from typing import final import pytest import pandas as pd import pandas._testing as tm from pandas.api.types import is_numeric_dtype class BaseReduceTests: """ Reduction specific tests. Generally these only make sense for numeric/boolean operations. """ def _supports_reduction(self, obj, op_name: str) -> bool: # Specify if we expect this reduction to succeed. return False def check_reduce(self, s, op_name, skipna): # We perform the same operation on the np.float64 data and check # that the results match. Override if you need to cast to something # other than float64. res_op = getattr(s, op_name) try: alt = s.astype("float64") except (TypeError, ValueError): # e.g. Interval can't cast, so let's cast to object and do # the reduction pointwise alt = s.astype(object) exp_op = getattr(alt, op_name) if op_name == "count": result = res_op() expected = exp_op() else: result = res_op(skipna=skipna) expected = exp_op(skipna=skipna) tm.assert_almost_equal(result, expected) def _get_expected_reduction_dtype(self, arr, op_name: str): # Find the expected dtype when the given reduction is done on a DataFrame # column with this array. The default assumes float64-like behavior, # i.e. retains the dtype. return arr.dtype # We anticipate that authors should not need to override check_reduce_frame, # but should be able to do any necessary overriding in # _get_expected_reduction_dtype. If you have a use case where this # does not hold, please let us know at github.com/pandas-dev/pandas/issues. @final def check_reduce_frame(self, ser: pd.Series, op_name: str, skipna: bool): # Check that the 2D reduction done in a DataFrame reduction "looks like" # a wrapped version of the 1D reduction done by Series. arr = ser.array df = pd.DataFrame({"a": arr}) kwargs = {"ddof": 1} if op_name in ["var", "std"] else {} cmp_dtype = self._get_expected_reduction_dtype(arr, op_name) # The DataFrame method just calls arr._reduce with keepdims=True, # so this first check is perfunctory. result1 = arr._reduce(op_name, skipna=skipna, keepdims=True, **kwargs) result2 = getattr(df, op_name)(skipna=skipna, **kwargs).array tm.assert_extension_array_equal(result1, result2) # Check that the 2D reduction looks like a wrapped version of the # 1D reduction if not skipna and ser.isna().any(): expected = pd.array([pd.NA], dtype=cmp_dtype) else: exp_value = getattr(ser.dropna(), op_name)() expected = pd.array([exp_value], dtype=cmp_dtype) tm.assert_extension_array_equal(result1, expected) @pytest.mark.parametrize("skipna", [True, False]) def test_reduce_series_boolean(self, data, all_boolean_reductions, skipna): op_name = all_boolean_reductions s = pd.Series(data) if not self._supports_reduction(s, op_name): msg = ( "[Cc]annot perform|Categorical is not ordered for operation|" "does not support reduction|" ) with pytest.raises(TypeError, match=msg): getattr(s, op_name)(skipna=skipna) else: self.check_reduce(s, op_name, skipna) @pytest.mark.filterwarnings("ignore::RuntimeWarning") @pytest.mark.parametrize("skipna", [True, False]) def test_reduce_series_numeric(self, data, all_numeric_reductions, skipna): op_name = all_numeric_reductions s = pd.Series(data) if not self._supports_reduction(s, op_name): msg = ( "[Cc]annot perform|Categorical is not ordered for operation|" "does not support reduction|" ) with pytest.raises(TypeError, match=msg): getattr(s, op_name)(skipna=skipna) else: # min/max with empty produce numpy warnings self.check_reduce(s, op_name, skipna) @pytest.mark.parametrize("skipna", [True, False]) def test_reduce_frame(self, data, all_numeric_reductions, skipna): op_name = all_numeric_reductions s = pd.Series(data) if not is_numeric_dtype(s.dtype): pytest.skip("not numeric dtype") if op_name in ["count", "kurt", "sem"]: pytest.skip(f"{op_name} not an array method") if not self._supports_reduction(s, op_name): pytest.skip(f"Reduction {op_name} not supported for this dtype") self.check_reduce_frame(s, op_name, skipna) # TODO: deprecate BaseNoReduceTests, BaseNumericReduceTests, BaseBooleanReduceTests class BaseNoReduceTests(BaseReduceTests): """we don't define any reductions""" class BaseNumericReduceTests(BaseReduceTests): # For backward compatibility only, this only runs the numeric reductions def _supports_reduction(self, obj, op_name: str) -> bool: if op_name in ["any", "all"]: pytest.skip("These are tested in BaseBooleanReduceTests") return True class BaseBooleanReduceTests(BaseReduceTests): # For backward compatibility only, this only runs the numeric reductions def _supports_reduction(self, obj, op_name: str) -> bool: if op_name not in ["any", "all"]: pytest.skip("These are tested in BaseNumericReduceTests") return True