func TestBinarySet(t *testing.T) { tests := []struct { x td.BinarySet v wire.Value }{ { td.BinarySet{}, wire.NewValueSet( wire.ValueListFromSlice(wire.TBinary, []wire.Value{}), ), }, { td.BinarySet{ {1, 2, 3}, {4, 5, 6}, }, wire.NewValueSet( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueBinary([]byte{1, 2, 3}), wire.NewValueBinary([]byte{4, 5, 6}), }), ), }, } for _, tt := range tests { assertRoundTrip(t, &tt.x, tt.v, "BinarySet") } }
func TestUnhashableSetAlias(t *testing.T) { tests := []struct { x td.FrameGroup v wire.Value }{ { td.FrameGroup{}, wire.NewValueSet( wire.ValueListFromSlice(wire.TStruct, []wire.Value{}), ), }, { td.FrameGroup{ &ts.Frame{TopLeft: &ts.Point{X: 1, Y: 2}, Size: &ts.Size{Width: 3, Height: 4}}, &ts.Frame{TopLeft: &ts.Point{X: 5, Y: 6}, Size: &ts.Size{Width: 7, Height: 8}}, }, wire.NewValueSet( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }})}, {ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(3)}, {ID: 2, Value: wire.NewValueDouble(4)}, }})}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(5)}, {ID: 2, Value: wire.NewValueDouble(6)}, }})}, {ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(7)}, {ID: 2, Value: wire.NewValueDouble(8)}, }})}, }}), }), ), }, } for _, tt := range tests { assertRoundTrip(t, &tt.x, tt.v, "FrameGroup") } }
func TestTypedefContainer(t *testing.T) { tests := []struct { x td.EventGroup v wire.Value }{ { td.EventGroup{ &td.Event{ UUID: &td.UUID{High: 100, Low: 200}, Time: (*td.Timestamp)(int64p(42)), }, &td.Event{ UUID: &td.UUID{High: 0, Low: 42}, Time: (*td.Timestamp)(int64p(100)), }, }, wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI64(100)}, {ID: 2, Value: wire.NewValueI64(200)}, }})}, {ID: 2, Value: wire.NewValueI64(42)}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI64(0)}, {ID: 2, Value: wire.NewValueI64(42)}, }})}, {ID: 2, Value: wire.NewValueI64(100)}, }}), }), ), }, } for _, tt := range tests { assertRoundTrip(t, &tt.x, tt.v, "EventGroup") } }
func TestListOfBinaryReadNil(t *testing.T) { value := wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueBinary([]byte("foo")), wire.NewValueBinary(nil), wire.NewValueBinary([]byte("bar")), wire.NewValueBinary([]byte("baz")), }), ), }}}) var c tc.PrimitiveContainers require.NoError(t, c.FromWire(value)) got, err := c.ToWire() require.NoError(t, err) require.NoError(t, wire.EvaluateValue(got)) assert.True(t, wire.ValuesAreEqual(value, got)) }
func vset(typ wire.Type, vs ...wire.Value) wire.Value { return wire.NewValueSet(wire.ValueListFromSlice(typ, vs)) }
func TestCrazyTown(t *testing.T) { tests := []struct { desc string x tc.ContainersOfContainers v wire.Value }{ { "ListOfLists", tc.ContainersOfContainers{ ListOfLists: [][]int32{ {1, 2, 3}, {4, 5, 6}, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TList, []wire.Value{ wire.NewValueList( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), wire.NewValueI32(3), }), ), wire.NewValueList( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(4), wire.NewValueI32(5), wire.NewValueI32(6), }), ), }), )}, }}), }, { "ListOfSets", tc.ContainersOfContainers{ ListOfSets: []map[int32]struct{}{ { 1: struct{}{}, 2: struct{}{}, 3: struct{}{}, }, { 4: struct{}{}, 5: struct{}{}, 6: struct{}{}, }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TSet, []wire.Value{ wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), wire.NewValueI32(3), }), ), wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(4), wire.NewValueI32(5), wire.NewValueI32(6), }), ), }), )}, }}), }, { "ListOfMaps", tc.ContainersOfContainers{ ListOfMaps: []map[int32]int32{ { 1: 100, 2: 200, 3: 300, }, { 4: 400, 5: 500, 6: 600, }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 3, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TMap, []wire.Value{ wire.NewValueMap( wire.MapItemListFromSlice(wire.TI32, wire.TI32, []wire.MapItem{ {Key: wire.NewValueI32(1), Value: wire.NewValueI32(100)}, {Key: wire.NewValueI32(2), Value: wire.NewValueI32(200)}, {Key: wire.NewValueI32(3), Value: wire.NewValueI32(300)}, }), ), wire.NewValueMap( wire.MapItemListFromSlice(wire.TI32, wire.TI32, []wire.MapItem{ {Key: wire.NewValueI32(4), Value: wire.NewValueI32(400)}, {Key: wire.NewValueI32(5), Value: wire.NewValueI32(500)}, {Key: wire.NewValueI32(6), Value: wire.NewValueI32(600)}, }), ), }), )}, }}), }, { "SetOfSets", tc.ContainersOfContainers{ SetOfSets: []map[string]struct{}{ { "1": struct{}{}, "2": struct{}{}, "3": struct{}{}, }, { "4": struct{}{}, "5": struct{}{}, "6": struct{}{}, }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 4, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TSet, []wire.Value{ wire.NewValueSet( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("1"), wire.NewValueString("2"), wire.NewValueString("3"), }), ), wire.NewValueSet( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("4"), wire.NewValueString("5"), wire.NewValueString("6"), }), ), }), )}, }}), }, { "SetOfLists", tc.ContainersOfContainers{ SetOfLists: [][]string{ {"1", "2", "3"}, {"4", "5", "6"}, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 5, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TList, []wire.Value{ wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("1"), wire.NewValueString("2"), wire.NewValueString("3"), }), ), wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("4"), wire.NewValueString("5"), wire.NewValueString("6"), }), ), }), )}, }}), }, { "SetOfMaps", tc.ContainersOfContainers{ SetOfMaps: []map[string]string{ { "1": "one", "2": "two", "3": "three", }, { "4": "four", "5": "five", "6": "six", }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 6, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TMap, []wire.Value{ wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TBinary, []wire.MapItem{ {Key: wire.NewValueString("1"), Value: wire.NewValueString("one")}, {Key: wire.NewValueString("2"), Value: wire.NewValueString("two")}, {Key: wire.NewValueString("3"), Value: wire.NewValueString("three")}, }), ), wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TBinary, []wire.MapItem{ {Key: wire.NewValueString("4"), Value: wire.NewValueString("four")}, {Key: wire.NewValueString("5"), Value: wire.NewValueString("five")}, {Key: wire.NewValueString("6"), Value: wire.NewValueString("six")}, }), ), }), )}, }}), }, { "MapOfMapToInt", tc.ContainersOfContainers{ MapOfMapToInt: []struct { Key map[string]int32 Value int64 }{ { Key: map[string]int32{"1": 1, "2": 2, "3": 3}, Value: 123, }, { Key: map[string]int32{"4": 4, "5": 5, "6": 6}, Value: 456, }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 7, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TMap, wire.TI64, []wire.MapItem{ { Key: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TI32, []wire.MapItem{ {Key: wire.NewValueString("1"), Value: wire.NewValueI32(1)}, {Key: wire.NewValueString("2"), Value: wire.NewValueI32(2)}, {Key: wire.NewValueString("3"), Value: wire.NewValueI32(3)}, }), ), Value: wire.NewValueI64(123), }, { Key: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TI32, []wire.MapItem{ {Key: wire.NewValueString("4"), Value: wire.NewValueI32(4)}, {Key: wire.NewValueString("5"), Value: wire.NewValueI32(5)}, {Key: wire.NewValueString("6"), Value: wire.NewValueI32(6)}, }), ), Value: wire.NewValueI64(456), }, }), )}, }}), }, { "MapOfListToSet", tc.ContainersOfContainers{ MapOfListToSet: []struct { Key []int32 Value map[int64]struct{} }{ { Key: []int32{1, 2, 3}, Value: map[int64]struct{}{ 1: {}, 2: {}, 3: {}, }, }, { Key: []int32{4, 5, 6}, Value: map[int64]struct{}{ 4: {}, 5: {}, 6: {}, }, }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 8, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TList, wire.TSet, []wire.MapItem{ { Key: wire.NewValueList( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), wire.NewValueI32(3), }), ), Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TI64, []wire.Value{ wire.NewValueI64(1), wire.NewValueI64(2), wire.NewValueI64(3), }), ), }, { Key: wire.NewValueList( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(4), wire.NewValueI32(5), wire.NewValueI32(6), }), ), Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TI64, []wire.Value{ wire.NewValueI64(4), wire.NewValueI64(5), wire.NewValueI64(6), }), ), }, }), )}, }}), }, { "MapOfSetToListOfDouble", tc.ContainersOfContainers{ MapOfSetToListOfDouble: []struct { Key map[int32]struct{} Value []float64 }{ { Key: map[int32]struct{}{ 1: {}, 2: {}, 3: {}, }, Value: []float64{1.0, 2.0, 3.0}, }, { Key: map[int32]struct{}{ 4: {}, 5: {}, 6: {}, }, Value: []float64{4.0, 5.0, 6.0}, }, }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 9, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TSet, wire.TList, []wire.MapItem{ { Key: wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), wire.NewValueI32(3), }), ), Value: wire.NewValueList( wire.ValueListFromSlice(wire.TDouble, []wire.Value{ wire.NewValueDouble(1.0), wire.NewValueDouble(2.0), wire.NewValueDouble(3.0), }), ), }, { Key: wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(4), wire.NewValueI32(5), wire.NewValueI32(6), }), ), Value: wire.NewValueList( wire.ValueListFromSlice(wire.TDouble, []wire.Value{ wire.NewValueDouble(4.0), wire.NewValueDouble(5.0), wire.NewValueDouble(6.0), }), ), }, }), )}, }}), }, } for _, tt := range tests { assertRoundTrip(t, &tt.x, tt.v, tt.desc) } }
