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category.py
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from __future__ import annotations
from typing import (
TYPE_CHECKING,
Any,
Hashable,
)
import numpy as np
from pandas._libs import index as libindex
from pandas.util._decorators import (
cache_readonly,
doc,
)
from pandas.core.dtypes.common import (
is_categorical_dtype,
is_scalar,
)
from pandas.core.dtypes.missing import (
is_valid_na_for_dtype,
isna,
notna,
)
from pandas.core.arrays.categorical import (
Categorical,
contains,
)
from pandas.core.construction import extract_array
import pandas.core.indexes.base as ibase
from pandas.core.indexes.base import (
Index,
maybe_extract_name,
)
from pandas.core.indexes.extension import (
NDArrayBackedExtensionIndex,
inherit_names,
)
from pandas.io.formats.printing import pprint_thing
if TYPE_CHECKING:
from pandas._typing import (
Dtype,
DtypeObj,
npt,
)
_index_doc_kwargs: dict[str, str] = dict(ibase._index_doc_kwargs)
_index_doc_kwargs.update({"target_klass": "CategoricalIndex"})
@inherit_names(
[
"argsort",
"tolist",
"codes",
"categories",
"ordered",
"_reverse_indexer",
"searchsorted",
"min",
"max",
],
Categorical,
)
@inherit_names(
[
"rename_categories",
"reorder_categories",
"add_categories",
"remove_categories",
"remove_unused_categories",
"set_categories",
"as_ordered",
"as_unordered",
],
Categorical,
wrap=True,
)
class CategoricalIndex(NDArrayBackedExtensionIndex):
"""
Index based on an underlying :class:`Categorical`.
CategoricalIndex, like Categorical, can only take on a limited,
and usually fixed, number of possible values (`categories`). Also,
like Categorical, it might have an order, but numerical operations
(additions, divisions, ...) are not possible.
Parameters
----------
data : array-like (1-dimensional)
The values of the categorical. If `categories` are given, values not in
`categories` will be replaced with NaN.
categories : index-like, optional
The categories for the categorical. Items need to be unique.
If the categories are not given here (and also not in `dtype`), they
will be inferred from the `data`.
ordered : bool, optional
Whether or not this categorical is treated as an ordered
categorical. If not given here or in `dtype`, the resulting
categorical will be unordered.
dtype : CategoricalDtype or "category", optional
If :class:`CategoricalDtype`, cannot be used together with
`categories` or `ordered`.
copy : bool, default False
Make a copy of input ndarray.
name : object, optional
Name to be stored in the index.
Attributes
----------
codes
categories
ordered
Methods
-------
rename_categories
reorder_categories
add_categories
remove_categories
remove_unused_categories
set_categories
as_ordered
as_unordered
map
Raises
------
ValueError
If the categories do not validate.
TypeError
If an explicit ``ordered=True`` is given but no `categories` and the
`values` are not sortable.
See Also
--------
Index : The base pandas Index type.
Categorical : A categorical array.
CategoricalDtype : Type for categorical data.
Notes
-----
See the `user guide
<https://pandas.pydata.org/pandas-docs/stable/user_guide/advanced.html#categoricalindex>`__
for more.
Examples
--------
>>> pd.CategoricalIndex(["a", "b", "c", "a", "b", "c"])
CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'],
categories=['a', 'b', 'c'], ordered=False, dtype='category')
``CategoricalIndex`` can also be instantiated from a ``Categorical``:
>>> c = pd.Categorical(["a", "b", "c", "a", "b", "c"])
>>> pd.CategoricalIndex(c)
CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'],
categories=['a', 'b', 'c'], ordered=False, dtype='category')
Ordered ``CategoricalIndex`` can have a min and max value.
