plot_utils.py 49.1 KB
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# -*- coding: utf-8 -*-
"""
Created on Thu May 05 13:29:12 2016

@author: Suhas Somnath
"""
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# TODO: All general plotting functions should support data with 1, 2, or 3 spatial dimensions.
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from __future__ import division, print_function, absolute_import, unicode_literals
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import inspect
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from warnings import warn
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import sys
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import h5py
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import matplotlib.pyplot as plt
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import numpy as np
import scipy
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from scipy.signal import blackman
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from matplotlib.colors import LinearSegmentedColormap
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from mpl_toolkits.axes_grid1 import ImageGrid
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from ..io.hdf_utils import reshape_to_Ndims, get_formatted_labels, get_data_descriptor
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if sys.version_info.major == 3:
    unicode = str
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default_cmap = plt.cm.viridis
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def get_cmap_object(cmap):
    """
    Get the matplotlib.colors.LinearSegmentedColormap object regardless of the input

    Parameters
    ----------
    cmap : String, or matplotlib.colors.LinearSegmentedColormap object (Optional)
        Requested color map
    Returns
    -------
    cmap : matplotlib.colors.LinearSegmentedColormap object
        Requested / Default colormap object
    """
    if cmap is None:
        return default_cmap
    elif isinstance(cmap, str):
            return plt.get_cmap(cmap)
    return cmap


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def set_tick_font_size(axes, font_size):
    """
    Sets the font size of the ticks in the provided axes

    Parameters
    ----------
    axes : matplotlib.pyplot.axis object or list of axis objects
        axes to set font sizes
    font_size : unigned int
        Font size
    """

    def __set_axis_tick(axis):
        """
        Sets the font sizes to the x and y axis in the given axis object

        Parameters
        ----------
        axis : matplotlib.pyplot.axis object
            axis to set font sizes
        """
        for tick in axis.xaxis.get_major_ticks():
            tick.label.set_fontsize(font_size)
        for tick in axis.yaxis.get_major_ticks():
            tick.label.set_fontsize(font_size)

    if hasattr(axes, '__iter__'):
        for axis in axes:
            __set_axis_tick(axis)
    else:
        __set_axis_tick(axes)

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def cmap_jet_white_center():
    """
    Generates the jet colormap with a white center

    Returns
    -------
    white_jet : matplotlib.colors.LinearSegmentedColormap object
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        color map object that can be used in place of the default colormap
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    """
    # For red - central column is like brightness
    # For blue - last column is like brightness
    cdict = {'red': ((0.00, 0.0, 0.0),
                     (0.30, 0.0, 0.0),
                     (0.50, 1.0, 1.0),
                     (0.90, 1.0, 1.0),
                     (1.00, 0.5, 1.0)),
             'green': ((0.00, 0.0, 0.0),
                       (0.10, 0.0, 0.0),
                       (0.42, 1.0, 1.0),
                       (0.58, 1.0, 1.0),
                       (0.90, 0.0, 0.0),
                       (1.00, 0.0, 0.0)),
             'blue': ((0.00, 0.0, 0.5),
                      (0.10, 1.0, 1.0),
                      (0.50, 1.0, 1.0),
                      (0.70, 0.0, 0.0),
                      (1.00, 0.0, 0.0))
             }
    return LinearSegmentedColormap('white_jet', cdict)
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def cmap_from_rgba(name, interp_vals, normalization_val):
    """
    Generates a colormap given a matlab-style interpolation table

    Parameters
    ----------
    name : String / Unicode
        Name of the desired colormap
    interp_vals : List of tuples
        Interpolation table that describes the desired color map. Each entry in the table should be described as:
        (position in the colorbar, (red, green, blue, alpha))
        The position in the color bar, red, green, blue, and alpha vary from 0 to the normalization value
    normalization_val : number
        The common maximum value for the position in the color bar, red, green, blue, and alpha

    Returns
    -------
    new_cmap : matplotlib.colors.LinearSegmentedColormap object
        desired color map
    """

    normalization_val = np.round(1.0 * normalization_val)

    cdict = {'red': tuple([(dist / normalization_val, colors[0] / normalization_val, colors[0] / normalization_val)
                           for (dist, colors) in interp_vals][::-1]),
             'green': tuple([(dist / normalization_val, colors[1] / normalization_val, colors[1] / normalization_val)
                             for (dist, colors) in interp_vals][::-1]),
             'blue': tuple([(dist / normalization_val, colors[2] / normalization_val, colors[2] / normalization_val)
                            for (dist, colors) in interp_vals][::-1]),
             'alpha': tuple([(dist / normalization_val, colors[3] / normalization_val, colors[3] / normalization_val)
                            for (dist, colors) in interp_vals][::-1])}

    return LinearSegmentedColormap(name, cdict)


def make_linear_alpha_cmap(name, solid_color, normalization_val, min_alpha=0, max_alpha=1):
    """
    Generates a transparent to opaque color map based on a single solid color

    Parameters
    ----------
    name : String / Unicode
        Name of the desired colormap
    solid_color : List of numbers
        red, green, blue, and alpha values for a specific color
    normalization_val : number
        The common maximum value for the red, green, blue, and alpha values. This is 1 in matplotlib
    min_alpha : float (optional. Default = 0 : ie- transparent)
        Lowest alpha value for the bottom of the color bar
    max_alpha : float (optional. Default = 1 : ie- opaque)
        Highest alpha value for the top of the color bar

