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1147. Longest Chunked Palindrome Decomposition.cpp
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1147. Longest Chunked Palindrome Decomposition.cpp
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//Runtime: 4 ms, faster than 88.52% of C++ online submissions for Longest Chunked Palindrome Decomposition.
//Memory Usage: 10.1 MB, less than 100.00% of C++ online submissions for Longest Chunked Palindrome Decomposition.
class Solution {
public:
int longestDecomposition(string text) {
int start = 0, N = text.size();
int ans = 0;
// cout << "N: " << N << endl;
/*
for even N, say 4, start should be in [0,1]
for odd N, say 3, start should be in [0,1] (the middle element should also be start once)
*/
while(start < (N+1)/2){
int width = 1;
/*
current substring ends at start+width-1,
for odd N, say 3, ends at 0 or 1
for even N, say 4, ends at 0 or 1
*/
while(start + width < (N+1)/2 &&
text.substr(start, width) != text.substr(N-start-width, width)){
// cout << width <<" "<< text.substr(start, width) << " " << text.substr(N-start-width, width) << endl;
width++;
}
// cout << width <<" "<< text.substr(start, width) << " " << text.substr(N-start-width, width) << endl;
/*
if start + width >= (N+1)/2, that means current substring ends at the middle for odd N (or just before the middle for even N)
*/
if((text.substr(start, width) == text.substr(N-start-width, width)) && (start != N-start-width)){
//the two parts are the same and they are different part in original string
//tokens in both ends
ans+=2;
}else{
//we come to half
// cout << start << " " << width << " " << N/2 <<endl;
ans++;
}
start += width;
}
return ans;
}
};
//Rolling hash, Rabin Karp algorithm, two pointer
//https://leetcode.com/problems/longest-chunked-palindrome-decomposition/discuss/350711/Close-to-O(n)-Python-Rabin-Karp-Algorithm-with-two-pointer-technique-with-explanation-(~40ms)
//Runtime: 4 ms, faster than 88.66% of C++ online submissions for Longest Chunked Palindrome Decomposition.
//Memory Usage: 6.6 MB, less than 81.82% of C++ online submissions for Longest Chunked Palindrome Decomposition.
class Solution {
public:
int power(int x, unsigned int y, unsigned int m){
if (y == 0)
return 1;
long long p = power(x, y/2, m) % m;
p = (p * p) % m;
return (y%2 == 0)? p : (x * p) % m;
};
int longestDecomposition(string text) {
int magic_prime = 107;
int low = 0, high = text.size()-1;
int cur_low_hash = 0, cur_high_hash = 0, cur_hash_length = 0;
int ans = 0;
while(low < high){
/*
construct a substring from the beginning by appending text[low],
and cur_low_hash is its hash value,
note that the newest char has smallest multiplier
*/
cur_low_hash = (cur_low_hash * 26)%magic_prime;
cur_low_hash += (text[low]-'a');
cur_low_hash %= magic_prime;
//pow(26, cur_hash_length) cannot give corrent result even if using long long int in C++
/*
construct a substring from the end by appending text[high],
and cur_high_hash is its hash value,
note that the newest char has largest multiplier
*/
cur_high_hash += (text[high]-'a')*(power(26, cur_hash_length, magic_prime));
cur_high_hash %= magic_prime;
//move the two pointers
low++;
high--;
//the length of the substring represented by cur_low_hash and cur_high_hash
cur_hash_length++;
/*
first compare the two substrings' hash values,
if they are equal, then compare the two substrings themselves
*/
if(cur_low_hash == cur_high_hash && text.substr(low-cur_hash_length, cur_hash_length) == text.substr(high+1, cur_hash_length)){
//found two more groups
ans += 2;
//reset the states
cur_low_hash = 0;
cur_high_hash = 0;
cur_hash_length = 0;
}
}
//edge case 1: only leave a char in the middle(odd N)
//edge case 2: cannot find palindrome pair on two sides of the middle(even N)
if((cur_hash_length == 0 && low == high) || cur_hash_length > 0){
ans++;
}
return ans;
}
};
//DP
//https://leetcode.com/problems/longest-chunked-palindrome-decomposition/discuss/351919/Java-DP-Solution.-Straight-Forward-With-Explanation
//Runtime: 600 ms, faster than 5.44% of C++ online submissions for Longest Chunked Palindrome Decomposition.
