# for-loops in Python modules

I'm writing a function for an implicit scheme for solving a specific differential equation. The function looks like this:

``````import numpy as np

def scheme(N,T):
y = np.zeros(N+1)          # Array for implicit scheme
h = T/N                    # Step length
for i in range(N):
y[i+1] = y[i] + h*(1+4*y[i])

print y
``````

I save the file and later import it the usual way, but when I run the scheme function, `y = [0 ... 0]` where `...` are `N-1` zeros. It seems like the values are lost in the scope of the for-loop.

If I instead write the whole funtion in the intepretor (which in my case is Spyder), everything works as it should.

Why doesn't it work when importing the function from the module?

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`y` is initialized every time you call `scheme`; that's entirely to be expected. –  larsmans May 23 '12 at 10:04
@lime, what do you mean by `values are lost in the scope of the for-loop`? –  Vikas May 23 '12 at 10:12

Normally, if you divide two integers in python, you will have also integer rounded towards minus infinity. So

``````1/3 == 0
``````

In your example, if T and N are integers and T < N, h will be 0. If h is 0, then all elements of y will be also 0. This could be fixed by casting value to float, i.e.

``````float(1)/3 == 0.333
``````

``````h = float(T)/N
``````

Not familiar with Spyder, but quick look at documentation shows, that it is for scientists. Maybe this interpreter always uses float division.

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``````h = T/N
``````

is it possible that `T` and `N` are both integers and `T < N`? In that case `h = 0` (and `y` stays all zeros), because it is an integer division (`1/2 == 0`).

Try to replace this line with

``````h = 1. * T / N
``````

and see the results.

``````y[i+1] = y[i] + h*(1+4*y[i])
``````

can be rewritten as

``````y[i+1] = y[i] + h + 4 * h * y[i]
^^^
``````

which means that for `y[i] = 0`, the new `y[i+1]` will be `h`. If the integer division `T/N` makes it zero, then it is what you get.

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