    Returns
    -------
    new_cmap : matplotlib.colors.LinearSegmentedColormap object
        transparent to opaque color map based on the provided color
    """
    solid_color = np.array(solid_color) / normalization_val * 1.0
    interp_table = [(1.0, (solid_color[0], solid_color[1], solid_color[2], max_alpha)),
                    (0, (solid_color[0], solid_color[1], solid_color[2], min_alpha))]
    return cmap_from_rgba(name, interp_table, 1)
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def cmap_hot_desaturated():
    """
    Returns a desaturated color map based on the hot colormap

    Returns
    -------
    new_cmap : matplotlib.colors.LinearSegmentedColormap object
        Desaturated version of the hot color map
    """
    hot_desaturated = [(255.0, (255, 76, 76, 255)),
                       (218.5, (107, 0, 0, 255)),
                       (182.1, (255, 96, 0, 255)),
                       (145.6, (255, 255, 0, 255)),
                       (109.4, (0, 127, 0, 255)),
                       (72.675, (0, 255, 255, 255)),
                       (36.5, (0, 0, 91, 255)),
                       (0, (71, 71, 219, 255))]

    return cmap_from_rgba('hot_desaturated', hot_desaturated, 255)
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def discrete_cmap(num_bins, base_cmap=default_cmap):
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    """
    Create an N-bin discrete colormap from the specified input map

    Parameters
    ----------
    num_bins : unsigned int
        Number of discrete bins
    base_cmap : matplotlib.colors.LinearSegmentedColormap object
        Base color map to discretize

    Returns
    -------
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    new_cmap : String or matplotlib.colors.LinearSegmentedColormap object
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        Discretized color map

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    Notes
    -----
    Jake VanderPlas License: BSD-style
    https://gist.github.com/jakevdp/91077b0cae40f8f8244a

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    """
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    if base_cmap is None:
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        base_cmap = default_cmap.name
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    elif isinstance(base_cmap, type(default_cmap)):
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        base_cmap = base_cmap.name
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    if type(base_cmap) == str:
        return plt.get_cmap(base_cmap, num_bins)

    return base_cmap
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def _add_loop_parameters(axes, switching_coef_vec):
    """
    Add the loop parameters for the given loop to a list of axes

    Parameters
    ----------
    axes : list of matplotlib.pyplo.axes
        Plot axes to add the coeffients to
    switching_coef_vec : 1D numpy.ndarray
        Array of loop parameters arranged by position

    Returns
    -------
    axes : list of matplotlib.pyplo.axes
    """
    positions = np.linspace(0, switching_coef_vec.shape[0] - 1, len(axes.flat), dtype=np.int)

    for ax, pos in zip(axes.flat, positions):
        ax.axvline(switching_coef_vec[pos]['V+'], c='k', label='V+')
        ax.axvline(switching_coef_vec[pos]['V-'], c='r', label='V-')
        ax.axvline(switching_coef_vec[pos]['Nucleation Bias 1'], c='k', ls=':', label='Nucleation Bias 1')
        ax.axvline(switching_coef_vec[pos]['Nucleation Bias 2'], c='r', ls=':', label='Nucleation Bias 2')
        ax.axhline(switching_coef_vec[pos]['R+'], c='k', ls='-.', label='R+')
        ax.axhline(switching_coef_vec[pos]['R-'], c='r', ls='-.', label='R-')

    return axes
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def rainbow_plot(ax, ao_vec, ai_vec, num_steps=32, cmap=default_cmap, **kwargs):
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    """
    Plots the input against the output waveform (typically loops).
    The color of the curve changes as a function of time using the jet colorscheme

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    Parameters
    ----------
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    ax : axis handle
        Axis to plot the curve
    ao_vec : 1D float numpy array
        vector that forms the X axis
    ai_vec : 1D float numpy array
        vector that forms the Y axis
    num_steps : unsigned int (Optional)
        Number of discrete color steps
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    cmap : matplotlib.colors.LinearSegmentedColormap object
        Colormap to be used
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    """
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    cmap = get_cmap_object(cmap)

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    pts_per_step = int(len(ai_vec) / num_steps)
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    for step in range(num_steps - 1):
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        ax.plot(ao_vec[step * pts_per_step:(step + 1) * pts_per_step],
                ai_vec[step * pts_per_step:(step + 1) * pts_per_step],
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                color=cmap(255 * step / num_steps), **kwargs)
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    # plot the remainder:
    ax.plot(ao_vec[(num_steps - 1) * pts_per_step:],
            ai_vec[(num_steps - 1) * pts_per_step:],
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            color=cmap(255 * num_steps / num_steps), **kwargs)
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    """
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    CS3=plt.contourf([[0,0],[0,0]], range(0,310),cmap=plt.cm.viridis)
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    fig.colorbar(CS3)"""


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def plot_line_family(axis, x_axis, line_family, line_names=None, label_prefix='Line', label_suffix='',
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                     cmap=default_cmap, y_offset=0, **kwargs):
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    """
    Plots a family of lines with a sequence of colors

    Parameters
    ----------
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    axis : axis handle
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        Axis to plot the curve
    x_axis : array-like
        Values to plot against
    line_family : 2D numpy array
        family of curves arranged as [curve_index, features]
    line_names : array-like
        array of string or numbers that represent the identity of each curve in the family
    label_prefix : string / unicode
        prefix for the legend (before the index of the curve)
    label_suffix : string / unicode
        suffix for the legend (after the index of the curve)
    cmap : matplotlib.colors.LinearSegmentedColormap object
        Colormap to be used
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    y_offset : (optional) number
        quantity by which the lines are offset from each other vertically (useful for spectra)
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    """
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    cmap = get_cmap_object(cmap)

