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Given the running logs of n functions that are executed in a nonpreemptive single threaded CPU, find the exclusive time of these functions.
Each function has a unique id, start from 0 to n-1. A function may be called recursively or by another function.
A log is a string has this format : function_id:start_or_end:timestamp
. For example, "0:start:0"
means function 0 starts from the very beginning of time 0. "0:end:0"
means function 0 ends to the very end of time 0.
Exclusive time of a function is defined as the time spent within this function, the time spent by calling other functions should not be considered as this function's exclusive time. You should return the exclusive time of each function sorted by their function id.
Example 1:
Input: n = 2 logs = ["0:start:0", "1:start:2", "1:end:5", "0:end:6"] Output:[3, 4] Explanation: Function 0 starts at time 0, then it executes 2 units of time and reaches the end of time 1. Now function 0 calls function 1, function 1 starts at time 2, executes 4 units of time and end at time 5. Function 0 is running again at time 6, and also end at the time 6, thus executes 1 unit of time. So function 0 totally execute 2 + 1 = 3 units of time, and function 1 totally execute 4 units of time.
Note:
- Input logs will be sorted by timestamp, NOT log id.
- Your output should be sorted by function id, which means the 0th element of your output corresponds to the exclusive time of function 0.
- Two functions won't start or end at the same time.
- Functions could be called recursively, and will always end.
- 1 <= n <= 100
给出一个非抢占单线程CPU的 n 个函数运行日志,找到函数的独占时间。
每个函数都有一个唯一的 Id,从 0 到 n-1,函数可能会递归调用或者被其他函数调用。
日志是具有以下格式的字符串:function_id:start_or_end:timestamp
。例如:"0:start:0"
表示函数 0 从 0 时刻开始运行。"0:end:0"
表示函数 0 在 0 时刻结束。
函数的独占时间定义是在该方法中花费的时间,调用其他函数花费的时间不算该函数的独占时间。你需要根据函数的 Id 有序地返回每个函数的独占时间。
示例 1:
输入: n = 2 logs = ["0:start:0", "1:start:2", "1:end:5", "0:end:6"] 输出:[3, 4] 说明: 函数 0 在时刻 0 开始,在执行了 2个时间单位结束于时刻 1。 现在函数 0 调用函数 1,函数 1 在时刻 2 开始,执行 4 个时间单位后结束于时刻 5。 函数 0 再次在时刻 6 开始执行,并在时刻 6 结束运行,从而执行了 1 个时间单位。 所以函数 0 总共的执行了 2 +1 =3 个时间单位,函数 1 总共执行了 4 个时间单位。
说明:
- 输入的日志会根据时间戳排序,而不是根据日志Id排序。
- 你的输出会根据函数Id排序,也就意味着你的输出数组中序号为 0 的元素相当于函数 0 的执行时间。
- 两个函数不会在同时开始或结束。
- 函数允许被递归调用,直到运行结束。
- 1 <= n <= 100
168ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var ans = [Int](repeating: 0, count: n) 4 5 var stack = [Int]() 6 var lastEndTime = 0 7 for log in logs { 8 let components = log.split(separator: ":") 9 let id = Int(components[0])! 10 let isStart = components[1] == "start" 11 let currentTime = Int(components[2])! 12 13 if isStart { 14 if !stack.isEmpty { 15 ans[stack.last!] += currentTime - lastEndTime 16 } 17 stack.append(id) 18 lastEndTime = currentTime 19 continue 20 } else { 21 // this is a end of some task 22 ans[stack.removeLast()] += currentTime - lastEndTime + 1 23 lastEndTime = currentTime + 1 24 } 25 } 26 return ans 27 } 28 }
172ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var exclusiveTotals = [Int](repeating: 0, count: n) 4 var startedTasks = [(id: Int, startTime: Int)]() 5 6 for (id, status, time) in parsedLogs(logs) { 7 if status == "start" { 8 9 // update exclusive time of parent task before this (if any) 10 if let parentTask = startedTasks.last { 11 exclusiveTotals[parentTask.id] += time - parentTask.startTime 12 } 13 14 // push new task onto stack 15 startedTasks.append((id: id, startTime: time)) 16 17 18 } else if let previousTask = startedTasks.popLast() { 19 20 // update current ending task's exclusive time 21 exclusiveTotals[previousTask.id] += time - previousTask.startTime + 1 22 23 // update parent task's start time (if any) 24 if let parentTask = startedTasks.popLast() { 25 startedTasks.append((id: parentTask.id, startTime: time+1)) 26 } 27 } 28 } 29 30 return exclusiveTotals 31 } 32 33 private func parsedLogs(_ logs: [String]) -> [(Int, String, Int)] { 34 return logs.map { 35 let tokens = $0.split(separator: ":") 36 return (Int(tokens[0])!, String(tokens[1]), Int(tokens[2])!) 37 } 38 } 39 }
180ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var result = Array(repeating: 0, count: n) 4 5 let logRecords = logs.compactMap(parseLogString) 6 7 guard logRecords.count > 1 else { 8 return [] 9 } 10 11 var lastRecord = logRecords[0] 12 var stack = [LogRecord]() 13 for logRecord in logRecords { 14 let offset: Int = { 15 if lastRecord.type == .end && logRecord.type == .start { 16 return -1 17 } else if lastRecord.type == .start && logRecord.type == .end { 18 return 1 19 } else { 20 return 0 21 } 22 }() 23 24 let timeDiff = logRecord.time - lastRecord.time + offset 25 if logRecord.type == .start { 26 // push on to the stack 27 if let topRecord = stack.last { 28 result[topRecord.id] += timeDiff 29 } 30 stack.append(logRecord) 31 } else if logRecord.type == .end { 32 if let topRecord = stack.popLast() { 33 if topRecord.id != logRecord.id || topRecord.type != .start { 34 assertionFailure("input not correctly formatted") 35 return [] 36 } 37 38 result[topRecord.id] += timeDiff 39 } else { 40 assertionFailure("input not correctly formatted") 41 return [] 42 } 43 } 44 45 lastRecord = logRecord 46 } 47 48 return result 49 } 50 51 enum LogType: String { 52 case start = "start" 53 case end = "end" 54 } 55 56 struct LogRecord { 57 var id: Int 58 var type: LogType 59 var time: Int 60 init(id: Int, type: LogType, time: Int) { 61 self.id = id 62 self.type = type 63 self.time = time 64 } 65 } 66 67 func parseLogString(_ logString: String) -> LogRecord? { 68 guard !logString.isEmpty else { 69 return nil 70 } 71 72 let components = logString.split(separator: ":") 73 guard components.count == 3 else { 74 return nil 75 } 76 77 guard let id = Int(String(components[0])) else { 78 return nil 79 } 80 81 guard let type = LogType(rawValue: String(components[1])) else { 82 return nil 83 } 84 85 guard let time = Int(String(components[2])) else { 86 return nil 87 } 88 89 return LogRecord(id: id, type: type, time: time) 90 } 91 }
188ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var stack = [Int]() 4 var res = Array(repeating: 0, count: n) 5 var s = logs[0].split(separator: ":") 6 stack.append(Int(s[0])!) 7 var i = 1 8 var prev = Int(s[2]) 9 while i < logs.count { 10 s = logs[i].split(separator: ":") 11 if s[1] == "start" { 12 if !stack.isEmpty { 13 let index = stack.last! 14 let val = res[index] 15 res[index] = val + Int(s[2])! - prev! 16 } 17 stack.append(Int(s[0])!) 18 prev = Int(s[2]) 19 } else { 20 let index = stack.last! 21 res[index] = res[index] + Int(s[2])! - prev! + 1 22 stack.removeLast() 23 prev = Int(s[2])! + 1 24 } 25 i += 1 26 } 27 return res 28 } 29 }
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var stack = [Int]() 4 var pre = 0 5 var res = Array(repeating: 0, count: n) 6 7 for log in logs { 8 9 let tokens = log.components(separatedBy: ":") 10 11 let id = Int(tokens[0])! 12 let act = tokens[1] 13 let time = Int(tokens[2])! 14 15 if act == "start" { 16 17 if !stack.isEmpty { 18 19 let top = stack[stack.count - 1] 20 res[top] += time - pre 21 } 22 23 stack.append(id) 24 pre = time 25 26 } else { 27 28 res[stack.removeLast()] += time - pre + 1 29 pre = time + 1 30 } 31 } 32 return res 33 } 34 }
232ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var result = Array(repeating: 0, count: n) 4 5 var funcStack = [Int]() 6 var prev = 0 7 8 for s in logs { 9 let fId = Int(s.prefix(upTo: s.firstIndex(of: ":")!))! 10 let time = Int(s.suffix(from: s.index(after: s.lastIndex(of: ":")!)))! 11 12 if s.contains("start") { 13 if let last = funcStack.last { 14 result[last] += time - prev 15 } 16 17 prev = time 18 funcStack.append(fId) 19 } else { 20 if let last = funcStack.last { 21 result[last] += time - prev + 1 22 funcStack.removeLast() 23 prev = time + 1 24 } 25 } 26 } 27 return result 28 } 29 }
248ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var stack: [Int] = [] // store the function id 4 var res: [Int] = Array(repeating: 0, count: n) 5 var pre: Int = 0 6 for log in logs { 7 let l = log.components(separatedBy: ":") 8 let id = Int(l[0])! 9 let curr = Int(l[2])! 10 if l[1] == "start" { 11 if !stack.isEmpty { 12 res[stack.last!] += curr - pre 13 } 14 stack.append(id) 15 pre = curr 16 } else { 17 res[stack.last!] += (curr - pre + 1) 18 stack.removeLast() 19 pre = curr + 1 20 } 21 } 22 return res 23 } 24 }
252ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 4 if n == 0 || logs.count == 0 { return [] } 5 var tuples = [(Int, Bool, Int)]() 6 logs.forEach { 7 let vals = $0.components(separatedBy: ":") 8 let id = Int(vals[0])! 9 let isStart = vals[1] == "start" 10 let time = Int(vals[2])! 11 tuples.append((id, isStart, time)) 12 } 13 14 var result = [Int](repeating: 0, count: n) 15 var stack = [(Int, Bool, Int)]() 16 var lastTime = 0 17 18 tuples.forEach { 19 if $0.1 { 20 if !stack.isEmpty { 21 let last = stack.last! 22 let time = $0.2 - lastTime 23 result[last.0] += time 24 } 25 lastTime = $0.2 26 stack.append($0) 27 } else { 28 let last = stack.removeLast() 29 let time = $0.2 - lastTime + 1 30 result[last.0] += time 31 lastTime = $0.2 + 1 32 } 33 } 34 return result 35 } 36 }
256ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 guard n != 0 && logs.count > 0 else {return []} 4 var times = [Int](repeating: 0, count: n) 5 6 var st = [(op: Int, runtime: Int)]() 7 for log in logs { 8 let comp = log.components(separatedBy: ":") 9 guard comp.count == 3 else {continue} 10 guard let op = Int(comp[0]), let currTime = Int(comp[2]) else {continue} 11 12 13 if comp[1] == "start" { 14 if st.count > 0 { 15 let currTop = st.last! 16 times[currTop.op] += currTime - st[st.count - 1].runtime 17 } 18 st.append((op, currTime)) 19 } else { 20 if st.count == 0 || st.last!.op != op {return []} 21 let currTop = st.removeLast() 22 times[currTop.op] += currTime - currTop.runtime + 1 23 if st.count > 0 { 24 st[st.count - 1].runtime = currTime + 1 25 } 26 } 27 } 28 return times 29 } 30 }
276ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var stack = [(Int, Int)]() 4 var ans = [Int](repeating: 0, count: n) 5 for i in 0..<logs.count { 6 let components = logs[i].components(separatedBy: ":") 7 let timestamp = Int(components[2])! 8 let functionID = Int(components[0])! 9 let functionState = components[1] 10 11 if functionState == "start" { 12 if let last = stack.last { // Count the last run 13 ans[last.0] += (timestamp - last.1) // timestamp is not inclusive 14 } 15 stack.append((functionID, timestamp)) 16 } else { 17 let last = stack.removeLast() 18 ans[functionID] += (timestamp - last.1 + 1) // timestamp is inclusive 19 if let last = stack.last { // Update the last timestamp 20 stack.removeLast() 21 stack.append((last.0, timestamp + 1)) 22 } 23 } 24 } 25 return ans 26 } 27 }
284ms
1 class Solution { 2 func parseString(_ log: String) -> (Int, Int, Bool) { 3 let start = ":start:" 4 let end = ":end:" 5 var separator = "" 6 if log.contains(start) { 7 let nums = log.components(separatedBy: start).compactMap { Int($0) } 8 return (nums[0], nums[1], true) 9 } else { 10 let nums = log.components(separatedBy: end).compactMap { Int($0) } 11 return (nums[0], nums[1], false) 12 } 13 } 14 15 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 16 var stack = [Int]() 17 var exclusiveTime = Array(repeating: 0, count: n) 18 var lastTimestamp = 0 19 for log in logs { 20 let (id, time, isStart) = parseString(log) 21 if let lastId = stack.last { 22 exclusiveTime[lastId] += time - lastTimestamp 23 if !isStart { 24 exclusiveTime[lastId] += 1 25 } 26 } 27 lastTimestamp = time 28 if isStart { 29 stack.append(id) 30 } else { 31 stack.removeLast() 32 lastTimestamp += 1 33 } 34 } 35 return exclusiveTime 36 } 37 }
296ms
1 class Solution { 2 func exclusiveTime(_ n: Int, _ logs: [String]) -> [Int] { 3 var res = Array(repeating: 0, count: n) 4 var currRunning: Int? 5 var currStart: Int=0 6 var callStack = [Int]() 7 for log in logs { 8 let component = log.components(separatedBy: ":") 9 let funcID = Int(component[0])! 10 let funcTime = Int(component[2])! 11 let isStart = (component[1] == "start") 12 if isStart { 13 14 if currRunning != nil { 15 res[currRunning!]+=funcTime-currStart 16 } 17 currRunning = funcID 18 currStart = funcTime 19 callStack.append(funcID) 20 //} else { 21 //recursive, dont need to update 22 //} 23 24 25 } else { //end 26 guard funcID == callStack.last! else { return [] } 27 if let currRunning = currRunning { 28 res[currRunning]+=funcTime-currStart+1 29 } 30 callStack = Array(callStack.dropLast()) 31 currRunning = callStack.last 32 currStart = funcTime+1 33 } 34 } 35 return res 36 } 37 }