package code import ( "fmt" "go/types" ) // CompatibleTypes isnt a strict comparison, it allows for pointer differences func CompatibleTypes(expected types.Type, actual types.Type) error { //fmt.Println("Comparing ", expected.String(), actual.String()) // Special case to deal with pointer mismatches { expectedPtr, expectedIsPtr := expected.(*types.Pointer) actualPtr, actualIsPtr := actual.(*types.Pointer) if expectedIsPtr && actualIsPtr { return CompatibleTypes(expectedPtr.Elem(), actualPtr.Elem()) } if expectedIsPtr && !actualIsPtr { return CompatibleTypes(expectedPtr.Elem(), actual) } if !expectedIsPtr && actualIsPtr { return CompatibleTypes(expected, actualPtr.Elem()) } } switch expected := expected.(type) { case *types.Slice: if actual, ok := actual.(*types.Slice); ok { return CompatibleTypes(expected.Elem(), actual.Elem()) } case *types.Array: if actual, ok := actual.(*types.Array); ok { if expected.Len() != actual.Len() { return fmt.Errorf("array length differs") } return CompatibleTypes(expected.Elem(), actual.Elem()) } case *types.Basic: if actual, ok := actual.(*types.Basic); ok { if actual.Kind() != expected.Kind() { return fmt.Errorf("basic kind differs, %s != %s", expected.Name(), actual.Name()) } return nil } case *types.Struct: if actual, ok := actual.(*types.Struct); ok { if expected.NumFields() != actual.NumFields() { return fmt.Errorf("number of struct fields differ") } for i := 0; i < expected.NumFields(); i++ { if expected.Field(i).Name() != actual.Field(i).Name() { return fmt.Errorf("struct field %d name differs, %s != %s", i, expected.Field(i).Name(), actual.Field(i).Name()) } if err := CompatibleTypes(expected.Field(i).Type(), actual.Field(i).Type()); err != nil { return err } } return nil } case *types.Tuple: if actual, ok := actual.(*types.Tuple); ok { if expected.Len() != actual.Len() { return fmt.Errorf("tuple length differs, %d != %d", expected.Len(), actual.Len()) } for i := 0; i < expected.Len(); i++ { if err := CompatibleTypes(expected.At(i).Type(), actual.At(i).Type()); err != nil { return err } } return nil } case *types.Signature: if actual, ok := actual.(*types.Signature); ok { if err := CompatibleTypes(expected.Params(), actual.Params()); err != nil { return err } if err := CompatibleTypes(expected.Results(), actual.Results()); err != nil { return err } return nil } case *types.Interface: if actual, ok := actual.(*types.Interface); ok { if expected.NumMethods() != actual.NumMethods() { return fmt.Errorf("interface method count differs, %d != %d", expected.NumMethods(), actual.NumMethods()) } for i := 0; i < expected.NumMethods(); i++ { if expected.Method(i).Name() != actual.Method(i).Name() { return fmt.Errorf("interface method %d name differs, %s != %s", i, expected.Method(i).Name(), actual.Method(i).Name()) } if err := CompatibleTypes(expected.Method(i).Type(), actual.Method(i).Type()); err != nil { return err } } return nil } case *types.Map: if actual, ok := actual.(*types.Map); ok { if err := CompatibleTypes(expected.Key(), actual.Key()); err != nil { return err } if err := CompatibleTypes(expected.Elem(), actual.Elem()); err != nil { return err } return nil } case *types.Chan: if actual, ok := actual.(*types.Chan); ok { return CompatibleTypes(expected.Elem(), actual.Elem()) } case *types.Named: if actual, ok := actual.(*types.Named); ok { if NormalizeVendor(expected.Obj().Pkg().Path()) != NormalizeVendor(actual.Obj().Pkg().Path()) { return fmt.Errorf( "package name of named type differs, %s != %s", NormalizeVendor(expected.Obj().Pkg().Path()), NormalizeVendor(actual.Obj().Pkg().Path()), ) } if expected.Obj().Name() != actual.Obj().Name() { return fmt.Errorf( "named type name differs, %s != %s", NormalizeVendor(expected.Obj().Name()), NormalizeVendor(actual.Obj().Name()), ) } return nil } // Before models are generated all missing references will be Invalid Basic references. // lets assume these are valid too. if actual, ok := actual.(*types.Basic); ok && actual.Kind() == types.Invalid { return nil } default: return fmt.Errorf("missing support for %T", expected) } return fmt.Errorf("type mismatch %T != %T", expected, actual) }