32

With Octave I am able to plot arrays to the terminal, for example, plotting an array with values for the function x^2 gives this output in my terminal:

   10000 ++---------+-----------+----------+-----------+---------++
         ++         +           +          +           +         ++
         |+         :           :          :           :         +|
         |++        :           :          :           :        ++|
         | +        :           :          :           :        + |
         | ++       :           :          :           :       ++ |
    8000 ++.+..................................................+.++
         |  ++      :           :          :           :      ++  |
         |   ++     :           :          :           :     ++   |
         |    +     :           :          :           :     +    |
         |    ++    :           :          :           :    ++    |
         |     +    :           :          :           :    +     |
    6000 ++....++..........................................++....++
         |      ++  :           :          :           :  ++      |
         |       +  :           :          :           :  +       |
         |       ++ :           :          :           : ++       |
         |        ++:           :          :           :++        |
    4000 ++........++..................................++........++
         |          +           :          :           +          |
         |          ++          :          :          ++          |
         |          :++         :          :         ++:          |
         |          : ++        :          :        ++ :          |
         |          :  ++       :          :       ++  :          |
    2000 ++.............++........................++.............++
         |          :    ++     :          :     ++    :          |
         |          :     +++   :          :   +++     :          |
         |          :       ++  :          :  ++       :          |
         |          :        +++:          :+++        :          |
         +          +          ++++      ++++          +          +
       0 ++---------+-----------+----------+-----------+---------++
         0        20000       40000      60000       80000     100000

Is there some way I can do something similar in Python, specifically with matplotlib? bashplotlib seems to offer some of this functionality but appears to be quite basic compared to Octave's offering.

  • Do you mind using gnuplot controlled with python? – Jakob Nov 30 '13 at 7:29
  • @Jakob I would be interested in how that works. – Mike Vella Nov 30 '13 at 21:35
  • 1
    I have not played with gnuplot's ascii mode, but from this page it looks similar to what you want: cs.hmc.edu/~vrable/gnuplot/using-gnuplot.html If you want to use gnuplot from python, you could have python write a script file for gnuplot and then use subprocess to call gnuplot on the script file that you just wrote. Not too elegant, but it should work. – DanHickstein Dec 1 '13 at 23:39
10

As few answers already suggested the gnuplot is a great choice.

However, there is no need to call a gnuplot subprocess, it might be much easier to use a python gnuplotlib library.

Example (from: https://github.com/dkogan/gnuplotlib):

>>> import numpy as np
>>> import gnuplotlib as gp

>>> x = np.linspace(-5,5,100)

>>> gp.plot( x, np.sin(x) )
[ graphical plot pops up showing a simple sinusoid ]


>>> gp.plot( (x, np.sin(x), {'with': 'boxes'}),
...          (x, np.cos(x), {'legend': 'cosine'}),

...          _with    = 'lines',
...          terminal = 'dumb 80,40',
...          unset    = 'grid')

[ ascii plot printed on STDOUT]
   1 +-+---------+----------+-----------+-----------+----------+---------+-+
     +     +|||+ +          +         +++++   +++|||+          +           +
     |     |||||+                    +     +  +||||||       cosine +-----+ |
 0.8 +-+   ||||||                    +     + ++||||||+                   +-+
     |     ||||||+                  +       ++||||||||+                    |
     |     |||||||                  +       ++|||||||||                    |
     |     |||||||+                +        |||||||||||                    |
 0.6 +-+   ||||||||               +         +||||||||||+                 +-+
     |     ||||||||+              |        ++|||||||||||                   |
     |     |||||||||              +        |||||||||||||                   |
 0.4 +-+   |||||||||              |       ++||||||||||||+                +-+
     |     |||||||||             +        +||||||||||||||                  |
     |     |||||||||+            +        |||||||||||||||                  |
     |     ||||||||||+           |       ++||||||||||||||+           +     |
 0.2 +-+   |||||||||||          +        |||||||||||||||||           +   +-+
     |     |||||||||||          |        +||||||||||||||||+          |     |
     |     |||||||||||         +         ||||||||||||||||||         +      |
   0 +-+   +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++   +-+
     |       +        ||||||||||||||||||+         |       ++||||||||||     |
     |       |        +|||||||||||||||||          +        |||||||||||     |
     |       +        ++||||||||||||||||          |        +||||||||||     |
-0.2 +-+      +        |||||||||||||||||          +        |||||||||||   +-+
     |        |        ++||||||||||||||+           |       ++|||||||||     |
     |        +         |||||||||||||||            +        ++||||||||     |
     |         |        +||||||||||||||            +         |||||||||     |
-0.4 +-+       +        ++||||||||||||+             |        +||||||||   +-+
     |          +        |||||||||||||              +        |||||||||     |
     |          |        +|||||||||||+               +       ++|||||||     |
-0.6 +-+        +        ++||||||||||                |        +|||||||   +-+
     |           +        |||||||||||                +        ++||||||     |
     |           +        +|||||||||+                 +        |||||||     |
     |            +       ++||||||||                  +       +++|||||     |
-0.8 +-+          +      + ++||||||+                   +      + +|||||   +-+
     |             +    +   +||||||                     +    +  ++||||     |
     +           +  +  ++   ++|||++     +           +   ++  +  + ++|||     +
  -1 +-+---------+----------+-----------+-----------+----------+---------+-+
    -6          -4         -2           0           2          4           6
20

As @Benjamin Barenblat pointed out, there is currently no way using matplotlib. If you really want to use a pure python library, you may check ASCII Plotter. However, as I commented above, I would use gnuplot as suggested e.g. in this question.

