index=[1, 2], columns=["a", "c"], ), ) msg = "DataFrame constructor not properly called!" with pytest.raises(ValueError, match=msg): DataFrame("a", [1, 2]) with pytest.raises(ValueError, match=msg): DataFrame("a", columns=["a", "c"]) msg = "incompatible data and dtype" with pytest.raises(TypeError, match=msg): DataFrame("a", [1, 2], ["a", "c"], float) def test_constructor_with_datetimes(self): intname = np.dtype(np.int_).name floatname = np.dtype(np.float_).name datetime64name = np.dtype("M8[ns]").name objectname = np.dtype(np.object_).name # single item df = DataFrame( { "A": 1, "B": "foo", "C": "bar", "D": Timestamp("20010101"), "E": datetime(2001, 1, 2, 0, 0), }, index=np.arange(10), ) result = df.dtypes expected = Series( [np.dtype("int64")] + [np.dtype(objectname)] * 2 + [np.dtype(datetime64name)] * 2, index=list("ABCDE"), ) tm.assert_series_equal(result, expected) # check with ndarray construction ndim==0 (e.g. we are passing a ndim 0 # ndarray with a dtype specified) df = DataFrame( { "a": 1.0, "b": 2, "c": "foo", floatname: np.array(1.0, dtype=floatname), intname: np.array(1, dtype=intname), }, index=np.arange(10), ) result = df.dtypes expected = Series( [np.dtype("float64")] + [np.dtype("int64")] + [np.dtype("object")] + [np.dtype("float64")] + [np.dtype(intname)], index=["a", "b", "c", floatname, intname], ) tm.assert_series_equal(result, expected) # check with ndarray construction ndim>0 df = DataFrame( { "a": 1.0, "b": 2, "c": "foo", floatname: np.array([1.0] * 10, dtype=floatname), intname: np.array([1] * 10, dtype=intname), }, index=np.arange(10), ) result = df.dtypes expected = Series( [np.dtype("float64")] + [np.dtype("int64")] + [np.dtype("object")] + [np.dtype("float64")] + [np.dtype(intname)], index=["a", "b", "c", floatname, intname], ) tm.assert_series_equal(result, expected) def test_constructor_with_datetimes1(self): # GH 2809 ind = date_range(start="2000-01-01", freq="D", periods=10) datetimes = [ts.to_pydatetime() for ts in ind] datetime_s = Series(datetimes) assert datetime_s.dtype == "M8[ns]" def test_constructor_with_datetimes2(self): # GH 2810 ind = date_range(start="2000-01-01", freq="D", periods=10) datetimes = [ts.to_pydatetime() for ts in ind] dates = [ts.date() for ts in ind] df = DataFrame(datetimes, columns=["datetimes"]) df["dates"] = dates result = df.dtypes expected = Series( [np.dtype("datetime64[ns]"), np.dtype("object")], index=["datetimes", "dates"], ) tm.assert_series_equal(result, expected) def test_constructor_with_datetimes3(self): # GH 7594 # don't coerce tz-aware tz = pytz.timezone("US/Eastern") dt = tz.localize(datetime(2012, 1, 1)) df = DataFrame({"End Date": dt}, index=[0]) assert df.iat[0, 0] == dt tm.assert_series_equal( df.dtypes, Series({"End Date": "datetime64[ns, US/Eastern]"}) ) df = DataFrame([{"End Date": dt}]) assert df.iat[0, 0] == dt tm.assert_series_equal( df.dtypes, Series({"End Date": "datetime64[ns, US/Eastern]"}) ) def test_constructor_with_datetimes4(self): # tz-aware (UTC and other tz's) # GH 8411 dr = date_range("20130101", periods=3) df = DataFrame({"value": dr}) assert df.iat[0, 0].tz is None dr = date_range("20130101", periods=3, tz="UTC") df = DataFrame({"value": dr}) assert str(df.iat[0, 0].tz) == "UTC" dr = date_range("20130101", periods=3, tz="US/Eastern") df = DataFrame({"value": dr}) assert str(df.iat[0, 0].tz) == "US/Eastern" def test_constructor_with_datetimes5(self): # GH 7822 # preserver an index with a tz on dict construction i = date_range("1/1/2011", periods=5, freq="10s", tz="US/Eastern") expected = DataFrame({"a": i.to_series().reset_index(drop=True)}) df = DataFrame() df["a"] = i tm.assert_frame_equal(df, expected) df = DataFrame({"a": i}) tm.assert_frame_equal(df, expected) def test_constructor_with_datetimes6(self): # multiples i = date_range("1/1/2011", periods=5, freq="10s", tz="US/Eastern") i_no_tz = date_range("1/1/2011", periods=5, freq="10s") df = DataFrame({"a": i, "b": i_no_tz}) expected = DataFrame({"a": i.to_series().reset_index(drop=True), "b": i_no_tz}) tm.assert_frame_equal(df, expected) @pytest.mark.parametrize( "arr", [ np.array([None, None, None, None, datetime.now(), None]), np.array([None, None, datetime.now(), None]), [[np.datetime64("NaT")], [None]], [[np.datetime64("NaT")], [pd.NaT]], [[None], [np.datetime64("NaT")]], [[None], [pd.NaT]], [[pd.NaT], [np.datetime64("NaT")]], [[pd.NaT], [None]], ], ) def test_constructor_datetimes_with_nulls(self, arr): # gh-15869, GH#11220 result = DataFrame(arr).dtypes expected = Series([np.dtype("datetime64[ns]")]) tm.assert_series_equal(result, expected) @pytest.mark.parametrize("order", ["K", "A", "C", "F"]) @pytest.mark.parametrize( "dtype", [ "datetime64[M]", "datetime64[D]", "datetime64[h]", "datetime64[m]", "datetime64[s]", "datetime64[ms]", "datetime64[us]", "datetime64[ns]", ], ) def test_constructor_datetimes_non_ns(self, order, dtype): na = np.array( [ ["2015-01-01", "2015-01-02", "2015-01-03"], ["2017-01-01", "2017-01-02", "2017-02-03"], ], dtype=dtype, order=order, ) df = DataFrame(na) expected = DataFrame( [ ["2015-01-01", "2015-01-02", "2015-01-03"], ["2017-01-01", "2017-01-02", "2017-02-03"], ] ) expected = expected.astype(dtype=dtype) tm.assert_frame_equal(df, expected) @pytest.mark.parametrize("order", ["K", "A", "C", "F"]) @pytest.mark.parametrize( "dtype", [ "timedelta64[D]", "timedelta64[h]", "timedelta64[m]", "timedelta64[s]", "timedelta64[ms]", "timedelta64[us]", "timedelta64[ns]", ], ) def test_constructor_timedelta_non_ns(self, order, dtype): na = np.array( [ [np.timedelta64(1, "D"), np.timedelta64(2, "D")], [np.timedelta64(4, "D"), np.timedelta64(5, "D")], ], dtype=dtype, order=order, ) df = DataFrame(na).astype("timedelta64[ns]") expected = DataFrame( [ [Timedelta(1, "D"), Timedelta(2, "D")], [Timedelta(4, "D"), Timedelta(5, "D")], ], ) tm.assert_frame_equal(df, expected) def test_constructor_for_list_with_dtypes(self): # test list of lists/ndarrays df = DataFrame([np.arange(5) for x in range(5)]) result = df.dtypes expected = Series([np.dtype("int")] * 5) tm.assert_series_equal(result, expected) df = DataFrame([np.array(np.arange(5), dtype="int32") for x in range(5)]) result = df.dtypes expected = Series([np.dtype("int32")] * 5) tm.assert_series_equal(result, expected) # overflow issue? (we always expected int64 upcasting here) df = DataFrame({"a": [2**31, 2**31 + 1]}) assert df.dtypes.iloc[0] == np.dtype("int64") # GH #2751 (construction with no index specified), make sure we cast to # platform values df = DataFrame([1, 2]) assert df.dtypes.iloc[0] == np.dtype("int64") df = DataFrame([1.0, 2.0]) assert df.dtypes.iloc[0] == np.dtype("float64") df = DataFrame({"a": [1, 2]}) assert df.dtypes.iloc[0] == np.dtype("int64") df = DataFrame({"a": [1.0, 2.0]}) assert df.dtypes.iloc[0] == np.dtype("float64") df = DataFrame({"a": 1}, index=range(3)) assert df.dtypes.iloc[0] == np.dtype("int64") df = DataFrame({"a": 1.0}, index=range(3)) assert df.dtypes.iloc[0] == np.dtype("float64") # with object list df = DataFrame( { "a": [1, 2, 4, 7], "b": [1.2, 2.3, 5.1, 6.3], "c": list("abcd"), "d": [datetime(2000, 1, 1) for i in range(4)], "e": [1.0, 2, 4.0, 7], } ) result = df.dtypes expected = Series( [ np.dtype("int64"), np.dtype("float64"), np.dtype("object"), np.dtype("datetime64[ns]"), np.dtype("float64"), ], index=list("abcde"), ) tm.assert_series_equal(result, expected) def test_constructor_frame_copy(self, float_frame): cop = DataFrame(float_frame, copy=True) cop["A"] = 5 assert (cop["A"] == 5).all() assert not (float_frame["A"] == 5).all() def test_constructor_ndarray_copy(self, float_frame, using_array_manager): if not using_array_manager: df = DataFrame(float_frame.values) float_frame.values[5] = 5 assert (df.values[5] == 5).all() df = DataFrame(float_frame.values, copy=True) float_frame.values[6] = 6 assert not (df.values[6] == 6).all() else: arr = float_frame.values.copy() # default: copy to ensure contiguous arrays df = DataFrame(arr) assert df._mgr.arrays[0].flags.c_contiguous arr[0, 0] = 100 assert df.iloc[0, 0] != 100 # manually specify copy=False df = DataFrame(arr, copy=False) assert not df._mgr.arrays[0].flags.c_contiguous arr[0, 0] = 1000 assert df.iloc[0, 0] == 1000 def test_constructor_series_copy(self, float_frame): series = float_frame._series df = DataFrame({"A": series["A"]}, copy=True) df["A"][:] = 5 assert not (series["A"] == 5).all() @pytest.mark.parametrize( "df", [ DataFrame([[1, 2, 3], [4, 5, 6]], index=[1, np.nan]), DataFrame([[1, 2, 3], [4, 5, 6]], columns=[1.1, 2.2, np.nan]), DataFrame([[0, 1, 2, 3], [4, 5, 6, 7]], columns=[np.nan, 1.1, 2.2, np.nan]), DataFrame( [[0.0, 1, 2, 3.0], [4, 5, 6, 7]], columns=[np.nan, 1.1, 2.2, np.nan] ), DataFrame([[0.0, 1, 2, 3.0], [4, 5, 6, 7]], columns=[np.nan, 1, 2, 2]), ], ) def test_constructor_with_nas(self, df): # GH 5016 # na's in indices # GH 21428 (non-unique columns) for i in range(len(df.columns)): df.iloc[:, i] indexer = np.arange(len(df.columns))[isna(df.columns)] # No NaN found -> error if len(indexer) == 0: with pytest.raises(KeyError, match="^nan$"): df.loc[:, np.nan] # single nan should result in Series elif len(indexer) == 1: tm.assert_series_equal(df.iloc[:, indexer[0]], df.loc[:, np.nan]) # multiple nans should result in DataFrame else: tm.assert_frame_equal(df.iloc[:, indexer], df.loc[:, np.nan]) def test_constructor_lists_to_object_dtype(self): # from #1074 d = DataFrame({"a": [np.nan, False]}) assert d["a"].dtype == np.object_ assert not d["a"][1] def