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    num_lines = line_family.shape[0]

    if line_names is None:
        line_names = ['{} {} {}'.format(label_prefix, line_ind, label_suffix) for line_ind in range(num_lines)]
    else:
        if len(line_names) != num_lines:
            warn('Line names of different length compared to provided dataset')
            line_names = ['{} {} {}'.format(label_prefix, line_ind, label_suffix) for line_ind in range(num_lines)]

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    for line_ind in range(num_lines):
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        axis.plot(x_axis, line_family[line_ind] + line_ind*  y_offset,
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                  label=line_names[line_ind],
                  color=cmap(int(255 * line_ind / (num_lines - 1))), **kwargs)
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def plot_map(axis, data, stdevs=2, origin='lower', **kwargs):
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    """
    Plots a 2d map with a tight z axis, with or without color bars.
    Note that the direction of the y axis is flipped if the color bar is required

    Parameters
    ----------
    axis : matplotlib.pyplot.axis object
        Axis to plot this map onto
    data : 2D real numpy array
        Data to be plotted
    stdevs : unsigned int (Optional. Default = 2)
        Number of standard deviations to consider for plotting
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    origin : str
        Where should the origin of the image data be located.  'lower' sets the origin to the
        bottom left, 'upper' sets it to the upper left.
        Default 'lower'
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    Returns
    -------
    """
    data_mean = np.mean(data)
    data_std = np.std(data)
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    im = axis.imshow(data, interpolation='none',
                     vmin=data_mean - stdevs * data_std,
                     vmax=data_mean + stdevs * data_std,
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                     origin=origin,
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                     **kwargs)
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    axis.set_aspect('auto')

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    return im
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def plot_loops(excit_wfm, datasets, line_colors=[], dataset_names=[], evenly_spaced=True, plots_on_side=5, x_label='',
               y_label='', subtitles='Position', title='', central_resp_size=None, use_rainbow_plots=False, h5_pos=None):
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    # TODO: Allow multiple excitation waveforms
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    """
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    Plots loops from multiple datasets from up to 25 evenly spaced positions
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    Parameters
    -----------
    excit_wfm : 1D numpy float array
        Excitation waveform in the time domain
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    datasets : list of 2D numpy arrays or 2D hyp5.Dataset objects
        Datasets containing data arranged as (pixel, time)
    line_colors : list of strings
        Colors to be used for each of the datasets
    dataset_names : (Optional) list of strings
        Names of the different datasets to be compared
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    h5_pos : HDF5 dataset reference or 2D numpy array
        Dataset containing position indices
    central_resp_size : (optional) unsigned integer
        Number of responce sample points from the center of the waveform to show in plots. Useful for SPORC
    evenly_spaced : boolean
        Evenly spaced positions or first N positions
    plots_on_side : unsigned int
        Number of plots on each side
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    use_rainbow_plots : (optional) Boolean
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        Plot the lines as a function of spectral index (eg. time)
    x_label : (optional) String
        X Label for all plots
    y_label : (optional) String
        Y label for all plots
    subtitles : (optional) String
        prefix for title over each plot
    title : (optional) String
        Main plot title

    Returns
    ---------
    fig, axes
    """
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    if type(datasets) in [h5py.Dataset, np.ndarray]:
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        # can be numpy array or h5py.dataset
        num_pos = datasets.shape[0]
        num_points = datasets.shape[1]
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        datasets = [datasets]
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        line_colors = ['b']
        dataset_names = ['Default']
    else:
        # First check if the datasets are correctly shaped:
        num_pos_es = list()
        num_points_es = list()
        for dataset in datasets:
            num_pos_es.append(dataset.shape[0])
            num_points_es.append(dataset.shape[1])
        num_pos_es = np.array(num_pos_es)
        num_points_es = np.array(num_points_es)
        if np.unique(num_pos_es).size > 1 or np.unique(num_points_es).size > 1:
            warn('Datasets of incompatible sizes')
            return
        num_pos = np.unique(num_pos_es)[0]
        num_points = np.unique(num_points_es)[0]

        # Next the identification of datasets:
        if len(dataset_names) > len(datasets):
            # remove additional titles
            dataset_names = dataset_names[:len(datasets)]
        elif len(dataset_names) < len(datasets):
            # add titles
            dataset_names = dataset_names + ['Dataset' + ' ' + str(x) for x in range(len(dataset_names), len(datasets))]
        if len(line_colors) != len(datasets):
            color_list = ['b', 'g', 'r', 'c', 'm', 'y', 'k', 'pink', 'brown', 'orange']
            if len(datasets) < len(color_list):
                remaining_colors = [x for x in color_list if x not in line_colors]
                line_colors += remaining_colors[:len(datasets) - len(color_list)]
            else:
                warn('Insufficient number of line colors provided')
                return


    if excit_wfm.size != num_points:
        warn('Length of excitation waveform not compatible with second axis of datasets')
        return
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    plots_on_side = min(abs(plots_on_side), 5)
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    sq_num_plots = min(plots_on_side, int(round(num_pos ** 0.5)))
    if evenly_spaced:
        chosen_pos = np.linspace(0, num_pos - 1, sq_num_plots ** 2, dtype=int)
    else:
        chosen_pos = np.arange(sq_num_plots ** 2, dtype=int)