func TestCollectionsOfPrimitives(t *testing.T) { tests := []struct { desc string p tc.PrimitiveContainers v wire.Value }{ // Lists ///////////////////////////////////////////////////////////// { "empty list", tc.PrimitiveContainers{ListOfInts: []int64{}}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 2, Value: wire.NewValueList(wire.ValueListFromSlice(wire.TI64, []wire.Value{})), }}}), }, { "list of ints", tc.PrimitiveContainers{ListOfInts: []int64{1, 2, 3}}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 2, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TI64, []wire.Value{ wire.NewValueI64(1), wire.NewValueI64(2), wire.NewValueI64(3), }), ), }}}), }, { "list of binary", tc.PrimitiveContainers{ ListOfBinary: [][]byte{ []byte("foo"), {}, []byte("bar"), []byte("baz"), }, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueBinary([]byte("foo")), wire.NewValueBinary([]byte{}), wire.NewValueBinary([]byte("bar")), wire.NewValueBinary([]byte("baz")), }), ), }}}), }, // Sets ////////////////////////////////////////////////////////////// { "empty set", tc.PrimitiveContainers{SetOfStrings: map[string]struct{}{}}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 3, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TBinary, []wire.Value{}), ), }}}), }, { "set of strings", tc.PrimitiveContainers{SetOfStrings: map[string]struct{}{ "foo": {}, "bar": {}, "baz": {}, }}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 3, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("foo"), wire.NewValueString("bar"), wire.NewValueString("baz"), }), ), }}}), }, { "set of bytes", tc.PrimitiveContainers{SetOfBytes: map[int8]struct{}{ -1: {}, 1: {}, 125: {}, }}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 4, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TI8, []wire.Value{ wire.NewValueI8(-1), wire.NewValueI8(1), wire.NewValueI8(125), }), ), }}}), }, // Maps ////////////////////////////////////////////////////////////// { "empty map", tc.PrimitiveContainers{MapOfStringToBool: map[string]bool{}}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 6, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TBool, []wire.MapItem{}), ), }}}), }, { "map of int to string", tc.PrimitiveContainers{MapOfIntToString: map[int32]string{ -1: "foo", 1234: "bar", -9876: "baz", }}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 5, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TI32, wire.TBinary, []wire.MapItem{ {Key: wire.NewValueI32(-1), Value: wire.NewValueString("foo")}, {Key: wire.NewValueI32(1234), Value: wire.NewValueString("bar")}, {Key: wire.NewValueI32(-9876), Value: wire.NewValueString("baz")}, }), ), }}}), }, { "map of string to bool", tc.PrimitiveContainers{MapOfStringToBool: map[string]bool{ "foo": true, "bar": false, "baz": true, }}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{{ ID: 6, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TBool, []wire.MapItem{ {Key: wire.NewValueString("foo"), Value: wire.NewValueBool(true)}, {Key: wire.NewValueString("bar"), Value: wire.NewValueBool(false)}, {Key: wire.NewValueString("baz"), Value: wire.NewValueBool(true)}, }), ), }}}), }, } for _, tt := range tests { assertRoundTrip(t, &tt.p, tt.v, tt.desc) } }
func TestListOfStructs(t *testing.T) { tests := []struct { s ts.Graph v wire.Value }{ { ts.Graph{Edges: []*ts.Edge{}}, singleFieldStruct(1, wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, nil), )), }, { ts.Graph{Edges: []*ts.Edge{ { StartPoint: &ts.Point{X: 1.0, Y: 2.0}, EndPoint: &ts.Point{X: 3.0, Y: 4.0}, }, { StartPoint: &ts.Point{X: 5.0, Y: 6.0}, EndPoint: &ts.Point{X: 7.0, Y: 8.0}, }, { StartPoint: &ts.Point{X: 9.0, Y: 10.0}, EndPoint: &ts.Point{X: 11.0, Y: 12.0}, }, }}, singleFieldStruct(1, wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1.0)}, {ID: 2, Value: wire.NewValueDouble(2.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(3.0)}, {ID: 2, Value: wire.NewValueDouble(4.0)}, }}), }, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(5.0)}, {ID: 2, Value: wire.NewValueDouble(6.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(7.0)}, {ID: 2, Value: wire.NewValueDouble(8.0)}, }}), }, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(9.0)}, {ID: 2, Value: wire.NewValueDouble(10.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(11.0)}, {ID: 2, Value: wire.NewValueDouble(12.0)}, }}), }, }}), }), )), }, } for _, tt := range tests { assertRoundTrip(t, &tt.s, tt.v, "Graph") } }
