// Copyright (c) Microsoft Corporation // All rights reserved. // // Licensed under the Apache License, Version 2.0 (the ""License""); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 // // THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABLITY OR NON-INFRINGEMENT. // // See the Apache Version 2.0 License for specific language governing permissions and limitations under the License. #define NTDDI_VERSION 0x06010000 #include #include #include #include #include "CollectionsConverter.h" #include "CollectionsWrap.h" #include "node-async.h" #include "NodeRtUtils.h" #include "OpaqueWrapper.h" #include "WrapperBase.h" #using // this undefs fixes the issues of compiling Windows.Data.Json, Windows.Storag.FileProperties, and Windows.Stroage.Search // Some of the node header files brings windows definitions with the same names as some of the WinRT methods #undef DocumentProperties #undef GetObject #undef CreateEvent #undef FindText #undef SendMessage const char* REGISTRATION_TOKEN_MAP_PROPERTY_NAME = "__registrationTokenMap__"; using namespace v8; using namespace node; using namespace concurrency; namespace NodeRT { namespace Windows { namespace UI { namespace ViewManagement { v8::Handle WrapApplicationView(::Windows::UI::ViewManagement::ApplicationView^ wintRtInstance); ::Windows::UI::ViewManagement::ApplicationView^ UnwrapApplicationView(Handle value); v8::Handle WrapApplicationViewConsolidatedEventArgs(::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ wintRtInstance); ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ UnwrapApplicationViewConsolidatedEventArgs(Handle value); v8::Handle WrapApplicationViewSwitcher(::Windows::UI::ViewManagement::ApplicationViewSwitcher^ wintRtInstance); ::Windows::UI::ViewManagement::ApplicationViewSwitcher^ UnwrapApplicationViewSwitcher(Handle value); v8::Handle WrapProjectionManager(::Windows::UI::ViewManagement::ProjectionManager^ wintRtInstance); ::Windows::UI::ViewManagement::ProjectionManager^ UnwrapProjectionManager(Handle value); v8::Handle WrapInputPaneVisibilityEventArgs(::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ wintRtInstance); ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ UnwrapInputPaneVisibilityEventArgs(Handle value); v8::Handle WrapInputPane(::Windows::UI::ViewManagement::InputPane^ wintRtInstance); ::Windows::UI::ViewManagement::InputPane^ UnwrapInputPane(Handle value); v8::Handle WrapAccessibilitySettings(::Windows::UI::ViewManagement::AccessibilitySettings^ wintRtInstance); ::Windows::UI::ViewManagement::AccessibilitySettings^ UnwrapAccessibilitySettings(Handle value); v8::Handle WrapUISettings(::Windows::UI::ViewManagement::UISettings^ wintRtInstance); ::Windows::UI::ViewManagement::UISettings^ UnwrapUISettings(Handle value); static v8::Handle InitApplicationViewStateEnum(const Handle exports) { HandleScope scope; Handle enumObject = Object::New(); exports->Set(String::NewSymbol("ApplicationViewState"), enumObject); enumObject->Set(String::NewSymbol("fullScreenLandscape"), Integer::New(0)); enumObject->Set(String::NewSymbol("filled"), Integer::New(1)); enumObject->Set(String::NewSymbol("snapped"), Integer::New(2)); enumObject->Set(String::NewSymbol("fullScreenPortrait"), Integer::New(3)); return scope.Close(Undefined()); } static v8::Handle InitApplicationViewOrientationEnum(const Handle exports) { HandleScope scope; Handle enumObject = Object::New(); exports->Set(String::NewSymbol("ApplicationViewOrientation"), enumObject); enumObject->Set(String::NewSymbol("landscape"), Integer::New(0)); enumObject->Set(String::NewSymbol("portrait"), Integer::New(1)); return scope.Close(Undefined()); } static v8::Handle InitApplicationViewSwitchingOptionsEnum(const Handle exports) { HandleScope scope; Handle enumObject = Object::New(); exports->Set(String::NewSymbol("ApplicationViewSwitchingOptions"), enumObject); enumObject->Set(String::NewSymbol("default"), Integer::New(0)); enumObject->Set(String::NewSymbol("skipAnimation"), Integer::New(1)); enumObject->Set(String::NewSymbol("consolidateViews"), Integer::New(2)); return scope.Close(Undefined()); } static v8::Handle InitViewSizePreferenceEnum(const Handle exports) { HandleScope scope; Handle enumObject = Object::New(); exports->Set(String::NewSymbol("ViewSizePreference"), enumObject); enumObject->Set(String::NewSymbol("default"), Integer::New(0)); enumObject->Set(String::NewSymbol("useLess"), Integer::New(1)); enumObject->Set(String::NewSymbol("useHalf"), Integer::New(2)); enumObject->Set(String::NewSymbol("useMore"), Integer::New(3)); enumObject->Set(String::NewSymbol("useMinimum"), Integer::New(4)); enumObject->Set(String::NewSymbol("useNone"), Integer::New(5)); return scope.Close(Undefined()); } static v8::Handle InitHandPreferenceEnum(const Handle exports) { HandleScope scope; Handle enumObject = Object::New(); exports->Set(String::NewSymbol("HandPreference"), enumObject); enumObject->Set(String::NewSymbol("leftHanded"), Integer::New(0)); enumObject->Set(String::NewSymbol("rightHanded"), Integer::New(1)); return scope.Close(Undefined()); } static v8::Handle InitUIElementTypeEnum(const Handle exports) { HandleScope scope; Handle enumObject = Object::New(); exports->Set(String::NewSymbol("UIElementType"), enumObject); enumObject->Set(String::NewSymbol("activeCaption"), Integer::New(0)); enumObject->Set(String::NewSymbol("background"), Integer::New(1)); enumObject->Set(String::NewSymbol("buttonFace"), Integer::New(2)); enumObject->Set(String::NewSymbol("buttonText"), Integer::New(3)); enumObject->Set(String::NewSymbol("captionText"), Integer::New(4)); enumObject->Set(String::NewSymbol("grayText"), Integer::New(5)); enumObject->Set(String::NewSymbol("highlight"), Integer::New(6)); enumObject->Set(String::NewSymbol("highlightText"), Integer::New(7)); enumObject->Set(String::NewSymbol("hotlight"), Integer::New(8)); enumObject->Set(String::NewSymbol("inactiveCaption"), Integer::New(9)); enumObject->Set(String::NewSymbol("inactiveCaptionText"), Integer::New(10)); enumObject->Set(String::NewSymbol("window"), Integer::New(11)); enumObject->Set(String::NewSymbol("windowText"), Integer::New(12)); return