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Question: what order does the contour from matplotlib expect for the input 2D array?

Elaborate: Matplotlib contour documentation says that the routine call is

x_axis = np.linspace(10,100,n_x)
y_axis = np.linspace(10,100,n_y)
matplotlib.pyplot.contour(x_axis, y_axis, scalar_field)

Where scalar_field must be a 2D array. For example, the scalar_field can be generated by

scalar_field = np.array( [(x*y) for x in x_axis for y in y_axis])
scalar_field = scalar_field.reshape(n_x, n_y)

If scalar_field is given to contour,

plt.contour(x_axis, y_axis,scalar_field) #incorrect

the orientation of the plot is incorrect (rotated). To restore the proper orientation the scalar_field must be transposed:

plt.contour(x_axis, y_axis,scalar_field.transpose()) #correct

So what is the order that contour expect that scalar_field has?

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2 Answers 2

up vote 4 down vote accepted

You should plot using contour passing also 2-D arrays for X and Y, then each point in your scalar_field array will correspond to a coordinate (x, y) in X and Y. You can conveniently create X and Y using numpy.meshgrid:

import matplotlib.pyplot as plt
import numpy as np

X, Y = np.meshgrid(x_axis, y_axis, copy=False, indexing='xy')
plt.contour(X, Y, scalar_field)    

The argument indexing can be changed to 'ij' if you want the x coordinate to represent line and y to represent column, but in this case scalar_fied must be calculated using ij indexing.

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Could you please elaborate on the indexing part and the ordering? –  Ivan Sep 23 '13 at 13:38
@Ivan When you use 'xy' indexing you can imagine you looking at the matrix from above and the x coordinate going from the left to the right, while the y coordinate from the bottom to the top. This is not what you want sometimes, so that you have the option to use 'ij' indexing, where the first index can be seen as line and the second as column... –  Saullo Castro Sep 23 '13 at 15:20

The x values are expected to correspond to the columns of data, not the rows (i.e., x is the horizontal axis and y is the vertical axis). You have it reversed, which is why you are having to transpose the z values to make it work.

To avoid requiring the transpose, create your array as:

scalar_field = np.array( [(x*y) for y in y_axis for x in x_axis])
scalar_field = scalar_field.reshape(n_y, n_x)
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Could you please explain where in the documentation it says what you are saying about x and y? –  Ivan Sep 23 '13 at 13:57
The contour doc string for matplotlib 1.2.1 states "X and Y must both be 2-D with the same shape as Z, or they must both be 1-D such that len(X) is the number of columns in Z and len(Y) is the number of rows in Z." –  bogatron Sep 23 '13 at 14:26
Yes, but that's exactly my question: len(x) is the first index, so the reshape must obey that, and so the correct answer is reshape(n_x, n_y), and not the other way around. That's why is confusing. –  Ivan Sep 23 '13 at 14:34
Your confusion is understandable and is due to the differences between numpy array addressing and the matplotlib 2D coordinate space used by contour. You didn't get an error with the reshape call because numpy will gladly reshape your array to any shape that keeps the number of elements the same. But the answer is still the same: the first index into your Z array (as specified by numpy) corresponds to the rows of the array but the X array passed to contour (as specified by matplotlib) should correspond to the columns of Z. –  bogatron Sep 23 '13 at 15:22

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