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Given two arrays arr1 and arr2, the elements of arr2 are distinct, and all elements in arr2 are also in arr1.
Sort the elements of arr1 such that the relative ordering of items in arr1 are the same as in arr2. Elements that don't appear in arr2 should be placed at the end of arr1 in ascending order.
Example 1:
Input: arr1 = [2,3,1,3,2,4,6,7,9,2,19], arr2 = [2,1,4,3,9,6] Output: [2,2,2,1,4,3,3,9,6,7,19]
Constraints:
arr1.length, arr2.length <= 10000 <= arr1[i], arr2[i] <= 1000- Each
arr2[i]is distinct. - Each
arr2[i]is inarr1.
给你两个数组,arr1 和 arr2,
arr2中的元素各不相同arr2中的每个元素都出现在arr1中
对 arr1 中的元素进行排序,使 arr1 中项的相对顺序和 arr2 中的相对顺序相同。未在 arr2 中出现过的元素需要按照升序放在 arr1 的末尾。
示例:
输入:arr1 = [2,3,1,3,2,4,6,7,9,2,19], arr2 = [2,1,4,3,9,6] 输出:[2,2,2,1,4,3,3,9,6,7,19]
提示:
arr1.length, arr2.length <= 10000 <= arr1[i], arr2[i] <= 1000arr2中的元素arr2[i]各不相同arr2中的每个元素arr2[i]都出现在arr1中
8ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 var dict = [Int: Int]() 4 var result = [Int]() 5 for a in arr1 { 6 dict[a] = (dict[a] ?? 0)+1 7 } 8 9 for a in arr2 { 10 if let val = dict[a] { 11 for i in 0..<val { 12 result.append(a) 13 } 14 dict.removeValue(forKey: a) 15 } 16 } 17 var simpleArray = [Int]() 18 if !dict.isEmpty { 19 for (key,val) in dict { 20 for i in 0..<val { 21 simpleArray.append(key) 22 } 23 dict.removeValue(forKey: key) 24 } 25 } 26 result.append(contentsOf: simpleArray.sorted()) 27 return result 28 } 29 }
12ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 var dict = Dictionary<Int,Int>() 4 5 for value in arr1 { 6 if dict[value] == nil { 7 dict[value] = 1 8 }else { 9 dict[value] = dict[value]! + 1 10 } 11 } 12 13 14 var outputArray: Array<Int> = Array<Int>() 15 16 for value in arr2 { 17 18 if let count = dict[value] { 19 for _ in 1...count{ 20 outputArray.append(value) 21 } 22 } 23 } 24 25 let set2 = Set(arr2) 26 27 var appendArray = Array<Int>() 28 29 for value in arr1 { 30 if !set2.contains(value) { 31 appendArray.append(value) 32 } 33 } 34 appendArray.sort() 35 outputArray.append(contentsOf: appendArray) 36 return outputArray 37 } 38 }
16ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 let (numToCount, numsNotInArr2) = getNumToCount(arr1, arr2) 4 var result = [Int]() 5 for num in arr2 { 6 if let count = numToCount[num] { 7 for _ in 0..<count { 8 result.append(num) 9 } 10 } 11 } 12 result.append(contentsOf: numsNotInArr2) 13 return result 14 } 15 16 private func getNumToCount(_ arr1: [Int], _ arr2: [Int]) -> ([Int:Int], [Int]) { 17 let arr2Set = Set(arr2) 18 var numToCount = [Int:Int]() 19 var numsNotInArr2 = [Int]() 20 for num in arr1 { 21 if !arr2Set.contains(num) { 22 numsNotInArr2.append(num) 23 } else { 24 numToCount.updateValue((numToCount[num] ?? 0) + 1, forKey: num) 25 } 26 } 27 numsNotInArr2 = numsNotInArr2.sorted() 28 return (numToCount, numsNotInArr2) 29 } 30 }
Runtime: 20 ms
Memory Usage: 21.2 MB
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 var arr1 = arr1.sorted(by:<) 4 var n:Int = arr1.count 5 var used:[Bool] = [Bool](repeating:false,count:n) 6 var result:[Int] = [Int]() 7 for x in arr2 8 { 9 for i in 0..<n 10 { 11 if arr1[i] == x && !used[i] 12 { 13 result.append(x) 14 used[i] = true 15 } 16 } 17 } 18 for i in 0..<n 19 { 20 if !used[i] 21 { 22 result.append(arr1[i]) 23 } 24 } 25 return result 26 } 27 }
20ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 4 var orderMap = [Int: Int]() 5 6 for (offset, element) in arr2.enumerated() { 7 orderMap[element] = offset 8 } 9 10 let result = arr1.sorted { left, right in 11 switch (orderMap[left], orderMap[right]) { 12 case (let leftOrder?, let rightOrder?): 13 return leftOrder < rightOrder 14 case (.none, .some): 15 return false 16 case (.some, .none): 17 return true 18 default: 19 return left < right 20 } 21 } 22 return result 23 } 24 }
24ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 var counter = [Int : Int]() 4 for num in arr1 { 5 counter[num, default: 0] += 1 6 } 7 8 var ans = [Int]() 9 for num in arr2 { 10 ans += Array(repeating: num, count: counter[num]!) 11 counter[num] = nil 12 } 13 14 let nums = counter.keys.sorted() 15 for num in nums { 16 ans += Array(repeating: num, count: counter[num]!) 17 counter[num] = nil 18 } 19 20 return ans 21 } 22 }
28ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 var dict = [Int: Int]() 4 for i in 0..<arr2.count { 5 dict[arr2[i]] = i 6 } 7 8 return arr1.sorted(by: { (e1, e2) in 9 10 guard let idx1 = dict[e1] else { 11 if dict[e2] == nil { return e1 < e2 } 12 return false 13 } 14 guard let idx2 = dict[e2] else { 15 return true 16 } 17 return idx1 < idx2 18 }) 19 20 } 21 }
52ms
1 class Solution { 2 func relativeSortArray(_ arr1: [Int], _ arr2: [Int]) -> [Int] { 3 var result = [Int]() 4 var haystack = arr1 5 for needle in arr2 { 6 var index = 0 7 for element in haystack { 8 guard needle == element else { index += 1; continue } 9 haystack.remove(at: index) 10 result.append(element) 11 } 12 } 13 result.append(contentsOf: haystack.sorted()) 14 return result 15 } 16 }