Animation.py

import numpy as np
import matplotlib.pyplot as plt
from matplotlib.animation import FuncAnimation
import mpl_toolkits.axes_grid1
import matplotlib.widgets


class CubeAnimate:
    def __init__(self, cube):

        self.cube = cube
        self.fig, self.ax = plt.subplots()

        self.ax.imshow(np.squeeze(self.cube[:, :, 0]))

        ani = Player(self.fig, self._update, max_ii=self.cube.shape[2] - 1)

        plt.show()

    def _update(self, ii):
        self.ax.imshow(np.squeeze(self.cube[:, :, ii]))


class Player(FuncAnimation):
    def __init__(self, fig, func, frames=None, init_func=None, fargs=None,
                 save_count=None, min_ii=0, max_ii=100, pos=(0.125, 0.92), **kwargs):
        self.i = 0
        self.min = min_ii
        self.max = max_ii
        self.runs = True
        self.forwards = True
        self.fig = fig
        self.func = func
        self.setup(pos)
        FuncAnimation.__init__(self,self.fig, self.update, frames=self.play(),
                                           init_func=init_func, fargs=fargs,
                                           save_count=save_count, **kwargs )

    def play(self):
        while self.runs:
            self.i = self.i+self.forwards-(not self.forwards)
            if self.i > self.min and self.i < self.max:
                yield self.i
            else:
                self.stop()
                yield self.i

    def start(self):
        self.runs=True
        self.event_source.start()

    def stop(self, event=None):
        self.runs = False
        self.event_source.stop()

    def forward(self, event=None):
        self.forwards = True
        self.start()
    def backward(self, event=None):
        self.forwards = False
        self.start()
    def oneforward(self, event=None):
        self.forwards = True
        self.onestep()
    def onebackward(self, event=None):
        self.forwards = False
        self.onestep()

    def onestep(self):
        if self.i > self.min and self.i < self.max:
            self.i = self.i+self.forwards-(not self.forwards)
        elif self.i == self.min and self.forwards:
            self.i+=1
        elif self.i == self.max and not self.forwards:
            self.i-=1
        self.func(self.i)
        self.slider.set_val(self.i)
        self.fig.canvas.draw_idle()

    def setup(self, pos):
        playerax = self.fig.add_axes([pos[0],pos[1], 0.64, 0.04])
        divider = mpl_toolkits.axes_grid1.make_axes_locatable(playerax)
        bax = divider.append_axes("right", size="80%", pad=0.05)
        sax = divider.append_axes("right", size="80%", pad=0.05)
        fax = divider.append_axes("right", size="80%", pad=0.05)
        ofax = divider.append_axes("right", size="100%", pad=0.05)
        sliderax = divider.append_axes("right", size="500%", pad=0.07)
        self.button_oneback = matplotlib.widgets.Button(playerax, label='$\u29CF$')
        self.button_back = matplotlib.widgets.Button(bax, label='$\u25C0$')
        self.button_stop = matplotlib.widgets.Button(sax, label='$\u25A0$')
        self.button_forward = matplotlib.widgets.Button(fax, label='$\u25B6$')
        self.button_oneforward = matplotlib.widgets.Button(ofax, label='$\u29D0$')
        self.button_oneback.on_clicked(self.onebackward)
        self.button_back.on_clicked(self.backward)
        self.button_stop.on_clicked(self.stop)
        self.button_forward.on_clicked(self.forward)
        self.button_oneforward.on_clicked(self.oneforward)
        self.slider = matplotlib.widgets.Slider(sliderax, '',
                                                self.min, self.max, valinit=self.i)
        self.slider.on_changed(self.set_pos)

    def set_pos(self, i):
        self.i = int(self.slider.val)
        self.func(self.i)

    def update(self, i):
        self.slider.set_val(i)