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Familiar with algorithm and data structure implementation in Go language

王林
Release: 2024-03-27 09:06:03
Original
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熟悉 Go 语言中的算法和数据结构实现

In today’s Internet era, the choice of programming language is particularly important. Go language, as a programming language developed by Google, has already occupied an important position in the Internet industry. In Go language, algorithms and data structures are a very important aspect. This article will explore the implementation of algorithms and data structures in Go from the perspective of the Go language.

1. Algorithm

Algorithm is an important concept in computer science. It is a set of instruction sequences to solve a certain problem. In Go, it is very simple to implement common algorithms. Here are some common algorithm implementations.

1. Quick sort

Quick sort is a common sorting algorithm. It is based on the idea of ​​"divide and conquer", decomposing a large problem into several small problems, and then recursively solve. In Go, the implementation of quick sort is very simple:

func quickSort(arr []int) []int {
    if len(arr) <= 1 {
        return arr
    }
    pivot := arr[0]
    left, right := []int{}, []int{}
    for _, v := range arr[1:len(arr)] {
        if v < pivot {
            left = append(left, v)
        } else {
            right = append(right, v)
        }
    }
    left = quickSort(left)
    right = quickSort(right)
    return append(append(left, pivot), right...)
}
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2. Binary search

Binary search is an algorithm for quickly finding elements in an ordered array, and its implementation in Go is also very simple. Simple:

func binarySearch(arr []int, target int) int {
    left, right := 0, len(arr)-1
    for left <= right {
        mid := (left + right) / 2
        if arr[mid] == target {
            return mid
        } else if arr[mid] < target {
            left = mid + 1
        } else {
            right = mid - 1
        }
    }
    return -1
}
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3. Breadth-first search

Breadth-first search is an algorithm in graph theory that is used to traverse all nodes in the graph. In Go, the implementation of breadth-first search is also very simple:

func bfs(graph map[string][]string, start string, end string) []string {
    queue := []string{start}
    visited := map[string]bool{start: true}
    path := map[string]string{}
    for len(queue) > 0 {
        node := queue[0]
        queue = queue[1:len(queue)]
        for _, v := range graph[node] {
            if _, ok := visited[v]; !ok {
                visited[v] = true
                path[v] = node
                queue = append(queue, v)
            }
            if v == end {
                p := []string{v}
                for node := path[v]; node != start; node = path[node] {
                    p = append([]string{node}, p...)
                }
                p = append([]string{start}, p...)
                return p
            }
        }
    }
    return []string{}
}
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2. Data structure

Data structure is another important concept in computer science. It is a way to store and organize data. In Go, there are many implemented data structures available, including arrays, slices, stacks, queues, linked lists, heaps, trees, and more.

1. Linked list

A linked list is a common data structure that consists of multiple nodes, each node containing a pointer to the next node. In Go, linked lists are also easy to implement:

type ListNode struct {
    Val  int
    Next *ListNode
}

func reverseList(head *ListNode) *ListNode {
    var prev, cur *ListNode = nil, head
    for cur != nil {
        next := cur.Next
        cur.Next = prev
        prev = cur
        cur = next
    }
    return prev
}
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2. Binary tree

Binary tree is a tree structure composed of multiple nodes, each node has at most two child nodes. In Go, binary trees can also be easily implemented:

type TreeNode struct {
    Val   int
    Left  *TreeNode
    Right *TreeNode
}

func inorderTraversal(root *TreeNode) []int {
    var res []int
    var inorder func(root *TreeNode)
    inorder = func(root *TreeNode) {
        if root != nil {
            inorder(root.Left)
            res = append(res, root.Val)
            inorder(root.Right)
        }
    }
    inorder(root)
    return res
}
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Summary

This article explores the implementation of algorithms and data structures from the perspective of the Go language. In Go, it is very simple to implement common algorithms and data structures, which is one of the reasons why the Go language is becoming more and more popular among developers. I hope this article can inspire everyone and deepen their understanding of the Go language, algorithms, and data structures.

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