hello-algo/docs/chapter_computational_compl.../time_complexity.md

# 时间复杂度

## 统计算法运行时间

运行时间可以直观且准确地反映算法的效率。然而，如果我们想要准确预估一段代码的运行时间，应该如何操作呢？

1. **确定运行平台**，包括硬件配置、编程语言、系统环境等，这些因素都会影响代码的运行效率。
2. **评估各种计算操作所需的运行时间**，例如加法操作 `+` 需要 1 ns，乘法操作 `*` 需要 10 ns，打印操作需要 5 ns 等。
3. **统计代码中所有的计算操作**，并将所有操作的执行时间求和，从而得到运行时间。

例如以下代码，输入数据大小为 $n$ ，根据以上方法，可以得到算法运行时间为 $6n + 12$ ns 。

$$
1 + 1 + 10 + (1 + 5) \times n = 6n + 12
$$

=== "Java"

    ```java title=""
    // 在某运行平台下
    void algorithm(int n) {
        int a = 2;  // 1 ns
        a = a + 1;  // 1 ns
        a = a * 2;  // 10 ns
        // 循环 n 次
        for (int i = 0; i < n; i++) {  // 1 ns ，每轮都要执行 i++
            System.out.println(0);     // 5 ns
        }
    }
    ```

=== "C++"

    ```cpp title=""
    // 在某运行平台下
    void algorithm(int n) {
        int a = 2;  // 1 ns
        a = a + 1;  // 1 ns
        a = a * 2;  // 10 ns
        // 循环 n 次
        for (int i = 0; i < n; i++) {  // 1 ns ，每轮都要执行 i++
            cout << 0 << endl;         // 5 ns
        }
    }
    ```

=== "Python"

    ```python title=""
    # 在某运行平台下
    def algorithm(n: int) -> None:
        a = 2      # 1 ns
        a = a + 1  # 1 ns
        a = a * 2  # 10 ns
        # 循环 n 次
        for _ in range(n):  # 1 ns
            print(0)        # 5 ns
    ```

=== "Go"

    ```go title=""
    // 在某运行平台下
    func algorithm(n int) {
        a := 2     // 1 ns
        a = a + 1  // 1 ns
        a = a * 2  // 10 ns
        // 循环 n 次
        for i := 0; i < n; i++ {  // 1 ns
            fmt.Println(a)        // 5 ns
        }
    }
    ```

=== "JavaScript"

    ```javascript title=""
    // 在某运行平台下
    function algorithm(n) {
        var a = 2; // 1 ns
        a = a + 1; // 1 ns
        a = a * 2; // 10 ns
        // 循环 n 次
        for(let i = 0; i < n; i++) { // 1 ns ，每轮都要执行 i++
            console.log(0); // 5 ns
        }
    }
    ```

=== "TypeScript"

    ```typescript title=""
    // 在某运行平台下
    function algorithm(n: number): void {
        var a: number = 2; // 1 ns
        a = a + 1; // 1 ns
        a = a * 2; // 10 ns
        // 循环 n 次
        for(let i = 0; i < n; i++) { // 1 ns ，每轮都要执行 i++
            console.log(0); // 5 ns
        }
    }
    ```

=== "C"

    ```c title=""
    // 在某运行平台下
    void algorithm(int n) {
        int a = 2;  // 1 ns
        a = a + 1;  // 1 ns
        a = a * 2;  // 10 ns
        // 循环 n 次
        for (int i = 0; i < n; i++) {   // 1 ns ，每轮都要执行 i++
            printf("%d", 0);            // 5 ns
        }
    }
    ```

=== "C#"

    ```csharp title=""
    // 在某运行平台下
    void algorithm(int n) {
        int a = 2;  // 1 ns
        a = a + 1;  // 1 ns
        a = a * 2;  // 10 ns
        // 循环 n 次
        for (int i = 0; i < n; i++) {  // 1 ns ，每轮都要执行 i++
            Console.WriteLine(0);      // 5 ns
        }
    }
    ```

=== "Swift"

    ```swift title=""
    // 在某运行平台下
    func algorithm(n: Int) {
        var a = 2 // 1 ns
        a = a + 1 // 1 ns
        a = a * 2 // 10 ns
        // 循环 n 次
        for _ in 0 ..< n { // 1 ns
            print(0) // 5 ns
        }
    }
    ```

=== "Zig"

    ```zig title=""

    ```

=== "Dart"

    ```dart title=""
    // 在某运行平台下
    void algorithm(int n) {
      int a = 2; // 1 ns
      a = a + 1; // 1 ns
      a = a * 2; // 10 ns
      // 循环 n 次
      for (int i = 0; i < n; i++) { // 1 ns ，每轮都要执行 i++
        print(0); // 5 ns
      }
    }
    ```

然而实际上，**统计算法的运行时间既不合理也不现实**。首先，我们不希望预估时间和运行平台绑定，因为算法需要在各种不同的平台上运行。其次，我们很难获知每种操作的运行时间，这给预估过程带来了极大的难度。

## 统计时间增长趋势

「时间复杂度分析」采取了一种不同的方法，其统计的不是算法运行时间，**而是算法运行时间随着数据量变大时的增长趋势**。

“时间增长趋势”这个概念较为抽象，我们通过一个例子来加以理解。假设输入数据大小为 $n$ ，给定三个算法 `A` , `B` , `C` 。

- 算法 `A` 只有 $1$ 个打印操作，算法运行时间不随着 $n$ 增大而增长。我们称此算法的时间复杂度为「常数阶」。
- 算法 `B` 中的打印操作需要循环 $n$ 次，算法运行时间随着 $n$ 增大呈线性增长。此算法的时间复杂度被称为「线性阶」。
- 算法 `C` 中的打印操作需要循环 $1000000$ 次，但运行时间仍与输入数据大小 $n$ 无关。因此 `C` 的时间复杂度和 `A` 相同，仍为「常数阶」。

=== "Java"

    ```java title=""
    // 算法 A 时间复杂度：常数阶
    void algorithm_A(int n) {
        System.out.println(0);
    }
    // 算法 B 时间复杂度：线性阶
    void algorithm_B(int n) {
        for (int i = 0; i < n; i++) {
            System.out.println(0);
        }
    }
    // 算法 C 时间复杂度：常数阶
    void algorithm_C(int n) {
        for (int i = 0; i < 1000000; i++) {
            System.out.println(0);
        }
    }
    ```

=== "C++"

    ```cpp title=""
    // 算法 A 时间复杂度：常数阶
    void algorithm_A(int n) {
        cout << 0 << endl;
    }
    // 算法 B 时间复杂度：线性阶
    void algorithm_B(int n) {
        for (int i = 0; i < n; i++) {
            cout << 0 << endl;
        }
    }
    // 算法 C 时间复杂度：常数阶
    void algorithm_C(int n) {
        for (int i = 0; i < 1000000; i++) {
            cout << 0 << endl;
        }
    }
    ```

=== "Python"

    ```python title=""
    # 算法 A 时间复杂度：常数阶
    def algorithm_A(n: int) -> None:
        print(0)
    # 算法 B 时间复杂度：线性阶
    def algorithm_B(n: int) -> None:
        for _ in range(n):
            print(0)
    # 算法 C 时间复杂度：常数阶
    def algorithm_C(n: int) -> None:
        for _ in range(1000000):
            print(0)
    ```

=== "Go"

    ```go title=""
    // 算法 A 时间复杂度：常数阶
    func algorithm_A(n int) {
        fmt.Println(0)
    }
    // 算法 B 时间复杂度：线性阶
    func algorithm_B(n int) {
        for i := 0; i < n; i++ {
            fmt.Println(0)
        }
    }
    // 算法 C 时间复杂度：常数阶
    func algorithm_C(n int) {
        for i := 0; i < 1000000; i++ {
            fmt.Println(0)
        }
    }
    ```

=== "JavaScript"

    ```javascript title=""
    // 算法 A 时间复杂度：常数阶
    function algorithm_A(n) {
        console.log(0);
    }
    // 算法 B 时间复杂度：线性阶
    function algorithm_B(n) {
        for (let i = 0; i < n; i++) {
            console.log(0);
        }
    }
    // 算法 C 时间复杂度：常数阶
    function algorithm_C(n) {
        for (let i = 0; i < 1000000; i++) {
            console.log(0);
        }
    }

    ```

=== "TypeScript"

    ```typescript title=""
    // 算法 A 时间复杂度：常数阶
    function algorithm_A(n: number): void {
        console.log(0);
    }
    // 算法 B 时间复杂度：线性阶
    function algorithm_B(n: number): void {
        for (let i = 0; i < n; i++) {
            console.log(0);
        }
    }
    // 算法 C 时间复杂度：常数阶
    function algorithm_C(n: number): void {
        for (let i = 0; i < 1000000; i++) {
            console.log(0);
        }
    }
    ```

=== "C"

    ```c title=""
    // 算法 A 时间复杂度：常数阶
    void algorithm_A(int n) {
        printf("%d", 0);
    }
    // 算法 B 时间复杂度：线性阶
    void algorithm_B(int n) {
        for (int i = 0; i < n; i++) {
            printf("%d", 0);
        }
    }
    // 算法 C 时间复杂度：常数阶
    void algorithm_C(int n) {
        for (int i = 0; i < 1000000; i++) {
            printf("%d", 0);
        }
    }
    ```

=== "C#"

    ```csharp title=""
    // 算法 A 时间复杂度：常数阶
    void algorithm_A(int n) {
        Console.WriteLine(0);
    }
    // 算法 B 时间复杂度：线性阶
    void algorithm_B(int n) {
        for (int i = 0; i < n; i++) {
            Console.WriteLine(0);
        }
    }
    // 算法 C 时间复杂度：常数阶
    void algorithm_C(int n) {
        for (int i = 0; i < 1000000; i++) {
            Console.WriteLine(0);
        }
    }
    ```

=== "Swift"

    ```swift title=""
    // 算法 A 时间复杂度：常数阶
    func algorithmA(n: Int) {
        print(0)
    }

    // 算法 B 时间复杂度：线性阶
    func algorithmB(n: Int) {
        for _ in 0 ..< n {
            print(0)
        }
    }

    // 算法 C 时间复杂度：常数阶
    func algorithmC(n: Int) {
        for _ in 0 ..< 1000000 {
            print(0)
        }
    }
    ```