>>> ci = pd.CategoricalIndex(
... ["a", "b", "c", "a", "b", "c"], ordered=True, categories=["c", "b", "a"]
... )
>>> ci
CategoricalIndex(['a', 'b', 'c', 'a', 'b', 'c'],
categories=['c', 'b', 'a'], ordered=True, dtype='category')
>>> ci.min()
'c'
"""
_typ = "categoricalindex"
_data_cls = Categorical
@property
def _can_hold_strings(self):
return self.categories._can_hold_strings
@cache_readonly
def _should_fallback_to_positional(self) -> bool:
return self.categories._should_fallback_to_positional
codes: np.ndarray
categories: Index
ordered: bool | None
_data: Categorical
_values: Categorical
@property
def _engine_type(self) -> type[libindex.IndexEngine]:
# self.codes can have dtype int8, int16, int32 or int64, so we need
# to return the corresponding engine type (libindex.Int8Engine, etc.).
return {
np.int8: libindex.Int8Engine,
np.int16: libindex.Int16Engine,
np.int32: libindex.Int32Engine,
np.int64: libindex.Int64Engine,
}[self.codes.dtype.type]
# --------------------------------------------------------------------
# Constructors
def __new__(
cls,
data=None,
categories=None,
ordered=None,
dtype: Dtype | None = None,
copy: bool = False,
name: Hashable = None,
) -> CategoricalIndex:
name = maybe_extract_name(name, data, cls)
if is_scalar(data):
# GH#38944 include None here, which pre-2.0 subbed in []
cls._raise_scalar_data_error(data)
data = Categorical(
data, categories=categories, ordered=ordered, dtype=dtype, copy=copy
)
return cls._simple_new(data, name=name)
# --------------------------------------------------------------------
def _is_dtype_compat(self, other) -> Categorical:
"""
*this is an internal non-public method*
provide a comparison between the dtype of self and other (coercing if
needed)
Parameters
----------
other : Index
Returns
-------
Categorical
Raises
------
TypeError if the dtypes are not compatible
"""
if is_categorical_dtype(other):
other = extract_array(other)
if not other._categories_match_up_to_permutation(self):
raise TypeError(
"categories must match existing categories when appending"
)
elif other._is_multi:
# preempt raising NotImplementedError in isna call
raise TypeError("MultiIndex is not dtype-compatible with CategoricalIndex")
else:
values = other
cat = Categorical(other, dtype=self.dtype)
other = CategoricalIndex(cat)
if not other.isin(values).all():
raise TypeError(
"cannot append a non-category item to a CategoricalIndex"
)
other = other._values
if not ((other == values) | (isna(other) & isna(values))).all():
# GH#37667 see test_equals_non_category
raise TypeError(
"categories must match existing categories when appending"
)
return other
def equals(self, other: object) -> bool:
"""
Determine if two CategoricalIndex objects contain the same elements.
Returns
-------
bool
If two CategoricalIndex objects have equal elements True,
otherwise False.
"""
if self.is_(other):
return True
if not isinstance(other, Index):
return False
try:
other = self._is_dtype_compat(other)
except (TypeError, ValueError):
return False
return self._data.equals(other)
# --------------------------------------------------------------------
# Rendering Methods
@property
def _formatter_func(self):
return self.categories._formatter_func
def _format_attrs(self):
"""
Return a list of tuples of the (attr,formatted_value)
"""
attrs: list[tuple[str, str | int | bool | None]]
attrs = [
(
"categories",
f"[{', '.join(self._data._repr_categories())}]",
),
("ordered", self.ordered),
]
extra = super()._format_attrs()
return attrs + extra
def _format_with_header(self, header: list[str], na_rep: str) -> list[str]:
result = [
pprint_thing(x, escape_chars=("\t", "\r", "\n")) if notna(x) else na_rep
for x in self._values
]
return header + result
# --------------------------------------------------------------------
@property
def inferred_type(self) -> str:
return "categorical"
@doc(Index.__contains__)
def __contains__(self, key: Any) -> bool:
