// Copyright ©2015 The Gonum Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package f64_test import ( "fmt" "math" "testing" "golang.org/x/exp/rand" . "gonum.org/v1/gonum/internal/asm/f64" ) func TestDotUnitary(t *testing.T) { for i, test := range []struct { xData []float64 yData []float64 want float64 }{ { xData: []float64{2}, yData: []float64{-3}, want: -6, }, { xData: []float64{2, 3}, yData: []float64{-3, 4}, want: 6, }, { xData: []float64{2, 3, -4}, yData: []float64{-3, 4, 5}, want: -14, }, { xData: []float64{2, 3, -4, -5}, yData: []float64{-3, 4, 5, -6}, want: 16, }, { xData: []float64{0, 2, 3, -4, -5}, yData: []float64{0, -3, 4, 5, -6}, want: 16, }, { xData: []float64{0, 0, 2, 3, -4, -5}, yData: []float64{0, 1, -3, 4, 5, -6}, want: 16, }, { xData: []float64{0, 0, 1, 1, 2, -3, -4}, yData: []float64{0, 1, 0, 3, -4, 5, -6}, want: 4, }, { xData: []float64{0, 0, 1, 1, 2, -3, -4, 5}, yData: []float64{0, 1, 0, 3, -4, 5, -6, 7}, want: 39, }, } { const msgGuard = "test %v: out-of-bounds write to %v argument\nfront guard: %v\nback guard: %v" x, xFront, xBack := newGuardedVector(test.xData, 1) y, yFront, yBack := newGuardedVector(test.yData, 1) got := DotUnitary(x, y) if !allNaN(xFront) || !allNaN(xBack) { t.Errorf(msgGuard, i, "x", xFront, xBack) } if !allNaN(yFront) || !allNaN(yBack) { t.Errorf(msgGuard, i, "y", yFront, yBack) } if !equalStrided(test.xData, x, 1) { t.Errorf("test %v: modified read-only x argument", i) } if !equalStrided(test.yData, y, 1) { t.Errorf("test %v: modified read-only y argument", i) } if math.IsNaN(got) { t.Errorf("test %v: invalid memory read", i) continue } if got != test.want { t.Errorf("test %v: unexpected result. want %v, got %v", i, test.want, got) } } } func TestDotInc(t *testing.T) { for i, test := range []struct { xData []float64 yData []float64 want float64 wantRev float64 // Result when one of the vectors is reversed. }{ { xData: []float64{2}, yData: []float64{-3}, want: -6, wantRev: -6, }, { xData: []float64{2, 3}, yData: []float64{-3, 4}, want: 6, wantRev: -1, }, { xData: []float64{2, 3, -4}, yData: []float64{-3, 4, 5}, want: -14, wantRev: 34, }, { xData: []float64{2, 3, -4, -5}, yData: []float64{-3, 4, 5, -6}, want: 16, wantRev: 2, }, { xData: []float64{0, 2, 3, -4, -5}, yData: []float64{0, -3, 4, 5, -6}, want: 16, wantRev: 34, }, { xData: []float64{0, 0, 2, 3, -4, -5}, yData: []float64{0, 1, -3, 4, 5, -6}, want: 16, wantRev: -5, }, { xData: []float64{0, 0, 1, 1, 2, -3, -4}, yData: []float64{0, 1, 0, 3, -4, 5, -6}, want: 4, wantRev: -4, }, { xData: []float64{0, 0, 1, 1, 2, -3, -4, 5}, yData: []float64{0, 1, 0, 3, -4, 5, -6, 7}, want: 39, wantRev: 3, }, } { const msgGuard = "%v: out-of-bounds write to %v argument\nfront guard: %v\nback guard: %v" for _, incX := range []int{-7, -3, -2, -1, 1, 2, 3, 7} { for _, incY := range []int{-7, -3, -2, -1, 1, 2, 3, 7} { n := len(test.xData) x, xFront, xBack := newGuardedVector(test.xData, incX) y, yFront, yBack := newGuardedVector(test.yData, incY) var ix, iy int if incX < 0 { ix = (-n + 1) * incX } if incY < 0 { iy = (-n + 1) * incY } got := DotInc(x, y, uintptr(n), uintptr(incX), uintptr(incY), uintptr(ix), uintptr(iy)) prefix := fmt.Sprintf("test %v, incX = %v, incY = %v", i, incX, incY) if !allNaN(xFront) || !allNaN(xBack) { t.Errorf(msgGuard, prefix, "x", xFront, xBack) } if !allNaN(yFront) || !allNaN(yBack) { t.Errorf(msgGuard, prefix, "y", yFront, yBack) } if nonStridedWrite(x, incX) || !equalStrided(test.xData, x, incX) { t.Errorf("%v: modified read-only x argument", prefix) } if nonStridedWrite(y, incY) || !equalStrided(test.yData, y, incY) { t.Errorf("%v: modified read-only y argument", prefix) } if math.IsNaN(got) { t.Errorf("%v: invalid memory