ai-content-maker/.venv/Lib/site-packages/pandas/_libs/interval.pyx

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2024-05-03 04:18:51 +03:00
import inspect
import numbers
from operator import (
le,
lt,
)
from cpython.datetime cimport (
PyDelta_Check,
import_datetime,
)
import_datetime()
cimport cython
from cpython.object cimport (
Py_EQ,
Py_GE,
Py_GT,
Py_LE,
Py_LT,
Py_NE,
PyObject_RichCompare,
)
from cython cimport Py_ssize_t
import numpy as np
cimport numpy as cnp
from numpy cimport (
NPY_QUICKSORT,
PyArray_ArgSort,
PyArray_Take,
float32_t,
float64_t,
int32_t,
int64_t,
ndarray,
uint64_t,
)
cnp.import_array()
from pandas._libs cimport util
from pandas._libs.hashtable cimport Int64Vector
from pandas._libs.tslibs.timedeltas cimport _Timedelta
from pandas._libs.tslibs.timestamps cimport _Timestamp
from pandas._libs.tslibs.timezones cimport tz_compare
from pandas._libs.tslibs.util cimport (
is_float_object,
is_integer_object,
is_timedelta64_object,
)
VALID_CLOSED = frozenset(['left', 'right', 'both', 'neither'])
cdef class IntervalMixin:
@property
def closed_left(self):
"""
Check if the interval is closed on the left side.
For the meaning of `closed` and `open` see :class:`~pandas.Interval`.
Returns
-------
bool
True if the Interval is closed on the left-side.
"""
return self.closed in ('left', 'both')
@property
def closed_right(self):
"""
Check if the interval is closed on the right side.
For the meaning of `closed` and `open` see :class:`~pandas.Interval`.
Returns
-------
bool
True if the Interval is closed on the left-side.
"""
return self.closed in ('right', 'both')
@property
def open_left(self):
"""
Check if the interval is open on the left side.
For the meaning of `closed` and `open` see :class:`~pandas.Interval`.
Returns
-------
bool
True if the Interval is not closed on the left-side.
"""
return not self.closed_left
@property
def open_right(self):
"""
Check if the interval is open on the right side.
For the meaning of `closed` and `open` see :class:`~pandas.Interval`.
Returns
-------
bool
True if the Interval is not closed on the left-side.
"""
return not self.closed_right
@property
def mid(self):
"""
Return the midpoint of the Interval.
"""
try:
return 0.5 * (self.left + self.right)
except TypeError:
# datetime safe version
return self.left + 0.5 * self.length
@property
def length(self):
"""
Return the length of the Interval.
"""
return self.right - self.left
@property
def is_empty(self):
"""
Indicates if an interval is empty, meaning it contains no points.
.. versionadded:: 0.25.0
Returns
-------
bool or ndarray
A boolean indicating if a scalar :class:`Interval` is empty, or a
boolean ``ndarray`` positionally indicating if an ``Interval`` in
an :class:`~arrays.IntervalArray` or :class:`IntervalIndex` is
empty.
Examples
--------
An :class:`Interval` that contains points is not empty:
>>> pd.Interval(0, 1, closed='right').is_empty
False
An ``Interval`` that does not contain any points is empty:
>>> pd.Interval(0, 0, closed='right').is_empty
True
>>> pd.Interval(0, 0, closed='left').is_empty
True
>>> pd.Interval(0, 0, closed='neither').is_empty
True
An ``Interval`` that contains a single point is not empty:
>>> pd.Interval(0, 0, closed='both').is_empty
False
An :class:`~arrays.IntervalArray` or :class:`IntervalIndex` returns a
boolean ``ndarray`` positionally indicating if an ``Interval`` is
empty:
>>> ivs = [pd.Interval(0, 0, closed='neither'),
... pd.Interval(1, 2, closed='neither')]
>>> pd.arrays.IntervalArray(ivs).is_empty
array([ True, False])
Missing values are not considered empty:
>>> ivs = [pd.Interval(0, 0, closed='neither'), np.nan]
>>> pd.IntervalIndex(ivs).is_empty
array([ True, False])
"""
return (self.right == self.left) & (self.closed != 'both')
def _check_closed_matches(self, other, name='other'):
"""
Check if the closed attribute of `other` matches.
Note that 'left' and 'right' are considered different from 'both'.
Parameters
----------
other : Interval, IntervalIndex, IntervalArray
name : str
Name to use for 'other' in the error message.
Raises
------
ValueError
When `other` is not closed exactly the same as self.
"""
if self.closed != other.closed:
raise ValueError(f"'{name}.closed' is {repr(other.closed)}, "
f"expected {repr(self.closed)}.")
cdef bint _interval_like(other):
return (hasattr(other, 'left')
and hasattr(other, 'right')
and hasattr(other, 'closed'))
cdef class Interval(IntervalMixin):
"""
Immutable object implementing an Interval, a bounded slice-like interval.
Parameters
----------
left : orderable scalar
Left bound for the interval.
right : orderable scalar
Right bound for the interval.
closed : {'right', 'left', 'both', 'neither'}, default 'right'
Whether the interval is closed on the left-side, right-side, both or
neither. See the Notes for more detailed explanation.
