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paper_2025/python/fig_invariance_full.py

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import plotstyle_plt
import numpy as np
import matplotlib.pyplot as plt
from itertools import product
from thunderhopper.filetools import search_files
from thunderhopper.modeltools import load_data
from misc_functions import get_saturation
from color_functions import load_colors
from plot_functions import hide_axis, ylimits, xlabel, ylabel, title_subplot,\
plot_line, strip_zeros, time_bar,\
letter_subplot, letter_subplots
from IPython import embed
def plot_snippets(axes, time, snippets, ymin=None, ymax=None, **kwargs):
ymin, ymax = ylimits(snippets, minval=ymin, maxval=ymax, pad=0.05)
for i, ax in enumerate(axes):
plot_line(ax, time, snippets[:, ..., i], ymin=ymin, ymax=ymax, **kwargs)
return None
def plot_curves(ax, scales, measures, fill_kwargs={}, **kwargs):
if measures.ndim == 1:
ax.plot(scales, measures, **kwargs)[0]
return measures
median_measure = np.median(measures, axis=1)
spread_measure = [np.percentile(measures, 25, axis=1),
np.percentile(measures, 75, axis=1)]
ax.plot(scales, median_measure, **kwargs)[0]
ax.fill_between(scales, *spread_measure, **fill_kwargs)
return median_measure
def show_saturation(ax, scales, measures, high=0.95, **kwargs):
high_ind = get_saturation(measures, high=high)[1]
return ax.plot(scales[high_ind], 0, transform=ax.get_xaxis_transform(),
marker='o', ms=10, zorder=6, clip_on=False, **kwargs)
# GENERAL SETTINGS:
target_species = [
'Chorthippus_biguttulus',
'Chorthippus_mollis',
'Chrysochraon_dispar',
'Euchorthippus_declivus',
'Gomphocerippus_rufus',
'Omocestus_rufipes',
'Pseudochorthippus_parallelus',
][5]
example_file = {
'Chorthippus_biguttulus': 'Chorthippus_biguttulus_GBC_94-17s73.1ms-19s977ms',
'Chorthippus_mollis': 'Chorthippus_mollis_DJN_41_T28C-46s4.58ms-1m15s697ms',
'Chrysochraon_dispar': 'Chrysochraon_dispar_DJN_26_T28C_DT-32s134ms-34s432ms',
'Euchorthippus_declivus': 'Euchorthippus_declivus_FTN_79-2s167ms-2s563ms',
'Gomphocerippus_rufus': 'Gomphocerippus_rufus_FTN_91-3-884ms-10s427ms',
'Omocestus_rufipes': 'Omocestus_rufipes_DJN_32-40s724ms-48s779ms',
'Pseudochorthippus_parallelus': 'Pseudochorthippus_parallelus_GBC_88-6s678ms-9s32.3ms'
}[target_species]
raw_path = search_files(target_species, incl='raw', dir='../data/inv/full/condensed/')[0]
norm_path = search_files(target_species, incl='norm', dir='../data/inv/full/condensed/')[0]
snip_path = search_files(example_file, dir='../data/inv/full/')[0]
trace_path = search_files(target_species, dir='../data/inv/full/collected/')[0]
ref_path = '../data/inv/full/ref_measures.npz'
save_path = '../figures/fig_invariance_full.pdf'
stages = ['filt', 'env', 'log', 'inv', 'conv', 'feat']
load_kwargs = dict(
files=stages,
keywords=['scales', 'snip', 'measure']
)
# GRAPH SETTINGS:
fig_kwargs = dict(
figsize=(32/2.54, 20/2.54),
)
super_grid_kwargs = dict(
nrows=2,
ncols=1,
wspace=0,
hspace=0,
left=0,
right=1,
bottom=0,
top=1,
height_ratios=[3, 2]
)
subfig_specs = dict(
snip=(0, 0),
big=(1, 0),
)
snip_grid_kwargs = dict(
nrows=len(stages),
ncols=None,
wspace=0.1,
hspace=0.4,
left=0.08,
right=0.95,
bottom=0.08,
top=0.95
)
big_grid_kwargs = dict(
nrows=1,
ncols=3,
wspace=0.2,
hspace=0,
left=snip_grid_kwargs['left'],
right=0.96,
bottom=0.2,
top=0.95
)
# PLOT SETTINGS:
fs = dict(
lab_norm=16,
lab_tex=20,
