func TestMerge(t *testing.T) { for _, m := range mergeTests { got := proto.Clone(m.dst) proto.Merge(got, m.src) if !proto.Equal(got, m.want) { t.Errorf("Merge(%v, %v)\n got %v\nwant %v\n", m.dst, m.src, got, m.want) } } }
func TestUnmarshalRepeatingNonRepeatedExtension(t *testing.T) { // We may see multiple instances of the same extension in the wire // format. For example, the proto compiler may encode custom options in // this way. Here, we verify that we merge the extensions together. tests := []struct { name string ext []*pb.ComplexExtension }{ { "two fields", []*pb.ComplexExtension{ {First: proto.Int32(7)}, {Second: proto.Int32(11)}, }, }, { "repeated field", []*pb.ComplexExtension{ {Third: []int32{1000}}, {Third: []int32{2000}}, }, }, { "two fields and repeated field", []*pb.ComplexExtension{ {Third: []int32{1000}}, {First: proto.Int32(9)}, {Second: proto.Int32(21)}, {Third: []int32{2000}}, }, }, } for _, test := range tests { var buf bytes.Buffer var want pb.ComplexExtension // Generate a serialized representation of a repeated extension // by catenating bytes together. for i, e := range test.ext { // Merge to create the wanted proto. proto.Merge(&want, e) // serialize the message msg := new(pb.OtherMessage) err := proto.SetExtension(msg, pb.E_Complex, e) if err != nil { t.Fatalf("[%s] Error setting extension %d: %v", test.name, i, err) } b, err := proto.Marshal(msg) if err != nil { t.Fatalf("[%s] Error marshaling message %d: %v", test.name, i, err) } buf.Write(b) } // Unmarshal and read the merged proto. msg2 := new(pb.OtherMessage) err := proto.Unmarshal(buf.Bytes(), msg2) if err != nil { t.Fatalf("[%s] Error unmarshaling message: %v", test.name, err) } e, err := proto.GetExtension(msg2, pb.E_Complex) if err != nil { t.Fatalf("[%s] Error getting extension: %v", test.name, err) } ext := e.(*pb.ComplexExtension) if ext == nil { t.Fatalf("[%s] Invalid extension", test.name) } if !reflect.DeepEqual(*ext, want) { t.Errorf("[%s] Wrong value for ComplexExtension: got: %s want: %s\n", test.name, ext, want) } } }