package wrap import ( "fmt" "os" "path" "strings" "gitlab.wow.st/gmp/nswrap/ast" "gitlab.wow.st/gmp/nswrap/types" ) var ( Debug = false ) type Wrapper struct { Package string Interfaces map[string]Interface cCode strings.Builder // put cGo code here goTypes strings.Builder // put Go type declarations here goCode strings.Builder // put Go code here goHelpers strings.Builder // put Go helper functions here Processed map[string]bool } func NewWrapper(debug bool) *Wrapper { Debug = debug if Debug { fmt.Println("// Debug mode") } ret := &Wrapper{ Interfaces: map[string]Interface{}, Processed: map[string]bool{}, } ret.cCode.WriteString(`/* #cgo CFLAGS: -x objective-c #cgo LDFLAGS: -framework Foundation `) ret.goTypes.WriteString(` type Id struct { ptr unsafe.Pointer } func (o *Id) Ptr() unsafe.Pointer { return o.ptr } `) return ret } func (w *Wrapper) Import(ss []string) { for _,s := range ss { w.cCode.WriteString(` #import "` + s + `" `) } } func (w *Wrapper) SysImport(ss []string) { for _,s := range ss { w.cCode.WriteString("\n#import <" + s + ">\n") } } func (w *Wrapper) Pragma(ss []string) { for _,s := range ss { w.cCode.WriteString("\n#pragma " + s + "\n") } } type Property struct { Name, Attr string Type *types.Type } type Parameter struct { Pname, Vname string Type *types.Type } type Method struct { Name, Class string Type *types.Type ClassMethod bool Parameters []Parameter } //isVoid() returns true if the method has no return value. func (m Method) isVoid() bool { return m.Type.CType() == "void" } //hasFunctionParam() returns true if a method has a function as a parameter. func (m Method) hasFunctionParam() bool { for _,p := range m.Parameters { if p.Type.IsFunction() { return true } } return false } func (w Wrapper) cparamlist(m Method) string { ret := make([]string,0) if !m.ClassMethod { ret = append(ret,"void* obj") } for _,p := range m.Parameters { var tp string if p.Type.Node.IsPointer() { tp = "void*" } else { tp = p.Type.CType() } ret = append(ret,fmt.Sprintf("%s %s",tp,p.Vname)) } return strings.Join(ret,", ") } func (w Wrapper) objcparamlist(m Method) string { if len(m.Parameters) == 0 { return m.Name } first := true ret := []string{} for _,p := range m.Parameters { if first { ret = append(ret,m.Name + ":" + p.Vname) first = false } else { ret = append(ret, p.Pname + ":" + p.Vname) } } return strings.Join(ret," ") } //goreserved is a map telling whether a word is a go reserved word that is not //also a C/Objective-C reserved word. var goreserved map[string]bool = map[string]bool{ "range": true, } func (m *Method) gpntp() ([]string,[]*types.Type,string) { ns := []string{} tps := []*types.Type{} if !m.ClassMethod { ns = append(ns,"o") tps = append(tps,types.NewTypeFromString(m.Class + "*","")) } for _,p := range m.Parameters { gname := p.Vname if goreserved[gname] { gname = gname + "_" } ns = append(ns,gname) tps = append(tps,p.Type) } ret := []string{} i := 0 if !m.ClassMethod { i = 1 } for ; i < len(ns); i++ { gt := tps[i].GoType() if gt == "*Void" { gt = "unsafe.Pointer" } ret = append(ret,ns[i] + " " + gt) } return ns, tps, strings.Join(ret,", ") } type Interface struct { Name string Properties map[string]Property Methods map[string]Method } func (w *Wrapper) AddInterface(n *ast.ObjCInterfaceDecl) { //fmt.Printf("ast.ObjCInterfaceDecl: %s\n",n.Name) w.add(n.Name, n.Children()) } func (w *Wrapper) AddCategory(n *ast.ObjCCategoryDecl) { ns := n.Children() if len(ns) > 0 { switch x := ns[0].