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I will be happy to get some help.

I have the following problem:

I'm given a list of numbers seq and a target number and I need to write 2 things:

  1. A recursive solution that returns True if there is a sum of a subsequence that equals the target number and False otherwise. example:

    subset_sum([-1,1,5,4],0)   # True
    subset_sum([-1,1,5,4],-3)  # False
    
  2. Secondly, I need to write a solution using what I wrote in the previous solution but now with memoization that uses a dictionary in which the keys are tuples: (len(seq),target)

For number 1 this is what I got to so far:

def subset_sum(seq, target):
    if target == 0: 
        return True
    if seq[0] == target:
        return True
    if len(seq) > 1:
        return subset_sum(seq[1:],target-seq[0]) or subset_sum(seq[1:],target)
    return False

Not sure I got it right so if I could get some input I will be grateful.

For number 2:

def subset_sum_mem(seq, target, mem=None ):
    if not mem:
        mem = {}
    key=(len(seq),target)
    if key not in mem:
        if target == 0 or seq[0]==target:
            mem[key] = True
        if len(seq)>1:
            mem[key] = subset_sum_mem(seq[1:],target-seq[0],mem) or subset_sum_mem(seq[1:],target,mem)
        mem[key] = False

    return mem[key]

I can't get the memoization to give me the correct answer so I'd be glad for some guidance here.

Thanks for anyone willing to help!

share|improve this question
2  
Any reason you're not just using @memoize? –  Brendan Long Jan 26 '12 at 20:01
2  
Probably because it's homework ;) –  Ian Clelland Jan 26 '12 at 20:08
4  
Please tag as homework if this is in fact homework. People will still help. It is good form and can help people understand where you are coming from. –  istruble Jan 26 '12 at 20:11

3 Answers 3

Just for reference, here's a solution using dynamic programming:

def positive_negative_sums(seq):
    P, N = 0, 0
    for e in seq:
        if e >= 0:
            P += e
        else:
            N += e
    return P, N

def subset_sum(seq, s=0):
    P, N = positive_negative_sums(seq)
    if not seq or s < N or s > P:
        return False
    n, m = len(seq), P - N + 1
    table = [[False] * m for x in xrange(n)]
    table[0][seq[0]] = True
    for i in xrange(1, n):
        for j in xrange(N, P+1):
            table[i][j] = seq[i] == j or table[i-1][j] or table[i-1][j-seq[i]]
    return table[n-1][s]
share|improve this answer
    
Very nice. Alternative: def positive_negative_sums(seq): return sum(e for e in seq if e >= 0), sum(e for e in seq if e < 0) –  hughdbrown Jan 26 '12 at 21:48
    
(+1) Very interesting, I sure learned somthing! –  Rik Poggi Jan 27 '12 at 10:49

This is how I'd write the subset_sum:

def subset_sum(seq, target):
    if target == 0:
        return True

    for i in range(len(seq)):
        if subset_sum(seq[:i] + seq[i+1:], target - seq[i]):
            return True
    return False

It worked on a couple of examples:

>>> subset_sum([-1,1,5,4], 0))
True
>>> subset_sum([-1,1,5,4], 10)
True
>>> subset_sum([-1,1,5,4], 4)
True
>>> subset_sum([-1,1,5,4], -3)
False
>>> subset_sum([-1,1,5,4], -4)
False

To be honest I wouldn't know how to memoize it.

Old Edit: I removed the solution with any() because after some tests I found out that to be slower!

Update: Just out of curiosity you could also use itertools.combinations:

from itertools import combinations

def com_subset_sum(seq, target):
    if target == 0 or target in seq:
        return True

    for r in range(2, len(seq)):
        for subset in combinations(seq, r):
            if sum(subset) == target:
                return True
    return False

This can do better that the dynamic programming approach in some cases but in others it will hang (it's anyway better then the recursive approach).

share|improve this answer
    
I'll take a look at it thanks! –  user1123417 Jan 26 '12 at 21:17
    
subset_sum = lambda seq, target: (target == 0) or any(subset_sum(seq[:i] + seq[i+1:], target - v) for i, v in enumerate(seq)) for us masochists ;) Memoization is actually trivial dictionary lookup in this case. Nice solution! –  stefan Jan 26 '12 at 21:29
    
Or: ` return any(subset_sum(seq[:i] + seq[i+1:], target - seq[i]) for i in range(len(seq)))` –  hughdbrown Jan 26 '12 at 21:40
    
stefan, hughdbrown: Thanks, I updated my answer :) –  Rik Poggi Jan 26 '12 at 22:15
    
Thanks for the help guys :) –  user1123417 Jan 27 '12 at 7:15

I have this modified code:

def subset_sum(seq, target):
    left, right = seq[0], seq[1:]
    return target in (0, left) or \
        (bool(right) and (subset_sum(right, target - left) or subset_sum(right, target)))

def subset_sum_mem(seq, target, mem=None):
    mem = mem or {}
    key = (len(seq), target)
    if key not in mem:
        left, right = seq[0], seq[1:]
        mem[key] = target in (0, left) or \
            (bool(right) and (subset_sum_mem(right, target - left, mem) or subset_sum_mem(right, target, mem)))
    return mem[key]

Can you provide some test cases this does not work for?

share|improve this answer
    
it works great! thank you very much. in order to understand the solution in depth can you please explain what the return line does? return target in (0, left) or \ (bool(right) and (subset_sum(right, target - left) or subset_sum(right, target))) –  user1123417 Jan 26 '12 at 21:04
    
If this is homework, then you should figure out how that works -- and how it is identical to your original code. –  hughdbrown Jan 26 '12 at 21:45
    
The only thing i don't understand is what bool(right) gives to the solution. Can you explain? –  user1123417 Jan 27 '12 at 7:17
    
Hmmmm. I was getting [] as a return value at some point in my experimentation, so I cast right to a bool. Now I can't come up with a case where it is needed. –  hughdbrown Jan 27 '12 at 13:24
    
Change bool(right) to right and try: subset_sum([2], 1) and subset_sum_mem([2], 1). –  hughdbrown Jan 27 '12 at 13:31

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