test_constructor_ndarray_categorical_dtype(self): cat = Categorical(["A", "B", "C"]) arr = np.array(cat).reshape(-1, 1) arr = np.broadcast_to(arr, (3, 4)) result = DataFrame(arr, dtype=cat.dtype) expected = DataFrame({0: cat, 1: cat, 2: cat, 3: cat}) tm.assert_frame_equal(result, expected) def test_constructor_categorical(self): # GH8626 # dict creation df = DataFrame({"A": list("abc")}, dtype="category") expected = Series(list("abc"), dtype="category", name="A") tm.assert_series_equal(df["A"], expected) # to_frame s = Series(list("abc"), dtype="category") result = s.to_frame() expected = Series(list("abc"), dtype="category", name=0) tm.assert_series_equal(result[0], expected) result = s.to_frame(name="foo") expected = Series(list("abc"), dtype="category", name="foo") tm.assert_series_equal(result["foo"], expected) # list-like creation df = DataFrame(list("abc"), dtype="category") expected = Series(list("abc"), dtype="category", name=0) tm.assert_series_equal(df[0], expected) def test_construct_from_1item_list_of_categorical(self): # ndim != 1 msg = "will be changed to match the behavior" with tm.assert_produces_warning(FutureWarning, match=msg): df = DataFrame([Categorical(list("abc"))]) expected = DataFrame({0: Series(list("abc"), dtype="category")}) tm.assert_frame_equal(df, expected) def test_construct_from_list_of_categoricals(self): msg = "will be changed to match the behavior" with tm.assert_produces_warning(FutureWarning, match=msg): df = DataFrame([Categorical(list("abc")), Categorical(list("abd"))]) expected = DataFrame( { 0: Series(list("abc"), dtype="category"), 1: Series(list("abd"), dtype="category"), }, columns=[0, 1], ) tm.assert_frame_equal(df, expected) def test_from_nested_listlike_mixed_types(self): # mixed msg = "will be changed to match the behavior" with tm.assert_produces_warning(FutureWarning, match=msg): df = DataFrame([Categorical(list("abc")), list("def")]) expected = DataFrame( {0: Series(list("abc"), dtype="category"), 1: list("def")}, columns=[0, 1] ) tm.assert_frame_equal(df, expected) def test_construct_from_listlikes_mismatched_lengths(self): # invalid (shape) msg = "|".join( [ r"Length of values \(6\) does not match length of index \(3\)", ] ) msg2 = "will be changed to match the behavior" with pytest.raises(ValueError, match=msg): with tm.assert_produces_warning(FutureWarning, match=msg2): DataFrame([Categorical(list("abc")), Categorical(list("abdefg"))]) def test_constructor_categorical_series(self): items = [1, 2, 3, 1] exp = Series(items).astype("category") res = Series(items, dtype="category") tm.assert_series_equal(res, exp) items = ["a", "b", "c", "a"] exp = Series(items).astype("category") res = Series(items, dtype="category") tm.assert_series_equal(res, exp) # insert into frame with different index # GH 8076 index = date_range("20000101", periods=3) expected = Series( Categorical(values=[np.nan, np.nan, np.nan], categories=["a", "b", "c"]) ) expected.index = index expected = DataFrame({"x": expected}) df = DataFrame({"x": Series(["a", "b", "c"], dtype="category")}, index=index) tm.assert_frame_equal(df, expected) @pytest.mark.parametrize( "dtype", tm.ALL_INT_NUMPY_DTYPES + tm.ALL_INT_EA_DTYPES + tm.FLOAT_NUMPY_DTYPES + tm.COMPLEX_DTYPES + tm.DATETIME64_DTYPES + tm.TIMEDELTA64_DTYPES + tm.BOOL_DTYPES, ) def test_check_dtype_empty_numeric_column(self, dtype): # GH24386: Ensure dtypes are set correctly for an empty DataFrame. # Empty DataFrame is generated via dictionary data with non-overlapping columns. data = DataFrame({"a": [1, 2]}, columns=["b"], dtype=dtype) assert data.b.dtype == dtype @pytest.mark.parametrize( "dtype", tm.STRING_DTYPES + tm.BYTES_DTYPES + tm.OBJECT_DTYPES ) def test_check_dtype_empty_string_column(self, request, dtype, using_array_manager): # GH24386: Ensure dtypes are set correctly for an empty DataFrame. # Empty DataFrame is generated via dictionary data with non-overlapping columns. data = DataFrame({"a": [1, 2]}, columns=["b"], dtype=dtype) if using_array_manager and dtype in tm.BYTES_DTYPES: # TODO(ArrayManager) astype to bytes dtypes does not yet give object dtype td.mark_array_manager_not_yet_implemented(request) assert data.b.dtype.name == "object" def test_to_frame_with_falsey_names(self): # GH 16114 result = Series(name=0, dtype=object).to_frame().dtypes expected = Series({0: object}) tm.assert_series_equal(result, expected) result = DataFrame(Series(name=0, dtype=object)).dtypes tm.assert_series_equal(result, expected) @pytest.mark.arm_slow @pytest.mark.parametrize("dtype", [None, "uint8", "category"]) def test_constructor_range_dtype(self, dtype): expected = DataFrame({"A": [0, 1, 2, 3, 4]}, dtype=dtype or "int64") # GH 26342 result = DataFrame(range(5), columns=["A"], dtype=dtype) tm.assert_frame_equal(result, expected) # GH 