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150 lines
4.3 KiB
150 lines
4.3 KiB
1 year ago
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# cython: boundscheck=False, wraparound=False, cdivision=True
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import numpy as np
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from numpy cimport (
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int64_t,
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ndarray,
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)
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# Cython routines for window indexers
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def calculate_variable_window_bounds(
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int64_t num_values,
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int64_t window_size,
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object min_periods, # unused but here to match get_window_bounds signature
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bint center,
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str closed,
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const int64_t[:] index
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):
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"""
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Calculate window boundaries for rolling windows from a time offset.
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Parameters
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----------
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num_values : int64
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total number of values
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window_size : int64
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window size calculated from the offset
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min_periods : object
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ignored, exists for compatibility
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center : bint
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center the rolling window on the current observation
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closed : str
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string of side of the window that should be closed
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index : ndarray[int64]
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time series index to roll over
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Returns
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-------
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(ndarray[int64], ndarray[int64])
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"""
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cdef:
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bint left_closed = False
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bint right_closed = False
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ndarray[int64_t, ndim=1] start, end
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int64_t start_bound, end_bound, index_growth_sign = 1
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Py_ssize_t i, j
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if num_values <= 0:
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return np.empty(0, dtype="int64"), np.empty(0, dtype="int64")
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# default is 'right'
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if closed is None:
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closed = "right"
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if closed in ["right", "both"]:
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right_closed = True
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if closed in ["left", "both"]:
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left_closed = True
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# GH 43997:
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# If the forward and the backward facing windows
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# would result in a fraction of 1/2 a nanosecond
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# we need to make both interval ends inclusive.
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if center and window_size % 2 == 1:
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right_closed = True
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left_closed = True
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if index[num_values - 1] < index[0]:
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index_growth_sign = -1
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start = np.empty(num_values, dtype="int64")
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start.fill(-1)
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end = np.empty(num_values, dtype="int64")
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end.fill(-1)
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start[0] = 0
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# right endpoint is closed
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if right_closed:
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end[0] = 1
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# right endpoint is open
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else:
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end[0] = 0
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if center:
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end_bound = index[0] + index_growth_sign * window_size / 2
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for j in range(0, num_values):
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if (index[j] - end_bound) * index_growth_sign < 0:
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end[0] = j + 1
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elif (index[j] - end_bound) * index_growth_sign == 0 and right_closed:
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end[0] = j + 1
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elif (index[j] - end_bound) * index_growth_sign >= 0:
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end[0] = j
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break
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with nogil:
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# start is start of slice interval (including)
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# end is end of slice interval (not including)
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for i in range(1, num_values):
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if center:
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end_bound = index[i] + index_growth_sign * window_size / 2
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start_bound = index[i] - index_growth_sign * window_size / 2
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else:
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end_bound = index[i]
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start_bound = index[i] - index_growth_sign * window_size
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# left endpoint is closed
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if left_closed:
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start_bound -= 1 * index_growth_sign
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# advance the start bound until we are
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# within the constraint
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start[i] = i
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for j in range(start[i - 1], i):
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if (index[j] - start_bound) * index_growth_sign > 0:
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start[i] = j
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break
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# for centered window advance the end bound until we are
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# outside the constraint
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if center:
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for j in range(end[i - 1], num_values + 1):
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if j == num_values:
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end[i] = j
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elif ((index[j] - end_bound) * index_growth_sign == 0 and
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right_closed):
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end[i] = j + 1
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elif (index[j] - end_bound) * index_growth_sign >= 0:
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end[i] = j
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break
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# end bound is previous end
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# or current index
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elif (index[end[i - 1]] - end_bound) * index_growth_sign <= 0:
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end[i] = i + 1
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else:
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end[i] = end[i - 1]
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# right endpoint is open
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if not right_closed and not center:
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end[i] -= 1
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return start, end
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