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The minimum number in a subarray of size L.I have to find it for all the subarray's of the array. Is there any other way than scanning through all the subarray's individually.

I have one solution in mind .

a[n]//the array
minimum[n-l+1]//the array to store the minimum numbers

minpos=position_minimum_in_subarray(a,0,l-1);
minimum[0]=a[minpos];
for(i=1;i<=n-l-1;i++)
{
    if(minpos=i-1)
    {
        minpos=position_minimum_in_subarray(a,i,i+l-1);
    }
    else {
        if(a[minpos]>a[i+l-1]) minpos=i+l-1;
        minimum=a[minpos];
    }
}

Is there any better sloution than this.

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Is this a homework or interview question? –  therefromhere Sep 8 '12 at 8:28
    
And what do you mean by min number? The minimal sum of l adjacent numbers in array n? –  therefromhere Sep 8 '12 at 8:29
    
By min I mean the minimum number in the sub array. –  wizgen Sep 8 '12 at 8:55
    
Similar to stackoverflow.com/q/12239042/1088243 –  Sajal Jain Sep 9 '12 at 12:08

2 Answers 2

up vote 0 down vote accepted

You can use a double ended queue(Q) .Find a way such that the smallest element always appears at the front of the Q and the size of Q never exceeds L. Thus you are always inserting and deleting elements at most once making the solution O(n). I feel this is enough hint to get you going.

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My approach and implementation of this algorithm can be found here: stackoverflow.com/a/12239580/1088243 –  Sajal Jain Sep 9 '12 at 12:11

I think your solution is OK , but to work properly it should be something like :

a[n]//the array
minimum[n-l+1]//fixed

minpos=position_minimum_in_subarray(a,0,l-1);
minimum[0]=a[minpos];
for(i=1;i<=n-l-1;i++)
{
    if(minpos=i-1)        
        minpos=position_minimum_in_subarray(a,i,i+l-1);                   
    else if(a[minpos]>a[i+l-1]) //fixed
        minpos=i+l-1; //fixed

    minimum[i] = a[minpos];
}

// Complexity Analysis :

//Time - O(n^2) in worse case(array is sorted) we will run
         "position_minimum_in_subarray" on each iteration

//Space - O(1) - "minimum array" is required for store the result

If you want to improve your time complexity, you can do it with additional space. For example you can store each sub array in some self-balancing BST (e.g. red-black tree) and fetch minimum on each iteration :

for (int i= 0; i<n; i++) {
    bst.add(a[i]);

    if (bst.length == l) {
        minimum[i-l] = bst.min;
        bst.remove(a[i - l]);            
    }
  }

 //It's still not O(n) but close.

 //Complexity Analysis :

 //Time - O(n*log(l)) = O(n*log(n)) - insert/remove in self-balancing tree
                                      is proportional to the height of tree (log)

 //Space - O(l) = O(n) 
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The question has been edited with the fixes you suggested but is there a better solution. –  wizgen Sep 8 '12 at 10:59
    
What do you want to improve ? see complexity analysis in my answer. –  Grisha Sep 8 '12 at 11:42
    
I would like to improve the complexity get it to O(n). –  wizgen Sep 8 '12 at 16:10
    
I'm not sure you can do it in O(n). See my answer with O(nlogn) solution. –  Grisha Sep 8 '12 at 19:05

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