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What's the trivial example of how to generate random colors for passing to plotting functions?

I'm calling scatter inside a loop and want each plot in a different color.

c: a color. c can be a single color format string, or a sequence of color specifications of length N, or a sequence of N numbers to be mapped to colors using the cmap and norm specified via kwargs (see below). Note that c should not be a single numeric RGB or RGBA sequence because that is indistinguishable from an array of values to be colormapped. c can be a 2-D array in which the rows are RGB or RGBA, however.

for X,Y in data:
   scatter(X, Y, c=??)
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Randomly chosen from what? If you choose randomly from all available colors, you may get a weird mix of some very different colors and some so similar as to be difficult to distinguish. – BrenBarn Feb 6 '13 at 2:07

5 Answers 5

up vote 17 down vote accepted
for X,Y in data:
   scatter(X, Y, c=numpy.random.rand(3,1))
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I had to use c=numpy.random.rand(3,) otherwise I got an error... – heltonbiker May 17 '13 at 13:55

I'm calling scatter inside a loop and want each plot in a different color.

Based on that, and on your answer: It seems to me that you actually want N distinct colors for your datasets; you want to map the integer indices 0, 1, ... N-1 to distinct RGB colors. Something like:

mapping index to color

This is how to to do it with color maps in a generic way:

import matplotlib.pyplot as plt
import as cmx
import matplotlib.colors as colors

def get_cmap(N):
    '''Returns a function that maps each index in 0, 1, ... N-1 to a distinct 
    RGB color.'''
    color_norm  = colors.Normalize(vmin=0, vmax=N-1)
    scalar_map = cmx.ScalarMappable(norm=color_norm, cmap='hsv') 
    def map_index_to_rgb_color(index):
        return scalar_map.to_rgba(index)
    return map_index_to_rgb_color

def main():
    N = 30
    ax.set_xlim([ 0, N])
    ax.set_ylim([-0.5, 0.5])
    cmap = get_cmap(N)
    for i in range(N):
        col = cmap(i)
        rect = plt.Rectangle((i, -0.5), 1, 1, facecolor=col)

if __name__=='__main__':
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What is wrong with the answer? Why the downvote? – Ali May 5 at 21:16
great work! i use this code to color barchats – user1941407 Oct 16 at 8:12
@user1941407 Thanks! :) I wish I knew why somebody anonymously downvoted the answer. – Ali Oct 16 at 8:54

When less than 9 datasets:

colors = "bgrcmykw"
color_index = 0

for X,Y in data:
    scatter(X,Y, c=colors[color_index])
    color_index += 1
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elaborating @john-mee 's answer, if you don't need strictly unique colors but have arbitrarily long data:

from itertools import cycle
col_gen = cycle('bgrcmk')

for X,Y in data:
    scatter(X, Y,

this has the advantage that the colors are easy to control and that it's short.

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For some time I was really annoyed by the fact that matplotlib doesn't generate colormaps with random colors, as this is a common need for segmentation and clustering tasks.

By just generating random colors we may end with some that are too bright or too dark, making visualization difficult. Also, usually we need the first or last color to be black, representing the background or outliers. So I've wrote a small function for my everyday work

Here's the behavior of it:

new_cmap = rand_cmap(100, type='bright', first_color_black=True, last_color_black=False, verbose=True) Generated colormap

Than you just use new_cmap as your colormap on matplotlib:

ax.scatter(X,Y, c=label, cmap=new_cmap, vmin=0, vmax=num_labels)

The code is here:

def rand_cmap(nlabels, type='bright', first_color_black=True, last_color_black=False, verbose=True):
    Creates a random colormap to be used together with matplotlib. Useful for segmentation tasks
    :param nlabels: Number of labels (size of colormap)
    :param type: 'bright' for strong colors, 'soft' for pastel colors
    :param first_color_black: Option to use first color as black, True or False
    :param last_color_black: Option to use last color as black, True or False
    :param verbose: Prints the number of labels and shows the colormap. True or False
    :return: colormap for matplotlib
    from matplotlib.colors import LinearSegmentedColormap
    import colorsys
    import numpy as np

if type not in ('bright', 'soft'): print ('Please choose "bright" or "soft" for type') return if verbose: print('Number of labels: ' + str(nlabels)) # Generate color map for bright colors, based on hsv if type == 'bright': randHSVcolors = [(np.random.uniform(low=0.0, high=1), np.random.uniform(low=0.2, high=1), np.random.uniform(low=0.9, high=1)) for i in xrange(nlabels)] # Convert HSV list to RGB randRGBcolors = [] for HSVcolor in randHSVcolors: randRGBcolors.append(colorsys.hsv_to_rgb(HSVcolor[0], HSVcolor[1], HSVcolor[2])) if first_color_black: randRGBcolors[0] = [0, 0, 0] if last_color_black: randRGBcolors[-1] = [0, 0, 0] random_colormap = LinearSegmentedColormap.from_list('new_map', randRGBcolors, N=nlabels) # Generate soft pastel colors, by limiting the RGB spectrum if type == 'soft': low = 0.6 high = 0.95 randRGBcolors = [(np.random.uniform(low=low, high=high), np.random.uniform(low=low, high=high), np.random.uniform(low=low, high=high)) for i in xrange(nlabels)] if first_color_black: randRGBcolors[0] = [0, 0, 0] if last_color_black: randRGBcolors[-1] = [0, 0, 0] random_colormap = LinearSegmentedColormap.from_list('new_map', randRGBcolors, N=nlabels) # Display colorbar if verbose: from matplotlib import colors, colorbar from matplotlib import pyplot as plt fig, ax = plt.subplots(1, 1, figsize=(15, 0.5)) bounds = np.linspace(0, nlabels, nlabels + 1) norm = colors.BoundaryNorm(bounds, nlabels) cb = colorbar.ColorbarBase(ax, cmap=random_colormap, norm=norm, spacing='proportional', ticks=None, boundaries=bounds, format='%1i', orientation=u'horizontal') return random_colormap

It's also on github:

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