=== "Zig"

    ```zig title=""

    ```

=== "Dart"

    ```dart title=""
    // 算法 A 时间复杂度：常数阶
    void algorithmA(int n) {
      print(0);
    }
    // 算法 B 时间复杂度：线性阶
    void algorithmB(int n) {
      for (int i = 0; i < n; i++) {
        print(0);
      }
    }
    // 算法 C 时间复杂度：常数阶
    void algorithmC(int n) {
      for (int i = 0; i < 1000000; i++) {
        print(0);
      }
    }
    ```

![算法 A, B, C 的时间增长趋势](time_complexity.assets/time_complexity_simple_example.png)

相较于直接统计算法运行时间，时间复杂度分析有哪些优势和局限性呢？

**时间复杂度能够有效评估算法效率**。例如，算法 `B` 的运行时间呈线性增长，在 $n > 1$ 时比算法 `A` 慢，在 $n > 1000000$ 时比算法 `C` 慢。事实上，只要输入数据大小 $n$ 足够大，复杂度为「常数阶」的算法一定优于「线性阶」的算法，这正是时间增长趋势所表达的含义。

**时间复杂度的推算方法更简便**。显然，运行平台和计算操作类型都与算法运行时间的增长趋势无关。因此在时间复杂度分析中，我们可以简单地将所有计算操作的执行时间视为相同的“单位时间”，从而将“计算操作的运行时间的统计”简化为“计算操作的数量的统计”，这样的简化方法大大降低了估算难度。

**时间复杂度也存在一定的局限性**。例如，尽管算法 `A` 和 `C` 的时间复杂度相同，但实际运行时间差别很大。同样，尽管算法 `B` 的时间复杂度比 `C` 高，但在输入数据大小 $n$ 较小时，算法 `B` 明显优于算法 `C` 。在这些情况下，我们很难仅凭时间复杂度判断算法效率高低。当然，尽管存在上述问题，复杂度分析仍然是评判算法效率最有效且常用的方法。

## 函数渐近上界

设算法的计算操作数量是一个关于输入数据大小 $n$ 的函数，记为 $T(n)$ ，则以下算法的操作数量为

$$
T(n) = 3 + 2n
$$

=== "Java"

    ```java title=""
    void algorithm(int n) {
        int a = 1;  // +1
        a = a + 1;  // +1
        a = a * 2;  // +1
        // 循环 n 次
        for (int i = 0; i < n; i++) { // +1（每轮都执行 i ++）
            System.out.println(0);    // +1
        }
    }
    ```

=== "C++"

    ```cpp title=""
    void algorithm(int n) {
        int a = 1;  // +1
        a = a + 1;  // +1
        a = a * 2;  // +1
        // 循环 n 次
        for (int i = 0; i < n; i++) { // +1（每轮都执行 i ++）
            cout << 0 << endl;    // +1
        }
    }
    ```

=== "Python"

    ```python title=""
    def algorithm(n: int) -> None:
        a = 1      # +1
        a = a + 1  # +1
        a = a * 2  # +1
        # 循环 n 次
        for i in range(n):  # +1
            print(0)        # +1
    ```

=== "Go"

    ```go title=""
    func algorithm(n int) {
        a := 1      // +1
        a = a + 1   // +1
        a = a * 2   // +1
        // 循环 n 次
        for i := 0; i < n; i++ {   // +1
            fmt.Println(a)         // +1
        }
    }
    ```

=== "JavaScript"

    ```javascript title=""
    function algorithm(n) {
        var a = 1; // +1
        a += 1; // +1
        a *= 2; // +1
        // 循环 n 次
        for(let i = 0; i < n; i++){ // +1（每轮都执行 i ++）
            console.log(0); // +1
        }
    }
    ```

=== "TypeScript"

    ```typescript title=""
    function algorithm(n: number): void{
        var a: number = 1; // +1
        a += 1; // +1
        a *= 2; // +1
        // 循环 n 次
        for(let i = 0; i < n; i++){ // +1（每轮都执行 i ++）
            console.log(0); // +1
        }
    }
    ```

=== "C"

    ```c title=""
    void algorithm(int n) {
        int a = 1;  // +1
        a = a + 1;  // +1
        a = a * 2;  // +1
        // 循环 n 次
        for (int i = 0; i < n; i++) {   // +1（每轮都执行 i ++）
            printf("%d", 0);            // +1
        }
    }  
    ```

=== "C#"

    ```csharp title=""
    void algorithm(int n) {
        int a = 1;  // +1
        a = a + 1;  // +1
        a = a * 2;  // +1
        // 循环 n 次
        for (int i = 0; i < n; i++) {   // +1（每轮都执行 i ++）
            Console.WriteLine(0);   // +1
        }
    }
    ```

=== "Swift"

    ```swift title=""
    func algorithm(n: Int) {
        var a = 1 // +1
        a = a + 1 // +1
        a = a * 2 // +1
        // 循环 n 次
        for _ in 0 ..< n { // +1
            print(0) // +1
        }
    }
    ```

=== "Zig"

    ```zig title=""

    ```

=== "Dart"

    ```dart title=""
    void algorithm(int n) {
      int a = 1; // +1
      a = a + 1; // +1
      a = a * 2; // +1
      // 循环 n 次
      for (int i = 0; i < n; i++) { // +1（每轮都执行 i ++）
        print(0); // +1
      }
    }
    ```

$T(n)$ 是一次函数，说明时间增长趋势是线性的，因此可以得出时间复杂度是线性阶。

我们将线性阶的时间复杂度记为 $O(n)$ ，这个数学符号称为「大 $O$ 记号 Big-$O$ Notation」，表示函数 $T(n)$ 的「渐近上界 Asymptotic Upper Bound」。

推算时间复杂度本质上是计算“操作数量函数 $T(n)$”的渐近上界。接下来，我们来看函数渐近上界的数学定义。

!!! abstract "函数渐近上界"

    若存在正实数 $c$ 和实数 $n_0$ ，使得对于所有的 $n > n_0$ ，均有
    $$
    T(n) \leq c \cdot f(n)
    $$
    则可认为 $f(n)$ 给出了 $T(n)$ 的一个渐近上界，记为
    $$
    T(n) = O(f(n))
    $$

![函数的渐近上界](time_complexity.assets/asymptotic_upper_bound.png)

从本质上讲，计算渐近上界就是寻找一个函数 $f(n)$ ，使得当 $n$ 趋向于无穷大时，$T(n)$ 和 $f(n)$ 处于相同的增长级别，仅相差一个常数项 $c$ 的倍数。

## 推算方法

渐近上界的数学味儿有点重，如果你感觉没有完全理解，也无需担心。因为在实际使用中，我们只需要掌握推算方法，数学意义可以逐渐领悟。

根据定义，确定 $f(n)$ 之后，我们便可得到时间复杂度 $O(f(n))$ 。那么如何确定渐近上界 $f(n)$ 呢？总体分为两步：首先统计操作数量，然后判断渐近上界。

### 第一步：统计操作数量

针对代码，逐行从上到下计算即可。然而，由于上述 $c \cdot f(n)$ 中的常数项 $c$ 可以取任意大小，**因此操作数量 $T(n)$ 中的各种系数、常数项都可以被忽略**。根据此原则，可以总结出以下计数简化技巧：

1. **忽略与 $n$ 无关的操作**。因为它们都是 $T(n)$ 中的常数项，对时间复杂度不产生影响。
2. **省略所有系数**。例如，循环 $2n$ 次、$5n + 1$ 次等，都可以简化记为 $n$ 次，因为 $n$ 前面的系数对时间复杂度没有影响。
3. **循环嵌套时使用乘法**。总操作数量等于外层循环和内层循环操作数量之积，每一层循环依然可以分别套用上述 `1.` 和 `2.` 技巧。

以下示例展示了使用上述技巧前、后的统计结果。

$$
\begin{aligned}
T(n) & = 2n(n + 1) + (5n + 1) + 2 & \text{完整统计 (-.-|||)} \newline
& = 2n^2 + 7n + 3 \newline
T(n) & = n^2 + n & \text{偷懒统计 (o.O)}
\end{aligned}
$$

最终，两者都能推出相同的时间复杂度结果，即 $O(n^2)$ 。

=== "Java"

    ```java title=""
    void algorithm(int n) {
        int a = 1;  // +0（技巧 1）
        a = a + n;  // +0（技巧 1）
        // +n（技巧 2）
        for (int i = 0; i < 5 * n + 1; i++) {
            System.out.println(0);
        }
        // +n*n（技巧 3）
        for (int i = 0; i < 2 * n; i++) {
            for (int j = 0; j < n + 1; j++) {
                System.out.println(0);
            }
        }
    }
    ```

=== "C++"

    ```cpp title=""
    void algorithm(int n) {
        int a = 1;  // +0（技巧 1）
        a = a + n;  // +0（技巧 1）
        // +n（技巧 2）
        for (int i = 0; i < 5 * n + 1; i++) {
            cout << 0 << endl;
        }
        // +n*n（技巧 3）
        for (int i = 0; i < 2 * n; i++) {
            for (int j = 0; j < n + 1; j++) {
                cout << 0 << endl;
            }
        }
    }
    ```

=== "Python"

    ```python title=""
    def algorithm(n: int) -> None:
        a = 1      # +0（技巧 1）
        a = a + n  # +0（技巧 1）
        # +n（技巧 2）
        for i in range(5 * n + 1):
            print(0)
        # +n*n（技巧 3）
        for i in range(2 * n):
            for j in range(n + 1):
                print(0)
    ```

=== "Go"

    ```go title=""
    func algorithm(n int) {
        a := 1     // +0（技巧 1）
        a = a + n  // +0（技巧 1）
        // +n（技巧 2）
        for i := 0; i < 5 * n + 1; i++ {
            fmt.Println(0)
        }
        // +n*n（技巧 3）
        for i := 0; i < 2 * n; i++ {
            for j := 0; j < n + 1; j++ {
                fmt.Println(0)
            }
        }
    }
    ```

=== "JavaScript"

    ```javascript title=""
    function algorithm(n) {
        let a = 1;  // +0（技巧 1）
        a = a + n;  // +0（技巧 1）
        // +n（技巧 2）
        for (let i = 0; i < 5 * n + 1; i++) {
            console.log(0);
        }
        // +n*n（技巧 3）
        for (let i = 0; i < 2 * n; i++) {
            for (let j = 0; j < n + 1; j++) {
                console.log(0);
            }
        }
    }
    ```