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    fig, axes = plt.subplots(nrows=sq_num_plots, ncols=sq_num_plots, sharex=True, figsize=(12, 12))
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    axes_lin = axes.flatten()
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    cent_ind = int(0.5 * excit_wfm.size)
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    if central_resp_size:
        sz = int(0.5 * central_resp_size)
        l_resp_ind = cent_ind - sz
        r_resp_ind = cent_ind + sz
    else:
        l_resp_ind = 0
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        r_resp_ind = excit_wfm.size
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    for count, posn in enumerate(chosen_pos):
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        if use_rainbow_plots and len(datasets) == 1:
            rainbow_plot(axes_lin[count], excit_wfm[l_resp_ind:r_resp_ind], datasets[0][posn, l_resp_ind:r_resp_ind])
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        else:
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            for dataset, col_val in zip(datasets, line_colors):
                axes_lin[count].plot(excit_wfm[l_resp_ind:r_resp_ind], dataset[posn, l_resp_ind:r_resp_ind], color=col_val)
        if h5_pos is not None:
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            # print('Row ' + str(h5_pos[posn,1]) + ' Col ' + str(h5_pos[posn,0]))
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            axes_lin[count].set_title('Row ' + str(h5_pos[posn, 1]) + ' Col ' + str(h5_pos[posn, 0]), fontsize=12)
        else:
            axes_lin[count].set_title(subtitles + ' ' + str(posn), fontsize=12)

        if count % sq_num_plots == 0:
            axes_lin[count].set_ylabel(y_label, fontsize=12)
        if count >= (sq_num_plots - 1) * sq_num_plots:
            axes_lin[count].set_xlabel(x_label, fontsize=12)
        axes_lin[count].axis('tight')
        axes_lin[count].set_aspect('auto')
        axes_lin[count].ticklabel_format(style='sci', axis='y', scilimits=(0, 0))
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    if len(datasets) > 1:
        axes_lin[count].legend(dataset_names, loc='best')
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    if title:
        fig.suptitle(title, fontsize=14)
    plt.tight_layout()
    return fig, axes
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###############################################################################

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def plot_complex_map_stack(map_stack, num_comps=4, title='Eigenvectors', xlabel='UDVS Step', stdevs=2,
                           cmap=default_cmap):
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    """
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    Plots the provided spectrograms from SVD V vector

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    Parameters
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    -------------
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    map_stack : 3D numpy complex matrices
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        Eigenvectors rearranged as - [row, col, component]
    num_comps : int
        Number of components to plot
    title : String
        Title to plot above everything else
    xlabel : String
        Label for x axis
    stdevs : int
        Number of standard deviations to consider for plotting
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    cmap : String, or matplotlib.colors.LinearSegmentedColormap object (Optional)
        Requested color map
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    Returns
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    ---------
    fig, axes
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    """
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    cmap = get_cmap_object(cmap)

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    fig201, axes201 = plt.subplots(2, num_comps, figsize=(4 * num_comps, 8))
    fig201.subplots_adjust(hspace=0.4, wspace=0.4)
    fig201.canvas.set_window_title(title)

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    for index in range(num_comps):
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        cur_map = np.transpose(map_stack[index, :, :])
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        axes = [axes201.flat[index], axes201.flat[index + num_comps]]
        funcs = [np.abs, np.angle]
        labels = ['Amplitude', 'Phase']
        for func, lab, ax in zip(funcs, labels, axes):
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            amp_mean = np.mean(func(cur_map))
            amp_std = np.std(func(cur_map))
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            ax.imshow(func(cur_map), cmap=cmap,
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                      vmin=amp_mean - stdevs * amp_std,
                      vmax=amp_mean + stdevs * amp_std)
            ax.set_title('Eigenvector: %d - %s' % (index + 1, lab))
            ax.set_aspect('auto')
        ax.set_xlabel(xlabel)

    return fig201, axes201


###############################################################################

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def plot_complex_loop_stack(loop_stack, x_axis, heading='BE Loops', subtitle='Eigenvector', num_comps=4, x_label=''):
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    """
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    Plots the provided spectrograms from SVD V vector

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    Parameters
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    -------------
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    loop_stack : 3D numpy complex matrices
        Loops rearranged as - [component, points]
    x_axis : 1D real numpy array
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        The vector to plot against
    num_comps : int
        Number of components to plot
    title : String
        Title to plot above everything else
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    x_label : String
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        Label for x axis
    stdevs : int
        Number of standard deviations to consider for plotting

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    Returns
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    ---------
    fig, axes
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    """
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    funcs = [np.abs, np.angle]
    labels = ['Amplitude', 'Phase']

    fig201, axes201 = plt.subplots(len(funcs), num_comps, figsize=(num_comps * 4, 4 * len(funcs)))
    fig201.subplots_adjust(hspace=0.4, wspace=0.4)
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    fig201.canvas.set_window_title(heading)
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    for index in range(num_comps):
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        cur_map = loop_stack[index, :]
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        axes = [axes201.flat[index], axes201.flat[index + num_comps]]
        for func, lab, ax in zip(funcs, labels, axes):
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            ax.plot(x_axis, func(cur_map))
            ax.set_title('%s: %d - %s' % (subtitle, index + 1, lab))
        ax.set_xlabel(x_label)
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    fig201.tight_layout()

    return fig201, axes201

###############################################################################


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def plotScree(scree, title='Scree'):
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    """
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    Plots the scree or scree
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    Parameters
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    -------------
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    scree : 1D real numpy array
        The scree vector from SVD
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    Returns
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    ---------
    fig, axes
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    """
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    fig203 = plt.figure(figsize=(6.5, 6))
    axes203 = fig203.add_axes([0.1, 0.1, .8, .8])  # left, bottom, width, height (range 0 to 1)
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    axes203.loglog(np.arange(len(scree)) + 1, scree, 'b', marker='*')
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    axes203.set_xlabel('Principal Component')
    axes203.set_ylabel('Variance')
    axes203.set_title(title)
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    axes203.set_xlim(left=1, right=len(scree))
    axes203.set_ylim(bottom=np.min(scree), top=np.max(scree))
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    fig203.canvas.set_window_title("Scree")

    return fig203, axes203


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# ###############################################################################


