Class Solution
java.lang.Object
g0901_1000.s0947_most_stones_removed_with_same_row_or_column.Solution
947 - Most Stones Removed with Same Row or Column\.
Medium
On a 2D plane, we place `n` stones at some integer coordinate points. Each coordinate point may have at most one stone.
A stone can be removed if it shares either **the same row or the same column** as another stone that has not been removed.
Given an array `stones` of length `n` where
stones[i] = [xi, yi] represents the location of the ith stone, return _the largest possible number of stones that can be removed_.
**Example 1:**
**Input:** stones = \[\[0,0],[0,1],[1,0],[1,2],[2,1],[2,2]]
**Output:** 5
**Explanation:** One way to remove 5 stones is as follows:
1. Remove stone [2,2] because it shares the same row as [2,1].
2. Remove stone [2,1] because it shares the same column as [0,1].
3. Remove stone [1,2] because it shares the same row as [1,0].
4. Remove stone [1,0] because it shares the same column as [0,0].
5. Remove stone [0,1] because it shares the same row as [0,0].
Stone [0,0] cannot be removed since it does not share a row/column with another stone still on the plane.
**Example 2:**
**Input:** stones = \[\[0,0],[0,2],[1,1],[2,0],[2,2]]
**Output:** 3
**Explanation:** One way to make 3 moves is as follows:
1. Remove stone [2,2] because it shares the same row as [2,0].
2. Remove stone [2,0] because it shares the same column as [0,0].
3. Remove stone [0,2] because it shares the same row as [0,0].
Stones [0,0] and [1,1] cannot be removed since they do not share a row/column with another stone still on the plane.
**Example 3:**
**Input:** stones = \[\[0,0]]
**Output:** 0
**Explanation:** [0,0] is the only stone on the plane, so you cannot remove it.
**Constraints:**
* `1 <= stones.length <= 1000`
* 0 <= xi, yi <= 104
* No two stones are at the same coordinate point.-
Constructor Summary
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Method Summary
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Constructor Details
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Solution
public Solution()
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Method Details
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removeStones
public int removeStones(int[][] stones)
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