func CForwardDeclaration30(bi *gi.BaseInfo) { fullnm := strings.ToLower(bi.Namespace()) + "." + bi.Name() switch bi.Type() { case gi.INFO_TYPE_STRUCT: si := gi.ToStructInfo(bi) size := si.Size() if _, ok := GConfig.Sys.DisguisedTypes[fullnm]; ok { return } cctype := CTypeForInterface(bi, TypeNone) if size == 0 { printf("struct _%s {};\n", cctype) } else { printf("struct _%s { uint8_t _data[%d]; };\n", cctype, size) } case gi.INFO_TYPE_UNION: ui := gi.ToUnionInfo(bi) size := ui.Size() cctype := CTypeForInterface(bi, TypeNone) if size == 0 { printf("struct _%s {};\n", cctype) } else { printf("struct _%s { uint8_t _data[%d]; };\n", cctype, size) } } }
func CForwardDeclaration10(bi *gi.BaseInfo) { switch bi.Type() { case gi.INFO_TYPE_OBJECT: cctype := CTypeForInterface(bi, TypeNone) printf("typedef struct _%s %s;\n", cctype, cctype) case gi.INFO_TYPE_FLAGS, gi.INFO_TYPE_ENUM: ei := gi.ToEnumInfo(bi) printf("typedef %s %s;\n", CTypeForTag(ei.StorageType(), TypeNone), CTypeForInterface(bi, TypeNone)) case gi.INFO_TYPE_STRUCT, gi.INFO_TYPE_INTERFACE, gi.INFO_TYPE_UNION: fullnm := strings.ToLower(bi.Namespace()) + "." + bi.Name() cctype := CTypeForInterface(bi, TypeNone) if _, ok := GConfig.Sys.DisguisedTypes[fullnm]; ok { printf("typedef void *%s;\n", cctype) } else { printf("typedef struct _%s %s;\n", cctype, cctype) } case gi.INFO_TYPE_CALLBACK: ctype := CTypeForInterface(bi, TypeNone) // type doesn't matter here, it's just a pointer after all printf("typedef void* %s;\n", ctype) // also generate wrapper declarations printf("extern void _%s_c_wrapper();\n", ctype) printf("extern void _%s_c_wrapper_once();\n", ctype) } }
func CairoCgoToGoForInterface(bi *gi.BaseInfo, arg1, arg2 string, flags ConvFlags) string { var out bytes.Buffer p := PrinterTo(&out) name := bi.Name() switch name { case "Path", "FontOptions": if flags&ConvPointer == 0 { panic("unexpected non-pointer type") } p("%s = (*cairo.%s)(cairo.%sWrap(unsafe.Pointer(%s)))", arg2, name, name, arg1) case "Surface", "Region", "Pattern", "Context", "FontFace", "ScaledFont": if flags&ConvPointer == 0 { panic("unexpected non-pointer type") } grab := "true" if flags&ConvOwnEverything != 0 { grab = "false" } p("%s = (*cairo.%s)(cairo.%sWrap(unsafe.Pointer(%s), %s))", arg2, name, name, arg1, grab) default: gotype := GoTypeForInterface(bi, TypeReturn) if flags&ConvPointer != 0 { p("%s = (*%s)(unsafe.Pointer(%s))", arg2, gotype, arg1) } else { p("%s = *(*%s)(unsafe.Pointer(&%s))", arg2, gotype, arg1) } } return out.String() }
func CairoGoToCgoForInterface(bi *gi.BaseInfo, arg0, arg1 string, flags ConvFlags) string { var out bytes.Buffer p := PrinterTo(&out) name := bi.Name() switch name { case "Surface", "Pattern": p("if %s != nil {\n", arg0) p("\t%s = (*C.cairo%s)(%s.InheritedFromCairo%s().C)\n", arg1, name, arg0, name) p("}") case "RectangleInt", "Rectangle", "TextCluster", "Matrix": ctype := CgoTypeForInterface(bi, TypeNone) if flags&ConvPointer != 0 { p("%s = (*%s)(unsafe.Pointer(%s))", arg1, ctype, arg0) } else { p("%s = *(*%s)(unsafe.Pointer(&%s))", arg1, ctype, arg0) } default: p("if %s != nil {\n", arg0) p("\t%s = (*C.cairo%s)(%s.C)\n", arg1, name, arg0) p("}") } return out.String() }