scope.Close(Undefined()); } static bool IsRectJsObject(Handle value) { if (!value->IsObject()) { return false; } Handle symbol; Handle obj = value.As(); return true; } ::Windows::Foundation::Rect RectFromJsObject(Handle value) { HandleScope scope; ::Windows::Foundation::Rect returnValue; if (!value->IsObject()) { ThrowException(Exception::TypeError(NodeRT::Utils::NewString(L"Unexpected type, expected an object"))); return returnValue; } Handle obj = value.As(); Handle symbol; return returnValue; } Handle RectToJsObject(::Windows::Foundation::Rect value) { HandleScope scope; Handle obj = Object::New(); return scope.Close(obj); } static bool IsSizeJsObject(Handle value) { if (!value->IsObject()) { return false; } Handle symbol; Handle obj = value.As(); return true; } ::Windows::Foundation::Size SizeFromJsObject(Handle value) { HandleScope scope; ::Windows::Foundation::Size returnValue; if (!value->IsObject()) { ThrowException(Exception::TypeError(NodeRT::Utils::NewString(L"Unexpected type, expected an object"))); return returnValue; } Handle obj = value.As(); Handle symbol; return returnValue; } Handle SizeToJsObject(::Windows::Foundation::Size value) { HandleScope scope; Handle obj = Object::New(); return scope.Close(obj); } static bool IsColorJsObject(Handle value) { if (!value->IsObject()) { return false; } Handle symbol; Handle obj = value.As(); return true; } ::Windows::UI::Color ColorFromJsObject(Handle value) { HandleScope scope; ::Windows::UI::Color returnValue; if (!value->IsObject()) { ThrowException(Exception::TypeError(NodeRT::Utils::NewString(L"Unexpected type, expected an object"))); return returnValue; } Handle obj = value.As(); Handle symbol; return returnValue; } Handle ColorToJsObject(::Windows::UI::Color value) { HandleScope scope; Handle obj = Object::New(); return scope.Close(obj); } class ApplicationView : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("ApplicationView")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); Local addListenerFunc = FunctionTemplate::New(AddListener)->GetFunction(); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("addListener"), addListenerFunc); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("on"), addListenerFunc); Local removeListenerFunc = FunctionTemplate::New(RemoveListener)->GetFunction(); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("removeListener"), removeListenerFunc); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("off"), removeListenerFunc); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("title"), TitleGetter, TitleSetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("isScreenCaptureEnabled"), IsScreenCaptureEnabledGetter, IsScreenCaptureEnabledSetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("adjacentToLeftDisplayEdge"), AdjacentToLeftDisplayEdgeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("adjacentToRightDisplayEdge"), AdjacentToRightDisplayEdgeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("id"), IdGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("isFullScreen"), IsFullScreenGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("isOnLockScreen"), IsOnLockScreenGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("orientation"), OrientationGetter); Local constructor = s_constructorTemplate->GetFunction(); constructor->Set(String::NewSymbol("getApplicationViewIdForWindow"), FunctionTemplate::New(GetApplicationViewIdForWindow)->GetFunction()); constructor->Set(String::NewSymbol("getForCurrentView"), FunctionTemplate::New(GetForCurrentView)->GetFunction()); constructor->Set(String::NewSymbol("tryUnsnap"), FunctionTemplate::New(TryUnsnap)->GetFunction()); constructor->SetAccessor(String::NewSymbol("terminateAppOnFinalViewClose"), TerminateAppOnFinalViewCloseGetter, TerminateAppOnFinalViewCloseSetter); constructor->SetAccessor(String::NewSymbol("value"), ValueGetter); exports->Set(String::NewSymbol("ApplicationView"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: ApplicationView(::Windows::UI::ViewManagement::ApplicationView^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::ApplicationView^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::ApplicationView^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); ApplicationView *wrapperInstance = new ApplicationView(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle GetApplicationViewIdForWindow(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 1 && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::Core::ICoreWindow^>(args[0])) { try { ::Windows::UI::Core::ICoreWindow^ arg0 = dynamic_cast<::Windows::UI::Core::ICoreWindow^>(NodeRT::Utils::GetObjectInstance(args[0])); int result; result = ::Windows::UI::ViewManagement::ApplicationView::GetApplicationViewIdForWindow(arg0); return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } return scope.Close(Undefined()); } static Handle GetForCurrentView(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0) { try { ::Windows::UI::ViewManagement::ApplicationView^ result; result = ::Windows::UI::ViewManagement::ApplicationView::GetForCurrentView(); return scope.Close(WrapApplicationView(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } return scope.Close(Undefined()); } static Handle TryUnsnap(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0) { try { bool result; result = ::Windows::UI::ViewManagement::ApplicationView::TryUnsnap(); return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } return scope.Close(Undefined()); } static Handle TitleGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { Platform::String^ result = wrapper->_instance->Title; return scope.Close(NodeRT::Utils::NewString(result->Data())); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static void TitleSetter(Local property, Local value, const AccessorInfo &info) { HandleScope scope; if (!value->IsString()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return; } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { Platform::String^ winRtValue = ref new Platform::String(NodeRT::Utils::StringToWchar(v8::String::Value(value))); wrapper->_instance->Title = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static Handle IsScreenCaptureEnabledGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { bool result = wrapper->_instance->IsScreenCaptureEnabled; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static void IsScreenCaptureEnabledSetter(Local property, Local value, const AccessorInfo &info) { HandleScope scope; if (!value->IsBoolean()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return; } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { bool winRtValue = value->BooleanValue(); wrapper->_instance->IsScreenCaptureEnabled = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static Handle AdjacentToLeftDisplayEdgeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { bool result = wrapper->_instance->AdjacentToLeftDisplayEdge; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle AdjacentToRightDisplayEdgeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { bool result = wrapper->_instance->AdjacentToRightDisplayEdge; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle IdGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { int result = wrapper->_instance->Id; return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle IsFullScreenGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { bool result = wrapper->_instance->IsFullScreen; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle IsOnLockScreenGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { bool result = wrapper->_instance->IsOnLockScreen; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle OrientationGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(info.This())) { return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(info.This()); try { ::Windows::UI::ViewManagement::ApplicationViewOrientation result = wrapper->_instance->Orientation; return scope.Close(Integer::New(static_cast(result))); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle TerminateAppOnFinalViewCloseGetter(Local property, const AccessorInfo &info) { HandleScope scope; try { bool result = ::Windows::UI::ViewManagement::ApplicationView::TerminateAppOnFinalViewClose; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static void TerminateAppOnFinalViewCloseSetter(Local property, Local value, const AccessorInfo &info) { HandleScope scope; if (!value->IsBoolean()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } try { bool winRtValue = value->BooleanValue(); ::Windows::UI::ViewManagement::ApplicationView::TerminateAppOnFinalViewClose = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static Handle ValueGetter(Local property, const AccessorInfo &info) { HandleScope scope; try { ::Windows::UI::ViewManagement::ApplicationViewState result = ::Windows::UI::ViewManagement::ApplicationView::Value; return scope.Close(Integer::New(static_cast(result))); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static v8::Handle AddListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected arguments are eventName(string),callback(function)"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; Local callback = args[1].As(); ::Windows::Foundation::EventRegistrationToken registrationToken; if (NodeRT::Utils::CaseInsenstiveEquals(L"consolidated", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(args.This()); try { std::shared_ptr> callbackObjPtr(new Persistent(Persistent::New(NodeRT::Utils::CreateCallbackObjectInDomain(callback))), [] (Persistent *ptr ) { NodeUtils::Async::RunOnMain([ptr]() { ptr->Dispose(); delete ptr; }); }); registrationToken = wrapper->_instance->Consolidated::add( ref new ::Windows::Foundation::TypedEventHandler<::Windows::UI::ViewManagement::ApplicationView^, ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^>( [callbackObjPtr](::Windows::UI::ViewManagement::ApplicationView^ arg0, ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ arg1) { NodeUtils::Async::RunOnMain([callbackObjPtr , arg0, arg1]() { TryCatch tryCatch; Handle error; Handle wrappedArg0 = WrapApplicationView(arg0); Handle wrappedArg1 = WrapApplicationViewConsolidatedEventArgs(arg1); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (wrappedArg0.IsEmpty()) wrappedArg0 = Undefined(); if (wrappedArg1.IsEmpty()) wrappedArg1 = Undefined(); Handle args[] = { wrappedArg0, wrappedArg1 }; NodeRT::Utils::CallCallbackInDomain(*callbackObjPtr, _countof(args), args); }); }) ); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { tokenMap = Object::New(); callback->SetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME), tokenMap); } tokenMap.As()->Set(args[1], CreateOpaqueWrapper(::Windows::Foundation::PropertyValue::CreateInt64(registrationToken.Value))); return scope.Close(Undefined()); } static v8::Handle RemoveListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected a string and a callback"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; if ((NodeRT::Utils::CaseInsenstiveEquals(L"consolidated", str))) { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local