=== "TypeScript"

    ```typescript title=""
    function algorithm(n: number): void {
        let a = 1;  // +0（技巧 1）
        a = a + n;  // +0（技巧 1）
        // +n（技巧 2）
        for (let i = 0; i < 5 * n + 1; i++) {
            console.log(0);
        }
        // +n*n（技巧 3）
        for (let i = 0; i < 2 * n; i++) {
            for (let j = 0; j < n + 1; j++) {
                console.log(0);
            }
        }
    }
    ```

=== "C"

    ```c title=""
    void algorithm(int n) {
        int a = 1;  // +0（技巧 1）
        a = a + n;  // +0（技巧 1）
        // +n（技巧 2）
        for (int i = 0; i < 5 * n + 1; i++) {
            printf("%d", 0);
        }
        // +n*n（技巧 3）
        for (int i = 0; i < 2 * n; i++) {
            for (int j = 0; j < n + 1; j++) {
                printf("%d", 0);
            }
        }
    }
    ```

=== "C#"

    ```csharp title=""
    void algorithm(int n) {
        int a = 1;  // +0（技巧 1）
        a = a + n;  // +0（技巧 1）
        // +n（技巧 2）
        for (int i = 0; i < 5 * n + 1; i++) {
            Console.WriteLine(0);
        }
        // +n*n（技巧 3）
        for (int i = 0; i < 2 * n; i++) {
            for (int j = 0; j < n + 1; j++) {
                Console.WriteLine(0);
            }
        }
    }
    ```

=== "Swift"

    ```swift title=""
    func algorithm(n: Int) {
        var a = 1 // +0（技巧 1）
        a = a + n // +0（技巧 1）
        // +n（技巧 2）
        for _ in 0 ..< (5 * n + 1) {
            print(0)
        }
        // +n*n（技巧 3）
        for _ in 0 ..< (2 * n) {
            for _ in 0 ..< (n + 1) {
                print(0)
            }
        }
    }
    ```

=== "Zig"

    ```zig title=""

    ```

=== "Dart"

    ```dart title=""
    void algorithm(int n) {
      int a = 1; // +0（技巧 1）
      a = a + n; // +0（技巧 1）
      // +n（技巧 2）
      for (int i = 0; i < 5 * n + 1; i++) {
        print(0);
      }
      // +n*n（技巧 3）
      for (int i = 0; i < 2 * n; i++) {
        for (int j = 0; j < n + 1; j++) {
          print(0);
        }
      }
    }
    ```

### 第二步：判断渐近上界

**时间复杂度由多项式 $T(n)$ 中最高阶的项来决定**。这是因为在 $n$ 趋于无穷大时，最高阶的项将发挥主导作用，其他项的影响都可以被忽略。

以下表格展示了一些例子，其中一些夸张的值是为了强调“系数无法撼动阶数”这一结论。当 $n$ 趋于无穷大时，这些常数变得无足轻重。

<div class="center-table" markdown>

| 操作数量 $T(n)$         | 时间复杂度 $O(f(n))$   |
| ---------------------- | -------------------- |
| $100000$               | $O(1)$               |
| $3n + 2$               | $O(n)$               |
| $2n^2 + 3n + 2$        | $O(n^2)$             |
| $n^3 + 10000n^2$       | $O(n^3)$             |
| $2^n + 10000n^{10000}$ | $O(2^n)$             |

</div>

## 常见类型

设输入数据大小为 $n$ ，常见的时间复杂度类型包括（按照从低到高的顺序排列）：

$$
\begin{aligned}
O(1) < O(\log n) < O(n) < O(n \log n) < O(n^2) < O(2^n) < O(n!) \newline
\text{常数阶} < \text{对数阶} < \text{线性阶} < \text{线性对数阶} < \text{平方阶} < \text{指数阶} < \text{阶乘阶}
\end{aligned}
$$

![时间复杂度的常见类型](time_complexity.assets/time_complexity_common_types.png)

!!! tip

    部分示例代码需要一些预备知识，包括数组、递归算法等。如果遇到不理解的部分，请不要担心，可以在学习完后面章节后再回顾。现阶段，请先专注于理解时间复杂度的含义和推算方法。

### 常数阶 $O(1)$

常数阶的操作数量与输入数据大小 $n$ 无关，即不随着 $n$ 的变化而变化。

对于以下算法，尽管操作数量 `size` 可能很大，但由于其与数据大小 $n$ 无关，因此时间复杂度仍为 $O(1)$ 。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{constant}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{constant}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{constant}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{constant}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{constant}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{constant}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{constant}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{constant}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{constant}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{constant}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{constant}
    ```

### 线性阶 $O(n)$

线性阶的操作数量相对于输入数据大小以线性级别增长。线性阶通常出现在单层循环中。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{linear}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{linear}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{linear}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{linear}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{linear}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{linear}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{linear}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{linear}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{linear}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{linear}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{linear}
    ```

遍历数组和遍历链表等操作的时间复杂度均为 $O(n)$ ，其中 $n$ 为数组或链表的长度。

!!! question "如何确定输入数据大小 $n$ ？"

    **数据大小 $n$ 需根据输入数据的类型来具体确定**。例如，在上述示例中，我们直接将 $n$ 视为输入数据大小；在下面遍历数组的示例中，数据大小 $n$ 为数组的长度。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{arrayTraversal}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{arrayTraversal}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{array_traversal}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{arrayTraversal}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{arrayTraversal}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{arrayTraversal}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{arrayTraversal}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{arrayTraversal}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{arrayTraversal}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{arrayTraversal}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{arrayTraversal}
    ```

### 平方阶 $O(n^2)$

平方阶的操作数量相对于输入数据大小以平方级别增长。平方阶通常出现在嵌套循环中，外层循环和内层循环都为 $O(n)$ ，因此总体为 $O(n^2)$ 。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{quadratic}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{quadratic}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{quadratic}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{quadratic}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{quadratic}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{quadratic}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{quadratic}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{quadratic}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{quadratic}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{quadratic}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{quadratic}
    ```

![常数阶、线性阶、平方阶的时间复杂度](time_complexity.assets/time_complexity_constant_linear_quadratic.png)

以「冒泡排序」为例，外层循环执行 $n - 1$ 次，内层循环执行 $n-1, n-2, \cdots, 2, 1$ 次，平均为 $\frac{n}{2}$ 次，因此时间复杂度为 $O(n^2)$ 。

$$
O((n - 1) \frac{n}{2}) = O(n^2)
$$

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{bubbleSort}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{bubbleSort}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{bubble_sort}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{bubbleSort}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{bubbleSort}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{bubbleSort}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{bubbleSort}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{bubbleSort}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{bubbleSort}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{bubbleSort}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{bubbleSort}
    ```

### 指数阶 $O(2^n)$

!!! note

    生物学的“细胞分裂”是指数阶增长的典型例子：初始状态为 $1$ 个细胞，分裂一轮后变为 $2$ 个，分裂两轮后变为 $4$ 个，以此类推，分裂 $n$ 轮后有 $2^n$ 个细胞。

指数阶增长非常迅速，在实际应用中通常是不可接受的。若一个问题使用「暴力枚举」求解的时间复杂度为 $O(2^n)$ ，那么通常需要使用「动态规划」或「贪心算法」等方法来解决。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{exponential}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{exponential}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{exponential}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{exponential}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{exponential}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{exponential}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{exponential}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{exponential}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{exponential}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{exponential}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{exponential}
    ```

![指数阶的时间复杂度](time_complexity.assets/time_complexity_exponential.png)

在实际算法中，指数阶常出现于递归函数。例如以下代码，不断地一分为二，经过 $n$ 次分裂后停止。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{expRecur}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{expRecur}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{exp_recur}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{expRecur}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{expRecur}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{expRecur}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{expRecur}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{expRecur}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{expRecur}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{expRecur}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{expRecur}
    ```

### 对数阶 $O(\log n)$

与指数阶相反，对数阶反映了“每轮缩减到一半的情况”。对数阶仅次于常数阶，时间增长缓慢，是理想的时间复杂度。

对数阶常出现于「二分查找」和「分治算法」中，体现了“一分为多”和“化繁为简”的算法思想。

设输入数据大小为 $n$ ，由于每轮缩减到一半，因此循环次数是 $\log_2 n$ ，即 $2^n$ 的反函数。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{logarithmic}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{logarithmic}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{logarithmic}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{logarithmic}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{logarithmic}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{logarithmic}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{logarithmic}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{logarithmic}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{logarithmic}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{logarithmic}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{logarithmic}
    ```

![对数阶的时间复杂度](time_complexity.assets/time_complexity_logarithmic.png)

与指数阶类似，对数阶也常出现于递归函数。以下代码形成了一个高度为 $\log_2 n$ 的递归树。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{logRecur}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{logRecur}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{log_recur}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{logRecur}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{logRecur}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{logRecur}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{logRecur}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{logRecur}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{logRecur}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{logRecur}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{logRecur}
    ```

### 线性对数阶 $O(n \log n)$

线性对数阶常出现于嵌套循环中，两层循环的时间复杂度分别为 $O(\log n)$ 和 $O(n)$ 。

主流排序算法的时间复杂度通常为 $O(n \log n)$ ，例如快速排序、归并排序、堆排序等。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{linearLogRecur}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{linearLogRecur}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{linear_log_recur}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{linearLogRecur}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{linearLogRecur}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{linearLogRecur}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{linearLogRecur}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{linearLogRecur}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{linearLogRecur}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{linearLogRecur}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{linearLogRecur}
    ```

![线性对数阶的时间复杂度](time_complexity.assets/time_complexity_logarithmic_linear.png)

### 阶乘阶 $O(n!)$

阶乘阶对应数学上的「全排列」问题。给定 $n$ 个互不重复的元素，求其所有可能的排列方案，方案数量为：

$$
n! = n \times (n - 1) \times (n - 2) \times \cdots \times 2 \times 1
$$

阶乘通常使用递归实现。例如以下代码，第一层分裂出 $n$ 个，第二层分裂出 $n - 1$ 个，以此类推，直至第 $n$ 层时终止分裂。

=== "Java"