//Memory Usage: 461.4 MB, less than 100.00% of C++ online submissions for Longest Chunked Palindrome Decomposition.
class Solution {
public:
int longestDecomposition(string text) {
int N = text.size();
//dp[i]: max number of palindrome decompositions that s[0:i] + s[len-i:len] can form, not counting the strings between [i+1:len-i-1].
vector<int> dp(N/2+1, 0);
int ans = 0;
for(int r = 0; r < N/2; r++){
for(int l = 0; l <= r; l++){
/*
[l,r] is all possible substrings formed by the former part of text
for odd N, the middle char is not included
*/
// cout << l << " " << r << endl;
//compare [l,r] and [N-r-1,N-l-1]
//dp[l] != 0: [0,l-1] must be valid so we can construct dp[r+1] upon it
//dp[0] is always valid
if(text.substr(l, r-l+1) == text.substr(N-r-1, r-l+1) &&
(l == 0 || dp[l] != 0)){
//dp[r+1] for s[0:r]
//dp[l] for s[0:l-1]
//dp[r+1] is for [0,r], and we are calculate it from [0,l-1] and [l,r]
//[l,r] is the current substring
//dp[l] is for [0,l-1], which is all chars before current substring
//dp[r+1] is equal to dp[l] plus current 2 tokens
// cout << r << " " << l-1 << " " << text.substr(l, r-l+1) << endl;
dp[r+1] = max(dp[r+1], dp[l]+2);
//ans: we can find "ans" palindromes from [0:r] and [N-1-r:N-1]
//dp[r+1] can be 0 if r is not the end of any palindrome, so we need a max function here
// ans = max(ans, dp[l]+2);
ans = max(ans, dp[r+1]);
}
}
}
// for(int i = 0; i < dp.size(); i++){
// if(dp[i] > 0) cout << "i: " << i << ", " << dp[i] << endl;
// }
//((N % 2 == 0) && dp[N/2] != 0): the string's length is even and there is a palindrome ends just before the middle point
return ((N % 2 == 0) && dp[N/2] != 0) ? dp[N/2] : ans+1;
}
};
//Greedy, brute force
//https://leetcode.com/problems/longest-chunked-palindrome-decomposition/discuss/350560/JavaC%2B%2BPython-Easy-Greedy-with-Prove
//Runtime: 4 ms, faster than 88.52% of C++ online submissions for Longest Chunked Palindrome Decomposition.
//Memory Usage: 10.8 MB, less than 100.00% of C++ online submissions for Longest Chunked Palindrome Decomposition.
//time: O(N) * O(string), space O(N)
class Solution {
public:
int longestDecomposition(string text) {
int ans = 0, N = text.size();
string l = "", r = "";
for(int i = 0; i < N; i++){
l += text[i];
r = text[N-i-1] + r;
/*
"ghiabcdefhelloadamhelloabcdefghi"
the character in the middle can also be processed correctly
2 ghi
8 abcdef
13 hello
17 adam
22 hello
28 abcdef
31 ghi
*/
if(l == r){
// cout << i << " " << l << endl;
l = "";
r = "";
ans++;
}
}
return ans;
}
};
//Greedy, tail recursion
//https://leetcode.com/problems/longest-chunked-palindrome-decomposition/discuss/350560/JavaC%2B%2BPython-Easy-Greedy-with-Prove
//Runtime: 4 ms, faster than 88.52% of C++ online submissions for Longest Chunked Palindrome Decomposition.
//Memory Usage: 10.7 MB, less than 100.00% of C++ online submissions for Longest Chunked Palindrome Decomposition.
class Solution {
public:
int longestDecomposition(string text, int res = 0) {
int n = text.length();
//l is 1-based
for (int l = 1; l <= n / 2; ++l){
//this if is just for speed up
if (text[0] == text[n - l] && text[l - 1] == text[n - 1]){
if (text.substr(0, l) == text.substr(n - l)){
// cout << l << " " << text.substr(0, l) << endl;
//remove current palindrome from text
return longestDecomposition(text.substr(l, n - l - l), res + 2);
}
}
}
/*
the recursion ends when:
1. we cannot find any palindrome for text(res + 1)
2. text's length is 0(res)
*/
// cout << "n: " << n << endl;
return n ? res + 1 : res;
}
};