I try to define a custom distribution with pdf given via scipy.stats

```
import numpy as np
from scipy.stats import rv_continuous
class CustomDistribution(rv_continuous):
def __init__(self, pdf=None):
super(CustomDistribution, self).__init__()
self.custom_pdf = pdf
print "Initialized!"
def _pdf(self, x, *args):
if self.custom_pdf is None:
# print 'PDF is not overridden'
return super(CustomDistribution, self)._pdf(x, *args)
else:
# print 'PDF is overridden'
return self.custom_pdf(x)
def g(x, mu):
if x < 0:
return 0
else:
return mu * np.exp(- mu * x)
my_exp_dist = CustomDistribution(pdf=lambda x: g(x, .5))
print my_exp_dist.mean()
```

As you see I try to define exponential distribution wuth parameter mu=0.5, but the output is as follows.

Initialized!

D:\Anaconda2\lib\site-packages\scipy\integrate\quadpack.py:357:

IntegrationWarning: The algorithm does not converge. Roundoff error is detected in the extrapolation table. It is assumed that the requested tolerance cannot be achieved, and that the returned result (if full_output = 1) is the best which can be obtained.

warnings.warn(msg, IntegrationWarning)D:\Anaconda2\lib\site-packages\scipy\integrate\quadpack.py:357:

IntegrationWarning: The maximum number of subdivisions (50) has been achieved.

2.0576933609

If increasing the limit yields no improvement it is advised to analyze the integrand in order to determine the difficulties. If the position of a local difficulty can be determined (singularity, discontinuity) one will probably gain from splitting up the interval and calling the integrator on the subranges. Perhaps a special-purpose integrator should be used. warnings.warn(msg, IntegrationWarning)

What should I do to improve this?

**NOTE:** The problem of computational accuracy is discussed in this GitHub issue.