func (this *binding_generator) c_forward_declaration30(bi *gi.BaseInfo) { p := printer_to(this.out_h) fullnm := strings.ToLower(bi.Namespace()) + "." + bi.Name() switch bi.Type() { case gi.INFO_TYPE_STRUCT: si := gi.ToStructInfo(bi) size := si.Size() if config.is_disguised(fullnm) { return } cctype := c_type_for_interface(bi, type_none) if size == 0 { p("struct _%s {};\n", cctype) } else { p("struct _%s { uint8_t _data[%d]; };\n", cctype, size) } case gi.INFO_TYPE_UNION: ui := gi.ToUnionInfo(bi) size := ui.Size() cctype := c_type_for_interface(bi, type_none) if size == 0 { p("struct _%s {};\n", cctype) } else { p("struct _%s { uint8_t _data[%d]; };\n", cctype, size) } } }
func (this *binding_generator) c_forward_declaration10(bi *gi.BaseInfo) { p := printer_to(this.out_h) switch bi.Type() { case gi.INFO_TYPE_OBJECT: cctype := c_type_for_interface(bi, type_none) p("typedef struct _%s %s;\n", cctype, cctype) case gi.INFO_TYPE_FLAGS, gi.INFO_TYPE_ENUM: ei := gi.ToEnumInfo(bi) p("typedef %s %s;\n", c_type_for_tag(ei.StorageType(), type_none), c_type_for_interface(bi, type_none)) case gi.INFO_TYPE_STRUCT, gi.INFO_TYPE_INTERFACE, gi.INFO_TYPE_UNION: fullnm := strings.ToLower(bi.Namespace()) + "." + bi.Name() cctype := c_type_for_interface(bi, type_none) if config.is_disguised(fullnm) { p("typedef void *%s;\n", cctype) } else { p("typedef struct _%s %s;\n", cctype, cctype) } case gi.INFO_TYPE_CALLBACK: pc := printer_to(this.out_c) ctype := c_type_for_interface(bi, type_none) // type doesn't matter here, it's just a pointer after all p("typedef void* %s;\n", ctype) // and wrapper declarations for .c file only (cgo has problems // with that) pc("extern void _%s_c_wrapper();\n", ctype) pc("extern void _%s_c_wrapper_once();\n", ctype) } }
func (this *binding_generator) process_base_info(bi *gi.BaseInfo) { p := printer_to(&this.go_bindings) if config.is_object_blacklisted(bi) { p("// blacklisted: %s (%s)\n", bi.Name(), bi.Type()) return } switch bi.Type() { case gi.INFO_TYPE_UNION: this.process_union_info(gi.ToUnionInfo(bi)) case gi.INFO_TYPE_STRUCT: this.process_struct_info(gi.ToStructInfo(bi)) case gi.INFO_TYPE_ENUM, gi.INFO_TYPE_FLAGS: this.process_enum_info(gi.ToEnumInfo(bi)) case gi.INFO_TYPE_CONSTANT: this.process_constant_info(gi.ToConstantInfo(bi)) case gi.INFO_TYPE_CALLBACK: this.process_callback_info(gi.ToCallableInfo(bi)) case gi.INFO_TYPE_FUNCTION: this.process_function_info(gi.ToFunctionInfo(bi)) case gi.INFO_TYPE_INTERFACE: this.process_interface_info(gi.ToInterfaceInfo(bi)) case gi.INFO_TYPE_OBJECT: this.process_object_info(gi.ToObjectInfo(bi)) default: p("// TODO: %s (%s)\n", bi.Name(), bi.Type()) } }