letter=22,
tit_norm=16,
tit_tex=20,
bar=16,
)
colors = load_colors('../data/stage_colors.npz')
lw = dict(
filt=0.25,
env=0.25,
log=0.25,
inv=0.25,
conv=0.25,
feat=1,
big=3,
plateau=1.5,
)
xlabels = dict(
big='scale $\\alpha$',
)
ylabels = dict(
filt='$x_{\\text{filt}}$',
env='$x_{\\text{env}}$',
log='$x_{\\text{db}}$',
inv='$x_{\\text{inv}}$',
conv='$c_i$',
feat='$f_i$',
big=['intensity', 'rel. intensity', 'norm. intensity']
)
xlab_big_kwargs = dict(
y=0,
fontsize=fs['lab_norm'],
ha='center',
va='bottom',
)
ylab_snip_kwargs = dict(
x=0,
fontsize=fs['lab_tex'],
rotation=0,
ha='left',
va='center'
)
ylab_big_kwargs = dict(
x=-0.12,
fontsize=fs['lab_norm'],
ha='center',
va='bottom',
)
yloc = dict(
filt=3000,
env=1000,
log=50,
inv=20,
conv=2,
feat=1,
)
title_kwargs = dict(
x=0.5,
yref=1,
ha='center',
va='top',
fontsize=fs['tit_norm'],
)
letter_snip_kwargs = dict(
x=0,
yref=0.5,
ha='left',
va='center',
fontsize=fs['letter'],
)
letter_big_kwargs = dict(
x=0,
y=1,
ha='left',
va='bottom',
fontsize=fs['letter'],
)
bar_time = 5
bar_kwargs = dict(
dur=bar_time,
y0=-0.25,
y1=-0.1,
xshift=1,
color='k',
lw=0,
clip_on=False,
text_pos=(-0.1, 0.5),
text_str=f'${bar_time}\\,\\text{{s}}$',
text_kwargs=dict(
fontsize=fs['bar'],
ha='right',
va='center',
)
)
plateau_settings = dict(
low=0.05,
high=0.95,
first=True,
last=True,
condense=None,
)
plateau_line_kwargs = dict(
lw=lw['plateau'],
ls='--',
zorder=1,
)
plateau_dot_kwargs = dict(
marker='o',
markersize=8,
markeredgewidth=1,
clip_on=False,
)
# EXECUTION:
# Load invariance data:
raw_data, config = load_data(raw_path, files='scales', keywords='mean')
norm_data, _ = load_data(norm_path, files='scales', keywords='mean')
scales = raw_data['scales']
# Load snippet data:
snip, _ = load_data(snip_path, files='example_scales', keywords='snip')
t_full = np.arange(snip['snip_filt'].shape[0]) / config['rate']
snip_scales = snip['example_scales']
# Adjust grid parameters:
snip_grid_kwargs['ncols'] = snip_scales.size
# Prepare overall graph:
fig = plt.figure(**fig_kwargs)
super_grid = fig.add_gridspec(**super_grid_kwargs)
# Prepare stage-specific snippet axes:
snip_subfig = fig.add_subfigure(super_grid[subfig_specs['snip']])
snip_grid = snip_subfig.add_gridspec(**snip_grid_kwargs)
snip_axes = np.zeros((snip_grid.nrows, snip_grid.ncols), dtype=object)
for i, j in product(range(snip_grid.nrows), range(snip_grid.ncols)):
ax = snip_subfig.add_subplot(snip_grid[i, j])
ax.set_xlim(t_full[0], t_full[-1])
ax.yaxis.set_major_locator(plt.MultipleLocator(yloc[stages[i]]))
hide_axis(ax, 'bottom')
if i == 0:
title = title_subplot(ax, f'$\\alpha={strip_zeros(snip_scales[j])}$',
ref=snip_subfig, **title_kwargs)
if j == 0:
ylabel(ax, ylabels[stages[i]], **ylab_snip_kwargs, transform=snip_subfig.transSubfigure)
else:
hide_axis(ax, 'left')
snip_axes[i, j] = ax
time_bar(snip_axes[-1, -1], **bar_kwargs)
letter_subplot(snip_subfig, 'a', ref=title, **letter_snip_kwargs)
# Prepare analysis axes:
big_subfig = fig.add_subfigure(super_grid[subfig_specs['big']])
big_grid = big_subfig.add_gridspec(**big_grid_kwargs)
big_axes = np.zeros((big_grid.ncols,), dtype=object)
for i in range(big_grid.ncols):
ax = big_subfig.add_subplot(big_grid[0, i])
ax.set_xlim(scales[0], scales[-1])
ax.set_xscale('symlog', linthresh=scales[1], linscale=0.5)
ax.set_yscale('symlog', linthresh=0.01, linscale=0.1)
xlabel(ax, xlabels['big'], transform=big_subfig, **xlab_big_kwargs)
