Handle last-in-view time slicing edge case
Whenever the last datum is in view `slice_from_time()` need to always spec the final array index (i.e. the len - 1 value we set as `read_i_max`) to avoid a uniform-step arithmetic error where gaps in the underlying time series causes an index that's too low to be returned.pre_viz_calls
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37ac1d0ad6
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@ -17,6 +17,11 @@
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Super fast ``QPainterPath`` generation related operator routines.
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"""
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from math import (
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ceil,
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floor,
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)
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import numpy as np
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from numpy.lib import recfunctions as rfn
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from numba import (
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@ -308,22 +313,32 @@ def slice_from_time(
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)
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times = arr['time']
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t_first = round(times[0])
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t_first = floor(times[0])
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t_last = ceil(times[-1])
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# the greatest index we can return which slices to the
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# end of the input array.
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read_i_max = arr.shape[0]
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# TODO: require this is always passed in?
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if step is None:
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step = round(times[-1] - times[-2])
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step = round(t_last - times[-2])
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if step == 0:
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# XXX: HOW TF is this happening?
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step = 1
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# compute (presumed) uniform-time-step index offsets
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i_start_t = round(start_t)
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read_i_start = round(((i_start_t - t_first) // step)) - 1
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i_start_t = floor(start_t)
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read_i_start = floor(((i_start_t - t_first) // step)) - 1
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i_stop_t = round(stop_t)
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read_i_stop = round((i_stop_t - t_first) // step) + 1
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i_stop_t = ceil(stop_t)
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# XXX: edge case -> always set stop index to last in array whenever
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# the input stop time is detected to be greater then the equiv time
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# stamp at that last entry.
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if i_stop_t >= t_last:
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read_i_stop = read_i_max
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else:
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read_i_stop = ceil((i_stop_t - t_first) // step) + 1
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# always clip outputs to array support
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# for read start:
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@ -367,7 +382,7 @@ def slice_from_time(
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# up_to_arith_start = index[:read_i_start]
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if (
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new_read_i_start < read_i_start
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new_read_i_start <= read_i_start
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):
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# t_diff = t_iv_start - start_t
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# print(
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@ -391,14 +406,15 @@ def slice_from_time(
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# )
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new_read_i_stop = np.searchsorted(
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times[read_i_start:],
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# times,
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i_stop_t,
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side='left',
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)
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if (
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new_read_i_stop < read_i_stop
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new_read_i_stop <= read_i_stop
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):
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read_i_stop = read_i_start + new_read_i_stop
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read_i_stop = read_i_start + new_read_i_stop + 1
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# sanity checks for range size
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# samples = (i_stop_t - i_start_t) // step
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