[90ecade] | 1 | package main |
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| 2 | |
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| 3 | import ( |
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[2dd0689] | 4 | "context" |
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[90ecade] | 5 | "flag" |
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| 6 | "fmt" |
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| 7 | "math/rand" |
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| 8 | "os" |
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[aa1d13c] | 9 | "syscall" |
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[90ecade] | 10 | "sync/atomic" |
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| 11 | "time" |
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[2dd0689] | 12 | "unsafe" |
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| 13 | "golang.org/x/sync/semaphore" |
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[90ecade] | 14 | "golang.org/x/text/language" |
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| 15 | "golang.org/x/text/message" |
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| 16 | ) |
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| 17 | |
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[aa1d13c] | 18 | // ================================================== |
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| 19 | type MyData struct { |
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[3d19ae6] | 20 | _p1 [16]uint64 // padding |
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[aa1d13c] | 21 | ttid int |
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| 22 | id int |
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| 23 | data [] uint64 |
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[3d19ae6] | 24 | _p2 [16]uint64 // padding |
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[aa1d13c] | 25 | } |
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| 26 | |
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| 27 | func NewData(id int, size uint64) (*MyData) { |
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| 28 | var data [] uint64 |
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| 29 | data = make([]uint64, size) |
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| 30 | for i := uint64(0); i < size; i++ { |
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| 31 | data[i] = 0 |
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| 32 | } |
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[3d19ae6] | 33 | return &MyData{[16]uint64{0}, syscall.Gettid(), id, data,[16]uint64{0}} |
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[aa1d13c] | 34 | } |
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| 35 | |
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| 36 | func (this * MyData) moved( ttid int ) (uint64) { |
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| 37 | if this.ttid == ttid { |
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| 38 | return 0 |
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| 39 | } |
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| 40 | this.ttid = ttid |
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| 41 | return 1 |
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| 42 | } |
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| 43 | |
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| 44 | func (this * MyData) access( idx uint64 ) { |
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| 45 | this.data[idx % uint64(len(this.data))] += 1 |
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| 46 | } |
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| 47 | |
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| 48 | // ================================================== |
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| 49 | type MyCtx struct { |
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[3d19ae6] | 50 | _p1 [16]uint64 // padding |
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[2dd0689] | 51 | s * semaphore.Weighted |
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[34687d3] | 52 | d unsafe.Pointer |
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[024fa4b] | 53 | c context.Context |
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[aa1d13c] | 54 | ttid int |
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[34687d3] | 55 | id int |
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[3d19ae6] | 56 | _p2 [16]uint64 // padding |
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[2dd0689] | 57 | } |
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| 58 | |
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[c5a98f3] | 59 | func NewCtx( data * MyData, id int ) (MyCtx) { |
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[3d19ae6] | 60 | r := MyCtx{[16]uint64{0},semaphore.NewWeighted(1), unsafe.Pointer(data), context.Background(), syscall.Gettid(), id,[16]uint64{0}} |
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[c5a98f3] | 61 | r.s.Acquire(context.Background(), 1) |
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| 62 | return r |
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[aa1d13c] | 63 | } |
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| 64 | |
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| 65 | func (this * MyCtx) moved( ttid int ) (uint64) { |
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| 66 | if this.ttid == ttid { |
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| 67 | return 0 |
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| 68 | } |
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| 69 | this.ttid = ttid |
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| 70 | return 1 |
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| 71 | } |
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| 72 | |
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| 73 | // ================================================== |
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[c5a98f3] | 74 | // Atomic object where a single thread can wait |
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| 75 | // May exchanges data |
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[2dd0689] | 76 | type Spot struct { |
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[3f8baf4] | 77 | _p1 [16]uint64 // padding |
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[c5a98f3] | 78 | ptr uintptr // atomic variable use fo MES |
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| 79 | id int // id for debugging |
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[3f8baf4] | 80 | _p2 [16]uint64 // padding |
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[2dd0689] | 81 | } |
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| 82 | |
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[024fa4b] | 83 | // Main handshake of the code |
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| 84 | // Single seat, first thread arriving waits |