    ```java title="time_complexity.java"
    [class]{time_complexity}-[func]{factorialRecur}
    ```

=== "C++"

    ```cpp title="time_complexity.cpp"
    [class]{}-[func]{factorialRecur}
    ```

=== "Python"

    ```python title="time_complexity.py"
    [class]{}-[func]{factorial_recur}
    ```

=== "Go"

    ```go title="time_complexity.go"
    [class]{}-[func]{factorialRecur}
    ```

=== "JavaScript"

    ```javascript title="time_complexity.js"
    [class]{}-[func]{factorialRecur}
    ```

=== "TypeScript"

    ```typescript title="time_complexity.ts"
    [class]{}-[func]{factorialRecur}
    ```

=== "C"

    ```c title="time_complexity.c"
    [class]{}-[func]{factorialRecur}
    ```

=== "C#"

    ```csharp title="time_complexity.cs"
    [class]{time_complexity}-[func]{factorialRecur}
    ```

=== "Swift"

    ```swift title="time_complexity.swift"
    [class]{}-[func]{factorialRecur}
    ```

=== "Zig"

    ```zig title="time_complexity.zig"
    [class]{}-[func]{factorialRecur}
    ```

=== "Dart"

    ```dart title="time_complexity.dart"
    [class]{}-[func]{factorialRecur}
    ```

![阶乘阶的时间复杂度](time_complexity.assets/time_complexity_factorial.png)

## 最差、最佳、平均时间复杂度

**某些算法的时间复杂度不是固定的，而是与输入数据的分布有关**。例如，假设输入一个长度为 $n$ 的数组 `nums` ，其中 `nums` 由从 $1$ 至 $n$ 的数字组成，但元素顺序是随机打乱的；算法的任务是返回元素 $1$ 的索引。我们可以得出以下结论：

- 当 `nums = [?, ?, ..., 1]` ，即当末尾元素是 $1$ 时，需要完整遍历数组，此时达到 **最差时间复杂度 $O(n)$**；
- 当 `nums = [1, ?, ?, ...]` ，即当首个数字为 $1$ 时，无论数组多长都不需要继续遍历，此时达到 **最佳时间复杂度 $\Omega(1)$**；

“函数渐近上界”使用大 $O$ 记号表示，代表「最差时间复杂度」。相应地，“函数渐近下界”用 $\Omega$ 记号来表示，代表「最佳时间复杂度」。

=== "Java"

    ```java title="worst_best_time_complexity.java"
    [class]{worst_best_time_complexity}-[func]{randomNumbers}

    [class]{worst_best_time_complexity}-[func]{findOne}
    ```

=== "C++"

    ```cpp title="worst_best_time_complexity.cpp"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

=== "Python"

    ```python title="worst_best_time_complexity.py"
    [class]{}-[func]{random_numbers}

    [class]{}-[func]{find_one}
    ```

=== "Go"

    ```go title="worst_best_time_complexity.go"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

=== "JavaScript"

    ```javascript title="worst_best_time_complexity.js"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

=== "TypeScript"

    ```typescript title="worst_best_time_complexity.ts"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

=== "C"

    ```c title="worst_best_time_complexity.c"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

=== "C#"

    ```csharp title="worst_best_time_complexity.cs"
    [class]{worst_best_time_complexity}-[func]{randomNumbers}

    [class]{worst_best_time_complexity}-[func]{findOne}
    ```

=== "Swift"

    ```swift title="worst_best_time_complexity.swift"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

=== "Zig"

    ```zig title="worst_best_time_complexity.zig"
    // 生成一个数组，元素为 { 1, 2, ..., n }，顺序被打乱
    pub fn randomNumbers(comptime n: usize) [n]i32 {
        var nums: [n]i32 = undefined;
        // 生成数组 nums = { 1, 2, 3, ..., n }
        for (nums) |*num, i| {
            num.* = @intCast(i32, i) + 1;
        }
        // 随机打乱数组元素
        const rand = std.crypto.random;
        rand.shuffle(i32, &nums);
        return nums;
    }

    // 查找数组 nums 中数字 1 所在索引
    pub fn findOne(nums: []i32) i32 {
        for (nums) |num, i| {
            // 当元素 1 在数组头部时，达到最佳时间复杂度 O(1)
            // 当元素 1 在数组尾部时，达到最差时间复杂度 O(n)
            if (num == 1) return @intCast(i32, i);
        }
        return -1;
    }
    ```

=== "Dart"

    ```dart title="worst_best_time_complexity.dart"
    [class]{}-[func]{randomNumbers}

    [class]{}-[func]{findOne}
    ```

!!! tip

    实际应用中我们很少使用「最佳时间复杂度」，因为通常只有在很小概率下才能达到，可能会带来一定的误导性。相反，「最差时间复杂度」更为实用，因为它给出了一个“效率安全值”，让我们可以放心地使用算法。

从上述示例可以看出，最差或最佳时间复杂度只出现在“特殊分布的数据”中，这些情况的出现概率可能很小，因此并不能最真实地反映算法运行效率。相较之下，**「平均时间复杂度」可以体现算法在随机输入数据下的运行效率**，用 $\Theta$ 记号来表示。

对于部分算法，我们可以简单地推算出随机数据分布下的平均情况。比如上述示例，由于输入数组是被打乱的，因此元素 $1$ 出现在任意索引的概率都是相等的，那么算法的平均循环次数则是数组长度的一半 $\frac{n}{2}$ ，平均时间复杂度为 $\Theta(\frac{n}{2}) = \Theta(n)$ 。

但在实际应用中，尤其是较为复杂的算法，计算平均时间复杂度比较困难，因为很难简便地分析出在数据分布下的整体数学期望。在这种情况下，我们通常使用最差时间复杂度作为算法效率的评判标准。

!!! question "为什么很少看到 $\Theta$ 符号？"

    可能由于 $O$ 符号过于朗朗上口，我们常常使用它来表示「平均复杂度」，但从严格意义上看，这种做法并不规范。在本书和其他资料中，若遇到类似“平均时间复杂度 $O(n)$”的表述，请将其直接理解为 $\Theta(n)$ 。
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								# 时间复杂度
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								## 统计算法运行时间
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								运行时间可以直观且准确地反映算法的效率。然而，如果我们想要准确预估一段代码的运行时间，应该如何操作呢？
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+. **确定运行平台**，包括硬件配置、编程语言、系统环境等，这些因素都会影响代码的运行效率。
 . **评估各种计算操作所需的运行时间**，例如加法操作 `+` 需要 1 ns，乘法操作 `*` 需要 10 ns，打印操作需要 5 ns 等。
 . **统计代码中所有的计算操作**，并将所有操作的执行时间求和，从而得到运行时间。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								例如以下代码，输入数据大小为 $n$ ，根据以上方法，可以得到算法运行时间为 $6n + 12$ ns 。
 								$$
-												Add Go codes to docs, including
the chapter of stack and queue, the chapter of tree.

											
										
										
											2 years ago
++ 1 + 10 + (1 + 5) \times n = 6n + 12
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								$$
 								=== "Java"
 								    ```java title=""
 								    // 在某运行平台下
 								    void algorithm(int n) {
 								        int a = 2;  // 1 ns
 								        a = a + 1;  // 1 ns
 								        a = a * 2;  // 10 ns
 								        // 循环 n 次
 								        for (int i = 0; i < n; i++) {  // 1 ns ，每轮都要执行 i++
 								            System.out.println(0);     // 5 ns
 								        }
 								    }
 								    ```
 								=== "C++"
 								    ```cpp title=""
-												Add cpp codes for the chapter
computational complexity, sorting, searching.

											
										
										
											2 years ago
+								    // 在某运行平台下
 								    void algorithm(int n) {
 								        int a = 2;  // 1 ns
 								        a = a + 1;  // 1 ns
 								        a = a * 2;  // 10 ns
 								        // 循环 n 次
 								        for (int i = 0; i < n; i++) {  // 1 ns ，每轮都要执行 i++
 								            cout << 0 << endl;         // 5 ns
 								        }
 								    }
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
 								    ```python title=""
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								    # 在某运行平台下
-												Add typing annotations to Python codes. (#411)


											
										
										
											2 years ago
+								    def algorithm(n: int) -> None:
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								        a = 2      # 1 ns
 								        a = a + 1  # 1 ns
 								        a = a * 2  # 10 ns
 								        # 循环 n 次
 								        for _ in range(n):  # 1 ns
 								            print(0)        # 5 ns
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
 								    ```go title=""
-												time complexity using go

											
										
										
											2 years ago
+								    // 在某运行平台下
 								    func algorithm(n int) {
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								        a := 2     // 1 ns
 								        a = a + 1  // 1 ns
 								        a = a * 2  // 10 ns
-												time complexity using go

											
										
										
											2 years ago
+								        // 循环 n 次
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								        for i := 0; i < n; i++ {  // 1 ns
 								            fmt.Println(a)        // 5 ns
-												time complexity using go

											
										
										
											2 years ago
+								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title=""
-												Update docs/chapter_computational_complexity/time_complexity.md

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								    // 在某运行平台下
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								    function algorithm(n) {
 								        var a = 2; // 1 ns
 								        a = a + 1; // 1 ns
 								        a = a * 2; // 10 ns
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        // 循环 n 次
 								        for(let i = 0; i < n; i++) { // 1 ns ，每轮都要执行 i++
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								            console.log(0); // 5 ns
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
 								    ```typescript title=""
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								    // 在某运行平台下
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								    function algorithm(n: number): void {
 								        var a: number = 2; // 1 ns
 								        a = a + 1; // 1 ns
 								        a = a * 2; // 10 ns
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        // 循环 n 次
 								        for(let i = 0; i < n; i++) { // 1 ns ，每轮都要执行 i++
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								            console.log(0); // 5 ns
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
 								    ```c title=""
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								    // 在某运行平台下
-												(PR #204) update c code and doc for time_complexity

											
										
										
											2 years ago
+								    void algorithm(int n) {
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								        int a = 2;  // 1 ns
 								        a = a + 1;  // 1 ns
 								        a = a * 2;  // 10 ns
 								        // 循环 n 次
 								        for (int i = 0; i < n; i++) {   // 1 ns ，每轮都要执行 i++
 								            printf("%d", 0);            // 5 ns
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
 								    ```csharp title=""
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								    // 在某运行平台下
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								    void algorithm(int n) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								        int a = 2;  // 1 ns
 								        a = a + 1;  // 1 ns
 								        a = a * 2;  // 10 ns
-												Update C# code.

