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// Copyright (C) MongoDB, Inc. 2017-present. // // Licensed under the Apache License, Version 2.0 (the "License"); you may // not use this file except in compliance with the License. You may obtain // a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 package bsoncodec import ( "reflect" "testing" "github.com/google/go-cmp/cmp" "go.mongodb.org/mongo-driver/bson/bsonrw" "go.mongodb.org/mongo-driver/bson/bsontype" "go.mongodb.org/mongo-driver/internal/assert" ) func TestRegistryBuilder(t *testing.T) { t.Run("Register", func(t *testing.T) { fc1, fc2, fc3, fc4 := new(fakeCodec), new(fakeCodec), new(fakeCodec), new(fakeCodec) t.Run("interface", func(t *testing.T) { var t1f *testInterface1 var t2f *testInterface2 var t4f *testInterface4 ips := []interfaceValueEncoder{ {i: reflect.TypeOf(t1f).Elem(), ve: fc1}, {i: reflect.TypeOf(t2f).Elem(), ve: fc2}, {i: reflect.TypeOf(t1f).Elem(), ve: fc3}, {i: reflect.TypeOf(t4f).Elem(), ve: fc4}, } want := []interfaceValueEncoder{ {i: reflect.TypeOf(t1f).Elem(), ve: fc3}, {i: reflect.TypeOf(t2f).Elem(), ve: fc2}, {i: reflect.TypeOf(t4f).Elem(), ve: fc4}, } rb := NewRegistryBuilder() for _, ip := range ips { rb.RegisterHookEncoder(ip.i, ip.ve) } reg := rb.Build() got := reg.interfaceEncoders if !cmp.Equal(got, want, cmp.AllowUnexported(interfaceValueEncoder{}, fakeCodec{}), cmp.Comparer(typeComparer)) { t.Errorf("the registered interfaces are not correct: got %#v, want %#v", got, want) } }) t.Run("type", func(t *testing.T) { ft1, ft2, ft4 := fakeType1{}, fakeType2{}, fakeType4{} rb := NewRegistryBuilder(). RegisterTypeEncoder(reflect.TypeOf(ft1), fc1). RegisterTypeEncoder(reflect.TypeOf(ft2), fc2). RegisterTypeEncoder(reflect.TypeOf(ft1), fc3). RegisterTypeEncoder(reflect.TypeOf(ft4), fc4) want := []struct { t reflect.Type c ValueEncoder }{ {reflect.TypeOf(ft1), fc3}, {reflect.TypeOf(ft2), fc2}, {reflect.TypeOf(ft4), fc4}, } reg := rb.Build() got := reg.typeEncoders for _, s := range want { wantT, wantC := s.t, s.c gotC, exists := got.Load(wantT) if !exists { t.Errorf("Did not find type in the type registry: %v", wantT) } if !cmp.Equal(gotC, wantC, cmp.AllowUnexported(fakeCodec{})) { t.Errorf("codecs did not match: got %#v; want %#v", gotC, wantC) } } }) t.Run("kind", func(t *testing.T) { k1, k2, k4 := reflect.Struct, reflect.Slice, reflect.Map rb := NewRegistryBuilder(). RegisterDefaultEncoder(k1, fc1). RegisterDefaultEncoder(k2, fc2). RegisterDefaultEncoder(k1, fc3). RegisterDefaultEncoder(k4, fc4) want := []struct { k reflect.Kind c ValueEncoder }{ {k1, fc3}, {k2, fc2}, {k4, fc4}, } reg := rb.Build() got := reg.kindEncoders for _, s := range want { wantK, wantC := s.k, s.c gotC, exists := got.Load(wantK) if !exists { t.Errorf("Did not find kind in the kind registry: %v", wantK) } if !cmp.Equal(gotC, wantC, cmp.AllowUnexported(fakeCodec{})) { t.Errorf("codecs did not match: got %#v; want %#v", gotC, wantC) } } }) t.Run("RegisterDefault", func(t *testing.T) { t.Run("MapCodec", func(t *testing.T) { codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} rb := NewRegistryBuilder() rb.RegisterDefaultEncoder(reflect.Map, codec) reg := rb.Build() if reg.kindEncoders.get(reflect.Map) != codec { t.Errorf("map codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Map), codec) } rb.RegisterDefaultEncoder(reflect.Map, codec2) reg = rb.Build() if reg.kindEncoders.get(reflect.Map) != codec2 { t.Errorf("map codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Map), codec2) } }) t.Run("StructCodec", func(t *testing.T) { codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} rb := NewRegistryBuilder() rb.RegisterDefaultEncoder(reflect.Struct, codec) reg := rb.Build() if reg.kindEncoders.get(reflect.Struct) != codec { t.Errorf("struct codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Struct), codec) } rb.RegisterDefaultEncoder(reflect.Struct, codec2) reg = rb.Build() if reg.kindEncoders.get(reflect.Struct) != codec2 { t.Errorf("struct codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Struct), codec2) } }) t.Run("SliceCodec", func(t *testing.T) { codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} rb := NewRegistryBuilder() rb.RegisterDefaultEncoder(reflect.Slice, codec) reg := rb.Build() if reg.kindEncoders.get(reflect.Slice) != codec { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Slice), codec) } rb.RegisterDefaultEncoder(reflect.Slice, codec2) reg = rb.Build() if reg.kindEncoders.get(reflect.Slice) != codec2 { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Slice), codec2) } }) t.Run("ArrayCodec", func(t *testing.T) { codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} rb := NewRegistryBuilder() rb.RegisterDefaultEncoder(reflect.Array, codec) reg := rb.Build() if reg.kindEncoders.get(reflect.Array) != codec { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Array), codec) } rb.RegisterDefaultEncoder(reflect.Array, codec2) reg = rb.Build() if reg.kindEncoders.get(reflect.Array) != codec2 { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Array), codec2) } }) }) t.Run("Lookup", func(t *testing.T) { type Codec interface { ValueEncoder ValueDecoder } var ( arrinstance [12]int arr = reflect.TypeOf(arrinstance) slc = reflect.TypeOf(make([]int, 12)) m = reflect.TypeOf(make(map[string]int)) strct = reflect.TypeOf(struct{ Foo string }{}) ft1 = reflect.PtrTo(reflect.TypeOf(fakeType1{})) ft2 = reflect.TypeOf(fakeType2{}) ft3 = reflect.TypeOf(fakeType5(func(string, string) string { return "fakeType5" })) ti1 = reflect.TypeOf((*testInterface1)(nil)).Elem() ti2 = reflect.TypeOf((*testInterface2)(nil)).Elem() ti1Impl = reflect.TypeOf(testInterface1Impl{}) ti2Impl = reflect.TypeOf(testInterface2Impl{}) ti3 = reflect.TypeOf((*testInterface3)(nil)).Elem() ti3Impl = reflect.TypeOf(testInterface3Impl{}) ti3ImplPtr = reflect.TypeOf((*testInterface3Impl)(nil)) fc1, fc2 = &fakeCodec{num: 1}, &fakeCodec{num: 2} fsc, fslcc, fmc = new(fakeStructCodec), new(fakeSliceCodec), new(fakeMapCodec) pc = NewPointerCodec() ) reg := NewRegistryBuilder(). RegisterTypeEncoder(ft1, fc1). RegisterTypeEncoder(ft2, fc2). RegisterTypeEncoder(ti1, fc1). RegisterDefaultEncoder(reflect.Struct, fsc). RegisterDefaultEncoder(reflect.Slice, fslcc). RegisterDefaultEncoder(reflect.Array, fslcc). RegisterDefaultEncoder(reflect.Map, fmc). RegisterDefaultEncoder(reflect.Ptr, pc). RegisterTypeDecoder(ft1, fc1). RegisterTypeDecoder(ft2, fc2). RegisterTypeDecoder(ti1, fc1). // values