# Generating combinations of a string (not permutations)

I've tried to implement the algorithm in "Programming Interviews Exposed" in Python, as below, but it doesn't seem to work (page 99 on the 2nd Edition):

The idea is to generate all combinations (not permutations) of a string, such that if you input "wxyz" you would get "w, wx, wxy, wxyz, wxz, wy, wyz, wz.... " etc. if wz is displayed then zw is not valid.

def doCombine(strng, out, length, level, start):
for i in range(start, length):
out.append(strng[i])
print out
if (i < length - 1):
doCombine(strng, out, length, level +1, i + 1)
out = out[:-1]

x = list()
target = "wxyz"
print doCombine(target, x, len(target), 0, 0)

What could be amiss here? I get relatively garbage output.

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In your current code, try changing the line out = out[:-1] to del out[-1]. Both of those result in out having the last item removed, but in your current code out is reassigned instead of using the same list. This results in characters never being removed from the original list, which will obviously mess with the output pretty significantly.

After making that change, here is the output:

>>> print doCombine(target, x, len(target), 0, 0)
['w']
['w', 'x']
['w', 'x', 'y']
['w', 'x', 'y', 'z']
['w', 'x', 'z']
['w', 'y']
['w', 'y', 'z']
['w', 'z']
['x']
['x', 'y']
['x', 'y', 'z']
['x', 'z']
['y']
['y', 'z']
['z']
None
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Awesome! I'll have to wrap my head around that difference, but thanks! –  Rio Dec 1 '11 at 21:02
@Rio - Glad this helped, as for wrapping your head around the difference, your original code was equivalent to completely taking out the line that removed characters from the list. Since out is mutable you can modify it in doCombine, but if you reassign out to a new value the caller's version of out will be unchanged. –  Andrew Clark Dec 1 '11 at 21:18
Depending on your sense of aesthetics, out.pop() may be a slightly prettier alternative to del out[-1]. –  John Y Dec 1 '11 at 22:49
Some people might fret over the popped value never being assigned anywhere. But it is prettier I admit. –  Sabyasachi Feb 16 at 15:24

See the combinations() function from the itertools module.

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Can one do it without itertools? The algorithmic part is what interests me, and the PIE book explains it pretty nicely. I just don't quite get why it wouldn't work... –  Rio Dec 1 '11 at 20:34
Generally, yes. Just have a look at the source code in the link I gave. What you want to achieve surely cannot happen with the code you provided. It seems to do another thing. –  hymloth Dec 1 '11 at 20:44
@hymloth - The code Rio provided is actually very close to a working solution, see my answer. –  Andrew Clark Dec 1 '11 at 20:52
@Rio FWIW, the documentation for the itertools module includes pure python equivalents for each tool -- the algorithms are in plain sight :-) –  Raymond Hettinger Dec 2 '11 at 0:58

I've rewritten this combine function using a recursive generator. The output is an iterator.

def combine(s):
length = len(s)
def gen(start, prepending=[]): #recursive generator
if start == length-1:
yield prepending + [s[start]]
else:
for i in range(start,length):
current = prepending + [s[i]] #save the current list for reusing
yield current
for els in gen(i+1,current):
yield els
for v in gen(0):
yield v

s = "wxyz"
for v in combine(s):
print(v)

It's not very easy to understand at once.

The same technique is used in conjoin generator: Conjoin function made in functional style.

Also, I refactored your function a bit while trying to understand how it works. I'll put it here for those who may be interested to ease their understanding.

def combine(s):
out = []
length = len(s)
def loc(start):
for i in range(start, length):
out.append(s[i])
print out
if (i < length-1):
loc(i+1)
del out[-1]
loc(0)