Logo Search packages:      
Sourcecode: matplotlib version File versions  Download package

demo_axes_rgb.py

import numpy as np
import matplotlib.pyplot as plt

from demo_axes_divider import get_demo_image
from mpl_toolkits.axes_grid.axes_rgb import make_rgb_axes, RGBAxes

def get_rgb():
    Z, extent = get_demo_image()

    Z[Z<0] = 0.
    Z = Z/Z.max()

    R = Z[:13,:13]
    G = Z[2:,2:]
    B = Z[:13,2:]

    return R, G, B


def make_cube(r, g, b):
    ny, nx = r.shape
    R = np.zeros([ny, nx, 3], dtype="d")
    R[:,:,0] = r
    G = np.zeros_like(R)
    G[:,:,1] = g
    B = np.zeros_like(R)
    B[:,:,2] = b

    RGB = R + G + B

    return R, G, B, RGB



def demo_rgb():
    fig = plt.figure(1)
    fig.clf()

    ax = fig.add_subplot(111)
    ax_r, ax_g, ax_b = make_rgb_axes(ax, pad=0.02)
    #fig.add_axes(ax_r)
    #fig.add_axes(ax_g)
    #fig.add_axes(ax_b)

    r, g, b = get_rgb()
    im_r, im_g, im_b, im_rgb = make_cube(r, g, b)
    kwargs = dict(origin="lower", interpolation="nearest")
    ax.imshow(im_rgb, **kwargs)
    ax_r.imshow(im_r, **kwargs)
    ax_g.imshow(im_g, **kwargs)
    ax_b.imshow(im_b, **kwargs)




def demo_rgb2():
    fig = plt.figure(2)
    ax = RGBAxes(fig, [0.1, 0.1, 0.8, 0.8], pad=0.0)
    #fig.add_axes(ax)
    #ax.add_RGB_to_figure()

    r, g, b = get_rgb()
    kwargs = dict(origin="lower", interpolation="nearest")
    ax.imshow_rgb(r, g, b, **kwargs)

    ax.RGB.set_xlim(0., 9.5)
    ax.RGB.set_ylim(0.9, 10.6)

    for ax1 in [ax.RGB, ax.R, ax.G, ax.B]:
        for axisline in ax1._axislines.values():
            axisline.line.set_color("w")
            axisline.major_ticks.set_mec("w")

    return ax


if __name__ == "__main__":
    demo_rgb()
    ax = demo_rgb2()

    plt.draw()
    plt.show()

Generated by  Doxygen 1.6.0   Back to index