我对Go语言比较陌生。虽然我不希望这样,但我可能会用一个愚蠢的问题打扰你。我先生道歉,以防万一...
这是我的例子:我定义了一个worker()函数,它从main()作为一组并发Go例程调用。输入和输出数据通过slice type [] int的输入和输出通道提供。在一种情况下,一切都按预期工作,在另一种情况下,结果是错误的。请参阅代码中的注释和代码下面的程序输出。
老实说,我没有看到两种代码变体之间的实际差异。我在这里想念的是什么?谢谢你的任何建议!
package main
import "fmt"
import "runtime"
func worker(x_ch <-chan []int, y_ch chan<- []int, wid int) {
for x := range x_ch {
y := x
fmt.Println(" worker", wid, "x:", x)
fmt.Println(" worker", wid, "y:", y)
y_ch <- y
}
}
func main() {
n_workers := runtime.NumCPU()
n_len := 4
n_jobs := 4
x := make([]int, n_len)
x_ch := make(chan []int, 10)
y_ch := make(chan []int, 10)
for j := 0; j < n_workers; j++ { go worker(x_ch, y_ch, j) }
for k := 0; k < n_jobs; k++ {
// variant 1: works!
x = []int{k, k, k, k}
// variant 2: doesn't work!
// for i := range x { x[i] = k }
fmt.Println("main x:", k, x)
x_ch <- x
}
close(x_ch)
for i := 0; i < n_jobs; i++ {
z := <- y_ch
fmt.Println(" main y:", i, z)
}
}
正确输出(变体1):
main x: 0 [0 0 0 0]
main x: 1 [1 1 1 1]
main x: 2 [2 2 2 2]
main x: 3 [3 3 3 3]
worker 3 x: [3 3 3 3]
worker 3 y: [3 3 3 3]
worker 2 x: [2 2 2 2]
worker 2 y: [2 2 2 2]
worker 1 x: [0 0 0 0]
worker 1 y: [0 0 0 0]
worker 0 x: [1 1 1 1]
worker 0 y: [1 1 1 1]
main y: 0 [3 3 3 3]
main y: 1 [2 2 2 2]
main y: 2 [0 0 0 0]
main y: 3 [1 1 1 1]
输出错误(变体2):
main x: 0 [0 0 0 0]
main x: 1 [1 1 1 1]
main x: 2 [2 2 2 2]
main x: 3 [3 3 3 3]
worker 3 x: [3 3 3 3]
worker 3 y: [3 3 3 3]
main y: 0 [3 3 3 3]
worker 0 x: [2 2 2 2]
worker 0 y: [3 3 3 3]
main y: 1 [3 3 3 3]
worker 1 x: [1 1 1 1]
worker 1 y: [3 3 3 3]
main y: 2 [3 3 3 3]
worker 2 x: [3 3 3 3]
worker 2 y: [3 3 3 3]
main y: 3 [3 3 3 3]
答案 0 :(得分:1)
不同之处在于,在变体1中,您每次都会发送不同的切片,而在变体2中,您每次都会发送相同的切片(在for循环之上创建的切片)。在不创建新切片的情况下,您只需将同一切片的元素设置为不同的值,因此goroutines会在看到切片时看到切片中的任何值。在变体2中,main将始终看到[3 3 3 3],因为这是您完成循环4次后的最终值。切片对象的值包含对基础元素的引用,而不是元素本身。切片here有一个很好的解释。
答案 1 :(得分:0)
非常感谢你的解释,现在我知道问题所在。我添加了一些调试代码来输出指针地址,结果是(稍微重新格式化输出):
变式1:
main 0 x=[0 0 0 0] &x=0x1830e180 &x[0]=0x1830e1e0
main 1 x=[1 1 1 1] &x=0x1830e180 &x[0]=0x1830e230
main 2 x=[2 2 2 2] &x=0x1830e180 &x[0]=0x1830e270
main 3 x=[3 3 3 3] &x=0x1830e180 &x[0]=0x1830e2a0
worker 3 x=[3 3 3 3] &x=0x1830e1d0 &x[0]=0x1830e2a0
worker 3 y=[3 3 3 3] &y=0x1830e2e0 &y[0]=0x1830e2a0
main 0 y=[3 3 3 3] &y=0x1830e2d0 &y[0]=0x1830e2a0
worker 0 x=[0 0 0 0] &x=0x1830e1a0 &x[0]=0x1830e1e0
worker 0 y=[0 0 0 0] &y=0x1830e370 &y[0]=0x1830e1e0
main 1 y=[0 0 0 0] &y=0x1830e360 &y[0]=0x1830e1e0
worker 1 x=[1 1 1 1] &x=0x1830e1b0 &x[0]=0x1830e230
worker 1 y=[1 1 1 1] &y=0x1830e400 &y[0]=0x1830e230
main 2 y=[1 1 1 1] &y=0x1830e3f0 &y[0]=0x1830e230
worker 2 x=[2 2 2 2] &x=0x1830e1c0 &x[0]=0x1830e270
worker 2 y=[2 2 2 2] &y=0x1830e480 &y[0]=0x1830e270
main 3 y=[2 2 2 2] &y=0x1830e470 &y[0]=0x1830e270
变式2:
main 0 x=[0 0 0 0] &x=0x1830e180 &x[0]=0x1830e190
main 1 x=[1 1 1 1] &x=0x1830e180 &x[0]=0x1830e190
main 2 x=[2 2 2 2] &x=0x1830e180 &x[0]=0x1830e190
main 3 x=[3 3 3 3] &x=0x1830e180 &x[0]=0x1830e190
worker 3 x=[3 3 3 3] &x=0x1830e1d0 &x[0]=0x1830e190
worker 3 y=[3 3 3 3] &y=0x1830e2a0 &y[0]=0x1830e190
main 0 y=[3 3 3 3] &y=0x1830e290 &y[0]=0x1830e190
worker 0 x=[3 3 3 3] &x=0x1830e1a0 &x[0]=0x1830e190
worker 0 y=[3 3 3 3] &y=0x1830e330 &y[0]=0x1830e190
main 1 y=[3 3 3 3] &y=0x1830e320 &y[0]=0x1830e190
worker 1 x=[3 3 3 3] &x=0x1830e1b0 &x[0]=0x1830e190
worker 1 y=[3 3 3 3] &y=0x1830e3c0 &y[0]=0x1830e190
main 2 y=[3 3 3 3] &y=0x1830e3b0 &y[0]=0x1830e190
worker 2 x=[3 3 3 3] &x=0x1830e1c0 &x[0]=0x1830e190
worker 2 y=[3 3 3 3] &y=0x1830e440 &y[0]=0x1830e190
main 3 y=[3 3 3 3] &y=0x1830e430 &y[0]=0x1830e190