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def plot_map_stack(map_stack, num_comps=9, stdevs=2, color_bar_mode=None, evenly_spaced=False, reverse_dims=True,
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                   title='Component', heading='Map Stack', fig_mult=(4, 4), pad_mult=(0.1, 0.07), **kwargs):
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    """
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    Plots the provided stack of maps
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    Parameters
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    -------------
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    map_stack : 3D real numpy array
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        structured as [component, rows, cols]
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    num_comps : unsigned int
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        Number of components to plot
    stdevs : int
        Number of standard deviations to consider for plotting
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    color_bar_mode : String, Optional
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        Options are None, single or each. Default None
    title : String or list of strings
        The titles for each of the plots.
        If a single string is provided, the plot titles become ['title 01', title 02', ...].
        if a list of strings (equal to the number of components) are provided, these are used instead.
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    heading : String
        ###Insert description here### Default 'Map Stack'
    fig_mult : length 2 array_like of uints
        Size multipliers for the figure.  Figure size is calculated as (num_rows*`fig_mult[0]`, num_cols*`fig_mult[1]`).
        Default (4, 4)
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    pad_mult : length 2 array_like of floats
        Multipliers for the axis padding between plots in the stack.  Padding is calculated as
        (pad_mult[0]*fig_mult[1], pad_mult[1]*fig_mult[0]) for the width and height padding respectively.
        Default (0.1, 0.07)
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    reverse_dims : Boolean (Optional)
        Set this to False to accept data structured as [component, rows, cols]
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    kwargs : dictionary
        Keyword arguments to be passed to either matplotlib.pyplot.figure, mpl_toolkits.axes_grid1.ImageGrid, or
        pycroscopy.vis.plot_utils.plot_map.  See specific function documentation for the relavent options.
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    Returns
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    ---------
    fig, axes
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    """
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    if reverse_dims:
        map_stack = np.transpose(map_stack, (2, 0, 1))

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    num_comps = abs(num_comps)
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    num_comps = min(num_comps, map_stack.shape[0])
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    if evenly_spaced:
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        chosen_pos = np.linspace(0, map_stack.shape[0] - 1, num_comps, dtype=int)
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    else:
        chosen_pos = np.arange(num_comps, dtype=int)

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    if isinstance(title, list):
        if len(title) > num_comps:
            # remove additional titles
            title = title[:num_comps]
        elif len(title) < num_comps:
            # add titles
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            title += ['Component' + ' ' + str(x) for x in range(len(title), num_comps)]
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    else:
        if not isinstance(title, str):
            title = 'Component'
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        title = [title + ' ' + str(x) for x in chosen_pos]
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    fig_h, fig_w = fig_mult
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    p_rows = int(np.floor(np.sqrt(num_comps)))
    p_cols = int(np.ceil(num_comps / p_rows))
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    if p_rows * p_cols < num_comps:
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        p_cols += 1
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    pad_w, pad_h = pad_mult

    '''
    Set defaults for kwargs to the figure creation and extract any non-default values from current kwargs
    '''
    figkwargs = dict()
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    if sys.version_info.major == 3:
        inspec_func = inspect.getfullargspec
    else:
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        inspec_func = inspect.signature
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    for key in inspec_func(plt.figure).args:
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        if key in kwargs:
            figkwargs.update({key: kwargs.pop(key)})

    fig202 = plt.figure(figsize=(p_cols * fig_w, p_rows * fig_h), **figkwargs)

    '''
    Set defaults for kwargs to the ImageGrid and extract any non-default values from current kwargs
    '''
    igkwargs = {'cbar_pad': '1%',
                'cbar_size': '5%',
                'cbar_location': 'right',
                'direction': 'row',
                'add_all': True,
                'share_all': False,
                'aspect': True,
                'label_mode': 'L'}
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    for key in igkwargs.keys():
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        if key in kwargs:
            igkwargs.update({key: kwargs.pop(key)})

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    axes202 = ImageGrid(fig202, 111, nrows_ncols=(p_rows, p_cols),
                        cbar_mode=color_bar_mode,
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                        axes_pad=(pad_w * fig_w, pad_h * fig_h),
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                        **igkwargs)
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    fig202.canvas.set_window_title(heading)
    fig202.suptitle(heading, fontsize=16)
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    for count, index, subtitle in zip(range(chosen_pos.size), chosen_pos, title):
        im = plot_map(axes202[count],
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                      map_stack[index],
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                      stdevs=stdevs, **kwargs)
        axes202[count].set_title(subtitle)
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        if color_bar_mode is 'each':
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            axes202.cbar_axes[count].colorbar(im)
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    if color_bar_mode is 'single':
        axes202.cbar_axes[0].colorbar(im)
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    return fig202, axes202

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def plot_cluster_h5_group(h5_group, centroids_together=True, cmap=default_cmap):
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    """
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    Plots the cluster labels and mean response for each cluster
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    Parameters
    ----------
    h5_group : h5py.Datagroup object
        H5 group containing the labels and mean response
    centroids_together : Boolean, optional - default = True
        Whether or nor to plot all centroids together on the same plot
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    cmap : plt.cm object or str, optional
        Colormap to use for the labels map and the centroid.
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    Returns
    -------
    fig : Figure
        Figure containing the plots
    axes : 1D array_like of axes objects
        Axes of the individual plots within `fig`
    """
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    h5_labels = h5_group['Labels']
    try:
        h5_mean_resp = h5_group['Mean_Response']
    except KeyError:
        # old PySPM format:
        h5_mean_resp = h5_group['Centroids']

