i have sorted array of numbers like
1, 4, 5 , 6, 8
what is the way to find out if this array contain Arithmetic progression (sequence) ?
like in this example
remark : the minimum numbers in sequence is 3
You can solve this recursively, by breaking it into smaller problems, which are:
First create the scaffolding to run the problems:
Now iterate over the pairs
Finding sequences as you go
This is just to show the results
Edit: Oh, and of course, the array MUST be sorted!
Certainly not the optimal way to solve your problem, but you can do the following:
Iterate through all pairs of numbers in your array - each 2 numbers fully define arithmetic sequence if we assume that they're 1st and 2nd progression members. So knowing those 2 numbers you can construct further progression elements and check if they're in your array.
If you want just find 3 numbers forming arithmetic progression then you can iterate through all pairs of non-adjacent numbers a[i] and a[j], j > i+1 and check if their arithmetic mean belongs to array - you can do that using binary search on interval ]i,j[.
First, I will assume that you only want arithmetic sequences of three terms or more.
I would suggest checking each number
Now that you have the first two terms in your series, you can find the next. In general, if x is your first term and y is your second, your terms will be
You can continue with i=3, i=4, etc. until you reach one that is not found in your array.
The only major caveat is that, in the example, this will find both sequences
what i try to do is find all combination of 3 numbers that be in this array.
and find the distance between them if it is equal , we found
The general idea is to pick an element as your a_1, then any element after that one as your a_2, compute the difference and then see if any other elements afterwards that match that difference. As long as there are at least 3 elements with the same difference, we consider it a progression.
You can modify the algorithm to store each set S before it is lost, to compute all the progressions for the given array A. The algorithm runs in O(n^3) assuming appending to and getting the last element of the set S are in constant time.
Although I feel like there might be a more efficient solution...