Handle "target-is-shorter-then-pinned" case
When the target pinning curve (by default, the dispersion major) is shorter then the pinned curve, we need to make sure we find still find the x-intersect for computing returns scalars! Use `Viz.i_from_t()` to accomplish this as well and, augment that method with a `return_y: bool` to allow the caller to also retrieve the equivalent y-value at the requested input time `t: float` for convenience. Also tweak a few more internals around the 'loglin_ref_to_curve' method: - only solve / adjust for the above case when the major's xref is detected as being "earlier" in time the current minor's. - pop the major viz entry from the overlay table ahead of time to avoid a needless iteration and simplify the transform calc phase loop to avoid handling that needless cycle B) - add much better "organized" debug printing with more clear headers around which "phase"/loop the message pertains and well as more explicit details in terms of x and y-range values on each cycle of each loop.storage_cli
parent
7a37c700e5
commit
4da772292f
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@ -26,6 +26,7 @@ from typing import (
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)
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)
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import numpy as np
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import numpy as np
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import pendulum
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import pyqtgraph as pg
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import pyqtgraph as pg
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from ..data.types import Struct
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from ..data.types import Struct
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@ -247,10 +248,11 @@ def overlay_viewlists(
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continue
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continue
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if debug_print:
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if debug_print:
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divstr = '#'*46
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print(
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print(
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f'BEGIN UX GRAPHICS CYCLE: @{chart_name}\n'
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f'BEGIN UX GRAPHICS CYCLE: @{chart_name}\n'
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+
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+
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'#'*66
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divstr
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+
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+
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'\n'
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'\n'
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)
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)
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@ -353,11 +355,16 @@ def overlay_viewlists(
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disp = r_up - r_down
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disp = r_up - r_down
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msg = (
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msg = (
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f'=> {viz.name}@{chart_name}\n'
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f'Viz[{viz.name}][{key}]: @{chart_name}\n'
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f' .yrange = {viz.vs.yrange}\n'
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f' .xrange = {viz.vs.xrange}\n\n'
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f'start_t: {start_t}\n'
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f'y_ref: {y_ref}\n'
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f'y_ref: {y_ref}\n'
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f'down disp: {r_down}\n'
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f'ymn: {ymn}\n'
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f'up disp: {r_up}\n'
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f'ymx: {ymx}\n'
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f'full disp: {disp}\n'
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f'r_up disp: {r_up}\n'
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f'r_down: {r_down}\n'
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f'(full) disp: {disp}\n'
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)
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)
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profiler(msg)
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profiler(msg)
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if debug_print:
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if debug_print:
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@ -378,10 +385,7 @@ def overlay_viewlists(
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dnt.start_t = in_view[0]['time']
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dnt.start_t = in_view[0]['time']
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dnt.y_val = ymn
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dnt.y_val = ymn
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msg = f'NEW DOWN: {viz.name}@{chart_name} r: {r_down}'
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profiler(f'NEW DOWN: {viz.name}@{chart_name} r: {r_down}')
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profiler(msg)
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if debug_print:
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print(msg)
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else:
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else:
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# minor in the down swing range so check that if
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# minor in the down swing range so check that if
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# we apply the current rng to the minor that it
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# we apply the current rng to the minor that it
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@ -439,10 +443,7 @@ def overlay_viewlists(
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upt.in_view = in_view
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upt.in_view = in_view
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upt.start_t = in_view[0]['time']
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upt.start_t = in_view[0]['time']
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upt.y_val = ymx
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upt.y_val = ymx
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msg = f'NEW UP: {viz.name}@{chart_name} r: {r_up}'
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profiler(f'NEW UP: {viz.name}@{chart_name} r: {r_up}')
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profiler(msg)
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if debug_print:
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print(msg)
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else:
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else:
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intersect = intersect_from_longer(
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intersect = intersect_from_longer(
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@ -535,21 +536,32 @@ def overlay_viewlists(
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# no overlay transforming is needed.
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# no overlay transforming is needed.
