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I am trying to annotate text in plots so that they follow the curvature of the line. I have the following plot:

enter image description here

And this is what I want to obtain, if I fix a particular y value for the annotation, for each curve it should place the annotation along the curve at the required slope (i.e. it should follow the curvature of the curve) as shown below:

enter image description here

The reproducible code for the plot without annotations is:

import numpy as np
import matplotlib.pyplot as plt

x = np.array([[53.4, 57.6, 65.6, 72.9],
            [60.8, 66.5, 73.1, 83.3],
            [72.8, 80.3, 87.2, 99.3],
            [90.2, 99.7, 109.1, 121.9],
            [113.6, 125.6, 139.8, 152]])

y = np.array([[5.7, 6.4, 7.2, 7.8],
            [5.9, 6.5, 7.2, 7.9],
            [6.0, 6.7, 7.3, 8.0],
            [6.3, 7.0, 7.6, 8.2],
            [6.7, 7.5, 8.2, 8.7]])

plt.figure(figsize=(5.15, 5.15))
plt.subplot(111)
for i in range(len(x)):
    plt.plot(x[i, :] ,y[i, :])
plt.xlabel('X')
plt.ylabel('Y')
plt.show()

How to place such texts in Python with matplotlib?

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5

You can get the gradient in degrees and use that in matplotlib.text.Text with the rotate argument

rotn = np.degrees(np.arctan2(y[:,1:]-y[:,:-1], x[:,1:]-x[:,:-1]))

EDIT: so it's a bit messier than I suggested as the plot area is scaled to match data and has margins etc. but you get the idea

...
plt.figure(figsize=(7.15, 5.15)) #NB I've changed the x size to check it didn't distort
plt.subplot(111)
for i in range(len(x)):
    plt.plot(x[i, :] ,y[i, :])

rng = plt.axis()
x_scale = 7.15 * 0.78 / (rng[1] - rng[0])         
y_scale = 5.15 * 0.80 / (rng[3] - rng[2])          
rotn = np.degrees(np.arctan2((y[:,1:]-y[:,:-1]) * y_scale,
                              x[:,1:]-x[:,:-1]) * x_scale)
labls = ['first', 'second', 'third', 'fourth', 'fifth']
for i in range(len(x)):
    plt.annotate(labls[i], xy=(x[i,2], y[i,2]), rotation=rotn[i,2])

plt.xlabel('X')

RE-EDIT noticed that the scaling was wrong but just happened to work by coincidence! Also the xy values of labels are a little approximate because of scaling.

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3
  • How did you get the values 7.15, 5.15, and 1.5? – Tom Kurushingal Apr 21 '15 at 20:03
  • good point. My parsimony with copy pasting the code I tested! I will now re-edit to add the missing bit. The subtraction of 1.5 is an approximation to get the actual graph area. There is probably a method in matplotlib that does it for you. Alternatively it might use proportion in which case you could * 0.7 or whatever – paddyg Apr 21 '15 at 20:08
  • PS just checked matplotlib and the subplot seems to have margins 0.12l, 0.9r, 0.1b, 0.9t and using 7.15*0.78 and 5.15*0.8 seems to work pretty well – paddyg Apr 21 '15 at 20:19

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