from __future__ import annotations import operator import warnings from functools import reduce from itertools import chain from typing import TYPE_CHECKING, Any, Literal, Protocol, overload from narwhals._compliant import EagerNamespace from narwhals._expression_parsing import ( combine_alias_output_names, combine_evaluate_output_names, ) from narwhals._pandas_like.dataframe import PandasLikeDataFrame from narwhals._pandas_like.expr import PandasLikeExpr from narwhals._pandas_like.selectors import PandasSelectorNamespace from narwhals._pandas_like.series import PandasLikeSeries from narwhals._pandas_like.typing import NativeDataFrameT, NativeSeriesT from narwhals._pandas_like.utils import is_non_nullable_boolean from narwhals._utils import zip_strict if TYPE_CHECKING: from collections.abc import Iterable, Sequence from typing_extensions import TypeAlias from narwhals._utils import Implementation, Version from narwhals.typing import IntoDType, NonNestedLiteral Incomplete: TypeAlias = Any """Escape hatch, but leaving a trace that this isn't ideal.""" _Vertical: TypeAlias = Literal[0] _Horizontal: TypeAlias = Literal[1] Axis: TypeAlias = Literal[_Vertical, _Horizontal] VERTICAL: _Vertical = 0 HORIZONTAL: _Horizontal = 1 class PandasLikeNamespace( EagerNamespace[ PandasLikeDataFrame, PandasLikeSeries, PandasLikeExpr, NativeDataFrameT, NativeSeriesT, ] ): @property def _dataframe(self) -> type[PandasLikeDataFrame]: return PandasLikeDataFrame @property def _expr(self) -> type[PandasLikeExpr]: return PandasLikeExpr @property def _series(self) -> type[PandasLikeSeries]: return PandasLikeSeries @property def selectors(self) -> PandasSelectorNamespace: return PandasSelectorNamespace.from_namespace(self) def __init__(self, implementation: Implementation, version: Version) -> None: self._implementation = implementation self._version = version def coalesce(self, *exprs: PandasLikeExpr) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: series = (s for _expr in exprs for s in _expr(df)) return [ reduce(lambda x, y: x.fill_null(y, strategy=None, limit=None), series) ] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def lit(self, value: NonNestedLiteral, dtype: IntoDType | None) -> PandasLikeExpr: def _lit_pandas_series(df: PandasLikeDataFrame) -> PandasLikeSeries: pandas_series = self._series.from_iterable( data=[value], name="literal", index=df._native_frame.index[0:1], context=self, ) if dtype: return pandas_series.cast(dtype) return pandas_series return PandasLikeExpr( lambda df: [_lit_pandas_series(df)], evaluate_output_names=lambda _df: ["literal"], alias_output_names=None, implementation=self._implementation, version=self._version, ) def len(self) -> PandasLikeExpr: return PandasLikeExpr( lambda df: [ self._series.from_iterable( [len(df._native_frame)], name="len", index=[0], context=self ) ], evaluate_output_names=lambda _df: ["len"], alias_output_names=None, implementation=self._implementation, version=self._version, ) # --- horizontal --- def sum_horizontal(self, *exprs: PandasLikeExpr) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: it = chain.from_iterable(expr(df) for expr in exprs) native_series = (s.fill_null(0, None, None) for s in it) return [reduce(operator.add, native_series)] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def all_horizontal( self, *exprs: PandasLikeExpr, ignore_nulls: bool ) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: series = [s for _expr in exprs for s in _expr(df)] if not ignore_nulls and any( s.native.dtype == "object" and s.is_null().any() for s in series ): # classical NumPy boolean columns don't support missing values, so # only do the full scan with `is_null` if we have `object` dtype. msg = "Cannot use `ignore_nulls=False` in `all_horizontal` for non-nullable NumPy-backed pandas Series when nulls are present." raise ValueError(msg) it = ( ( # NumPy-backed 'bool' dtype can't contain nulls so doesn't need filling. s if is_non_nullable_boolean(s) else s.fill_null(True, None, None) for s in series ) if ignore_nulls else iter(series) ) return [reduce(operator.and_, it)] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def any_horizontal( self, *exprs: PandasLikeExpr, ignore_nulls: bool ) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: series = [s for _expr in exprs for s in _expr(df)] if not ignore_nulls and any( s.native.dtype == "object" and s.is_null().any() for s in series ): # classical NumPy boolean columns don't support missing values, so # only do the full scan with `is_null` if we have `object` dtype. msg = "Cannot use `ignore_nulls=False` in `any_horizontal` for non-nullable NumPy-backed pandas Series when nulls are present." raise ValueError(msg) it = ( ( # NumPy-backed 'bool' dtype can't contain nulls so doesn't need filling. s if is_non_nullable_boolean(s) else s.fill_null(False, None, None) for s in series ) if ignore_nulls else iter(series) ) return [reduce(operator.or_, it)] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def mean_horizontal(self, *exprs: PandasLikeExpr) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: expr_results = [s for _expr in exprs for s in _expr(df)] series = (s.fill_null(0, strategy=None, limit=None) for s in expr_results) non_na = (1 - s.is_null() for s in expr_results) return [reduce(operator.add, series) / reduce(operator.add, non_na)] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def min_horizontal(self, *exprs: PandasLikeExpr) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: series = list(chain.from_iterable(expr(df) for expr in exprs)) return [ PandasLikeSeries( self.concat( (s.to_frame() for s in series), how="horizontal" )._native_frame.min(axis=1), implementation=self._implementation, version=self._version, ).alias(series[0].name) ] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def max_horizontal(self, *exprs: PandasLikeExpr) -> PandasLikeExpr: def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: series = list(chain.from_iterable(expr(df) for expr in exprs)) return [ PandasLikeSeries( self.concat( (s.to_frame() for s in series), how="horizontal" ).native.max(axis=1), implementation=self._implementation, version=self._version, ).alias(series[0].name) ] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) @property def _concat(self) -> _NativeConcat[NativeDataFrameT, NativeSeriesT]: """Concatenate pandas objects along a particular axis. Return the **native** equivalent of `pd.concat`. """ return self._implementation.to_native_namespace().concat def _concat_diagonal(self, dfs: Sequence[NativeDataFrameT], /) -> NativeDataFrameT: if self._implementation.is_pandas() and self._backend_version < (3,): return self._concat(dfs, axis=VERTICAL, copy=False) return self._concat(dfs, axis=VERTICAL) def _concat_horizontal( self, dfs: Sequence[NativeDataFrameT | NativeSeriesT], / ) -> NativeDataFrameT: if self._implementation.is_cudf(): with warnings.catch_warnings(): warnings.filterwarnings( "ignore", message="The behavior of array concatenation with empty entries is deprecated", category=FutureWarning, ) return self._concat(dfs, axis=HORIZONTAL) elif self._implementation.is_pandas() and self._backend_version < (3,): return self._concat(dfs, axis=HORIZONTAL, copy=False) return self._concat(dfs, axis=HORIZONTAL) def _concat_vertical(self, dfs: Sequence[NativeDataFrameT], /) -> NativeDataFrameT: cols_0 = dfs[0].columns for i, df in enumerate(dfs[1:], start=1): cols_current = df.columns if not ( (len(cols_current) == len(cols_0)) and (cols_current == cols_0).all() ): msg = ( "unable to vstack, column names don't match:\n" f" - dataframe 0: {cols_0.to_list()}\n" f" - dataframe {i}: {cols_current.to_list()}\n" ) raise TypeError(msg) if self._implementation.is_pandas() and self._backend_version < (3,): return self._concat(dfs, axis=VERTICAL, copy=False) return self._concat(dfs, axis=VERTICAL) def concat_str( self, *exprs: PandasLikeExpr, separator: str, ignore_nulls: bool ) -> PandasLikeExpr: string = self._version.dtypes.String() def func(df: PandasLikeDataFrame) -> list[PandasLikeSeries]: expr_results = [s for _expr in exprs for s in _expr(df)] series = [s.cast(string) for s in expr_results] null_mask = [s.is_null() for s in expr_results] if not ignore_nulls: null_mask_result = reduce(operator.or_, null_mask) result = reduce(lambda x, y: x + separator + y, series).zip_with( ~null_mask_result, None ) else: # NOTE: Trying to help `mypy` later # error: Cannot determine type of "values" [has-type] values: list[PandasLikeSeries] init_value, *values = ( s.zip_with(~nm, "") for s, nm in zip_strict(series, null_mask) ) sep_array = init_value._with_native( init_value.__native_namespace__().Series( separator, name="sep", index=init_value.native.index, dtype=init_value.native.dtype, ) ) separators = (sep_array.zip_with(~nm, "") for nm in null_mask[:-1]) result = reduce( operator.add, (s + v for s, v in zip_strict(separators, values)), init_value, ) return [result] return self._expr._from_callable( func=func, evaluate_output_names=combine_evaluate_output_names(*exprs), alias_output_names=combine_alias_output_names(*exprs), context=self, ) def _if_then_else( self, when: NativeSeriesT, then: NativeSeriesT, otherwise: NativeSeriesT | None = None, ) -> NativeSeriesT: where: Incomplete = then.where return where(when) if otherwise is None else where(when, otherwise) class _NativeConcat(Protocol[NativeDataFrameT, NativeSeriesT]): @overload def __call__( self, objs: Iterable[NativeDataFrameT], *, axis: _Vertical, copy: bool | None = ..., ) -> NativeDataFrameT: ... @overload def __call__( self, objs: Iterable[NativeSeriesT], *, axis: _Vertical, copy: bool | None = ... ) -> NativeSeriesT: ... @overload def __call__( self, objs: Iterable[NativeDataFrameT | NativeSeriesT], *, axis: _Horizontal, copy: bool | None = ..., ) -> NativeDataFrameT: ... @overload def __call__( self, objs: Iterable[NativeDataFrameT | NativeSeriesT], *, axis: Axis, copy: bool | None = ..., ) -> NativeDataFrameT | NativeSeriesT: ... def __call__( self, objs: Iterable[NativeDataFrameT | NativeSeriesT], *, axis: Axis, copy: bool | None = None, ) -> NativeDataFrameT | NativeSeriesT: ...