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continue
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continue
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profiler('`Viz` curve first pass complete\n')
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profiler('`Viz` curve (first) scan phase complete\n')
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if debug_print:
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# print overlay table in descending dispersion order
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msg = 'overlays by disp:\n'
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for disp in reversed(overlay_table):
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entry = overlay_table[disp]
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msg += f'{entry[1].name}: {disp}\n'
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print(msg)
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r_up_mx: float
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r_up_mx: float
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r_dn_mn: float
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r_dn_mn: float
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mx_disp = max(overlay_table)
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mx_disp = max(overlay_table)
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mx_entry = overlay_table[mx_disp]
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if debug_print:
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# print overlay table in descending dispersion order
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msg = 'overlays in dispersion order:\n'
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for i, disp in enumerate(reversed(overlay_table)):
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entry = overlay_table[disp]
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msg += f' [{i}] {disp}: {entry[1].name}\n'
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print(
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'TRANSFORM PHASE' + '-'*100 + '\n\n'
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+
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msg
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)
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if method == 'loglin_ref_to_curve':
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mx_entry = overlay_table.pop(mx_disp)
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else:
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# TODO: for pin to first-in-view we need to no pop this from the
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# table, but can we simplify below code even more?
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mx_entry = overlay_table[mx_disp]
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(
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(
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mx_view, # viewbox
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mx_view, # viewbox
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mx_viz, # viz
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mx_viz, # viz
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@ -557,19 +569,28 @@ def overlay_viewlists(
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mx_ymn,
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mx_ymn,
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mx_ymx,
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mx_ymx,
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_, # read_slc
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_, # read_slc
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_, # in_view array
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mx_in_view, # in_view array
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r_up_mx,
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r_up_mx,
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r_dn_mn,
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r_dn_mn,
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) = mx_entry
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) = mx_entry
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mx_time = mx_in_view['time']
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mx_xref = mx_time[0]
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# conduct "log-linearized multi-plot" range transform
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# calculations for curves detected as overlays in the previous
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# loop:
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# -> iterate all curves Ci in dispersion-measure sorted order
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# going from smallest swing to largest via the
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# ``overlay_table: dict``,
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# -> match on overlay ``method: str`` provided by caller,
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# -> calc y-ranges from each curve's time series and store in
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# a final table ``scaled: dict`` for final application in the
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# scaling loop; the final phase.
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scaled: dict[
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scaled: dict[
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float,
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float,
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tuple[Viz, float, float, float, float]
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tuple[Viz, float, float, float, float]
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] = {}
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] = {}
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# conduct "log-linearized multi-plot" scalings for all groups
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# -> iterate all curves Ci in dispersion-measure sorted order
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# going from smallest swing to largest.
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for full_disp in reversed(overlay_table):
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for full_disp in reversed(overlay_table):
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(
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(
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view,
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view,
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@ -601,125 +622,160 @@ def overlay_viewlists(
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# scaling to all curves, including the major-target,
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# scaling to all curves, including the major-target,
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# which were previously scaled before.
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# which were previously scaled before.
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case 'loglin_ref_to_curve':
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case 'loglin_ref_to_curve':
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if viz is not mx_viz:
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# calculate y-range scalars from the earliest
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# calculate y-range scalars from the earliest
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# "intersect" datum with the target-major
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# "intersect" datum with the target-major
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# (dispersion) curve so as to "pin" the curves
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# (dispersion) curve so as to "pin" the curves
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# in the y-domain at that spot.
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# in the y-domain at that spot.
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# NOTE: there are 2 cases for un-matched support
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# in x-domain (where one series is shorter then the
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# other):
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# => major is longer then minor:
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# - need to scale the minor *from* the first
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# supported datum in both series.
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#
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# => major is shorter then minor:
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# - need to scale the minor *from* the first
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# supported datum in both series (the
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# intersect x-value) but using the
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# intersecting point from the minor **not**
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# its first value in view!
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yref = y_start
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if mx_xref > xref:
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(
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(
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i_start,
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xref_pin,
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y_ref_major,
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yref,
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r_major_up_here,
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) = viz.i_from_t(
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r_major_down_here,
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mx_xref,
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) = mx_viz.scalars_from_index(xref)
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return_y=True,
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)
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ymn = y_start * (1 + r_major_down_here)
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xref_pin_dt = pendulum.from_timestamp(xref_pin)
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ymx = y_start * (1 + r_major_up_here)
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xref = mx_xref
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# if this curve's y-range is detected as **not
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# being in view** after applying the
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# target-major's transform, adjust the
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# target-major curve's range to (log-linearly)
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# include it (the extra missing range) by
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# adjusting the y-mxmn to this new y-range and
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# applying the inverse transform of the minor
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# back on the target-major (and possibly any
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# other previously-scaled-to-target/major, minor
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# curves).