											
										
										
											2 years ago
+								        // 循环 n 次
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								        for (int i = 0; i < n; i++) {  // 1 ns ，每轮都要执行 i++
 								            Console.WriteLine(0);      // 5 ns
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title=""
 								    // 在某运行平台下
-												refactor: review Swift codes for chapter_computational_complexity art… (#396)

* refactor: review Swift codes for chapter_computational_complexity articles

* Update time_complexity.swift

* Update time_complexity.swift

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								    func algorithm(n: Int) {
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								        var a = 2 // 1 ns
 								        a = a + 1 // 1 ns
 								        a = a * 2 // 10 ns
 								        // 循环 n 次
 								        for _ in 0 ..< n { // 1 ns
 								            print(0) // 5 ns
 								        }
 								    }
 								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title=""
 								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title=""
-												feat: modify some Dart codes and add Dart code blocks to the docs (#543)


											
										
										
											1 year ago
+								    // 在某运行平台下
 								    void algorithm(int n) {
 								      int a = 2; // 1 ns
 								      a = a + 1; // 1 ns
 								      a = a * 2; // 10 ns
 								      // 循环 n 次
 								      for (int i = 0; i < n; i++) { // 1 ns ，每轮都要执行 i++
 								        print(0); // 5 ns
 								      }
 								    }
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								    ```
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								然而实际上，**统计算法的运行时间既不合理也不现实**。首先，我们不希望预估时间和运行平台绑定，因为算法需要在各种不同的平台上运行。其次，我们很难获知每种操作的运行时间，这给预估过程带来了极大的难度。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								## 统计时间增长趋势
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								「时间复杂度分析」采取了一种不同的方法，其统计的不是算法运行时间，**而是算法运行时间随着数据量变大时的增长趋势**。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the chapter of searching and sorting.

											
										
										
											2 years ago
+								“时间增长趋势”这个概念较为抽象，我们通过一个例子来加以理解。假设输入数据大小为 $n$ ，给定三个算法 `A` , `B` , `C` 。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								- 算法 `A` 只有 $1$ 个打印操作，算法运行时间不随着 $n$ 增大而增长。我们称此算法的时间复杂度为「常数阶」。
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								- 算法 `B` 中的打印操作需要循环 $n$ 次，算法运行时间随着 $n$ 增大呈线性增长。此算法的时间复杂度被称为「线性阶」。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								- 算法 `C` 中的打印操作需要循环 $1000000$ 次，但运行时间仍与输入数据大小 $n$ 无关。因此 `C` 的时间复杂度和 `A` 相同，仍为「常数阶」。
 								=== "Java"
 								    ```java title=""
 								    // 算法 A 时间复杂度：常数阶
 								    void algorithm_A(int n) {
 								        System.out.println(0);
 								    }
 								    // 算法 B 时间复杂度：线性阶
 								    void algorithm_B(int n) {
 								        for (int i = 0; i < n; i++) {
 								            System.out.println(0);
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
 								    void algorithm_C(int n) {
 								        for (int i = 0; i < 1000000; i++) {
 								            System.out.println(0);
 								        }
 								    }
 								    ```
 								=== "C++"
 								    ```cpp title=""
-												Add cpp codes for the chapter
computational complexity, sorting, searching.

											
										
										
											2 years ago
+								    // 算法 A 时间复杂度：常数阶
 								    void algorithm_A(int n) {
 								        cout << 0 << endl;
 								    }
 								    // 算法 B 时间复杂度：线性阶
 								    void algorithm_B(int n) {
 								        for (int i = 0; i < n; i++) {
 								            cout << 0 << endl;
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
 								    void algorithm_C(int n) {
 								        for (int i = 0; i < 1000000; i++) {
 								            cout << 0 << endl;
 								        }
 								    }
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
 								    ```python title=""
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								    # 算法 A 时间复杂度：常数阶
-												Add typing annotations to Python codes. (#411)


											
										
										
											2 years ago
+								    def algorithm_A(n: int) -> None:
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								        print(0)
 								    # 算法 B 时间复杂度：线性阶
-												Add typing annotations to Python codes. (#411)


											
										
										
											2 years ago
+								    def algorithm_B(n: int) -> None:
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								        for _ in range(n):
 								            print(0)
 								    # 算法 C 时间复杂度：常数阶
-												Add typing annotations to Python codes. (#411)


											
										
										
											2 years ago
+								    def algorithm_C(n: int) -> None:
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								        for _ in range(1000000):
 								            print(0)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
 								    ```go title=""
-												time complexity using go

											
										
										
											2 years ago
+								    // 算法 A 时间复杂度：常数阶
 								    func algorithm_A(n int) {
 								        fmt.Println(0)
 								    }
 								    // 算法 B 时间复杂度：线性阶
 								    func algorithm_B(n int) {
 								        for i := 0; i < n; i++ {
 								            fmt.Println(0)
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
 								    func algorithm_C(n int) {
 								        for i := 0; i < 1000000; i++ {
 								            fmt.Println(0)
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title=""
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								    // 算法 A 时间复杂度：常数阶
 								    function algorithm_A(n) {
 								        console.log(0);
 								    }
 								    // 算法 B 时间复杂度：线性阶
 								    function algorithm_B(n) {
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < n; i++) {
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								            console.log(0);
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
 								    function algorithm_C(n) {
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < 1000000; i++) {
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								            console.log(0);
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
 								    ```
 								=== "TypeScript"
 								    ```typescript title=""
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								    // 算法 A 时间复杂度：常数阶
 								    function algorithm_A(n: number): void {
 								        console.log(0);
 								    }
 								    // 算法 B 时间复杂度：线性阶
 								    function algorithm_B(n: number): void {
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < n; i++) {
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								            console.log(0);
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
 								    function algorithm_C(n: number): void {
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < 1000000; i++) {
-												docs: added Typescript and Javascript examples

Not sure whether these formats meet the requirement. If everything is okay I will continue to transcribe more:-)
											
										
										
											2 years ago
+								            console.log(0);
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
 								    ```c title=""
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								    // 算法 A 时间复杂度：常数阶
-												(PR #204) update c code and doc for time_complexity

											
										
										
											2 years ago
+								    void algorithm_A(int n) {
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								        printf("%d", 0);
 								    }
 								    // 算法 B 时间复杂度：线性阶
-												(PR #204) update c code and doc for time_complexity

											
										
										
											2 years ago
+								    void algorithm_B(int n) {
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								        for (int i = 0; i < n; i++) {
 								            printf("%d", 0);
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
-												(PR #204) update c code and doc for time_complexity

											
										
										
											2 years ago
+								    void algorithm_C(int n) {
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								        for (int i = 0; i < 1000000; i++) {
 								            printf("%d", 0);
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
 								    ```csharp title=""
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								    // 算法 A 时间复杂度：常数阶
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								    void algorithm_A(int n) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								        Console.WriteLine(0);
 								    }
 								    // 算法 B 时间复杂度：线性阶
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								    void algorithm_B(int n) {
 								        for (int i = 0; i < n; i++) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								            Console.WriteLine(0);
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								    void algorithm_C(int n) {
 								        for (int i = 0; i < 1000000; i++) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								            Console.WriteLine(0);
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title=""
 								    // 算法 A 时间复杂度：常数阶
-												refactor: review Swift codes for chapter_computational_complexity art… (#396)

* refactor: review Swift codes for chapter_computational_complexity articles

* Update time_complexity.swift

* Update time_complexity.swift

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								    func algorithmA(n: Int) {
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								        print(0)
 								    }
 								    // 算法 B 时间复杂度：线性阶
-												refactor: review Swift codes for chapter_computational_complexity art… (#396)

* refactor: review Swift codes for chapter_computational_complexity articles

* Update time_complexity.swift

* Update time_complexity.swift

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								    func algorithmB(n: Int) {
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								        for _ in 0 ..< n {
 								            print(0)
 								        }
 								    }
 								    // 算法 C 时间复杂度：常数阶
-												refactor: review Swift codes for chapter_computational_complexity art… (#396)

* refactor: review Swift codes for chapter_computational_complexity articles

* Update time_complexity.swift

* Update time_complexity.swift

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								    func algorithmC(n: Int) {
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								        for _ in 0 ..< 1000000 {
 								            print(0)
 								        }
 								    }
 								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title=""
 								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title=""
-												feat: modify some Dart codes and add Dart code blocks to the docs (#543)


											
										
										
											1 year ago
+								    // 算法 A 时间复杂度：常数阶
 								    void algorithmA(int n) {
 								      print(0);
 								    }
 								    // 算法 B 时间复杂度：线性阶
 								    void algorithmB(int n) {
 								      for (int i = 0; i < n; i++) {
 								        print(0);
 								      }
 								    }
 								    // 算法 C 时间复杂度：常数阶
 								    void algorithmC(int n) {
 								      for (int i = 0; i < 1000000; i++) {
 								        print(0);
 								      }
 								    }
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								    ```
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![算法 A, B, C 的时间增长趋势](time_complexity.assets/time_complexity_simple_example.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								相较于直接统计算法运行时间，时间复杂度分析有哪些优势和局限性呢？
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								**时间复杂度能够有效评估算法效率**。例如，算法 `B` 的运行时间呈线性增长，在 $n > 1$ 时比算法 `A` 慢，在 $n > 1000000$ 时比算法 `C` 慢。事实上，只要输入数据大小 $n$ 足够大，复杂度为「常数阶」的算法一定优于「线性阶」的算法，这正是时间增长趋势所表达的含义。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								**时间复杂度的推算方法更简便**。显然，运行平台和计算操作类型都与算法运行时间的增长趋势无关。因此在时间复杂度分析中，我们可以简单地将所有计算操作的执行时间视为相同的“单位时间”，从而将“计算操作的运行时间的统计”简化为“计算操作的数量的统计”，这样的简化方法大大降低了估算难度。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								**时间复杂度也存在一定的局限性**。例如，尽管算法 `A` 和 `C` 的时间复杂度相同，但实际运行时间差别很大。同样，尽管算法 `B` 的时间复杂度比 `C` 高，但在输入数据大小 $n$ 较小时，算法 `B` 明显优于算法 `C` 。在这些情况下，我们很难仅凭时间复杂度判断算法效率高低。当然，尽管存在上述问题，复杂度分析仍然是评判算法效率最有效且常用的方法。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								## 函数渐近上界
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								设算法的计算操作数量是一个关于输入数据大小 $n$ 的函数，记为 $T(n)$ ，则以下算法的操作数量为
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								$$
 								T(n) = 3 + 2n
 								$$
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								=== "Java"
 								    ```java title=""
 								    void algorithm(int n) {
 								        int a = 1;  // +1
 								        a = a + 1;  // +1
 								        a = a * 2;  // +1
 								        // 循环 n 次
 								        for (int i = 0; i < n; i++) { // +1（每轮都执行 i ++）
 								            System.out.println(0);    // +1
 								        }
 								    }
 								    ```
 								=== "C++"
 								    ```cpp title=""
-												Add cpp codes for the chapter
computational complexity, sorting, searching.

