func goFunction(f *parser.Function) string { if f.Meta == "signal" || strings.Contains(f.Virtual, "impure") && f.Output == "void" { var tmp string for _, signalMode := range []string{"Connect", "Disconnect", "callback"} { f.SignalMode = signalMode if signalMode == "callback" { tmp += fmt.Sprintf("//export callback%v%v", f.Class(), strings.Replace(strings.Title(f.Name), "~", "Destroy", -1)) if f.Overload { tmp += f.OverloadNumber } tmp += "\n" } tmp += fmt.Sprintf("%v{\n%v\n}\n\n", goFunctionHeader(f), goFunctionBody(f)) } f.SignalMode = "" var isPrivate bool if f.Meta == "signal" { isPrivate = converter.IsPrivateSignal(f) } var tmpMeta = f.Meta f.Meta = "plain" if !isPrivate { tmp += fmt.Sprintf("%v{\n%v\n}\n\n", goFunctionHeader(f), goFunctionBody(f)) if tmpMeta != "signal" { var tmpTmp = strings.Replace(fmt.Sprintf("%v{\n%v\n}\n\n", goFunctionHeader(f), goFunctionBody(f)), "_"+strings.Title(f.Name)+"(", "_"+strings.Title(f.Name)+"Default(", -1) tmp += strings.Replace(tmpTmp, ")"+strings.Title(f.Name)+"(", ")"+strings.Title(f.Name)+"Default(", -1) } } f.Meta = tmpMeta return tmp } if isGeneric(f) { var tmp string for _, m := range jniGenericModes(f) { f.TemplateMode = m tmp += fmt.Sprintf("%v{\n%v\n}\n", goFunctionHeader(f), goFunctionBody(f)) } f.TemplateMode = "" return tmp } return fmt.Sprintf("%v{\n%v\n}", goFunctionHeader(f), goFunctionBody(f)) }
func cppFunctionBody(f *parser.Function) (o string) { /* for _, p := range f.Parameters { if strings.Contains(p.Value, "**") && p.Name == "argv" { o += "QList<QByteArray> aList = QByteArray(argv).split('|');\n" o += "\tQVarLengthArray<const char*> argvs(argc);\n" o += "\tstatic int argcs = argc;\n" o += "\tfor (int i = 0; i < argc; i++)\n" o += "\t\targvs[i] = static_cast<const char*>(aList[i].constData());\n\n\t" } } */ for _, p := range f.Parameters { if strings.Contains(p.Value, "**") && p.Name == "argv" { o += "QList<QByteArray> aList = QByteArray(argv).split('|');\n" o += "\tchar *argvs[argc];\n" o += "\tstatic int argcs = argc;\n" o += "\tfor (int i = 0; i < argc; i++)\n" o += "\t\targvs[i] = aList[i].data();\n\n\t" } } if f.Name == "objectNameAbs" || f.Name == "setObjectNameAbs" { o += fmt.Sprintf("if (dynamic_cast<My%v*>(static_cast<%v*>(ptr))) {\n\t\t", f.Class(), f.Class()) } if converter.CppHeaderOutput(f) != "void" { o += "return " } var tmpMeta string if strings.Contains(f.Virtual, "impure") { if isDerivedFromSlot(f) { tmpMeta = f.Meta f.Meta = "slot" } } switch f.Meta { case "constructor": { if hasVirtualFunction(parser.ClassMap[f.Class()]) { o += fmt.Sprintf("new My%v(%v)", f.Class(), converter.CppBodyInput(f)) } else { o += fmt.Sprintf("new %v(%v)", f.Class(), converter.CppBodyInput(f)) } } case "slot": { if f.Static { o += fmt.Sprintf("QMetaObject::invokeMethod(%v::instance(), \"%v\"%v)", f.Class(), f.Name, converter.CppBodyInput(f)) } else { o += fmt.Sprintf("QMetaObject::invokeMethod(static_cast<%v*>(ptr), \"%v\"%v)", f.Class(), f.Name, converter.CppBodyInput(f)) } } case "plain", "destructor": { if f.Static { o += converter.CppBodyOutput(f, fmt.Sprintf("%v::%v%v(%v)", f.Class(), f.Name, converter.DeduceGeneric(f), converter.CppBodyInput(f))) } else { if f.Output == "T" && f.Class() == "QObject" { o += converter.CppBodyOutput(f, fmt.Sprintf("static_cast<%v*>(ptr)->%v<QObject*>(%v)", f.Class(), f.Name, converter.CppBodyInput(f))) } else if f.Output == "T" && f.Class() == "QMediaService" { o += converter.CppBodyOutput(f, fmt.Sprintf("static_cast<%v*>(ptr)->%v<QMediaControl*>(%v)", f.Class(), f.Name, converter.CppBodyInput(f))) } else { if parser.ClassMap[f.Class()].IsQObjectSubClass() { o += converter.CppBodyOutput(f, fmt.Sprintf("static_cast<%v*>(ptr)->%v%v(%v)", f.Class(), f.Name, converter.DeduceGeneric(f), converter.CppBodyInput(f))) } else { if f.Name == "objectNameAbs" || f.Name == "setObjectNameAbs" { o += converter.CppBodyOutput(f, fmt.Sprintf("static_cast<My%v*>(ptr)->%v%v(%v)", f.Class(), f.Name, converter.DeduceGeneric(f), converter.CppBodyInput(f))) } else { o += converter.CppBodyOutput(f, fmt.Sprintf("static_cast<%v*>(ptr)->%v%v(%v)", f.Class(), f.Name, converter.DeduceGeneric(f), converter.CppBodyInput(f))) } } } } } case "signal": { if converter.IsPrivateSignal(f) { o += fmt.Sprintf("QObject::%v(%v, &%v::%v, static_cast<My%v*>(ptr), static_cast<%v (My%v::*)(%v)>(&My%v::Signal_%v%v));", strings.ToLower(f.SignalMode), fmt.Sprintf("static_cast<%v*>(%v)", f.Class(), "ptr"), f.Class(), f.Name, f.Class(), f.Output, f.Class(), converter.CppBodyInput(f), f.Class(), strings.Title(f.Name), cppFunctionSignalOverload(f)) } else { o += fmt.Sprintf("QObject::%v(%v, static_cast<void (%v::*)(%v)>(&%v::%v), static_cast<My%v*>(ptr), static_cast<%v (My%v::*)(%v)>(&My%v::Signal_%v%v));", strings.ToLower(f.SignalMode), fmt.Sprintf("static_cast<%v*>(%v)", f.Class(), "ptr"), f.Class(), converter.CppBodyInput(f), f.Class(), f.Name, f.Class(), f.Output, f.Class(), converter.CppBodyInput(f), f.Class(), strings.Title(f.Name), cppFunctionSignalOverload(f)) } } default: { f.Access = "unsupported_CppFunctionBody" return f.Access } } if tmpMeta != "" { f.Meta = tmpMeta } if f.Name == "objectNameAbs" { o += fmt.Sprintf(";\n\t}\n\treturn QString(\"%v_BASE\").toUtf8().data()", f.Class()) } else if f.Name == "setObjectNameAbs" { return o + ";\n\t}" } return o + ";" }