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I am trying to expand the idea given here for an one-dimensional integral of a vector-valued function using odeint to two-dimensions, in an approach that is analogous to what is done in dblquad.

Below you can see my current attempt:

import numpy as np
from scipy.integrate import odeint

def _infunc(x, func, gfun, hfun, more_args):
    a = gfun(x)
    b = hfun(x)
    y0 = f(x, a)
    return odeint(lambda v, y: f(x, y, *more_args), y0=y0, t=[a, b] )[1]

def dblodeint(f, a, b, gfun, hfun, args=()):
    y0 = f(a, gfun(a), *args)
    return odeint(lambda v, y: _infunc(y, f, gfun, hfun, args),
                  y0=y0, t=[a, b])[1]

if __name__ == '__main__':    
    def f(x, y):
        return np.array([x*y**2, x**2*y, x**4*y, x**6*y], float)

    def exact_int(a, b, ya, yb):
        return np.array([(b**2-a**2)*(yb**3-ya**3)/6.,
                         (b**7-a**7)*(yb**2-ya**2)/14.], float)

    print 'approx:', dblodeint(f, 0, 10, lambda x:0, lambda x:10)

    print 'exact:', exact_int(0, 10, 0, 10)

Unfortunately this is not working... the following result is given which is wrong:

approx:Repeated convergence failures (perhaps bad Jacobian or tolerances).
Run with full_output = 1 to get quantitative information.
 [ 0.  0.  0.  0.]
exact: [  1.66666667e+04   1.66666667e+04   1.00000000e+06   7.14285714e+07]
share|improve this question
Say more - in what way is it not working? Good ways to do that: Post an exception if you got an exception, or post input data, desired output data, and current, incorrect output data, or describe the problem in some way. –  Brionius Aug 21 '13 at 12:30
@Brionius thank you for the feedback, I've updated the question... –  Saullo Castro Aug 21 '13 at 12:32
This code, copied exactly, works fine on my system. Current system: OSX numpy and scipy compiled with intel compilers and the mkl library. –  Ophion Aug 21 '13 at 17:11
Likewise - I'm running numpy 1.8.0.dev-b375592, scipy 0.13.0.dev-fe8b0a5, both built using gcc/gfortran 4.7 against OpenBLAS on Ubuntu 13.04 –  ali_m Aug 21 '13 at 17:32
@SaulloCastro I get approx: [ 1.66666667e+04 1.66666667e+04 1.00000000e+06 7.14285714e+07] exact: [ 1.66666667e+04 1.66666667e+04 1.00000000e+06 7.14285714e+07] –  ali_m Aug 22 '13 at 9:01

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