16804 result = DataFrame({"A": range(5)}, dtype=dtype) tm.assert_frame_equal(result, expected) def test_frame_from_list_subclass(self): # GH21226 class List(list): pass expected = DataFrame([[1, 2, 3], [4, 5, 6]]) result = DataFrame(List([List([1, 2, 3]), List([4, 5, 6])])) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize( "extension_arr", [ Categorical(list("aabbc")), SparseArray([1, np.nan, np.nan, np.nan]), IntervalArray([Interval(0, 1), Interval(1, 5)]), PeriodArray(pd.period_range(start="1/1/2017", end="1/1/2018", freq="M")), ], ) def test_constructor_with_extension_array(self, extension_arr): # GH11363 expected = DataFrame(Series(extension_arr)) result = DataFrame(extension_arr) tm.assert_frame_equal(result, expected) def test_datetime_date_tuple_columns_from_dict(self): # GH 10863 v = date.today() tup = v, v result = DataFrame({tup: Series(range(3), index=range(3))}, columns=[tup]) expected = DataFrame([0, 1, 2], columns=Index(Series([tup]))) tm.assert_frame_equal(result, expected) def test_construct_with_two_categoricalindex_series(self): # GH 14600 s1 = Series([39, 6, 4], index=CategoricalIndex(["female", "male", "unknown"])) s2 = Series( [2, 152, 2, 242, 150], index=CategoricalIndex(["f", "female", "m", "male", "unknown"]), ) result = DataFrame([s1, s2]) expected = DataFrame( np.array([[39, 6, 4, np.nan, np.nan], [152.0, 242.0, 150.0, 2.0, 2.0]]), columns=["female", "male", "unknown", "f", "m"], ) tm.assert_frame_equal(result, expected) def test_constructor_series_nonexact_categoricalindex(self): # GH 42424 ser = Series(range(0, 100)) ser1 = cut(ser, 10).value_counts().head(5) ser2 = cut(ser, 10).value_counts().tail(5) result = DataFrame({"1": ser1, "2": ser2}) index = CategoricalIndex( [ Interval(-0.099, 9.9, closed="right"), Interval(9.9, 19.8, closed="right"), Interval(19.8, 29.7, closed="right"), Interval(29.7, 39.6, closed="right"), Interval(39.6, 49.5, closed="right"), Interval(49.5, 59.4, closed="right"), Interval(59.4, 69.3, closed="right"), Interval(69.3, 79.2, closed="right"), Interval(79.2, 89.1, closed="right"), Interval(89.1, 99, closed="right"), ], ordered=True, ) expected = DataFrame( {"1": [10] * 5 + [np.nan] * 5, "2": [np.nan] * 5 + [10] * 5}, index=index ) tm.assert_frame_equal(expected, result) def test_from_M8_structured(self): dates = [(datetime(2012, 9, 9, 0, 0), datetime(2012, 9, 8, 15, 10))] arr = np.array(dates, dtype=[("Date", "M8[us]"), ("Forecasting", "M8[us]")]) df = DataFrame(arr) assert df["Date"][0] == dates[0][0] assert df["Forecasting"][0] == dates[0][1] s = Series(arr["Date"]) assert isinstance(s[0], Timestamp) assert s[0] == dates[0][0] def test_from_datetime_subclass(self): # GH21142 Verify whether Datetime subclasses are also of dtype datetime class DatetimeSubclass(datetime): pass data = DataFrame({"datetime": [DatetimeSubclass(2020, 1, 1, 1, 1)]}) assert data.datetime.dtype == "datetime64[ns]" def test_with_mismatched_index_length_raises(self): # GH#33437 dti = date_range("2016-01-01", periods=3, tz="US/Pacific") msg = "Shape of passed values|Passed arrays should have the same length" with pytest.raises(ValueError, match=msg): DataFrame(dti, index=range(4)) def test_frame_ctor_datetime64_column(self): rng = date_range("1/1/2000 00:00:00", "1/1/2000 1:59:50", freq="10s") dates = np.asarray(rng) df = DataFrame({"A": np.random.randn(len(rng)), "B": dates}) assert np.issubdtype(df["B"].dtype, np.dtype("M8[ns]")) def test_dataframe_constructor_infer_multiindex(self): index_lists = [["a", "a", "b", "b"], ["x", "y", "x", "y"]] multi = DataFrame( np.random.randn(4, 4), index=[np.array(x) for x in index_lists], ) assert isinstance(multi.index, MultiIndex) assert not isinstance(multi.columns, MultiIndex) multi = DataFrame(np.random.randn(4, 4), columns=index_lists) assert isinstance(multi.columns, MultiIndex) @pytest.mark.parametrize( "input_vals", [ ([1, 2]), (["1", "2"]), (list(date_range("1/1/2011", periods=2, freq="H"))), (list(date_range("1/1/2011", periods=2, freq="H", tz="US/Eastern"))), ([Interval(left=0, right=5)]), ], ) def test_constructor_list_str(self, input_vals, string_dtype): # GH#16605 # Ensure that data elements are converted to strings when # dtype is str, 'str', or 'U' result = DataFrame({"A": input_vals}, dtype=string_dtype) expected = DataFrame({"A": input_vals}).astype({"A": string_dtype}) tm.assert_frame_equal(result, expected) def test_constructor_list_str_na(self, string_dtype): result = DataFrame({"A": [1.0, 2.0, None]}, dtype=string_dtype) expected = DataFrame({"A": ["1.0", "2.0", None]}, dtype=object) tm.assert_frame_equal(result, expected) @pytest.mark.parametrize("copy", [False, True]) def