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MD ARIFUL HAQUE
MD ARIFUL HAQUE

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131. Palindrome Partitioning

131. Palindrome Partitioning

Difficulty: Medium

Topics: String, Dynamic Programming, Backtracking

Given a string s, partition s such that every substring1 of the partition is a palindrome2. Return all possible palindrome partitioning of s.

Example 1:

  • Input: s = "aab"
  • Output: [["a","a","b"],["aa","b"]]

Example 2:

  • Input: s = "a"
  • Output: [["a"]]

Constraints:

  • 1 <= s.length <= 16
  • s contains only lowercase English letters.

Solution:

We can use a combination of backtracking and dynamic programming. The goal is to explore all possible partitions and check if each partition is a palindrome.

Steps to Solve:

  1. Backtracking:

    • We'll explore every possible partitioning of the string. For each possible starting index, we try to partition the string at every possible end index.
    • If a substring is a palindrome, we recursively partition the remaining string.
  2. Palindrome Check:

    • We need a helper function to check if a given substring is a palindrome. This can be done by comparing the substring with its reverse.
  3. Collect Results:

    • When we reach the end of the string, we've found a valid partitioning, so we add it to the result list.

Let's implement this solution in PHP: 131. Palindrome Partitioning

<?php
// Example usage:
$s1 = "aab";
$s2 = "a";
print_r(partition($s1)); // Output: [["a","a","b"],["aa","b"]]
print_r(partition($s2)); // Output: [["a"]]
?>
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Explanation:

  1. partition($s): This function initializes the backtracking process.
  2. backtrack($s, $start, &$current, &$result):
    • It explores each substring starting at index start.
    • If a palindrome is found, it's added to the current partition ($current), and the function is called recursively for the next part of the string.
    • Once all partitions from the current start point are explored, the last substring is removed from $current to backtrack and try other possibilities.
  3. isPalindrome($s): This helper function checks if a string is a palindrome by comparing characters from the start and end.

Time Complexity:

  • The time complexity is exponential in the worst case, as we explore all possible partitions (backtracking).
  • The palindrome check is (O(n)) for each substring.

This solution works efficiently for the given constraint where the maximum length of the string is 16.

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  1. Substring A substring is a contiguous non-empty sequence of characters within a string. 

  2. Palindrome A palindrome is a string that reads the same forward and backward. 

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