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Practical application of caching technology and task scheduling in Golang.

王林
Release: 2023-06-21 13:44:39
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Practical application of caching technology and task scheduling in Golang

Since its inception in 2009, the Golang language has become a commonly used programming language in cloud computing, big data, blockchain and other fields. Among them, the high concurrency, coroutine and garbage collection mechanism of Golang language are considered to be its unique advantages.

In practical applications, caching technology and task scheduling are commonly used technical means. This article will introduce the practical application of caching technology and task scheduling in Golang language.

  1. Caching technology

Caching technology refers to storing commonly used data in memory to reduce the frequency of system I/O operations and thereby improve the system's response speed. The Golang language comes with the memory cache library sync.Map.

sync.Map is a concurrently safe key-value storage structure that will not cause race conditions when multiple concurrent coroutines read and write. Its design is relatively clever and can effectively improve the efficiency of concurrent access.

The following is a simple cache implementation:

package main

import (
    "fmt"
    "sync"
    "time"
)

type cache struct {
    sync.Map
}

func main() {
    c := &cache{}
    
    c.SetCache("key1", "value1", 3*time.Second) //3秒后过期
    fmt.Println(c.GetCache("key1")) //value1
    
    time.Sleep(2*time.Second)
    fmt.Println(c.GetCache("key1")) //value1
    
    time.Sleep(2*time.Second)
    fmt.Println(c.GetCache("key1")) //nil
}

func (c *cache) SetCache(key string, value interface{}, ttl time.Duration) {
    c.Store(key, &item{
        CreateAt: time.Now(),
        ExpireAt: time.Now().Add(ttl),
        Value:    value,
    })
}

func (c *cache) GetCache(key string) interface{} {
    if v, ok := c.Load(key); ok {
        item := v.(*item)
        if item.ExpireAt.Before(time.Now()) {
            c.Delete(key)
            return nil
        }
        return item.Value
    }
    return nil
}

type item struct {
    CreateAt time.Time
    ExpireAt time.Time
    Value    interface{}
}
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In the above code, the cached key-value pairs are saved in the form of an item structure, where CreateAt represents the time when the cached data was created, and ExpireAt represents the cache. The expiration time of the data, Value represents the specific content of the cache. When the expiration time is reached, the cache will be deleted.

  1. Task Scheduling

Task scheduling refers to assigning tasks to different coroutines for execution according to certain rules, time intervals or event triggering rules. The Golang language provides scheduled scheduling and task cancellation functions through the time package and context package.

The following is a simple task scheduling implementation:

package main

import (
    "context"
    "fmt"
    "time"
)

func main() {
    ctx, cancel := context.WithCancel(context.Background())
    go schedule(ctx)

    time.Sleep(10 * time.Second)
    cancel()
}

func schedule(ctx context.Context) {
    ticker := time.NewTicker(1 * time.Second)
    defer ticker.Stop()

    for {
        select {
        case <-ticker.C:
            fmt.Println("execute some job")
        case <-ctx.Done():
            fmt.Println("cancel all jobs")
            return
        }
    }
}
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In the above code, the timer executes the task every second. When cancel() is called, the task will be canceled. In practical applications, it can be adjusted according to specific needs.

  1. Conclusion

This article introduces the practical application of caching technology and task scheduling in the Golang language, which can effectively improve the response speed and operating efficiency of the system. In practical applications, it can also be combined with network programming, database operations and other technical means to build a high-performance distributed system.

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