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Pipeline communication and goroutine concurrency practice of Golang functions

王林
Release: 2023-05-17 13:00:22
Original
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Golang is an efficient programming language with very powerful concurrent programming capabilities. Among them, pipeline communication and goroutine concurrency are two very important features of Golang. In this article, we will introduce how to use pipeline communication and goroutine concurrency of Golang functions to achieve efficient programming.

1. Pipeline Communication

Pipeline communication refers to using a pipe to communicate data in Golang. The producer in the program writes data to the pipeline, and the consumer reads data from the pipeline. Data exchange between different goroutines is realized through the pipeline. For pipes, there are two types: buffered and unbuffered.

Buffered pipes do not need to wait for reading when writing data, but temporarily store the data in the pipe and wait until there is no data in the pipe before reading. When there is cached data in the pipeline, you can use the select statement to perform non-blocking read and write operations. Unbuffered pipes require writes and reads to be paired, that is, writes wait until a read occurs.

The following is a sample code that illustrates how to use pipes to implement communication between producers and consumers:

func main() {

ch := make(chan int)  // 创建一个整型管道
go producer(ch)       // 启动生产者函数
consumer(ch)          // 启动消费者函数
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}

// Producer function, writes data to the pipe
func producer(ch chan int) {

for i := 0; i < 10; i++ {
    ch <- i  // 将数据写入管道
}
close(ch)  // 关闭管道
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}

// Consumer function, reads from the pipe data
func consumer(ch chan int) {

for {
    // 非阻塞式读取管道数据
    select {
    case num, ok := <-ch:  // 获取管道的值
        if ok {
            fmt.Println("Consumer received", num)  // 打印数据
        } else {
            fmt.Println("Channel closed")
            return  // 退出函数
        }
    default:
        // 没有读取到管道数据,进行其他操作
        time.Sleep(time.Second)
    }
}
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}

In this example, the producer function continuously writes data to the pipe through the pipe. The consumer function reads data from the pipe through the select statement, which is a non-blocking read operation. If there is data in the pipeline, the code in the case statement will be executed, otherwise the default statement will be executed to perform other operations.

2. Goroutine concurrency

The goroutine in Golang is a lightweight thread that can run simultaneously with other goroutines. The creation and operation of goroutine is very efficient and can greatly improve the concurrency capability of the program.

In Golang, you can start a new goroutine through the keyword go. When there are multiple goroutines in the program, data exchange and synchronization operations can be performed through channels and other methods to achieve efficient concurrent programming.

The following is a sample code that illustrates how to use goroutine to implement concurrent operations:

func main() {

ch := make(chan int)  // 创建一个整型管道
for i := 0; i < 10; i++ {
    go doWork(i, ch)  // 启动10个goroutine
}
for i := 0; i < 10; i++ {
    <-ch  // 阻塞式从管道中读取数据
}
close(ch)  // 关闭管道
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}

// For each Work with an integer number
func doWork(i int, ch chan int) {

fmt.Println("Doing work", i)
time.Sleep(time.Second)  // 休眠1秒
ch <- i                  // 写入整型数到管道
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}

In this example, we create 10 new goroutines through the go keyword , and perform printing operations and 1 second of sleep in each goroutine. After each goroutine completes its operation, its corresponding integer will be written to the pipe. In the main function, we use blocking reading to read 10 integers from the pipe to ensure that each goroutine has completed the operation.

Summary

In Golang, pipeline communication and goroutine concurrency are two important features to achieve efficient programming. Through pipeline communication, we can exchange data between different goroutines to achieve program decoupling and concurrent execution. At the same time, through goroutine concurrency, we can execute multiple tasks at the same time and improve the execution efficiency of the program.

It is worth noting that when using pipeline communication and goroutine concurrency, you need to pay attention to the problem of data competition. During concurrent execution, different goroutines may access the same variable at the same time. We need to use Golang's atomic operations or mutex locks to perform concurrent operations.

I hope this article can help you better understand the use of pipeline communication and goroutine concurrency, and apply them in practice.

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