func CgoToGoForInterface(bi *gi.BaseInfo, arg1, arg2 string, flags ConvFlags) string { var out bytes.Buffer printf := PrinterTo(&out) switch bi.Type() { case gi.INFO_TYPE_OBJECT, gi.INFO_TYPE_INTERFACE: gotype := GoTypeForInterface(bi, TypeReturn) if flags&ConvOwnEverything != 0 { printf("%s = (*%s)(%sObjectWrap(unsafe.Pointer(%s), false))", arg2, gotype, Config.Sys.GNS, arg1) } else { printf("%s = (*%s)(%sObjectWrap(unsafe.Pointer(%s), true))", arg2, gotype, Config.Sys.GNS, arg1) } case gi.INFO_TYPE_ENUM, gi.INFO_TYPE_FLAGS: gotype := GoTypeForInterface(bi, TypeReturn) printf("%s = %s(%s)", arg2, gotype, arg1) case gi.INFO_TYPE_STRUCT, gi.INFO_TYPE_UNION: ns := bi.Namespace() if ns == "cairo" { printf(CairoCgoToGoForInterface(bi, arg1, arg2, flags)) break } fullnm := strings.ToLower(ns) + "." + bi.Name() gotype := GoTypeForInterface(bi, TypeReturn) if flags&ConvListMember != 0 { printf("%s = *(*%s)(unsafe.Pointer(%s))", arg2, gotype, arg1) break } if _, ok := GConfig.Sys.DisguisedTypes[fullnm]; ok { printf("%s = %s{unsafe.Pointer(%s)}", arg2, gotype, arg1) break } if flags&ConvPointer != 0 { printf("%s = (*%s)(unsafe.Pointer(%s))", arg2, gotype, arg1) } else { printf("%s = *(*%s)(unsafe.Pointer(&%s))", arg2, gotype, arg1) } } return out.String() }
func c_type_for_interface(bi *gi.BaseInfo, flags type_flags) string { var out bytes.Buffer ns := bi.Namespace() nm := bi.Name() fullnm := strings.ToLower(ns) + "." + nm out.WriteString(gi.DefaultRepository().CPrefix(ns)) out.WriteString(bi.Name()) if flags&type_pointer != 0 && !config.is_disguised(fullnm) { out.WriteString("*") } return out.String() }
func CTypeForInterface(bi *gi.BaseInfo, flags TypeFlags) string { var out bytes.Buffer ns := bi.Namespace() nm := bi.Name() fullnm := strings.ToLower(ns) + "." + nm out.WriteString(gi.DefaultRepository().CPrefix(ns)) out.WriteString(bi.Name()) _, disguised := GConfig.Sys.DisguisedTypes[fullnm] if flags&TypePointer != 0 && !disguised { out.WriteString("*") } return out.String() }
func cgo_type_for_interface(bi *gi.BaseInfo, flags type_flags) string { var out bytes.Buffer switch bi.Type() { case gi.INFO_TYPE_CALLBACK: out.WriteString("unsafe.Pointer") default: ns := bi.Namespace() nm := bi.Name() fullnm := strings.ToLower(ns) + "." + nm if flags&type_pointer != 0 && !config.is_disguised(fullnm) { out.WriteString("*") } out.WriteString("C.") out.WriteString(gi.DefaultRepository().CPrefix(ns)) out.WriteString(bi.Name()) } return out.String() }
func CairoGoTypeForInterface(bi *gi.BaseInfo, flags TypeFlags) string { var out bytes.Buffer p := PrinterTo(&out) name := bi.Name() switch name { case "Surface", "Pattern": if flags&(TypeReturn) == 0 { p("cairo.%sLike", name) break } fallthrough default: if flags&TypePointer != 0 { p("*") } p("cairo.%s", name) } return out.String() }
func CgoTypeForInterface(bi *gi.BaseInfo, flags TypeFlags) string { var out bytes.Buffer switch bi.Type() { case gi.INFO_TYPE_CALLBACK: out.WriteString("unsafe.Pointer") default: ns := bi.Namespace() nm := bi.Name() fullnm := strings.ToLower(ns) + "." + nm _, disguised := GConfig.Sys.DisguisedTypes[fullnm] if flags&TypePointer != 0 && !disguised { out.WriteString("*") } out.WriteString("C.") out.WriteString(gi.DefaultRepository().CPrefix(ns)) out.WriteString(bi.Name()) } return out.String() }