read", prefix) continue } want := test.want if incX*incY < 0 { want = test.wantRev } if got != want { t.Errorf("%v: unexpected result. want %v, got %v", prefix, want, got) } } } } } func BenchmarkDotUnitaryN1(b *testing.B) { dotUnitaryBenchmark(b, 1) } func BenchmarkDotUnitaryN2(b *testing.B) { dotUnitaryBenchmark(b, 2) } func BenchmarkDotUnitaryN3(b *testing.B) { dotUnitaryBenchmark(b, 3) } func BenchmarkDotUnitaryN4(b *testing.B) { dotUnitaryBenchmark(b, 4) } func BenchmarkDotUnitaryN10(b *testing.B) { dotUnitaryBenchmark(b, 10) } func BenchmarkDotUnitaryN100(b *testing.B) { dotUnitaryBenchmark(b, 100) } func BenchmarkDotUnitaryN1000(b *testing.B) { dotUnitaryBenchmark(b, 1000) } func BenchmarkDotUnitaryN10000(b *testing.B) { dotUnitaryBenchmark(b, 10000) } func BenchmarkDotUnitaryN100000(b *testing.B) { dotUnitaryBenchmark(b, 100000) } var r float64 func dotUnitaryBenchmark(b *testing.B, n int) { x := make([]float64, n) for i := range x { x[i] = rand.Float64() } y := make([]float64, n) for i := range y { y[i] = rand.Float64() } b.ResetTimer() for i := 0; i < b.N; i++ { r = DotUnitary(x, y) } } func BenchmarkDotIncN1Inc1(b *testing.B) { dotIncBenchmark(b, 1, 1) } func BenchmarkDotIncN2Inc1(b *testing.B) { dotIncBenchmark(b, 2, 1) } func BenchmarkDotIncN2Inc2(b *testing.B) { dotIncBenchmark(b, 2, 2) } func BenchmarkDotIncN2Inc4(b *testing.B) { dotIncBenchmark(b, 2, 4) } func BenchmarkDotIncN2Inc10(b *testing.B) { dotIncBenchmark(b, 2, 10) } func BenchmarkDotIncN3Inc1(b *testing.B) { dotIncBenchmark(b, 3, 1) } func BenchmarkDotIncN3Inc2(b *testing.B) { dotIncBenchmark(b, 3, 2) } func BenchmarkDotIncN3Inc4(b *testing.B) { dotIncBenchmark(b, 3, 4) } func BenchmarkDotIncN3Inc10(b *testing.B) { dotIncBenchmark(b, 3, 10) } func BenchmarkDotIncN4Inc1(b *testing.B) { dotIncBenchmark(b, 4, 1) } func BenchmarkDotIncN4Inc2(b *testing.B) { dotIncBenchmark(b, 4, 2) } func BenchmarkDotIncN4Inc4(b *testing.B) { dotIncBenchmark(b, 4, 4) } func BenchmarkDotIncN4Inc10(b *testing.B) { dotIncBenchmark(b, 4, 10) } func BenchmarkDotIncN10Inc1(b *testing.B) { dotIncBenchmark(b, 10, 1) } func BenchmarkDotIncN10Inc2(b *testing.B) { dotIncBenchmark(b, 10, 2) } func BenchmarkDotIncN10Inc4(b *testing.B) { dotIncBenchmark(b, 10, 4) } func BenchmarkDotIncN10Inc10(b *testing.B) { dotIncBenchmark(b, 10, 10) } func BenchmarkDotIncN1000Inc1(b *testing.B) { dotIncBenchmark(b, 1000, 1) } func BenchmarkDotIncN1000Inc2(b *testing.B) { dotIncBenchmark(b, 1000, 2) } func BenchmarkDotIncN1000Inc4(b *testing.B) { dotIncBenchmark(b, 1000, 4) } func BenchmarkDotIncN1000Inc10(b *testing.B) { dotIncBenchmark(b, 1000, 10) } func BenchmarkDotIncN100000Inc1(b *testing.B) { dotIncBenchmark(b, 100000, 1) } func BenchmarkDotIncN100000Inc2(b *testing.B) { dotIncBenchmark(b, 100000, 2) } func BenchmarkDotIncN100000Inc4(b *testing.B) { dotIncBenchmark(b, 100000, 4) } func BenchmarkDotIncN100000Inc10(b *testing.B) { dotIncBenchmark(b, 100000, 10) } func BenchmarkDotIncN100000IncM1(b *testing.B) { dotIncBenchmark(b, 100000, -1) } func BenchmarkDotIncN100000IncM2(b *testing.B) { dotIncBenchmark(b, 100000, -2) } func BenchmarkDotIncN100000IncM4(b *testing.B) { dotIncBenchmark(b, 100000, -4) } func BenchmarkDotIncN100000IncM10(b *testing.B) { dotIncBenchmark(b, 100000, -10) } func dotIncBenchmark(b *testing.B, n, inc int) { absInc := inc if inc < 0 { absInc = -inc } x := make([]float64, (n-1)*absInc+1) for i := range x { x[i] = rand.Float64() } y := make([]float64, (n-1)*absInc+1) for i := range y { y[i] = rand.Float64() } var ini int if inc < 0 { ini = (-n + 1) * inc } b.ResetTimer() for i := 0; i < b.N; i++ { r = DotInc(x, y, uintptr(n), uintptr(inc), uintptr(inc), uintptr(ini), uintptr(ini)) } }