from __future__ import annotations import numbers from typing import ( TYPE_CHECKING, ClassVar, cast, ) import numpy as np from pandas._libs import ( lib, missing as libmissing, ) from pandas.core.dtypes.common import is_list_like from pandas.core.dtypes.dtypes import register_extension_dtype from pandas.core.dtypes.missing import isna from pandas.core import ops from pandas.core.array_algos import masked_accumulations from pandas.core.arrays.masked import ( BaseMaskedArray, BaseMaskedDtype, ) if TYPE_CHECKING: import pyarrow from pandas._typing import ( Dtype, DtypeObj, Self, npt, type_t, ) @register_extension_dtype class BooleanDtype(BaseMaskedDtype): """ Extension dtype for boolean data. .. warning:: BooleanDtype is considered experimental. The implementation and parts of the API may change without warning. Attributes ---------- None Methods ------- None Examples -------- >>> pd.BooleanDtype() BooleanDtype """ name: ClassVar[str] = "boolean" # https://github.com/python/mypy/issues/4125 # error: Signature of "type" incompatible with supertype "BaseMaskedDtype" @property def type(self) -> type: # type: ignore[override] return np.bool_ @property def kind(self) -> str: return "b" @property def numpy_dtype(self) -> np.dtype: return np.dtype("bool") @classmethod def construct_array_type(cls) -> type_t[BooleanArray]: """ Return the array type associated with this dtype. Returns ------- type """ return BooleanArray def __repr__(self) -> str: return "BooleanDtype" @property def _is_boolean(self) -> bool: return True @property def _is_numeric(self) -> bool: return True def __from_arrow__( self, array: pyarrow.Array | pyarrow.ChunkedArray ) -> BooleanArray: """ Construct BooleanArray from pyarrow Array/ChunkedArray. """ import pyarrow if array.type != pyarrow.bool_() and not pyarrow.types.is_null(array.type): raise TypeError(f"Expected array of boolean type, got {array.type} instead") if isinstance(array, pyarrow.Array): chunks = [array] length = len(array) else: # pyarrow.ChunkedArray chunks = array.chunks length = array.length() if pyarrow.types.is_null(array.type): mask = np.ones(length, dtype=bool) # No need to init data, since all null data = np.empty(length, dtype=bool) return BooleanArray(data, mask) results = [] for arr in chunks: buflist = arr.buffers() data = pyarrow.BooleanArray.from_buffers( arr.type, len(arr), [None, buflist[1]], offset=arr.offset ).to_numpy(zero_copy_only=False) if arr.null_count != 0: mask = pyarrow.BooleanArray.from_buffers( arr.type, len(arr), [None, buflist[0]], offset=arr.offset ).to_numpy(zero_copy_only=False) mask = ~mask else: mask = np.zeros(len(arr), dtype=bool) bool_arr = BooleanArray(data, mask) results.append(bool_arr) if not results: return BooleanArray( np.array([], dtype=np.bool_), np.array([], dtype=np.bool_) ) else: return BooleanArray._concat_same_type(results) def coerce_to_array( values, mask=None, copy: bool = False ) -> tuple[np.ndarray, np.ndarray]: """ Coerce the input values array to numpy arrays with a mask. Parameters ---------- values : 1D list-like mask : bool 1D array, optional copy : bool, default False if True, copy the input Returns ------- tuple of (values, mask) """ if isinstance(values, BooleanArray): if mask is not None: raise ValueError("cannot pass mask for BooleanArray input") values, mask = values._data, values._mask if copy: values = values.copy() mask = mask.copy() return values, mask mask_values = None if isinstance(values, np.ndarray) and values.dtype == np.bool_: if copy: values = values.copy() elif isinstance(values, np.ndarray) and values.dtype.kind in "iufcb": mask_values = isna(values) values_bool = np.zeros(len(values), dtype=bool) values_bool[~mask_values] = values[~mask_values].astype(bool) if not np.all( values_bool[~mask_values].astype(values.dtype) == values[~mask_values] ): raise TypeError("Need to pass bool-like values") values = values_bool else: values_object = np.asarray(values, dtype=object) inferred_dtype = lib.infer_dtype(values_object, skipna=True) integer_like = ("floating", "integer", "mixed-integer-float") if inferred_dtype not in ("boolean", "empty") + integer_like: raise TypeError("Need to pass bool-like values") # mypy does not narrow the type of mask_values to npt.NDArray[np.bool_] # within this branch, it assumes it can also be None mask_values = cast("npt.NDArray[np.bool_]", isna(values_object)) values = np.zeros(len(values), dtype=bool) values[~mask_values] = values_object[~mask_values].astype(bool) # if the values were integer-like, validate it were actually 0/1's if (inferred_dtype in integer_like) and not ( np.all( values[~mask_values].astype(float) == values_object[~mask_values].astype(float) ) ): raise TypeError("Need to pass bool-like values") if mask is None and mask_values is None: mask = np.zeros(values.shape, dtype=bool) elif mask is None: mask = mask_values else: if isinstance(mask, np.ndarray) and mask.dtype == np.bool_: if mask_values is not