func GoToCgoForInterface(bi *gi.BaseInfo, arg0, arg1 string, flags ConvFlags) string { var out bytes.Buffer printf := PrinterTo(&out) switch bi.Type() { case gi.INFO_TYPE_OBJECT: prefix := gi.DefaultRepository().CPrefix(bi.Namespace()) printf("if %s != nil {\n", arg0) printf("\t%s = %s.InheritedFrom%s%s()\n", arg1, arg0, prefix, bi.Name()) printf("}") case gi.INFO_TYPE_ENUM, gi.INFO_TYPE_FLAGS: ctype := CgoTypeForInterface(bi, TypeNone) printf("%s = %s(%s)", arg1, ctype, arg0) case gi.INFO_TYPE_INTERFACE: prefix := gi.DefaultRepository().CPrefix(bi.Namespace()) printf("if %s != nil {\n", arg0) printf("\t%s = %s.Implements%s%s()", arg1, arg0, prefix, bi.Name()) printf("}") case gi.INFO_TYPE_STRUCT: ns := bi.Namespace() if ns == "cairo" { printf(CairoGoToCgoForInterface(bi, arg0, arg1, flags)) break } fullnm := strings.ToLower(ns) + "." + bi.Name() if _, ok := GConfig.Sys.DisguisedTypes[fullnm]; ok { flags &^= ConvPointer } ctype := CgoTypeForInterface(bi, TypeNone) if flags&ConvPointer != 0 { printf("%s = (*%s)(unsafe.Pointer(%s))", arg1, ctype, arg0) } else { printf("%s = *(*%s)(unsafe.Pointer(&%s))", arg1, ctype, arg0) } case gi.INFO_TYPE_CALLBACK: printf("if %s != nil {\n", arg0) printf("\t%s = unsafe.Pointer(&%s)", arg1, arg0) printf("}") } return out.String() }
func (this *config_type) is_object_blacklisted(bi *gi.BaseInfo) bool { switch bi.Type() { case gi.INFO_TYPE_UNION: return config.is_blacklisted("unions", bi.Name()) case gi.INFO_TYPE_STRUCT: return config.is_blacklisted("structs", bi.Name()) case gi.INFO_TYPE_ENUM, gi.INFO_TYPE_FLAGS: return config.is_blacklisted("enums", bi.Name()) case gi.INFO_TYPE_CONSTANT: return config.is_blacklisted("constants", bi.Name()) case gi.INFO_TYPE_CALLBACK: return config.is_blacklisted("callbacks", bi.Name()) case gi.INFO_TYPE_FUNCTION: c := bi.Container() if c != nil { return config.is_method_blacklisted(c.Name(), bi.Name()) } return config.is_blacklisted("functions", bi.Name()) case gi.INFO_TYPE_INTERFACE: return config.is_blacklisted("interfaces", bi.Name()) case gi.INFO_TYPE_OBJECT: return config.is_blacklisted("objects", bi.Name()) default: println("TODO: %s (%s)\n", bi.Name(), bi.Type()) return true } panic("unreachable") }
func ProcessBaseInfo(bi *gi.BaseInfo) { switch bi.Type() { case gi.INFO_TYPE_UNION: if IsBlacklisted("unions", bi.Name()) { goto blacklisted } ProcessUnionInfo(gi.ToUnionInfo(bi)) case gi.INFO_TYPE_STRUCT: if IsBlacklisted("structs", bi.Name()) { goto blacklisted } ProcessStructInfo(gi.ToStructInfo(bi)) case gi.INFO_TYPE_ENUM, gi.INFO_TYPE_FLAGS: if IsBlacklisted("enums", bi.Name()) { goto blacklisted } ProcessEnumInfo(gi.ToEnumInfo(bi)) case gi.INFO_TYPE_CONSTANT: if IsBlacklisted("constants", bi.Name()) { goto blacklisted } ProcessConstantInfo(gi.ToConstantInfo(bi)) case gi.INFO_TYPE_CALLBACK: if IsBlacklisted("callbacks", bi.Name()) { goto blacklisted } ProcessCallbackInfo(gi.ToCallableInfo(bi)) case gi.INFO_TYPE_FUNCTION: if IsBlacklisted("functions", bi.Name()) { goto blacklisted } ProcessFunctionInfo(gi.ToFunctionInfo(bi), nil) case gi.INFO_TYPE_INTERFACE: if IsBlacklisted("interfaces", bi.Name()) { goto blacklisted } ProcessInterfaceInfo(gi.ToInterfaceInfo(bi)) case gi.INFO_TYPE_OBJECT: if IsBlacklisted("objects", bi.Name()) { goto blacklisted } ProcessObjectInfo(gi.ToObjectInfo(bi)) default: printf("// TODO: %s (%s)\n", bi.Name(), bi.Type()) } return blacklisted: printf("// blacklisted: %s (%s)\n", bi.Name(), bi.Type()) }