callback = args[1].As(); Handle tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { return scope.Close(Undefined()); } Handle opaqueWrapperObj = tokenMap.As()->Get(args[1]); if (opaqueWrapperObj.IsEmpty() || opaqueWrapperObj->Equals(Undefined())) { return scope.Close(Undefined()); } OpaqueWrapper *opaqueWrapper = OpaqueWrapper::Unwrap(opaqueWrapperObj.As()); long long tokenValue = (long long) opaqueWrapper->GetObjectInstance(); ::Windows::Foundation::EventRegistrationToken registrationToken; registrationToken.Value = tokenValue; try { if (NodeRT::Utils::CaseInsenstiveEquals(L"consolidated", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationView^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } ApplicationView *wrapper = ApplicationView::Unwrap(args.This()); wrapper->_instance->Consolidated::remove(registrationToken); } } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } tokenMap.As()->Delete(args[0].As()); return scope.Close(Undefined()); } private: ::Windows::UI::ViewManagement::ApplicationView^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapApplicationView(::Windows::UI::ViewManagement::ApplicationView^ wintRtInstance); friend ::Windows::UI::ViewManagement::ApplicationView^ UnwrapApplicationView(Handle value); friend bool IsApplicationViewWrapper(Handle value); }; Persistent ApplicationView::s_constructorTemplate; v8::Handle WrapApplicationView(::Windows::UI::ViewManagement::ApplicationView^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(ApplicationView::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::ApplicationView^ UnwrapApplicationView(Handle value) { return ApplicationView::Unwrap(value.As())->_instance; } void InitApplicationView(Handle exports) { ApplicationView::Init(exports); } class ApplicationViewConsolidatedEventArgs : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("ApplicationViewConsolidatedEventArgs")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("isUserInitiated"), IsUserInitiatedGetter); Local constructor = s_constructorTemplate->GetFunction(); exports->Set(String::NewSymbol("ApplicationViewConsolidatedEventArgs"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: ApplicationViewConsolidatedEventArgs(::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); ApplicationViewConsolidatedEventArgs *wrapperInstance = new ApplicationViewConsolidatedEventArgs(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle IsUserInitiatedGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^>(info.This())) { return scope.Close(Undefined()); } ApplicationViewConsolidatedEventArgs *wrapper = ApplicationViewConsolidatedEventArgs::Unwrap(info.This()); try { bool result = wrapper->_instance->IsUserInitiated; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } private: ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapApplicationViewConsolidatedEventArgs(::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ wintRtInstance); friend ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ UnwrapApplicationViewConsolidatedEventArgs(Handle value); friend bool IsApplicationViewConsolidatedEventArgsWrapper(Handle value); }; Persistent ApplicationViewConsolidatedEventArgs::s_constructorTemplate; v8::Handle WrapApplicationViewConsolidatedEventArgs(::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(ApplicationViewConsolidatedEventArgs::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::ApplicationViewConsolidatedEventArgs^ UnwrapApplicationViewConsolidatedEventArgs(Handle value) { return ApplicationViewConsolidatedEventArgs::Unwrap(value.As())->_instance; } void InitApplicationViewConsolidatedEventArgs(Handle exports) { ApplicationViewConsolidatedEventArgs::Init(exports); } class ApplicationViewSwitcher : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("ApplicationViewSwitcher")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); Handle asyncSymbol = String::NewSymbol("__winRtAsync__"); Handle func; Local constructor = s_constructorTemplate->GetFunction(); constructor->Set(String::NewSymbol("disableShowingMainViewOnActivation"), FunctionTemplate::New(DisableShowingMainViewOnActivation)->GetFunction()); func = FunctionTemplate::New(TryShowAsStandaloneAsync)->GetFunction(); func->Set(asyncSymbol, True(), PropertyAttribute::DontEnum); constructor->Set(String::NewSymbol("tryShowAsStandaloneAsync"), func); func = FunctionTemplate::New(SwitchAsync)->GetFunction(); func->Set(asyncSymbol, True(), PropertyAttribute::DontEnum); constructor->Set(String::NewSymbol("switchAsync"), func); func = FunctionTemplate::New(PrepareForCustomAnimatedSwitchAsync)->GetFunction(); func->Set(asyncSymbol, True(), PropertyAttribute::DontEnum); constructor->Set(String::NewSymbol("prepareForCustomAnimatedSwitchAsync"), func); exports->Set(String::NewSymbol("ApplicationViewSwitcher"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: ApplicationViewSwitcher(::Windows::UI::ViewManagement::ApplicationViewSwitcher^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::ApplicationViewSwitcher^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ApplicationViewSwitcher^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::ApplicationViewSwitcher^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); ApplicationViewSwitcher *wrapperInstance = new ApplicationViewSwitcher(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle TryShowAsStandaloneAsync(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0 || !args[args.Length() -1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return scope.Close(Undefined()); } ::Windows::Foundation::IAsyncOperation^ op; if (args.Length() == 2 && args[0]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::TryShowAsStandaloneAsync(arg0); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (args.Length() == 