    # Reshape the mean response to N dimensions
    mean_response, success = reshape_to_Ndims(h5_mean_resp)

    # unfortunately, we cannot use the above function for the labels
    # However, we will assume that the position values are linked to the labels:
    h5_pos_vals = h5_labels.file[h5_labels.attrs['Position_Values']]
    h5_pos_inds = h5_labels.file[h5_labels.attrs['Position_Indices']]

    # Reshape the labels correctly:
    pos_dims = []
    for col in range(h5_pos_inds.shape[1]):
        pos_dims.append(np.unique(h5_pos_inds[:, col]).size)

    pos_ticks = [h5_pos_vals[:pos_dims[0], 0], h5_pos_vals[slice(0,None,pos_dims[0]), 1]]
    # prepare the axes ticks for the map

    pos_dims.reverse()  # go from slowest to fastest
    pos_dims = tuple(pos_dims)
    label_mat = np.reshape(h5_labels.value, pos_dims)

    # Figure out the correct units and labels for mean response:
    h5_spec_vals = h5_mean_resp.file[h5_mean_resp.attrs['Spectroscopic_Values']]
    x_spec_label = get_formatted_labels(h5_spec_vals)[0]

    # Figure out the correct axes labels for label map:
    pos_labels = get_formatted_labels(h5_pos_vals)
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    y_spec_label = get_data_descriptor(h5_mean_resp)
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    # TODO: cleaner x and y axes labels instead of 0.0000125 etc.
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    if centroids_together:
        return plot_cluster_results_together(label_mat, mean_response, spec_val=np.squeeze(h5_spec_vals[0]),
                                             spec_label=x_spec_label, resp_label=y_spec_label,
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                                             pos_labels=pos_labels, pos_ticks=pos_ticks, cmap=cmap)
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    else:
        return plot_cluster_results_separate(label_mat, mean_response, max_centroids=4, x_label=x_spec_label,
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                                             spec_val=np.squeeze(h5_spec_vals[0]), y_label=y_spec_label, cmap=cmap)
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###############################################################################
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def plot_cluster_results_together(label_mat, mean_response, spec_val=None, cmap=default_cmap,
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                                  spec_label='Spectroscopic Value', resp_label='Response',
                                  pos_labels=('X', 'Y'), pos_ticks=None):
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    """
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    Plot the cluster labels and mean response for each cluster in separate plots
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    Parameters
    ----------
    label_mat : 2D ndarray or h5py.Dataset of ints
        Spatial map of cluster labels structured as [rows, cols]
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    mean_response : 2D array or h5py.Dataset
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        Mean value of each cluster over all samples 
        arranged as [cluster number, features]
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    spec_val :  1D array or h5py.Dataset of floats, optional
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        X axis to plot the centroids against
        If no value is specified, the data is plotted against the index
    cmap : plt.cm object or str, optional
        Colormap to use for the labels map and the centroid.
        Advised to pick a map where the centroid plots show clearly.
        Default = matplotlib.pyplot.cm.jet
    spec_label : str, optional
        Label to use for X axis on cluster centroid plot
        Default = 'Spectroscopic Value'
    resp_label : str, optional
        Label to use for Y axis on cluster centroid plot
         Default = 'Response'
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    pos_labels : array_like of str, optional
        Labels to use for the X and Y axes on the Label map
        Default = ('X', 'Y')
    pos_ticks : array_like of int
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    Returns
    -------
    fig : Figure
        Figure containing the plots
    axes : 1D array_like of axes objects
        Axes of the individual plots within `fig`
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    """
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    cmap = get_cmap_object(cmap)
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    if isinstance(cmap, str):
        cmap = plt.get_cmap(cmap)
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    def __plot_centroids(centroids, ax, spec_val, spec_label, y_label, cmap, title=None):
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        plot_line_family(ax, spec_val, centroids, label_prefix='Cluster', cmap=cmap)
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        ax.set_ylabel(y_label)
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        # ax.legend(loc='best')
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        if title:
            ax.set_title(title)
            ax.set_xlabel(spec_label)

    if type(spec_val) == type(None):
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        spec_val = np.arange(mean_response.shape[1])
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    if mean_response.dtype in [np.complex64, np.complex128, np.complex]:
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        fig = plt.figure(figsize=(12, 8))
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        ax_map = plt.subplot2grid((2, 12), (0, 0), colspan=6, rowspan=2)
        ax_amp = plt.subplot2grid((2, 12), (0, 6), colspan=4)
        ax_phase = plt.subplot2grid((2, 12), (1, 6), colspan=4)
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        axes = [ax_map, ax_amp, ax_phase]

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        __plot_centroids(np.abs(mean_response), ax_amp, spec_val, spec_label,
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                         resp_label + ' - Amplitude', cmap, 'Mean Response')
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        __plot_centroids(np.angle(mean_response), ax_phase, spec_val, spec_label,
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                         resp_label + ' - Phase', cmap)
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        plot_handles, plot_labels = ax_amp.get_legend_handles_labels()