None: mask = mask | mask_values else: if copy: mask = mask.copy() else: mask = np.array(mask, dtype=bool) if mask_values is not None: mask = mask | mask_values if values.shape != mask.shape: raise ValueError("values.shape and mask.shape must match") return values, mask class BooleanArray(BaseMaskedArray): """ Array of boolean (True/False) data with missing values. This is a pandas Extension array for boolean data, under the hood represented by 2 numpy arrays: a boolean array with the data and a boolean array with the mask (True indicating missing). BooleanArray implements Kleene logic (sometimes called three-value logic) for logical operations. See :ref:`boolean.kleene` for more. To construct an BooleanArray from generic array-like input, use :func:`pandas.array` specifying ``dtype="boolean"`` (see examples below). .. warning:: BooleanArray is considered experimental. The implementation and parts of the API may change without warning. Parameters ---------- values : numpy.ndarray A 1-d boolean-dtype array with the data. mask : numpy.ndarray A 1-d boolean-dtype array indicating missing values (True indicates missing). copy : bool, default False Whether to copy the `values` and `mask` arrays. Attributes ---------- None Methods ------- None Returns ------- BooleanArray Examples -------- Create an BooleanArray with :func:`pandas.array`: >>> pd.array([True, False, None], dtype="boolean") [True, False, ] Length: 3, dtype: boolean """ # The value used to fill '_data' to avoid upcasting _internal_fill_value = False # Fill values used for any/all # Incompatible types in assignment (expression has type "bool", base class # "BaseMaskedArray" defined the type as "") _truthy_value = True # type: ignore[assignment] _falsey_value = False # type: ignore[assignment] _TRUE_VALUES = {"True", "TRUE", "true", "1", "1.0"} _FALSE_VALUES = {"False", "FALSE", "false", "0", "0.0"} @classmethod def _simple_new(cls, values: np.ndarray, mask: npt.NDArray[np.bool_]) -> Self: result = super()._simple_new(values, mask) result._dtype = BooleanDtype() return result def __init__( self, values: np.ndarray, mask: np.ndarray, copy: bool = False ) -> None: if not (isinstance(values, np.ndarray) and values.dtype == np.bool_): raise TypeError( "values should be boolean numpy array. Use " "the 'pd.array' function instead" ) self._dtype = BooleanDtype() super().__init__(values, mask, copy=copy) @property def dtype(self) -> BooleanDtype: return self._dtype @classmethod def _from_sequence_of_strings( cls, strings: list[str], *, dtype: Dtype | None = None, copy: bool = False, true_values: list[str] | None = None, false_values: list[str] | None = None, ) -> BooleanArray: true_values_union = cls._TRUE_VALUES.union(true_values or []) false_values_union = cls._FALSE_VALUES.union(false_values or []) def map_string(s) -> bool: if s in true_values_union: return True elif s in false_values_union: return False else: raise ValueError(f"{s} cannot be cast to bool") scalars = np.array(strings, dtype=object) mask = isna(scalars) scalars[~mask] = list(map(map_string, scalars[~mask])) return cls._from_sequence(scalars, dtype=dtype, copy=copy) _HANDLED_TYPES = (np.ndarray, numbers.Number, bool, np.bool_) @classmethod def _coerce_to_array( cls, value, *, dtype: DtypeObj, copy: bool = False ) -> tuple[np.ndarray, np.ndarray]: if dtype: assert dtype == "boolean" return coerce_to_array(value, copy=copy) def _logical_method(self, other, op): assert op.__name__ in {"or_", "ror_", "and_", "rand_", "xor", "rxor"} other_is_scalar = lib.is_scalar(other) mask = None if isinstance(other, BooleanArray): other, mask = other._data, other._mask elif is_list_like(other): other = np.asarray(other, dtype="bool") if other.ndim > 1: raise NotImplementedError("can only perform ops with 1-d structures") other, mask = coerce_to_array(other, copy=False) elif isinstance(other, np.bool_): other = other.item() if other_is_scalar and other is not libmissing.NA and not lib.is_bool(other): raise TypeError( "'other' should be pandas.NA or a bool. " f"Got {type(other).__name__} instead." ) if not other_is_scalar and len(self) != len(other): raise ValueError("Lengths must match") if op.__name__ in {"or_", "ror_"}: result, mask = ops.kleene_or(self._data, other, self._mask, mask) elif op.__name__ in {"and_", "rand_"}: result, mask = ops.kleene_and(self._data, other, self._mask, mask) else: # i.e. xor, rxor result, mask = ops.kleene_xor(self._data, other, self._mask, mask) # i.e. BooleanArray return self._maybe_mask_result(result, mask) def _accumulate( self, name: str, *, skipna: bool = True, **kwargs ) -> BaseMaskedArray: data = self._data mask = self._mask if name in ("cummin", "cummax"): op = getattr(masked_accumulations, name) data, mask = op(data, mask, skipna=skipna, **kwargs) return self._simple_new(data, mask) else: from pandas.core.arrays import IntegerArray return IntegerArray(data.astype(int), mask)._accumulate( name, skipna=skipna, **kwargs )