26

I'd like to add an arrow to a line plot with matplotlib like in the plot below (drawn with pgfplots).

enter image description here

How can I do (position and direction of the arrow should be parameters ideally)?

Here is some code to experiment.

from matplotlib import pyplot
import numpy as np

t = np.linspace(-2, 2, 100)
plt.plot(t, np.sin(t))
plt.show()

Thanks.

20

In my experience this works best by using annotate. Thereby you avoid the weird warping you get with ax.arrow which is somehow hard to control.

EDIT: I've wrapped it into a little function.

from matplotlib import pyplot as plt
import numpy as np


def add_arrow(line, position=None, direction='right', size=15, color=None):
    """
    add an arrow to a line.

    line:       Line2D object
    position:   x-position of the arrow. If None, mean of xdata is taken
    direction:  'left' or 'right'
    size:       size of the arrow in fontsize points
    color:      if None, line color is taken.
    """
    if color is None:
        color = line.get_color()

    xdata = line.get_xdata()
    ydata = line.get_ydata()

    if position is None:
        position = xdata.mean()
    # find closest index
    start_ind = np.argmin(np.absolute(xdata - position))
    if direction == 'right':
        end_ind = start_ind + 1
    else:
        end_ind = start_ind - 1

    line.axes.annotate('',
        xytext=(xdata[start_ind], ydata[start_ind]),
        xy=(xdata[end_ind], ydata[end_ind]),
        arrowprops=dict(arrowstyle="->", color=color),
        size=size
    )


t = np.linspace(-2, 2, 100)
y = np.sin(t)
# return the handle of the line
line = plt.plot(t, y)[0]

add_arrow(line)

plt.show()

It's not very intuitive but it works. You can then fiddle with the arrowprops dictionary until it looks right.

  • Nice idea. Thanks (+1). No way to wrap this all inside plot? – cjorssen Dec 1 '15 at 10:41
  • Not unless you write your own plot function :). The advantage of this is that stuff like annotations and text are handled differently by matplotlib than stuff you plot, i.e. they will always keep their size and aspect ratio etc when you rescale or zoom. – thomas Dec 1 '15 at 10:45
  • I find that start_ind = len(xdata) // 2 is a better heuristic, since that works well on parametric plots too – Eric Oct 13 '16 at 11:43
12

Just add a plt.arrow():

from matplotlib import pyplot as plt
import numpy as np

# your function
def f(t): return np.sin(t)

t = np.linspace(-2, 2, 100)
plt.plot(t, f(t))
plt.arrow(0, f(0), 0.01, f(0.01)-f(0), shape='full', lw=0, length_includes_head=True, head_width=.05)
plt.show()

EDIT: Changed parameters of arrow to include position & direction of function to draw.

enter image description here

  • If I change np.sin to np.cos, I need to guess the new coordinates for the arrow. I'd like to avoid that. @elzell answer is better then. Thanks anyway. – cjorssen Dec 1 '15 at 10:45
  • 1
    @cjorssen Changed my answer to calculate position & direction of arrow dynamically. – adrianus Dec 1 '15 at 12:14
  • To see what I mean by weird warping, run the code from this answer and insert for example plt.xlim(-0.2,0.2) before the plt.show(). – thomas Dec 1 '15 at 12:20
4

Not the nicest solution, but should work:

import matplotlib.pyplot as plt
import numpy as np


def makeArrow(ax,pos,function,direction):
    delta = 0.0001 if direction >= 0 else -0.0001
    ax.arrow(pos,function(pos),pos+delta,function(pos+delta),head_width=0.05,head_length=0.1)

fun = np.sin
t = np.linspace(-2, 2, 100)
ax = plt.axes()
ax.plot(t, fun(t))
makeArrow(ax,0,fun,+1)

plt.show()

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