func ProcessFunctionInfo(fi *gi.FunctionInfo, container *gi.BaseInfo) { var fullnm string flags := fi.Flags() name := fi.Name() // --- header fb := NewFunctionBuilder(fi) printf("func ") if flags&gi.FUNCTION_IS_METHOD != 0 { // add receiver if it's a method printf("(this0 %s) ", GoTypeForInterface(container, TypePointer|TypeReceiver)) fullnm = container.Name() + "." } switch { case flags&gi.FUNCTION_IS_CONSTRUCTOR != 0: // special names for constructors name = fmt.Sprintf("New%s%s", container.Name(), CtorSuffix(name)) case flags&gi.FUNCTION_IS_METHOD == 0 && container != nil: name = fmt.Sprintf("%s%s", container.Name(), LowerCaseToCamelCase(name)) default: name = fmt.Sprintf("%s", LowerCaseToCamelCase(name)) } fullnm += name name = Rename(fullnm, name) printf("%s(", name) for i, arg := range fb.Args { printf("%s0 %s", arg.ArgInfo.Name(), GoType(arg.TypeInfo, TypeNone)) if i != len(fb.Args)-1 { printf(", ") } } printf(")") switch len(fb.Rets) { case 0: // do nothing if there are not return values case 1: if flags&gi.FUNCTION_IS_CONSTRUCTOR != 0 { // override return types for constructors, We can't // return generic widget here as C does. Go's type // system is stronger. printf(" %s", GoTypeForInterface(container, TypePointer|TypeReturn)) break } if fb.Rets[0].Index == -2 { printf(" error") } else { printf(" %s", GoType(fb.Rets[0].TypeInfo, TypeReturn)) } default: printf(" (") for i, ret := range fb.Rets { if ret.Index == -2 { // special error type in Go to represent GError printf("error") continue } printf(GoType(ret.TypeInfo, TypeReturn)) if i != len(fb.Rets)-1 { printf(", ") } } printf(")") } printf(" {\n") // --- body stage 1 (Go to C conversions) // var declarations if flags&gi.FUNCTION_IS_METHOD != 0 { printf("\tvar this1 %s\n", CgoTypeForInterface(container, TypePointer)) } for _, arg := range fb.Args { printf("\tvar %s1 %s\n", arg.ArgInfo.Name(), CgoType(arg.TypeInfo, TypeNone)) if al := arg.TypeInfo.ArrayLength(); al != -1 { arg := fb.OrigArgs[al] printf("\tvar %s1 %s\n", arg.Name(), CgoType(arg.Type(), TypeNone)) } } for _, ret := range fb.Rets { if ret.Index == -1 { continue } if ret.Index == -2 { printf("\tvar err1 *C.GError\n") continue } if ret.ArgInfo.Direction() == gi.DIRECTION_INOUT { continue } printf("\tvar %s1 %s\n", ret.ArgInfo.Name(), CgoType(ret.TypeInfo, TypeNone)) if al := ret.TypeInfo.ArrayLength(); al != -1 { arg := fb.OrigArgs[al] printf("\tvar %s1 %s\n", arg.Name(), CgoType(arg.Type(), TypeNone)) } } // conversions if flags&gi.FUNCTION_IS_METHOD != 0 { conv := GoToCgoForInterface(container, "this0", "this1", ConvPointer) printf("%s", PrintLinesWithIndent(conv)) } for _, arg := range fb.Args { nm := arg.ArgInfo.Name() conv := GoToCgo(arg.TypeInfo, nm+"0", nm+"1", ConvNone) printf("%s", PrintLinesWithIndent(conv)) // register callback in the global map if arg.TypeInfo.Tag() == gi.TYPE_TAG_INTERFACE { bi := arg.TypeInfo.Interface() if bi.Type() == gi.INFO_TYPE_CALLBACK { if