modernc.org/gc@v1.0.1-0.20240304020402-f0dba7c97c2b/testdata/errchk/test/chan/sieve2.go (about) 1 // run 2 3 // Copyright 2009 The Go Authors. All rights reserved. 4 // Use of this source code is governed by a BSD-style 5 // license that can be found in the LICENSE file. 6 7 // Test concurrency primitives: prime sieve of Eratosthenes. 8 9 // Generate primes up to 100 using channels, checking the results. 10 // This sieve is Eratosthenesque and only considers odd candidates. 11 // See discussion at <http://blog.onideas.ws/eratosthenes.go>. 12 13 package main 14 15 import ( 16 "container/heap" 17 "container/ring" 18 ) 19 20 // Return a chan of odd numbers, starting from 5. 21 func odds() chan int { 22 out := make(chan int, 50) 23 go func() { 24 n := 5 25 for { 26 out <- n 27 n += 2 28 } 29 }() 30 return out 31 } 32 33 // Return a chan of odd multiples of the prime number p, starting from p*p. 34 func multiples(p int) chan int { 35 out := make(chan int, 10) 36 go func() { 37 n := p * p 38 for { 39 out <- n 40 n += 2 * p 41 } 42 }() 43 return out 44 } 45 46 type PeekCh struct { 47 head int 48 ch chan int 49 } 50 51 // Heap of PeekCh, sorting by head values, satisfies Heap interface. 52 type PeekChHeap []*PeekCh 53 54 func (h *PeekChHeap) Less(i, j int) bool { 55 return (*h)[i].head < (*h)[j].head 56 } 57 58 func (h *PeekChHeap) Swap(i, j int) { 59 (*h)[i], (*h)[j] = (*h)[j], (*h)[i] 60 } 61 62 func (h *PeekChHeap) Len() int { 63 return len(*h) 64 } 65 66 func (h *PeekChHeap) Pop() (v interface{}) { 67 *h, v = (*h)[:h.Len()-1], (*h)[h.Len()-1] 68 return 69 } 70 71 func (h *PeekChHeap) Push(v interface{}) { 72 *h = append(*h, v.(*PeekCh)) 73 } 74 75 // Return a channel to serve as a sending proxy to 'out'. 76 // Use a goroutine to receive values from 'out' and store them 77 // in an expanding buffer, so that sending to 'out' never blocks. 78 func sendproxy(out chan<- int) chan<- int { 79 proxy := make(chan int, 10) 80 go func() { 81 n := 16 // the allocated size of the circular queue 82 first := ring.New(n) 83 last := first 84 var c chan<- int 85 var e int 86 for { 87 c = out 88 if first == last { 89 // buffer empty: disable output 90 c = nil 91 } else { 92 e = first.Value.(int) 93 } 94 select { 95 case e = <-proxy: 96 last.Value = e 97 if last.Next() == first { 98 // buffer full: expand it 99 last.Link(ring.New(n)) 100 n *= 2 101 } 102 last = last.Next() 103 case c <- e: 104 first = first.Next() 105 } 106 } 107 }() 108 return proxy 109 } 110 111 // Return a chan int of primes. 112 func Sieve() chan int { 113 // The output values. 114 out := make(chan int, 10) 115 out <- 2 116 out <- 3 117 118 // The channel of all composites to be eliminated in increasing order. 119 composites := make(chan int, 50) 120 121 // The feedback loop. 122 primes := make(chan int, 10) 123 primes <- 3 124 125 // Merge channels of multiples of 'primes' into 'composites'. 126 go func() { 127 var h PeekChHeap 128 min := 15 129 for { 130 m := multiples(<-primes) 131 head := <-m 132 for min < head { 133 composites <- min 134 minchan := heap.Pop(&h).(*PeekCh) 135 min = minchan.head 136 minchan.head = <-minchan.ch 137 heap.Push(&h, minchan) 138 } 139 for min == head { 140 minchan := heap.Pop(&h).(*PeekCh) 141 min = minchan.head 142 minchan.head = <-minchan.ch 143 heap.Push(&h, minchan) 144 } 145 composites <- head 146 heap.Push(&h, &PeekCh{<-m, m}) 147 } 148 }() 149 150 // Sieve out 'composites' from 'candidates'. 151 go func() { 152 // In order to generate the nth prime we only need multiples of 153 // primes ≤ sqrt(nth prime). Thus, the merging goroutine will 154 // receive from 'primes' much slower than this goroutine 155 // will send to it, making the buffer accumulate and block this 156 // goroutine from sending, causing a deadlock. The solution is to 157 // use a proxy goroutine to do automatic buffering. 158 primes := sendproxy(primes) 159 160 candidates := odds() 161 p := <-candidates 162 163 for { 164 c := <-composites 165 for p < c { 166 primes <- p 167 out <- p 168 p = <-candidates 169 } 170 if p == c { 171 p = <-candidates 172 } 173 } 174 }() 175 176 return out 177 } 178 179 func main() { 180 primes := Sieve() 181 a := []int{2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97} 182 for i := 0; i < len(a); i++ { 183 if x := <-primes; x != a[i] { 184 println(x, " != ", a[i]) 185 panic("fail") 186 } 187 } 188 }