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if ymn >= y_min:
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ymn = y_min
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r_dn_minor = (ymn - y_start) / y_start
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# rescale major curve's y-max to include new
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# range increase required by **this minor**.
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mx_ymn = y_ref_major * (1 + r_dn_minor)
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mx_viz.vs.yrange = mx_ymn, mx_viz.vs.yrange[1]
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# rescale all already scaled curves to new
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# increased range for this side as
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# determined by ``y_min`` staying in view;
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# re-set the `scaled: dict` entry to
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# ensure that this minor curve will be
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# entirely in view.
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# TODO: re updating already-scaled minor curves
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# - is there a faster way to do this by
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# mutating state on some object instead?
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for _view in scaled:
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_viz, _yref, _ymn, _ymx, _xref = scaled[_view]
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(
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_,
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_,
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_,
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r_major_down_here,
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) = mx_viz.scalars_from_index(_xref)
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new_ymn = _yref * (1 + r_major_down_here)
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scaled[_view] = (
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_viz, _yref, new_ymn, _ymx, _xref)
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if debug_print:
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print(
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f'RESCALE {_viz.name} ymn -> {new_ymn}'
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f'RESCALE MAJ ymn -> {mx_ymn}'
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)
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# same as above but for minor being out-of-range
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# on the upside.
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if ymx <= y_max:
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ymx = y_max
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r_up_minor = (ymx - y_start) / y_start
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mx_ymx = y_ref_major * (1 + r_up_minor)
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mx_viz.vs.yrange = mx_viz.vs.yrange[0], mx_ymx
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for _view in scaled:
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_viz, _yref, _ymn, _ymx, _xref = scaled[_view]
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(
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_,
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_,
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r_major_up_here,
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_,
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) = mx_viz.scalars_from_index(_xref)
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new_ymx = _yref * (1 + r_major_up_here)
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scaled[_view] = (
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_viz, _yref, _ymn, new_ymx, _xref)
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if debug_print:
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print(
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f'RESCALE {_viz.name} ymn -> {new_ymx}'
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)
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# register all overlays for a final pass where we
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# apply all pinned-curve y-range transform scalings.
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scaled[view] = (viz, y_start, ymn, ymx, xref)
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if debug_print:
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if debug_print:
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print(
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print(
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f'Minor SCALARS {viz.name}:\n'
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'MAJOR SHORTER!!!\n'
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f'xref: {xref}\n'
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f'xref: {xref}\n'
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f'dn: {r_major_down_here}\n'
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f'xref_pin: {xref_pin}\n'
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f'up: {r_major_up_here}\n'
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f'xref_pin-dt: {xref_pin_dt}\n'
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f'ymn: {ymn}\n'
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f'yref@xref_pin: {yref}\n'
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f'ymx: {ymx}\n'
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)
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)
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# target/dispersion MAJOR case
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(
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else:
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i_start,
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y_ref_major,
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r_up_from_major_at_xref,
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r_down_from_major_at_xref,
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) = mx_viz.scalars_from_index(xref)
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ymn = yref * (1 + r_down_from_major_at_xref)
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ymx = yref * (1 + r_up_from_major_at_xref)
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# if this curve's y-range is detected as **not
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# being in view** after applying the
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# target-major's transform, adjust the
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# target-major curve's range to (log-linearly)
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# include it (the extra missing range) by
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# adjusting the y-mxmn to this new y-range and
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# applying the inverse transform of the minor
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# back on the target-major (and possibly any
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# other previously-scaled-to-target/major, minor
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# curves).
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if ymn >= y_min:
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ymn = y_min
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r_dn_minor = (ymn - yref) / yref
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# rescale major curve's y-max to include new
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# range increase required by **this minor**.
