题目描述
一台旧车的引擎中有一些活塞,我们想要计算活塞 下方 的 最大 区域。
给定:
- 一个整数
height,表示活塞 最大 可到达的高度。
- 一个整数数组
positions,其中 positions[i] 是活塞 i 的当前位置,等于其 下方 的当前区域。
- 一个字符串
directions,其中 directions[i] 是活塞 i 的当前移动方向,'U' 表示向上,'D' 表示向下。
每一秒:
- 每个活塞向它的当前方向移动 1 单位。即如果方向向上,
positions[i] 增加 1。
- 如果一个活塞到达了其中一个终点,即
positions[i] == 0 或 positions[i] == height,它的方向将会改变。
返回所有活塞下方的最大可能区域。
示例 1:
输入:height = 5, positions = [2,5], directions = "UD"
输出:7
解释:
当前活塞的位置下方区域最大。
示例 2:
输入:height = 6, positions = [0,0,6,3], directions = "UUDU"
输出:15
解释:
三秒后,活塞将会位于 [3, 3, 3, 6],此时下方区域最大。
提示:
1 <= height <= 1061 <= positions.length == directions.length <= 1050 <= positions[i] <= heightdirections[i] 为 'U' 或 'D'。
解法
方法一
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22 | class Solution:
def maxArea(self, height: int, positions: List[int], directions: str) -> int:
delta = defaultdict(int)
diff = res = 0
for pos, dir in zip(positions, directions):
res += pos
if dir == "U":
diff += 1
delta[height - pos] -= 2
delta[height * 2 - pos] += 2
else:
diff -= 1
delta[pos] += 2
delta[height + pos] -= 2
ans = res
pre = 0
for cur, d in sorted(delta.items()):
res += (cur - pre) * diff
pre = cur
diff += d
ans = max(ans, res)
return ans
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32 | class Solution {
public long maxArea(int height, int[] positions, String directions) {
Map<Integer, Integer> delta = new TreeMap<>();
int diff = 0;
long res = 0;
for (int i = 0; i < positions.length; ++i) {
int pos = positions[i];
char dir = directions.charAt(i);
res += pos;
if (dir == 'U') {
++diff;
delta.merge(height - pos, -2, Integer::sum);
delta.merge(height * 2 - pos, 2, Integer::sum);
} else {
--diff;
delta.merge(pos, 2, Integer::sum);
delta.merge(height + pos, -2, Integer::sum);
}
}
long ans = res;
int pre = 0;
for (var e : delta.entrySet()) {
int cur = e.getKey();
int d = e.getValue();
res += (long) (cur - pre) * diff;
pre = cur;
diff += d;
ans = Math.max(ans, res);
}
return ans;
}
}
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36 | class Solution {
public:
long long maxArea(int height, vector<int>& positions, string directions) {
map<int, int> delta;
int diff = 0;
long long res = 0;
for (int i = 0; i < positions.size(); ++i) {
int pos = positions[i];
char dir = directions[i];
res += pos;
if (dir == 'U') {
++diff;
delta[height - pos] -= 2;
delta[height * 2 - pos] += 2;
} else {
--diff;
delta[pos] += 2;
delta[height + pos] -= 2;
}
}
long long ans = res;
int pre = 0;
for (const auto& [cur, d] : delta) {
res += static_cast<long long>(cur - pre) * diff;
pre = cur;
diff += d;
ans = max(ans, res);
}
return ans;
}
};
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34 | func maxArea(height int, positions []int, directions string) int64 {
delta := make(map[int]int)
diff := 0
var res int64 = 0
for i, pos := range positions {
dir := directions[i]
res += int64(pos)
if dir == 'U' {
diff++
delta[height-pos] -= 2
delta[height*2-pos] += 2
} else {
diff--
delta[pos] += 2
delta[height+pos] -= 2
}
}
ans := res
pre := 0
keys := make([]int, 0, len(delta))
for key := range delta {
keys = append(keys, key)
}
sort.Ints(keys)
for _, cur := range keys {
d := delta[cur]
res += int64(cur-pre) * int64(diff)
pre = cur
diff += d
ans = max(ans, res)
}
return ans
}
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