func divf32x4(x, y simd.F32x4) simd.F32x4 { return simd.DivF32x4(x, y) }
func main() { count := 0 rand.Seed(42) errors := 0 for i := -63; i <= 63; i++ { a := int(0) if i < 0 { a = -1 << uint(-i) } else { a = 1<<uint(i) - 1 } for j := -63; j <= 63; j++ { count++ b := int(0) if j < 0 { b = -1 << uint(-j) } else { b = 1<<uint(j) - 1 } shift := uint8(j) var xI32x4 simd.I32x4 var yI32x4 simd.I32x4 var xF32x4 simd.F32x4 var yF32x4 simd.F32x4 for idx := 0; idx < 4; idx++ { abs_a := a if abs_a == math.MinInt64 || abs_a == 0 { abs_a = 64 } if abs_a < 0 { abs_a = -abs_a } abs_b := b if abs_b == math.MinInt64 || abs_b == 0 { abs_b = 64 } if abs_b < 0 { abs_b = -abs_b } xI32x4[idx] = int32(rand.Intn(abs_a)) yI32x4[idx] = int32(rand.Intn(abs_b)) xF32x4[idx] = rand.Float32() yF32x4[idx] = rand.Float32() } if addi32x4(xI32x4, yI32x4) != simd.AddI32x4(xI32x4, yI32x4) { fmt.Printf("addi32x4(%v, %v)\n", xI32x4, yI32x4) fmt.Println("x:", xI32x4) fmt.Println("y:", yI32x4) fmt.Println("s(xI32x4, yI32x4):", addi32x4(xI32x4, yI32x4)) fmt.Println(" (xI32x4, yI32x4):", simd.AddI32x4(xI32x4, yI32x4)) errors++ } if subi32x4(xI32x4, yI32x4) != simd.SubI32x4(xI32x4, yI32x4) { fmt.Printf("subi32x4(%v, %v)\n", xI32x4, yI32x4) fmt.Println("x:", xI32x4) fmt.Println("y:", yI32x4) fmt.Println("s:", subi32x4(xI32x4, yI32x4)) fmt.Println(" :", simd.SubI32x4(xI32x4, yI32x4)) errors++ } if muli32x4(xI32x4, yI32x4) != simd.MulI32x4(xI32x4, yI32x4) { fmt.Printf("muli32x4(%v, %v)\n", xI32x4, yI32x4) fmt.Println("x:", xI32x4) fmt.Println("y:", yI32x4) fmt.Println("s:", muli32x4(xI32x4, yI32x4)) fmt.Println(" :", simd.MulI32x4(xI32x4, yI32x4)) errors++ } if shli32x4(xI32x4, shift) != simd.ShlI32x4(xI32x4, shift) { fmt.Printf("shli32x4(%v, %v)\n", xI32x4, shift) fmt.Println("x:", xI32x4) fmt.Println("shift:", shift) fmt.Println("s:", shli32x4(xI32x4, shift)) fmt.Println(" :", simd.ShlI32x4(xI32x4, shift)) errors++ } if shri32x4(xI32x4, shift) != simd.ShrI32x4(xI32x4, shift) { fmt.Printf("shri32x4(%v, %v)\n", xI32x4, shift) fmt.Println("x:", xI32x4) fmt.Println("shift:", shift) fmt.Println("s:", shri32x4(xI32x4, shift)) fmt.Println(" :", simd.ShrI32x4(xI32x4, shift)) errors++ } if addf32x4(xF32x4, yF32x4) != simd.AddF32x4(xF32x4, yF32x4) { fmt.Printf("addf32x4(%v, %v)\n", xF32x4, yF32x4) fmt.Println("x:", xF32x4) fmt.Println("y:", yF32x4) fmt.Println("s:", addf32x4(xF32x4, yF32x4)) fmt.Println(" :", simd.AddF32x4(xF32x4, yF32x4)) errors++ } if subf32x4(xF32x4, yF32x4) != simd.SubF32x4(xF32x4, yF32x4) { fmt.Printf("subf32x4(%v, %v)\n", xF32x4, yF32x4) fmt.Println("x:", xF32x4) fmt.Println("y:", yF32x4) fmt.Println("s:", subf32x4(xF32x4, yF32x4)) fmt.Println(" :", simd.SubF32x4(xF32x4, yF32x4)) errors++ } if mulf32x4(xF32x4, yF32x4) != simd.MulF32x4(xF32x4, yF32x4) { fmt.Printf("mulf32x4(%v, %v)\n", xF32x4, yF32x4) fmt.Println("x:", xF32x4) fmt.Println("y:", yF32x4) fmt.Println("s:", mulf32x4(xF32x4, yF32x4)) fmt.Println(" :", simd.MulF32x4(xF32x4, yF32x4)) } if divf32x4(xF32x4, yF32x4) != simd.DivF32x4(xF32x4, yF32x4) { fmt.Printf("divf32x4(%v, %v)\n", xF32x4, yF32x4) fmt.Println("x:", xF32x4) fmt.Println("y:", yF32x4) fmt.Println("s:", divf32x4(xF32x4, yF32x4)) fmt.Println(" :", simd.DivF32x4(xF32x4, yF32x4)) errors++ } } } fmt.Printf("Done, errors: %d\n", errors) }