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so I have the following values & lists:

name = colour
size = ['256', '512', '1024', '2048', '4096', '8192', '16384', '32768']
depth = ['8', '16', '32']
scalar = ['False', 'True']
alpha = ['False', 'True']
colour = app.Color(0.5)

and I want to iterate over these to produce every possible combination with the following structure:

createChannel(ChannelInfo(name, size, depth, scalar, alpha, colour))

so the values for name, size, etc must stay in the same place, but they must iterate over all possible combinations of size, depth, etc..

i.e. I want to return something like this:

createChannel(ChannelInfo('colour', 256, 8, False, True, 0.5)
createChannel(ChannelInfo('colour1', 256, 8, False, False, 0.5)
createChannel(ChannelInfo('colour2', 256, 16, False, False, 0.5)

...etc...there are 96 combinations


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You question involves too many things which are not relevant to the concept you want to solve, and that you haven't explained. I suggest you clean it up and present it in an understandable fashion. – Marcus Whybrow Nov 17 '10 at 17:14
Did you mean name = 'colour'? – martineau Nov 17 '10 at 18:16

3 Answers 3

import itertools
for iter in itertools.product(size, depth, scalar, alpha):
    print iter # prints 96 four-element tuples
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i was posting my answer while you were posting this. i didn't know about the itertools module. this is WAY better than mine. – Chris Nov 17 '10 at 17:20
from itertools import product

# generates all the possible values
combinations = product(size, depth, scalar, alpha)
# call the function for each combination
# i guess `names` is a list of 96 names ..
items = [createChannel(ChannelInfo(name, *row)) 
            for name, row in zip(names, combinations)]
share|improve this answer
I thought there was a Python package which did this. Forget my solution. – Michael Mior Nov 17 '10 at 17:20

I recently had the same requirement. I borrowed this cross-product function from here.

def cross(*sequences):
    # visualize an odometer, with "wheels" displaying "digits"...:
    wheels = map(iter, sequences)
    digits = [ for it in wheels]
    while True:
        yield tuple(digits)
        for i in range(len(digits)-1, -1, -1):
                digits[i] = wheels[i].next()
            except StopIteration:
                wheels[i] = iter(sequences[i])
                digits[i] = wheels[i].next()

Pass it a set of lists and it will return a generator which iterates as you specified above.

share|improve this answer
As of Python 2.6 there's a product() method in the intertools module that does this. – martineau Nov 17 '10 at 18:22
Yes, THC4k already posted that answer. I left this here because I found this useful when I only had access to Python 2.5. – Michael Mior Nov 17 '10 at 21:57

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