package types import ( "fmt" "regexp" "strings" ) //super is a map recording which class is the parent of each other class var super map[string]string //wrapped is a map recording whether a given GoType is to be "wrapped" in a //go struct. var wrapped map[string]bool func shouldWrap(gt string) bool { return gt != "" && gt[0] == '*' && wrapped[gt[1:]] } //goInterfaces records the names of top level Go interfaces. Pointers to these //are dereferenced to bare interface names. var goInterfaces map[string]bool func IsGoInterface(gt string) bool { return goInterfaces[gt] } //TypeParameters maps, for each class, a TypedefName to a type, representing //the Objective-C type parameters for that class var TypeParameters map[string]map[string]string //Typedefs maps from C types to the Type of a typedef with that name. var typedefs map[string]*Type func (t *Type) Typedef() *Type { //return typedefs[t.BaseType().CType()] return typedefs[t.CType()] } var ( r_id *regexp.Regexp r_instancename *regexp.Regexp r_instancetype *regexp.Regexp ) func init() { super = make(map[string]string) wrapped = make(map[string]bool) goInterfaces = make(map[string]bool) TypeParameters = make(map[string]map[string]string) typedefs = make(map[string]*Type) r_id = regexp.MustCompile("\bid\b") r_instancename = regexp.MustCompile(`\binstancename\b`) r_instancetype = regexp.MustCompile(`\binstancetype\b`) } func Super(c string) string { return super[c] } func SetSuper(c, p string) { super[c] = p } func SetTypeParam(c, n, t string) { if TypeParameters[c] == nil { TypeParameters[c] = make(map[string]string) } TypeParameters[c][n] = t } func AddTypedef(n,t string) { //fmt.Printf("AddTypedef(): %s -> %s\n",n,t) typedefs[n] = NewTypeFromString(t,"") } type Type struct { Node *Node Class string ctype string Variadic bool } func (t *Type) CloneToClass(c string) *Type { return &Type{ Node: t.Node, Class: c, Variadic: t.Variadic, } } func clean(n *Node,c string) (*Node,bool) { if n == nil { return nil,false } ret := NewNode(n.Kind,n.Content) ret.Children = n.Children //fmt.Printf("clean(%s,%s)\n",n.Ctype(),c) recur := false if TypeParameters[c] != nil { for k,v := range TypeParameters[c] { recur = ret.renameTypedefs(k,v) } } // recur = recur || ret.renameTypedefs("instancename",c) // recur = recur || ret.renameTypedefs("instancetype",c + "*") if recur { clean(n, c) return ret,true } return n,false } func NewType(n *Node, c string) *Type { n2,_ := clean(n, c) return &Type{ Node: n2, Class: c, //ctype: "", } } func NewTypeFromString(t,c string) *Type { //fmt.Printf("t/c: %s/%s\n",t,c) n,err := Parse(t) //fmt.Printf("%p %s",n,n.String()) if n.IsId() { n,err = Parse("NSObject*") } if err != nil { return &Type{} } if n2,ok := clean(n, c); ok { return NewTypeFromString(n2.Ctype(),c) } return &Type{ Node: n, Class: c, //ctype: "", } } func (t *Type) String() string { return t.Node.String() } func (t *Type) PointsTo() *Type { if td := t.Typedef(); td != nil { return td.PointsTo() } if pt := t.Node.PointsTo(); pt != nil { return NewType(t.Node.PointsTo(), t.Class) } else { return nil } } func Wrap(s string) { // it is the pointers to this type that get wrapped wrapped[s] = true } func (t *Type) BaseType() *Type { if t == nil { return nil } ret := NewType( t.Node.BaseType(), t.Class, ) return ret } func swapstars(s string) string { for i := len(s) - 1; i > 0 && s[i] == '*'; { s = "*" + s[:i] } return strings.TrimSpace(s) } func (t *Type) CGoType() string { ct := swapstars("C." + t.CType()) ct = strings.ReplaceAll(ct,"unsigned ","u") ct = strings.ReplaceAll(ct,"signed ","u") ct = strings.ReplaceAll(ct,"long ","long") ct = strings.ReplaceAll(ct,"complex ","complex") ct = strings.ReplaceAll(ct," ","_") return