String A and String B. A recursive algorithm, maybe it's naive but it is simple:
Look at the first letter of A. This will either be in a common sequence or not. When considering the 'not' option, we trim off the first letter and call recursively. When considering the 'is in a common sequence' option we also trim it off and we also trim off from the start of B up to, and including, the same letter in B. Some pseudocode:
def common_subsequences(A,B, len_subsequence_so_far = 0):
if len(A) == 0 or len(B) == 0:
first_of_A = A // the first letter in A.
A1 = A[1:] // A, but with the first letter removed
common_subsequences(A1,B,len_subsequence_so_far) // the first recursive call
Bn = ... delete from the start of B up to, and including,
... the first letter which equals first_of_A
common_subsequences(A1,Bn, 1+len_subsequence_so_far )
You could start with that and then optimize by remembering the longest subsequence found so far, and then returning early when the current function cannot beat that (i.e. when
min(len(A), len(B))+len_subsequence_so_far is smaller than the longest length found so far.