func TestEnumContainers(t *testing.T) { tests := []struct { s tc.EnumContainers v wire.Value }{ { tc.EnumContainers{ ListOfEnums: []te.EnumDefault{ te.EnumDefaultFoo, te.EnumDefaultBar, }, }, singleFieldStruct(1, wire.NewValueList( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(0), wire.NewValueI32(1), }), )), }, { tc.EnumContainers{ SetOfEnums: map[te.EnumWithValues]struct{}{ te.EnumWithValuesX: {}, te.EnumWithValuesZ: {}, }, }, singleFieldStruct(2, wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(123), wire.NewValueI32(789), }), )), }, { tc.EnumContainers{ MapOfEnums: map[te.EnumWithDuplicateValues]int32{ te.EnumWithDuplicateValuesP: 123, te.EnumWithDuplicateValuesQ: 456, }, }, singleFieldStruct(3, wire.NewValueMap( wire.MapItemListFromSlice(wire.TI32, wire.TI32, []wire.MapItem{ {Key: wire.NewValueI32(0), Value: wire.NewValueI32(123)}, {Key: wire.NewValueI32(-1), Value: wire.NewValueI32(456)}, }), )), }, { // this is the same as the one above except we're using "R" intsead // of "P" (they both have the same value) tc.EnumContainers{ MapOfEnums: map[te.EnumWithDuplicateValues]int32{ te.EnumWithDuplicateValuesR: 123, te.EnumWithDuplicateValuesQ: 456, }, }, singleFieldStruct(3, wire.NewValueMap( wire.MapItemListFromSlice(wire.TI32, wire.TI32, []wire.MapItem{ {Key: wire.NewValueI32(0), Value: wire.NewValueI32(123)}, {Key: wire.NewValueI32(-1), Value: wire.NewValueI32(456)}, }), )), }, } for _, tt := range tests { assertRoundTrip(t, &tt.s, tt.v, "EnumContainers") } }
func TestStructValidation(t *testing.T) { tests := []struct { desc string serialize thriftType deserialize wire.Value typ reflect.Type // must be set if serialize is not wantError string }{ { desc: "Point: missing X", deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(42)}, }}), typ: reflect.TypeOf(ts.Point{}), wantError: "field Y of Point is required", }, { desc: "Point: missing Y", deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueDouble(42)}, }}), typ: reflect.TypeOf(ts.Point{}), wantError: "field X of Point is required", }, { desc: "Size: missing width", deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(42)}, }}), typ: reflect.TypeOf(ts.Size{}), wantError: "field Height of Size is required", }, { desc: "Size: missing height", deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueDouble(42)}, }}), typ: reflect.TypeOf(ts.Size{}), wantError: "field Width of Size is required", }, { desc: "Frame: missing topLeft", serialize: &ts.Frame{Size: &ts.Size{Width: 1, Height: 2}}, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }}), }, }}), wantError: "field TopLeft of Frame is required", }, { desc: "Frame: missing Size", serialize: &ts.Frame{TopLeft: &ts.Point{X: 1, Y: 2}}, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }}), }, }}), wantError: "field Size of Frame is required", }, { desc: "Frame: topLeft: missing y", deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }}), }, }}), typ: reflect.TypeOf(ts.Frame{}), wantError: "field Y of Point is required", }, { desc: "Graph: missing edges", serialize: &ts.Graph{Edges: nil}, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), wantError: "field Edges of Graph is required", }, { desc: "Graph: edges: misssing end", serialize: &ts.Graph{ Edges: []*ts.Edge{ {StartPoint: &ts.Point{X: 1, Y: 2}, EndPoint: &ts.Point{X: 3, Y: 4}}, {StartPoint: &ts.Point{X: 5, Y: 6}}, }, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(3)}, {ID: 2, Value: wire.NewValueDouble(4)}, }}), }, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }}), }, }}), }), ), }, }}), wantError: "field EndPoint of Edge is required", }, { desc: "User: contact: missing emailAddress", deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueString("hello")}, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), }, }}), typ: reflect.TypeOf(ts.User{}), wantError: "field EmailAddress of ContactInfo is required", }, { desc: "PrimitiveContainersRequired: missing list", serialize: &tc.PrimitiveContainersRequired{ SetOfInts: map[int32]struct{}{ 1: {}, 2: {}, 3: {}, }, MapOfIntsToDoubles: map[int64]float64{1: 2.3, 4: 5.6}, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 2, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), wire.NewValueI32(3), }), ), }, { ID: 3, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TI64, wire.TDouble, []wire.MapItem{ { Key: wire.NewValueI64(1), Value: wire.NewValueDouble(2.3), }, { Key: wire.NewValueI64(4), Value: wire.NewValueDouble(5.6), }, }), ), }, }}), wantError: "field ListOfStrings of PrimitiveContainersRequired is required", }, { desc: "PrimitiveContainersRequired: missing set", serialize: &tc.PrimitiveContainersRequired{ ListOfStrings: []string{"hello", "world"}, MapOfIntsToDoubles: map[int64]float64{1: 2.3, 4: 5.6}, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("hello"), wire.NewValueString("world"), }), ), }, { ID: 3, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TI64, wire.TDouble, []wire.MapItem{ { Key: wire.NewValueI64(1), Value: wire.NewValueDouble(2.3), }, { Key: wire.NewValueI64(4), Value: wire.NewValueDouble(5.6), }, }), ), }, }}), wantError: "field SetOfInts of PrimitiveContainersRequired is required", }, { desc: "PrimitiveContainersRequired: missing map", serialize: &tc.PrimitiveContainersRequired{ ListOfStrings: []string{"hello", "world"}, SetOfInts: map[int32]struct{}{ 1: {}, 2: {}, 3: {}, }, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("hello"), wire.NewValueString("world"), }), ), }, { ID: 2, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), wire.NewValueI32(3), }), ), }, }}), wantError: "field MapOfIntsToDoubles of PrimitiveContainersRequired is required", }, { desc: "Document: empty", serialize: &tu.Document{}, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), wantError: "Document should have exactly one field: got 0 fields", }, { desc: "Document: multiple", serialize: &tu.Document{ Pdf: td.PDF{}, PlainText: stringp("hello"), }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueBinary([]byte{}), }, { ID: 2, Value: wire.NewValueString("hello"), }, }}), wantError: "Document should have exactly one field: got 2 fields", }, { desc: "ArbitraryValue: empty", serialize: &tu.ArbitraryValue{}, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), wantError: "ArbitraryValue should have exactly one field: got 0 fields", }, { desc: "ArbitraryValue: primitives", serialize: &tu.ArbitraryValue{ BoolValue: boolp(true), Int64Value: int64p(42), StringValue: stringp(""), }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, {ID: 2, Value: wire.NewValueI64(42)}, {ID: 3, Value: wire.NewValueString("")}, }}), wantError: "ArbitraryValue should have exactly one field: got 3 fields", }, { desc: "ArbitraryValue: full", serialize: &tu.ArbitraryValue{ BoolValue: boolp(true), Int64Value: int64p(42), StringValue: stringp(""), ListValue: []*tu.ArbitraryValue{ {BoolValue: boolp(true)}, {Int64Value: int64p(42)}, {StringValue: stringp("")}, }, MapValue: map[string]*tu.ArbitraryValue{ "bool": {BoolValue: boolp(true)}, "int": {Int64Value: int64p(42)}, "string": {StringValue: stringp("")}, }, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, {ID: 2, Value: wire.NewValueI64(42)}, {ID: 3, Value: wire.NewValueString("")}, { ID: 4, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueI64(42)}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 3, Value: wire.NewValueString("")}, }}), }), ), }, { ID: 5, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TStruct, []wire.MapItem{ { Key: wire.NewValueString("bool"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), }, { Key: wire.NewValueString("int"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueI64(42)}, }}), }, { Key: wire.NewValueString("string"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 3, Value: wire.NewValueString("")}, }}), }, }), ), }, }}), wantError: "ArbitraryValue should have exactly one field: got 5 fields", }, { desc: "ArbitraryValue: error inside a list", serialize: &tu.ArbitraryValue{ ListValue: []*tu.ArbitraryValue{ {BoolValue: boolp(true)}, {}, }, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 4, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), })), }, }}), wantError: "ArbitraryValue should have exactly one field: got 0 fields", }, { desc: "ArbitraryValue: error inside a map value", serialize: &tu.ArbitraryValue{ MapValue: map[string]*tu.ArbitraryValue{ "bool": {BoolValue: boolp(true)}, "empty": {}, }, }, deserialize: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 5, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TStruct, []wire.MapItem{ { Key: wire.NewValueString("bool"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), }, { Key: wire.NewValueString("empty"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), }, }), ), }, }}), wantError: "ArbitraryValue should have exactly one field: got 0 fields", }, { desc: "FrameGroup: error inside a set", serialize: &td.FrameGroup{ &ts.Frame{ TopLeft: &ts.Point{X: 1, Y: 2}, Size: &ts.Size{Width: 3, Height: 4}, }, &ts.Frame{TopLeft: &ts.Point{X: 5, Y: 6}}, }, deserialize: wire.NewValueSet( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueDouble(1), }, { ID: 2, Value: wire.NewValueDouble(2), }, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueDouble(3), }, { ID: 2, Value: wire.NewValueDouble(4), }, }}), }, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueDouble(5), }, { ID: 2, Value: wire.NewValueDouble(6), }, }}), }, }}), }), ), wantError: "field Size of Frame is required", }, { desc: "EdgeMap: error inside a map key", serialize: &td.EdgeMap{ { Key: &ts.Edge{StartPoint: &ts.Point{X: 1, Y: 2}}, Value: &ts.Edge{StartPoint: &ts.Point{X: 3, Y: 4}, EndPoint: &ts.Point{X: 5, Y: 6}}, }, }, deserialize: wire.NewValueMap( wire.MapItemListFromSlice(wire.TStruct, wire.TStruct, []wire.MapItem{ { Key: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1)}, {ID: 2, Value: wire.NewValueDouble(2)}, }}), }, }}), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(3)}, {ID: 2, Value: wire.NewValueDouble(4)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(5)}, {ID: 2, Value: wire.NewValueDouble(6)}, }}), }, }}), }, }), ), wantError: "field EndPoint of Edge is required", }, } for _, tt := range tests { var typ reflect.Type if tt.serialize != nil { typ = reflect.TypeOf(tt.serialize).Elem() v, err := tt.serialize.ToWire() if err == nil { err = wire.EvaluateValue(v) } if assert.Error(t, err, "%v: expected failure but got %v", tt.desc, v) { assert.Contains(t, err.Error(), tt.wantError, tt.desc) } } else { typ = tt.typ } if typ == nil { t.Fatalf("invalid test %q: either typ or serialize must be set", tt.desc) } x := reflect.New(typ) args := []reflect.Value{reflect.ValueOf(tt.deserialize)} e := x.MethodByName("FromWire").Call(args)[0].Interface() if assert.NotNil(t, e, "%v: expected failure but got %v", tt.desc, x) { assert.Contains(t, e.(error).Error(), tt.wantError, tt.desc) } } }
func TestStructWithDefaults(t *testing.T) { enumDefaultFoo := te.EnumDefaultFoo enumDefaultBar := te.EnumDefaultBar enumDefaultBaz := te.EnumDefaultBaz tests := []struct { give *ts.DefaultsStruct giveWire wire.Value wantToWire wire.Value wantFromWire *ts.DefaultsStruct }{ { give: &ts.DefaultsStruct{}, giveWire: wire.NewValueStruct(wire.Struct{}), wantToWire: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI32(100)}, {ID: 2, Value: wire.NewValueI32(200)}, {ID: 3, Value: wire.NewValueI32(1)}, {ID: 4, Value: wire.NewValueI32(2)}, { ID: 5, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{ wire.NewValueString("hello"), wire.NewValueString("world"), }), ), }, { ID: 6, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TDouble, []wire.Value{ wire.NewValueDouble(1.0), wire.NewValueDouble(2.0), wire.NewValueDouble(3.0), }), ), }, { ID: 7, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1.0)}, {ID: 2, Value: wire.NewValueDouble(2.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(100.0)}, {ID: 2, Value: wire.NewValueDouble(200.0)}, }}), }, }}), }, { ID: 8, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1.0)}, {ID: 2, Value: wire.NewValueDouble(2.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(3.0)}, {ID: 2, Value: wire.NewValueDouble(4.0)}, }}), }, }}), }, }}), wantFromWire: &ts.DefaultsStruct{ RequiredPrimitive: int32p(100), OptionalPrimitive: int32p(200), RequiredEnum: &enumDefaultBar, OptionalEnum: &enumDefaultBaz, RequiredList: []string{"hello", "world"}, OptionalList: []float64{1.0, 2.0, 3.0}, RequiredStruct: &ts.Frame{ TopLeft: &ts.Point{X: 1.0, Y: 2.0}, Size: &ts.Size{Width: 100.0, Height: 200.0}, }, OptionalStruct: &ts.Edge{ StartPoint: &ts.Point{X: 1.0, Y: 2.0}, EndPoint: &ts.Point{X: 3.0, Y: 4.0}, }, }, }, { give: &ts.DefaultsStruct{ RequiredPrimitive: int32p(0), OptionalEnum: &enumDefaultFoo, RequiredList: []string{}, }, giveWire: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI32(0)}, {ID: 4, Value: wire.NewValueI32(0)}, { ID: 5, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{}), ), }, }}), wantToWire: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI32(0)}, {ID: 2, Value: wire.NewValueI32(200)}, {ID: 3, Value: wire.NewValueI32(1)}, {ID: 4, Value: wire.NewValueI32(0)}, { ID: 5, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value{}), ), }, { ID: 6, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TDouble, []wire.Value{ wire.NewValueDouble(1.0), wire.NewValueDouble(2.0), wire.NewValueDouble(3.0), }), ), }, { ID: 7, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1.0)}, {ID: 2, Value: wire.NewValueDouble(2.