• Given A range of integers say A=[a1,a2,a3,a4,...aN] and a common difference D
  • I have to find the length largest contiguous segment of numbers in above array that form an arithmetic progression with common difference D.
  • Example given A=[2,3,5,7,9,12,14,18] common differnce D=2
  • Largest is [3,5,7,9] , length = 4.

First I tried Doing It using brute force check every possible con-sub array for. But its takinng a long time for large arrays

def ap(test,d):
    if l==1:
        return True
    elif l>1:    
        for i in range(l-1):
            if test[i+1]-test[i]!=d:
                return False
            return True
d=int(input()) # common diff
for i in range(n):
    for j in range(i+1,n+1):
        if ap(arr[i:j],d):
            if lon>length:

  • What is the answer for A=[2,3,5,7,8,9,12,14,18]? (please, note 8 added) [3, 5, 7] or [3, 5, 7, 9]? – Dmitry Bychenko Oct 21 at 14:11
  • Answer for above is [3,5,7,9] we have to find the longest one – Shadab Sayeed Oct 21 at 14:19
  • geeksforgeeks.org/longest-increasing-consecutive-subsequence the only difference is criterium: not just increasing but increasing by given difference – Dmitry Bychenko Oct 21 at 14:20
  • (I just read through this quickly, but...) if ap(i, j) fails is there any point in testing ap(i, j + 1)? – 500 - Internal Server Error Oct 21 at 14:22
  • Use dynamic programming. Say let dp[(i, j)] be the longest arithmetic sequence starting at i with difference j. Then we can write the recurrence relationship dp[(i, arr[i + 1] - arr[i])] = dp[(i + 1, arr[i + 1] - arr[i])] + 1. By default all dp[x] is initialized to one (sequence of just itself). – Primusa Oct 21 at 14:23

This problem is much simpler then "longest-increasing-consecutive-subsequence" one because 1) you have difference and 2) you need contiguous subarray

So it is enough to walk through array once, checking whether current pair of neighbors has needed difference and increment progression length when true

for i in range(1, len(A)):
    if A[i]-A[i-1] == d:
         curlen += 1
         maxlen = max(maxlen, curlen)
  • Look at OPs answer to the first comment: it's non-contiguous. – Prune Oct 21 at 17:04
  • @Prune I saw this, but title and question body explicitly says about contiguous segment, and author's code also checks contiguous slices. Perhaps author was too hurry when commenting. – MBo Oct 21 at 17:08
  • Hmmm ... yes, and the most recent comment also cites "continguous" [sic]. – Prune Oct 21 at 17:11
  • Can It be made faster than that. Because even O(n) is too much for an array of size 3*10^7. Or if we have to find all multiple arithmetic progression with different common difference. – Shadab Sayeed Oct 22 at 7:58
  • O(n) is the fastest possible complexity for given problem - we must check every element. Problem with longest contiguous progression with arbitrary difference has the same complexity (we just check that difference does not change to continue progression and reset it otherwise) – MBo Oct 22 at 8:13

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.