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| 85 | // Next threads unblocks current one and blocks in its place |
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| 86 | // if share == true, exchange data in the process |
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[aa1d13c] | 87 | func (this * Spot) put( ctx * MyCtx, data * MyData, share bool) (* MyData, bool) { |
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[024fa4b] | 88 | new := uintptr(unsafe.Pointer(ctx)) |
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[8235415] | 89 | // old_d := ctx.d |
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[c5a98f3] | 90 | |
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| 91 | // Attempt to CAS our context into the seat |
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[2dd0689] | 92 | var raw uintptr |
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| 93 | for true { |
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| 94 | raw = this.ptr |
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[c5a98f3] | 95 | if raw == uintptr(1) { // Seat is closed, return |
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[34687d3] | 96 | return nil, true |
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[2dd0689] | 97 | } |
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[024fa4b] | 98 | if atomic.CompareAndSwapUintptr(&this.ptr, raw, new) { |
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[c5a98f3] | 99 | break // We got the seat |
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[2dd0689] | 100 | } |
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[90ecade] | 101 | } |
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| 102 | |
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[c5a98f3] | 103 | // If we aren't the fist in, wake someone |
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[2dd0689] | 104 | if raw != uintptr(0) { |
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[aa1d13c] | 105 | var val *MyCtx |
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| 106 | val = (*MyCtx)(unsafe.Pointer(raw)) |
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[c5a98f3] | 107 | |
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| 108 | // If we are sharing, give them our data |
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[90ecade] | 109 | if share { |
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[34687d3] | 110 | // fmt.Printf("[%d] - %d update %d: %p -> %p\n", this.id, ctx.id, val.id, val.d, data) |
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| 111 | atomic.StorePointer(&val.d, unsafe.Pointer(data)) |
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[90ecade] | 112 | } |
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[2dd0689] | 113 | |
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[c5a98f3] | 114 | // Wake them up |
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[34687d3] | 115 | // fmt.Printf("[%d] - %d release %d\n", this.id, ctx.id, val.id) |
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[2dd0689] | 116 | val.s.Release(1) |
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| 117 | } |
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| 118 | |
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[34687d3] | 119 | // fmt.Printf("[%d] - %d enter\n", this.id, ctx.id) |
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[c5a98f3] | 120 | |
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| 121 | // Block once on the seat |
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[024fa4b] | 122 | ctx.s.Acquire(ctx.c, 1) |
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[c5a98f3] | 123 | |
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| 124 | // Someone woke us up, get the new data |
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[aa1d13c] | 125 | ret := (* MyData)(atomic.LoadPointer(&ctx.d)) |
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[34687d3] | 126 | // fmt.Printf("[%d] - %d leave: %p -> %p\n", this.id, ctx.id, ret, old_d) |
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| 127 | |
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| 128 | return ret, false |
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[2dd0689] | 129 | } |
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| 130 | |
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[c5a98f3] | 131 | // Shutdown the spot |
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| 132 | // Wake current thread and mark seat as closed |
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[2dd0689] | 133 | func (this * Spot) release() { |
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[aa1d13c] | 134 | val := (*MyCtx)(unsafe.Pointer(atomic.SwapUintptr(&this.ptr, uintptr(1)))) |
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[2dd0689] | 135 | if val == nil { |
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| 136 | return |
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[90ecade] | 137 | } |
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[2dd0689] | 138 | |
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[c5a98f3] | 139 | // Someone was there, release them |
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[2dd0689] | 140 | val.s.Release(1) |
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[90ecade] | 141 | } |
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| 142 | |
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[aa1d13c] | 143 | // ================================================== |
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[c5a98f3] | 144 | // Struct for result, Go doesn't support passing tuple in channels |
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[aa1d13c] | 145 | type Result struct { |
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| 146 | count uint64 |
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| 147 | gmigs uint64 |
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| 148 | dmigs uint64 |
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| 149 | } |
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| 150 | |
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| 151 | func NewResult() (Result) { |
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| 152 | return Result{0, 0, 0} |
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| 153 | } |
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| 154 | |
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| 155 | // ================================================== |
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[c5a98f3] | 156 | // Random number generator, Go's native one is to slow and global |
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[fd84538] | 157 | func __xorshift64( state * uint64 ) (uint64) { |
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| 158 | x := *state |
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| 159 | x ^= x << 13 |
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| 160 | x ^= x >> 7 |
