Here's some code that does scatter plot of a number of different series using matplotlib and then adds the line y=x:

import numpy as np, matplotlib.pyplot as plt, matplotlib.cm as cm, pylab

nseries = 10
colors = cm.rainbow(np.linspace(0, 1, nseries))

all_x = []
all_y = []
for i in range(nseries):
    x = np.random.random(12)+i/10.0
    y = np.random.random(12)+i/5.0
    plt.scatter(x, y, color=colors[i])

# Could I somehow do the next part (add identity_line) if I haven't been keeping track of all the x and y values I've seen?
identity_line = np.linspace(max(min(all_x), min(all_y)),
                            min(max(all_x), max(all_y)))
plt.plot(identity_line, identity_line, color="black", linestyle="dashed", linewidth=3.0)


In order to achieve this I've had to keep track of all the x and y values that went into the scatter plot so that I know where identity_line should start and end. Is there a way I can get y=x to show up even if I don't have a list of all the points that I plotted? I would think that something in matplotlib can give me a list of all the points after the fact, but I haven't been able to figure out how to get that list.

4 Answers 4


You don't need to know anything about your data per se. You can get away with what your matplotlib Axes object will tell you about the data.

See below:

import numpy as np
import matplotlib.pyplot as plt

# random data 
N = 37
x = np.random.normal(loc=3.5, scale=1.25, size=N)
y = np.random.normal(loc=3.4, scale=1.5, size=N)
c = x**2 + y**2

# now sort it just to make it look like it's related

fig, ax = plt.subplots()
ax.scatter(x, y, s=25, c=c, cmap=plt.cm.coolwarm, zorder=10)

Here's the good part:

lims = [
    np.min([ax.get_xlim(), ax.get_ylim()]),  # min of both axes
    np.max([ax.get_xlim(), ax.get_ylim()]),  # max of both axes

# now plot both limits against eachother
ax.plot(lims, lims, 'k-', alpha=0.75, zorder=0)
fig.savefig('/Users/paul/Desktop/so.png', dpi=300)

Et voilà

enter image description here

  • 3
    @vantom's ax.axline((0, 0), slope=1) for matplotlib > 3.3 is probably now the best way to go.
    – s_pike
    Sep 9, 2022 at 15:41

Starting with matplotlib 3.3 this has been made very simple with the axline method which only needs a point and a slope. To plot x=y:

ax.axline((0, 0), slope=1)

You don't need to look at your data to use this because the point you specify (i.e. here (0,0)) doesn't actually need to be in your data or plotting range.

  • The only issue here is that the axes will be expanded to include the point provided (the origin, in your example) as if there was data there. If you don't want this, I suggest taking the mins and maxes of your data, and finding a point that is already within the data. If there is no such point on the line y=x, then there is nothing to plot.
    – zmbc
    Nov 29, 2023 at 16:52

In one line:

ax.plot([0,1],[0,1], transform=ax.transAxes)

No need to modify the xlim or ylim.

  • 9
    Works only if aspect ratio is 1
    – Brian B
    Mar 31, 2020 at 20:54

If you set scalex and scaley to False, it saves a bit of bookkeeping. This is what I have been using lately to overlay y=x:

xpoints = ypoints = plt.xlim()
plt.plot(xpoints, ypoints, linestyle='--', color='k', lw=3, scalex=False, scaley=False)

or if you've got an axis:

xpoints = ypoints = ax.get_xlim()
ax.plot(xpoints, ypoints, linestyle='--', color='k', lw=3, scalex=False, scaley=False)

Of course, this won't give you a square aspect ratio. If you care about that, go with Paul H's solution.

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