214 lines
6.0 KiB
Python
214 lines
6.0 KiB
Python
"""
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Core eval alignment algorithms.
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"""
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from __future__ import annotations
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from functools import (
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partial,
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wraps,
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)
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from typing import (
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TYPE_CHECKING,
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Callable,
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)
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import warnings
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import numpy as np
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from pandas.errors import PerformanceWarning
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from pandas.util._exceptions import find_stack_level
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from pandas.core.dtypes.generic import (
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ABCDataFrame,
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ABCSeries,
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)
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from pandas.core.base import PandasObject
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import pandas.core.common as com
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from pandas.core.computation.common import result_type_many
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if TYPE_CHECKING:
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from collections.abc import Sequence
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from pandas._typing import F
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from pandas.core.generic import NDFrame
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from pandas.core.indexes.api import Index
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def _align_core_single_unary_op(
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term,
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) -> tuple[partial | type[NDFrame], dict[str, Index] | None]:
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typ: partial | type[NDFrame]
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axes: dict[str, Index] | None = None
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if isinstance(term.value, np.ndarray):
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typ = partial(np.asanyarray, dtype=term.value.dtype)
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else:
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typ = type(term.value)
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if hasattr(term.value, "axes"):
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axes = _zip_axes_from_type(typ, term.value.axes)
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return typ, axes
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def _zip_axes_from_type(
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typ: type[NDFrame], new_axes: Sequence[Index]
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) -> dict[str, Index]:
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return {name: new_axes[i] for i, name in enumerate(typ._AXIS_ORDERS)}
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def _any_pandas_objects(terms) -> bool:
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"""
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Check a sequence of terms for instances of PandasObject.
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"""
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return any(isinstance(term.value, PandasObject) for term in terms)
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def _filter_special_cases(f) -> Callable[[F], F]:
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@wraps(f)
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def wrapper(terms):
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# single unary operand
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if len(terms) == 1:
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return _align_core_single_unary_op(terms[0])
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term_values = (term.value for term in terms)
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# we don't have any pandas objects
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if not _any_pandas_objects(terms):
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return result_type_many(*term_values), None
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return f(terms)
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return wrapper
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@_filter_special_cases
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def _align_core(terms):
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term_index = [i for i, term in enumerate(terms) if hasattr(term.value, "axes")]
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term_dims = [terms[i].value.ndim for i in term_index]
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from pandas import Series
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ndims = Series(dict(zip(term_index, term_dims)))
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# initial axes are the axes of the largest-axis'd term
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biggest = terms[ndims.idxmax()].value
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typ = biggest._constructor
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axes = biggest.axes
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naxes = len(axes)
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gt_than_one_axis = naxes > 1
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for value in (terms[i].value for i in term_index):
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is_series = isinstance(value, ABCSeries)
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is_series_and_gt_one_axis = is_series and gt_than_one_axis
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for axis, items in enumerate(value.axes):
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if is_series_and_gt_one_axis:
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ax, itm = naxes - 1, value.index
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else:
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ax, itm = axis, items
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if not axes[ax].is_(itm):
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axes[ax] = axes[ax].union(itm)
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for i, ndim in ndims.items():
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for axis, items in zip(range(ndim), axes):
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ti = terms[i].value
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if hasattr(ti, "reindex"):
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transpose = isinstance(ti, ABCSeries) and naxes > 1
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reindexer = axes[naxes - 1] if transpose else items
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term_axis_size = len(ti.axes[axis])
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reindexer_size = len(reindexer)
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ordm = np.log10(max(1, abs(reindexer_size - term_axis_size)))
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if ordm >= 1 and reindexer_size >= 10000:
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w = (
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f"Alignment difference on axis {axis} is larger "
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f"than an order of magnitude on term {repr(terms[i].name)}, "
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f"by more than {ordm:.4g}; performance may suffer."
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)
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warnings.warn(
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w, category=PerformanceWarning, stacklevel=find_stack_level()
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)
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obj = ti.reindex(reindexer, axis=axis, copy=False)
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terms[i].update(obj)
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terms[i].update(terms[i].value.values)
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return typ, _zip_axes_from_type(typ, axes)
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def align_terms(terms):
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"""
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Align a set of terms.
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"""
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try:
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# flatten the parse tree (a nested list, really)
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terms = list(com.flatten(terms))
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except TypeError:
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# can't iterate so it must just be a constant or single variable
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if isinstance(terms.value, (ABCSeries, ABCDataFrame)):
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typ = type(terms.value)
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return typ, _zip_axes_from_type(typ, terms.value.axes)
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return np.result_type(terms.type), None
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# if all resolved variables are numeric scalars
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if all(term.is_scalar for term in terms):
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return result_type_many(*(term.value for term in terms)).type, None
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# perform the main alignment
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typ, axes = _align_core(terms)
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return typ, axes
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def reconstruct_object(typ, obj, axes, dtype):
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"""
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Reconstruct an object given its type, raw value, and possibly empty
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(None) axes.
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Parameters
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----------
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typ : object
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A type
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obj : object
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The value to use in the type constructor
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axes : dict
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The axes to use to construct the resulting pandas object
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Returns
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-------
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ret : typ
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An object of type ``typ`` with the value `obj` and possible axes
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`axes`.
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"""
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try:
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typ = typ.type
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except AttributeError:
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pass
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res_t = np.result_type(obj.dtype, dtype)
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if not isinstance(typ, partial) and issubclass(typ, PandasObject):
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return typ(obj, dtype=res_t, **axes)
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# special case for pathological things like ~True/~False
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if hasattr(res_t, "type") and typ == np.bool_ and res_t != np.bool_:
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ret_value = res_t.type(obj)
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else:
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ret_value = typ(obj).astype(res_t)
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# The condition is to distinguish 0-dim array (returned in case of
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# scalar) and 1 element array
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# e.g. np.array(0) and np.array([0])
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if (
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len(obj.shape) == 1
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and len(obj) == 1
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and not isinstance(ret_value, np.ndarray)
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):
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ret_value = np.array([ret_value]).astype(res_t)
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return ret_value
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