ct } func (t *Type) GoType() string { return _goType(t.CType()) } func _goType(ct string) string { ct = swapstars(ct) ct = strings.Title(ct) ct = strings.ReplaceAll(ct," ","") ct = strings.ReplaceAll(ct,"Struct","") if len(ct) > 0 && ct[0] == '*' && IsGoInterface(ct[1:]) { return ct[1:] } if ct == "Id" { ct = "*Id" } return ct } func (t *Type) CType() string { return t._CType(false) } func (t *Type) CTypeAttrib() string { return t._CType(true) } func (t *Type) _CType(attrib bool) string { if t == nil { //fmt.Println("nil sent to _CType()") return "" } //if !attrib && c.ctype != "" ... FIXME? if t.ctype != "" { // cache return t.ctype } var ct string if attrib { ignore := map[string]bool { "GenericList": true } ct = t.Node._Ctype(ignore) } else { ct = t.Node.CtypeSimplified() } ct = r_id.ReplaceAllString(ct,"NSObject*") ct = r_instancename.ReplaceAllString(ct,t.Class) ct = r_instancetype.ReplaceAllString(ct,t.Class + "*") if attrib { t._CType(false) } else { t.ctype = ct } return ct } func (t *Type) GoTypeDecl() string { if wrapped[t.GoType()] { return t.GoInterfaceDecl() } tp := t.BaseType() if tp.Node.IsId() { return "" } gt := tp.GoType() switch gt { case "", "Void": return "" default: extra := t.Node.CtypeSimplified() var cgt string if td := tp.Typedef(); td != nil { cgt = td.CGoType() extra = "typedef " + td.Node.Ctype() } else { cgt = tp.CGoType() } return fmt.Sprintf(` //%s (%s) type %s %s `,t.Node.Ctype(),extra,gt,cgt) } } func (t *Type) GoInterfaceDecl() string { gt := t.GoType() if gt[0] == '*' { gt = gt[1:] // dereference wrapped types } super := Super(gt) if super == "" { goInterfaces[gt] = true return fmt.Sprintf(` //%s (%s) type %s interface { Ptr() unsafe.Pointer } `,t.Node.Ctype(),t.BaseType().GoType(),gt) } if IsGoInterface(super) { super = "Id" } return fmt.Sprintf(` //%s (%s) type %s struct { %s } func (o *%s) Ptr() unsafe.Pointer { return unsafe.Pointer(o) } func (o *Id) %s() *%s { return (*%s)(unsafe.Pointer(o)) } `,t.Node.Ctype(),t.BaseType().GoType(),gt,super,gt,gt,gt,gt) } func (t *Type) IsFunction() bool { if t == nil { fmt.Println("nil sent to IsFunction()") return false } if td := t.Typedef(); td != nil { return td.IsFunction() } return t.Node.IsFunction() } func (t *Type) ReturnType() *Type { if rt := t.Node.ReturnType(); rt != nil { return NewType(rt,t.Class) } return nil } func (t *Type) IsPointer() bool { if td := t.Typedef(); td != nil { return td.IsPointer() } return t.Node.IsPointer() } func (t *Type) CToGo(cval string) string { // cast C value to CGo if t.IsPointer() { cval = "unsafe.Pointer(" + cval + ")" } return fmt.Sprintf("(%s)(%s)",t.GoType(),cval) } // Call a C function from Go with a given return type and parameter types func GoToC(name string, pnames []string, rtype *Type, ptypes []*Type) string { if rtype == nil { fmt.Println("nil sent to GoToC") return "" } var ret strings.Builder rt := rtype.CType() if rt != "void" { rtgt := rtype.GoType() if IsGoInterface(rtgt) { rtgt = "*Id" } ret.WriteString("return (" + rtgt + ")(") if rtype.IsPointer() { ret.WriteString("unsafe.Pointer(") } } ret.WriteString("C." + name + "(") parms := []string{} for i := 0; i < len(pnames); i++ { pn,pt := pnames[i],ptypes[i] p := pn if (shouldWrap(pt.GoType()) || IsGoInterface(pt.GoType())) && !pt.Variadic { p = pn + ".Ptr()" } else { switch { case pt.Variadic: p = "unsafe.Pointer(&" + p + ")" case pt.IsPointer(): p = "unsafe.Pointer(" + pn + ")" default: p = "(" + pt.CGoType() + ")(" + pn + ")" } } parms = append(parms,p) } ret.WriteString(strings.Join(parms,", ")) ret.WriteString(")") if rt != "void" { ret.WriteString(")") if rtype.IsPointer() { ret.WriteString(")") } ret.WriteString("\n") } return ret.String() }