paper_2025/python/fig_invariance_log-hp.py

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 color_functions import load_colors
from plot_functions import hide_axis, ylimits, xlabel, ylabel, hide_ticks,\
                           plot_line, strip_zeros, time_bar, zoom_inset,\
                           letter_subplot, letter_subplots, title_subplot
from IPython import embed

def add_snip_axes(fig, grid_kwargs):
    grid = fig.add_gridspec(**grid_kwargs)
    axes = np.zeros((grid.nrows, grid.ncols), dtype=object)
    for i, j in product(range(grid.nrows), range(grid.ncols)):
        axes[i, j] = fig.add_subplot(grid[i, j])
    [hide_axis(ax, 'left') for ax in axes[:, 1:].flatten()]
    [hide_axis(ax, 'bottom') for ax in axes.flatten()]
    return axes

def plot_snippets(axes, time, snippets, ymin=None, ymax=None, **kwargs):
    ymin, ymax = ylimits(snippets, minval=ymin, maxval=ymax, pad=0.05)
    handles = []
    for ax, snippet in zip(axes, snippets.T):
        handles.extend(plot_line(ax, time, snippet, ymin=ymin, ymax=ymax, **kwargs))
    return handles


# GENERAL SETTINGS:
compute_ratios = True
target = 'Omocestus_rufipes'
data_paths = search_files(target, excl='noise', dir='../data/inv/log_hp/')
stages = ['env', 'log', 'inv']
load_kwargs = dict(
    files=stages,
    keywords=['scales', 'snip', 'measure']
)
save_path = '../figures/fig_invariance_log_hp.pdf'
if compute_ratios:
    ref_data = load_data('../data/processed/white_noise_sd-1.npz', files=stages)[0]
    ref_measures = {k: v.std() for k, v in ref_data.items() if not k.endswith('rate')}

# GRAPH SETTINGS:
fig_kwargs = dict(
    figsize=(32/2.54, 16/2.54),
)
super_grid_kwargs = dict(
    nrows=2,
    ncols=3,
    wspace=0,
    hspace=0,
    left=0,
    right=1,
    bottom=0,
    top=1
)
subfig_specs = dict(
    pure=(0, slice(0, -1)),
    noise=(1, slice(0, -1)),
    big=(slice(None), -1),
)
snip_grid_kwargs = dict(
    nrows=len(stages),
    ncols=None,
    wspace=0.1,
    hspace=0.15,
    left=0.16,
    right=0.95,
    bottom=0.1,
    top=0.94,
    height_ratios=[1, 2, 1]
)
big_grid_kwargs = dict(
    nrows=2,
    ncols=1,
    wspace=0,
    hspace=0.1,
    left=0.19,
    right=0.96,
    bottom=0.09,
    top=0.98
)
anchor_kwargs = dict(
    aspect='equal',
    adjustable='box',
    anchor=(0.5, 0.5)
)

# PLOT SETTINGS:
fs = dict(
    lab_norm=16,
    lab_tex=20,
    letter=22,
    tit_norm=16,
    tit_tex=20,
)
colors = load_colors('../data/stage_colors.npz')
lw_snippets = 0.5
lw_big = 3
xlabels = dict(
    big='scale $\\alpha$',
)
ylabels = dict(
    env='$x_{\\text{env}}$',
    log='$x_{\\text{dB}}$',
    inv='$x_{\\text{adapt}}$',
    big='$\\sigma_{\\alpha}\\,/\\,\\sigma_{0}$',
)
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,
    fontsize=fs['lab_tex'],
    ha='center',
    va='top',
)
yloc = dict(
    env=1000,
    log=40,
    inv=20
)
title_kwargs = dict(
    x=0.5,
    yref=1,
    ha='center',
    va='top',
    fontsize=fs['tit_norm'],
)
letter_snip_kwargs = dict(
    x=0,
    y=1,
    ha='left',
    va='top',
    fontsize=fs['letter'],
)
letter_big_kwargs = dict(
    x=0,
    yref=letter_snip_kwargs['y'],
    ha='left',
    va='top',
    fontsize=fs['letter'],
)
zoom_inset_bounds = [0.1, 0.2, 0.8, 0.6]
zoom_kwargs = dict(
    x0=0.45,
    x1=0.55,
    y0=0,
    y1=0.0006,
    low_left=True,
    low_right=True,
    ec='k',
    lw=1,
    alpha=1,
)
bar_time = 5
bar_kwargs = dict(
    y0=-0.2,
    y1=-0.05,
    color='k',
    lw=0,
    clip_on=False,
)
diag_kwargs = dict(
    c=(0.75, 0.75, 0.75),
    lw=2,
    ls='--',
    zorder=1.9,
)