ylabel(ax, ylabels['big'][i], **ylab_big_kwargs)
big_axes[i] = ax
letter_subplots(big_axes, 'bc', **letter_big_kwargs)
if False:
# Plot filtered snippets:
plot_snippets(snip_axes[0, :], t_full, snip['snip_filt'],
c=colors['filt'], lw=lw['filt'])
# Plot envelope snippets:
plot_snippets(snip_axes[1, :], t_full, snip['snip_env'],
ymin=0, c=colors['env'], lw=lw['env'])
# Plot logarithmic snippets:
plot_snippets(snip_axes[2, :], t_full, snip['snip_log'],
c=colors['log'], lw=lw['log'])
# Plot invariant snippets:
plot_snippets(snip_axes[3, :], t_full, snip['snip_inv'],
c=colors['inv'], lw=lw['inv'])
# Plot kernel response snippets:
plot_snippets(snip_axes[4, :], t_full, snip['snip_conv'],
c=colors['conv'], lw=lw['conv'])
# Plot feature snippets:
plot_snippets(snip_axes[5, :], t_full, snip['snip_feat'],
ymin=0, ymax=1, c=colors['feat'], lw=lw['feat'])
# Plot analysis results:
for stage in stages:
# Get average unnormed measure across recordings:
raw_measure = raw_data[f'mean_{stage}'].mean(axis=-1)
# Plot unmodified intensity measures:
curve = plot_curves(big_axes[0], scales, raw_measure, c=colors[stage], lw=lw['big'],
fill_kwargs=dict(color=colors[stage], alpha=0.25))
# Indicate saturation point:
if stage in ['log', 'inv', 'conv', 'feat']:
ind = get_saturation(curve, **plateau_settings)[1]
scale = scales[ind]
big_axes[0].plot(scale, 0, c='w', alpha=1, zorder=5.5, **plateau_dot_kwargs,
transform=big_axes[0].get_xaxis_transform())
big_axes[0].plot(scale, 0, mfc=colors[stage], mec='k', alpha=0.75, zorder=6, **plateau_dot_kwargs,
transform=big_axes[0].get_xaxis_transform())
big_axes[0].vlines(scale, big_axes[0].get_ylim()[0], curve[ind],
color=colors[stage], **plateau_line_kwargs)
# Get average noise-related measure across recordings:
norm_measure = norm_data[f'mean_{stage}'].mean(axis=-1)
# Plot noise-related intensity measure:
curve = plot_curves(big_axes[1], scales, norm_measure, c=colors[stage], lw=lw['big'],
fill_kwargs=dict(color=colors[stage], alpha=0.25))
# Indicate saturation point:
if stage in ['log', 'inv', 'conv', 'feat']:
big_axes[1].plot(scale, 0, c='w', alpha=1, zorder=5.5, **plateau_dot_kwargs,
transform=big_axes[1].get_xaxis_transform())
big_axes[1].plot(scale, 0, mfc=colors[stage], mec='k', alpha=0.75, zorder=6, **plateau_dot_kwargs,
transform=big_axes[1].get_xaxis_transform())
big_axes[1].vlines(scale, big_axes[1].get_ylim()[0], curve[ind],
color=colors[stage], **plateau_line_kwargs)
# Normalize measure to [0, 1]:
min_measure = raw_measure.min(axis=0)
max_measure = raw_measure.max(axis=0)
norm_measure = (raw_measure - min_measure) / (max_measure - min_measure)
# Plot range-normalized intensity measure:
curve = plot_curves(big_axes[2], scales, norm_measure, c=colors[stage], lw=lw['big'],
fill_kwargs=dict(color=colors[stage], alpha=0.25))
# Indicate saturation point:
if stage in ['log', 'inv', 'conv', 'feat']:
big_axes[2].plot(scale, 0, c='w', alpha=1, zorder=5.5, **plateau_dot_kwargs,
transform=big_axes[2].get_xaxis_transform())
big_axes[2].plot(scale, 0, mfc=colors[stage], mec='k', alpha=0.75, zorder=6, **plateau_dot_kwargs,
transform=big_axes[2].get_xaxis_transform())
big_axes[2].vlines(scale, big_axes[2].get_ylim()[0], curve[ind],
color=colors[stage], **plateau_line_kwargs)
if save_path is not None:
fig.savefig(save_path)
plt.show()
print('Done.')
embed()
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