I have this python code for finding the longest substring. I'm trying to figure out the asymptotic run time of it and I've arrived at an answer but I'm not sure if it's correct. Here is the code:
def longest_substring(s, t):
best = ' '
for s_start in range(0, len(s)):
for s_end in range(s_start, len(s)+1):
for t_start in range(0, len(t)):
for t_end in range(t_start, len(t)+1):
if s[s_start:s_end] == t[t_start:t_end]:
current = s[s_start:s_end]
if len(current) > len(best):
best = current
return best
Obviously this function has a very slow run time. It was designed that way. My approach was that because there is a for loop with 3 more nested for-loops, the run-time is something like O(n^4). I am not sure if this is correct due to not every loop iterating over the input size. Also, it is to be assumed that s = t = n(input size). Any ideas?
t_end
is redundant;t_end = t_start + s_end - s_start
or your substrings will be of different lengths, makings[s_start:s_end] == t[t_start:t_end]
impossible.