# EXECUTION:
for data_path in data_paths:
    print(f'Processing {data_path}')

    # Load invariance data:
    pure_data, config = load_data(data_path, **load_kwargs)
    noise_data, _ = load_data(data_path.replace('.npz', '_noise.npz'), **load_kwargs)
    pure_scales, noise_scales = pure_data['scales'], noise_data['scales']
    t_full = np.arange(pure_data['snip_env'].shape[0]) / config['env_rate']

    # Prepare overall graph:
    fig = plt.figure(**fig_kwargs)
    super_grid = fig.add_gridspec(**super_grid_kwargs)

    # Prepare pure-song snippet axes:
    snip_grid_kwargs['ncols'] = pure_data['example_scales'].size
    pure_subfig = fig.add_subfigure(super_grid[subfig_specs['pure']])
    pure_axes = add_snip_axes(pure_subfig, snip_grid_kwargs)
    for ax, stage in zip(pure_axes[:, 0], stages):
        ax.yaxis.set_major_locator(plt.MultipleLocator(yloc[stage]))
        ylabel(ax, ylabels[stage], **ylab_snip_kwargs,
               transform=pure_subfig.transSubfigure)
    for ax, scale in zip(pure_axes[0, :], pure_data['example_scales']):
        title_subplot(ax, f'$\\alpha={strip_zeros(scale)}$', ref=pure_subfig, **title_kwargs)
    pure_inset = pure_axes[0, 0].inset_axes(zoom_inset_bounds)
    pure_inset.spines[:].set(visible=True, lw=zoom_kwargs['lw'])
    hide_ticks(pure_inset, 'bottom', ticks=False)
    hide_ticks(pure_inset, 'left', ticks=False)

    # Prepare noise-song snippet axes:
    snip_grid_kwargs['ncols'] = noise_data['example_scales'].size
    noise_subfig = fig.add_subfigure(super_grid[subfig_specs['noise']])
    noise_axes = add_snip_axes(noise_subfig, snip_grid_kwargs)
    for ax, stage in zip(noise_axes[:, 0], stages):
        ax.yaxis.set_major_locator(plt.MultipleLocator(yloc[stage]))
        ylabel(ax, ylabels[stage], **ylab_snip_kwargs,
               transform=noise_subfig.transSubfigure)
    for ax, scale in zip(noise_axes[0, :], noise_data['example_scales']):
        title_subplot(ax, f'$\\alpha={strip_zeros(scale)}$', ref=noise_subfig, **title_kwargs)
    letter_subplots([pure_subfig, noise_subfig], 'ac', **letter_snip_kwargs)
    noise_inset = noise_axes[0, 0].inset_axes(zoom_inset_bounds)
    noise_inset.spines[:].set(visible=True, lw=zoom_kwargs['lw'])
    hide_ticks(noise_inset, 'bottom', ticks=False)
    hide_ticks(noise_inset, 'left', ticks=False)

