Golang代码片段

自重写程序

UNIX/Go语言之父 Ken Thompson 在1983年的图灵奖演讲 Reflections on Trusting Trust 就给出了一个C语言的自重写程序。

最短的C语言自重写程序是 Vlad Taeerov 和 Rashit Fakhreyev 的版本：

main(a){printf(a="main(a){printf(a=%c%s%c,34,a,34);}",34,a,34);} </code><br>

1	main(a){printf(a="main(a){printf(a=%c%s%c,34,a,34);}",34,a,34);} </code><br>

在 golang-nuts 中还有很多版本：

package main;func main(){c:="package main;func main(){c:=%q;print(c,c)}";print(c,c)}

1	package main;func main(){c:="package main;func main(){c:=%q;print(c,c)}";print(c,c)}

package main;func main(){print(c+"\x60"+c+"\x60")};var c=`package main;func main(){print(c+"\x60"+c+"\x60")};var c=` </code><br>

1	package main;func main(){print(c+"\x60"+c+"\x60")};var c=`package main;func main(){print(c+"\x60"+c+"\x60")};var c=` </code><br>

三元表达式

func If(condition bool, trueVal, falseVal interface{}) interface{} {
    if condition {
        return trueVal
    }
    return falseVal
}

a, b := 2, 3
max := If(a &gt; b, a, b).(int)
println(max)

func If(condition bool, trueVal, falseVal interface{}) interface{} {

if condition {

return trueVal

}

return falseVal

}

a, b := 2, 3

max := If(a > b, a, b).(int)

println(max)

禁止 main 函数退出的方法

func main() {
    defer func() { for {} }()
}

func main() {
    defer func() { select {} }()
}

func main() {
    defer func() { <-make(chan bool) }()
}

func main() {

defer func() { for {} }()

}

func main() {

defer func() { select {} }()

}

func main() {

defer func() { <-make(chan bool) }()

}

基于管道的随机数生成器

随机数的一个特点是不好预测。如果一个随机数的输出是可以简单预测的，那么一般会称为伪随机数。

func main() {
    for i := range random(100) {
        fmt.Println(i)
    }
}

func random(n int) <-chan int {
    c := make(chan int)
    go func() {
        defer close(c)
        for i := 0; i < n; i++ {
            select {
            case c <- 0:
            case c <- 1:
            }
        }
    }()
    return c
}

func main() {

for i := range random(100) {

fmt.Println(i)

}

func random(n int) <-chan int {

c := make(chan int)

go func() {

defer close(c)

for i := 0; i < n; i++ {

select {

case c <- 0:

case c <- 1:

}

}()

return c

}

基于select语言特性构造的随机数生成器。

Assert测试断言

type testing_TBHelper interface {
    Helper()
}

func Assert(tb testing.TB, condition bool, args ...interface{}) {
    if x, ok := tb.(testing_TBHelper); ok {
        x.Helper() // Go1.9+
    }
    if !condition {
        if msg := fmt.Sprint(args...); msg != "" {
            tb.Fatalf("Assert failed, %s", msg)
        } else {
            tb.Fatalf("Assert failed")
        }
    }
}

func Assertf(tb testing.TB, condition bool, format string, a ...interface{}) {
    if x, ok := tb.(testing_TBHelper); ok {
        x.Helper() // Go1.9+
    }
    if !condition {
        if msg := fmt.Sprintf(format, a...); msg != "" {
            tb.Fatalf("Assertf failed, %s", msg)
        } else {
            tb.Fatalf("Assertf failed")
        }
    }
}

func AssertFunc(tb testing.TB, fn func() error) {
    if x, ok := tb.(testing_TBHelper); ok {
        x.Helper() // Go1.9+
    }
    if err := fn(); err != nil {
        tb.Fatalf("AssertFunc failed, %v", err)
    }
}

type testing_TBHelper interface {

Helper()

}

func Assert(tb testing.TB, condition bool, args ...interface{}) {

if x, ok := tb.(testing_TBHelper); ok {

x.Helper() // Go1.9+

}

if !condition {

if msg := fmt.Sprint(args...); msg != "" {

tb.Fatalf("Assert failed, %s", msg)

} else {

tb.Fatalf("Assert failed")

}

func Assertf(tb testing.TB, condition bool, format string, a ...interface{}) {

if x, ok := tb.(testing_TBHelper); ok {

x.Helper() // Go1.9+

}

if !condition {

if msg := fmt.Sprintf(format, a...); msg != "" {

tb.Fatalf("Assertf failed, %s", msg)

} else {

tb.Fatalf("Assertf failed")

}

func AssertFunc(tb testing.TB, fn func() error) {

if x, ok := tb.(testing_TBHelper); ok {

x.Helper() // Go1.9+

}

if err := fn(); err != nil {

tb.Fatalf("AssertFunc failed, %v", err)

}

自重写程序

三元表达式

禁止 main 函数退出的方法

基于管道的随机数生成器

Assert测试断言