paper_2025/python/plot_functions.py

import string
import numpy as np
import matplotlib.pyplot as plt
from itertools import product

def prepare_fig(nrows, ncols, width=8, height=None, rheight=2, unit=1/2.54,
                left=0.01, right=0.95, bottom=0.01, top=0.95,
                wspace=0.4, hspace=0.4):
    if height is None:
        height = rheight * nrows
    fig = plt.figure(figsize=(width * unit, height * unit))
    grid = fig.add_gridspec(nrows=nrows, ncols=ncols, wspace=wspace, hspace=hspace,
                            left=left, right=right, top=top, bottom=bottom)
    axes = np.zeros((nrows, ncols), dtype=object)
    for i, j in product(range(nrows), range(ncols)):
        axes[i, j] = fig.add_subplot(grid[i, j])
        axes[i, j].set_facecolor('none')
    return fig, axes

def hide_ticks(ax, side='bottom', ticks=True):
    axis = 'x' if side in ['top', 'bottom'] else 'y'
    params = {side: ticks, 'label' + side: False}
    ax.tick_params(axis=axis, which='both', **params)
    return None

def hide_axis(ax, side='bottom'):
    ax.spines[side].set_visible(False)
    params = {side: False, 'label' + side: False}
    ax.tick_params(axis='x' if side in ['top', 'bottom'] else 'y',
                   which='both', **params)
    return None

def letter_subplots(axes, labels=None, x=0.02, y=1, ha='left', va='bottom',
                    fontsize=16, fontweight='bold', **kwargs):
    if labels is None:
        labels = string.ascii_lowercase
    for ax, label in zip(axes, labels):
        ax.text(x, y, label, transform=ax.transAxes, ha=ha, va=va,
                fontsize=fontsize, fontweight=fontweight, **kwargs)
    return None

def xlimits(time, ax=None, minval=None, maxval=None, pad=0.05):
    limits = [minval, maxval]
    if minval is None:
        limits[0] = time[0]
    if maxval is None:
        limits[1] = time[-1]
    span = limits[1] - limits[0]
    if pad and minval is None:
        limits[0] -= span * pad
    if pad and maxval is None:
        limits[1] += span * pad
    if ax is not None:
        return ax.set_xlim(limits)
    return limits

def ylimits(signal, ax=None, minval=None, maxval=None, pad=0.05):
    limits = [minval, maxval]
    if minval is None:
        limits[0] = signal.min()
    if maxval is None:
        limits[1] = signal.max()
    span = limits[1] - limits[0]
    if pad and minval is None:
        limits[0] -= span * pad
    if pad and maxval is None:
        limits[1] += span * pad
    if ax is not None:
        return ax.set_ylim(limits)
    return limits

def xlabel(ax, label, y=-0.1, fontsize=20, **kwargs):
    ax.set_xlabel(label, fontsize=fontsize, **kwargs)
    ax.xaxis.set_label_coords(0.5, y)
    return None

def ylabel(ax, label, x=-0.2, fontsize=20, **kwargs):
    ax.set_ylabel(label, fontsize=fontsize, **kwargs)
    ax.yaxis.set_label_coords(x, 0.5)
    return None

def super_xlabel(label, fig, high_ax, low_ax, y=0.005, **kwargs):
    x = (low_ax.get_position().x0 + high_ax.get_position().x1) / 2
    fig.supxlabel(label, x=x, y=y, **kwargs)
    return None

def super_ylabel(label, fig, high_ax, low_ax, x=0.005, **kwargs):
    y = (low_ax.get_position().y0 + high_ax.get_position().y1) / 2
    fig.supylabel(label, x=x, y=y, **kwargs)
    return None

def plot_line(ax, time, signal, ymin=None, ymax=None, xmin=None, xmax=None,
              xpad=None, ypad=0.05, yloc=None, xloc=None, **kwargs):
    handles = ax.plot(time, signal, **kwargs)
    xlimits(time, ax=ax, minval=xmin, maxval=xmax, pad=xpad)
    ylimits(signal, ax=ax, minval=ymin, maxval=ymax, pad=ypad)
    if xloc is not None:
        ax.xaxis.set_major_locator(plt.MultipleLocator(xloc))
    if yloc is not None:
        ax.yaxis.set_major_locator(plt.MultipleLocator(yloc))
    return handles

def plot_barcode(ax, time, binary, offset=0.5, xmin=None, xmax=None, **kwargs):
    lower, upper, handles = 0, 1, []
    for i in range(binary.shape[1]):
        h = ax.fill_between(time, lower, upper, where=binary[:, i], **kwargs)
        handles.append(h)
        if i < binary.shape[1] - 1:
            lower += offset + 1
            upper += offset + 1
    xlimits(time, ax=ax, minval=xmin, maxval=xmax, pad=0)
    ax.set_ylim(0, upper)
    hide_axis(ax, 'bottom')
    hide_axis(ax, 'left')
    return handles

def indicate_zoom(fig, high_ax, low_ax, zoom_abs, **kwargs):
    y0 = low_ax.get_position().y0
    y1 = high_ax.get_position().y1
    transform = low_ax.transData + fig.transFigure.inverted()
    x0 = transform.transform((zoom_abs[0], 0))[0]
    x1 = transform.transform((zoom_abs[1], 0))[0]
    fig.add_artist(plt.Rectangle((x0, y0), x1 - x0, y1 - y0,
                                 transform=fig.transFigure, **kwargs))
    return None

def assign_colors(handles, types, colors):
    for handle, type_id in zip(handles, types):
        handle.set_color(colors[str(int(type_id))])
    return None

def reorder_traces(handles, signal, zlow=2, zhigh=2.5):
    inds = np.argsort(signal.std(axis=0))
    zorders = np.linspace(zlow, zhigh, len(inds))[::-1]
    for ind, z in zip(inds, zorders):
        handles[ind].set_zorder(z)
    return None