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    else:
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        fig = plt.figure(figsize=(12, 8))
        ax_map = plt.subplot2grid((1, 12), (0, 0), colspan=6)
        ax_resp = plt.subplot2grid((1, 12), (0, 6), colspan=4)
        axes = [ax_map, ax_resp]
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        __plot_centroids(mean_response, ax_resp, spec_val, spec_label,
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                         resp_label, cmap, 'Mean Response')
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        plot_handles, plot_labels = ax_resp.get_legend_handles_labels()

    fleg = plt.figlegend(plot_handles, plot_labels, loc='center right',
                         borderaxespad=0.0)
    num_clusters = mean_response.shape[0]
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    if isinstance(label_mat, h5py.Dataset):
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        """
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        Reshape label_mat based on linked positions
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        """
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        pos = label_mat.file[label_mat.attrs['Position_Indices']]
        nx = len(np.unique(pos[:, 0]))
        ny = len(np.unique(pos[:, 1]))
        label_mat = label_mat[()].reshape(nx, ny)
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    # im = ax_map.imshow(label_mat, interpolation='none')
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    ax_map.set_xlabel(pos_labels[0])
    ax_map.set_ylabel(pos_labels[1])

    if pos_ticks is not None:
        x_ticks = np.linspace(0, label_mat.shape[1] - 1, 5, dtype=np.uint16)
        y_ticks = np.linspace(0, label_mat.shape[0] - 1, 5, dtype=np.uint16)
        ax_map.set_xticks(x_ticks)
        ax_map.set_yticks(y_ticks)
        ax_map.set_xticklabels(pos_ticks[0][x_ticks])
        ax_map.set_yticklabels(pos_ticks[1][y_ticks])

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    """divider = make_axes_locatable(ax_map)
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    cax = divider.append_axes("right", size="5%", pad=0.05)  # space for colorbar
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    fig.colorbar(im, cax=cax, ticks=np.arange(num_clusters),
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                 cmap=discrete_cmap(num_clusters, base_cmap=plt.cm.viridis))
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    ax_map.axis('tight')"""
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    pcol0 = ax_map.pcolor(label_mat, cmap=discrete_cmap(num_clusters, base_cmap=cmap))
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    fig.colorbar(pcol0, ax=ax_map, ticks=np.arange(num_clusters))
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    ax_map.axis('tight')
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    ax_map.set_aspect('auto')
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    ax_map.set_title('Cluster Label Map')

    fig.tight_layout()
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    fig.canvas.set_window_title('Cluster results')
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    return fig, axes

###############################################################################

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def plot_cluster_results_separate(label_mat, cluster_centroids, max_centroids=4, cmap=default_cmap,
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                                  spec_val=None, x_label='Excitation (a.u.)', y_label='Response (a.u.)'):
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    """
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    Plots the provided labels mat and centroids from clustering
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    Parameters
    ----------
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    label_mat : 2D int numpy array
                structured as [rows, cols]
    cluster_centroids: 2D real numpy array
                       structured as [cluster,features]
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    max_centroids : unsigned int
                    Number of centroids to plot
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    cmap : plt.cm object or str, optional
        Colormap to use for the labels map and the centroids
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    spec_val :  array-like
        X axis to plot the centroids against
        If no value is specified, the data is plotted against the index
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    x_label : String / unicode
              X label for centroid plots
    y_label : String / unicode
              Y label for centroid plots
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    Returns
    -------
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    fig
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    """
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    cmap = get_cmap_object(cmap)
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    if max_centroids < 5:
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        fig501 = plt.figure(figsize=(20, 10))
        fax1 = plt.subplot2grid((2, 4), (0, 0), colspan=2, rowspan=2)
        fax2 = plt.subplot2grid((2, 4), (0, 2))
        fax3 = plt.subplot2grid((2, 4), (0, 3))
        fax4 = plt.subplot2grid((2, 4), (1, 2))
        fax5 = plt.subplot2grid((2, 4), (1, 3))
        fig501.tight_layout()
        axes_handles = [fax1, fax2, fax3, fax4, fax5]

    else:
        fig501 = plt.figure(figsize=(20, 10))
        # make subplot for cluster map
        fax1 = plt.subplot2grid((3, 6), (0, 0), colspan=3, rowspan=3)  # For cluster map
        fax1.set_xmargin(0.50)
        # make subplot for cluster centers
        fax2 = plt.subplot2grid((3, 6), (0, 3))
        fax3 = plt.subplot2grid((3, 6), (0, 4))
        fax4 = plt.subplot2grid((3, 6), (0, 5))
        fax5 = plt.subplot2grid((3, 6), (1, 3))
        fax6 = plt.subplot2grid((3, 6), (1, 4))
        fax7 = plt.subplot2grid((3, 6), (1, 5))
        fax8 = plt.subplot2grid((3, 6), (2, 3))
        fax9 = plt.subplot2grid((3, 6), (2, 4))
        fax10 = plt.subplot2grid((3, 6), (2, 5))
        fig501.tight_layout()
        axes_handles = [fax1, fax2, fax3, fax4, fax5, fax6, fax7, fax8, fax9, fax10]

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    # First plot the labels map:
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    pcol0 = fax1.pcolor(label_mat, cmap=discrete_cmap(cluster_centroids.shape[0], base_cmap=cmap))
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    fig501.colorbar(pcol0, ax=fax1, ticks=np.arange(cluster_centroids.shape[0]))
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    fax1.axis('tight')
    fax1.set_aspect('auto')
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    fax1.set_title('Cluster Label Map')
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    """im = fax1.imshow(label_mat, interpolation='none')
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    divider = make_axes_locatable(fax1)
    cax = divider.append_axes("right", size="5%", pad=0.05)  # space for colorbar
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    plt.colorbar(im, cax=cax)"""

    if spec_val is None and cluster_centroids.ndim == 2:
        spec_val = np.arange(cluster_centroids.shape[1])
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    # Plot results
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    for ax, index in zip(axes_handles[1: max_centroids + 1], np.arange(max_centroids)):
        if cluster_centroids.ndim == 2:
            ax.plot(spec_val, cluster_centroids[index, :],
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                    color=cmap(int(255 * index / (cluster_centroids.shape[0] - 1))))
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            ax.set_xlabel(x_label)
            ax.set_ylabel(y_label)
        elif cluster_centroids.ndim == 3:
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            plot_map(ax, cluster_centroids[index])
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        ax.set_title('Centroid: %d' % index)
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    fig501.subplots_adjust(hspace=0.60, wspace=0.60)
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    fig501.tight_layout()
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    return fig501