# if key is a NaN, check if any NaN is in self.
if is_valid_na_for_dtype(key, self.categories.dtype):
return self.hasnans
return contains(self, key, container=self._engine)
def reindex(
self, target, method=None, level=None, limit=None, tolerance=None
) -> tuple[Index, npt.NDArray[np.intp] | None]:
"""
Create index with target's values (move/add/delete values as necessary)
Returns
-------
new_index : pd.Index
Resulting index
indexer : np.ndarray[np.intp] or None
Indices of output values in original index
"""
if method is not None:
raise NotImplementedError(
"argument method is not implemented for CategoricalIndex.reindex"
)
if level is not None:
raise NotImplementedError(
"argument level is not implemented for CategoricalIndex.reindex"
)
if limit is not None:
raise NotImplementedError(
"argument limit is not implemented for CategoricalIndex.reindex"
)
return super().reindex(target)
# --------------------------------------------------------------------
# Indexing Methods
def _maybe_cast_indexer(self, key) -> int:
# GH#41933: we have to do this instead of self._data._validate_scalar
# because this will correctly get partial-indexing on Interval categories
try:
return self._data._unbox_scalar(key)
except KeyError:
if is_valid_na_for_dtype(key, self.categories.dtype):
return -1
raise
def _maybe_cast_listlike_indexer(self, values) -> CategoricalIndex:
if isinstance(values, CategoricalIndex):
values = values._data
if isinstance(values, Categorical):
# Indexing on codes is more efficient if categories are the same,
# so we can apply some optimizations based on the degree of
# dtype-matching.
cat = self._data._encode_with_my_categories(values)
codes = cat._codes
else:
codes = self.categories.get_indexer(values)
codes = codes.astype(self.codes.dtype, copy=False)
cat = self._data._from_backing_data(codes)
return type(self)._simple_new(cat)
# --------------------------------------------------------------------
def _is_comparable_dtype(self, dtype: DtypeObj) -> bool:
return self.categories._is_comparable_dtype(dtype)
def map(self, mapper):
"""
Map values using input an input mapping or function.
Maps the values (their categories, not the codes) of the index to new
categories. If the mapping correspondence is one-to-one the result is a
:class:`~pandas.CategoricalIndex` which has the same order property as
the original, otherwise an :class:`~pandas.Index` is returned.
If a `dict` or :class:`~pandas.Series` is used any unmapped category is
mapped to `NaN`. Note that if this happens an :class:`~pandas.Index`
will be returned.
Parameters
----------
mapper : function, dict, or Series
Mapping correspondence.
Returns
-------
pandas.CategoricalIndex or pandas.Index
Mapped index.
See Also
--------
Index.map : Apply a mapping correspondence on an
:class:`~pandas.Index`.
Series.map : Apply a mapping correspondence on a
:class:`~pandas.Series`.
Series.apply : Apply more complex functions on a
:class:`~pandas.Series`.
Examples
--------
>>> idx = pd.CategoricalIndex(['a', 'b', 'c'])
>>> idx
CategoricalIndex(['a', 'b', 'c'], categories=['a', 'b', 'c'],
ordered=False, dtype='category')
>>> idx.map(lambda x: x.upper())
CategoricalIndex(['A', 'B', 'C'], categories=['A', 'B', 'C'],
ordered=False, dtype='category')
>>> idx.map({'a': 'first', 'b': 'second', 'c': 'third'})
CategoricalIndex(['first', 'second', 'third'], categories=['first',
'second', 'third'], ordered=False, dtype='category')
If the mapping is one-to-one the ordering of the categories is
preserved:
>>> idx = pd.CategoricalIndex(['a', 'b', 'c'], ordered=True)
>>> idx
CategoricalIndex(['a', 'b', 'c'], categories=['a', 'b', 'c'],
ordered=True, dtype='category')
>>> idx.map({'a': 3, 'b': 2, 'c': 1})
CategoricalIndex([3, 2, 1], categories=[3, 2, 1], ordered=True,
dtype='category')
If the mapping is not one-to-one an :class:`~pandas.Index` is returned:
>>> idx.map({'a': 'first', 'b': 'second', 'c': 'first'})
Index(['first', 'second', 'first'], dtype='object')
If a `dict` is used, all unmapped categories are mapped to `NaN` and
the result is an :class:`~pandas.Index`:
>>> idx.map({'a': 'first', 'b': 'second'})
Index(['first', 'second', nan], dtype='object')
"""
mapped = self._values.map(mapper)
return Index(mapped, name=self.name)
def _concat(self, to_concat: list[Index], name: Hashable) -> Index:
# if calling index is category, don't check dtype of others
try:
cat = Categorical._concat_same_type(
[self._is_dtype_compat(c) for c in to_concat]
)
except TypeError:
# not all to_concat elements are among our categories (or NA)
from pandas.core.dtypes.concat import concat_compat
res = concat_compat([x._values for x in to_concat])
return Index(res, name=name)
else:
return type(self)._simple_new(cat, name=name)