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| 161 | x ^= x << 17 |
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| 162 | *state = x |
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| 163 | return x |
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| 164 | } |
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[2dd0689] | 165 | |
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[c5a98f3] | 166 | // ================================================== |
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| 167 | // Do some work by accessing 'cnt' cells in the array |
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[aa1d13c] | 168 | func work(data * MyData, cnt uint64, state * uint64) { |
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[94d93510] | 169 | for i := uint64(0); i < cnt; i++ { |
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[aa1d13c] | 170 | data.access(__xorshift64(state)) |
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[94d93510] | 171 | } |
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| 172 | } |
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| 173 | |
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[c5a98f3] | 174 | // Main body of the threads |
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[aa1d13c] | 175 | func local(result chan Result, start chan struct{}, size uint64, cnt uint64, channels [] Spot, share bool, id int) { |
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[c5a98f3] | 176 | // Initialize some data |
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| 177 | state := rand.Uint64() // RNG state |
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| 178 | data := NewData(id, size) // Starting piece of data |
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| 179 | ctx := NewCtx(data, id) // Goroutine local context |
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[2dd0689] | 180 | |
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[c5a98f3] | 181 | // Prepare results |
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[aa1d13c] | 182 | r := NewResult() |
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[c5a98f3] | 183 | |
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| 184 | // Wait for start |
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[90ecade] | 185 | <- start |
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[c5a98f3] | 186 | |
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| 187 | // Main loop |
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[90ecade] | 188 | for true { |
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[c5a98f3] | 189 | // Touch our current data, write to invalidate remote cache lines |
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[aa1d13c] | 190 | work(data, cnt, &state) |
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[90ecade] | 191 | |
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[c5a98f3] | 192 | // Wait on a random spot |
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[fd84538] | 193 | i := __xorshift64(&state) % uint64(len(channels)) |
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[34687d3] | 194 | var closed bool |
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| 195 | data, closed = channels[i].put(&ctx, data, share) |
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[90ecade] | 196 | |
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[c5a98f3] | 197 | // Check if the experiment is over |
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| 198 | if closed { break } // yes, spot was closed |
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| 199 | if clock_mode && atomic.LoadInt32(&stop) == 1 { break } // yes, time's up |
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| 200 | if !clock_mode && r.count >= stop_count { break } // yes, iterations reached |
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[aa1d13c] | 201 | |
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[c5a98f3] | 202 | // Check everything is consistent |
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| 203 | if uint64(len(data.data)) != size { panic("Data has weird size") } |
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| 204 | |
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| 205 | // write down progress and check migrations |
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[aa1d13c] | 206 | ttid := syscall.Gettid() |
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| 207 | r.count += 1 |
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| 208 | r.gmigs += ctx .moved(ttid) |
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| 209 | r.dmigs += data.moved(ttid) |
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[90ecade] | 210 | } |
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| 211 | |
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[c5a98f3] | 212 | // Mark goroutine as done |
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[90ecade] | 213 | atomic.AddInt64(&threads_left, -1); |
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[c5a98f3] | 214 | |
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| 215 | // return result |
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[aa1d13c] | 216 | result <- r |
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[90ecade] | 217 | } |
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| 218 | |
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[c5a98f3] | 219 | // ================================================== |
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| 220 | // Program main |
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[90ecade] | 221 | func main() { |
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[c5a98f3] | 222 | // Benchmark specific command line arguments |
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[f03209d3] | 223 | nspotsOpt := flag.Int ("n", 0 , "Number of spots where threads sleep (nthreads - nspots are active at the same time)") |
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[f4f79dd] | 224 | work_sizeOpt := flag.Uint64("w", 2 , "Size of the array for each threads, in words (64bit)") |
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| 225 | countOpt := flag.Uint64("c", 2 , "Number of words to touch when working (random pick, cells can be picked more than once)") |
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[90ecade] | 226 | shareOpt := flag.Bool ("s", false, "Pass the work data to the next thread when blocking") |
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| 227 | |
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[c5a98f3] | 228 | // General benchmark initialization and deinitialization |
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[2dd0689] | 229 | defer bench_init()() |
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[90ecade] | 230 | |
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[c5a98f3] | 231 | // Eval command line arguments |
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[f03209d3] | 232 | nspots:= *nspotsOpt |
