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Java-based LeetCode algorithm problem solutions, regularly updated
1406\. Stone Game III
Hard
Alice and Bob continue their games with piles of stones. There are several stones **arranged in a row**, and each stone has an associated value which is an integer given in the array `stoneValue`.
Alice and Bob take turns, with Alice starting first. On each player's turn, that player can take `1`, `2`, or `3` stones from the **first** remaining stones in the row.
The score of each player is the sum of the values of the stones taken. The score of each player is `0` initially.
The objective of the game is to end with the highest score, and the winner is the player with the highest score and there could be a tie. The game continues until all the stones have been taken.
Assume Alice and Bob **play optimally**.
Return `"Alice"` _if Alice will win,_ `"Bob"` _if Bob will win, or_ `"Tie"` _if they will end the game with the same score_.
**Example 1:**
**Input:** values = [1,2,3,7]
**Output:** "Bob"
**Explanation:** Alice will always lose. Her best move will be to take three piles and the score become 6. Now the score of Bob is 7 and Bob wins.
**Example 2:**
**Input:** values = [1,2,3,-9]
**Output:** "Alice"
**Explanation:** Alice must choose all the three piles at the first move to win and leave Bob with negative score. If Alice chooses one pile her score will be 1 and the next move Bob's score becomes 5. In the next move, Alice will take the pile with value = -9 and lose. If Alice chooses two piles her score will be 3 and the next move Bob's score becomes 3. In the next move, Alice will take the pile with value = -9 and also lose. Remember that both play optimally so here Alice will choose the scenario that makes her win.
**Example 3:**
**Input:** values = [1,2,3,6]
**Output:** "Tie"
**Explanation:** Alice cannot win this game. She can end the game in a draw if she decided to choose all the first three piles, otherwise she will lose.
**Constraints:**
* 1 <= stoneValue.length <= 5 * 104
* `-1000 <= stoneValue[i] <= 1000`