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I'm studying algorithms and decided to port the Java Programs from the textbook to Python, since I dislike the Java overhead, especially for small programs, and as an exercise.

The algorithm itself is very simple, It just takes all triplets out of an array, in a bruteforce kinda way, and counts how many of the triplets sum up to zero (eg: [-2,7,-5])

 public static int count(int[] a) {
        int N = a.length;
        int cnt = 0;
        for (int i = 0; i < N; i++) {
            for (int j = i+1; j < N; j++) {
                for (int k = j+1; k < N; k++) {
                    if (a[i] + a[j] + a[k] == 0) {
                        cnt++;
                    }
                }
            }
        }
        return cnt;
    } 

I ported it to :

def count(a):
    cnt = 0
    ln = len(a)
    for i in xrange(0,ln): 
        for j in xrange(i + 1,ln):
            for k in xrange(j + 1,ln): 
                if a[i] + a[j] + a[k] == 0:
                    cnt+=1
    return cnt

Now measuring just these functions are taking :

java :   array of 2000 elements --> 3 seconds 
python : array of 2000 elements --> 2 minutes, 19 seconds

UPDATE 
python (pypy) : array of 2000 elements --> 4 seconds ( :-) )

Of course this is not a good algorithm, it just goes to show, both here and in the textbook. I have done some programming both in Java and Python before, but was not aware of this huge difference.

The question boils down to : how te overcome this? More specifically :

  1. Is this code a good port, or am I missing something trivial?
  2. Is switching to another runtime Jython for example a solution? Is it easy to keep my codebase in eclipse and just add an interpreter (compiler?) ? Or will switching to another interpreter/compiler only make things slightly better?

Right now I am using python 2.7.3 and Java 1.7 32ibts on windows 7.

I know there are similar questions out there on SO about java/python performance, but the answers like there are different runtime environments for python out there are not helpfull for me at the moment.

What I want to know is if some of these runtimes can close this huge gap and are worth epxloring?

UPDATE :

I installed pypy and the differences now are enormous...

UPDATE 2 :

Some very interesting things I noticed : the islice method in an answer here is faster on 'regular' python, but a lot slower on pypy. Even so, pypy still remains a lot faster using no matter it uses regular loops or islices in this algoritm

As Bakuriu notices in a remark runtime environments can matter a whole lot, but a runtime environment faster for this algoritm is not necessarily faster for any algoritm...

share|improve this question
    
<joke>That's quite a Java overhead over python: -2 minutes and 21 seconds: 1/48 times slower/joke> –  JB Nizet Feb 17 '13 at 14:24
1  
You are using the wrong approach in porting the algorithm - using a more pythonic approach would probably be way faster. In this case, you could use slices, sum and a generator expression to replace your nested for loops: cnt = sum(1 for x in xrange(0, ln-3) if not sum(a[x:x+3])) –  l4mpi Feb 17 '13 at 14:43
1  
@l4mpi The code you wrote in the comment solves a much easier problem. The OP is not looking for consecutive elements. –  Bakuriu Feb 17 '13 at 14:46
1  
@Peter itertools.permutations should be the same algorithm, modulo order of results. –  millimoose Feb 17 '13 at 14:53
1  
Take into account that PyPy run faster only on some kind of algorithms. If you are dealing with long-integer arithmetic, for example, CPython is faster. Anyway, what you should deduce from this benchmarking is that JITs can provide a big increase in performance, not that CPython is generally slow. You could try to run your algorithm on CPython using psycho and you'll probably see results similar to PyPy.(unfortunately it's not maintained anymore). –  Bakuriu Feb 17 '13 at 15:19

3 Answers 3

up vote 5 down vote accepted

Try running it with PyPy instead of CPython. It will very likely go much faster.

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I have taken a look at it! Marvelous! –  Peter Feb 17 '13 at 15:05
    
Updated times in benchmarks in question. –  Peter Feb 17 '13 at 15:11

I implemented the function in C and PHP also. Here is the result:

PHP: 23.977946043015 sec
Python: 19.31 sec

C: 0.4 sec
Java: 0.42 sec

We are looking at language with different type system. PHP and Python are dynamically typed whereas C and Java are statically typed.

So, the PHP and Python interpreter spends a lot of time guessing the type of the variables used and hence run very slow. Whereas in C and Java, the type of variables (and the elements of array) are static i.e integer and hence the guessing time is saved. And apparently, this guessing time is too high as you can see from the numbers above.

With PyPY, the guessing time is dramatically reduced because PyPY uses Just In Time(JIT) compilation. This method is very good at guessing the type of the variable used and hence you get the performance bump.

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+1 : not quite an answer, but I like benchmarks that I don't have to write :-) –  Peter Feb 17 '13 at 16:04
    
Size of your array? –  Peter Feb 17 '13 at 16:04
    
Trying to put some stuff from computer science into perspective :D Btw, size of array is 1000. –  sul4bh Feb 17 '13 at 16:08
1  
-1: "So, the PHP and Python interpreter spends a lot of time guessing the type of the variables used and hence run very slow" - this is patently wrong and misleading. Python doesn't guess the types of anything, every object has a known type. While it's true that part of the overhead is caused by the lack of compile-time type information (or a tracing JIT) prevents CPython from gaining the level of performance usual for statically typed languages, it does not "guess types" anywhere. In fact, the reason why PyPy is faster is that it makes an educated guess as to what the types of variables are! –  millimoose Feb 17 '13 at 20:02
1  
-1 : "...but I like benchmarks that I don't have to write" - OTOH, benchmark results that other people can't reproduce ('cos nobody but the author has the source code) are worthless. –  Stephen C Feb 17 '13 at 22:50

As already said in the comments of your start post, there is no good way to make this much faster (besides PyPy). You can try islice, which will iterate over "a" and not make new lists or ranges, this should be a litte faster.

from itertools import islice

def count(a):
    cnt = 0
    for x, i in enumerate(islice(a,0, None)): 
        for y, j in enumerate(islice(a, x + 1, None)):
            for k in islice(a, y + x + 2, None):
                if i + j + k == 0:
                   cnt+=1
    return cnt
share|improve this answer
    
Have you benchmarked that yourself? In my case it's a whole lot slower (in pypy : 50 seconds in stead of 4 for an array of 2K elements) –  Peter Feb 17 '13 at 15:13
    
i benchmarked it with python 2.7.3 (no pypy), 1.4 sec vs. 1.1 sec with islice and a smaller test list than 2000 –  user2070336 Feb 17 '13 at 15:15
    
what was the input size? –  Peter Feb 17 '13 at 15:16
    
list size was 500 –  user2070336 Feb 17 '13 at 15:16
    
I'v got 2 sec versus 1 sec indeed using regular python, using pypy however : 0.1 sec versus 0.5 seconds, so 5 times slower, strange : in pypy this method is a lot slower than the regular one, but still faster than the fastes in regular python... –  Peter Feb 17 '13 at 15:23

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