(type) { case *ast.ObjCInterface: w.add(x.Name, ns[1:]) return } } fmt.Printf("Not adding methods for %s: interface name not found in first child node of category defclaration\n",n.Name) } func (w *Wrapper) add(name string, ns []ast.Node) { var i Interface var ok bool if i,ok = w.Interfaces[name]; !ok { i = Interface{ Name: name, Properties: map[string]Property{}, Methods: map[string]Method{}, } } tp := types.NewTypeFromString(name,name) types.Wrap(tp.GoType()) var avail bool for _,c := range ns { switch x := c.(type) { case *ast.ObjCPropertyDecl: //fmt.Printf("ObjCPropertyDecl: %s\n",x.Name) p := Property{ Name: x.Name, Type: types.NewTypeFromString(x.Type,name), } //_,avail = w.GetParms(x,name) // TODO //if avail { i.Properties[p.Name] = p //} case *ast.ObjCMethodDecl: //fmt.Printf("ObjCMethodDecl: %s\n",x.Name) m := Method{ Name: x.Name, Type: types.NewTypeFromString(x.Type,name), Class: name, ClassMethod: x.ClassMethod, } m.Parameters, avail = w.GetParms(x,name) if avail { i.Methods[m.Name] = m } case *ast.ObjCProtocol: //fmt.Printf("ast.ObjCProtocol: %s\n",x.Name) case *ast.ObjCInterface: if x.Super { //fmt.Printf("ast.ObjCInterface: %s inherits from %s\n",name,x.Name) types.SetSuper(name,x.Name) } case *ast.ObjCTypeParamDecl: //fmt.Printf("ObjCTypeParamDecl: %s = %s\n",x.Name,x.Type) types.SetTypeParam(name,x.Name,x.Type) case *ast.Unknown: //fmt.Printf("(*ast.Unkonwn %s: %s)\n",x.Name,x.Content) default: //fmt.Println(reflect.TypeOf(x)) } } //fmt.Println("Add interface ",i.Name) w.Interfaces[i.Name] = i } type AvailAttr struct { OS, Version string Deprecated bool } //GetParms returns the parameters of a method declaration and a bool //indicating whether the given method is available on MacOS and not //deprecated. func (w *Wrapper) GetParms(n *ast.ObjCMethodDecl,class string) ([]Parameter,bool) { ret := make([]Parameter,0) avail := make([]AvailAttr,0) j := 0 for _,c := range n.Children() { switch x := c.(type) { case *ast.ParmVarDecl: p := Parameter{ Pname: n.Parameters[j], Vname: x.Name, Type: types.NewTypeFromString(x.Type,class), } ret = append(ret,p) j++ case *ast.AvailabilityAttr: avail = append(avail, AvailAttr{ OS: x.OS, Version: x.Version, Deprecated: x.Unknown1 != "0", }) //fmt.Println("AvailAttr ",avail,x) case *ast.UnavailableAttr: avail = append(avail, AvailAttr{ OS: "macos", Deprecated: true }) case *ast.Unknown: if Debug { fmt.Printf("GetParms(): ast.Unknown: %s\n",x.Name) } } } // check that the method is available for this OS and not deprecated a := func() bool { if len(avail) == 0 { return true } for _,x := range avail { if x.OS == "macos" && x.Deprecated == false { return true } } return false }() if !a { return nil, false } // check that we found the right number of parameters if len(ret) != len(n.Parameters) { fmt.Printf("Error in method declaration %s: Wrong number of ParmVarDecl children: %d parameters but %d ParmVarDecl