I recently stumbled upon numba and thought about replacing some homemade C extensions with more elegant autojitted python code. Unfortunately I wasn't happy, when I tried a first, quick benchmark. It seems like numba is not doing much better than ordinary python here, though I would have expected nearly C-like performance:

```
from numba import jit, autojit, uint, double
import numpy as np
import imp
import logging
logging.getLogger('numba.codegen.debug').setLevel(logging.INFO)
def sum_accum(accmap, a):
res = np.zeros(np.max(accmap) + 1, dtype=a.dtype)
for i in xrange(len(accmap)):
res[accmap[i]] += a[i]
return res
autonumba_sum_accum = autojit(sum_accum)
numba_sum_accum = jit(double[:](int_[:], double[:]),
locals=dict(i=uint))(sum_accum)
accmap = np.repeat(np.arange(1000), 2)
np.random.shuffle(accmap)
accmap = np.repeat(accmap, 10)
a = np.random.randn(accmap.size)
ref = sum_accum(accmap, a)
assert np.all(ref == numba_sum_accum(accmap, a))
assert np.all(ref == autonumba_sum_accum(accmap, a))
%timeit sum_accum(accmap, a)
%timeit autonumba_sum_accum(accmap, a)
%timeit numba_sum_accum(accmap, a)
accumarray = imp.load_source('accumarray', '/path/to/accumarray.py')
assert np.all(ref == accumarray.accum(accmap, a))
%timeit accumarray.accum(accmap, a)
```

This gives on my machine:

```
10 loops, best of 3: 52 ms per loop
10 loops, best of 3: 42.2 ms per loop
10 loops, best of 3: 43.5 ms per loop
1000 loops, best of 3: 321 us per loop
```

I'm running the latest numba version from pypi, 0.11.0. Any suggestions, how to fix the code, so it runs reasonably fast with numba?