Alice and Bob take turns playing a game, with Alice starting first. Initially, there are n stones in a pile. On each player's turn, that player makes a move consisting of removing any non-zero square number of stones in the pile. Also, if a player cannot make a move, he/she loses the game. Given a positive integer n. Return True if and only if Alice wins the game otherwise return False, assuming both players play optimally. Example 1: Input: n = 1 Output: true Explanation: Alice can remove 1 stone winning the game because Bob doesn't have any moves. Example 2: Input: n = 2 Output: false Explanation: Alice can only remove 1 stone, after that Bob removes the last one winning the game (2 -> 1 -> 0). Example 3: Input: n = 4 Output: true Explanation: n is already a perfect square, Alice can win with one move, removing 4 stones (4 -> 0). Example 4: Input: n = 7 Output: false Explanation: Alice can't win the game if Bob plays optimally. If Alice starts removing 4 stones, Bob will remove 1 stone then Alice should remove only 1 stone and finally Bob removes the last one (7 -> 3 -> 2 -> 1 -> 0). If Alice starts removing 1 stone, Bob will remove 4 stones then Alice only can remove 1 stone and finally Bob removes the last one (7 -> 6 -> 2 -> 1 -> 0). Example 5: Input: n = 17 Output: false Explanation: Alice can't win the game if Bob plays optimally. Constraints: 1 <= n <= 10^5