This code

from sympy import *
p1 = plot(x**2,(x,-2,2))
p2 = plot(x**3,(x,-2,2))

results in two separate plots.

Instead of two separate plots, I want to display them with matplotlib as subplots:

import matplotlib.pyplot as plt
fig = plt.figure()
ax1 = fig.add_subplot(121)
ax2 = fig.add_subplot(122)

How can I add p1 and p2, so that they are displayed as subplots inside the matplotlib figure?

  • 1
    I might be wrong. But sympy's plot does not seem to take ax arguments and everything seems figure-based. I think the state of matplotlib still is: merging multiple figures is hacky at least, not recommended. (For this example it also makes not much sense to me to not use mpl directly; but maybe it will be different for your real task).
    – sascha
    Commented Oct 18, 2017 at 13:39

4 Answers 4


The problem is that sympy Plot creates its own figure and axes. It is not meant to draw to an existing axes.

You may however replace the axes the plot is drawn to by an existing axes prior to showing the sympy plot.

from sympy import Symbol,plot
import matplotlib.pyplot as plt

def move_sympyplot_to_axes(p, ax):
    backend = p.backend(p)
    backend.ax = ax
    backend._process_series(backend.parent._series, ax, backend.parent)  # backend.process_series() no longer works

p1 = plot(x**2,(x,-2,2), show=False)
p2 = plot(x**3,(x,-2,2), show=False)

fig, (ax,ax2) = plt.subplots(ncols=2)
move_sympyplot_to_axes(p1, ax)
move_sympyplot_to_axes(p2, ax2)


enter image description here


My solution does not add p1, p2 to the subplots directly. But (x,y) coordinates from them are captured and used instead.

import matplotlib.pyplot as plt
from sympy import symbols
import numpy as np

from sympy import symbols
from sympy.plotting import plot

# part 1
# uses symbolic plot of functions
x = symbols('x')

#p1, p2 = plot(x**2, x**3, (x, -2, 2))

# this plot will not show ...
# only produce 2 curves
p1, p2 = plot((x**2, (x, -2, 2)), \
                (x**3, (x, -2, 2)), \

# collect (x,y)'s of the unseen curves 
x1y1 = p1.get_points()  # array of 2D
x2y2 = p2.get_points() 

# part 2
# uses regular matplotlib to plot the data

fig = plt.figure(figsize=(8, 5))
ax1 = fig.add_subplot(121)
ax2 = fig.add_subplot(122)

# do subplot 1 
ax1.plot(x1y1[0], x1y1[1], 'g')  # plot x**2 in green
ax1.set_xlim([-2, 2])
ax1.set_title('Line1')  # destroyed by another .title(); axis metho1

# do subplot 2
ax2.plot(x2y2[0], x2y2[1], 'r')  # plot x**3 in red
ax2.set_xlim([-2, 2])

fig.subplots_adjust(wspace=0.4) # set space between subplots


The resulting plot:


  • 1
    While less general and maybe not what OP asked, i see this as viable alternative in some cases!
    – sascha
    Commented Oct 18, 2017 at 16:02
  • I am trying to draw a circle in one plot but the get_points doesn't quite work. Commented Nov 12, 2020 at 5:14
  • @DipanMehta Please ask it as a new question, so more people (inc me) can help.
    – swatchai
    Commented Nov 12, 2020 at 5:21

You can simply use a plotgrid to get 2 or more plots in one figure.
See also: sympy.plotting.PlotGrid()

Here's a working example:

import sympy as sp
from matplotlib import pyplot as plt

# define functions
x = symbols('x')
f = sin(x)
g = cos(x)

# create separate plots
p1 = plot(f, show=False, xlim=(-pi, pi), line_color='blue', legend=True)
p2 = plot(g, show=False, xlim=(-pi, pi), line_color='red', legend=True)

# create a plotgrid with 2 rows and 1 column
plotgrid = sp.plotting.PlotGrid(2, 1, p1, p2, show=False, size=(5., 3.5))

Resulting plot:

subplots in sympy by using plotgrid


sympy provides a built-in class, PlotGrid, for this purpose. The first two parameters are the size of the grid, then Plots-objects.

Notice that Plot-objects may contains simultaneous plots, plot(x**2, x**3, (x,-2,2)).

from sympy.plotting.plot import plot, PlotGrid
from sympy.abc import x

# create a Plot-objects for each graph
p1 = plot(x**2,(x,-2,2), show=False)
p2 = plot(x**3,(x,-2,2), show=False)
p_mix = plot(x**3, x**2, (x,-2,2), show=False)

# manage the "subplots"

# horizontally
PlotGrid(1, 2, p1, p2)
# vertically
PlotGrid(2, 1, p1, p2)
# grid
PlotGrid(3, 2, p1, p2, p1, p2, p_mix)

Here the result for the grid layout

  • general grid layout enter image description here

By doing a step further one can make your own backend to customize the plot process and keep the code clean.

Here just a sample example to add title and subtitles to plots but the process can easily extended to control ticks, labels, ...

from sympy.plotting.plot import PlotGrid, MatplotlibBackend
from sympy.abc import x

class PlotGridBE(MatplotlibBackend):

    def factory(cls, title, *subtitles):
        cls.TITLE = title
        cls.SUBTITLES = subtitles
        return cls

    def __init__(self, parent):

        for subtitle, ax in zip(list(self.SUBTITLES) + ['']*(len(self.ax)-len(self.SUBTITLES)),
            # do some axis stuffs here
            if subtitle:

        if self.TITLE:
            self.fig.suptitle(self.TITLE, fontsize=16)

# create PlotGrid instance
p = PlotGrid(1, 2, p1, p2, show=False)
# manually pass the backend
p.backend = PlotGridBE.factory('Title', 'subtitle1') # 'subtitle2' not used but still compatible 
# display the plot
# save to file

enter image description here

... and to keep even more the code clean make your subclass of PlotGrid

# [...]: imports & MultiPlotBE from before

class MyPlotGrid(PlotGrid):


    def __init__(self, nrows, ncolumns, *args, show=True, size=None, **kwargs):
        super().__init__(nrows, ncolumns, *args, show=False, size=size, **kwargs)
        # notice: kwargs is never used (as in source code)!

        self.backend = PlotGridBE.factory(*self.BACKEND_ARGS)

        if show:

# fix the parameter of the backend
MyPlotGrid.BACKEND_ARGS = 'Title', 'subtitle_1'
# call the plot object
MyPlotGrid(1, 2, p1, p2)

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