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mx_ymn = y_ref_major * (1 + r_dn_minor)
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mx_viz.vs.yrange = mx_ymn, mx_viz.vs.yrange[1]
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if debug_print:
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if debug_print:
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print(
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print(
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f'MAJOR SCALARS {viz.name}:\n'
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f'RESCALE {viz.name} ymn -> {y_min}'
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f'dn: {r_dn_mn}\n'
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f'RESCALE MAJ ymn -> {mx_ymn}'
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f'up: {r_up_mx}\n'
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)
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f'mx_ymn: {mx_ymn}\n'
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# rescale all already scaled curves to new
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f'mx_ymx: {mx_ymx}\n'
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# increased range for this side as
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# determined by ``y_min`` staying in view;
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# re-set the `scaled: dict` entry to
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# ensure that this minor curve will be
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# entirely in view.
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# TODO: re updating already-scaled minor curves
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# - is there a faster way to do this by
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# mutating state on some object instead?
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for _view in scaled:
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_viz, _yref, _ymn, _ymx, _xref = scaled[_view]
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(
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_,
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_,
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_,
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r_down_from_out_of_range,
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) = mx_viz.scalars_from_index(_xref)
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new_ymn = _yref * (1 + r_down_from_out_of_range)
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scaled[_view] = (
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_viz, _yref, new_ymn, _ymx, _xref)
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if debug_print:
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print(
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f'RESCALE {_viz.name} ymn -> {new_ymn}'
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f'RESCALE MAJ ymn -> {mx_ymn}'
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)
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# same as above but for minor being out-of-range
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# on the upside.
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if ymx <= y_max:
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ymx = y_max
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r_up_minor = (ymx - yref) / yref
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mx_ymx = y_ref_major * (1 + r_up_minor)
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||||||
|
mx_viz.vs.yrange = mx_viz.vs.yrange[0], mx_ymx
|
||||||
|
|
||||||
|
if debug_print:
|
||||||
|
print(
|
||||||
|
f'RESCALE {viz.name} ymn -> {y_max}'
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||||||
|
f'RESCALE MAJ ymx -> {mx_ymx}'
|
||||||
)
|
)
|
||||||
|
|
||||||
# target/major curve's mxmn may have been
|
for _view in scaled:
|
||||||
# reset by minor overlay steps above.
|
_viz, _yref, _ymn, _ymx, _xref = scaled[_view]
|
||||||
