Interpolation sort is an improvement over binary search.
Binary search always checks the value at the middle index.
But interpolation search may check at the different locations based on the value of the element being searched.
For interpolation search to work efficiently the array elements/data should be sorted and uniformly distributed.
Step 1: Make start = 0 & end = n-1
Step 2: Calculate position(pos) to start searching at:
pos = start + ((end - start) / (Array[end] - Array[start])) * (element - Array[start])
Step 3: If Array[pos] == element, element found at the index pos.
Step 4: Otherwise if element > Array[pos] make start = pos + 1 and repeat the same process
Step 5: Else if element < Array[pos] make end = pos-1 and repeat the same process.
Find element : 4
- Iteration 1
Array[1] < 4 hence start = 1 + 1 = 2
- Iteration 2
A → Array list
N → Size of A
X → Target Value
Procedure Interpolation_Search()
Set Lo → 0
Set Mid → -1
Set Hi → N-1
While X does not match
if Lo equals to Hi OR A[Lo] equals to A[Hi]
EXIT: Failure, Target not found
end if
Set Mid = Lo + ((Hi - Lo) / (A[Hi] - A[Lo])) * (X - A[Lo])
if A[Mid] = X
EXIT: Success, Target found at Mid
else
if A[Mid] < X
Set Lo to Mid+1
else if A[Mid] > X
Set Hi to Mid-1
end if
end if
End While
End Procedure
If elements are uniformly distributed, then O (log log n). In worst case it can take upto O(n)