test_dict_nocopy( self, request, copy, any_numeric_ea_dtype, any_numpy_dtype, using_array_manager, using_copy_on_write, ): if ( using_array_manager and not copy and not (any_numpy_dtype in (tm.STRING_DTYPES + tm.BYTES_DTYPES)) ): # TODO(ArrayManager) properly honor copy keyword for dict input td.mark_array_manager_not_yet_implemented(request) a = np.array([1, 2], dtype=any_numpy_dtype) b = np.array([3, 4], dtype=any_numpy_dtype) if b.dtype.kind in ["S", "U"]: # These get cast, making the checks below more cumbersome return c = pd.array([1, 2], dtype=any_numeric_ea_dtype) c_orig = c.copy() df = DataFrame({"a": a, "b": b, "c": c}, copy=copy) def get_base(obj): if isinstance(obj, np.ndarray): return obj.base elif isinstance(obj.dtype, np.dtype): # i.e. DatetimeArray, TimedeltaArray return obj._ndarray.base else: raise TypeError def check_views(c_only: bool = False): # written to work for either BlockManager or ArrayManager # Check that the underlying data behind df["c"] is still `c` # after setting with iloc. Since we don't know which entry in # df._mgr.arrays corresponds to df["c"], we just check that exactly # one of these arrays is `c`. GH#38939 assert sum(x is c for x in df._mgr.arrays) == 1 if c_only: # If we ever stop consolidating in setitem_with_indexer, # this will become unnecessary. return assert ( sum( get_base(x) is a for x in df._mgr.arrays if isinstance(x.dtype, np.dtype) ) == 1 ) assert ( sum( get_base(x) is b for x in df._mgr.arrays if isinstance(x.dtype, np.dtype) ) == 1 ) if not copy: # constructor preserves views check_views() # TODO: most of the rest of this test belongs in indexing tests df.iloc[0, 0] = 0 df.iloc[0, 1] = 0 if not copy: check_views(True) # FIXME(GH#35417): until GH#35417, iloc.setitem into EA values does not preserve # view, so we have to check in the other direction with tm.assert_produces_warning( DeprecationWarning, match="will attempt to set" ): df.iloc[:, 2] = pd.array([45, 46], dtype=c.dtype) assert df.dtypes.iloc[2] == c.dtype if not copy and not using_copy_on_write: check_views(True) if copy: if a.dtype.kind == "M": assert a[0] == a.dtype.type(1, "ns") assert b[0] == b.dtype.type(3, "ns") else: assert a[0] == a.dtype.type(1) assert b[0] == b.dtype.type(3) # FIXME(GH#35417): enable after GH#35417 assert c[0] == c_orig[0] # i.e. df.iloc[0, 2]=45 did *not* update c elif not using_copy_on_write: # TODO: we can call check_views if we stop consolidating # in setitem_with_indexer assert c[0] == 45 # i.e. df.iloc[0, 2]=45 *did* update c # TODO: we can check b[0] == 0 if we stop consolidating in # setitem_with_indexer (except for datetimelike?) def test_from_series_with_name_with_columns(self): # GH 7893 result = DataFrame(Series(1, name="foo"), columns=["bar"]) expected = DataFrame(columns=["bar"]) tm.assert_frame_equal(result, expected) def test_nested_list_columns(self): # GH 14467 result = DataFrame( [[1, 2, 3], [4, 5, 6]], columns=[["A", "A", "A"], ["a", "b", "c"]] ) expected = DataFrame( [[1, 2, 3], [4, 5, 6]], columns=MultiIndex.from_tuples([("A", "a"), ("A", "b"), ("A", "c")]), ) tm.assert_frame_equal(result, expected) def test_from_2d_object_array_of_periods_or_intervals(self): # Period analogue to GH#26825 pi = pd.period_range("2016-04-05", periods=3) data = pi._data.astype(object).reshape(1, -1) df = DataFrame(data) assert df.shape == (1, 3) assert (df.dtypes == pi.dtype).all() assert (df == pi).all().all() ii = pd.IntervalIndex.from_breaks([3, 4, 5, 6]) data2 = ii._data.astype(object).reshape(1, -1) df2 = DataFrame(data2) assert df2.shape == (1, 3) assert (df2.dtypes == ii.dtype).all() assert (df2 == ii).all().all() # mixed data3 = np.r_[data, data2, data, data2].T df3 = DataFrame(data3) expected = DataFrame({0: pi, 1: ii, 2: pi, 3: ii}) tm.assert_frame_equal(df3, expected) @pytest.mark.parametrize( "col_a, col_b", [ ([[1], [2]], np.array([[1], [2]])), (np.array([[1], [2]]), [[1], [2]]), (np.array([[1], [2]]), np.array([[1], [2]])), ], ) def test_error_from_2darray(self, col_a, col_b): msg = "Per-column arrays must each be 1-dimensional" with pytest.raises(ValueError, match=msg): DataFrame({"a": col_a, "b": col_b}) def test_from_dict_with_missing_copy_false(self): # GH#45369 filled columns should not be views of one another df = DataFrame(index=[1, 2, 3], columns=["a", "b", "c"], copy=False) assert not np.shares_memory(df["a"]._values, df["b"]._values) df.iloc[0, 0] = 0 expected = DataFrame( { "a": [0, np.nan, np.nan], "b": [np.nan, np.nan, np.nan], "c": [np.nan, np.nan, np.nan], }, index=[1, 2, 3], dtype=object, ) tm.assert_frame_equal(df, expected) def test_construction_empty_array_multi_column_raises(self): # GH#46822 msg = "Empty data passed with indices specified." with pytest.raises(ValueError, match=msg): DataFrame(data=np.array([]), columns=["a", "b"]) class