mirror of
https://github.com/crazybber/awesome-patterns.git
synced 2024-12-01 17:36:09 +03:00
124 lines
3.4 KiB
Go
124 lines
3.4 KiB
Go
package main
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import (
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"bytes"
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"fmt"
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"sync"
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"time"
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"github.com/golang/go/src/pkg/math/rand"
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)
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// Confinement is the simple yet powerful idea of ensuring information is only ever available from one concurrent process.
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// There are two kinds of confinement possible: ad hoc and lexical.
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// Lexical confinement involves using lexical scope to expose only the correct data and
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// concurrency primitives for multiple concurrent processes to use. It makes it impossible to do the wrong thing.
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// If a goroutine is responsible for creating a goroutine, it is also responsible for ensuring it can stop the goroutine.
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func main() {
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// lexicalNotConcurrentSafe()
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// lexicalDemo()
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// blockOnAttemptingToWriteToChannel()
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fixBlockOnAttemptingToWriteToChannel()
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}
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func lexicalDemo() {
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// Here we instantiate the channel within the lexical scope of the chanOwner function.
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// This limits the scope of the write aspect of the results channel to the closure
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// defined below it. In other words, it confines the write aspect of this channel to
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// prevent other goroutines from writing to it.
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chanOwner := func() <-chan int {
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results := make(chan int, 5)
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go func() {
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defer close(results)
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for i := 0; i <= 5; i++ {
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results <- i
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}
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}()
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return results
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}
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// Here we receive a read-only copy of an int channel. By declaring that the only
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// usage we require is read access, we confine usage of the channel within the consume function to only reads
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comsumer := func(results <-chan int) {
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for result := range results {
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fmt.Println("Received: %d\n", result)
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}
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fmt.Println("Done Receiving!")
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}
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// Here we receive the read aspect of the channel and we’re able to pass it into the
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// consumer, which can do nothing but read from it. Once again this confines the
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// main goroutine to a read-only view of the channel.
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results := chanOwner()
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comsumer(results)
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}
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func lexicalNotConcurrentSafe() {
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printData := func(wg *sync.WaitGroup, data []byte) {
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defer wg.Done()
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var buff bytes.Buffer
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for _, b := range data {
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fmt.Fprintf(&buff, "%c", b)
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}
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fmt.Println(buff.String())
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}
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var wg sync.WaitGroup
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wg.Add(2)
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data := []byte("golang")
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// Here we pass in a slice containing the first three bytes in the data structure.
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go printData(&wg, data[:3])
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// Here we pass in a slice containing the last three bytes in the data structure.
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go printData(&wg, data[3:])
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wg.Wait()
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}
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func blockOnAttemptingToWriteToChannel() {
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newRandStream := func() <-chan int {
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randStream := make(chan int)
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go func() {
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defer fmt.Println("newRandStream closure existed.")
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defer close(randStream)
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for {
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randStream <- rand.Int()
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}
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}()
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return randStream
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}
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randStream := newRandStream()
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fmt.Println("3 random ints:")
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for i := 1; i <= 3; i++ {
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fmt.Printf("%d: %d\n", i, <-randStream)
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}
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}
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// The solution, just like for the receiving case, is to provide the
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// producer goroutine with a channel informing it to exit
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func fixBlockOnAttemptingToWriteToChannel() {
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d := make(chan interface{})
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newRandStream := func(done <-chan interface{}) <-chan int {
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randStream := make(chan int)
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go func() {
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defer fmt.Println("newRandStream closure existed.")
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defer close(randStream)
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for {
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select {
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case randStream <- rand.Int():
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case <-done:
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return
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}
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}
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}()
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return randStream
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}
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randStream := newRandStream(d)
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fmt.Println("3 random ints:")
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for i := 1; i <= 3; i++ {
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fmt.Printf("%d: %d\n", i, <-randStream)
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}
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close(d)
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time.Sleep(1 * time.Second)
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}
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