whose exact type is testInterface1 will use fc1 encoder RegisterDefaultDecoder(reflect.Struct, fsc). RegisterDefaultDecoder(reflect.Slice, fslcc). RegisterDefaultDecoder(reflect.Array, fslcc). RegisterDefaultDecoder(reflect.Map, fmc). RegisterDefaultDecoder(reflect.Ptr, pc). RegisterHookEncoder(ti2, fc2). RegisterHookDecoder(ti2, fc2). RegisterHookEncoder(ti3, fc3). RegisterHookDecoder(ti3, fc3). Build() testCases := []struct { name string t reflect.Type wantcodec Codec wanterr error testcache bool }{ { "type registry (pointer)", ft1, fc1, nil, false, }, { "type registry (non-pointer)", ft2, fc2, nil, false, }, { // lookup an interface type and expect that the registered encoder is returned "interface with type encoder", ti1, fc1, nil, true, }, { // lookup a type that implements an interface and expect that the default struct codec is returned "interface implementation with type encoder", ti1Impl, fsc, nil, false, }, { // lookup an interface type and expect that the registered hook is returned "interface with hook", ti2, fc2, nil, false, }, { // lookup a type that implements an interface and expect that the registered hook is returned "interface implementation with hook", ti2Impl, fc2, nil, false, }, { // lookup a pointer to a type where the pointer implements an interface and expect that the // registered hook is returned "interface pointer to implementation with hook (pointer)", ti3ImplPtr, fc3, nil, false, }, { "default struct codec (pointer)", reflect.PtrTo(strct), pc, nil, false, }, { "default struct codec (non-pointer)", strct, fsc, nil, false, }, { "default array codec", arr, fslcc, nil, false, }, { "default slice codec", slc, fslcc, nil, false, }, { "default map", m, fmc, nil, false, }, { "map non-string key", reflect.TypeOf(map[int]int{}), fmc, nil, false, }, { "No Codec Registered", ft3, nil, ErrNoEncoder{Type: ft3}, false, }, } allowunexported := cmp.AllowUnexported(fakeCodec{}, fakeStructCodec{}, fakeSliceCodec{}, fakeMapCodec{}) comparepc := func(pc1, pc2 *PointerCodec) bool { return true } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { t.Run("Encoder", func(t *testing.T) { gotcodec, goterr := reg.LookupEncoder(tc.t) if !cmp.Equal(goterr, tc.wanterr, cmp.Comparer(compareErrors)) { t.Errorf("errors did not match: got %#v, want %#v", goterr, tc.wanterr) } if !cmp.Equal(gotcodec, tc.wantcodec, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("codecs did not match: got %#v, want %#v", gotcodec, tc.wantcodec) } }) t.Run("Decoder", func(t *testing.T) { wanterr := tc.wanterr if ene, ok := tc.wanterr.(ErrNoEncoder); ok { wanterr = ErrNoDecoder(ene) } gotcodec, goterr := reg.LookupDecoder(tc.t) if !cmp.Equal(goterr, wanterr, cmp.Comparer(compareErrors)) { t.Errorf("errors did not match: got %#v, want %#v", goterr, wanterr) } if !cmp.Equal(gotcodec, tc.wantcodec, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("codecs did not match: got %#v, want %#v", gotcodec, tc.wantcodec) } }) }) } // lookup a type whose pointer implements an interface and expect that the registered hook is // returned t.Run("interface implementation with hook (pointer)", func(t *testing.T) { t.Run("Encoder", func(t *testing.T) { gotEnc, err := reg.LookupEncoder(ti3Impl) assert.Nil(t, err, "LookupEncoder error: %v", err) cae, ok := gotEnc.