import matplotlib.pyplot as plt
img = [[0.9, 0.3], [0.2, 0.1]]
cmap = plt.get_cmap('jet')
rgba_img = cmap(img)
rgb_img = np.delete(rgba_img, 3, 2)
cmap is an instance of matplotlib's
LinearSegmentedColormap class, which is derived from the
Colormap class. It works because of the
__call__ function defined in
Colormap. Here is the docstring from matplotlib's git repo for reference, since it's not described in the API.
def __call__(self, X, alpha=None, bytes=False):
*X* is either a scalar or an array (of any dimension).
If scalar, a tuple of rgba values is returned, otherwise
an array with the new shape = oldshape+(4,). If the X-values
are integers, then they are used as indices into the array.
If they are floating point, then they must be in the
interval (0.0, 1.0).
Alpha must be a scalar between 0 and 1, or None.
If bytes is False, the rgba values will be floats on a
0-1 scale; if True, they will be uint8, 0-255.
A simpler option is to display
plt.matshow, and then copy or save the result as an RGB or RGBA image. This was too slow for my application (~ 30 times slower on my machine).