TestDataFrameConstructorIndexInference: def test_frame_from_dict_of_series_overlapping_monthly_period_indexes(self): rng1 = pd.period_range("1/1/1999", "1/1/2012", freq="M") s1 = Series(np.random.randn(len(rng1)), rng1) rng2 = pd.period_range("1/1/1980", "12/1/2001", freq="M") s2 = Series(np.random.randn(len(rng2)), rng2) df = DataFrame({"s1": s1, "s2": s2}) exp = pd.period_range("1/1/1980", "1/1/2012", freq="M") tm.assert_index_equal(df.index, exp) def test_frame_from_dict_with_mixed_tzaware_indexes(self): # GH#44091 dti = date_range("2016-01-01", periods=3) ser1 = Series(range(3), index=dti) ser2 = Series(range(3), index=dti.tz_localize("UTC")) ser3 = Series(range(3), index=dti.tz_localize("US/Central")) ser4 = Series(range(3)) # no tz-naive, but we do have mixed tzs and a non-DTI df1 = DataFrame({"A": ser2, "B": ser3, "C": ser4}) exp_index = Index( list(ser2.index) + list(ser3.index) + list(ser4.index), dtype=object ) tm.assert_index_equal(df1.index, exp_index) df2 = DataFrame({"A": ser2, "C": ser4, "B": ser3}) exp_index3 = Index( list(ser2.index) + list(ser4.index) + list(ser3.index), dtype=object ) tm.assert_index_equal(df2.index, exp_index3) df3 = DataFrame({"B": ser3, "A": ser2, "C": ser4}) exp_index3 = Index( list(ser3.index) + list(ser2.index) + list(ser4.index), dtype=object ) tm.assert_index_equal(df3.index, exp_index3) df4 = DataFrame({"C": ser4, "B": ser3, "A": ser2}) exp_index4 = Index( list(ser4.index) + list(ser3.index) + list(ser2.index), dtype=object ) tm.assert_index_equal(df4.index, exp_index4) # TODO: not clear if these raising is desired (no extant tests), # but this is de facto behavior 2021-12-22 msg = "Cannot join tz-naive with tz-aware DatetimeIndex" with pytest.raises(TypeError, match=msg): DataFrame({"A": ser2, "B": ser3, "C": ser4, "D": ser1}) with pytest.raises(TypeError, match=msg): DataFrame({"A": ser2, "B": ser3, "D": ser1}) with pytest.raises(TypeError, match=msg): DataFrame({"D": ser1, "A": ser2, "B": ser3}) class TestDataFrameConstructorWithDtypeCoercion: def test_floating_values_integer_dtype(self): # GH#40110 make DataFrame behavior with arraylike floating data and # inty dtype match Series behavior arr = np.random.randn(10, 5) msg = "if they cannot be cast losslessly" with tm.assert_produces_warning(FutureWarning, match=msg): DataFrame(arr, dtype="i8") with tm.assert_produces_warning(None): # if they can be cast losslessly, no warning DataFrame(arr.round(), dtype="i8") # with NaNs, we go through a different path with a different warning arr[0, 0] = np.nan msg = "passing float-dtype values containing NaN" with tm.assert_produces_warning(FutureWarning, match=msg): DataFrame(arr, dtype="i8") with tm.assert_produces_warning(FutureWarning, match=msg): Series(arr[0], dtype="i8") # The future (raising) behavior matches what we would get via astype: msg = r"Cannot convert non-finite values \(NA or inf\) to integer" with pytest.raises(ValueError, match=msg): DataFrame(arr).astype("i8") with pytest.raises(ValueError, match=msg): Series(arr[0]).astype("i8") class TestDataFrameConstructorWithDatetimeTZ: @pytest.mark.parametrize("tz", ["US/Eastern", "dateutil/US/Eastern"]) def test_construction_preserves_tzaware_dtypes(self, tz): # after GH#7822 # these retain the timezones on dict construction dr = date_range("2011/1/1", "2012/1/1", freq="W-FRI") dr_tz = dr.tz_localize(tz) df = DataFrame({"A": "foo", "B": dr_tz}, index=dr) tz_expected = DatetimeTZDtype("ns", dr_tz.tzinfo) assert df["B"].dtype == tz_expected # GH#2810 (with timezones) datetimes_naive = [ts.to_pydatetime() for ts in dr] datetimes_with_tz = [ts.to_pydatetime() for ts in dr_tz] df = DataFrame({"dr": dr}) df["dr_tz"] = dr_tz df["datetimes_naive"] = datetimes_naive df["datetimes_with_tz"] = datetimes_with_tz result = df.dtypes expected = Series( [ np.dtype("datetime64[ns]"), DatetimeTZDtype(tz=tz), np.dtype("datetime64[ns]"), DatetimeTZDtype(tz=tz), ], index=["dr", "dr_tz", "datetimes_naive", "datetimes_with_tz"], ) tm.assert_series_equal(result, expected) @pytest.mark.parametrize("pydt", [True, False]) def test_constructor_data_aware_dtype_naive(self, tz_aware_fixture, pydt): # GH#25843, GH#41555, GH#33401 tz = tz_aware_fixture ts = Timestamp("2019", tz=tz) if pydt: ts = ts.to_pydatetime() ts_naive = Timestamp("2019") with tm.assert_produces_warning(FutureWarning): result = DataFrame({0: [ts]}, dtype="datetime64[ns]") expected = DataFrame({0: [ts_naive]}) tm.assert_frame_equal(result, expected) with tm.assert_produces_warning(FutureWarning): result = DataFrame({0: ts}, index=[0], dtype="datetime64[ns]") tm.assert_frame_equal(result, expected) with tm.assert_produces_warning(FutureWarning): result = DataFrame([ts], dtype="datetime64[ns]") tm.assert_frame_equal(result, expected) with