See Also
--------
IntervalIndex : An Index of Interval objects that are all closed on the
same side.
cut : Convert continuous data into discrete bins (Categorical
of Interval objects).
qcut : Convert continuous data into bins (Categorical of Interval objects)
based on quantiles.
Period : Represents a period of time.
Notes
-----
The parameters `left` and `right` must be from the same type, you must be
able to compare them and they must satisfy ``left <= right``.
A closed interval (in mathematics denoted by square brackets) contains
its endpoints, i.e. the closed interval ``[0, 5]`` is characterized by the
conditions ``0 <= x <= 5``. This is what ``closed='both'`` stands for.
An open interval (in mathematics denoted by parentheses) does not contain
its endpoints, i.e. the open interval ``(0, 5)`` is characterized by the
conditions ``0 < x < 5``. This is what ``closed='neither'`` stands for.
Intervals can also be half-open or half-closed, i.e. ``[0, 5)`` is
described by ``0 <= x < 5`` (``closed='left'``) and ``(0, 5]`` is
described by ``0 < x <= 5`` (``closed='right'``).
Examples
--------
It is possible to build Intervals of different types, like numeric ones:
>>> iv = pd.Interval(left=0, right=5)
>>> iv
Interval(0, 5, closed='right')
You can check if an element belongs to it, or if it contains another interval:
>>> 2.5 in iv
True
>>> pd.Interval(left=2, right=5, closed='both') in iv
True
You can test the bounds (``closed='right'``, so ``0 < x <= 5``):
>>> 0 in iv
False
>>> 5 in iv
True
>>> 0.0001 in iv
True
Calculate its length
>>> iv.length
5
You can operate with `+` and `*` over an Interval and the operation
is applied to each of its bounds, so the result depends on the type
of the bound elements
>>> shifted_iv = iv + 3
>>> shifted_iv
Interval(3, 8, closed='right')
>>> extended_iv = iv * 10.0
>>> extended_iv
Interval(0.0, 50.0, closed='right')
To create a time interval you can use Timestamps as the bounds
>>> year_2017 = pd.Interval(pd.Timestamp('2017-01-01 00:00:00'),
... pd.Timestamp('2018-01-01 00:00:00'),
... closed='left')
>>> pd.Timestamp('2017-01-01 00:00') in year_2017
True
>>> year_2017.length
Timedelta('365 days 00:00:00')
"""
_typ = "interval"
__array_priority__ = 1000
cdef readonly object left
"""
Left bound for the interval.
"""
cdef readonly object right
"""
Right bound for the interval.
"""
cdef readonly str closed
"""
String describing the inclusive side the intervals.
Either ``left``, ``right``, ``both`` or ``neither``.
"""
def __init__(self, left, right, str closed='right'):
# note: it is faster to just do these checks than to use a special
# constructor (__cinit__/__new__) to avoid them
self._validate_endpoint(left)
self._validate_endpoint(right)
if closed not in VALID_CLOSED:
raise ValueError(f"invalid option for 'closed': {closed}")
if not left <= right:
raise ValueError("left side of interval must be <= right side")
if (isinstance(left, _Timestamp) and
not tz_compare(left.tzinfo, right.tzinfo)):
# GH 18538
raise ValueError("left and right must have the same time zone, got "
f"{repr(left.tzinfo)}' and {repr(right.tzinfo)}")
self.left = left
self.right = right
self.closed = closed
def _validate_endpoint(self, endpoint):
# GH 23013
if not (is_integer_object(endpoint) or is_float_object(endpoint) or
isinstance(endpoint, (_Timestamp, _Timedelta))):
raise ValueError("Only numeric, Timestamp and Timedelta endpoints "
"are allowed when constructing an Interval.")