(*condAddrEncoder) assert.True(t, ok, "Expected CondAddrEncoder, got %T", gotEnc) if !cmp.Equal(cae.canAddrEnc, fc3, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected canAddrEnc %#v, got %#v", cae.canAddrEnc, fc3) } if !cmp.Equal(cae.elseEnc, fsc, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected elseEnc %#v, got %#v", cae.elseEnc, fsc) } }) t.Run("Decoder", func(t *testing.T) { gotDec, err := reg.LookupDecoder(ti3Impl) assert.Nil(t, err, "LookupDecoder error: %v", err) cad, ok := gotDec.(*condAddrDecoder) assert.True(t, ok, "Expected CondAddrDecoder, got %T", gotDec) if !cmp.Equal(cad.canAddrDec, fc3, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected canAddrDec %#v, got %#v", cad.canAddrDec, fc3) } if !cmp.Equal(cad.elseDec, fsc, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected elseDec %#v, got %#v", cad.elseDec, fsc) } }) }) }) }) t.Run("Type Map", func(t *testing.T) { reg := NewRegistryBuilder(). RegisterTypeMapEntry(bsontype.String, reflect.TypeOf("")). RegisterTypeMapEntry(bsontype.Int32, reflect.TypeOf(int(0))). Build() var got, want reflect.Type want = reflect.TypeOf("") got, err := reg.LookupTypeMapEntry(bsontype.String) noerr(t, err) if got != want { t.Errorf("unexpected type: got %#v, want %#v", got, want) } want = reflect.TypeOf(int(0)) got, err = reg.LookupTypeMapEntry(bsontype.Int32) noerr(t, err) if got != want { t.Errorf("unexpected type: got %#v, want %#v", got, want) } want = nil wanterr := ErrNoTypeMapEntry{Type: bsontype.ObjectID} got, err = reg.LookupTypeMapEntry(bsontype.ObjectID) if err != wanterr { t.Errorf("did not get expected error: got %#v, want %#v", err, wanterr) } if got != want { t.Errorf("unexpected type: got %#v, want %#v", got, want) } }) } func TestRegistry(t *testing.T) { t.Parallel() t.Run("Register", func(t *testing.T) { t.Parallel() fc1, fc2, fc3, fc4 := new(fakeCodec), new(fakeCodec), new(fakeCodec), new(fakeCodec) t.Run("interface", func(t *testing.T) { t.Parallel() var t1f *testInterface1 var t2f *testInterface2 var t4f *testInterface4 ips := []interfaceValueEncoder{ {i: reflect.TypeOf(t1f).Elem(), ve: fc1}, {i: reflect.TypeOf(t2f).Elem(), ve: fc2}, {i: reflect.TypeOf(t1f).Elem(), ve: fc3}, {i: reflect.TypeOf(t4f).Elem(), ve: fc4}, } want := []interfaceValueEncoder{ {i: reflect.TypeOf(t1f).Elem(), ve: fc3}, {i: reflect.TypeOf(t2f).Elem(), ve: fc2}, {i: reflect.TypeOf(t4f).Elem(), ve: fc4}, } reg := NewRegistry() for _, ip := range ips { reg.RegisterInterfaceEncoder(ip.i, ip.ve) } got := reg.interfaceEncoders if !cmp.Equal(got, want, cmp.AllowUnexported(interfaceValueEncoder{}, fakeCodec{}), cmp.Comparer(typeComparer)) { t.Errorf("registered interfaces are not correct: got %#v, want %#v", got, want) } }) t.Run("type", func(t *testing.T) { t.Parallel() ft1, ft2, ft4 := fakeType1{}, fakeType2{}, fakeType4{} reg := NewRegistry() reg.RegisterTypeEncoder(reflect.TypeOf(ft1), fc1) reg.RegisterTypeEncoder(reflect.TypeOf(ft2), fc2) reg.RegisterTypeEncoder(reflect.TypeOf(ft1), fc3) reg.RegisterTypeEncoder(reflect.TypeOf(ft4), fc4) want := []struct { t reflect.Type c ValueEncoder }{ {reflect.TypeOf(ft1), fc3}, {reflect.TypeOf(ft2), fc2}, {reflect.TypeOf(ft4), fc4}, } got := reg.typeEncoders for _, s := range want { wantT, wantC := s.t, s.c gotC, exists := got.Load(wantT) if !exists { t.Errorf("type missing in registry: %v", wantT) } if !cmp.Equal(gotC, wantC, cmp.AllowUnexported(fakeCodec{})) { t.Errorf("codecs did not match: got %#v; want %#v", gotC, wantC) } } }) t.Run("kind", func(t *testing.T) { t.Parallel() k1, k2, k4 := reflect.Struct, reflect.Slice, reflect.Map reg := NewRegistry() reg.RegisterKindEncoder(k1, fc1) reg.RegisterKindEncoder(k2, fc2) reg.RegisterKindEncoder(k1, fc3) reg.RegisterKindEncoder(k4, fc4) want := []struct { k reflect.Kind c ValueEncoder }{ {k1, fc3}, {k2, fc2}, {k4, fc4}, } got := reg.kindEncoders for _, s := range want { wantK, wantC := s.k, s.c gotC, exists := got.Load(wantK) if !exists { t.Errorf("type missing in registry: %v", wantK) } if !cmp.Equal(gotC, wantC, cmp.AllowUnexported(fakeCodec{})) { t.Errorf("codecs did not match: got %#v, want %#v", gotC, wantC) } } }) t.Run("RegisterDefault", func(t *testing.T) { t.Parallel() t.Run("MapCodec", func(t *testing.T) { t.Parallel() codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} reg := NewRegistry() reg.RegisterKindEncoder(reflect.Map, codec) if reg.kindEncoders.get(reflect.Map) != codec { t.Errorf("map codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Map), codec) } reg.RegisterKindEncoder(reflect.Map, codec2) if reg.kindEncoders.get(reflect.Map) != codec2 { t.Errorf("map codec properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Map), codec2) } }) t.Run("StructCodec", func(t *testing.T) { t.Parallel() codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} reg := NewRegistry() reg.RegisterKindEncoder(reflect.Struct, codec) if reg.kindEncoders.get(reflect.Struct) != codec { t.Errorf("struct codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Struct), codec) } reg.RegisterKindEncoder(reflect.Struct, codec2) if reg.kindEncoders.get(reflect.Struct) != codec2 { t.Errorf("struct codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Struct), codec2) } }) t.Run("SliceCodec", func(t *testing.T) { t.Parallel() codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} reg := NewRegistry() reg.RegisterKindEncoder(reflect.Slice, codec) if reg.kindEncoders.get(reflect.Slice) != codec { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Slice), codec) } reg.RegisterKindEncoder(reflect.Slice, codec2) if reg.kindEncoders.get(reflect.Slice) != codec2 { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Slice), codec2) } }) t.Run("ArrayCodec", func(t *testing.T) { t.Parallel() codec := &fakeCodec{num: 1} codec2 := &fakeCodec{num: 2} reg := NewRegistry() reg.RegisterKindEncoder(reflect.Array, codec) if reg.kindEncoders.get(reflect.Array) != codec { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Array), codec) } reg.RegisterKindEncoder(reflect.Array, codec2) if reg.kindEncoders.get(reflect.Array) != codec2 { t.Errorf("slice codec not properly set: got %#v, want %#v", reg.kindEncoders.get(reflect.Array), codec2) } }) }) t.Run("Lookup", func(t *testing.T) { t.Parallel() type Codec interface { ValueEncoder ValueDecoder } var ( arrinstance [12]int arr = reflect.TypeOf(arrinstance) slc = reflect.TypeOf(make([]int, 12)) m = reflect.TypeOf(make(map[string]int)) strct = reflect.TypeOf(struct{ Foo string }{}) ft1 = reflect.PtrTo(reflect.TypeOf(fakeType1{})) ft2 = reflect.TypeOf(fakeType2{}) ft3 = reflect.TypeOf(fakeType5(func(string, string) string { return "fakeType5" })) ti1 = reflect.TypeOf((*testInterface1)(nil)).Elem() ti2 = reflect.TypeOf((*testInterface2)(nil)).Elem() ti1Impl = reflect.TypeOf(testInterface1Impl{}) ti2Impl = reflect.TypeOf(testInterface2Impl{}) ti3 = reflect.TypeOf((*testInterface3)(nil)).Elem() ti3Impl = reflect.TypeOf(testInterface3Impl{}) ti3ImplPtr = reflect.TypeOf((*testInterface3Impl)(nil)) fc1, fc2 = &fakeCodec{num: 1}, &fakeCodec{num: 2} fsc, fslcc, fmc = new(fakeStructCodec), new(fakeSliceCodec), new(fakeMapCodec) pc = NewPointerCodec() ) reg := NewRegistry() reg.RegisterTypeEncoder(ft1, fc1) reg.RegisterTypeEncoder(ft2, fc2) reg.RegisterTypeEncoder(ti1, fc1) reg.RegisterKindEncoder(reflect.Struct, fsc) reg.RegisterKindEncoder(reflect.Slice, fslcc) reg.RegisterKindEncoder(reflect.Array, fslcc) reg.RegisterKindEncoder(reflect.Map, fmc) reg.RegisterKindEncoder(reflect.Ptr, pc) reg.RegisterTypeDecoder(ft1, fc1) reg.RegisterTypeDecoder(ft2, fc2) reg.RegisterTypeDecoder(ti1, fc1) // values whose exact type is testInterface1 will use fc1 encoder reg.RegisterKindDecoder(reflect.Struct, fsc) reg.RegisterKindDecoder(reflect.Slice, fslcc) reg.RegisterKindDecoder(reflect.Array, fslcc) reg.RegisterKindDecoder(reflect.Map, fmc) reg.RegisterKindDecoder(reflect.Ptr, pc) reg.RegisterInterfaceEncoder(ti2, fc2) reg.RegisterInterfaceDecoder(ti2, fc2) reg.RegisterInterfaceEncoder(ti3, fc3) reg.RegisterInterfaceDecoder(ti3, fc3) testCases := []struct { name string t reflect.Type wantcodec Codec wanterr error testcache bool }{ { "type registry (pointer)", ft1, fc1, nil, false, }, { "type registry (non-pointer)", ft2, fc2, nil, false, }, { // lookup an interface type and expect that the registered encoder is returned "interface with type encoder", ti1, fc1, nil, true, }, { // lookup a type that implements an interface and expect that the default struct codec is returned "interface implementation with type encoder", ti1Impl, fsc, nil, false, }, { // lookup an interface type and expect that the registered hook is returned "interface with hook", ti2, fc2, nil, false, }, { // lookup a type that implements an interface and expect that the registered hook is returned "interface implementation with hook", ti2Impl, fc2, nil, false, }, { // lookup a pointer to a type where the pointer implements an interface and expect that the // registered hook is returned "interface pointer to implementation with hook (pointer)", ti3ImplPtr, fc3, nil, false, }, { "default struct codec (pointer)", reflect.PtrTo(strct), pc, nil, false, }, { "default struct codec (non-pointer)", strct, fsc, nil, false, }, { "default array codec", arr, fslcc, nil, false, }, { "default slice codec", slc, fslcc, nil, false, }, { "default map", m, fmc, nil, false, }, { "map non-string key", reflect.TypeOf(map[int]int{}), fmc, nil, false, }, { "No Codec Registered", ft3, nil, ErrNoEncoder{Type: ft3}, false, }, } allowunexported := cmp.AllowUnexported(fakeCodec{}, fakeStructCodec{}, fakeSliceCodec{}, fakeMapCodec{}) comparepc := func(pc1, pc2 *PointerCodec) bool { return true } for _, tc := range testCases { tc := tc t.Run(tc.name, func(t *testing.T) { t.Parallel() t.Run("Encoder", func(t *testing.T) { t.Parallel() gotcodec, goterr := reg.LookupEncoder(tc.t) if !cmp.Equal(goterr, tc.wanterr, cmp.Comparer(compareErrors)) { t.Errorf("errors did not match: got %#v, want %#v", goterr, tc.wanterr) } if !cmp.Equal(gotcodec, tc.wantcodec, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("codecs did not match: got %#v, want %#v", gotcodec, tc.wantcodec) } }) t.Run("Decoder", func(t *testing.T) { t.Parallel() wanterr := tc.wanterr if ene, ok := tc.wanterr.(ErrNoEncoder); ok { wanterr = ErrNoDecoder(ene) } gotcodec, goterr := reg.LookupDecoder(tc.t) if !cmp.Equal(goterr, wanterr, cmp.Comparer(compareErrors)) { t.Errorf("errors did not match: got %#v, want %#v", goterr, wanterr) } if !cmp.Equal(gotcodec, tc.wantcodec, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("codecs did not match: got %v: want %v", gotcodec, tc.wantcodec) } }) }) } t.Run("nil type", func(t *testing.T) { t.Parallel() t.Run("Encoder", func(t *testing.T) { t.Parallel() wanterr := ErrNoEncoder{Type: reflect.TypeOf(nil)} gotcodec, goterr := reg.LookupEncoder(nil) if !cmp.Equal(goterr, wanterr, cmp.Comparer(compareErrors)) { t.Errorf("errors did not match: got %#v, want %#v", goterr, wanterr) } if !cmp.Equal(gotcodec, nil, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("codecs did not match: got %#v, want nil", gotcodec) } }) t.Run("Decoder", func(t *testing.T) { t.Parallel() wanterr := ErrNilType gotcodec, goterr := reg.LookupDecoder(nil) if !cmp.Equal(goterr, wanterr, cmp.Comparer(compareErrors)) { t.Errorf("errors did not match: got %#v, want %#v", goterr, wanterr) } if !cmp.Equal(gotcodec, nil, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("codecs did not match: got %v: want nil", gotcodec) } }) }) // lookup a type whose pointer implements an interface and expect that the registered hook is // returned t.Run("interface implementation with hook (pointer)", func(t *testing.T) { t.Parallel() t.Run("Encoder", func(t *testing.T) { t.Parallel() gotEnc, err := reg.LookupEncoder(ti3Impl) assert.Nil(t, err, "LookupEncoder error: %v", err) cae, ok := gotEnc.(*condAddrEncoder) assert.True(t, ok, "Expected CondAddrEncoder, got %T", gotEnc) if !cmp.Equal(cae.canAddrEnc, fc3, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected canAddrEnc %#v, got %#v", cae.canAddrEnc, fc3) } if !cmp.Equal(cae.elseEnc, fsc, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected elseEnc %#v, got %#v", cae.elseEnc, fsc) } }) t.Run("Decoder", func(t *testing.T) { t.Parallel() gotDec, err := reg.LookupDecoder(ti3Impl) assert.Nil(t, err, "LookupDecoder error: %v", err) cad, ok := gotDec.