package com.thealgorithms.searches;
class KMPSearch {
int KMPSearch(String pat, String txt) {
int M = pat.length();
int N = txt.length();
// create lps[] that will hold the longest
// prefix suffix values for pattern
int[] lps = new int[M];
int j = 0; // index for pat[]
// Preprocess the pattern (calculate lps[]
// array)
computeLPSArray(pat, M, lps);
int i = 0; // index for txt[]
while ((N - i) >= (M - j)) {
if (pat.charAt(j) == txt.charAt(i)) {
j++;
i++;
}
if (j == M) {
System.out.println("Found pattern "
+ "at index " + (i - j));
int index = (i - j);
j = lps[j - 1];
return index;
}
// mismatch after j matches
else if (i < N && pat.charAt(j) != txt.charAt(i)) {
// Do not match lps[0..lps[j-1]] characters,
// they will match anyway
if (j != 0)
j = lps[j - 1];
else
i = i + 1;
}
}
System.out.println("No pattern found");
return -1;
}
void computeLPSArray(String pat, int M, int[] lps) {
// length of the previous longest prefix suffix
int len = 0;
int i = 1;
lps[0] = 0; // lps[0] is always 0
// the loop calculates lps[i] for i = 1 to M-1
while (i < M) {
if (pat.charAt(i) == pat.charAt(len)) {
len++;
lps[i] = len;
i++;
} else { // (pat[i] != pat[len])
// This is tricky. Consider the example.
// AAACAAAA and i = 7. The idea is similar
// to search step.
if (len != 0) {
len = lps[len - 1];
// Also, note that we do not increment
// i here
} else { // if (len == 0)
lps[i] = len;
i++;
}
}
}
}
}
// This code has been contributed by Amit Khandelwal.