# how to extract a subset of a colormap as a new colormap in matplotlib?

I would like to use a colormap from matplotlib e.g. CMRmap. But I don't want to use the "black" color at the beginning and the "white" color at the end. I'm interested to plot my data using the in-between colors. I think ppl use it quite often but I was searching over internet and could not manage to find any simple solution. I'll appreciate if someone suggest any solution.

• V useful to avoid black when the colors are used for text backgrounds - good question Oct 24, 2018 at 14:04

The staticmethod colors.LinearSegmentedColormap.from_list can be used to create new LinearSegmentedColormaps. Below, I sample the original colormap at 100 points between 0.2 and 0.8:

``````cmap(np.linspace(0.2, 0.8, 100))
``````

and use these colors to generate a new colormap:

``````import matplotlib.pyplot as plt
import matplotlib.colors as colors
import numpy as np

def truncate_colormap(cmap, minval=0.0, maxval=1.0, n=100):
new_cmap = colors.LinearSegmentedColormap.from_list(
'trunc({n},{a:.2f},{b:.2f})'.format(n=cmap.name, a=minval, b=maxval),
cmap(np.linspace(minval, maxval, n)))
return new_cmap

arr = np.linspace(0, 50, 100).reshape((10, 10))
fig, ax = plt.subplots(ncols=2)

cmap = plt.get_cmap('jet')
new_cmap = truncate_colormap(cmap, 0.2, 0.8)
ax[0].imshow(arr, interpolation='nearest', cmap=cmap)
ax[1].imshow(arr, interpolation='nearest', cmap=new_cmap)
plt.show()
``````

The plot on the left shows the image using the original colormap (in this example, `jet`). The plot on the right shows the same image using `new_cmap`.

• I've taken the liberty of putting this up on gist.github colormaputil.py together with get_cmap, array_cmap, stack_colormap, band_colormap . Dec 20, 2013 at 10:15
• Thanks for that. One more question if anyone looks at this again: If I run truncate_colormap on a discrete colormap, I get a smooth map in return. How would I return also a discrete map? This is kind of weird, since the function itself returns a linear segmented map Sep 4, 2015 at 16:16
• Why n=100 and not 256?
– Oren
May 15, 2016 at 6:25
• For those who are very confused like I was by the fact that object `cmap`can accept arguments: class matplotlib.colors.Colormap has a method `__call__`, which makes it a functor, i.e. the object can be used as if it is a function. Jan 24, 2018 at 21:09
• For those looking for the github gist mentioned by @denis
– M.T
Sep 29, 2020 at 9:00

In my CMasher package, I provide the `get_sub_cmap()`-function (https://cmasher.readthedocs.io/user/usage.html#sub-colormaps), which takes a colormap and a range, and returns a new colormap containing the requested range.

So, for example, if you want to take the colors between 20% and 80% of the `viridis` colormap, you can do that with:

``````import cmasher as cmr

cmap = cmr.get_sub_cmap('viridis', 0.2, 0.8)
``````

PS: Do not use `jet` (or `CMRmap`), as they are not perceptually uniform sequential. Instead, use the 5 proper colormaps in matplotlib or the colormaps provided by cmocean or my CMasher.

EDIT: In the latest version of CMasher, one can also use this same function to create a discrete/qualitative colormap out of any colormap by supplying the function with the number of segments to take. For example, if you want to create a qualitative colormap of `viridis` in the 20% to 80% range, you can do this with:

``````cmap = cmr.get_sub_map('viridis', 0.2, 0.8, N=5)
``````
• CMasher is the way to go. It was not available when this question was asked, but I think nowadays it is the state-of-the-art solution for to OPs problem. Sep 2, 2021 at 20:39

I was just recently struggling with this on my own. Here are some possible solutions:

Try using `vmin`, `vmax` keyword arguments in your plotting function. For example, say you had data between 0 and 1 but didn't like the colors used at the extremes of the colormap for 0 and 1.

``````import matplotlib.pyplot as plt
import matplotlib.cm as cm

my_cmap = cm.spectral_r
my_cmap.set_over('c')
my_cmap.set_under('m')
plt.pcolor(data, vmin=0.01, vmax=0.99, cmap=my_cmap)
``````

This will force the entire colormap to be used for values between 0.01 and 0.99 and values above and below will be cyan and magenta respectively. This may not solve your problem exactly, but it could be useful if you like a particular colormap and wish it had additional colors at both ends.

If you really want to change the colormap, look at the documentation here and for LinearSegmentedColormap here.