											
										
										
											2 years ago
+								    void algorithm(int n) {
 								        int a = 1;  // +1
 								        a = a + 1;  // +1
 								        a = a * 2;  // +1
 								        // 循环 n 次
 								        for (int i = 0; i < n; i++) { // +1（每轮都执行 i ++）
 								            cout << 0 << endl;    // +1
 								        }
 								    }
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
 								    ```python title=""
-												Add typing annotations to Python codes. (#411)


											
										
										
											2 years ago
+								    def algorithm(n: int) -> None:
-												Simplify the declarations of the Python code.

											
										
										
											2 years ago
+								        a = 1      # +1
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								        a = a + 1  # +1
 								        a = a * 2  # +1
 								        # 循环 n 次
 								        for i in range(n):  # +1
 								            print(0)        # +1
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
 								    ```go title=""
-												time complexity using go

											
										
										
											2 years ago
+								    func algorithm(n int) {
-												Add Swift language blocks to the docs.

											
										
										
											2 years ago
+								        a := 1      // +1
 								        a = a + 1   // +1
 								        a = a * 2   // +1
-												time complexity using go

											
										
										
											2 years ago
+								        // 循环 n 次
-												Add Swift language blocks to the docs.

											
										
										
											2 years ago
+								        for i := 0; i < n; i++ {   // +1
 								            fmt.Println(a)         // +1
-												code: added code for time complexity chapter

											
										
										
											2 years ago
+								        }
-												time complexity using go

											
										
										
											2 years ago
+								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title=""
-												Fix code formats.

											
										
										
											2 years ago
+								    function algorithm(n) {
-												code: added doc code

											
										
										
											2 years ago
+								        var a = 1; // +1
 								        a += 1; // +1
 								        a *= 2; // +1
 								        // 循环 n 次
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for(let i = 0; i < n; i++){ // +1（每轮都执行 i ++）
-												lint: code lint

											
										
										
											2 years ago
+								            console.log(0); // +1
-												code: added doc code

											
										
										
											2 years ago
+								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
 								    ```typescript title=""
-												code: added doc code

											
										
										
											2 years ago
+								    function algorithm(n: number): void{
 								        var a: number = 1; // +1
 								        a += 1; // +1
 								        a *= 2; // +1
 								        // 循环 n 次
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for(let i = 0; i < n; i++){ // +1（每轮都执行 i ++）
-												lint: code lint

											
										
										
											2 years ago
+								            console.log(0); // +1
-												code: added doc code

											
										
										
											2 years ago
+								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
 								    ```c title=""
-												(PR #204) update c code and doc for time_complexity

											
										
										
											2 years ago
+								    void algorithm(int n) {
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								        int a = 1;  // +1
 								        a = a + 1;  // +1
 								        a = a * 2;  // +1
 								        // 循环 n 次
 								        for (int i = 0; i < n; i++) {   // +1（每轮都执行 i ++）
 								            printf("%d", 0);            // +1
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
 								    ```csharp title=""
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								    void algorithm(int n) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								        int a = 1;  // +1
 								        a = a + 1;  // +1
 								        a = a * 2;  // +1
 								        // 循环 n 次
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								        for (int i = 0; i < n; i++) {   // +1（每轮都执行 i ++）
-												Fix code formats.

											
										
										
											2 years ago
+								            Console.WriteLine(0);   // +1
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title=""
 								    func algorithm(n: Int) {
 								        var a = 1 // +1
 								        a = a + 1 // +1
 								        a = a * 2 // +1
 								        // 循环 n 次
 								        for _ in 0 ..< n { // +1
 								            print(0) // +1
 								        }
 								    }
 								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title=""
 								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title=""
-												feat: modify some Dart codes and add Dart code blocks to the docs (#543)


											
										
										
											1 year ago
+								    void algorithm(int n) {
 								      int a = 1; // +1
 								      a = a + 1; // +1
 								      a = a * 2; // +1
 								      // 循环 n 次
 								      for (int i = 0; i < n; i++) { // +1（每轮都执行 i ++）
 								        print(0); // +1
 								      }
 								    }
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								    ```
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								$T(n)$ 是一次函数，说明时间增长趋势是线性的，因此可以得出时间复杂度是线性阶。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								我们将线性阶的时间复杂度记为 $O(n)$ ，这个数学符号称为「大 $O$ 记号 Big-$O$ Notation」，表示函数 $T(n)$ 的「渐近上界 Asymptotic Upper Bound」。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								推算时间复杂度本质上是计算“操作数量函数 $T(n)$”的渐近上界。接下来，我们来看函数渐近上界的数学定义。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Correct a terminology mistake,
which is revealed by Prof. Deng.

											
										
										
											2 years ago
+								!!! abstract "函数渐近上界"
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								    若存在正实数 $c$ 和实数 $n_0$ ，使得对于所有的 $n > n_0$ ，均有
 								    $$
 								    T(n) \leq c \cdot f(n)
 								    $$
-. Add array representation of binary tree.
2. Update the LEGO example.
3. Update headers of the Python files.

											
										
										
											2 years ago
+								    则可认为 $f(n)$ 给出了 $T(n)$ 的一个渐近上界，记为
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    $$
 								    T(n) = O(f(n))
 								    $$
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![函数的渐近上界](time_complexity.assets/asymptotic_upper_bound.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								从本质上讲，计算渐近上界就是寻找一个函数 $f(n)$ ，使得当 $n$ 趋向于无穷大时，$T(n)$ 和 $f(n)$ 处于相同的增长级别，仅相差一个常数项 $c$ 的倍数。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								## 推算方法
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								渐近上界的数学味儿有点重，如果你感觉没有完全理解，也无需担心。因为在实际使用中，我们只需要掌握推算方法，数学意义可以逐渐领悟。
 								根据定义，确定 $f(n)$ 之后，我们便可得到时间复杂度 $O(f(n))$ 。那么如何确定渐近上界 $f(n)$ 呢？总体分为两步：首先统计操作数量，然后判断渐近上界。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Fix some codes and a figure.

											
										
										
											1 year ago
+								### 第一步：统计操作数量
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								针对代码，逐行从上到下计算即可。然而，由于上述 $c \cdot f(n)$ 中的常数项 $c$ 可以取任意大小，**因此操作数量 $T(n)$ 中的各种系数、常数项都可以被忽略**。根据此原则，可以总结出以下计数简化技巧：
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+. **忽略与 $n$ 无关的操作**。因为它们都是 $T(n)$ 中的常数项，对时间复杂度不产生影响。
 . **省略所有系数**。例如，循环 $2n$ 次、$5n + 1$ 次等，都可以简化记为 $n$ 次，因为 $n$ 前面的系数对时间复杂度没有影响。
-												Modify `。** ` to `**。` for better visualization.

											
										
										
											2 years ago
+. **循环嵌套时使用乘法**。总操作数量等于外层循环和内层循环操作数量之积，每一层循环依然可以分别套用上述 `1.` 和 `2.` 技巧。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Update time_complexity.md (#353)

* Update time_complexity.md

这样修改是否更加通畅，或者修改位“以下示例即位使用上述技巧前、后的统计结果”，因为是根据上述技巧给出的示例，二不是根据示例得出了技巧

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								以下示例展示了使用上述技巧前、后的统计结果。
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								$$
 								\begin{aligned}
 								T(n) & = 2n(n + 1) + (5n + 1) + 2 & \text{完整统计 (-.-|||)} \newline
 								& = 2n^2 + 7n + 3 \newline
 								T(n) & = n^2 + n & \text{偷懒统计 (o.O)}
 								\end{aligned}
 								$$
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								最终，两者都能推出相同的时间复杂度结果，即 $O(n^2)$ 。
 								=== "Java"
 								    ```java title=""
 								    void algorithm(int n) {
 								        int a = 1;  // +0（技巧 1）
 								        a = a + n;  // +0（技巧 1）
 								        // +n（技巧 2）
 								        for (int i = 0; i < 5 * n + 1; i++) {
 								            System.out.println(0);
 								        }
 								        // +n*n（技巧 3）
 								        for (int i = 0; i < 2 * n; i++) {
 								            for (int j = 0; j < n + 1; j++) {
 								                System.out.println(0);
 								            }
 								        }
 								    }
 								    ```
 								=== "C++"
 								    ```cpp title=""
-												Add cpp codes for the chapter
computational complexity, sorting, searching.

											
										
										
											2 years ago
+								    void algorithm(int n) {
 								        int a = 1;  // +0（技巧 1）
 								        a = a + n;  // +0（技巧 1）
 								        // +n（技巧 2）
 								        for (int i = 0; i < 5 * n + 1; i++) {
 								            cout << 0 << endl;
 								        }
 								        // +n*n（技巧 3）
 								        for (int i = 0; i < 2 * n; i++) {
 								            for (int j = 0; j < n + 1; j++) {
 								                cout << 0 << endl;
 								            }
 								        }
 								    }
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
 								    ```python title=""
-												Add typing annotations to Python codes. (#411)


											
										
										
											2 years ago
+								    def algorithm(n: int) -> None:
-												Simplify the declarations of the Python code.

											
										
										
											2 years ago
+								        a = 1      # +0（技巧 1）
 								        a = a + n  # +0（技巧 1）
-												Add python codes and for the chapter of
computational complexity.
Update Java codes.
Update Contributors.

