• 设为首页
  • 点击收藏
  • 手机版
    手机扫一扫访问
    迪恩网络手机版
  • 关注官方公众号
    微信扫一扫关注
    公众号
登陆 注册

[Swift]LeetCode849.到最近的人的最大距离|MaximizeDistancetoClosestPerson ...

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★
➤微信公众号:山青咏芝(shanqingyongzhi)
➤博客园地址:山青咏芝(https://www.cnblogs.com/strengthen/
➤GitHub地址:https://github.com/strengthen/LeetCode
➤原文地址: https://www.cnblogs.com/strengthen/p/10591933.html 
➤如果链接不是山青咏芝的博客园地址,则可能是爬取作者的文章。
➤原文已修改更新!强烈建议点击原文地址阅读!支持作者!支持原创!
★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★

热烈欢迎,请直接点击!!!

进入博主App Store主页,下载使用各个作品!!!

注:博主将坚持每月上线一个新app!!!

In a row of seats1 represents a person sitting in that seat, and 0 represents that the seat is empty. 

There is at least one empty seat, and at least one person sitting.

Alex wants to sit in the seat such that the distance between him and the closest person to him is maximized. 

Return that maximum distance to closest person.

Example 1:

Input: [1,0,0,0,1,0,1]
Output: 2
Explanation: 
If Alex sits in the second open seat (seats[2]), then the closest person has distance 2.
If Alex sits in any other open seat, the closest person has distance 1.
Thus, the maximum distance to the closest person is 2.

Example 2:

Input: [1,0,0,0]
Output: 3
Explanation: 
If Alex sits in the last seat, the closest person is 3 seats away.
This is the maximum distance possible, so the answer is 3.

Note:

  1. 1 <= seats.length <= 20000
  2. seats contains only 0s or 1s, at least one 0, and at least one 1.

在一排座位( seats)中,1 代表有人坐在座位上,0 代表座位上是空的。

至少有一个空座位,且至少有一人坐在座位上。

亚历克斯希望坐在一个能够使他与离他最近的人之间的距离达到最大化的座位上。

返回他到离他最近的人的最大距离。

示例 1:

输入:[1,0,0,0,1,0,1]
输出:2
解释:
如果亚历克斯坐在第二个空位(seats[2])上,他到离他最近的人的距离为 2 。
如果亚历克斯坐在其它任何一个空位上,他到离他最近的人的距离为 1 。
因此,他到离他最近的人的最大距离是 2 。

示例 2:

输入:[1,0,0,0]
输出:3
解释: 
如果亚历克斯坐在最后一个座位上,他离最近的人有 3 个座位远。
这是可能的最大距离,所以答案是 3 。

提示:

  1. 1 <= seats.length <= 20000
  2. seats 中只含有 0 和 1,至少有一个 0,且至少有一个 1
Runtime: 84 ms
Memory Usage: 19 MB
 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         var i:Int = 0
 4         var j:Int = 0
 5         var res:Int = 0
 6         var n:Int = seats.count
 7         while(j < n)
 8         {
 9             if seats[j] == 1
10             {
11                 if i == 0
12                 {
13                     res = max(res, j - i)
14                 }
15                 else
16                 {
17                     res = max(res, (j - i + 1) / 2)
18                 }
19                 i = j + 1
20             }            
21             j += 1
22         }
23         return max(res, n - i)
24     }
25 }

84ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         let count = seats.count
 4         var left = -1
 5         var dis = 0
 6         for i in 0..<count {
 7             if seats[i] == 1 { // 有人
 8                 if left == -1 {
 9                     dis = max(dis, i - left - 1)
10                 } else {
11                     dis = max(dis, (i - left) / 2)
12                 }
13                 left = i
14             }
15         }
16         dis = max(dis, count - 1 - left)
17         return dis
18     }
19 }

88ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3     
 4         var maxDistance: Int?        
 5         var maxSeats = 0
 6         for num in seats {
 7             if num == 0 {
 8                 maxSeats += 1
 9             } else {
10                 if maxDistance == nil {
11                     maxDistance = maxSeats
12                 } else {
13                     let distance = (maxSeats + 1) / 2
14                     if distance > maxDistance! {
15                         maxDistance = distance
16                     }
17                 }
18                 maxSeats = 0
19             }
20         }
21         
22         if maxSeats > maxDistance! {
23             maxDistance = maxSeats
24         }
25         
26         return maxDistance ?? 0
27     }
28 }

92ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         var max0sBetween = 0
 4         var max0sEdge = 0
 5         for i in 0..<seats.count where seats[i] == 0 {
 6             var j = i
 7             while j < seats.count && seats[j] == 0 {
 8                 j += 1
 9             }
10             if i == 0 || j == seats.count {
11                 max0sEdge = max(max0sEdge, j - i)
12             } else {
13                 max0sBetween = max(max0sBetween, j - i)
14             }
15         }
16         return max((max0sBetween + 1) / 2, max0sEdge)
17     }
18 }

96ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         var result = 0
 4         enum Status {
 5             case idle
 6             case checkingEmpty(firstEmpty: Int)
 7             case justFindPerson
 8         }
 9         var status = Status.idle
10         
11         for (index, value) in seats.enumerated() {
12             switch value {
13             case 0:
14                 switch status {
15                 case .idle:
16                     status = .checkingEmpty(firstEmpty: index)
17                 case .checkingEmpty:
18                     break
19                 case .justFindPerson:
20                     status = .checkingEmpty(firstEmpty: index)
21                 }
22             case 1:
23                 switch status {
24                 case .idle:
25                     status = .justFindPerson
26                 case .checkingEmpty(let firstEmpty):
27                     if firstEmpty == 0 {
28                         result = index
29                     } else {
30                         result = max(result, (index - firstEmpty + 1) / 2)
31                     }
32                     status = .justFindPerson
33                 case .justFindPerson:
34                     break
35                 }
36             default:
37                 return 0
38             }
39         }
40         
41         switch status {
42         case .checkingEmpty(let firstEmpty):
43             result = max(result, seats.count - firstEmpty)
44         default:
45             break
46         }
47         
48         return result
49     }
50 }

100ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         var start = 0, dist = -1
 4         
 5         var idx = 1, trackMode = seats[0], currDist = 0
 6         while idx < seats.count {
 7             guard seats[idx] != trackMode else {
 8                 idx += 1
 9                 continue
10             }
11             
12             trackMode = seats[idx]
13             
14             if trackMode == 1 {
15                 currDist = idx - start
16                 if start == 0 {
17                     dist = currDist * 2
18                 } else {
19                     dist = max(currDist, dist)
20                 }
21             } else {
22                 start = idx
23             }
24             
25             idx += 1
26         }
27         
28         if let last = seats.last, last == 0 {
29             currDist = (seats.count - start) * 2
30             dist = max(dist, currDist)
31         }
32         
33         return (dist - 1) / 2 + 1
34     }
35 }

108ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3     var idx = seats.firstIndex(of: 1)!
 4     var maxDist = idx
 5     
 6     while let next = seats[(idx+1)...].firstIndex(of: 1) {
 7         maxDist = max(maxDist, (next - idx)/2)
 8         idx = next
 9     }
10 
11     return max(maxDist, seats.count - idx - 1)
12   }
13 }

102ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         var left: [Int] = []
 4         var right: [Int] = []
 5         for i in 0..<seats.count {
 6             left.append(-1)
 7             right.append(-1)
 8         }
 9         var leftFlag = -1
10         for i in 0..<seats.count {
11             if seats[i] == 1 {
12                 leftFlag = i
13             }
14             if seats[i] == 0 {
15                 if leftFlag != -1 {
16                     left[i] = i - leftFlag
17                 }
18             }
19         }
20         var rightFlag = -1
21         for i in (0..<seats.count).reversed() {
22             if seats[i] == 1 {
23                 rightFlag = i
24             }
25             if seats[i] == 0 {
26                 if rightFlag != -1 {
27                     right[i] = rightFlag - i
28                 }
29             }
30         }
31         var maxValue = 0
32         for i in 0..<seats.count {
33             maxValue = max(maxValue, minBiggerThan0(left[i], right[i]))
34         }
35         return maxValue
36     }
37     
38     func minBiggerThan0(_ a: Int, _ b: Int) -> Int {
39         if a > 0 {
40             if b > 0 {
41                 return min(a, b)
42             }
43             return a
44         }
45         if b > 0 {
46             return b
47         }
48         return -1
49     }
50 }

148ms

 1 class Solution {
 2     func maxDistToClosest(_ seats: [Int]) -> Int {
 3         var prev = -1
 4         var res = 1
 5 
 6         for (i, v) in seats.enumerated() {
 7             if v == 1 {
 8                 if prev < 0 {
 9                     res = i
10                 } else {
11                     res = max(res, (i - prev) / 2)
12                 }
13                 prev = i
14             }
15         }
16 
17         return max(res, seats.count - 1 - prev)
18     }
19 }

 

鲜花
握手
雷人
路过
鸡蛋
该文章已有0人参与评论

请发表评论

全部评论

专题导读
More+
上一篇:
[Swift]LeetCode940. 不同的子序列 II | Distinct Subsequences II发布时间:2022-07-13
下一篇:
Swift游戏实战-跑酷熊猫(一)简介(含源代码)发布时间:2022-07-13
热门推荐
More+
热门话题
More+
阅读排行榜

扫描微信二维码

查看手机版网站

随时了解更新最新资讯

139-2527-9053

在线客服(服务时间 9:00~18:00)

在线QQ客服
地址:深圳市南山区西丽大学城创智工业园
电邮:jeky_zhao#qq.com
移动电话:139-2527-9053

Powered by 互联科技 X3.4© 2001-2213 极客世界.|Sitemap