First,

``````import matplotlib.cm as cm
cdict = cm.get_cmap('spectral_r')._segmentdata
``````

This returns a dictionary of all the colors that make up the colormap. However, it's pretty tricky figuring out exactly how to alter this dictionary. This dict has three keys, `red, green, blue`. `cdict[key]` returns a list of values of the form `(x, y0, y1)`. Let's take a look at two consecutive elements of `cdict['red']`:

``````((0.0, 0.0, 0.0)
(0.5, 1.0, 1.0),...
``````

What this means is that data with `z` (assuming we're doing a `pcolor` or `imshow`) between 0.0 and 0.5 will have the red component of the rgb color associated with that data will increase from 0.0 (no red) to 1.0 (maximum red). This means that to change the color of the colormap, you have to examine how each of the three components of rgb are interpolated in the region of the colormap that you are interested in. Just make sure that for each color, the first and the last entry start with `x=0` and `x=1` respectively; you must cover the whole spectrum of [0, 1].

If you want to change the beginning and end colors, try

``````import matplotlib.cm as cm
from matplotlib.colors import LinearSegmentedColormap
cdict = cm.get_cmap('spectral_r')._segmentdata

cdict['red'][0] = (0, 0.5, 0.5) # x=0 for bottom color in colormap
cdict['blue'][0] = (0, 0.5, 0.5) # y=0.5 gray
cdict['green'][0] = (0, 0.5, 0.5) # y1=y for simple interpolation
cdict['red'][-1] = (1, 0.5, 0.5) # x=1 for top color in colormap
cdict['blue'][-1] = (1, 0.5, 0.5)
cdict['green'][-1] = (1, 0.5, 0.5)

my_cmap = LinearSegmentedColormap('name', cdict)
``````

Then use this cmap in your plotting function.

What I wanted to do was change the gray at the end of the `spectral_r` colormap to pure white. This was achieved using

``````# Using imports from above
cdict = matplotlib.cm.get_cmap('spectral_r')._segmentdata
cdict['red'][0] = (0, 1, 1)
cdict['green'][0] = (0, 1, 1)
cdict['blue'][0] = (0, 1, 1)
my_cmap = LinearSegmentedColormap('my_cmap', cdict)
``````
• thanks for the informative answer. It will be very useful to construct a custom colormap.
– rana
Sep 20, 2013 at 22:52

Here is an adaptation of a previous answer which embeds the plotting function:

``````import matplotlib.pyplot as plt
import matplotlib.colors as colors
import numpy as np

################### Function to truncate color map ###################
def truncate_colormap(cmapIn='jet', minval=0.0, maxval=1.0, n=100):
'''truncate_colormap(cmapIn='jet', minval=0.0, maxval=1.0, n=100)'''
cmapIn = plt.get_cmap(cmapIn)

new_cmap = colors.LinearSegmentedColormap.from_list(
'trunc({n},{a:.2f},{b:.2f})'.format(n=cmapIn.name, a=minval, b=maxval),
cmapIn(np.linspace(minval, maxval, n)))

arr = np.linspace(0, 50, 100).reshape((10, 10))
fig, ax = plt.subplots(ncols=2)
ax[0].imshow(arr, interpolation='nearest', cmap=cmapIn)
ax[1].imshow(arr, interpolation='nearest', cmap=new_cmap)
plt.show()

return new_cmap

cmap_mod = truncate_colormap(minval=.2, maxval=.8)  # calls function to truncate colormap
``````

Having a compact function with the plotting embedded is helpful if you need to call the function more than once.

Slight improvement of visualization from a previous answer, (inspired by that answer)

``````import numpy as np
import matplotlib as mpl
import matplotlib.pyplot as plt

def truncate_colormap(cmap, minval=0.0, maxval=1.0, n=100):
'''
https://stackoverflow.com/a/18926541
'''
if isinstance(cmap, str):
cmap = plt.get_cmap(cmap)
new_cmap = mpl.colors.LinearSegmentedColormap.from_list(
'trunc({n},{a:.2f},{b:.2f})'.format(n=cmap.name, a=minval, b=maxval),
cmap(np.linspace(minval, maxval, n)))
return new_cmap

cmap_base = 'jet'
vmin, vmax = 0.2, 0.8
cmap = truncate_colormap(cmap_base, vmin, vmax)

fig, ax = plt.subplots(nrows=2)
sm = mpl.cm.ScalarMappable(cmap=cmap_base)
cbar = plt.colorbar(sm, cax=ax[0], orientation='horizontal')

sm = mpl.cm.ScalarMappable(cmap=cmap)
cbar = plt.colorbar(sm, cax=ax[1], orientation='horizontal')
plt.show()
``````

### Quick Wrapper Function:

``````def sub_cmap(cmap, vmin, vmax):
return lambda v: cmap(vmin + (vmax - vmin) * v)
``````

### Usage:

``````cmap = matplotlib.cm.get_cmap('viridis') # Get your favorite cmap
new_cmap = sub_cmap(cmap, 0.2, 0.9)

# Do plot or something
# ...
``````
• This new cmap is not a matplotlib cmap. Jun 13, 2022 at 13:15
``````cmap = cmr.get_sub_map('viridis', 0.2, 0.8, N=5)
``````

proposed by @1313e must be the most elegant solution. But the new function is `cmr.get_sub_cmap()`, just replace it.