客服电话
APP下载
迪恩网络APP
随时随地掌握行业动态
官方微信
扫描二维码
关注迪恩网络微信公众号
|
★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ Given an array
Return the length of Example 1: Input: [5,0,3,8,6]
Output: 3
Explanation: left = [5,0,3], right = [8,6]
Example 2: Input: [1,1,1,0,6,12]
Output: 4
Explanation: left = [1,1,1,0], right = [6,12]
Note:
给定的阵列
返回长度的 例1: 输入:[5,0,3,8,6]
输出:3
说明:左= [5,0,3],右= [8,6]
例2: 输入:[1,1,1,0,6,12]
输出:4
说明:左= [1,1,1,0],右= [6,12]
注意:
36ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 4 var maxSoFar = A[0], previousMax = A[0], answer = 1 5 6 for i in 0..<A.count { 7 8 if A[i] < maxSoFar && 9 A[i] < previousMax { 10 answer = i + 1 11 previousMax = maxSoFar 12 } else if A[i] > maxSoFar { 13 maxSoFar = A[i] 14 } 15 } 16 17 return answer 18 } 19 } 56ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 if A.isEmpty { 4 return 0 5 } 6 7 var indexAndMin: (Int, Int) = (0, A[0]) 8 9 // find min - O(N) 10 for (i, v) in A.enumerated() { 11 if indexAndMin.1 >= v { 12 indexAndMin = (i, v) 13 } 14 } 15 16 // find left max - O(N) 17 var leftMax = 0 18 for i in 0...indexAndMin.0 { 19 leftMax = max(A[i], leftMax) 20 } 21 22 // find right less - O(N) 23 var pivotIndex = 0 24 var leftMaxCandidate = leftMax 25 var i = indexAndMin.0 26 27 while i < A.count { 28 leftMaxCandidate = max(A[i], leftMaxCandidate) 29 30 if A[i] < leftMax { 31 leftMax = leftMaxCandidate 32 pivotIndex = i 33 } 34 i += 1 35 } 36 37 return pivotIndex + 1 38 } 39 } 60ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var dpM = [Int](repeating: 0, count: A.count) 4 var dpm = [Int](repeating: 0, count: A.count) 5 var M = 0 6 var m = Int(Int32.max) 7 for i in 0 ..< A.count { 8 M = max(M, A[i]) 9 dpM[i] = M 10 } 11 for i in (0 ..< A.count).reversed() { 12 m = min(m, A[i]) 13 dpm[i] = m 14 } 15 for i in 0 ..< A.count-1 { 16 if dpM[i] <= dpm[i+1] { 17 return i+1 18 } 19 } 20 return -1 21 22 } 23 } 80ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var leftBiggest = Array(repeating: 0, count: A.count) 4 var rightSmallest = Array(repeating: 0, count: A.count) 5 6 leftBiggest[0] = A[0] 7 for i in 1..<A.count { 8 leftBiggest[i] = max(leftBiggest[i-1], A[i]) 9 } 10 11 rightSmallest[A.count - 1] = A[A.count - 1] 12 for i in (0..<A.count-1).reversed() { 13 rightSmallest[i] = min(rightSmallest[i+1], A[i]) 14 } 15 16 for i in 0..<A.count-1 { 17 if leftBiggest[i] <= rightSmallest[i+1] { 18 return i + 1 19 } 20 } 21 22 return -1 23 } 24 } 104ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var maxArray = A 4 var minArray = A 5 for i in 1..<maxArray.count { 6 maxArray[i] = max(maxArray[i], maxArray[i - 1]) 7 } 8 for i in (0...maxArray.count - 2).reversed() { 9 minArray[i] = min(A[i + 1], minArray[i + 1]) 10 } 11 for i in 0...A.count - 1 { 12 if maxArray[i] <= minArray[i] { 13 return i + 1 14 } 15 } 16 return -1 17 } 18 } 120ms 1 class Solution { 2 var debug = false 3 init(debug: Bool = false) { 4 self.debug = debug 5 } 6 func partitionDisjoint(_ A: [Int]) -> Int { 7 return partitionDisjoint(A, start: 0, end: A.count - 1, leftMax: -1) 8 } 9 func partitionDisjoint(_ arr: [Int], start: Int, end: Int, leftMax: Int) -> Int { 10 if debug { 11 let subarray = arr[start...end] 12 print("============start: \(start), end: \(end), \(subarray)") 13 } 14 var min = Int.max 15 var minIndex = -1 16 var max = -1 17 var maxIndex = -1 18 for (index, num) in arr.enumerated() where index >= start && index <= end { 19 if num < min { 20 min = num 21 minIndex = index 22 } 23 if num >= max { 24 max = num 25 maxIndex = index 26 } 27 } 28 29 var leftMax = -1 30 var rightMin = Int.max 31 var rightMinIndex = -1 32 var partitionIndex = minIndex 33 var newStart = start 34 35 while leftMax < 0 || leftMax > rightMin { 36 newStart = leftMax < 0 ? start : partitionIndex 37 partitionIndex = rightMinIndex 38 rightMin = Int.max 39 rightMinIndex = -1 40 for (index, num) in arr.enumerated() where index >= newStart && index < maxIndex { 41 if index <= partitionIndex { 42 if num > leftMax { 43 leftMax = num 44 } 45 continue 46 } 47 if num < rightMin { 48 rightMin = num 49 rightMinIndex = index 50 } 51 if num < leftMax { 52 rightMinIndex = index 53 } 54 } 55 } 56 return partitionIndex + 1 57 } 58 } 128ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var lmax = A.first! 