ymn = mx_ymn
|
(
|
||||||
ymx = mx_ymx
|
_,
|
||||||
|
_,
|
||||||
|
r_up_from_out_of_range,
|
||||||
|
_,
|
||||||
|
) = mx_viz.scalars_from_index(_xref)
|
||||||
|
|
||||||
|
new_ymx = _yref * (1 + r_up_from_out_of_range)
|
||||||
|
scaled[_view] = (
|
||||||
|
_viz, _yref, _ymn, new_ymx, _xref)
|
||||||
|
|
||||||
|
if debug_print:
|
||||||
|
print(
|
||||||
|
f'RESCALE {_viz.name} ymn -> {new_ymx}'
|
||||||
|
)
|
||||||
|
|
||||||
|
# register all overlays for a final pass where we
|
||||||
|
# apply all pinned-curve y-range transform scalings.
|
||||||
|
scaled[view] = (viz, yref, ymn, ymx, xref)
|
||||||
|
|
||||||
|
if debug_print:
|
||||||
|
print(
|
||||||
|
f'Viz[{viz.name}]: @ {chart_name}\n'
|
||||||
|
f' .yrange = {viz.vs.yrange}\n'
|
||||||
|
f' .xrange = {viz.vs.xrange}\n\n'
|
||||||
|
f'xref: {xref}\n'
|
||||||
|
f'xref-dt: {pendulum.from_timestamp(xref)}\n'
|
||||||
|
f'y_min: {y_min}\n'
|
||||||
|
f'y_max: {y_max}\n'
|
||||||
|
f'RESCALING\n'
|
||||||
|
f'r dn: {r_down_from_major_at_xref}\n'
|
||||||
|
f'r up: {r_up_from_major_at_xref}\n'
|
||||||
|
f'ymn: {ymn}\n'
|
||||||
|
f'ymx: {ymx}\n'
|
||||||
|
)
|
||||||
|
|
||||||
# Pin all curves by their first datum in view to all
|
# Pin all curves by their first datum in view to all
|
||||||
# others such that each curve's earliest datum provides the
|
# others such that each curve's earliest datum provides the
|
||||||
|
@ -742,6 +798,22 @@ def overlay_viewlists(
|
||||||
)
|
)
|
||||||
|
|
||||||
if scaled:
|
if scaled:
|
||||||
|
if debug_print:
|
||||||
|
print(
|
||||||
|
'SCALING PHASE' + '-'*100 + '\n\n'
|
||||||
|
'_________MAJOR INFO___________\n'
|
||||||
|
f'SIGMA MAJOR C: {mx_viz.name} -> {mx_disp}\n'
|
||||||
|
f'UP MAJOR C: {upt.viz.name} with disp: {upt.rng}\n'
|
||||||
|
f'DOWN MAJOR C: {dnt.viz.name} with disp: {dnt.rng}\n'
|
||||||
|
f'xref: {mx_xref}\n'
|
||||||
|
f'xref-dt: {pendulum.from_timestamp(mx_xref)}\n'
|
||||||
|
f'dn: {r_dn_mn}\n'
|
||||||
|
f'up: {r_up_mx}\n'
|
||||||
|
f'mx_ymn: {mx_ymn}\n'
|
||||||
|
f'mx_ymx: {mx_ymx}\n'
|
||||||
|
'------------------------------'
|
||||||
|
)
|
||||||
|
|
||||||
for (
|
for (
|
||||||
view,
|
view,
|
||||||
(viz, yref, ymn, ymx, xref)
|
(viz, yref, ymn, ymx, xref)
|
||||||
|
@ -757,32 +829,30 @@ def overlay_viewlists(
|
||||||
|
|
||||||
if debug_print:
|
if debug_print:
|
||||||
print(
|
print(
|
||||||
'------------------------------\n'
|
'_________MINOR INFO___________\n'
|
||||||
f'LOGLIN SCALE CYCLE: {viz.name}@{chart_name}\n'
|
f'Viz[{viz.name}]: @ {chart_name}\n'
|
||||||
f'UP MAJOR C: {upt.viz.name} with disp: {upt.rng}\n'
|
f' .yrange = {viz.vs.yrange}\n'
|
||||||
f'DOWN MAJOR C: {dnt.viz.name} with disp: {dnt.rng}\n'
|
f' .xrange = {viz.vs.xrange}\n\n'
|
||||||
f'SIGMA MAJOR C: {mx_viz.name} -> {mx_disp}\n'
|
f'xref: {xref}\n'
|
||||||
f'xref for MINOR: {xref}\n'
|
f'xref-dt: {pendulum.from_timestamp(xref)}\n'
|
||||||
f'y_start: {y_start}\n'
|
f'y_start: {y_start}\n'
|
||||||
f'y min: {y_min}\n'
|
f'y min: {y_min}\n'
|
||||||
f'y max: {y_max}\n'
|
f'y max: {y_max}\n'
|
||||||
f'T scaled ymn: {ymn}\n'
|
f'T scaled ymn: {ymn}\n'
|
||||||
f'T scaled ymx: {ymx}\n'
|
f'T scaled ymx: {ymx}\n\n'
|
||||||
'------------------------------\n'
|
'--------------------------------\n'
|
||||||
f'Viz[{viz.name}]:\n'
|
|
||||||
f' .yrange = {viz.vs.yrange}\n'
|
|
||||||
f' .xrange = {viz.vs.xrange}\n'
|
|
||||||
)
|
)
|
||||||
|
|
||||||
# finally, scale major curve to possibly re-scaled/modified
|
# finally, scale the major target/dispersion curve to
|
||||||
# values
|
# the (possibly re-scaled/modified) values were set in
|
||||||
|
# transform phase loop.
|
||||||
mx_view._set_yrange(yrange=(mx_ymn, mx_ymx))
|
mx_view._set_yrange(yrange=(mx_ymn, mx_ymx))
|
||||||
|
|
||||||
if debug_print:
|
if debug_print:
|
||||||
print(
|
print(
|
||||||
f'END UX GRAPHICS CYCLE: @{chart_name}\n'
|
f'END UX GRAPHICS CYCLE: @{chart_name}\n'
|
||||||
+
|
+
|
||||||
'#'*66
|
divstr
|
||||||
+
|
+
|
||||||
'\n'
|
'\n'
|
||||||
)
|
)
|
||||||
|
|
Loading…
Reference in New Issue