// Copyright 2012 Google Inc. // // 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 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package model contains the data model necessary for generating mock implementations. package model import ( "encoding/gob" "fmt" "io" "reflect" "strings" ) // pkgPath is the importable path for package model const pkgPath = "github.com/golang/mock/mockgen/model" // Package is a Go package. It may be a subset. type Package struct { Name string Interfaces []*Interface DotImports []string } func (pkg *Package) Print(w io.Writer) { fmt.Fprintf(w, "package %s\n", pkg.Name) for _, intf := range pkg.Interfaces { intf.Print(w) } } // Imports returns the imports needed by the Package as a set of import paths. func (pkg *Package) Imports() map[string]bool { im := make(map[string]bool) for _, intf := range pkg.Interfaces { intf.addImports(im) } return im } // Interface is a Go interface. type Interface struct { Name string Methods []*Method } func (intf *Interface) Print(w io.Writer) { fmt.Fprintf(w, "interface %s\n", intf.Name) for _, m := range intf.Methods { m.Print(w) } } func (intf *Interface) addImports(im map[string]bool) { for _, m := range intf.Methods { m.addImports(im) } } // Method is a single method of an interface. type Method struct { Name string In, Out []*Parameter Variadic *Parameter // may be nil } func (m *Method) Print(w io.Writer) { fmt.Fprintf(w, " - method %s\n", m.Name) if len(m.In) > 0 { fmt.Fprintf(w, " in:\n") for _, p := range m.In { p.Print(w) } } if m.Variadic != nil { fmt.Fprintf(w, " ...:\n") m.Variadic.Print(w) } if len(m.Out) > 0 { fmt.Fprintf(w, " out:\n") for _, p := range m.Out { p.Print(w) } } } func (m *Method) addImports(im map[string]bool) { for _, p := range m.In { p.Type.addImports(im) } if m.Variadic != nil { m.Variadic.Type.addImports(im) } for _, p := range m.Out { p.Type.addImports(im) } } // Parameter is an argument or return parameter of a method. type Parameter struct { Name string // may be empty Type Type } func (p *Parameter) Print(w io.Writer) { n := p.Name if n == "" { n = `""` } fmt.Fprintf(w, " - %v: %v\n", n, p.Type.String(nil, "")) } // Type is a Go type. type Type interface { String(pm map[string]string, pkgOverride string) string addImports(im map[string]bool) } func init() { gob.Register(&ArrayType{}) gob.Register(&ChanType{}) gob.Register(&FuncType{}) gob.Register(&MapType{}) gob.Register(&NamedType{}) gob.Register(&PointerType{}) // Call gob.RegisterName to make sure it has the consistent name registered // for both gob decoder and encoder. // // For a non-pointer type, gob.Register will try to get package full path by // calling rt.PkgPath() for a name to register. If your project has vendor // directory, it is possible that PkgPath will get a path like this: // ../../../vendor/github.com/golang/mock/mockgen/model gob.RegisterName(pkgPath+".PredeclaredType", PredeclaredType("")) } // ArrayType is an array or slice type. type ArrayType struct { Len int // -1 for slices, >= 0 for arrays Type Type } func (at *ArrayType) String(pm map[string]string, pkgOverride string) string { s := "[]" if at.Len > -1 { s = fmt.Sprintf("[%d]", at.Len) } return s + at.Type.String(pm, pkgOverride) } func (at *ArrayType) addImports(im map[string]bool) { at.Type.addImports(im) } // ChanType is a channel type. type ChanType struct { Dir ChanDir // 0, 1 or 2 Type Type } func (ct *ChanType) String(pm map[string]string, pkgOverride string) string { s := ct.Type.String(pm, pkgOverride) if ct.Dir == RecvDir { return "<-chan " + s } if ct.Dir == SendDir { return "chan<- " + s } return "chan " + s } func (ct *ChanType) addImports(im map[string]bool) { ct.Type.addImports(im) } // ChanDir is a channel direction. type ChanDir int const ( RecvDir ChanDir = 1 SendDir ChanDir = 2 ) // FuncType is a function type. type FuncType struct { In, Out []*Parameter Variadic *Parameter // may be nil } func (ft *FuncType) String(pm map[string]string, pkgOverride string) string { args := make([]string, len(ft.In)) for i, p := range ft.In { args[i] = p.Type.String(pm, pkgOverride) } if ft.Variadic != nil { args = append(args, "..."+ft.Variadic.Type.String(pm, pkgOverride)) } rets := make([]string, len(ft.Out)) for i, p := range ft.Out { rets[i] = p.Type.String(pm, pkgOverride) } retString := strings.Join(rets, ", ") if nOut := len(ft.Out); nOut == 1 { retString = " " + retString } else if nOut > 1 { retString = " (" + retString + ")" } return "func(" + strings.Join(args, ", ") + ")" + retString } func (ft *FuncType) addImports(im map[string]bool) { for _, p := range ft.In { p.Type.addImports(im) } if ft.Variadic != nil { ft.Variadic.Type.addImports(im) } for _, p := range ft.Out { p.Type.addImports(im) } } // MapType is a map type. type MapType struct { Key, Value Type } func (mt *MapType) String(pm map[string]string, pkgOverride string) string { return "map[" + mt.Key.String(pm, pkgOverride) + "]" + mt.Value.String(pm, pkgOverride) } func (mt *MapType) addImports(im map[string]bool) { mt.Key.addImports(im) mt.Value.addImports(im) } // NamedType is an exported type in a package. type NamedType struct { Package string // may be empty Type string // TODO: should this be typed Type? } func (nt *NamedType) String(pm map[string]string, pkgOverride string) string { // TODO: is this right? if pkgOverride == nt.Package { return nt.Type } prefix := pm[nt.Package] if prefix != "" { return prefix + "." + nt.Type } else { return nt.Type } } func (nt *NamedType) addImports(im map[string]bool) { if nt.Package != "" { im[nt.Package] = true } } // PointerType is a pointer to another type. type PointerType struct { Type Type } func (pt *PointerType) String(pm map[string]string, pkgOverride string) string { return "*" + pt.Type.String(pm, pkgOverride) } func (pt *PointerType) addImports(im map[string]bool) { pt.Type.addImports(im) } // PredeclaredType is a predeclared type such as "int". type PredeclaredType string func (pt PredeclaredType) String(pm map[string]string, pkgOverride string) string { return string(pt) } func (pt PredeclaredType) addImports(im map[string]bool) {} // The following code is intended to be called by the program generated by ../reflect.go. func InterfaceFromInterfaceType(it reflect.Type) (*Interface, error) { if it.Kind() != reflect.Interface { return nil, fmt.Errorf("%v is not an interface", it) } intf := &Interface{} for i := 0; i < it.NumMethod(); i++ { mt := it.Method(i) // TODO: need to skip unexported methods? or just raise an error? m := &Method{ Name: mt.Name, } var err error m.In, m.Variadic, m.Out, err = funcArgsFromType(mt.Type) if err != nil { return nil, err } intf.Methods = append(intf.Methods, m) } return intf, nil } // t's Kind must be a reflect.Func. func funcArgsFromType(t reflect.Type) (in []*Parameter, variadic *Parameter, out []*Parameter, err error) { nin := t.NumIn() if t.IsVariadic() { nin-- } var p *Parameter for i := 0; i < nin; i++ { p, err = parameterFromType(t.In(i)) if err != nil { return } in = append(in, p) } if t.IsVariadic() { p, err = parameterFromType(t.In(nin).Elem()) if err != nil { return } variadic = p } for i := 0; i < t.NumOut(); i++ { p, err = parameterFromType(t.Out(i)) if err != nil { return } out = append(out, p) } return } func parameterFromType(t reflect.Type) (*Parameter, error) { tt, err := typeFromType(t) if err != nil { return nil, err } return &Parameter{Type: tt}, nil } var errorType = reflect.TypeOf((*error)(nil)).Elem() var byteType = reflect.TypeOf(byte(0)) func typeFromType(t reflect.Type) (Type, error) { // Hack workaround for https://golang.org/issue/3853. // This explicit check should not be necessary. if t == byteType { return PredeclaredType("byte"), nil } if imp := t.PkgPath(); imp != "" { return &NamedType{ Package: impPath(imp), Type: t.Name(), }, nil } // only unnamed or predeclared types after here // Lots of types have element types. Let's do the parsing and error checking for all of them. var elemType Type switch t.Kind() { case reflect.Array, reflect.Chan, reflect.Map, reflect.Ptr, reflect.Slice: var err error elemType, err = typeFromType(t.Elem()) if err != nil { return nil, err } } switch t.Kind() { case reflect.Array: return &ArrayType{ Len: t.Len(), Type: elemType, }, nil case reflect.Bool, reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr, reflect.Float32, reflect.Float64, reflect.Complex64, reflect.Complex128, reflect.String: return PredeclaredType(t.Kind().String()), nil case reflect.Chan: var dir ChanDir switch t.ChanDir() { case reflect.RecvDir: dir = RecvDir case reflect.SendDir: dir = SendDir } return &ChanType{ Dir: dir, Type: elemType, }, nil case reflect.Func: in, variadic, out, err := funcArgsFromType(t) if err != nil { return nil, err } return &FuncType{ In: in, Out: out, Variadic: variadic, }, nil case reflect.Interface: // Two special interfaces. if t.NumMethod() == 0 { return PredeclaredType("interface{}"), nil } if t == errorType { return PredeclaredType("error"), nil } case reflect.Map: kt, err := typeFromType(t.Key()) if err != nil { return nil, err } return &MapType{ Key: kt, Value: elemType, }, nil case reflect.Ptr: return &PointerType{ Type: elemType, }, nil case reflect.Slice: return &ArrayType{ Len: -1, Type: elemType, }, nil case reflect.Struct: if t.NumField() == 0 { return PredeclaredType("struct{}"), nil } } // TODO: Struct, UnsafePointer return nil, fmt.Errorf("can't yet turn %v (%v) into a model.Type", t, t.Kind()) } // impPath sanitizes the package path returned by `PkgPath` method of a reflect Type so that // it is importable. PkgPath might return a path that includes "vendor". These paths do not // compile, so we need to remove everything up to and including "/vendor/". // See https://github.com/golang/go/issues/12019. func impPath(imp string) string { if strings.HasPrefix(imp, "vendor/") { imp = "/" + imp } if i := strings.LastIndex(imp, "/vendor/"); i != -1 { imp = imp[i+len("/vendor/"):] } return imp }