To use gnuplot directly from python you could either use Gnuplot.py (I haven't tested this yet) or use gnuplot with the scripting interface. Latter can be realised (as suggested here) like:

import numpy as np
x=np.linspace(0,2*np.pi,10)
y=np.sin(x)
import subprocess
gnuplot = subprocess.Popen(["/usr/bin/gnuplot"], 
                           stdin=subprocess.PIPE)
gnuplot.stdin.write("set term dumb 79 25\n")
gnuplot.stdin.write("plot '-' using 1:2 title 'Line1' with linespoints \n")
for i,j in zip(x,y):
   gnuplot.stdin.write("%f %f\n" % (i,j))
gnuplot.stdin.write("e\n")
gnuplot.stdin.flush()

This gives a plot like

    1 ++--------+---A******---------+--------+---------+---------+--------++
      +         + **      +A*       +        +         +      Line1 **A*** +
  0.8 ++        **           *                                            ++
      |       **              **                                           |
  0.6 ++     A                  *                                         ++
      |     *                    *                                         |
  0.4 ++   *                                                              ++
      |  **                       A                                        |
  0.2 ++*                          *                                      ++
      |*                            *                                      |
    0 A+                             *                              A     ++
      |                               *                            *       |
 -0.2 ++                               *                          *       ++
      |                                 A*                      **         |
 -0.4 ++                                  *                    *          ++
      |                                    **                 *            |
 -0.6 ++                                     *               A            ++
      |                                       *            **              |
 -0.8 ++                                                 **               ++
      +         +         +         +        + A****** **        +         +
   -1 ++--------+---------+---------+--------+--------A+---------+--------++
      0         1         2         3        4         5         6         7

Some styling options can be found e.g. here.

  • 1
    The last line should be replaced with: gnuplot.stdin.write("exit\n"); gnuplot.stdin.flush(); gnuplot.wait() – pjvandehaar Jan 7 '16 at 23:20
  • 1
    In Python 3, it is necessary to wrap the strings passed to gnuplot.stdin in bytes, like this: gnuplot.stdin.write(bytes("set term dumb 79 25\n", "utf-8")) – sffc Nov 4 '16 at 3:29
  • You can also just use gnuplot.stdin.write(b"set term dumb 79 25\n") to encode the string as bytes — tested at MacOS High Sierra 10.3.3 using in interactive Ipython terminal and Python 3.6. – AllanLRH Apr 12 '18 at 16:14
16

You can also try Sympy's TextBackend for plots, see doc. Or just use textplot.

Here it is an example

from sympy import symbols
from sympy.plotting import textplot
x = symbols('x')
textplot(x**2,0,5)

with the output

24.0992 |                                                      / 
        |                                                    ..  
        |                                                   /    
        |                                                 ..     
        |                                               ..       
        |                                              /         
        |                                            ..          
        |                                          ..            
12.0496 | ---------------------------------------..--------------
        |                                     ...                
        |                                   ..                   
        |                                 ..                     
        |                              ...                       
        |                           ...                          
        |                        ...                             
        |                   .....                                
        |              .....                                     
      0 | .............                                          
          0                      2.5                        5    
  • This is sweet, but how would I plot a timeseries with this (or an arbitrary list of values) rather than a parametric function? Does sympy/texplot support such a thing? – Thomas Browne Mar 15 '15 at 9:15
  • I don't know, I have never used that way. Probably, there is a workaround defining a function that returns the values that one has as "time series". – nicoguaro Mar 15 '15 at 12:41
10

If you just need a quick overview and your x-axis is equally spaced, you could also just make some quick ascii output yourself.

In [1]: y = [20, 26, 32, 37, 39, 40, 38, 35, 30, 23, 17, 10,  5,  2,  0,  1,  3,
   ....:         8, 14, 20]

In [2]: [' '*(d-1) + '*' for d in y]
Out[2]: 
['                   *',
 '                         *',
 '                               *',
 '                                    *',
 '                                      *',
 '                                       *',
 '                                     *',
 '                                  *',
 '                             *',
 '                      *',
 '                *',
 '         *',
 '    *',
 ' *',
 '*',
 '*',
 '  *',
 '       *',
 '             *',
 '                   *']

If your y-data are not integers, offset and scale them so they are in a range that works. For example, the above numbers are basically ( sin(x)+1 )*20.

  • This reminds me of my first C++ class plotting diamonds :D – shadi Jun 8 '17 at 7:26
7

I just released asciiplotlib which should hopefully make your life a lot easier here. For line plots, you need to install gnuplot and termiplot,

pip3 install asciiplotlib

After this, line plots are generated with just

import asciiplotlib as apl
import numpy

x = numpy.linspace(0, 2 * numpy.pi, 10)
y = numpy.sin(x)

fig = apl.figure()
fig.plot(x, y, label="data", width=50, height=15)
fig.show()
    1 +---------------------------------------+
  0.8 |    **     **                          |
  0.6 |   *         **           data ******* |
  0.4 | **                                    |
  0.2 |*              **                      |
    0 |                 **                    |
      |                                   *   |
 -0.2 |                   **            **    |
 -0.4 |                     **         *      |
 -0.6 |                              **       |
 -0.8 |                       **** **         |
   -1 +---------------------------------------+
      0     1    2     3     4     5    6     7
5

If you’re constrained to matplotlib, the answer is currently no. Currently, matplotlib has many backends, but ASCII is not one of them.

4

See also: asciichart (implemented in Node.js, Python, Java, Go and Haskell)

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