source: doc/theses/colby_parsons_MMAth/benchmarks/channels/go/churn/churn.go@ b28ce93

Last change on this file since b28ce93 was e2f827f, checked in by caparson <caparson@…>, 2 years ago

added go counterpart to cfa benchmarks
  • Property mode set to 100644
File size: 3.2 KB
Line 
1package main
2
3import (
4 "fmt"
5 "sync"
6 "math/rand"
7 "time"
8 "runtime"
9 "os"
10 "strconv"
11)
12
13var Processors, Channels, Producers, Consumers, ChannelSize int = 1, 4, 1, 1, 128
14var cons_done, prod_done bool = false, false;
15var total_operations, cons_check, prod_check uint64 = 0, 0, 0
16var m sync.Mutex
17
18var prodJoin chan int = make(chan int, Producers + 1)
19var consJoin chan int = make(chan int, Consumers + 1)
20
21func getRandArray() []int {
22 chanIndices := make( [] int, Channels )
23 for i := 0; i < Channels; i += 1 {
24 chanIndices[i] = i
25 }
26 for i := 0; i < Channels; i += 1 {
27 var loc_1 int = rand.Intn(Channels) % Channels
28 var loc_2 int = rand.Intn(Channels) % Channels;
29 var temp int = chanIndices[loc_1]
30 chanIndices[loc_1] = chanIndices[loc_2]
31 chanIndices[loc_2] = temp
32 }
33 return chanIndices
34}
35
36func consumer( chans [] chan uint64 ) {
37 var count uint64 = 0
38 var checksum uint64 = 0
39 var i int = 0
40 chanIndices := getRandArray()
41 for {
42 if cons_done { break }
43 j := <- chans[ chanIndices[ i ] ]
44 i = (i + 1) % Channels
45 checksum = checksum ^ j
46 if ! prod_done { count++ }
47 }
48 m.Lock()
49 total_operations += count
50 cons_check = cons_check ^ checksum
51 m.Unlock()
52 consJoin <- 0
53}
54
55func producer( chans [] chan uint64 ) {
56 var count uint64 = 0
57 var i int = 0
58 var checksum uint64 = 0
59 chanIndices := getRandArray()
60 for {
61 if prod_done { break }
62 chans[ chanIndices[ i ] ] <- count
63 i = (i + 1) % Channels
64 checksum = checksum ^ count
65 count++
66 }
67 m.Lock()
68 total_operations += count
69 prod_check = prod_check ^ checksum
70 m.Unlock()
71 prodJoin <- 0
72}
73
74func usage() {
75 fmt.Printf( "Usage: %v " +
76 "[ processors (> 0) | 'd' (default %v) ] " +
77 "[ ChannelSize (> 0) | 'd' (default %v) ]\n",
78 os.Args[0], Processors, ChannelSize );
79 os.Exit( 1 );
80}
81
82func main() {
83 switch len( os.Args ) {
84 case 3:
85 if os.Args[2] != "d" { // default ?
86 Channels, _ = strconv.Atoi( os.Args[2] )
87 if Channels < 0 { usage(); }
88 } // if
89 fallthrough
90 case 2:
91 if os.Args[1] != "d" { // default ?
92 Processors, _ = strconv.Atoi( os.Args[1] )
93 if Processors < 1 { usage(); }
94 } // if
95 case 1: // use defaults
96 default:
97 usage();
98 } // switch
99 runtime.GOMAXPROCS( Processors );
100 Producers = Processors /2
101 Consumers = Processors /2
102
103 // fmt.Println("Processors: ",Processors," Channels: ",Channels," Prods: ",Producers," Cons: ",Consumers," Channel Size: ",ChannelSize)
104
105 chans := make( [] chan uint64, Channels )
106 for i := range chans {
107 chans[i] = make(chan uint64, ChannelSize)
108 }
109
110 for j := 0; j < Consumers; j++ {
111 go consumer( chans )
112 }
113
114 for j := 0; j < Producers; j++ {
115 go producer( chans )
116 }
117
118 // wait 10 seconds
119 time.Sleep(time.Second * 10)
120 prod_done = true
121
122 for j := 0; j < Producers; j++ {
123 <-prodJoin
124 }
125
126 cons_done = true
127
128 for i := range chans {
129 for j := 0; j < Consumers; j++ {
130 select {
131 case chans[i] <- 0:
132
133 default:
134 break
135 }
136 }
137 }
138 for j := 0; j < Consumers; j++{
139 <-consJoin
140 }
141 for i := range chans {
142 L: for {
143 select {
144 case k := <-chans[i]:
145 cons_check = cons_check ^ k
146 default:
147 break L
148 }
149 }
150 }
151 if cons_check != prod_check {
152 fmt.Println("\nChecksum mismatch: Cons: %d, Prods: %d", cons_check, prod_check)
153 }
154
155 fmt.Println(total_operations)
156}
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