[LeetCode] 636. Exclusive Time of Functions
On a single-threaded CPU, we execute a program containing n
functions. Each function has a unique ID between 0
and n-1
.
Function calls are stored in a call stack: when a function call starts, its ID is pushed onto the stack, and when a function call ends, its ID is popped off the stack. The function whose ID is at the top of the stack is the current function being executed. Each time a function starts or ends, we write a log with the ID, whether it started or ended, and the timestamp.
You are given a list logs
, where logs[i]
represents the ith
log message formatted as a string "{function_id}:{"start" | "end"}:{timestamp}"
. For example, "0:start:3"
means a function call with function ID 0
started at the beginning of timestamp 3
, and "1:end:2"
means a function call with function ID 1
ended at the end of timestamp 2
. Note that a function can be called multiple times, possibly recursively.
A function's exclusive time is the sum of execution times for all function calls in the program. For example, if a function is called twice, one call executing for 2
time units and another call executing for 1
time unit, the exclusive time is 2 + 1 = 3
.
Return the exclusive time of each function in an array, where the value at the ith
index represents the exclusive time for the function with ID i
.
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 the beginning of time 0, then it executes 2 for units of time and reaches the end of time 1. Function 1 starts at the beginning of time 2, executes for 4 units of time, and ends at the end of time 5. Function 0 resumes execution at the beginning of time 6 and executes for 1 unit of time. So function 0 spends 2 + 1 = 3 units of total time executing, and function 1 spends 4 units of total time executing.
Example 2:
Input: n = 1, logs = ["0:start:0","0:start:2","0:end:5","0:start:6","0:end:6","0:end:7"] Output: [8] Explanation: Function 0 starts at the beginning of time 0, executes for 2 units of time, and recursively calls itself. Function 0 (recursive call) starts at the beginning of time 2 and executes for 4 units of time. Function 0 (initial call) resumes execution then immediately calls itself again. Function 0 (2nd recursive call) starts at the beginning of time 6 and executes for 1 unit of time. Function 0 (initial call) resumes execution at the beginning of time 7 and executes for 1 unit of time. So function 0 spends 2 + 4 + 1 + 1 = 8 units of total time executing.
Example 3:
Input: n = 2, logs = ["0:start:0","0:start:2","0:end:5","1:start:6","1:end:6","0:end:7"] Output: [7,1] Explanation: Function 0 starts at the beginning of time 0, executes for 2 units of time, and recursively calls itself. Function 0 (recursive call) starts at the beginning of time 2 and executes for 4 units of time. Function 0 (initial call) resumes execution then immediately calls function 1. Function 1 starts at the beginning of time 6, executes 1 unit of time, and ends at the end of time 6. Function 0 resumes execution at the beginning of time 6 and executes for 2 units of time. So function 0 spends 2 + 4 + 1 = 7 units of total time executing, and function 1 spends 1 unit of total time executing.
Constraints:
1 <= n <= 100
1 <= logs.length <= 500
0 <= function_id < n
0 <= timestamp <= 109
- No two start events will happen at the same timestamp.
- No two end events will happen at the same timestamp.
- Each function has an
"end"
log for each"start"
log.
函数的独占时间。
有一个 单线程 CPU 正在运行一个含有 n 道函数的程序。每道函数都有一个位于 0 和 n-1 之间的唯一标识符。
函数调用 存储在一个 调用栈 上 :当一个函数调用开始时,它的标识符将会推入栈中。而当一个函数调用结束时,它的标识符将会从栈中弹出。标识符位于栈顶的函数是 当前正在执行的函数 。每当一个函数开始或者结束时,将会记录一条日志,包括函数标识符、是开始还是结束、以及相应的时间戳。
给你一个由日志组成的列表 logs ,其中 logs[i] 表示第 i 条日志消息,该消息是一个按 "{function_id}:{"start" | "end"}:{timestamp}" 进行格式化的字符串。例如,"0:start:3" 意味着标识符为 0 的函数调用在时间戳 3 的 起始开始执行 ;而 "1:end:2" 意味着标识符为 1 的函数调用在时间戳 2 的 末尾结束执行。注意,函数可以 调用多次,可能存在递归调用 。
函数的 独占时间 定义是在这个函数在程序所有函数调用中执行时间的总和,调用其他函数花费的时间不算该函数的独占时间。例如,如果一个函数被调用两次,一次调用执行 2 单位时间,另一次调用执行 1 单位时间,那么该函数的 独占时间 为 2 + 1 = 3 。
以数组形式返回每个函数的 独占时间 ,其中第 i 个下标对应的值表示标识符 i 的函数的独占时间。
来源:力扣(LeetCode)
链接:https://leetcode.cn/problems/exclusive-time-of-functions
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题意不难理解,思路是stack,理由是无论这里面涉及多少函数的递归调用,一定是后开始跑的函数先结束,符合stack的后进先出的原则。我们用题目给的第一个例子跑一下。这里我们还需要一个变量 last 记录上一个函数进出 stack 的时间。
- id = 每个函数的id
- time = 每个log里表示的时间戳
- operator = start/end
对于任何函数是否入栈,触发的条件是看 log 里是否出现 start 或者 end,无论出现哪一个,都是需要结算的时候。如果遇到某个 log 是 start,说明是某个函数的开始时间,此时如果栈不为空,说明栈顶那个函数需要暂停一下了,我们需要把此时栈顶函数已经花掉的时间先入栈(time - last),然后再把当前函数的id入栈。
如果遇到某个 log 是 end,就说明当前函数需要结算了,把栈顶元素弹出,此时这个函数的运行时间 = time - last + 1,并且要把 last 更新成 time + 1。
时间O(n)
空间O(n)
Java实现
1 class Solution { 2 public int[] exclusiveTime(int n, List<String> logs) { 3 int[] res = new int[n]; 4 Deque<Integer> stack = new ArrayDeque<>(); 5 int last = 0; 6 for (String log : logs) { 7 String[] strs = log.split("\\:"); 8 int id = Integer.parseInt(strs[0]); 9 int time = Integer.parseInt(strs[2]); 10 String operator = strs[1]; 11 if (operator.equals("start")) { 12 if (!stack.isEmpty()) { 13 res[stack.peek()] += time - last; 14 } 15 stack.push(id); 16 last = time; 17 } else { 18 res[stack.pop()] += time - last + 1; 19 last = time + 1; 20 } 21 } 22 return res; 23 } 24 }