I was wondering if there is a function call that can give me the name of all colormaps available in matplotlib?

It used to be possible by something along the lines of (see here):

import matplotlib.pyplot as plt
cmaps = sorted(m for m in plt.cm.datad if not m.endswith("_r"))

But running this in mpl 1.5 does not return the new colormaps, such as viridis, magma and so on. On the new reference page the code actually hardcodes the names (see here) but I was wondering if a similar query to the above is still possible?

7 Answers 7


plt.colormaps() returns a list of all registered colormaps. From the docs:


Matplotlib provides a number of colormaps, and others can be added using register_cmap(). This function documents the built-in colormaps, and will also return a list of all registered colormaps if called.

The list this returns includes viridis, magma, inferno and plasma for me in 1.5.0


Here's some code that plots all available colormaps linked to their ID's

import matplotlib as mpl
import matplotlib.pyplot as plt

def plot_colorMaps(cmap):

    fig, ax = plt.subplots(figsize=(4,0.4))
    col_map = plt.get_cmap(cmap)
    mpl.colorbar.ColorbarBase(ax, cmap=col_map, orientation = 'horizontal')


for cmap_id in plt.colormaps():

The output looks like this


enter image description here


enter image description here


enter image description here


  • 1
    This answer is underrated. This displays every colourmap, especially those not listed on the example colourmaps page on the matplotlib documentation. Thanks so much!
    – rayryeng
    Mar 31, 2021 at 5:27

Below is code based on pr94’s approach that plots every colormap with its id in the title but doesn’t open a figure for every single colormap.
I’ve used this to create an overview in one picture of all 166 colormaps (mpl version 3.4.2).
Overview of all colormaps

import matplotlib as mpl
import matplotlib.pyplot as plt

def plot_all_cmaps():
    N_ROWS, N_COLS = 8, 7 # 13, 13 <-- for all in one figure 
    HEIGHT, WIDTH = 7, 14

    cmap_ids = plt.colormaps()
    n_cmaps = len(cmap_ids)
    print(f'mpl version: {mpl.__version__},\nnumber of cmaps: {n_cmaps}')
    index = 0
    while index < n_cmaps:
        fig, axes = plt.subplots(N_ROWS, N_COLS, figsize=(WIDTH, HEIGHT))
        for row in range(N_ROWS):
            for col in range(N_COLS):
                ax = axes[row, col]
                cmap_id = cmap_ids[index]
                cmap = plt.get_cmap(cmap_id)
                mpl.colorbar.ColorbarBase(ax, cmap=cmap,
                ax.set_title(f"'{cmap_id}', {index}", fontsize=8)
                ax.tick_params(left=False, right=False, labelleft=False,
                               labelbottom=False, bottom=False)
                last_iteration = index == n_cmaps-1
                if (row==N_ROWS-1 and col==N_COLS-1) or last_iteration:
                    if last_iteration: return
                index += 1

  • You could change cmap_ids = plt.colormaps() to cmap_ids = sorted(plt.colormaps(), key=str.lower) for case-insensitive sorting.
    – Tonechas
    Apr 8 at 21:29

Now you can see all available color and their kind in the latest official example in the matplotlib documentation. As of September 2023, the documentation is here:


Here is example usage to display your color in IPython, with bonus from me to use it in cmap.

from IPython.display import display
import matplotlib


n_sample = 3

cmap = matplotlib.colors.ListedColormap(
for i, power in enumerate(power_output_result):
    color = cmap.colors[i]
#     plt.plot(..., color=color)
# plt.legend(loc='upper right')
# plt.show()

It seems that you can directly view the colormap instance by just calling its name. For instance, col_map = plt.get_cmap(cmap), and you type col_map in the terminal (e.g. spyder), the colormap will be shown as a plot. However, I am not sure what has triggered this appearance or are there any necessary codes to specify this option?


As of 2021 (matplotlib 3.4),

IPython representations for Colormap objects

The matplotlib.colors.Colormap object now has image representations for IPython / Jupyter backends. Cells returning a colormap on the last line will display an image of the colormap.

