[Swift]LeetCode315. 计算右侧小于当前元素的个数 | Count of Smaller Numbers After Self
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You are given an integer array nums and you have to return a new countsarray. The counts array has the property where counts[i] is the number of smaller elements to the right of nums[i].
Example:
Input: [5,2,6,1]
Output: [2,1,1,0]
Explanation:
To the right of 5 there are 2 smaller elements (2 and 1).
To the right of 2 there is only 1 smaller element (1).
To the right of 6 there is 1 smaller element (1).
To the right of 1 there is 0 smaller element.
给定一个整数数组 nums,按要求返回一个新数组 counts。数组 counts 有该性质: counts[i] 的值是 nums[i] 右侧小于 nums[i] 的元素的数量。
示例:
输入: [5,2,6,1]
输出: [2,1,1,0]
解释:
5 的右侧有 2 个更小的元素 (2 和 1).
2 的右侧仅有 1 个更小的元素 (1).
6 的右侧有 1 个更小的元素 (1).
1 的右侧有 0 个更小的元素.
96ms
1 class Solution { 2 func countSmaller(_ nums: [Int]) -> [Int] { 3 var res: [Int] = [Int](repeating: 0, count: nums.count) 4 var vals = nums.sorted() 5 6 for i in 0..<nums.count { 7 8 let index = binarySearch(vals, nums[i]) 9 res[i] = index 10 vals.remove(at: index) 11 } 12 13 return res 14 } 15 16 func binarySearch(_ nums: [Int], _ val: Int) -> Int { 17 18 var start = 0 19 var end = nums.count-1 20 var mid = (end - start) / 2 21 22 while start < end { 23 24 if nums[mid] >= val { 25 end = mid 26 } 27 else { 28 start = mid+1 29 } 30 mid = start + (end - start) / 2 31 } 32 33 return mid 34 } 35 }
272ms
1 class Solution { 2 func countSmaller(_ nums: [Int]) -> [Int] { 3 var res = [Int]() 4 5 var sorted = nums.sorted() 6 7 func inedxOf(_ v : Int, _ arr : [Int]) -> Int { 8 var l = 0 9 var r = arr.count-1 10 11 while l<=r { 12 let mid = (l+r) >> 1 13 if arr[mid] >= v { 14 r = mid - 1 15 }else { 16 l = mid + 1 17 } 18 } 19 20 return l 21 } 22 23 24 for i in 0..<nums.count { 25 let c = nums[i] 26 let index = inedxOf(c, sorted) 27 res.append(index) 28 sorted.remove(at: index) 29 } 30 31 return res 32 } 33 }
2692ms
1 class Solution { 2 func countSmaller(_ nums: [Int]) -> [Int] { 3 4 var counts = Array(repeating:0, count: nums.count) 5 6 for i in 0..<nums.count { 7 8 var nos = 0 9 10 for j in i+1..<nums.count { 11 12 if nums[j] < nums[i] { 13 nos += 1 14 } 15 } 16 17 counts[i] = nos 18 } 19 20 return counts 21 } 22 }
2924ms
1 class Solution { 2 func countSmaller(_ nums: [Int]) -> [Int] { 3 var results:[Int] = [] 4 for i in 0..<nums.count { 5 var smaller = 0 6 for j in i..<nums.count { 7 if nums[j] < nums[i] { 8 smaller += 1 9 } 10 } 11 results.append(smaller) 12 } 13 return results 14 } 15 }
4168ms
1 class Solution { 2 func countSmaller(_ nums: [Int]) -> [Int] { 3 var res = [Int].init() 4 guard nums.count>0 else { 5 return res 6 } 7 if nums.count == 1 { 8 return [0] 9 } 10 for i in 0..<nums.count-1 { 11 var count = 0 12 13 for j in (i+1)..<nums.count{ 14 if nums[j] < nums[i]{ 15 count += 1 16 } 17 } 18 res.append(count) 19 } 20 res.append(0) 21 return res 22 } 23 }
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