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I have to write a code that produces a list using recursion, but the final item in the list needs to be empty. This is my code and what I need it to produce vs what it actually is producing.

def coin_change(avail_change, total_cents):
    if avail_change == []:
        return []
    if total_cents // avail_change[0] >= 1:
        first = total_cents // avail_change[0]
        first_list = [avail_change[0], first]
        return [first_list, coin_change(avail_change[1:], (total_cents - (avail_change[0] * first)))]
    else:
        return coin_change(avail_change[1:], total_cents)

Result:

coin_change([50,5,1],108) => [[50,2],[5,1],[1,3]]
expected [[50, 2], [5, 1], [1, 3]], saw [[50, 2], [[5, 1], [[1, 3], []]]]

I need to make the list end after [1,3] but I don't know what to do.

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1  
Why are you returning an empty list if you're left with an empty list? –  Makoto Mar 17 '13 at 20:35
3  
Note that the pythonic way to check for an empty list is if not some_list: as opposed to if some_list == []:. –  Lattyware Mar 17 '13 at 20:36
    
Change [first_list, coin_change(avail_change[1:], (total_cents - (avail_change[0] * first)))] to [first_list] + coin_change(avail_change[1:], (total_cents - (avail_change[0] * first))). [list1, list2] is not equal to [list1] + list2. –  nymk Mar 17 '13 at 20:50
    
Is there actually particular reason you're addressing this with recursion? –  Jon Clements Mar 17 '13 at 20:54

4 Answers 4

This may help:

coins = []
def coin_change(avail_change, total_cents):
    if avail_change == []:
        raise Exception()
    if total_cents // avail_change[0] >= 1:
        first = total_cents // avail_change[0]
        first_list = [avail_change[0], first]
        coins.append(first_list)
        try:
            return coin_change(avail_change[1:], (total_cents - (avail_change[0] * first)))
        except:
            return coins
    else:
        try:
            return coin_change(avail_change[1:], total_cents)
        except:
            return coins

Result:

>>> coin_change ([50,5,1], 108)
[[50, 2], [5, 1], [1, 3]]
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You are returning a list for each recursive call, and therefore the result is one of increasingly nested lists.

You should also return two-tuples rather than lists. Lists are intended to be mutable and non-fixed length, but your (denomination, count) pairs are neither.

Also, just for fun, what would be the output of coin_change([3,2],16), and what would you expect it to be?

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first_list = []


def coin_change(avail_change, total_cents):
    if not avail_change:
        return []

    if total_cents // avail_change[0] >= 1:
        first = total_cents // avail_change[0]
        first_list.append([avail_change[0], first])
        coin_change(avail_change[1:], (total_cents - (avail_change[0] * first)))

    else:
        coin_change(avail_change[1:], total_cents)

    return first_list

x = coin_change([50, 5, 1], 108)
print x

Result:
[[50, 2], [5, 1], [1, 3]] as you wanted

x = coin_change([ ], 108) print x

outputs [ ]

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When you use recursion, think first what is your base case, and how it is combined with the previous calls. In this problem, if you do return [first_list, ... then you are nesting the results. Instead of this, you have to insert the new results in the same list.

def coin_change(avail_change, total_cents):
    if not avail_change:
        return []
    else:
        first = total_cents // avail_change[0]
        result = coin_change(avail_change[1:], (total_cents % avail_change[0]))
        if first > 0:
            result.insert(0, [avail_change[0], first])
        return result

print coin_change([50,5,1],108) # [[50, 2], [5, 1], [1, 3]]
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