# 2D integrals in SciPy

I am trying to integrate a multivariable function in SciPy over a 2D area. What would be the equivalent of the following Mathematica code?

``````In[1]:= F[x_, y_] := Cos[x] + Cos[y]

In[2]:= Integrate[F[x, y], {x, -\[Pi], \[Pi]}, {y, -\[Pi], \[Pi]}]

Out[2]= 0
``````

Looking at the SciPy documentation I could only find support for one-dimensional quadrature. Is there a way to do multidimensional integrals in SciPy?

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I think it would work something like this:

``````def func(x,y):
return cos(x) + cos(y)

def func2(y, a, b):

print integrate.quad(func2, -pi/2, pi/2, args=(-pi/2, pi/2))[0]
``````

Wolfram|Alpha agrees

edit: I just discovered dblquad which seems to do exactly what you want:

``````print integrate.dblquad(func, -pi/2, pi/2, lambda x:-pi/2, lambda x:pi/2)[0]
``````
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This works. However, I will be integrating the function over hundreds of thousands of small cells. Wouldn't this be too slow as it would involve calling a python function? –  dzhelil Mar 3 '10 at 2:55
I don't know if integrate.quad will internally vectorize the function or not. I know integrate.quadrature does, but I got an error when I tried it on a double integral. You could always make the integration faster by increasing the tolerance. Or better yet, find an exact solution! –  Paul Mar 3 '10 at 6:09

If you want to do symbolic integration, have a look at sympy (code.google.com/p/sympy):

``````import sympy as s
x, y = s.symbols('x, y')
expr = s.cos(x) + s.sin(y)
expr.integrate((x, -s.pi, s.pi), (y, -s.pi, s.pi))
``````
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There must be a space between x and y in 'xy'. –  yashar Feb 20 '14 at 23:00
Thanks, I fixed the problem. –  Stefan van der Walt Feb 21 '14 at 9:53