tm.assert_produces_warning(FutureWarning): result = DataFrame(np.array([ts], dtype=object), dtype="datetime64[ns]") tm.assert_frame_equal(result, expected) with tm.assert_produces_warning(FutureWarning): result = DataFrame(ts, index=[0], columns=[0], dtype="datetime64[ns]") tm.assert_frame_equal(result, expected) with tm.assert_produces_warning(FutureWarning): df = DataFrame([Series([ts])], dtype="datetime64[ns]") tm.assert_frame_equal(result, expected) with tm.assert_produces_warning(FutureWarning): df = DataFrame([[ts]], columns=[0], dtype="datetime64[ns]") tm.assert_equal(df, expected) def test_from_dict(self): # 8260 # support datetime64 with tz idx = Index(date_range("20130101", periods=3, tz="US/Eastern"), name="foo") dr = date_range("20130110", periods=3) # construction df = DataFrame({"A": idx, "B": dr}) assert df["A"].dtype, "M8[ns, US/Eastern" assert df["A"].name == "A" tm.assert_series_equal(df["A"], Series(idx, name="A")) tm.assert_series_equal(df["B"], Series(dr, name="B")) def test_from_index(self): # from index idx2 = date_range("20130101", periods=3, tz="US/Eastern", name="foo") df2 = DataFrame(idx2) tm.assert_series_equal(df2["foo"], Series(idx2, name="foo")) df2 = DataFrame(Series(idx2)) tm.assert_series_equal(df2["foo"], Series(idx2, name="foo")) idx2 = date_range("20130101", periods=3, tz="US/Eastern") df2 = DataFrame(idx2) tm.assert_series_equal(df2[0], Series(idx2, name=0)) df2 = DataFrame(Series(idx2)) tm.assert_series_equal(df2[0], Series(idx2, name=0)) def test_frame_dict_constructor_datetime64_1680(self): dr = date_range("1/1/2012", periods=10) s = Series(dr, index=dr) # it works! DataFrame({"a": "foo", "b": s}, index=dr) DataFrame({"a": "foo", "b": s.values}, index=dr) def test_frame_datetime64_mixed_index_ctor_1681(self): dr = date_range("2011/1/1", "2012/1/1", freq="W-FRI") ts = Series(dr) # it works! d = DataFrame({"A": "foo", "B": ts}, index=dr) assert d["B"].isna().all() def test_frame_timeseries_column(self): # GH19157 dr = date_range(start="20130101T10:00:00", periods=3, freq="T", tz="US/Eastern") result = DataFrame(dr, columns=["timestamps"]) expected = DataFrame( { "timestamps": [ Timestamp("20130101T10:00:00", tz="US/Eastern"), Timestamp("20130101T10:01:00", tz="US/Eastern"), Timestamp("20130101T10:02:00", tz="US/Eastern"), ] } ) tm.assert_frame_equal(result, expected) def test_nested_dict_construction(self): # GH22227 columns = ["Nevada", "Ohio"] pop = { "Nevada": {2001: 2.4, 2002: 2.9}, "Ohio": {2000: 1.5, 2001: 1.7, 2002: 3.6}, } result = DataFrame(pop, index=[2001, 2002, 2003], columns=columns) expected = DataFrame( [(2.4, 1.7), (2.9, 3.6), (np.nan, np.nan)], columns=columns, index=Index([2001, 2002, 2003]), ) tm.assert_frame_equal(result, expected) def test_from_tzaware_object_array(self): # GH#26825 2D object array of tzaware timestamps should not raise dti = date_range("2016-04-05 04:30", periods=3, tz="UTC") data = dti._data.astype(object).reshape(1, -1) df = DataFrame(data) assert df.shape == (1, 3) assert (df.dtypes == dti.dtype).all() assert (df == dti).all().all() def test_from_tzaware_mixed_object_array(self): # GH#26825 arr = np.array( [ [ Timestamp("2013-01-01 00:00:00"), Timestamp("2013-01-02 00:00:00"), Timestamp("2013-01-03 00:00:00"), ], [ Timestamp("2013-01-01 00:00:00-0500", tz="US/Eastern"), pd.NaT, Timestamp("2013-01-03 00:00:00-0500", tz="US/Eastern"), ], [ Timestamp("2013-01-01 00:00:00+0100", tz="CET"), pd.NaT, Timestamp("2013-01-03 00:00:00+0100", tz="CET"), ], ], dtype=object, ).T res = DataFrame(arr, columns=["A", "B", "C"]) expected_dtypes = [ "datetime64[ns]", "datetime64[ns, US/Eastern]", "datetime64[ns, CET]", ] assert (res.dtypes == expected_dtypes).all() def test_from_2d_ndarray_with_dtype(self): # GH#12513 array_dim2 = np.arange(10).reshape((5, 2)) df = DataFrame(array_dim2, dtype="datetime64[ns, UTC]") expected = DataFrame(array_dim2).astype("datetime64[ns, UTC]") tm.assert_frame_equal(df, expected) @pytest.mark.parametrize("typ", [set, frozenset]) def test_construction_from_set_raises(self, typ): # https://github.com/pandas-dev/pandas/issues/32582 values = typ({1, 2, 3}) msg = f"'{typ.