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