3 && args[0]->IsInt32() && args[1]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); ::Windows::UI::ViewManagement::ViewSizePreference arg1 = static_cast<::Windows::UI::ViewManagement::ViewSizePreference>(args[1]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::TryShowAsStandaloneAsync(arg0,arg1); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (args.Length() == 5 && args[0]->IsInt32() && args[1]->IsInt32() && args[2]->IsInt32() && args[3]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); ::Windows::UI::ViewManagement::ViewSizePreference arg1 = static_cast<::Windows::UI::ViewManagement::ViewSizePreference>(args[1]->Int32Value()); int arg2 = static_cast(args[2]->Int32Value()); ::Windows::UI::ViewManagement::ViewSizePreference arg3 = static_cast<::Windows::UI::ViewManagement::ViewSizePreference>(args[3]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::TryShowAsStandaloneAsync(arg0,arg1,arg2,arg3); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(args[args.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { auto result = t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [result](NodeUtils::InvokeCallbackDelegate invokeCallback) { TryCatch tryCatch; Handle error; Handle arg1 = Boolean::New(result); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (arg1.IsEmpty()) arg1 = Undefined(); Handle args[] = {error, arg1}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle error = NodeRT::Utils::WinRtExceptionToJsError(exception); Handle args[] = {error}; invokeCallback(_countof(args), args); }); } }); return scope.Close(Undefined()); } static Handle SwitchAsync(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0 || !args[args.Length() -1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return scope.Close(Undefined()); } ::Windows::Foundation::IAsyncAction^ op; if (args.Length() == 2 && args[0]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::SwitchAsync(arg0); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (args.Length() == 3 && args[0]->IsInt32() && args[1]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); int arg1 = static_cast(args[1]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::SwitchAsync(arg0,arg1); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (args.Length() == 4 && args[0]->IsInt32() && args[1]->IsInt32() && args[2]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); int arg1 = static_cast(args[1]->Int32Value()); ::Windows::UI::ViewManagement::ApplicationViewSwitchingOptions arg2 = static_cast<::Windows::UI::ViewManagement::ApplicationViewSwitchingOptions>(args[2]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::SwitchAsync(arg0,arg1,arg2); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(args[args.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle args[] = {Undefined()}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle error = NodeRT::Utils::WinRtExceptionToJsError(exception); Handle args[] = {error}; invokeCallback(_countof(args), args); }); } }); return scope.Close(Undefined()); } static Handle PrepareForCustomAnimatedSwitchAsync(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0 || !args[args.Length() -1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return scope.Close(Undefined()); } ::Windows::Foundation::IAsyncOperation^ op; if (args.Length() == 4 && args[0]->IsInt32() && args[1]->IsInt32() && args[2]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); int arg1 = static_cast(args[1]->Int32Value()); ::Windows::UI::ViewManagement::ApplicationViewSwitchingOptions arg2 = static_cast<::Windows::UI::ViewManagement::ApplicationViewSwitchingOptions>(args[2]->Int32Value()); op = ::Windows::UI::ViewManagement::ApplicationViewSwitcher::PrepareForCustomAnimatedSwitchAsync(arg0,arg1,arg2); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(args[args.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { auto result = t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [result](NodeUtils::InvokeCallbackDelegate invokeCallback) { TryCatch tryCatch; Handle error; Handle arg1 = Boolean::New(result); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (arg1.IsEmpty()) arg1 = Undefined(); Handle args[] = {error, arg1}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle error = NodeRT::Utils::WinRtExceptionToJsError(exception); Handle args[] = {error}; invokeCallback(_countof(args), args); }); } }); return scope.Close(Undefined()); } static Handle DisableShowingMainViewOnActivation(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0) { try { ::Windows::UI::ViewManagement::ApplicationViewSwitcher::DisableShowingMainViewOnActivation(); return scope.Close(Undefined()); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } return scope.Close(Undefined()); } private: ::Windows::UI::ViewManagement::ApplicationViewSwitcher^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapApplicationViewSwitcher(::Windows::UI::ViewManagement::ApplicationViewSwitcher^ wintRtInstance); friend ::Windows::UI::ViewManagement::ApplicationViewSwitcher^ UnwrapApplicationViewSwitcher(Handle value); friend bool IsApplicationViewSwitcherWrapper(Handle value); }; Persistent ApplicationViewSwitcher::s_constructorTemplate; v8::Handle WrapApplicationViewSwitcher(::Windows::UI::ViewManagement::ApplicationViewSwitcher^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(ApplicationViewSwitcher::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::ApplicationViewSwitcher^ UnwrapApplicationViewSwitcher(Handle value) { return ApplicationViewSwitcher::Unwrap(value.As())->_instance; } void InitApplicationViewSwitcher(Handle exports) { ApplicationViewSwitcher::Init(exports); } class ProjectionManager : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("ProjectionManager")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); Handle asyncSymbol = String::NewSymbol("__winRtAsync__"); Handle func; Local constructor = s_constructorTemplate->GetFunction(); func = FunctionTemplate::New(StartProjectingAsync)->GetFunction(); func->Set(asyncSymbol, True(), PropertyAttribute::DontEnum); constructor->Set(String::NewSymbol("startProjectingAsync"), func); func = FunctionTemplate::New(SwapDisplaysForViewsAsync)->GetFunction(); func->Set(asyncSymbol, True(), PropertyAttribute::DontEnum); constructor->Set(String::NewSymbol("swapDisplaysForViewsAsync"), func); func = FunctionTemplate::New(StopProjectingAsync)->GetFunction(); func->Set(asyncSymbol, True(), PropertyAttribute::DontEnum); constructor->Set(String::NewSymbol("stopProjectingAsync"), func); constructor->SetAccessor(String::NewSymbol("projectionDisplayAvailable"), ProjectionDisplayAvailableGetter); Local addListenerFunc = FunctionTemplate::New(AddListener)->GetFunction(); constructor->Set(String::NewSymbol("addListener"), addListenerFunc); constructor->Set(String::NewSymbol("on"), addListenerFunc); Local removeListenerFunc = FunctionTemplate::New(RemoveListener)->GetFunction(); constructor->Set(String::NewSymbol("removeListener"), removeListenerFunc); constructor->Set(String::NewSymbol("off"), removeListenerFunc); exports->Set(String::NewSymbol("ProjectionManager"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: ProjectionManager(::Windows::UI::ViewManagement::ProjectionManager^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::ProjectionManager^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::ProjectionManager^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::ProjectionManager^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); ProjectionManager *wrapperInstance = new ProjectionManager(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle StartProjectingAsync(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0 || !args[args.Length() -1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return scope.Close(Undefined()); } ::Windows::Foundation::IAsyncAction^ op; if (args.Length() == 3 && args[0]->IsInt32() && args[1]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); int arg1 = static_cast(args[1]->Int32Value()); op = ::Windows::UI::ViewManagement::ProjectionManager::StartProjectingAsync(arg0,arg1); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(args[args.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle args[] = {Undefined()}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle error = NodeRT::Utils::WinRtExceptionToJsError(exception); Handle args[] = {error}; invokeCallback(_countof(args), args); }); } }); return scope.Close(Undefined()); } static Handle SwapDisplaysForViewsAsync(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0 || !args[args.Length() -1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return scope.Close(Undefined()); } ::Windows::Foundation::IAsyncAction^ op; if (args.Length() == 3 && args[0]->IsInt32() && args[1]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); int arg1 = static_cast(args[1]->Int32Value()); op = ::Windows::UI::ViewManagement::ProjectionManager::SwapDisplaysForViewsAsync(arg0,arg1); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(args[args.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle args[] = {Undefined()}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle error = NodeRT::Utils::WinRtExceptionToJsError(exception); Handle args[] = {error}; invokeCallback(_countof(args), args); }); } }); return scope.Close(Undefined()); } static Handle StopProjectingAsync(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0 || !args[args.Length() -1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return scope.Close(Undefined()); } ::Windows::Foundation::IAsyncAction^ op; if (args.Length() == 3 && args[0]->IsInt32() && args[1]->IsInt32()) { try { int arg0 = static_cast(args[0]->Int32Value()); int arg1 = static_cast(args[1]->Int32Value()); op = ::Windows::UI::ViewManagement::ProjectionManager::StopProjectingAsync(arg0,arg1); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(args[args.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle args[] = {Undefined()}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Handle error = NodeRT::Utils::WinRtExceptionToJsError(exception); Handle args[] = {error}; invokeCallback(_countof(args), args); }); } }); return scope.Close(Undefined()); } static Handle ProjectionDisplayAvailableGetter(Local property, const AccessorInfo &info) { HandleScope scope; try { bool result = ::Windows::UI::ViewManagement::ProjectionManager::ProjectionDisplayAvailable; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static v8::Handle AddListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected arguments are eventName(string),callback(function)"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; Local callback = args[1].As(); ::Windows::Foundation::EventRegistrationToken registrationToken; if (NodeRT::Utils::CaseInsenstiveEquals(L"projectionDisplayAvailableChanged", str)) { try { std::shared_ptr> callbackObjPtr(new Persistent(Persistent::New(NodeRT::Utils::CreateCallbackObjectInDomain(callback))), [] (Persistent *ptr ) { NodeUtils::Async::RunOnMain([ptr]() { ptr->Dispose(); delete ptr; }); }); registrationToken = ::Windows::UI::ViewManagement::ProjectionManager::ProjectionDisplayAvailableChanged::add( ref new ::Windows::Foundation::EventHandler<::Platform::Object^>( [callbackObjPtr](::Platform::Object^ arg0, ::Platform::Object^ arg1) { NodeUtils::Async::RunOnMain([callbackObjPtr , arg0, arg1]() { TryCatch tryCatch; Handle error; Handle wrappedArg0 = CreateOpaqueWrapper(arg0); Handle