###############################################################################

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def plot_cluster_dendrogram(label_mat, e_vals, num_comp, num_cluster, mode='Full', last=None,
                            sort_type='distance', sort_mode=True):
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    """
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    Creates and plots the dendrograms for the given label_mat and
    eigenvalues

    Parameters
    -------------
    label_mat : 2D real numpy array
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        structured as [rows, cols], from KMeans clustering
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    e_vals: 3D real numpy array of eigenvalues
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        structured as [component, rows, cols]
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    num_comp : int
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        Number of components used to make eigenvalues
    num_cluster : int
        Number of cluster used to make the label_mat
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    mode: str, optional
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        How should the dendrograms be created.
        "Full" -- use all clusters when creating the dendrograms
        "Truncated" -- stop showing clusters after 'last'
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    last: int, optional - should be provided when using "Truncated"
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        How many merged clusters should be shown when using
        "Truncated" mode
    sort_type: {'count', 'distance'}, optional
        What type of sorting should be used when plotting the
        dendrograms.  Options are:
        count - Uses the count_sort from scipy.cluster.hierachy.dendrogram
        distance - Uses the distance_sort from scipy.cluster.hierachy.dendrogram
    sort_mode: {False, True, 'ascending', 'descending'}, optional
        For the chosen sort_type, which mode should be used.
        False - Does no sorting
        'ascending' or True - The child with the minimum of the chosen sort
        parameter is plotted first
        'descending' - The child with the maximum of the chosen sort parameter is
        plotted first
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    Returns
    ---------
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    fig : matplotlib.pyplot Figure object
        Figure containing the dendrogram
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    """
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    if mode == 'Truncated' and not last:
        warn('Warning: Truncated dendrograms requested, but no last cluster given.  Reverting to full dendrograms.')
        mode = 'Full'

    if mode == 'Full':
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        print('Creating full dendrogram from clusters')
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        mode = None
    elif mode == 'Truncated':
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        print('Creating truncated dendrogram from clusters.  Will stop at {}.'.format(last))
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        mode = 'lastp'
    else:
        raise ValueError('Error: Unknown mode requested for plotting dendrograms. mode={}'.format(mode))

    c_sort = False
    d_sort = False
    if sort_type == 'count':
        c_sort = sort_mode
        if c_sort == 'descending':
            c_sort = 'descendent'
    elif sort_type == 'distance':
        d_sort = sort_mode

    centroid_mat = np.zeros([num_cluster, num_comp])
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    for k1 in range(num_cluster):
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        [i_x, i_y] = np.where(label_mat == k1)
        u_stack = np.zeros([len(i_x), num_comp])
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        for k2 in range(len(i_x)):
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            u_stack[k2, :] = np.abs(e_vals[i_x[k2], i_y[k2], :num_comp])

        centroid_mat[k1, :] = np.mean(u_stack, 0)

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    # Get the distrance between cluster means
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    distance_mat = scipy.spatial.distance.pdist(centroid_mat)
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    # get hierachical pairings of clusters
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    linkage_pairing = scipy.cluster.hierarchy.linkage(distance_mat, 'weighted')
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    linkage_pairing[:, 3] = linkage_pairing[:, 3] / max(linkage_pairing[:, 3])

    fig = plt.figure()
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    scipy.cluster.hierarchy.dendrogram(linkage_pairing, p=last, truncate_mode=mode,
                                       count_sort=c_sort, distance_sort=d_sort,
                                       leaf_rotation=90)
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    fig.axes[0].set_title('Dendrogram')
    fig.axes[0].set_xlabel('Index or (cluster size)')
    fig.axes[0].set_ylabel('Distance')

    return fig


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def plot_1d_spectrum(data_vec, freq, title, figure_path=None):
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    """
    Plots the Step averaged BE response

    Parameters
    ------------
    data_vec : 1D numpy array
        Response of one BE pulse
    freq : 1D numpy array
        BE frequency that serves as the X axis of the plot
    title : String
        Plot group name
    figure_path : String / Unicode
        Absolute path of the file to write the figure to

    Returns
    ---------
    fig : Matplotlib.pyplot figure
        Figure handle
    ax : Matplotlib.pyplot axis
        Axis handle
    """
    if len(data_vec) != len(freq):
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        warn('plot_1d_spectrum: Incompatible data sizes!!!!')
        print('1D:', data_vec.shape, freq.shape)
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        return
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    freq *= 1E-3  # to kHz
    fig, ax = plt.subplots(nrows=2, ncols=1, sharex=True)
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    ax[0].plot(freq, np.abs(data_vec) * 1E+3)
    ax[0].set_title('Amplitude (mV)')
    ax[1].plot(freq, np.angle(data_vec) * 180 / np.pi)
    ax[1].set_title('Phase (deg)')
    ax[1].set_xlabel('Frequency (kHz)')
    fig.suptitle(title + ': mean UDVS, mean spatial response')
    if figure_path:
        plt.savefig(figure_path, format='png', dpi=300)