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# Recursion and Python issue

I have been trying to understand recursion. But I don't think I've quite got a hang of it.

Here the outline for my code:

``````def f():

used = [anything]
new = []

while i < something:
new.append(i)
i += 1

for i in new:
if i in used:
f()
else:
return new
``````

Now, I don't think I can use this because I'm not iterating and there is no base case. I need to keep running this program till I get a set of values (picked randomly) that are not in used. What would be the best way to achieve that? Create another function?

Any help would be greatly appreciated.

Thanks!

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Aside from a (recursive) solution, your requirement to continue checking until it is not used, can result in a never ending program. I think there must be better ways to achieve your requirement. – Michel Keijzers Feb 10 '12 at 15:42
This question isn't clear. When I add a value to `used` ? – DonCallisto Feb 10 '12 at 15:43
You shouldn't use recursion unless the recursive function has a condition that will definitely be reached that will unwind the stack. To the best of my knowledge, Python does not have tail call optimization, so an open-ended recursive call like this is an invitation to (of all things) a Stack Overflow. – Adam Crossland Feb 10 '12 at 15:45
I don't know what `f` is trying to do, so I can't be of too much help, but one possible area of trouble is where you `return new` in the `else` clause. That would return right away. And since you don't `return f()` in the `if i in used` block, you always return `None` – inspectorG4dget Feb 10 '12 at 15:47
Google "recursion example Python". – wberry Feb 10 '12 at 16:14

First of all, you need to add parameters, otherwise it's not really recursive. The gist is like this

``````f(x):
x-=1
if x < 5:
return x
else:
f(x)
``````

The point of recursion is to call the function inside itself with a new parameter. x changes value every time so eventually if will drop below 5 and you'll return x (which will be 4). So it would be f(7),subtract 1, f(6), subtract 1, f(5), subtract 1, f(4), return 4.

You also don't define i or something, so you'll have an infinite loop because i will always be less, in fact, I'm surprised the code works, because neither is ever defined.

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You should add parameters of the function, and transfer proper parameter to recursive function calls.

For example:

``````def f(new, used, i):
``````
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I think that a regular while loop will solve this problem more sensibly than a recursive call. I don't fully understand what you are trying to achieve with this code, but here it is rewritten with your tropes:

``````def f(used):

new = []

while len(new) == 0 :
while i < something:
new.append(i)
i += 1

for i in new:
if i in used:
new = []
break

return new
``````
-

I think the example you are focusing on is a poor example of recursion. It is almost easier to see an iterative solution to your problem. With a perfect example of recursion, it is hard to see any other solution than a recursive solution.

One of the classic examples of recursion is navigating a tree oriented data structure.

Here is a simple example (hardly tested...):

``````#!/usr/bin/python

tree = {'text': '1',
'brnch': [{
'text': '1.1',
'brnch': [{
'text': '1.1.1',
'brnch': [{
'text': '1.1.1.1',
'brnch': []}]},
{'text': '1.1.2',
'brnch': []},
{'text': '1.1.3',
'brnch': []}]},
{'text': '1.2',
'brnch': []}]}

def recurse_traverse(tree):
print ' ' * recurse_traverse.level + tree['text']
for branch in tree['brnch']:
recurse_traverse.level += 1
recurse_traverse(branch)
recurse_traverse.level -= 1

if __name__ == '__main__':
import os
print "testing", os.path.abspath(__file__)
recurse_traverse.level = 1
recurse_traverse(tree)
``````

The fine online book Think Like a Computer Scientist has more examples of recursion.

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If I understand correctly, you're asking for a recursive function to generate a list of pseudo-random values that are not included in another list. This recursive function will generate a `size` number of pseudo-random values that do not exist in `used`.

``````from sets import Set
import random

used = Set([1,2,3,4,5])

def f(new, size):
# Check if we have enough 'new' values that are not in the 'used' set
if len(new.difference(used)) < size:
new.add(random.randint(0,100)) # Generate a pseudo-random value and
# add it to the 'new' set
# Values are between 0-100 inclusive
# but you can change that to whatever you like
new = f(new, size) # Append our results to `new`, this will get the result set
return new.difference(used) # Return only the different
# values between the two sets

result = f(Set(), 10) # Start with a blank set and a request for a result with 10 values
print(result)
``````
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