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[90ecade] | 233 | size := *work_sizeOpt |
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| 234 | cnt := *countOpt |
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| 235 | share := *shareOpt |
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| 236 | |
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[f03209d3] | 237 | if nspots == 0 { nspots = nthreads - nprocs; } |
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| 238 | |
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[c5a98f3] | 239 | // Check params |
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[90ecade] | 240 | if ! (nthreads > nprocs) { |
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| 241 | fmt.Fprintf(os.Stderr, "Must have more threads than procs\n") |
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| 242 | os.Exit(1) |
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| 243 | } |
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| 244 | |
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[c5a98f3] | 245 | // Make global data |
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| 246 | barrierStart := make(chan struct{}) // Barrier used at the start |
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[f03209d3] | 247 | threads_left = int64(nthreads - nspots) // Counter for active threads (not 'nthreads' because at all times 'nthreads - nprocs' are blocked) |
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[c5a98f3] | 248 | result := make(chan Result) // Channel for results |
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[f03209d3] | 249 | channels := make([]Spot, nspots) // Number of spots |
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[90ecade] | 250 | for i := range channels { |
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[3f8baf4] | 251 | channels[i] = Spot{[16]uint64{0},uintptr(0), i,[16]uint64{0}} // init spots |
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[90ecade] | 252 | } |
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| 253 | |
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[c5a98f3] | 254 | // start the goroutines |
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[90ecade] | 255 | for i := 0; i < nthreads; i++ { |
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[34687d3] | 256 | go local(result, barrierStart, size, cnt, channels, share, i) |
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[90ecade] | 257 | } |
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| 258 | fmt.Printf("Starting\n"); |
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| 259 | |
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[2dd0689] | 260 | atomic.StoreInt32(&stop, 0) |
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[90ecade] | 261 | start := time.Now() |
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[c5a98f3] | 262 | close(barrierStart) // release barrier |
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[90ecade] | 263 | |
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[c5a98f3] | 264 | wait(start, true); // general benchmark wait |
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[90ecade] | 265 | |
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[2dd0689] | 266 | atomic.StoreInt32(&stop, 1) |
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[90ecade] | 267 | end := time.Now() |
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| 268 | delta := end.Sub(start) |
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| 269 | |
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| 270 | fmt.Printf("\nDone\n") |
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| 271 | |
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[c5a98f3] | 272 | // release all the blocked threads |
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[2dd0689] | 273 | for i := range channels { |
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| 274 | channels[i].release() |
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| 275 | } |
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| 276 | |
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[c5a98f3] | 277 | // Join and accumulate results |
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[f4f79dd] | 278 | results := NewResult() |
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[90ecade] | 279 | for i := 0; i < nthreads; i++ { |
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[024fa4b] | 280 | r := <- result |
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[f4f79dd] | 281 | results.count += r.count |
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| 282 | results.gmigs += r.gmigs |
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| 283 | results.dmigs += r.dmigs |
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[90ecade] | 284 | } |
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| 285 | |
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[c5a98f3] | 286 | // Print with nice 's, i.e. 1'000'000 instead of 1000000 |
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[90ecade] | 287 | p := message.NewPrinter(language.English) |
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[06573b2] | 288 | p.Printf("Duration (s) : %f\n", delta.Seconds()); |
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[90ecade] | 289 | p.Printf("Number of processors : %d\n", nprocs); |
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| 290 | p.Printf("Number of threads : %d\n", nthreads); |
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| 291 | p.Printf("Work size (64bit words): %d\n", size); |
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[f4f79dd] | 292 | p.Printf("Total Operations(ops) : %15d\n", results.count) |
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| 293 | p.Printf("Total G Migrations : %15d\n", results.gmigs) |
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| 294 | p.Printf("Total D Migrations : %15d\n", results.dmigs) |
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| 295 | p.Printf("Ops per second : %18.2f\n", float64(results.count) / delta.Seconds()) |
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| 296 | p.Printf("ns per ops : %18.2f\n", float64(delta.Nanoseconds()) / float64(results.count)) |
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| 297 | p.Printf("Ops per threads : %15d\n", results.count / uint64(nthreads)) |
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| 298 | p.Printf("Ops per procs : %15d\n", results.count / uint64(nprocs)) |
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| 299 | p.Printf("Ops/sec/procs : %18.2f\n", (float64(results.count) / float64(nprocs)) / delta.Seconds()) |
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| 300 | p.Printf("ns per ops/procs : %18.2f\n", float64(delta.Nanoseconds()) / (float64(results.count) / float64(nprocs))) |
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[90ecade] | 301 | } |
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