											
										
										
											2 years ago
+								        # +n（技巧 2）
 								        for i in range(5 * n + 1):
 								            print(0)
 								        # +n*n（技巧 3）
 								        for i in range(2 * n):
 								            for j in range(n + 1):
 								                print(0)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
 								    ```go title=""
-												time complexity using go

											
										
										
											2 years ago
+								    func algorithm(n int) {
-												Simplify the declarations of the Python code.

											
										
										
											2 years ago
+								        a := 1     // +0（技巧 1）
-												time complexity using go

											
										
										
											2 years ago
+								        a = a + n  // +0（技巧 1）
 								        // +n（技巧 2）
 								        for i := 0; i < 5 * n + 1; i++ {
 								            fmt.Println(0)
 								        }
 								        // +n*n（技巧 3）
 								        for i := 0; i < 2 * n; i++ {
 								            for j := 0; j < n + 1; j++ {
 								                fmt.Println(0)
 								            }
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title=""
-												code: added doc code

											
										
										
											2 years ago
+								    function algorithm(n) {
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        let a = 1;  // +0（技巧 1）
-												code: added doc code

											
										
										
											2 years ago
+								        a = a + n;  // +0（技巧 1）
 								        // +n（技巧 2）
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < 5 * n + 1; i++) {
-												code: added doc code

											
										
										
											2 years ago
+								            console.log(0);
 								        }
 								        // +n*n（技巧 3）
-												Update docs/chapter_computational_complexity/time_complexity.md

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < 2 * n; i++) {
 								            for (let j = 0; j < n + 1; j++) {
-												code: added doc code

											
										
										
											2 years ago
+								                console.log(0);
 								            }
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
 								    ```typescript title=""
-												code: added doc code

											
										
										
											2 years ago
+								    function algorithm(n: number): void {
-												Apply suggestions from code review

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        let a = 1;  // +0（技巧 1）
-												code: added doc code

											
										
										
											2 years ago
+								        a = a + n;  // +0（技巧 1）
 								        // +n（技巧 2）
-												Update docs/chapter_computational_complexity/time_complexity.md

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < 5 * n + 1; i++) {
-												code: added doc code

											
										
										
											2 years ago
+								            console.log(0);
 								        }
 								        // +n*n（技巧 3）
-												Update docs/chapter_computational_complexity/time_complexity.md

Co-authored-by: Justin Tse <xiefahit@gmail.com>
											
										
										
											2 years ago
+								        for (let i = 0; i < 2 * n; i++) {
 								            for (let j = 0; j < n + 1; j++) {
-												code: added doc code

											
										
										
											2 years ago
+								                console.log(0);
 								            }
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
 								    ```c title=""
-												(PR #204) update c code and doc for time_complexity

											
										
										
											2 years ago
+								    void algorithm(int n) {
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
+								        int a = 1;  // +0（技巧 1）
 								        a = a + n;  // +0（技巧 1）
 								        // +n（技巧 2）
 								        for (int i = 0; i < 5 * n + 1; i++) {
 								            printf("%d", 0);
 								        }
 								        // +n*n（技巧 3）
 								        for (int i = 0; i < 2 * n; i++) {
 								            for (int j = 0; j < n + 1; j++) {
 								                printf("%d", 0);
 								            }
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
 								    ```csharp title=""
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								    void algorithm(int n) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								        int a = 1;  // +0（技巧 1）
 								        a = a + n;  // +0（技巧 1）
-												Update C# code.

											
										
										
											2 years ago
+								        // +n（技巧 2）
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								        for (int i = 0; i < 5 * n + 1; i++) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								            Console.WriteLine(0);
 								        }
 								        // +n*n（技巧 3）
-												fix(csharp): reformat csharp codes and docs (#652)

* fix(csharp): reformat the C# codes and docs

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											1 year ago
+								        for (int i = 0; i < 2 * n; i++) {
 								            for (int j = 0; j < n + 1; j++) {
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
+								                Console.WriteLine(0);
 								            }
 								        }
 								    }
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title=""
 								    func algorithm(n: Int) {
 								        var a = 1 // +0（技巧 1）
 								        a = a + n // +0（技巧 1）
 								        // +n（技巧 2）
 								        for _ in 0 ..< (5 * n + 1) {
 								            print(0)
 								        }
 								        // +n*n（技巧 3）
 								        for _ in 0 ..< (2 * n) {
 								            for _ in 0 ..< (n + 1) {
 								                print(0)
 								            }
 								        }
 								    }
 								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title=""
 								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title=""
-												feat: modify some Dart codes and add Dart code blocks to the docs (#543)


											
										
										
											1 year ago
+								    void algorithm(int n) {
 								      int a = 1; // +0（技巧 1）
 								      a = a + n; // +0（技巧 1）
 								      // +n（技巧 2）
 								      for (int i = 0; i < 5 * n + 1; i++) {
 								        print(0);
 								      }
 								      // +n*n（技巧 3）
 								      for (int i = 0; i < 2 * n; i++) {
 								        for (int j = 0; j < n + 1; j++) {
 								          print(0);
 								        }
 								      }
 								    }
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								    ```
-												Fix some codes and a figure.

											
										
										
											1 year ago
+								### 第二步：判断渐近上界
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the chapter of heap, introduction, preface.
Replace "其它" with "其他"

											
										
										
											2 years ago
+								**时间复杂度由多项式 $T(n)$ 中最高阶的项来决定**。这是因为在 $n$ 趋于无穷大时，最高阶的项将发挥主导作用，其他项的影响都可以被忽略。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								以下表格展示了一些例子，其中一些夸张的值是为了强调“系数无法撼动阶数”这一结论。当 $n$ 趋于无穷大时，这些常数变得无足轻重。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								<div class="center-table" markdown>
 								| 操作数量 $T(n)$         | 时间复杂度 $O(f(n))$   |
 								| ---------------------- | -------------------- |
 								| $100000$               | $O(1)$               |
 								| $3n + 2$               | $O(n)$               |
 								| $2n^2 + 3n + 2$        | $O(n^2)$             |
 								| $n^3 + 10000n^2$       | $O(n^3)$             |
 								| $2^n + 10000n^{10000}$ | $O(2^n)$             |
 								</div>
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								## 常见类型
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								设输入数据大小为 $n$ ，常见的时间复杂度类型包括（按照从低到高的顺序排列）：
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								$$
 								\begin{aligned}
 								O(1) < O(\log n) < O(n) < O(n \log n) < O(n^2) < O(2^n) < O(n!) \newline
 								\text{常数阶} < \text{对数阶} < \text{线性阶} < \text{线性对数阶} < \text{平方阶} < \text{指数阶} < \text{阶乘阶}
 								\end{aligned}
 								$$
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![时间复杂度的常见类型](time_complexity.assets/time_complexity_common_types.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								!!! tip
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								    部分示例代码需要一些预备知识，包括数组、递归算法等。如果遇到不理解的部分，请不要担心，可以在学习完后面章节后再回顾。现阶段，请先专注于理解时间复杂度的含义和推算方法。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								### 常数阶 $O(1)$
 								常数阶的操作数量与输入数据大小 $n$ 无关，即不随着 $n$ 的变化而变化。
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								对于以下算法，尽管操作数量 `size` 可能很大，但由于其与数据大小 $n$ 无关，因此时间复杂度仍为 $O(1)$ 。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{constant}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{constant}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{constant}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{constant}
 								    ```
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								### 线性阶 $O(n)$
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								线性阶的操作数量相对于输入数据大小以线性级别增长。线性阶通常出现在单层循环中。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{linear}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{linear}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{linear}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{linear}
 								    ```
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								遍历数组和遍历链表等操作的时间复杂度均为 $O(n)$ ，其中 $n$ 为数组或链表的长度。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								!!! question "如何确定输入数据大小 $n$ ？"
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								    **数据大小 $n$ 需根据输入数据的类型来具体确定**。例如，在上述示例中，我们直接将 $n$ 视为输入数据大小；在下面遍历数组的示例中，数据大小 $n$ 为数组的长度。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{arrayTraversal}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{array_traversal}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{arrayTraversal}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{arrayTraversal}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{arrayTraversal}
 								    ```
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								### 平方阶 $O(n^2)$
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								平方阶的操作数量相对于输入数据大小以平方级别增长。平方阶通常出现在嵌套循环中，外层循环和内层循环都为 $O(n)$ ，因此总体为 $O(n^2)$ 。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{quadratic}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{quadratic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{quadratic}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{quadratic}
 								    ```
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![常数阶、线性阶、平方阶的时间复杂度](time_complexity.assets/time_complexity_constant_linear_quadratic.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								以「冒泡排序」为例，外层循环执行 $n - 1$ 次，内层循环执行 $n-1, n-2, \cdots, 2, 1$ 次，平均为 $\frac{n}{2}$ 次，因此时间复杂度为 $O(n^2)$ 。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								$$
 								O((n - 1) \frac{n}{2}) = O(n^2)
 								$$
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{bubbleSort}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{bubble_sort}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{bubbleSort}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{bubbleSort}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{bubbleSort}
 								    ```
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								### 指数阶 $O(2^n)$
 								!!! note
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								    生物学的“细胞分裂”是指数阶增长的典型例子：初始状态为 $1$ 个细胞，分裂一轮后变为 $2$ 个，分裂两轮后变为 $4$ 个，以此类推，分裂 $n$ 轮后有 $2^n$ 个细胞。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								指数阶增长非常迅速，在实际应用中通常是不可接受的。若一个问题使用「暴力枚举」求解的时间复杂度为 $O(2^n)$ ，那么通常需要使用「动态规划」或「贪心算法」等方法来解决。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{exponential}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{exponential}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{exponential}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{exponential}
 								    ```
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![指数阶的时间复杂度](time_complexity.assets/time_complexity_exponential.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								在实际算法中，指数阶常出现于递归函数。例如以下代码，不断地一分为二，经过 $n$ 次分裂后停止。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{expRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{exp_recur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{expRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{expRecur}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{expRecur}
 								    ```
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								### 对数阶 $O(\log n)$
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								与指数阶相反，对数阶反映了“每轮缩减到一半的情况”。对数阶仅次于常数阶，时间增长缓慢，是理想的时间复杂度。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								对数阶常出现于「二分查找」和「分治算法」中，体现了“一分为多”和“化繁为简”的算法思想。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								设输入数据大小为 $n$ ，由于每轮缩减到一半，因此循环次数是 $\log_2 n$ ，即 $2^n$ 的反函数。
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{logarithmic}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{logarithmic}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{logarithmic}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{logarithmic}
 								    ```
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![对数阶的时间复杂度](time_complexity.assets/time_complexity_logarithmic.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								与指数阶类似，对数阶也常出现于递归函数。以下代码形成了一个高度为 $\log_2 n$ 的递归树。
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{logRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{log_recur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{logRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{logRecur}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{logRecur}
 								    ```
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								### 线性对数阶 $O(n \log n)$
 								线性对数阶常出现于嵌套循环中，两层循环的时间复杂度分别为 $O(\log n)$ 和 $O(n)$ 。
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								主流排序算法的时间复杂度通常为 $O(n \log n)$ ，例如快速排序、归并排序、堆排序等。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{linearLogRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{linear_log_recur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{linearLogRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{linearLogRecur}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{linearLogRecur}
 								    ```
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![线性对数阶的时间复杂度](time_complexity.assets/time_complexity_logarithmic_linear.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								### 阶乘阶 $O(n!)$
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								阶乘阶对应数学上的「全排列」问题。给定 $n$ 个互不重复的元素，求其所有可能的排列方案，方案数量为：
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								$$
 								n! = n \times (n - 1) \times (n - 2) \times \cdots \times 2 \times 1
 								$$
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								阶乘通常使用递归实现。例如以下代码，第一层分裂出 $n$ 个，第二层分裂出 $n - 1$ 个，以此类推，直至第 $n$ 层时终止分裂。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```java title="time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{factorialRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```cpp title="time_complexity.cpp"
-												Fix Repo