(*condAddrDecoder) assert.True(t, ok, "Expected CondAddrDecoder, got %T", gotDec) if !cmp.Equal(cad.canAddrDec, fc3, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected canAddrDec %#v, got %#v", cad.canAddrDec, fc3) } if !cmp.Equal(cad.elseDec, fsc, allowunexported, cmp.Comparer(comparepc)) { t.Errorf("expected elseDec %#v, got %#v", cad.elseDec, fsc) } }) }) }) }) t.Run("Type Map", func(t *testing.T) { t.Parallel() reg := NewRegistry() reg.RegisterTypeMapEntry(bsontype.String, reflect.TypeOf("")) reg.RegisterTypeMapEntry(bsontype.Int32, reflect.TypeOf(int(0))) var got, want reflect.Type want = reflect.TypeOf("") got, err := reg.LookupTypeMapEntry(bsontype.String) noerr(t, err) if got != want { t.Errorf("unexpected type: got %#v, want %#v", got, want) } want = reflect.TypeOf(int(0)) got, err = reg.LookupTypeMapEntry(bsontype.Int32) noerr(t, err) if got != want { t.Errorf("unexpected type: got %#v, want %#v", got, want) } want = nil wanterr := ErrNoTypeMapEntry{Type: bsontype.ObjectID} got, err = reg.LookupTypeMapEntry(bsontype.ObjectID) if err != wanterr { t.Errorf("unexpected error: got %#v, want %#v", err, wanterr) } if got != want { t.Errorf("unexpected error: got %#v, want %#v", got, want) } }) } // get is only for testing as it does return if the value was found func (c *kindEncoderCache) get(rt reflect.Kind) ValueEncoder { e, _ := c.Load(rt) return e } func BenchmarkLookupEncoder(b *testing.B) { type childStruct struct { V1, V2, V3, V4 int } type nestedStruct struct { childStruct A struct{ C1, C2, C3, C4 childStruct } B struct{ C1, C2, C3, C4 childStruct } C struct{ M1, M2, M3, M4 map[int]int } } types := [...]reflect.Type{ reflect.TypeOf(int64(1)), reflect.TypeOf(&fakeCodec{}), reflect.TypeOf(&testInterface1Impl{}), reflect.TypeOf(&nestedStruct{}), } r := NewRegistry() for _, typ := range types { r.RegisterTypeEncoder(typ, &fakeCodec{}) } b.Run("Serial", func(b *testing.B) { for i := 0; i < b.N; i++ { _, err := r.LookupEncoder(types[i%len(types)]) if err != nil { b.Fatal(err) } } }) b.Run("Parallel", func(b *testing.B) { b.RunParallel(func(pb *testing.PB) { for i := 0; pb.Next(); i++ { _, err := r.LookupEncoder(types[i%len(types)]) if err != nil { b.Fatal(err) } } }) }) } type fakeType1 struct{} type fakeType2 struct{} type fakeType4 struct{} type fakeType5 func(string, string) string type fakeStructCodec struct{ *fakeCodec } type fakeSliceCodec struct{ *fakeCodec } type fakeMapCodec struct{ *fakeCodec } type fakeCodec struct { // num is used to differentiate fakeCodec instances and to force Go to allocate a new value in // memory for every fakeCodec. If fakeCodec were an empty struct, Go may use the same pointer // for every instance of fakeCodec, making comparisons between pointers to instances of // fakeCodec sometimes meaningless. num int } func (*fakeCodec) EncodeValue(EncodeContext, bsonrw.ValueWriter, reflect.Value) error { return nil } func (*fakeCodec) DecodeValue(DecodeContext, bsonrw.ValueReader, reflect.Value) error { return nil } type testInterface1 interface{ test1() } type testInterface2 interface{ test2() } type testInterface3 interface{ test3() } type testInterface4 interface{ test4() } type testInterface1Impl struct{} var _ testInterface1 = testInterface1Impl{} func (testInterface1Impl) test1() {} type testInterface2Impl struct{} var _ testInterface2 = testInterface2Impl{} func (testInterface2Impl) test2() {} type testInterface3Impl struct{} var _ testInterface3 = (*testInterface3Impl)(nil) func (*testInterface3Impl) test3() {} func typeComparer(i1, i2 reflect.Type) bool { return i1 == i2 }