# What's wrong with my mergesort implementation?

On smaller lists of up to size N = ~1950 or so, I get the correct output... however, list sizes that are not much larger return an error rather than the expected result. My code:

``````def merge(left, right, aux=[]):
if left == []:
for x in right:
aux.append(x)
return aux
elif right == []:
for x in left:
aux.append(x)
return aux
elif left[0] > right[0]:
aux.append(right[0])
return merge(left, right[1:], aux)
else:
aux.append(left[0])
return merge(left[1:], right, aux)

def msort(values):
size = len(values)

if size == 1:
return values
else:
mid = size/2
return merge(msort(values[:mid]), msort(values[mid:]), [])
``````

Running `msort` on these test lists give me the expected (ascending order) output:

``````val = [x for x in range(1950, 0, -1)
val = [x for x in range(4,0,-1)]
``````

e.g. [1,2,3,...,1948,1949,1950] and [1,2,3,4]

However, when I run `msort` on this test case:

``````val = [x for x in range(2000,0,-1)]
``````

I now receive this error (after numerous tracebacks to `merge`):

``````RuntimeError: maximum recursion depth exceeded in cmp
``````

So my question is: What went wrong with my implementation here? I can't use it with lists of N ~ >=2000. Why?

-
What about `if size <= 1:`? And `list.extend(other_list)` to append a list. –  User Apr 26 at 13:15
That's an ... interesting ... implementation of mergesort. –  Daniel Roseman Apr 26 at 13:17
The Problen I think is the recursive merge function. It will call itself 1000 times recursively for 2000 elements. 1000 is the maximum recursion limit set in module `sys`. Use a for loop instead. –  User Apr 26 at 13:19
It's wrong when called multiple times. See “Least Astonishment” in Python: The Mutable Default Argument –  delnan Apr 26 at 13:20
@delnan: I thought that at first too, but ISTM `merge` is always called with a value for the `aux` argument. It's still dangerous, but I don't think it's actually causing problems here. –  DSM Apr 26 at 13:22

Your merge function uses recursion that has a limit.

If you iterate instead of recurring you circumvent this:

``````def merge(left, right, aux=[]):
while left and right:
if left[0] > right[0]:
aux.append(right.pop(0))
else:
aux.append(left.pop(0))
aux.extend(right)
aux.extend(left)
return aux
``````

This is an example of the usage:

``````>>> merge([1,3,5,7], [3,4,5,6])
[1, 3, 3, 4, 5, 5, 6, 7]
``````
-
Trying your solution but getting NONE returned at the moment... –  eazar001 Apr 26 at 13:39
oh the NONE return was a typo on my part, your code works fine, currently testing on larger list... –  eazar001 Apr 26 at 13:43
Yea... I guess the recursive calls were causing some nasty problems for me, ouch.... thanks for your reply. –  eazar001 Apr 26 at 13:45
You are welcome. –  User Apr 26 at 13:46

The problem is that you're doing the merge recursively. As pointed out, it's fine to call `merge(msort(left),msort(right))`, but since your `merge` function actually calls itself to do the merging, you're hitting the recursion limit.

Consider calling your `merge` function on lists of length 1000.

To merge those lists, you need 2000 calls to merge (since you only add ~1 element to `aux` with each call).

-
I see your point ... –  eazar001 Apr 26 at 13:39
Heh, I guess the answer was glaring right at me! [=, thanks for your input! –  eazar001 Apr 26 at 13:46
After doing some reasearch here on SO, and on other websites, it appears my main problem was my misunderstanding of python. Specifically, I was under the impression that each predecessor call to merge would be treated trivially in the sense that they would get cleared from the stack through each progression. But after a little investigation, it appears that python doesn't optimize for tail recursion, without explicitly coding this kind of behavior. Incidentally, it appears you have addressed this type of question in a past post. Perhaps, I should have worded my question differently. –  eazar001 Apr 28 at 3:14

You reached the maximum recursion depth.

This means, that your function `msort` calls itself more often, than python allows this by default.

You can increase this default value with sys.setrecursionlimit.

-
Though increasing it carries the risk of crashing the interpreter (killing the process and potentially corrupting memory, not raising a Python exception). –  delnan Apr 26 at 13:21
The problem is not the recursion limit. A correct merge sort implementation does `logn` recursive calls, hence that error should never happen since python lists can have at most 500 million items(and the logn of that is less than 32). –  Bakuriu Apr 26 at 13:21
On my system, the recursionlimit (obtained with `sys.getrecursionlimit()`) is `1000`. In case of a bad implementation, this is not enough. –  Stefan Apr 26 at 13:24
@Bakuriu Please note, that the OP's `merge` is also a recursive function. –  Stefan Apr 26 at 13:28
increasing sys.setrecursionlimit only delays the problem, it doesn't solve it. –  Lennart Regebro Apr 26 at 13:33

Python has a limit for recursion. You can set the maximum (be careful ) using:

``````import sys
sys.setrecursionlimit(MAXRECURSION)
``````

I was able to run your list

``````val = [x for x in range(2000,0,-1)]
``````

with a MAXRECURSION of 2500

-
And for a list that's 4000 items? –  Lennart Regebro Apr 26 at 13:34