I just wrapped a Fortran 90 subroutine to python using F2PY. The subtlety here is that the Fortran subroutine aslo takes a python call-back function as one of its arguments:
SUBROUTINE f90foo(pyfunc, a) real(kind=8),intent(in) :: a !f2py intent(callback) pyfunc external pyfunc !f2py real*8 y,x !f2py y = pyfunc(x) !*** debug begins*** print *, 'Start Loop' do i=1,1000 p = pyfunc(a) end do total = etime(elapsed) print *, 'End: total=', total, ' user=', elapsed(1), ' system=', elapsed(2) stop !*** debug ends ***
pyfunc is a python function defined elsewhere in my python code. The wrapper works fine, but running the wrapped version above, I got an elapsed time about factor of 5 times longer than what I can get using pure python as follows,
def pythonfoo(k): """ k: scalar returns: scalar """ print('Pure Python: Start Loop') start = time.time() for i in xrange(1000): p = pyfunc(k) elapsed = (time.time() - start) print('End: total=%20f'% elapsed)
So, the question is, what is the overhead coming from? I really want to leave
pyfunc as is because it is extremely time-consuming to re-code it into pure fortran function, so is there any way to improve the speed of the wrapper module?