wrappedArg1 = CreateOpaqueWrapper(arg1); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (wrappedArg0.IsEmpty()) wrappedArg0 = Undefined(); if (wrappedArg1.IsEmpty()) wrappedArg1 = Undefined(); Handle args[] = { wrappedArg0, wrappedArg1 }; NodeRT::Utils::CallCallbackInDomain(*callbackObjPtr, _countof(args), args); }); }) ); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { tokenMap = Object::New(); callback->SetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME), tokenMap); } tokenMap.As()->Set(args[1], CreateOpaqueWrapper(::Windows::Foundation::PropertyValue::CreateInt64(registrationToken.Value))); return scope.Close(Undefined()); } static v8::Handle RemoveListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected a string and a callback"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; if ((NodeRT::Utils::CaseInsenstiveEquals(L"projectionDisplayAvailableChanged", str))) { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local callback = args[1].As(); Handle tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { return scope.Close(Undefined()); } Handle opaqueWrapperObj = tokenMap.As()->Get(args[1]); if (opaqueWrapperObj.IsEmpty() || opaqueWrapperObj->Equals(Undefined())) { return scope.Close(Undefined()); } OpaqueWrapper *opaqueWrapper = OpaqueWrapper::Unwrap(opaqueWrapperObj.As()); long long tokenValue = (long long) opaqueWrapper->GetObjectInstance(); ::Windows::Foundation::EventRegistrationToken registrationToken; registrationToken.Value = tokenValue; try { if (NodeRT::Utils::CaseInsenstiveEquals(L"projectionDisplayAvailableChanged", str)) { ::Windows::UI::ViewManagement::ProjectionManager::ProjectionDisplayAvailableChanged::remove(registrationToken); } } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } tokenMap.As()->Delete(args[0].As()); return scope.Close(Undefined()); } private: ::Windows::UI::ViewManagement::ProjectionManager^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapProjectionManager(::Windows::UI::ViewManagement::ProjectionManager^ wintRtInstance); friend ::Windows::UI::ViewManagement::ProjectionManager^ UnwrapProjectionManager(Handle value); friend bool IsProjectionManagerWrapper(Handle value); }; Persistent ProjectionManager::s_constructorTemplate; v8::Handle WrapProjectionManager(::Windows::UI::ViewManagement::ProjectionManager^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(ProjectionManager::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::ProjectionManager^ UnwrapProjectionManager(Handle value) { return ProjectionManager::Unwrap(value.As())->_instance; } void InitProjectionManager(Handle exports) { ProjectionManager::Init(exports); } class InputPaneVisibilityEventArgs : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("InputPaneVisibilityEventArgs")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("ensuredFocusedElementInView"), EnsuredFocusedElementInViewGetter, EnsuredFocusedElementInViewSetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("occludedRect"), OccludedRectGetter); Local constructor = s_constructorTemplate->GetFunction(); exports->Set(String::NewSymbol("InputPaneVisibilityEventArgs"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: InputPaneVisibilityEventArgs(::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); InputPaneVisibilityEventArgs *wrapperInstance = new InputPaneVisibilityEventArgs(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle EnsuredFocusedElementInViewGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^>(info.This())) { return scope.Close(Undefined()); } InputPaneVisibilityEventArgs *wrapper = InputPaneVisibilityEventArgs::Unwrap(info.This()); try { bool result = wrapper->_instance->EnsuredFocusedElementInView; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static void EnsuredFocusedElementInViewSetter(Local property, Local value, const AccessorInfo &info) { HandleScope scope; if (!value->IsBoolean()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^>(info.This())) { return; } InputPaneVisibilityEventArgs *wrapper = InputPaneVisibilityEventArgs::Unwrap(info.This()); try { bool winRtValue = value->BooleanValue(); wrapper->_instance->EnsuredFocusedElementInView = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static Handle OccludedRectGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^>(info.This())) { return scope.Close(Undefined()); } InputPaneVisibilityEventArgs *wrapper = InputPaneVisibilityEventArgs::Unwrap(info.This()); try { ::Windows::Foundation::Rect result = wrapper->_instance->OccludedRect; return scope.Close(NodeRT::Utils::RectToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } private: ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapInputPaneVisibilityEventArgs(::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ wintRtInstance); friend ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ UnwrapInputPaneVisibilityEventArgs(Handle value); friend bool IsInputPaneVisibilityEventArgsWrapper(Handle value); }; Persistent InputPaneVisibilityEventArgs::s_constructorTemplate; v8::Handle WrapInputPaneVisibilityEventArgs(::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(InputPaneVisibilityEventArgs::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ UnwrapInputPaneVisibilityEventArgs(Handle value) { return InputPaneVisibilityEventArgs::Unwrap(value.As())->_instance; } void InitInputPaneVisibilityEventArgs(Handle exports) { InputPaneVisibilityEventArgs::Init(exports); } class InputPane : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("InputPane")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); Local addListenerFunc = FunctionTemplate::New(AddListener)->GetFunction(); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("addListener"), addListenerFunc); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("on"), addListenerFunc); Local