2023-02-08 15:20:18 +08:00
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comments: true
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---
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2023-02-24 18:45:27 +08:00
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# 10.1. 线性查找
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2023-02-08 15:20:18 +08:00
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「线性查找 Linear Search」是一种最基础的查找方法,其从数据结构的一端开始,依次访问每个元素,直到另一端后停止。
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2023-02-24 18:45:27 +08:00
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## 10.1.1. 算法实现
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2023-02-08 15:20:18 +08:00
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线性查找实质上就是遍历数据结构 + 判断条件。比如,我们想要在数组 `nums` 中查找目标元素 `target` 的对应索引,那么可以在数组中进行线性查找。
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2023-02-26 18:17:57 +08:00
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![在数组中线性查找元素](linear_search.assets/linear_search.png)
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2023-02-08 15:20:18 +08:00
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2023-02-26 19:53:26 +08:00
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<p align="center"> Fig. 在数组中线性查找元素 </p>
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2023-02-08 15:20:18 +08:00
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=== "Java"
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```java title="linear_search.java"
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/* 线性查找(数组) */
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int linearSearchArray(int[] nums, int target) {
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// 遍历数组
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for (int i = 0; i < nums.length; i++) {
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// 找到目标元素,返回其索引
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if (nums[i] == target)
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return i;
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}
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// 未找到目标元素,返回 -1
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return -1;
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}
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```
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=== "C++"
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```cpp title="linear_search.cpp"
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/* 线性查找(数组) */
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int linearSearchArray(vector<int>& nums, int target) {
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// 遍历数组
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for (int i = 0; i < nums.size(); i++) {
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// 找到目标元素,返回其索引
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if (nums[i] == target)
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return i;
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}
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// 未找到目标元素,返回 -1
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return -1;
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}
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```
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=== "Python"
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```python title="linear_search.py"
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2023-03-12 18:46:03 +08:00
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def linear_search_array(nums: List[int], target: int) -> int:
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2023-03-03 02:46:12 +08:00
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""" 线性查找(数组) """
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2023-02-08 15:20:18 +08:00
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# 遍历数组
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for i in range(len(nums)):
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if nums[i] == target: # 找到目标元素,返回其索引
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return i
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return -1 # 未找到目标元素,返回 -1
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```
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=== "Go"
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```go title="linear_search.go"
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/* 线性查找(数组) */
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func linearSearchArray(nums []int, target int) int {
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// 遍历数组
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for i := 0; i < len(nums); i++ {
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// 找到目标元素,返回其索引
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if nums[i] == target {
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return i
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}
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}
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// 未找到目标元素,返回 -1
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return -1
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}
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```
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=== "JavaScript"
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```javascript title="linear_search.js"
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/* 线性查找(数组) */
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function linearSearchArray(nums, target) {
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// 遍历数组
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for (let i = 0; i < nums.length; i++) {
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// 找到目标元素,返回其索引
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if (nums[i] === target) {
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return i;
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}
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}
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// 未找到目标元素,返回 -1
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return -1;
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}
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```
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=== "TypeScript"
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```typescript title="linear_search.ts"
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/* 线性查找(数组)*/
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function linearSearchArray(nums: number[], target: number): number {
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// 遍历数组
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for (let i = 0; i < nums.length; i++) {
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// 找到目标元素,返回其索引
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if (nums[i] === target) {
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return i;
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}
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}
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// 未找到目标元素,返回 -1
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return -1;
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}
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```
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=== "C"
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```c title="linear_search.c"
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2023-02-11 18:21:44 +08:00
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[class]{}-[func]{linearSearchArray}
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2023-02-08 15:20:18 +08:00
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```
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=== "C#"
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```csharp title="linear_search.cs"
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/* 线性查找(数组) */
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int linearSearchArray(int[] nums, int target)
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{
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// 遍历数组
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for (int i = 0; i < nums.Length; i++)
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{
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// 找到目标元素,返回其索引
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if (nums[i] == target)
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return i;
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}
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// 未找到目标元素,返回 -1
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return -1;
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}
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```
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=== "Swift"
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```swift title="linear_search.swift"
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/* 线性查找(数组) */
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func linearSearchArray(nums: [Int], target: Int) -> Int {
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// 遍历数组
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for i in nums.indices {
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// 找到目标元素,返回其索引
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if nums[i] == target {
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return i
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}
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}
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// 未找到目标元素,返回 -1
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return -1
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}
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```
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=== "Zig"
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```zig title="linear_search.zig"
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2023-02-09 22:55:29 +08:00
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// 线性查找(数组)
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fn linearSearchArray(comptime T: type, nums: std.ArrayList(T), target: T) T {
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// 遍历数组
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for (nums.items) |num, i| {
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// 找到目标元素, 返回其索引
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if (num == target) {
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return @intCast(T, i);
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}
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}
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// 未找到目标元素,返回 -1
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return -1;
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}
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2023-02-08 15:20:18 +08:00
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```
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再比如,我们想要在给定一个目标结点值 `target` ,返回此结点对象,也可以在链表中进行线性查找。
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=== "Java"