So now you can use cmaps = plt.colormaps() to get all valid colormap names. The output will be a list of names:

['Accent', 'Accent_r', 'Blues', 'Blues_r', 'BrBG', 'BrBG_r', 'BuGn', 'BuGn_r', 'BuPu', 'BuPu_r', 'CMRmap', 'CMRmap_r', 'Dark2', 'Dark2_r', 'GnBu', 'GnBu_r', 'Greens', 'Greens_r', 'Greys', 'Greys_r', 'OrRd', 'OrRd_r', 'Oranges', 'Oranges_r', 'PRGn', 'PRGn_r', 'Paired', 'Paired_r', 'Pastel1', 'Pastel1_r', 'Pastel2', 'Pastel2_r', 'PiYG', 'PiYG_r', 'PuBu', 'PuBuGn', 'PuBuGn_r', 'PuBu_r', 'PuOr', 'PuOr_r', 'PuRd', 'PuRd_r', 'Purples', 'Purples_r', 'RdBu', 'RdBu_r', 'RdGy', 'RdGy_r', 'RdPu', 'RdPu_r', 'RdYlBu', 'RdYlBu_r', 'RdYlGn', 'RdYlGn_r', 'Reds', 'Reds_r', 'Set1', 'Set1_r', 'Set2', 'Set2_r', 'Set3', 'Set3_r', 'Spectral', 'Spectral_r', 'Wistia', 'Wistia_r', 'YlGn', 'YlGnBu', 'YlGnBu_r', 'YlGn_r', 'YlOrBr', 'YlOrBr_r', 'YlOrRd', 'YlOrRd_r', 'afmhot', 'afmhot_r', 'autumn', 'autumn_r', 'binary', 'binary_r', 'bone', 'bone_r', 'brg', 'brg_r', 'bwr', 'bwr_r', 'cividis', 'cividis_r', 'cool', 'cool_r', 'coolwarm', 'coolwarm_r', 'copper', 'copper_r', 'cubehelix', 'cubehelix_r', 'flag', 'flag_r', 'gist_earth', 'gist_earth_r', 'gist_gray', 'gist_gray_r', 'gist_heat', 'gist_heat_r', 'gist_ncar', 'gist_ncar_r', 'gist_rainbow', 'gist_rainbow_r', 'gist_stern', 'gist_stern_r', 'gist_yarg', 'gist_yarg_r', 'gnuplot', 'gnuplot2', 'gnuplot2_r', 'gnuplot_r', 'gray', 'gray_r', 'hot', 'hot_r', 'hsv', 'hsv_r', 'inferno', 'inferno_r', 'jet', 'jet_r', 'magma', 'magma_r', 'nipy_spectral', 'nipy_spectral_r', 'ocean', 'ocean_r', 'pink', 'pink_r', 'plasma', 'plasma_r', 'prism', 'prism_r', 'rainbow', 'rainbow_r', 'seismic', 'seismic_r', 'spring', 'spring_r', 'summer', 'summer_r', 'tab10', 'tab10_r', 'tab20', 'tab20_r', 'tab20b', 'tab20b_r', 'tab20c', 'tab20c_r', 'terrain', 'terrain_r', 'turbo', 'turbo_r', 'twilight', 'twilight_r', 'twilight_shifted', 'twilight_shifted_r', 'viridis', 'viridis_r', 'winter', 'winter_r']

Then plt.get_cmap(cmaps[0]) will render the colormap in IPython/JupyetrLab. enter image description here


As stated above, plt.colormaps() will return a list of all registered colormaps in MPL. If you are also looking for plotting all of them, such that you can see what they look like, I would suggest taking a look at the create_cmap_overview() function (https://cmasher.readthedocs.io/user/usage.html#colormap-overviews) in the CMasher package. It takes a list of colormaps and creates an overview plot with all colormaps it was provided with. It also has a bunch of options that you can use if you want to sort the colormaps on specific aspects or group them by type.

An example can be seen here (not showing the image in this post, as it is rather large): https://cmasher.readthedocs.io/user/cmap_overviews/mpl_cmaps.html

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