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(100.0)}, {ID: 2, Value: wire.NewValueDouble(200.0)}, }}), }, }}), }, { ID: 8, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1.0)}, {ID: 2, Value: wire.NewValueDouble(2.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(3.0)}, {ID: 2, Value: wire.NewValueDouble(4.0)}, }}), }, }}), }, }}), wantFromWire: &ts.DefaultsStruct{ RequiredPrimitive: int32p(0), OptionalPrimitive: int32p(200), RequiredEnum: &enumDefaultBar, OptionalEnum: &enumDefaultFoo, RequiredList: []string{}, OptionalList: []float64{1.0, 2.0, 3.0}, RequiredStruct: &ts.Frame{ TopLeft: &ts.Point{X: 1.0, Y: 2.0}, Size: &ts.Size{Width: 100.0, Height: 200.0}, }, OptionalStruct: &ts.Edge{ StartPoint: &ts.Point{X: 1.0, Y: 2.0}, EndPoint: &ts.Point{X: 3.0, Y: 4.0}, }, }, }, } for _, tt := range tests { if gotWire, err := tt.give.ToWire(); assert.NoError( t, err, "%v.ToWire() failed", tt.give) { assert.True( t, wire.ValuesAreEqual(tt.wantToWire, gotWire), "%v.ToWire() != %v", tt.give, tt.wantToWire) } var gotFromWire ts.DefaultsStruct if err := gotFromWire.FromWire(tt.giveWire); assert.NoError(t, err) { assert.Equal(t, tt.wantFromWire, &gotFromWire) } } }
func TestStructRoundTripAndString(t *testing.T) { tests := []struct { desc string x interface { thriftType String() string } v wire.Value s string }{ { "PrimitiveRequiredStruct", &ts.PrimitiveRequiredStruct{ BoolField: true, ByteField: 1, Int16Field: 2, Int32Field: 3, Int64Field: 4, DoubleField: 5.0, StringField: "foo", BinaryField: []byte("bar"), }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, {ID: 2, Value: wire.NewValueI8(1)}, {ID: 3, Value: wire.NewValueI16(2)}, {ID: 4, Value: wire.NewValueI32(3)}, {ID: 5, Value: wire.NewValueI64(4)}, {ID: 6, Value: wire.NewValueDouble(5.0)}, {ID: 7, Value: wire.NewValueString("foo")}, {ID: 8, Value: wire.NewValueBinary([]byte("bar"))}, }}), "", }, { "PrimitiveOptionalStruct: all fields", &ts.PrimitiveOptionalStruct{ BoolField: boolp(true), ByteField: bytep(1), Int16Field: int16p(2), Int32Field: int32p(3), Int64Field: int64p(4), DoubleField: doublep(5.0), StringField: stringp("foo"), BinaryField: []byte("bar"), }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, {ID: 2, Value: wire.NewValueI8(1)}, {ID: 3, Value: wire.NewValueI16(2)}, {ID: 4, Value: wire.NewValueI32(3)}, {ID: 5, Value: wire.NewValueI64(4)}, {ID: 6, Value: wire.NewValueDouble(5.0)}, {ID: 7, Value: wire.NewValueString("foo")}, {ID: 8, Value: wire.NewValueBinary([]byte("bar"))}, }}), "", }, { "PrimitiveOptionalStruct: bool", &ts.PrimitiveOptionalStruct{BoolField: boolp(true)}, singleFieldStruct(1, wire.NewValueBool(true)), "", }, { "PrimitiveOptionalStruct: byte", &ts.PrimitiveOptionalStruct{ByteField: bytep(1)}, singleFieldStruct(2, wire.NewValueI8(1)), "", }, { "PrimitiveOptionalStruct: int16", &ts.PrimitiveOptionalStruct{Int16Field: int16p(2)}, singleFieldStruct(3, wire.NewValueI16(2)), "", }, { "PrimitiveOptionalStruct: int32", &ts.PrimitiveOptionalStruct{Int32Field: int32p(3)}, singleFieldStruct(4, wire.NewValueI32(3)), "", }, { "PrimitiveOptionalStruct: int64", &ts.PrimitiveOptionalStruct{Int64Field: int64p(4)}, singleFieldStruct(5, wire.NewValueI64(4)), "", }, { "PrimitiveOptionalStruct: double", &ts.PrimitiveOptionalStruct{DoubleField: doublep(5.0)}, singleFieldStruct(6, wire.NewValueDouble(5.0)), "", }, { "PrimitiveOptionalStruct: string", &ts.PrimitiveOptionalStruct{StringField: stringp("foo")}, singleFieldStruct(7, wire.NewValueString("foo")), "", }, { "PrimitiveOptionalStruct: binary", &ts.PrimitiveOptionalStruct{BinaryField: []byte("bar")}, singleFieldStruct(8, wire.NewValueBinary([]byte("bar"))), "", }, { "PrimitiveContainersRequired", &tc.PrimitiveContainersRequired{ ListOfStrings: []string{"foo", "bar", "baz"}, SetOfInts: map[int32]struct{}{1: {}, 2: {}}, MapOfIntsToDoubles: map[int64]float64{1: 2.0, 3: 4.0}, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TBinary, []wire.Value([]wire.Value{ wire.NewValueString("foo"), wire.NewValueString("bar"), wire.NewValueString("baz"), })), ), }, { ID: 2, Value: