77

I know how to cycle through a list of colors in matplotlib. But is it possible to do something similar with line styles (plain, dotted, dashed, etc.)? I'd need to do that so my graphs would be easier to read when printed. Any suggestions how to do that?

1
113

Something like this might do the trick:

import matplotlib.pyplot as plt
from itertools import cycle
lines = ["-","--","-.",":"]
linecycler = cycle(lines)
plt.figure()
for i in range(10):
    x = range(i,i+10)
    plt.plot(range(10),x,next(linecycler))
plt.show()

Result: enter image description here

Edit for newer version (v2.22)

import matplotlib.pyplot as plt
from cycler import cycler
#
plt.figure()
for i in range(5):
    x = range(i,i+5)
    linestyle_cycler = cycler('linestyle',['-','--',':','-.'])
    plt.rc('axes', prop_cycle=linestyle_cycler)
    plt.plot(range(5),x)
    plt.legend(['first','second','third','fourth','fifth'], loc='upper left', fancybox=True, shadow=True)
plt.show()

For more detailed information consult the matplotlib tutorial on "Styling with cycler"
To see the output click "show figure"

8
  • Is that possible for a non trivial color line combinations? lines["r:","k.","y-."] works but lines["r:","#aaaaaa.","y-."] does not – louis cypher Apr 22 '12 at 21:37
  • 2
    @louiscypher: that's because #aaaaaa. is not a valid format string. If you need hex colors like that, I suggest separate them as [("r", ":"),("#aaaaaa","."),("y","-.")], use unpacking to get them color, lineformat = next(linecycler) and use color keyword to provide color: plt.plot(x, y, lineformat, color=color) – Avaris Apr 22 '12 at 21:59
  • Thanks, I already used it like that. But since I use the cycler in every plot I wanted to keep things easy (just one argument). I guess I should try to use a touple in the cycler. – louis cypher Apr 22 '12 at 22:39
  • 6
    @louiscypher: another possibility is using a dict. That'll make it a single line. styles = [{'color':'r', 'ls':'--', 'marker':'o'}, ...] then make a cycler from it and you'll be able to do plot(x, y, **next(cycler)). – Avaris Apr 22 '12 at 22:47
  • That sounds good. I tried that already but I missed the ** – louis cypher Apr 22 '12 at 22:51
25

The upcoming matplotlib v1.5 will deprecate color_cycle for the new prop_cycler feature: http://matplotlib.org/devdocs/users/whats_new.html?highlight=prop_cycle#added-axes-prop-cycle-key-to-rcparams

plt.rcParams['axes.prop_cycle'] = ("cycler('color', 'rgb') +" "cycler('lw', [1, 2, 3])") Then go ahead and create your axes and plots!

1
10

If you want the change to be automatic you can add this two lines in the axes.py file of matplotlib: Look for that line:

   self.color_cycle = itertools.cycle(clist)

and add the following line underneath:

   self.line_cycle = itertools.cycle(["-",":","--","-.",])

And look for the line:

   kw['color'] = self.color_cycle.next()

and add the line:

   kw['linestyle'] = self.line_cycle.next()

I guess you can do the same for marker.

2
  • 5
    I find it strange that such "low hanging fruits" are not implemented in the library... Is there a certain reason? – herrfz Feb 4 '13 at 18:12
  • I actually did start such an implementation a few years ago, but decided against it because it got very complicated and messy under the hood. Furthermore, why stop there, why not also include marker_cycle? hatch_cycle? etc... – Ben Root Oct 16 '15 at 14:40
10

here's a few examples of using the cyclers to develop sets of styles

cyclers can be added to give compositions (red with '-', blue with '--', ...)

plt.rc('axes', prop_cycle=(cycler('color', list('rbgk')) +
                           cycler('linestyle', ['-', '--', ':', '-.'])))

direct use on Axes:

ax1.set_prop_cycle(cycler('color', ['c', 'm', 'y', 'k']) +
                   cycler('lw', [1, 2, 3, 4]))

cyclers can be multiplied (http://matplotlib.org/cycler/) to give a wider range of unique styles

for ax in axarr:
    ax.set_prop_cycle(cycler('color', list('rbgykcm')) *
                      cycler('linestyle', ['-', '--']))

see also: http://matplotlib.org/examples/color/color_cycle_demo.html

4

I usually use a combination of basic colors and linestyles to represent different data sets. Suppose we have 16 data sets, each four data sets belonging to some group (having some property in common), then it is easy to visualize when we represent each group with a common color but its members with different line styles.

import numpy as np
import matplotlib.pyplot as plt

models=['00','01', '02', '03', '04', '05', '06', '07', '08', '09', '10',\
    '11', '12', '13', '14', '15', '16']

fig = plt.figure()
ax  = fig.add_subplot(111)

x = np.linspace(-1,1,100)
y = np.sin(x)

clrs_list=['k','b','g','r'] # list of basic colors
styl_list=['-','--','-.',':'] # list of basic linestyles

for i in range(0,16):
    clrr=clrs_list[i // 4]
    styl=styl_list[i % 4]
    modl=models[i+1]
    frac=(i+1)/10.0
    ax.plot(x,y+frac,label=modl,color=clrr,ls=styl)

plt.legend()
plt.show()

enter image description here

3

I use code similar to this one to cycle through different linestyles. By default colours repeat after 7 plots.

idx = 0
for ds in datasets:
    if idx < 7:
        plot(ds)
    elif idx < 14:
        plot(ds, linestyle='--')
    else:
        plot(ds, linestyle=':')
    idx += 1
1

Similar to Avaris graphs but different....

import matplotlib.pyplot as plt
import numpy as np

#set linestyles (for-loop method)
colors=('k','y','m','c','b','g','r','#aaaaaa')
linestyles=('-','--','-.',':')
styles=[(color,linestyle) for linestyle in linestyles for color in colors]

#-- sample data
numLines=30
dataXaxis=np.arange(0,10)
dataYaxis=dataXaxis+np.array([np.arange(numLines)]).T


plt.figure(1)

#-----------
# -- array oriented method but I cannot set the line color and styles
# -- without changing Matplotlib code
plt.plot(datax[:,np.newaxis],datay.T)
plt.title('Default linestyles - array oriented programming')
#-----------

#-----------
# -- 'for loop' based approach to enable colors and linestyles to be specified

plt.figure(2)

for num in range(datay.sh![enter image description here][1]ape[0]):
    plt.plot(datax,datay[num,:],color=styles[num][0],ls=styles[num][1])
plt.title('User defined linestyles using for-loop programming')
#-----------

plt.show()

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