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describe an algorithm that can determine the length of an array in O(log n).

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Given what assumptions? –  Jason Feb 1 '11 at 4:35
Your question is so imperative that makes me feel like doing homework. –  belisarius Feb 1 '11 at 4:43
You can find the length of an array in O(1). We need more context to answer this. –  Olhovsky Feb 1 '11 at 4:44
@TheBigO: Please implement int lengthOfArray(void *p) in C. Here's how I'll invoke your method: int *p = (int *)malloc(sizeof(int) * 42); int length = lengthOfArray((void *)p); printf("%d\n", length); If that's too hard, implement int lengthOfArray(int *p); and I'll invoke as above without the cast to void *. –  Jason Feb 1 '11 at 4:47
Use your "algorithm" for 0,1,2^1,2^2,... 2^m until the ArrayIndexOutofBounds arises. Then search binary between 2^(m-1) and 2^m. It's O(logn) –  belisarius Feb 1 '11 at 5:17

2 Answers 2

up vote 0 down vote accepted

C style pseudo code:

int lengthOfArray(p){
    int j = 1;
        while(j < Integer.MaxValue){
            p[j]; // Might need to do something more with p[i] 
                  // to test bound.
            j *= 2;
    }catch(ArrayIndexOutOfBounds e){
    j = searchArrayHelper(p, j/2, j);

            // This loop is guaranteed to run O(log n) times or less.
    }catch(ArrayIndexOutOfBounds e){

    return j;

int searchArrayHelper(p, int i, int j){
    } catch (ArrayIndexOutOfBounds e){
        int mid = (i + j)/2;
        return searchArrayHelper(p, i, mid);
    return i;
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It seems in your second function you are returning the first p[j] you find that does not trigger ArrayIndexOutOfBounds, but how are you sure p[j+1] will trigger it, and so j is the array length? –  belisarius Feb 1 '11 at 15:59
@belisarius, you're right there may be a small bug there. I'll edit the answer to post a quick fix. –  Olhovsky Feb 1 '11 at 20:13
I made the fix, although it feels like a dirty hack. Let me know if you notice any other bugs. –  Olhovsky Feb 1 '11 at 20:17

Ok. I'll post the comment I made above as an answer, although your question is rather vague.

Step through i= 1, 2^1 ,2^2, ... 2^m until the ArrayIndexOutofBounds error arises.

Then search binary between 2^(m-1) and 2^m until you find the frontier where the error is gone. That's n.

It's O(logn)


This suggestion is based on the snippet you posted as a comment, where it's clear that you are allowed to detect ArrayIndexOutofBounds

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