wire.NewValueSet( wire.ValueListFromSlice(wire.TI32, []wire.Value{ wire.NewValueI32(1), wire.NewValueI32(2), }), ), }, { ID: 3, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TI64, wire.TDouble, []wire.MapItem{ { Key: wire.NewValueI64(1), Value: wire.NewValueDouble(2.0), }, { Key: wire.NewValueI64(3), Value: wire.NewValueDouble(4.0), }, }), ), }, }}), "", }, { "Frame", &ts.Frame{ TopLeft: &ts.Point{X: 1, Y: 2}, Size: &ts.Size{Width: 100, Height: 200}, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ { ID: 1, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(1.0)}, {ID: 2, Value: wire.NewValueDouble(2.0)}, }}), }, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueDouble(100.0)}, {ID: 2, Value: wire.NewValueDouble(200.0)}, }}), }, }}), "Frame{TopLeft: Point{X: 1, Y: 2}, Size: Size{Width: 100, Height: 200}}", }, { "User: optional field missing", &ts.User{Name: "Foo Bar"}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueString("Foo Bar")}, }}), "User{Name: Foo Bar}", }, { "User: optional field present", &ts.User{ Name: "Foo Bar", Contact: &ts.ContactInfo{EmailAddress: "*****@*****.**"}, }, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueString("Foo Bar")}, {ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueString("*****@*****.**")}, }})}, }}), "User{Name: Foo Bar, Contact: ContactInfo{EmailAddress: [email protected]}}", }, { "List: self-referential struct", &ts.List{Value: 1, Tail: &ts.List{Value: 2}}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI32(1)}, { ID: 2, Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueI32(2)}, }}), }, }}), "Node{Value: 1, Tail: Node{Value: 2}}", }, { "Document: PDF", &tu.Document{Pdf: []byte{1, 2, 3}}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBinary([]byte{1, 2, 3})}, }}), "Document{Pdf: [1 2 3]}", }, { "Document: PlainText", &tu.Document{PlainText: stringp("hello")}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueString("hello")}, }}), "Document{PlainText: hello}", }, { "ArbitraryValue: bool", &tu.ArbitraryValue{BoolValue: boolp(true)}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), "ArbitraryValue{BoolValue: true}", }, { "ArbitraryValue: i64", &tu.ArbitraryValue{Int64Value: int64p(42)}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueI64(42)}, }}), "ArbitraryValue{Int64Value: 42}", }, { "ArbitraryValue: string", &tu.ArbitraryValue{StringValue: stringp("hello")}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 3, Value: wire.NewValueString("hello")}, }}), "ArbitraryValue{StringValue: hello}", }, { "ArbitraryValue: list", &tu.ArbitraryValue{ListValue: []*tu.ArbitraryValue{ {BoolValue: boolp(true)}, {Int64Value: int64p(42)}, {StringValue: stringp("hello")}, }}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 4, Value: wire.NewValueList( wire.ValueListFromSlice(wire.TStruct, []wire.Value{ wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueI64(42)}, }}), wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 3, Value: wire.NewValueString("hello")}, }}), }), )}, }}), "ArbitraryValue{ListValue: [ArbitraryValue{BoolValue: true} ArbitraryValue{Int64Value: 42} ArbitraryValue{StringValue: hello}]}", }, { "ArbitraryValue: map", &tu.ArbitraryValue{MapValue: map[string]*tu.ArbitraryValue{ "bool": {BoolValue: boolp(true)}, "int64": {Int64Value: int64p(42)}, "string": {StringValue: stringp("hello")}, }}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 5, Value: wire.NewValueMap( wire.MapItemListFromSlice(wire.TBinary, wire.TStruct, []wire.MapItem{ { Key: wire.NewValueString("bool"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 1, Value: wire.NewValueBool(true)}, }}), }, { Key: wire.NewValueString("int64"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 2, Value: wire.NewValueI64(42)}, }}), }, { Key: wire.NewValueString("string"), Value: wire.NewValueStruct(wire.Struct{Fields: []wire.Field{ {ID: 3, Value: wire.NewValueString("hello")}, }}), }, }), )}, }}), "", }, { "EmptyStruct", &ts.EmptyStruct{}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), "", }, { "EmptyUnion", &tu.EmptyUnion{}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), "", }, { "EmptyException", &tx.EmptyException{}, wire.NewValueStruct(wire.Struct{Fields: []wire.Field{}}), "", }, } for _, tt := range tests { assertRoundTrip(t, tt.x, tt.v, tt.desc) if tt.s != "" { assert.Equal(t, tt.s, tt.x.String(), "ToString: %v", tt.desc) } else { assert.NotPanics(t, func() { _ = tt.x.String() }, "ToString: %v", tt.desc) } } }