    # 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.nrows,), dtype=object)
    for i, scales in enumerate([pure_scales, noise_scales]):
        ax = big_subfig.add_subplot(big_grid[i, 0])
        ax.set_xlim(scales[0], scales[-1])
        ax.set_ylim(scales[0], scales[-1])
        ax.set_xscale('symlog', linthresh=scales[1], linscale=0.5)
        ax.set_yscale('symlog', linthresh=scales[1], linscale=0.5)
        ax.set_aspect(**anchor_kwargs)
        ylabel(ax, ylabels['big'], transform=big_subfig.transSubfigure, **ylab_big_kwargs)
        if i == 0:
            hide_ticks(ax, 'bottom')
            letter_subplot(big_subfig, 'b', ref=pure_subfig, **letter_big_kwargs)
        else:
            xlabel(ax, xlabels['big'], transform=big_subfig.transSubfigure, **xlab_big_kwargs)
            letter_subplot(big_subfig, 'd', ref=noise_subfig, **letter_big_kwargs)
        big_axes[i] = ax

    # Plot pure-song envelope snippets:
    handle = plot_snippets(pure_axes[0, :], t_full, pure_data['snip_env'],
                           ymin=0, c=colors['env'], lw=lw_snippets)[0]
    zoom_inset(pure_axes[0, 0], pure_inset, handle, transform=pure_axes[0, 0].transAxes, **zoom_kwargs)
    
    # Plot pure-song logarithmic snippets:
    plot_snippets(pure_axes[1, :], t_full, pure_data['snip_log'],
                  c=colors['log'], lw=lw_snippets)

    # Plot pure-song invariant snippets:
    plot_snippets(pure_axes[2, :], t_full, pure_data['snip_inv'],
                  c=colors['inv'], lw=lw_snippets)

    # Plot noise-song envelope snippets:
    handle = plot_snippets(noise_axes[0, :], t_full, noise_data['snip_env'],
                           ymin=0, c=colors['env'], lw=lw_snippets)[0]
    zoom_inset(noise_axes[0, 0], noise_inset, handle, transform=noise_axes[0, 0].transAxes, **zoom_kwargs)

    # Plot noise-song logarithmic snippets:
    plot_snippets(noise_axes[1, :], t_full, noise_data['snip_log'],
                  c=colors['log'], lw=lw_snippets)

    # Plot noise-song invariant snippets:
    plot_snippets(noise_axes[2, :], t_full, noise_data['snip_inv'],
                  c=colors['inv'], lw=lw_snippets)

    # Indicate time scale:
    time_bar(noise_axes[2, -1], bar_time, **bar_kwargs)

    if compute_ratios:
        # Relate pure-song measures to zero scale:
        pure_data['measure_env'] /= ref_measures['env']
        pure_data['measure_log'] /= ref_measures['log']
        pure_data['measure_inv'] /= ref_measures['inv']
        # Relate noise-song measures to zero scale:
        noise_data['measure_env'] /= ref_measures['env']
        noise_data['measure_log'] /= ref_measures['log']
        noise_data['measure_inv'] /= ref_measures['inv']

    # Plot pure-song measures (ideal):
    big_axes[0].plot(pure_scales, pure_data['measure_env'], c=colors['env'], lw=lw_big)
    big_axes[0].plot(pure_scales, pure_data['measure_log'], c=colors['log'], lw=lw_big)
    big_axes[0].plot(pure_scales, pure_data['measure_inv'], c=colors['inv'], lw=lw_big)

    # Plot noise-song measures (limited):
    big_axes[1].plot(noise_scales, noise_data['measure_env'], c=colors['env'], lw=lw_big)
    big_axes[1].plot(noise_scales, noise_data['measure_log'], c=colors['log'], lw=lw_big)
    big_axes[1].plot(noise_scales, noise_data['measure_inv'], c=colors['inv'], lw=lw_big)

    # Indicate diagonal:
    big_axes[0].plot(pure_scales, pure_scales, **diag_kwargs)
    big_axes[1].plot(noise_scales, noise_scales, **diag_kwargs)

    if save_path is not None:
        fig.savefig(save_path)
    plt.show()

print('Done.')
embed()