package graphvent import ( "testing" "reflect" "fmt" ) func TestSerializeBasic(t *testing.T) { ctx := logTestContext(t, []string{"test", "serialize"}) testSerializeComparable[string](t, ctx, "test") testSerializeComparable[bool](t, ctx, true) testSerializeComparable[float32](t, ctx, 0.05) testSerializeComparable[float64](t, ctx, 0.05) testSerializeComparable[uint](t, ctx, uint(1234)) testSerializeComparable[uint8] (t, ctx, uint8(123)) testSerializeComparable[uint16](t, ctx, uint16(1234)) testSerializeComparable[uint32](t, ctx, uint32(12345)) testSerializeComparable[uint64](t, ctx, uint64(123456)) testSerializeComparable[int](t, ctx, 1234) testSerializeComparable[int8] (t, ctx, int8(-123)) testSerializeComparable[int16](t, ctx, int16(-1234)) testSerializeComparable[int32](t, ctx, int32(-12345)) testSerializeComparable[int64](t, ctx, int64(-123456)) testSerializeSlice[[]int](t, ctx, []int{123, 456, 789, 101112}) testSerializeSlice[[]int](t, ctx, ([]int)(nil)) testSerializeSliceSlice[[][]int](t, ctx, [][]int{{123, 456, 789, 101112}, {3253, 2341, 735, 212}, {123, 51}, nil}) testSerializeSliceSlice[[][]string](t, ctx, [][]string{{"123", "456", "789", "101112"}, {"3253", "2341", "735", "212"}, {"123", "51"}, nil}) testSerialize(t, ctx, struct{ int `gv:"0"` string `gv:"1"` }{ 12345, "test_string", }) } func testSerializeMap[M map[T]R, T, R comparable](t *testing.T, ctx *Context, val M) { v := testSerialize(t, ctx, val) for key, value := range(val) { recreated, exists := v[key] if exists == false { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } else if recreated != value { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } } if len(v) != len(val) { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } } func testSerializeSliceSlice[S [][]T, T comparable](t *testing.T, ctx *Context, val S) { v := testSerialize(t, ctx, val) for i, original := range(val) { if (original == nil && v[i] != nil) || (original != nil && v[i] == nil) { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } for j, o := range(original) { if v[i][j] != o { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } } } } func testSerializeSlice[S []T, T comparable](t *testing.T, ctx *Context, val S) { v := testSerialize(t, ctx, val) for i, original := range(val) { if v[i] != original { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } } } func testSerializeComparable[T comparable](t *testing.T, ctx *Context, val T) { v := testSerialize(t, ctx, val) if v != val { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong value %+v != %+v", v, val)) } } func testSerialize[T any](t *testing.T, ctx *Context, val T) T { value, err := SerializeValue(ctx, reflect.ValueOf(val)) fatalErr(t, err) ctx.Log.Logf("test", "Serialized %+v to %+v", val, value) ser, err := value.MarshalBinary() fatalErr(t, err) ctx.Log.Logf("test", "Binary: %+v", ser) val_parsed, remaining_parse, err := ParseSerializedValue(ser) fatalErr(t, err) ctx.Log.Logf("test", "Parsed: %+v", val_parsed) if len(remaining_parse) != 0 { t.Fatal("Data remaining after deserializing value") } val_type, deserialized_values, remaining_deserialize, err := DeserializeValue(ctx, val_parsed) fatalErr(t, err) if len(remaining_deserialize.Data) != 0 { t.Fatal("Data remaining after deserializing value") } else if len(remaining_deserialize.TypeStack) != 0 { t.Fatal("TypeStack remaining after deserializing value") } else if val_type != reflect.TypeOf(val) { t.Fatal(fmt.Sprintf("DeserializeValue returned wrong reflect.Type %+v - %+v", val_type, reflect.TypeOf(val))) } else if deserialized_values == nil { t.Fatal("DeserializeValue returned no []reflect.Value") } else if deserialized_values == nil { t.Fatal("DeserializeValue returned nil *reflect.Value") } else if deserialized_values.CanConvert(val_type) == false { t.Fatal("DeserializeValue returned value that can't convert to original value") } return deserialized_values.Interface().(T) }