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HomeBackend DevelopmentGolangExploring the underlying implementation of Go language: What exactly is used?

Exploring the underlying implementation of Go language: What exactly is used?

Exploring the underlying implementation of Go language: What exactly is used?

As an efficient and concise programming language, Go language is deeply loved by developers. The underlying implementation behind it has always been a topic that developers want to know more about. In this article, we will explore what technologies and features are used in the underlying implementation of the Go language, and reveal the secrets hidden behind the code for readers.

Programming language background of Go language

Before we delve into the underlying implementation of Go language, let’s first understand the programming language background of Go language. The Go language originated in 2007, was developed by Google, and was officially released in 2009. The Go language is designed to be a language that supports concurrent and efficient programming, with features such as garbage collection, memory safety, and inter-process communication. The Go language aims to provide a concise and efficient programming method suitable for various application scenarios.

Exploring the underlying implementation of Go language

1. Scheduler (Scheduler)

The scheduler of Go language is one of the cores of its underlying implementation. The Go language uses a concurrent programming model called "Goroutine", and each Goroutine is managed by a scheduler. The scheduler is responsible for assigning Goroutines to processors for execution to achieve concurrent operation. The M:N scheduling model is introduced in the scheduler, that is, M Goroutines are scheduled to be executed in N system threads, where M and N can be dynamically adjusted to maintain system efficiency.

The following is a simple example that demonstrates how to use Goroutine to achieve concurrency in the Go language:

package main

import (
    "fmt"
    "time"
)

func sayHello() {
    for i := 0; i < 5; i++ {
        fmt.Println("Hello")
        time.Sleep(100 * time.Millisecond)
    }
}

func main() {
    go sayHello() // 启动一个Goroutine并发执行sayHello函数
    time.Sleep(1 * time.Second)
    fmt.Println("Main function")
}

In the above example, start a new one through the go keyword Goroutine concurrently executes the sayHello function while the main function continues to execute. This concurrency model enables the Go language to handle concurrent tasks efficiently.

2. Garbage Collection

Garbage collection of Go language is another important underlying implementation feature. The Go language automatically manages memory allocation and release through the Garbage Collector, avoiding the complexity and errors of manual memory management. The garbage collector periodically scans program memory, marking and cleaning objects that are no longer used to free up their memory space.

The following is a simple example showing the garbage collection feature in the Go language:

package main

import "fmt"

func main() {
    var a *int
    for i := 0; i < 10; i++ {
        a = new(int)
    }
    fmt.Println(a)
}

In the above example, 10 int type memory spaces are allocated through a loop , but since the memory is not released manually, these objects will be automatically released by the garbage collector. By using garbage collection, the Go language can effectively manage memory and prevent memory leaks and other memory-related errors.

3. Memory Model

The memory model of the Go language defines how the program accesses memory and how to ensure concurrency safety. The Go language adopts a memory model based on the "happens-before" relationship to ensure that access to shared variables is correctly synchronized. The memory model in the Go language supports both atomic operations and mutexes to achieve multi-threaded concurrent safe access.

The following is a simple example showing the atomic operation feature in the Go language:

package main

import (
    "sync/atomic"
    "fmt"
)

func main() {
    var count int32 = 0
    atomic.AddInt32(&count, 1)
    fmt.Println(count)
}

In the above example, the ## is implemented through the atomic.AddInt32 function #countAtomic addition operation of variables. This atomic operation ensures that access to shared variables is synchronized, avoiding race conditions and data races.

Conclusion

Through the exploration of this article, we have an in-depth understanding of the scheduler, garbage collection, memory model and other technologies and features used in the underlying implementation of the Go language. These underlying implementations ensure the superior performance, concurrency and security of Go language, making Go language one of the most popular programming languages ​​today. I hope this article can help readers better understand and use the Go language and explore deeper aspects of programming.

[Leave a message at the end of the article] Do you have any questions about the underlying implementation of the Go language or any experiences you want to share? Welcome to leave a message in the comment area and discuss together!

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