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```python title="time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{factorial_recur}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```go title="time_complexity.go"
-												Add build script for Go and update Go codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="time_complexity.js"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```typescript title="time_complexity.ts"
-												Add build script for JS and TS codes.

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```c title="time_complexity.c"
-												Add sorce code blocks of C to the docs.

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
-												Update time complexity and space complexity.

											
										
										
											2 years ago
+								    ```csharp title="time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{time_complexity}-[func]{factorialRecur}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
 								    ```swift title="time_complexity.swift"
-												Add build script for Swift.

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="time_complexity.zig"
-												Update .gitignore
Add build script for Zig.

											
										
										
											2 years ago
+								    [class]{}-[func]{factorialRecur}
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="time_complexity.dart"
 								    [class]{}-[func]{factorialRecur}
 								    ```
-												Update the captions of all the figures.

											
										
										
											2 years ago
+								![阶乘阶的时间复杂度](time_complexity.assets/time_complexity_factorial.png)
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Remove the heading numbers
in all the source docs.

											
										
										
											2 years ago
+								## 最差、最佳、平均时间复杂度
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								**某些算法的时间复杂度不是固定的，而是与输入数据的分布有关**。例如，假设输入一个长度为 $n$ 的数组 `nums` ，其中 `nums` 由从 $1$ 至 $n$ 的数字组成，但元素顺序是随机打乱的；算法的任务是返回元素 $1$ 的索引。我们可以得出以下结论：
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								- 当 `nums = [?, ?, ..., 1]` ，即当末尾元素是 $1$ 时，需要完整遍历数组，此时达到 **最差时间复杂度 $O(n)$**；
 								- 当 `nums = [1, ?, ?, ...]` ，即当首个数字为 $1$ 时，无论数组多长都不需要继续遍历，此时达到 **最佳时间复杂度 $\Omega(1)$**；
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								“函数渐近上界”使用大 $O$ 记号表示，代表「最差时间复杂度」。相应地，“函数渐近下界”用 $\Omega$ 记号来表示，代表「最佳时间复杂度」。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								=== "Java"
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```java title="worst_best_time_complexity.java"
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{worst_best_time_complexity}-[func]{randomNumbers}
-												code: added code for time complexity chapter

											
										
										
											2 years ago
-. Add build script for Java.
2. Add height limitation for code blocks in extra.css.
3. Fix "节点" to "结点".

											
										
										
											2 years ago
+								    [class]{worst_best_time_complexity}-[func]{findOne}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "C++"
 								    ```cpp title="worst_best_time_complexity.cpp"
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{randomNumbers}
-												Add cpp codes for the chapter
computational complexity, sorting, searching.

											
										
										
											2 years ago
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{findOne}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
 								=== "Python"
 								    ```python title="worst_best_time_complexity.py"
-. Add the building util of Python
for the markdown docs.
2. Update the deploy.sh

											
										
										
											2 years ago
+								    [class]{}-[func]{random_numbers}
 								    [class]{}-[func]{find_one}
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								    ```
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								=== "Go"
 								    ```go title="worst_best_time_complexity.go"
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{randomNumbers}
-												Organizing all the code blocks.

											
										
										
											2 years ago
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{findOne}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "JavaScript"
-												Replace ```js with ```javascript

											
										
										
											2 years ago
+								    ```javascript title="worst_best_time_complexity.js"
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{randomNumbers}
-												Organizing all the code blocks.

											
										
										
											2 years ago
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{findOne}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "TypeScript"
 								    ```typescript title="worst_best_time_complexity.ts"
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{randomNumbers}
-												Organizing all the code blocks.

											
										
										
											2 years ago
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{findOne}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C"
 								    ```c title="worst_best_time_complexity.c"
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{randomNumbers}
-												update c code for chapter_computational_complexity, add c code to  time_complexity.md

											
										
										
											2 years ago
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{findOne}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
 								=== "C#"
 								    ```csharp title="worst_best_time_complexity.cs"
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{worst_best_time_complexity}-[func]{randomNumbers}
-												完善所以c#相关的文档和代码

											
										
										
											2 years ago
-												Add build scripts for C# and
unify the coding style.

											
										
										
											2 years ago
+								    [class]{worst_best_time_complexity}-[func]{findOne}
-												Organizing all the code blocks.

											
										
										
											2 years ago
+								    ```
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								=== "Swift"
-												Add Swift language blocks to the docs.

											
										
										
											2 years ago
+								    ```swift title="worst_best_time_complexity.swift"
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{randomNumbers}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
-												Updathe time_complexity.md

											
										
										
											2 years ago
+								    [class]{}-[func]{findOne}
-												feat: add Swift codes for time complexity article

											
										
										
											2 years ago
+								    ```
-												Add Zig code blocks.

											
										
										
											2 years ago
+								=== "Zig"
 								    ```zig title="worst_best_time_complexity.zig"
-												copy zig codes of chapter_array_and_linkedlist and chapter_computatio… (#319)

* copy zig codes of chapter_array_and_linkedlist and chapter_computational_complexity to markdown files

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								    // 生成一个数组，元素为 { 1, 2, ..., n }，顺序被打乱
 								    pub fn randomNumbers(comptime n: usize) [n]i32 {
 								        var nums: [n]i32 = undefined;
 								        // 生成数组 nums = { 1, 2, 3, ..., n }
 								        for (nums) |*num, i| {
 								            num.* = @intCast(i32, i) + 1;
 								        }
 								        // 随机打乱数组元素
 								        const rand = std.crypto.random;
 								        rand.shuffle(i32, &nums);
 								        return nums;
 								    }
-												Add Zig code blocks.

											
										
										
											2 years ago
-												copy zig codes of chapter_array_and_linkedlist and chapter_computatio… (#319)

* copy zig codes of chapter_array_and_linkedlist and chapter_computational_complexity to markdown files

* Update time_complexity.md

---------

Co-authored-by: Yudong Jin <krahets@163.com>
											
										
										
											2 years ago
+								    // 查找数组 nums 中数字 1 所在索引
 								    pub fn findOne(nums: []i32) i32 {
 								        for (nums) |num, i| {
 								            // 当元素 1 在数组头部时，达到最佳时间复杂度 O(1)
 								            // 当元素 1 在数组尾部时，达到最差时间复杂度 O(n)
 								            if (num == 1) return @intCast(i32, i);
 								        }
 								        return -1;
 								    }
-												Add Zig code blocks.

											
										
										
											2 years ago
+								    ```
-												Add Dart codes to the documents. (#529)


											
										
										
											1 year ago
+								=== "Dart"
 								    ```dart title="worst_best_time_complexity.dart"
 								    [class]{}-[func]{randomNumbers}
 								    [class]{}-[func]{findOne}
 								    ```
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
+								!!! tip
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								    实际应用中我们很少使用「最佳时间复杂度」，因为通常只有在很小概率下才能达到，可能会带来一定的误导性。相反，「最差时间复杂度」更为实用，因为它给出了一个“效率安全值”，让我们可以放心地使用算法。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								从上述示例可以看出，最差或最佳时间复杂度只出现在“特殊分布的数据”中，这些情况的出现概率可能很小，因此并不能最真实地反映算法运行效率。相较之下，**「平均时间复杂度」可以体现算法在随机输入数据下的运行效率**，用 $\Theta$ 记号来表示。
-												Update docs for deployment on Vercel.

											
										
										
											2 years ago
 								对于部分算法，我们可以简单地推算出随机数据分布下的平均情况。比如上述示例，由于输入数组是被打乱的，因此元素 $1$ 出现在任意索引的概率都是相等的，那么算法的平均循环次数则是数组长度的一半 $\frac{n}{2}$ ，平均时间复杂度为 $\Theta(\frac{n}{2}) = \Theta(n)$ 。
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								但在实际应用中，尤其是较为复杂的算法，计算平均时间复杂度比较困难，因为很难简便地分析出在数据分布下的整体数学期望。在这种情况下，我们通常使用最差时间复杂度作为算法效率的评判标准。
-												Add quick sort.

											
										
										
											2 years ago
 								!!! question "为什么很少看到 $\Theta$ 符号？"
-												Polish the contents
1. Array and linked list.
2. Computational complexity.
3. Fix a mistake in counting_sort.md

											
										
										
											2 years ago
+								    可能由于 $O$ 符号过于朗朗上口，我们常常使用它来表示「平均复杂度」，但从严格意义上看，这种做法并不规范。在本书和其他资料中，若遇到类似“平均时间复杂度 $O(n)$”的表述，请将其直接理解为 $\Theta(n)$ 。