4 var rmin = A[1..<A.count].min()! 5 for i in 0...(A.count-2) { 6 lmax = max(lmax, A[i]) 7 if (A[i]==rmin) { rmin = A[(i+1)..<A.count].min()! } 8 if lmax <= rmin { return i+1 } 9 } 10 return 0 11 } 12 } 300ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var n = A.count 4 var pre:[Int] = [Int](repeating: 0,count: n + 1) 5 for i in 0..<n 6 { 7 pre[i + 1] = max(pre[i], A[i]) 8 9 } 10 var suf:[Int] = [Int](repeating: 0,count: n + 1) 11 suf[n] = 999999999 12 for i in (0..<n).reversed() 13 { 14 suf[i] = min(suf[i+1], A[i]) 15 } 16 for i in 1..<n 17 { 18 if pre[i] <= suf[i] 19 { 20 return i 21 } 22 } 23 fatalError() 24 } 25 } 320ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var leftMax = A[0], maxVal = A[0], len = 1 4 for i in 1..<A.count { 5 if A[i] < leftMax { 6 // A[i] is smaller, so it must be included to the left 7 len = i + 1 8 // Update leftMax to latest maxVal 9 leftMax = maxVal 10 } else if A[i] > maxVal { 11 maxVal = A[i] 12 } 13 } 14 return len 15 } 16 } 324ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var localMax = A[0] 4 var partitionIdx = 0 5 var maxV = localMax 6 for i in 1..<A.count{ 7 if localMax > A[i]{ 8 localMax = maxV 9 partitionIdx = i 10 } else { 11 maxV = max(maxV, A[i]) 12 } 13 } 14 15 return partitionIdx + 1 16 } 17 } 328ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var leftMax = A[0], maxVal = A[0], len = 1 4 for i in 1..<A.count { 5 if A[i] < leftMax { 6 // A[i] is smaller, so it must be included to the left 7 len = i + 1 8 // Update leftMax to latest maxVal 9 leftMax = maxVal 10 } else { 11 maxVal = max(maxVal, A[i]) 12 } 13 } 14 return len 15 } 16 } 340ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var minRight = [Int](repeating: 0, count: A.count) 4 var min = Int.max 5 for i in stride(from:A.count - 1, through: 0, by: -1) { 6 if A[i] < min { 7 min = A[i] 8 } 9 minRight[i] = min 10 11 if min == 0 { 12 break 13 } 14 } 15 16 var max = A[0] 17 for i in 1..<A.count { 18 if max <= minRight[i] { 19 return i 20 } 21 if A[i] > max { 22 max = A[i] 23 } 24 } 25 return 0 26 } 27 } 344ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var minArray = A 4 for idx in (1 ..< A.count-1).reversed() { 5 minArray[idx] = min(minArray[idx], minArray[idx+1]) 6 } 7 var maxValue = A[0] 8 for idx in 0 ..< A.count { 9 maxValue = max(maxValue, A[idx]) 10 if maxValue <= minArray[idx + 1] { return idx+1 } 11 } 12 fatalError() 13 } 14 } 372ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var maxSoFar = A[0], previousMax = A[0], answer = 1 4 5 for i in 0..<A.count { 6 7 if A[i] < maxSoFar && 8 A[i] < previousMax { 9 answer = i + 1 10 previousMax = maxSoFar 11 } else if A[i] > maxSoFar { 12 maxSoFar = A[i] 13 } 14 } 15 16 return answer 17 } 18 } 400ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var leftMax = A[0] 4 var sorted = A.sorted() 5 6 var rightMin = sorted[0] 7 sorted.remove(at: sorted.index(of: A[0])!) 8 var idx = 1 9 while idx < A.count { 10 defer { idx += 1 } 11 let a = A[idx] 12 if leftMax <= rightMin { 13 return idx 14 } 15 16 leftMax = max(leftMax, a) 17 if sorted.count == 0 { break } 18 let t = binarySearch(sorted, a)! 19 sorted.remove(at: t) 20 rightMin = sorted[0] 21 } 22 23 return A.count 24 } 25 26 func binarySearch<T: Comparable>(_ a: [T], _ key: T) -> Int? { 27 var lowerBound = 0 28 var upperBound = a.count 29 while lowerBound < upperBound { 30 let midIndex = lowerBound + (upperBound - lowerBound) / 2 31 if a[midIndex] == key { 32 return midIndex 33 } else if a[midIndex] < key { 34 lowerBound = midIndex + 1 35 } else { 36 upperBound = midIndex 37 } 38 } 39 return nil 40 } 41 } 496ms 1 class Solution { 2 func partitionDisjoint(_ A: [Int]) -> Int { 3 var leftMax = A[0] 4 var rightMin = Int.max 5 var sorted = A.sorted() 6 7 rightMin = sorted[0] 8 sorted.remove(at: sorted.index(of: A[0])!) 9 var index = 1 10 while index < A.count { 11 defer { index += 1 } 12 let a = A[index] 13 if leftMax <= rightMin { 14 return index 15 } 16 17 leftMax = max(leftMax, a) 18 if sorted.count == 0 { break } 19 let t = binarySearch(sorted, a)! 20 |
请发表评论