// Attempts to sort x. // // If x is a supported slice type, this library will be used to sort it. Otherwise, // if x implements sort.Interface it will passthrough to the sort.Sort() algorithm. // Returns an error on unsupported types. func Sort(x interface{}) error { switch xAsCase := x.(type) { case []float32: zfloat32.Sort(xAsCase) case []float64: zfloat64.Sort(xAsCase) case []int: zint.Sort(xAsCase) case []int32: zint32.Sort(xAsCase) case []int64: zint64.Sort(xAsCase) case []string: sort.Strings(xAsCase) case []uint: zuint.Sort(xAsCase) case []uint32: zuint32.Sort(xAsCase) case []uint64: zuint64.Sort(xAsCase) case sort.Interface: sort.Sort(xAsCase) default: return errors.New("type not supported") } return nil }
func TestReflectSortUint64(t *testing.T) { g := make([]uint64, TEST_SIZE) r := make([]uint64, TEST_SIZE) genTestDataUint64(g) copy(r, g) zuint64.Sort(g) Sort(r) for i, val := range g { if r[i] != val { log.Printf("exp: [%d]\tact: [%d]\n", val, r[i]) t.FailNow() } if i > 0 && val < r[i-1] { log.Printf("Not Sorted!") t.FailNow() } } }