arg.ArgInfo.Scope() != gi.SCOPE_TYPE_CALL { printf("\t%sHolder.Grab(%s1)\n", Config.Sys.GNS, nm) } } } // array length if len := arg.TypeInfo.ArrayLength(); len != -1 { lenarg := fb.OrigArgs[len] conv = GoToCgo(lenarg.Type(), "len("+nm+"0)", lenarg.Name()+"1", ConvNone) printf("\t%s\n", conv) } } // --- body stage 2 (the function call) printf("\t") if fb.HasReturnValue() { printf("ret1 := ") } userdata, destroy, scope := fb.HasClosureArgument() printf("C.") if scope != gi.SCOPE_TYPE_INVALID { printf("_") } printf("%s(", fi.Symbol()) if flags&gi.FUNCTION_IS_METHOD != 0 { printf("this1") if len(fb.OrigArgs) > 0 { printf(", ") } } for i, ri, n := 0, 0, len(fb.OrigArgs); i < n; i++ { if i == userdata || i == destroy { continue } oarg := fb.OrigArgs[i] var arg string dir := oarg.Direction() if dir == gi.DIRECTION_INOUT || dir == gi.DIRECTION_OUT { arg = fmt.Sprintf("&%s1", oarg.Name()) } else { arg = fmt.Sprintf("%s1", oarg.Name()) } if ri != 0 { printf(", ") } printf("%s", arg) ri++ } if flags&gi.FUNCTION_THROWS != 0 { printf(", &err1") } printf(")\n") // --- body stage 3 (C to Go conversions) // var declarations for _, ret := range fb.Rets { switch ret.Index { case -1: if flags&gi.FUNCTION_IS_CONSTRUCTOR != 0 { printf("\tvar ret2 %s\n", GoTypeForInterface(container, TypePointer|TypeReturn)) } else { printf("\tvar ret2 %s\n", GoType(ret.TypeInfo, TypeReturn)) } case -2: printf("\tvar err2 error\n") default: printf("\tvar %s2 %s\n", ret.ArgInfo.Name(), GoType(ret.TypeInfo, TypeReturn)) } } // conversions for _, ret := range fb.Rets { if ret.Index == -2 { printf("\tif err1 != nil {\n") printf("\t\terr2 = errors.New(C.GoString(((*_GError)(unsafe.Pointer(err1))).message))\n") printf("\t\tC.g_error_free(err1)\n") printf("\t}\n") continue } var nm string if ret.Index == -1 { nm = "ret" } else { nm = ret.ArgInfo.Name() } // array length if len := ret.TypeInfo.ArrayLength(); len != -1 { lenarg := fb.OrigArgs[len] printf("\t%s2 = make(%s, %s)\n", nm, GoType(ret.TypeInfo, TypeReturn), lenarg.Name()+"1") } var ownership gi.Transfer if ret.Index == -1 { ownership = fi.CallerOwns() } else { ownership = ret.ArgInfo.OwnershipTransfer() if ret.ArgInfo.Direction() == gi.DIRECTION_INOUT { // not sure if it's true in all cases, but so far ownership = gi.TRANSFER_NOTHING } } var conv string if flags&gi.FUNCTION_IS_CONSTRUCTOR != 0 && ret.Index == -1 { conv = CgoToGoForInterface(container, "ret1", "ret2", ConvPointer|OwnershipToConvFlags(ownership)) } else { conv = CgoToGo(ret.TypeInfo, nm+"1", nm+"2", OwnershipToConvFlags(ownership)) } printf("%s", PrintLinesWithIndent(conv)) } // --- body stage 4 (return) if len(fb.Rets) == 0 { printf("}\n") return } printf("\treturn ") for i, ret := range fb.Rets { var nm string switch ret.Index { case -1: nm = "ret2" case -2: nm = "err2" default: nm = ret.ArgInfo.Name() + "2" } if i != 0 { printf(", ") } printf(nm) } printf("\n}\n") }
