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How to use Go language for multi-threaded programming?

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2023-06-10 11:28:361542browse

With the rapid development of Internet applications, there are increasing demands for efficiency and concurrency. Multi-threaded programming has become one of the important means to improve application performance. The emergence of Go language provides a more convenient and efficient way for multi-threaded programming. This article will introduce how to use Go language for multi-threaded programming.

First of all, we need to understand the Goroutine and Channel of the Go language.

Coroutines are lightweight threads that are scheduled by the runtime environment of the Go language. Coroutines are started by the go keyword and run on a separate stack. The coroutines of the Go language are not operating system threads or processes, so the cost of creation and destruction is very small, and thousands or even millions of coroutines can be easily created.

Channels are a method of communication between coroutines and are implemented by the channel type of the Go language. Channels are divided into two types: buffered and unbuffered. Buffered channels can perform data transmission operations when the buffer is not full, while unbuffered channels require the sender and receiver to be ready at the same time to perform data transmission operations.

Next, we will use a simple example to introduce how to use Go language for multi-threaded programming. We will use Go language to calculate the first n numbers of the Fibonacci sequence.

First, we can calculate the Fibonacci sequence recursively. But this method is very time-consuming when calculating a large number of Fibonacci numbers.

func fibonacci(n int) int {
    if n <= 1 {
        return n
    }
    return fibonacci(n-1) + fibonacci(n-2)
}

We can use coroutines and channels of the Go language for concurrent calculations. We will create multiple coroutines to calculate Fibonacci numbers in different ranges, and then use channels to collect the calculation results, and finally get the entire Fibonacci sequence.

The following is the code implementation:

func fibonacci(n int, c chan int) {
    x, y := 0, 1
    for i := 0; i < n; i++ {
        c <- x
        x, y = y, x+y
    }
    close(c)
}

func main() {
    c := make(chan int)
    go fibonacci(10, c)
    for i := range c {
        fmt.Println(i)
    }
}

In the above code, we create a channel c and start a coroutine through the go keyword, which calculates the first 10 Fibonacci number and send the calculation results through channel c. In the main coroutine, we read all calculation results from channel c through the range keyword and print them out.

The coroutines and channels of the Go language make multi-threaded programming very simple and efficient. Through reasonable coroutine and channel design, efficient, fault-tolerant, and scalable concurrent applications can be written.

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