def __hash__(self):
return hash((self.left, self.right, self.closed))
def __contains__(self, key) -> bool:
if _interval_like(key):
key_closed_left = key.closed in ('left', 'both')
key_closed_right = key.closed in ('right', 'both')
if self.open_left and key_closed_left:
left_contained = self.left < key.left
else:
left_contained = self.left <= key.left
if self.open_right and key_closed_right:
right_contained = key.right < self.right
else:
right_contained = key.right <= self.right
return left_contained and right_contained
return ((self.left < key if self.open_left else self.left <= key) and
(key < self.right if self.open_right else key <= self.right))
def __richcmp__(self, other, op: int):
if isinstance(other, Interval):
self_tuple = (self.left, self.right, self.closed)
other_tuple = (other.left, other.right, other.closed)
return PyObject_RichCompare(self_tuple, other_tuple, op)
elif util.is_array(other):
return np.array(
[PyObject_RichCompare(self, x, op) for x in other],
dtype=bool,
)
return NotImplemented
def __reduce__(self):
args = (self.left, self.right, self.closed)
return (type(self), args)
def _repr_base(self):
left = self.left
right = self.right
# TODO: need more general formatting methodology here
if isinstance(left, _Timestamp) and isinstance(right, _Timestamp):
left = left._short_repr
right = right._short_repr
return left, right
def __repr__(self) -> str:
left, right = self._repr_base()
name = type(self).__name__
repr_str = f'{name}({repr(left)}, {repr(right)}, closed={repr(self.closed)})'
return repr_str
def __str__(self) -> str:
left, right = self._repr_base()
start_symbol = '[' if self.closed_left else '('
end_symbol = ']' if self.closed_right else ')'
return f'{start_symbol}{left}, {right}{end_symbol}'
def __add__(self, y):
if (
isinstance(y, numbers.Number)
or PyDelta_Check(y)
or is_timedelta64_object(y)
):
return Interval(self.left + y, self.right + y, closed=self.closed)
elif (
# __radd__ pattern
# TODO(cython3): remove this
isinstance(y, Interval)
and (
isinstance(self, numbers.Number)
or PyDelta_Check(self)
or is_timedelta64_object(self)
)
):
return Interval(y.left + self, y.right + self, closed=y.closed)
return NotImplemented
def __radd__(self, other):
if (
isinstance(other, numbers.Number)
or PyDelta_Check(other)
or is_timedelta64_object(other)
):
return Interval(self.left + other, self.right + other, closed=self.closed)
return NotImplemented
def __sub__(self, y):
if (
isinstance(y, numbers.Number)
or PyDelta_Check(y)
or is_timedelta64_object(y)
):
return Interval(self.left - y, self.right - y, closed=self.closed)
return NotImplemented
def __mul__(self, y):
if isinstance(y, numbers.Number):
return Interval(self.left * y, self.right * y, closed=self.closed)
elif isinstance(y, Interval) and isinstance(self, numbers.Number):
# __radd__ semantics
# TODO(cython3): remove this
return Interval(y.left * self, y.right * self, closed=y.closed)
return NotImplemented
def __rmul__(self, other):
if isinstance(other, numbers.Number):
return Interval(self.left * other, self.right * other, closed=self.closed)
return NotImplemented
def __truediv__(self, y):
if isinstance(y, numbers.Number):
return Interval(self.left / y, self.right / y, closed=self.closed)
return NotImplemented
def __floordiv__(self, y):
if isinstance(y, numbers.Number):
return Interval(
self.left // y, self.right // y, closed=self.closed)
return NotImplemented
def overlaps(self, other):
"""
Check whether two Interval objects overlap.
Two intervals overlap if they share a common point, including closed
endpoints. Intervals that only have an open endpoint in common do not
overlap.
Parameters
----------
other : Interval
Interval to check against for an overlap.
Returns
-------
bool
True if the two intervals overlap.
See Also
--------
IntervalArray.overlaps : The corresponding method for IntervalArray.
IntervalIndex.overlaps : The corresponding method for IntervalIndex.
Examples
--------
>>> i1 = pd.Interval(0, 2)
>>> i2 = pd.Interval(1, 3)
>>> i1.overlaps(i2)
True
>>> i3 = pd.Interval(4, 5)
>>> i1.overlaps(i3)
False
Intervals that share closed endpoints overlap:
>>> i4 = pd.Interval(0, 1, closed='both')
>>> i5 = pd.Interval(1, 2, closed='both')
>>> i4.overlaps(i5)
True
Intervals that only have an open endpoint in common do not overlap:
>>> i6 = pd.Interval(1, 2, closed='neither')
>>> i4.overlaps(i6)
False
"""
if not isinstance(other, Interval):
raise TypeError("`other` must be an Interval, "
f"got {type(other).__name__}")
# equality is okay if both endpoints are closed (overlap at a point)
op1 = le if (self.closed_left and other.closed_right) else lt
op2 = le if (other.closed_left and self.closed_right) else lt
# overlaps is equivalent negation of two interval being disjoint:
# disjoint = (A.left > B.right) or (B.left > A.right)
# (simplifying the negation allows this to be done in less operations)
return op1(self.left, other.right) and op2(other.left, self.right)
@cython.wraparound(False)
@cython.boundscheck(False)
def intervals_to_interval_bounds(ndarray intervals, bint validate_closed=True):
"""
Parameters
----------
intervals : ndarray
Object array of Intervals / nulls.
validate_closed: bool, default True
Boolean indicating if all intervals must be closed on the same side.
Mismatching closed will raise if True, else return None for closed.
Returns
-------
tuple of
left : ndarray
right : ndarray
closed: str
"""
cdef:
object closed = None, interval
Py_ssize_t i, n = len(intervals)
ndarray left, right
bint seen_closed = False
left = np.empty(n, dtype=intervals.dtype)
right = np.empty(n, dtype=intervals.dtype)
for i in range(n):
interval = intervals[i]
if interval is None or util.is_nan(interval):
left[i] = np.nan
right[i] = np.nan
continue
if not isinstance(interval, Interval):
raise TypeError(f"type {type(interval)} with value "
f"{interval} is not an interval")
left[i] = interval.left
right[i] = interval.right
if not seen_closed:
seen_closed = True
closed = interval.closed
elif closed != interval.closed:
closed = None
if validate_closed:
raise ValueError("intervals must all be closed on the same side")
return left, right, closed
include "intervaltree.pxi"