I came across this question

ADZEN is a very popular advertising firm in your city. In every road you can see their advertising billboards. Recently they are facing a serious challenge , MG Road the most used and beautiful road in your city has been almost filled by the billboards and this is having a negative effect on

the natural view. On people's demand ADZEN has decided to remove some of the billboards in such a way that there are no more than K billboards standing together in any part of the road. You may assume the MG Road to be a straight line with N billboards.Initially there is no gap between any two adjecent billboards. ADZEN's primary income comes from these billboards so the billboard removing process has to be done in such a way that the billboards remaining at end should give maximum possible profit among all possible final configurations.Total profit of a configuration is the sum of the profit values of all billboards present in that configuration. Given N,K and the profit value of each of the N billboards, output the maximum profit that can be obtained from the remaining billboards under the conditions given.Input description

1st line contain two space seperated integers N and K. Then follow N lines describing the profit value of each billboard i.e ith line contains the profit value of ith billboard.

`Sample Input 6 2 1 2 3 1 6 10 Sample Output 21`

Explanation

In given input there are 6 billboards and after the process no more than 2 should be together. So remove 1st and 4th billboards giving a configuration _ 2 3 _ 6 10 having a profit of 21. No other configuration has a profit more than 21.So the answer is 21.

`Constraints 1 <= N <= 1,00,000(10^5) 1 <= K <= N 0 <= profit value of any billboard <= 2,000,000,000(2*10^9)`

I think that we have to select minimum cost board in first k+1 boards and then repeat the same untill last,but this was not giving correct answer for all cases. i tried upto my knowledge,but unable to find solution. if any one got idea please kindly share your thougths.