__name__}' type is unordered" with pytest.raises(TypeError, match=msg): DataFrame({"a": values}) with pytest.raises(TypeError, match=msg): Series(values) def test_construction_from_ndarray_datetimelike(self): # ensure the underlying arrays are properly wrapped as EA when # constructed from 2D ndarray arr = np.arange(0, 12, dtype="datetime64[ns]").reshape(4, 3) df = DataFrame(arr) assert all(isinstance(arr, DatetimeArray) for arr in df._mgr.arrays) def test_construction_from_ndarray_with_eadtype_mismatched_columns(self): arr = np.random.randn(10, 2) dtype = pd.array([2.0]).dtype msg = r"len\(arrays\) must match len\(columns\)" with pytest.raises(ValueError, match=msg): DataFrame(arr, columns=["foo"], dtype=dtype) arr2 = pd.array([2.0, 3.0, 4.0]) with pytest.raises(ValueError, match=msg): DataFrame(arr2, columns=["foo", "bar"]) def test_columns_indexes_raise_on_sets(self): # GH 47215 data = [[1, 2, 3], [4, 5, 6]] with pytest.raises(ValueError, match="index cannot be a set"): DataFrame(data, index={"a", "b"}) with pytest.raises(ValueError, match="columns cannot be a set"): DataFrame(data, columns={"a", "b", "c"}) def get1(obj): # TODO: make a helper in tm? if isinstance(obj, Series): return obj.iloc[0] else: return obj.iloc[0, 0] class TestFromScalar: @pytest.fixture(params=[list, dict, None]) def constructor(self, request, frame_or_series): box = request.param extra = {"index": range(2)} if frame_or_series is DataFrame: extra["columns"] = ["A"] if box is None: return functools.partial(frame_or_series, **extra) elif box is dict: if frame_or_series is Series: return lambda x, **kwargs: frame_or_series( {0: x, 1: x}, **extra, **kwargs ) else: return lambda x, **kwargs: frame_or_series({"A": x}, **extra, **kwargs) else: if frame_or_series is Series: return lambda x, **kwargs: frame_or_series([x, x], **extra, **kwargs) else: return lambda x, **kwargs: frame_or_series( {"A": [x, x]}, **extra, **kwargs ) @pytest.mark.parametrize("dtype", ["M8[ns]", "m8[ns]"]) def test_from_nat_scalar(self, dtype, constructor): obj = constructor(pd.NaT, dtype=dtype) assert np.all(obj.dtypes == dtype) assert np.all(obj.isna()) def test_from_timedelta_scalar_preserves_nanos(self, constructor): td = Timedelta(1) obj = constructor(td, dtype="m8[ns]") assert get1(obj) == td def test_from_timestamp_scalar_preserves_nanos(self, constructor, fixed_now_ts): ts = fixed_now_ts + Timedelta(1) obj = constructor(ts, dtype="M8[ns]") assert get1(obj) == ts def test_from_timedelta64_scalar_object(self, constructor): td = Timedelta(1) td64 = td.to_timedelta64() obj = constructor(td64, dtype=object) assert isinstance(get1(obj), np.timedelta64) @pytest.mark.parametrize("cls", [np.datetime64, np.timedelta64]) def test_from_scalar_datetimelike_mismatched(self, constructor, cls): scalar = cls("NaT", "ns") dtype = {np.datetime64: "m8[ns]", np.timedelta64: "M8[ns]"}[cls] msg = "Cannot cast" if cls is np.datetime64: msg = "|".join( [ r"dtype datetime64\[ns\] cannot be converted to timedelta64\[ns\]", "Cannot cast", ] ) with pytest.raises(TypeError, match=msg): constructor(scalar, dtype=dtype) scalar = cls(4, "ns") with pytest.raises(TypeError, match=msg): constructor(scalar, dtype=dtype) @pytest.mark.parametrize("cls", [datetime, np.datetime64]) def test_from_out_of_bounds_datetime(self, constructor, cls): scalar = datetime(9999, 1, 1) if cls is np.datetime64: scalar = np.datetime64(scalar, "D") result = constructor(scalar) assert type(get1(result)) is cls @pytest.mark.parametrize("cls", [timedelta, np.timedelta64]) def test_from_out_of_bounds_timedelta(self, constructor, cls): scalar = datetime(9999, 1, 1) - datetime(1970, 1, 1) if cls is np.timedelta64: scalar = np.timedelta64(scalar, "D") result = constructor(scalar) assert type(get1(result)) is cls def test_tzaware_data_tznaive_dtype(self, constructor): tz = "US/Eastern" ts = Timestamp("2019", tz=tz) ts_naive = Timestamp("2019") with tm.assert_produces_warning(FutureWarning, match="Data is timezone-aware"): result = constructor(ts, dtype="M8[ns]") assert np.all(result.dtypes == "M8[ns]") assert np.all(result == ts_naive) # TODO: better location for this test? class TestAllowNonNano: # Until 2.0, we do not preserve non-nano dt64/td64 when passed as ndarray, # but do preserve it when passed as DTA/TDA @pytest.fixture(params=[True, False]) def as_td(self, request): return request.param @pytest.fixture def arr(self, as_td): values = np.arange(5).astype(np.int64).view("M8[s]") if as_td: values = values - values[0] return TimedeltaArray._simple_new(values, dtype=values.dtype) else: return DatetimeArray._simple_new(values, dtype=values.dtype) def test_index_allow_non_nano(self, arr): idx = Index(arr) assert idx.dtype == arr.dtype def test_dti_tdi_allow_non_nano(self, arr, as_td): if as_td: idx = pd.TimedeltaIndex(arr) else: idx = DatetimeIndex(arr) assert idx.dtype == arr.dtype def test_series_allow_non_nano(self, arr): ser = Series(arr) assert ser.dtype == arr.dtype def test_frame_allow_non_nano(self, arr): df = DataFrame(arr) assert df.dtypes[0] == arr.dtype @pytest.mark.xfail( # TODO(2.0): xfail should become unnecessary strict=False, reason="stack_arrays converts TDA to ndarray, then goes " "through ensure_wrapped_if_datetimelike", ) def test_frame_from_dict_allow_non_nano(self, arr): df = DataFrame({0: arr}) assert df.dtypes[0] == arr.dtype