福哥答案2020-06-01:
fork/join。
对于百万级长度的数组求和,单线程和多线程下区别不大。
对于千万级长度的数组求和,多线程明显变快,大概是单线程的2-3倍。
go语言测试代码如下:
package test18_sum100w import (
"fmt"
"math/rand"
"testing"
"time"
) const (
ARRLEN = 100_0000
) var arr []int func init() {
arr = make([]int, ARRLEN)
rand.Seed(time.Now().UnixNano())
for i := 0; i < ARRLEN; i++ {
arr[i] = rand.Intn(10_0000_0000)
}
fmt.Println("初始化完成")
}
func TestAA(t *testing.T) { }
func TestMutiThreadsToSum(t *testing.T) {
fmt.Println("多线程开始")
now := time.Now()
sum := 0
const MAXGE = 10000
const MAXHANG = 100
ch := make(chan int, MAXHANG)
f := func(i int) {
sumtemp := 0
for j := 0; j < MAXGE; j++ {
sumtemp += arr[i*MAXGE+j]
}
ch <- sumtemp }
for i := 0; i < MAXHANG; i++ {
go f(i)
}
for i := 0; i < MAXHANG; i++ {
sum += <-ch
}
fmt.Println(sum)
fmt.Println("多线程结束", time.Now().Sub(now))
} //go test -v -test.run TestSingleThreadToSum
//go test -bench=. -test.run TestSingleThreadToSum
//go test -v -cover -run TestSingleThreadToSum
func TestSingleThreadToSum(t *testing.T) {
fmt.Println("单线程开始")
now := time.Now()
sum := 0
for i := 0; i < ARRLEN; i++ {
sum += arr[i]
}
fmt.Println(sum)
fmt.Println("单线程结束", time.Now().Sub(now))
}
敲命令go test -v:
改下代码,将100万数组改成1000万。测试结果如下:
ARRLEN = 1000_0000
const MAXHANG = 1000
