# How can I increase the number of subdivisions for functions in `scipy.integrate.dblquad`?

I'm using `scipy.integrate.dblquad`, and I get this error:

``````UserWarning: The maximum number of subdivisions (50) has been achieved.
If increasing the limit yields no improvement ...
``````

I want to increase this limit to see if the integral is well-converged. The documentation specifies how to do this for `scipy.integrate.quad` (that function takes the maximum number of iterations as an argument), but not for `scipy.integrate.dblquad`. How can I increase the number of subdivisions for `dblquad`?

-

According to the source code, `dblquad` calls `quad`, reading, simply:

``````return quad(_infunc,a,b,(func,gfun,hfun,args),epsabs=epsabs,epsrel=epsrel)
``````

Therefore, you could implement this directly yourself with the additional `maxp1` argument.

``````from scipy import integrate

def _infunc(x,func,gfun,hfun,more_args):
a = gfun(x)
b = hfun(x)
myargs = (x,) + more_args

def custom_dblquad(func, a, b, gfun, hfun, args=(), epsabs=1.49e-8,
epsrel=1.49e-8, maxp1=50, limit=50):
return integrate.quad(_infunc, a, b, (func, gfun, hfun, args),
epsabs=epsabs, epsrel=epsrel, maxp1=maxp1, limit=limit)
``````
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Do you know of any ways to do this that don't involve modifying the source code? –  Dan Jan 4 at 19:26
I don't mean modify the source code, I mean call `quad` with those arguments, plus `maxpl`, yourself. –  jonrsharpe Jan 4 at 19:52
I've added an example implementation –  jonrsharpe Jan 4 at 20:37

A simpler way of doing this is to use the `nquad` function instead of `dblquad`. Example code:

``````from scipy.integrate import nquad

options={'limit':100}