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In WikiPedia article for Binary Search there is a section called Deferred detection of equality which presents a somewhat "optimized" version of binary search as follows:

int binary_search(int A[], int key, int imin, int imax)  
  while (imax > imin)  
    int imid = (imin + imax) / 2;  
    if (A[imid] < key)  
      imin = imid + 1;  
      imax = imid;  
  if((imax == imin) && (A[imin] == key))  
    return imin;  
    return KEY_NOT_FOUND;  

It is claimed that this is a better version than the conventional textbook binary search since the .... algorithm uses only one conditional branch per iteration
Is this true? I mean the if instructions are translated in CMP and Branch instructions in assembly so I can not think how an if-else is better than an if-else if-else
Is there such a difference that I should take into account in higher level languages? The code of the "deffered" version seems more tight I admin, but are there optimizations or penalties in how you form if-else statements?

share|improve this question
I would guess that your source is talking about assembly and not Java in which case I would think that it would not apply. Also, I bet that it is not taking into account modern day code optimization. – Gray Apr 25 '12 at 15:46
Also, I hope that this is an academic question because if you are making programming decisions based on this sort of performance evaluations then it is the definition of premature optimization. – Gray Apr 25 '12 at 15:47
You're not showing the other alternative, so it's impossible to know what you're talking about. – Hot Licks Apr 25 '12 at 15:48
@Gray:No textbook,wikipedia. And this is not a programming decision.Just some recap in my spare hours back to basics – Cratylus Apr 25 '12 at 15:48
@HotLicks:The other alternative is the well known if(a[mid] == key){}else if (a[mid] < key) else{} – Cratylus Apr 25 '12 at 15:49
up vote 3 down vote accepted

The key concept is that it uses one less conditional per iteration. That is, the equality check has been moved outside the while loop so that it only runs once, while in the basic version it would need to be checked every time¹.

That said, I 'm not sure if there would actually be a measurable difference when using the optimized form. For example, consider that:

  1. If all you are comparing is two integers then the compiler can detect that it can compute the comparison result just once and then evaluate which branch to take just as well.
  2. Binary search is O(logN), so the number of iterations taken would actually be very small even if the number of elements to search is quite large. It's arguable whether you 'd see any difference.
  3. The implementation of modern CPUs features such as speculative execution and branch prediction (especially in "nice" algorithms like binary search) might very well have more visible effects than this optimization (out of my league to check though).


¹ Actually it is another condition that doesn't need to be checked when the equality comparison moves out, but conceptually there is no difference.

share|improve this answer
+1.This makes sense.But the article the way it is phrased seems to imply something different (at least in how I understand it) – Cratylus Apr 25 '12 at 15:50
In the referenced Wikipedia article, there's a version right above the one described by the OP that does if(>)elseif(<)else(=). The equality returns the value, so when it's not equal, it doesn't even get there, I don't see how that version is any different. – dfb Apr 25 '12 at 15:51
A comparison is one of the cheapest instructions on modern CPUs, the expensive part are branch mispredictions. So if the second version doesn't help to save on those the number of cycles saved is negligible. – Voo Apr 25 '12 at 15:55
@spinning_plate: Theoretically it needs to always calculate elseif(<) every time though. That's what my note #1 says. – Jon Apr 25 '12 at 15:58
@Voo: I agree with that, but it might be the case that we are not talking about integers so the comparison could be arbitrarily costly. – Jon Apr 25 '12 at 15:59

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