""" This is a pseudo-public API for downstream libraries. We ask that downstream authors 1) Try to avoid using internals directly altogether, and failing that, 2) Use only functions exposed here (or in core.internals) """ from __future__ import annotations import numpy as np from pandas._libs.internals import BlockPlacement from pandas._typing import Dtype from pandas.core.dtypes.common import ( is_datetime64tz_dtype, is_period_dtype, pandas_dtype, ) from pandas.core.arrays import DatetimeArray from pandas.core.construction import extract_array from pandas.core.internals.blocks import ( Block, DatetimeTZBlock, ExtensionBlock, check_ndim, ensure_block_shape, extract_pandas_array, get_block_type, maybe_coerce_values, ) def make_block( values, placement, klass=None, ndim=None, dtype: Dtype | None = None ) -> Block: """ This is a pseudo-public analogue to blocks.new_block. We ask that downstream libraries use this rather than any fully-internal APIs, including but not limited to: - core.internals.blocks.make_block - Block.make_block - Block.make_block_same_class - Block.__init__ """ if dtype is not None: dtype = pandas_dtype(dtype) values, dtype = extract_pandas_array(values, dtype, ndim) if klass is ExtensionBlock and is_period_dtype(values.dtype): # GH-44681 changed PeriodArray to be stored in the 2D # NDArrayBackedExtensionBlock instead of ExtensionBlock # -> still allow ExtensionBlock to be passed in this case for back compat klass = None if klass is None: dtype = dtype or values.dtype klass = get_block_type(dtype) elif klass is DatetimeTZBlock and not is_datetime64tz_dtype(values.dtype): # pyarrow calls get here values = DatetimeArray._simple_new(values, dtype=dtype) if not isinstance(placement, BlockPlacement): placement = BlockPlacement(placement) ndim = maybe_infer_ndim(values, placement, ndim) if is_datetime64tz_dtype(values.dtype) or is_period_dtype(values.dtype): # GH#41168 ensure we can pass 1D dt64tz values # More generally, any EA dtype that isn't is_1d_only_ea_dtype values = extract_array(values, extract_numpy=True) values = ensure_block_shape(values, ndim) check_ndim(values, placement, ndim) values = maybe_coerce_values(values) return klass(values, ndim=ndim, placement=placement) def maybe_infer_ndim(values, placement: BlockPlacement, ndim: int | None) -> int: """ If `ndim` is not provided, infer it from placement and values. """ if ndim is None: # GH#38134 Block constructor now assumes ndim is not None if not isinstance(values.dtype, np.dtype): if len(placement) != 1: ndim = 1 else: ndim = 2 else: ndim = values.ndim return ndim