// MapType = "map" "[" Type "]" Type . // func (p *parser) parseMapType() types.Type { p.expectKeyword("map") p.expect('[') key := p.parseType() p.expect(']') elem := p.parseType() return types.NewMap(key, elem) }
func (p *importer) typ() types.Type { // if the type was seen before, i is its index (>= 0) i := p.int() if i >= 0 { return p.typList[i] } // otherwise, i is the type tag (< 0) switch i { case arrayTag: t := new(types.Array) p.record(t) n := p.int64() *t = *types.NewArray(p.typ(), n) return t case sliceTag: t := new(types.Slice) p.record(t) *t = *types.NewSlice(p.typ()) return t case structTag: t := new(types.Struct) p.record(t) n := p.int() fields := make([]*types.Var, n) tags := make([]string, n) for i := range fields { fields[i] = p.field() tags[i] = p.string() } *t = *types.NewStruct(fields, tags) return t case pointerTag: t := new(types.Pointer) p.record(t) *t = *types.NewPointer(p.typ()) return t case signatureTag: t := new(types.Signature) p.record(t) *t = *p.signature() return t case interfaceTag: // Create a dummy entry in the type list. This is safe because we // cannot expect the interface type to appear in a cycle, as any // such cycle must contain a named type which would have been // first defined earlier. n := len(p.typList) p.record(nil) // read embedded interfaces embeddeds := make([]*types.Named, p.int()) for i := range embeddeds { embeddeds[i] = p.typ().(*types.Named) } // read methods methods := make([]*types.Func, p.int()) for i := range methods { pkg, name := p.qualifiedName() methods[i] = types.NewFunc(token.NoPos, pkg, name, p.typ().(*types.Signature)) } t := types.NewInterface(methods, embeddeds) p.typList[n] = t return t case mapTag: t := new(types.Map) p.record(t) *t = *types.NewMap(p.typ(), p.typ()) return t case chanTag: t := new(types.Chan) p.record(t) *t = *types.NewChan(types.ChanDir(p.int()), p.typ()) return t case namedTag: // read type object name := p.string() pkg := p.pkg() scope := pkg.Scope() obj := scope.Lookup(name) // if the object doesn't exist yet, create and insert it if obj == nil { obj = types.NewTypeName(token.NoPos, pkg, name, nil) scope.Insert(obj) } // associate new named type with obj if it doesn't exist yet t0 := types.NewNamed(obj.(*types.TypeName), nil, nil) // but record the existing type, if any t := obj.Type().(*types.Named) p.record(t) // read underlying type t0.SetUnderlying(p.typ()) // read associated methods for i, n := 0, p.int(); i < n; i++ { t0.AddMethod(types.NewFunc(token.NoPos, pkg, p.string(), p.typ().(*types.Signature))) } return t default: panic(fmt.Sprintf("unexpected type tag %d", i)) } }