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this is my first post and I'm sure it's a very trivial question, but I spent 1h trying to find a solution by myself, without success :-( I would like to plot 2 curves in the same figure with the following code:

import sympy as syp


x, y = syp.symbols('x, y')

my_function = syp.exp(-(x-2)**2)*syp.exp(-(y-3)**2) + 2*syp.exp(-(x+1)**2)*syp.exp(-(y-1)**2) 

gradient_1 = syp.diff(my_function, x)
gradient_2 = syp.diff(my_function, y)


curve_1 = syp.plot_implicit(syp.Eq(gradient_1, 0))
curve_2 = syp.plot_implicit(syp.Eq(gradient_2, 0))

What I see is only the first plot, while I would like to have both the curves in the same picture, maybe also with a grid if possible. Any ideas? Many thanks in advance!

EDIT: with matplotlib it's very easy, but I cannot find any specific example for the function syp.plot_implicit

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2 Answers

up vote 1 down vote accepted

It might work if you do:

>>> curve_1.extend(curve_2)
>>> curve_1.show()

However mixing implicit plots might not be implemented yet.

Be aware that your curve_1 and curve_2 are not what sympy considers "single curves" i.e. Series instance, but rather "collections of a number of curves", i.e. Plot instances.

You can also extract the matplotlib objects from curve_1._backend.fig and other _backend attributes.

In conclusion, there is a nice API to do what you want, but probably the methods behind it are not finished yet.

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Yes, it works, that's great! I also found another way by using "pyplot.contour" (see here ), but it requires the manual calculation of the gradient, so your method is still the best one. Do you know if it can be plotted with a grid? I don't see this option in the parameters that can be passed to the function... –  user2983638 Nov 12 '13 at 15:52
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Another, perhaps more efficient way, would be to compute both at the same time using Or

plot_implicit(Or(Eq(gradient_1, 0), Eq(gradient_2, 0)))
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Yes it works, and maybe it's slightly more elegant. –  user2983638 Nov 13 '13 at 8:32
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