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```java title="linear_search.java"
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/* 线性查找(链表) */
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ListNode linearSearchLinkedList(ListNode head, int target) {
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// 遍历链表
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while (head != null) {
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// 找到目标结点,返回之
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if (head.val == target)
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return head;
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head = head.next;
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}
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// 未找到目标结点,返回 null
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return null;
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}
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```
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=== "C++"
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```cpp title="linear_search.cpp"
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/* 线性查找(链表) */
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ListNode* linearSearchLinkedList(ListNode* head, int target) {
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// 遍历链表
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while (head != nullptr) {
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// 找到目标结点,返回之
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if (head->val == target)
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return head;
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head = head->next;
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}
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// 未找到目标结点,返回 nullptr
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return nullptr;
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}
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```
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=== "Python"
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```python title="linear_search.py"
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2023-03-12 18:46:03 +08:00
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def linear_search_linkedlist(head: ListNode, target: int) -> Optional[ListNode]:
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""" 线性查找(链表) """
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2023-02-08 15:20:18 +08:00
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# 遍历链表
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while head:
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if head.val == target: # 找到目标结点,返回之
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return head
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head = head.next
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return None # 未找到目标结点,返回 None
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```
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=== "Go"
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```go title="linear_search.go"
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2023-02-09 04:43:12 +08:00
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/* 线性查找(链表) */
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func linearSearchLinkedList(node *ListNode, target int) *ListNode {
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2023-02-08 15:20:18 +08:00
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// 遍历链表
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for node != nil {
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// 找到目标结点,返回之
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if node.Val == target {
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return node
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}
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node = node.Next
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}
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// 未找到目标元素,返回 nil
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return nil
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}
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```
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=== "JavaScript"
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```javascript title="linear_search.js"
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/* 线性查找(链表)*/
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function linearSearchLinkedList(head, target) {
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// 遍历链表
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while(head) {
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// 找到目标结点,返回之
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if(head.val === target) {
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return head;
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}
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head = head.next;
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}
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// 未找到目标结点,返回 null
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return null;
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}
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```
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=== "TypeScript"
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```typescript title="linear_search.ts"
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/* 线性查找(链表)*/
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function linearSearchLinkedList(head: ListNode | null, target: number): ListNode | null {
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// 遍历链表
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while (head) {
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// 找到目标结点,返回之
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if (head.val === target) {
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return head;
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}
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head = head.next;
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}
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// 未找到目标结点,返回 null
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return null;
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}
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```
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=== "C"
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```c title="linear_search.c"
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2023-02-11 18:21:44 +08:00
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[class]{}-[func]{linearSearchLinkedList}
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2023-02-08 15:20:18 +08:00
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```
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=== "C#"
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```csharp title="linear_search.cs"
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/* 线性查找(链表) */
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ListNode? linearSearchLinkedList(ListNode head, int target)
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{
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// 遍历链表
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while (head != null)
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{
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// 找到目标结点,返回之
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if (head.val == target)
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return head;
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head = head.next;
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}
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// 未找到目标结点,返回 null
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return null;
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}
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```
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=== "Swift"
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```swift title="linear_search.swift"
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/* 线性查找(链表) */
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func linearSearchLinkedList(head: ListNode?, target: Int) -> ListNode? {
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var head = head
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// 遍历链表
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while head != nil {
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// 找到目标结点,返回之
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if head?.val == target {
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return head
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}
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head = head?.next
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}
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// 未找到目标结点,返回 null
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return nil
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}
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```
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=== "Zig"
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```zig title="linear_search.zig"
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2023-02-09 22:55:29 +08:00
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// 线性查找(链表)
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fn linearSearchLinkedList(comptime T: type, node: ?*inc.ListNode(T), target: T) ?*inc.ListNode(T) {
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var head = node;
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// 遍历链表
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while (head != null) {
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// 找到目标结点,返回之
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if (head.?.val == target) return head;
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head = head.?.next;
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}
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return null;
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}
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2023-02-08 15:20:18 +08:00
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```
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2023-02-24 18:45:27 +08:00
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## 10.1.2. 复杂度分析
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2023-02-08 15:20:18 +08:00
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**时间复杂度 $O(n)$** :其中 $n$ 为数组或链表长度。
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**空间复杂度 $O(1)$** :无需使用额外空间。
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2023-02-24 18:45:27 +08:00
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## 10.1.3. 优点与缺点
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2023-02-08 15:20:18 +08:00
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**线性查找的通用性极佳**。由于线性查找是依次访问元素的,即没有跳跃访问元素,因此数组或链表皆适用。
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**线性查找的时间复杂度太高**。在数据量 $n$ 很大时,查找效率很低。
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