func go_type_for_interface(bi *gi.BaseInfo, flags type_flags) string { var out bytes.Buffer printf := printer_to(&out) ns := bi.Namespace() fullnm := strings.ToLower(ns) + "." + bi.Name() if flags&type_list_member != 0 { switch bi.Type() { case gi.INFO_TYPE_OBJECT, gi.INFO_TYPE_INTERFACE: return go_type_for_interface(bi, type_pointer|type_return) default: return go_type_for_interface(bi, type_return) } } switch t := bi.Type(); t { case gi.INFO_TYPE_OBJECT, gi.INFO_TYPE_INTERFACE: if flags&type_exact != 0 { // exact type for object/interface is always an unsafe.Pointer printf("unsafe.Pointer") break } if flags&(type_return|type_receiver) != 0 && flags&type_pointer != 0 { // receivers and return values are actual types, // and a pointer most likely printf("*") } if ns != config.namespace { // prepend foreign types with appropriate namespace printf("%s.", strings.ToLower(ns)) } printf(bi.Name()) if flags&(type_return|type_receiver) == 0 { // ordinary function arguments are substituted by their *Like // counterparts printf("Like") } if flags&type_receiver != 0 && t == gi.INFO_TYPE_INTERFACE { // special case for interfaces, we use *Impl structures // as receivers printf("Impl") } case gi.INFO_TYPE_CALLBACK: if flags&type_exact != 0 { printf("unsafe.Pointer") break } goto handle_default case gi.INFO_TYPE_STRUCT: if ns == "cairo" { printf(cairo_go_type_for_interface(bi, flags)) break } goto handle_default default: goto handle_default } return out.String() handle_default: if flags&type_pointer != 0 && !config.is_disguised(fullnm) { printf("*") } if ns != config.namespace { printf("%s.", strings.ToLower(ns)) } printf(bi.Name()) return out.String() }
func GoTypeForInterface(bi *gi.BaseInfo, flags TypeFlags) string { var out bytes.Buffer printf := PrinterTo(&out) ns := bi.Namespace() fullnm := strings.ToLower(ns) + "." + bi.Name() if flags&TypeListMember != 0 { switch bi.Type() { case gi.INFO_TYPE_OBJECT, gi.INFO_TYPE_INTERFACE: return GoTypeForInterface(bi, TypePointer|TypeReturn) default: return GoTypeForInterface(bi, TypeReturn) } } switch t := bi.Type(); t { case gi.INFO_TYPE_OBJECT, gi.INFO_TYPE_INTERFACE: if flags&TypeExact != 0 { // exact type for object/interface is always an unsafe.Pointer printf("unsafe.Pointer") break } if flags&(TypeReturn|TypeReceiver) != 0 && flags&TypePointer != 0 { // receivers and return values are actual types, // and a pointer most likely printf("*") } if ns != Config.Namespace { // prepend foreign types with appropriate namespace printf("%s.", strings.ToLower(ns)) } printf(bi.Name()) if flags&(TypeReturn|TypeReceiver) == 0 { // ordinary function arguments are substituted by their *Like // counterparts printf("Like") } if flags&TypeReceiver != 0 && t == gi.INFO_TYPE_INTERFACE { // special case for interfaces, we use *Impl structures // as receivers printf("Impl") } case gi.INFO_TYPE_CALLBACK: if flags&TypeExact != 0 { printf("unsafe.Pointer") break } goto handle_default case gi.INFO_TYPE_STRUCT: if ns == "cairo" { printf(CairoGoTypeForInterface(bi, flags)) break } goto handle_default default: goto handle_default } return out.String() handle_default: _, disguised := GConfig.Sys.DisguisedTypes[fullnm] if flags&TypePointer != 0 && !disguised { printf("*") } if ns != Config.Namespace { printf("%s.", strings.ToLower(ns)) } printf(bi.Name()) return out.String() }