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This approach utilizes the recursive nature of the transformation of each row. We start from the nth row and trace back to see which position in the previous level gives us the current k-th position.
Time Complexity: O(n), as each recursive call reduces the problem size by a constant factor.
Space Complexity: O(n), due to the recursion stack.
1function kthGrammar(n, k) {
2 if (n === 1) return 0;
3 const mid = 1 << (n - 2);
4 if (k <= mid) {
5 return kthGrammar(n - 1, k);
6 } else {
7 return 1 - kthGrammar(n - 1, k - mid);
8 }
9}
10
11console.log(kthGrammar(3, 2)); // Output: 1The function named kthGrammar is a recursive function. It takes advantage of the replace rules (0 becomes 01 and 1 becomes 10) to decide if it needs to flip the bit.
The iterative approach to solve this problem is based on tracing the path from the kth element in the nth row back to the root (1st element of the 1st row). Depending on whether k is odd or even, we determine whether to toggle the current result bit as we move up levels until we arrive at the base case.
Time Complexity: O(n).
Space Complexity: O(1), as no additional space is used outside of constant variables.
1
The iterative solution directly computes from k's path towards the start using bit toggles when stepping back from even indexed positions. The loop continues until k equals 1.