@Ankur..
Missed ur post just by 2 mins..
Great..
-------------------------
On Jan 3, 3:59 am, Lucifer <sourabhd2...@gmail.com> wrote:
> @ Ankur,,
>
> Also, in the statement..
> *
> Then yes it is possible that i < j and i > k... but a[i] is
> always
> less
> than a[j] and a[k]...
> *
> * but a[i] always less* - by a[i] i meant the latest element accessed
> and not the element positioned at Q.front which is nothing but element
> at index 'i'
>
> Hence, the actual statement should be,
> *
> Then yes it is possible that i < j and i > k... but a[R] is
> always less than a[j] and a[k]...
> *
> R is basically the latest element accessed..
>
> On Jan 3, 3:56 am, Lucifer <sourabhd2...@gmail.com> wrote:
>
>
>
>
>
>
>
> > @Ankur..
> > I just executed ur code and i m getting 5, instead of 4..
>
> > Also,
> > *
> > Then yes it is possible that i < j and i > k... but a[i] is always
> > less
> > than a[j] and a[k]...
> > *
>
> > Yes u r right.. but, then when u are calculating the size u are also
> > by default including the element at index K which might not be the
> > part of subarray..
>
> > Proof by contradiction:
> > -----------------------------
> > Say u remove index 'i', that means u subarray now starts from an index> i..
>
> > Now, your queue is : j k l m
> > Say it grows till a point: X i.e j k l m ..X
> > Now, you are calculating the size as the size of queue,
> > that means u r also including element indexed at position 'k' from the
> > original array..
> > But we already know that the start of the subarray index is > 'i' as
> > we just popped 'i' out in the previous iteration.
>
> > Hence, k cannot be considered while calculating the size of max
> > array..
>
> > -------------------------------------------------
>
> > What do u think?
> > ----------------------------------------------------
>
> > On Jan 3, 3:36 am, Ankur Garg <ankurga...@gmail.com> wrote:
>
> > > @Lucifer
>
> > > I checked with my code
>
> > > The answer is coming out to be 4 ..So in this case its passing
>
> > > Also the queue is containing the indexes in order of increasing values
> > > ..so
> > > for curr min we need to only check the front of the queue.
>
> > > Also I remove the elements of the queue till all the diff of elements in
> > > the queue with the current element is <=k
>
> > > If queue is containing elements
> > > say
> > > i j k l m
>
> > > Then yes it is possible that i < j and i > k... but a[i] is always
> > > less
> > > than a[j] and a[k]...
>
> > > So queue will always contain the correct elements I guess..
>
> > > Like I said I have not done its testing with many cases .. But for this
> > > case the answer is coming out correct
>
> > > One correction to the code though
> > > it should be
> > > if(index.empty())
> > > index.push_back(i);
> > > else
> > > binary_search(a,index,0,index.size()-1,i);
>
> > > I missed the else part here..
>
> > > In case you find anyother case it would be great .. I am sharing the
> > > source
> > > codes .cpp file
>
> > > If u find any case thats missing ..please tell me and I will also update
> > > in
> > > case some case misses out
>
> > > Thanks very much for looking into it :)
>
> > > Thanks and Regards
> > > Ankur
>
> > > On Tue, Jan 3, 2012 at 3:26 AM, Lucifer <sourabhd2...@gmail.com> wrote:
> > > > @Ankur..
>
> > > > A : 2 4 6 8 1, diff is 6.
>
> > > > Looks like the answer acc. to ur code would be 5, but actually it
> > > > should be 4..
>
> > > > I m correct, then it can be fixed by looking at the front and back of
> > > > the queue and see whether the A[i] is actually the curr min or curr
> > > > max..
> > > > And then calculate the diff based on the above cond i.e either
> > > > abs(A[i] - Q.front()) or abs(A[i] - Q.back())
>
> > > > Also,
> > > > Taking the size of queue for calculating the max is incorrect, as the
> > > > queue might contain elements with lower indices that actually
> > > > shouldn't be considered for subarray calculation...
>
> > > > Say, Queue : i j k l m
>
> > > > Now, it is possible that i < j and i > k...
> > > > Hence, if u remove i and then calculate the next subarray it will also
> > > > take k into consideration which is incorrect..
> > > > The max length should be : Q.back - (i + 1) for the next iteration...
> > > > basically 'i+1' should be the start index...
>
> > > > Also, say when the queue looks like: k l m , this state is incorrect..
> > > > While removing elements u should also look for indices, if the current
> > > > start index is grater than Q.front then u should remove Q.front...
> > > > i.t for k l m..
> > > > current start index would be 'j+1' and as k < j hence you should
> > > > remove it and loop over for further removals..
>
> > > > I all my observations are correct, then a couple of modifications will
> > > > rectify the code..
> > > > In case i m wrong.. then cheers :)
>
> > > > On Jan 3, 1:20 am, Lucifer <sourabhd2...@gmail.com> wrote:
> > > > > @ Optimization ... O(N).. single run O(n^2)
>
> > > > > Basically in a single run we can calculate the maximum value using
> > > > > praveen's logic..
>
> > > > > Say, A[N] is the array of integers..
>
> > > > > And X[N+1] stores the intermediate values for maximum size subarray...
>
> > > > > int max = 0;
> > > > > int strtind = -1;
> > > > > int endind = -1;
>
> > > > > for(int i =0; i<= N; ++i)
> > > > > X[i] = 0;
>
> > > > > for (int i = 0; i < N; ++i)
> > > > > for (j = N; j > 0; --j)
> > > > > {
> > > > > X[j] = ( abs(A[i] - A[j]) > K ) ? 0 : 1+ min( X[j],
> > > > > X[j-1] ) ;
> > > > > if ( A[j] > max)
> > > > > {
> > > > > max = A[j];
> > > > > strtind = i - max + 1;
> > > > > endind = j - 1;
> > > > > }
> > > > > }
>
> > > > > On Jan 3, 12:57 am, Lucifer <sourabhd2...@gmail.com> wrote:
>
> > > > > > @above..
> > > > > > I m sorry,
> > > > > > A would be 1 2 3 4 5 ..
>
> > > > > > On Jan 3, 12:03 am, atul anand <atul.87fri...@gmail.com> wrote:
>
> > > > > > > @praveen : i guess we can optimize the space to O(n);
>
> > > > > > > if diff b/w two number is <=K then A[i]=A[i-1]+1;
>
> > > > > > > if condition fails temp_maxLen=A[i-1];
> > > > > > > if(temp_maxlen > maxLen)
> > > > > > > {
> > > > > > > maxLen=temp_maxlen;
>
> > > > > > > }
>
> > > > --
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>
> > > MaxdiffK.cpp
> > > 1KViewDownload
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