children\n",n.Name,len(n.Parameters),len(ret)) } return ret, true } func (w *Wrapper) processTypes(tps []*types.Type) { switch len(tps) { case 0: return case 1: w.processType(tps[0]) default: for _,tp := range tps { w.processType(tp) } return } } func (w *Wrapper) processType(tp *types.Type) { bt := tp.BaseType() gt := bt.GoType() if gt == "" { return } if gt[0] == '*' { w.processType(bt.PointsTo()) return } if w.Processed[gt] { return } w.Processed[gt] = true if gt == "Char" { w.CharHelpers() } if bt.IsFunction() { return } super := types.Super(gt) if super != "" { types.Wrap(super) w.processType(types.NewTypeFromString(super,"")) } w.goTypes.WriteString(bt.GoTypeDecl()) } func (w *Wrapper) CharHelpers() { w.goHelpers.WriteString(` func CharFromString(s string) *Char { return (*Char)(unsafe.Pointer(C.CString(s))) } func CharFromBytes(b []byte) *Char { return (*Char)(unsafe.Pointer(C.CString(string(b)))) } func (c *Char) String() string { return C.GoString((*C.char)(c)) } `) } func (w *Wrapper) Wrap(toproc []string) { if w.Package == "" { w.Package = "ns" } err := os.MkdirAll(w.Package,0755) if err != nil { fmt.Printf("Error creating directory '%s'\n%s\n",w.Package,err) os.Exit(-1) } of,err := os.Create(path.Join(w.Package,"main.go")) if err != nil { fmt.Printf("Error opening file %s\n%s\n",path.Join(w.Package,"main.go"),err) os.Exit(-1) } fmt.Printf("Writing output to %s\n",path.Join(w.Package,"main.go")) pInterfaces := map[string]Interface{} for _,iface := range toproc { pInterfaces[iface] = w.Interfaces[iface] } //FIXME: sort pInterfaces for _,i := range pInterfaces { fmt.Printf("Interface %s: %d properties, %d methods\n", i.Name, len(i.Properties), len(i.Methods)) w.goCode.WriteString(fmt.Sprintf(` func New%s() *%s { ret := &%s{} ret.ptr = unsafe.Pointer(C.New%s()) //ret = ret.Init() return ret } `,i.Name,i.Name,i.Name,i.Name)) w.cCode.WriteString(fmt.Sprintf(` %s* New%s() { return [%s alloc]; } `, i.Name, i.Name, i.Name)) //FIXME: sort properties for _,p := range i.Properties { if Debug { fmt.Printf(" property: %s (%s)\n", p.Name, p.Type.CType()) } } //FIXME: sort methods for _,m := range i.Methods { if Debug { fmt.Printf(" method: %s (%s)\n", m.Name, m.Type) } if m.Type.IsFunction() { continue } if m.hasFunctionParam() { continue } gname := strings.Title(m.Name) if !m.ClassMethod { gname = "(o *" + i.Name + ") " + gname } cname := i.Name + "_" + m.Name cmtype := m.Type.CTypeAttrib() ns,tps,gplist := m.gpntp() w.processTypes(tps) w.processType(m.Type) grtype := m.Type.GoType() if grtype == "Void" { grtype = "" } w.goCode.WriteString(fmt.Sprintf(` func %s(%s) %s { `,gname,gplist,grtype)) w.goCode.WriteString( types.GoToC(cname,ns,m.Type,tps) + "}\n\n") cret := "" if !m.isVoid() { cret = "return " } var cobj string if m.ClassMethod { cobj = i.Name } else { cobj = "(id)obj" } w.cCode.WriteString(fmt.Sprintf(` %s %s(%s) { %s[%s %s]; }`, cmtype, cname, w.cparamlist(m), cret, cobj, w.objcparamlist(m))) } } of.WriteString("package " + w.Package + "\n\n") of.WriteString(w.cCode.String()) of.WriteString(` */ import "C" import ( "unsafe" ) `) of.WriteString(w.goTypes.String()) of.WriteString(w.goHelpers.String()) of.WriteString(w.goCode.String()) of.Close() }