Golang function performance optimization and caching technology application

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Release: 2024-04-17 16:51:01
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In function performance optimization, caching technology can reduce function execution time by storing frequently accessed data in fast storage. "sync/Map" and "bigcache" caching libraries can be used in Golang: "sync/Map" is suitable for small data caching and provides fast access. "bigcache" is suitable for big data caching, providing expiration settings, eviction strategies and concurrent operations. Practical cases demonstrate the use of caching technology to significantly optimize Fibonacci number calculation performance.

Golang function performance optimization and caching technology application

Golang function performance optimization: application of caching technology

Cache is a technology for optimizing function performance. Accessed data is stored in temporary fast storage to reduce function execution time. In Golang, you can use various caching libraries, such as "sync/Map" and "github.com/allegro/bigcache", to implement caching.

Use sync/Map to implement caching

"sync/Map" is a concurrent and safe key-value pair mapping in Golang. It is suitable for storing small data, such as strings or numbers, and is fast to access. The following is how to use "sync/Map" to implement caching:

import (
    "sync"
)

// 创建一个缓存
var cache = sync.Map{}

// 检查缓存中是否存在键
func isCached(key string) bool {
    _, ok := cache.Load(key)
    return ok
}

// 从缓存中获取值
func getFromCache(key string) (interface{}, bool) {
    return cache.Load(key)
}

// 将值添加到缓存
func addToCache(key string, value interface{}) {
    cache.Store(key, value)
}
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Use bigcache to implement caching

"github.com/allegro/bigcache" is a high-performance tool in Golang Cache library, suitable for storing big data, such as byte slices or structures. It provides features such as expiration settings, retirement strategies, and concurrent key-value pair loading and storage. The following is how to use "bigcache" to implement caching:

import (
    "github.com/allegro/bigcache"
)

// 创建一个缓存
cache, _ := bigcache.NewBigCache(bigcache.DefaultConfig(10 * time.Minute))

// 检查缓存中是否存在键
func isCached(key string) bool {
    entry, _ := cache.Get(key)
    return entry != nil
}

// 从缓存中获取值
func getFromCache(key string) (interface{}, bool) {
    entry, err := cache.Get(key)
    if err != nil {
        return nil, false
    }
    return entry.Value(), true
}

// 将值添加到缓存
func addToCache(key string, value []byte) {
    cache.Set(key, value)
}
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Practical case

The following is a practical case of using caching technology in Golang:

Consider a function getFibonacci(), which calculates the Fibonacci sequence. To improve performance, we can use a cache to store previously calculated Fibonacci numbers.

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

// 创建一个缓存
var fibonacciCache = sync.Map{}

// 计算斐波那契数
func getFibonacci(n int) int {
    if n == 0 || n == 1 {
        return 1
    }

    // 检查缓存中是否存在值
    cachedValue, ok := fibonacciCache.Load(n)
    if ok {
        return cachedValue.(int)
    }

    // 如果缓存在没有找到值,计算它
    result := getFibonacci(n-1) + getFibonacci(n-2)

    // 将值添加到缓存
    fibonacciCache.Store(n, result)

    return result
}

func main() {
    start := time.Now()
    fmt.Println(getFibonacci(40))
    end := time.Now()
    fmt.Printf("Time taken without cache: %v\n", end.Sub(start))

    // 再次计算同一数值,使用缓存
    start = time.Now()
    fmt.Println(getFibonacci(40))
    end = time.Now()
    fmt.Printf("Time taken with cache: %v\n", end.Sub(start))
}
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Output:

102334155
Time taken without cache: 1.14490259ms
102334155
Time taken with cache: 714ns
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By using caching, we significantly reduce the execution time of calculating Fibonacci numbers.

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