removeListenerFunc = FunctionTemplate::New(RemoveListener)->GetFunction(); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("removeListener"), removeListenerFunc); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("off"), removeListenerFunc); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("occludedRect"), OccludedRectGetter); Local constructor = s_constructorTemplate->GetFunction(); constructor->Set(String::NewSymbol("getForCurrentView"), FunctionTemplate::New(GetForCurrentView)->GetFunction()); exports->Set(String::NewSymbol("InputPane"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: InputPane(::Windows::UI::ViewManagement::InputPane^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::InputPane^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPane^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::InputPane^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); InputPane *wrapperInstance = new InputPane(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle GetForCurrentView(const v8::Arguments& args) { HandleScope scope; if (args.Length() == 0) { try { ::Windows::UI::ViewManagement::InputPane^ result; result = ::Windows::UI::ViewManagement::InputPane::GetForCurrentView(); return scope.Close(WrapInputPane(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } return scope.Close(Undefined()); } static Handle OccludedRectGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPane^>(info.This())) { return scope.Close(Undefined()); } InputPane *wrapper = InputPane::Unwrap(info.This()); try { ::Windows::Foundation::Rect result = wrapper->_instance->OccludedRect; return scope.Close(NodeRT::Utils::RectToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static v8::Handle AddListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected arguments are eventName(string),callback(function)"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; Local callback = args[1].As(); ::Windows::Foundation::EventRegistrationToken registrationToken; if (NodeRT::Utils::CaseInsenstiveEquals(L"hiding", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPane^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } InputPane *wrapper = InputPane::Unwrap(args.This()); try { std::shared_ptr> callbackObjPtr(new Persistent(Persistent::New(NodeRT::Utils::CreateCallbackObjectInDomain(callback))), [] (Persistent *ptr ) { NodeUtils::Async::RunOnMain([ptr]() { ptr->Dispose(); delete ptr; }); }); registrationToken = wrapper->_instance->Hiding::add( ref new ::Windows::Foundation::TypedEventHandler<::Windows::UI::ViewManagement::InputPane^, ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^>( [callbackObjPtr](::Windows::UI::ViewManagement::InputPane^ arg0, ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ arg1) { NodeUtils::Async::RunOnMain([callbackObjPtr , arg0, arg1]() { TryCatch tryCatch; Handle error; Handle wrappedArg0 = WrapInputPane(arg0); Handle wrappedArg1 = WrapInputPaneVisibilityEventArgs(arg1); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (wrappedArg0.IsEmpty()) wrappedArg0 = Undefined(); if (wrappedArg1.IsEmpty()) wrappedArg1 = Undefined(); Handle args[] = { wrappedArg0, wrappedArg1 }; NodeRT::Utils::CallCallbackInDomain(*callbackObjPtr, _countof(args), args); }); }) ); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (NodeRT::Utils::CaseInsenstiveEquals(L"showing", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPane^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } InputPane *wrapper = InputPane::Unwrap(args.This()); try { std::shared_ptr> callbackObjPtr(new Persistent(Persistent::New(NodeRT::Utils::CreateCallbackObjectInDomain(callback))), [] (Persistent *ptr ) { NodeUtils::Async::RunOnMain([ptr]() { ptr->Dispose(); delete ptr; }); }); registrationToken = wrapper->_instance->Showing::add( ref new ::Windows::Foundation::TypedEventHandler<::Windows::UI::ViewManagement::InputPane^, ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^>( [callbackObjPtr](::Windows::UI::ViewManagement::InputPane^ arg0, ::Windows::UI::ViewManagement::InputPaneVisibilityEventArgs^ arg1) { NodeUtils::Async::RunOnMain([callbackObjPtr , arg0, arg1]() { TryCatch tryCatch; Handle error; Handle wrappedArg0 = WrapInputPane(arg0); Handle wrappedArg1 = WrapInputPaneVisibilityEventArgs(arg1); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (wrappedArg0.IsEmpty()) wrappedArg0 = Undefined(); if (wrappedArg1.IsEmpty()) wrappedArg1 = Undefined(); Handle args[] = { wrappedArg0, wrappedArg1 }; NodeRT::Utils::CallCallbackInDomain(*callbackObjPtr, _countof(args), args); }); }) ); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { tokenMap = Object::New(); callback->SetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME), tokenMap); } tokenMap.As()->Set(args[1], CreateOpaqueWrapper(::Windows::Foundation::PropertyValue::CreateInt64(registrationToken.Value))); return scope.Close(Undefined()); } static v8::Handle RemoveListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected a string and a callback"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; if ((NodeRT::Utils::CaseInsenstiveEquals(L"hiding", str)) &&(NodeRT::Utils::CaseInsenstiveEquals(L"showing", str))) { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local callback = args[1].As(); Handle tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { return scope.Close(Undefined()); } Handle opaqueWrapperObj = tokenMap.As()->Get(args[1]); if (opaqueWrapperObj.IsEmpty() || opaqueWrapperObj->Equals(Undefined())) { return scope.Close(Undefined()); } OpaqueWrapper *opaqueWrapper = OpaqueWrapper::Unwrap(opaqueWrapperObj.As()); long long tokenValue = (long long) opaqueWrapper->GetObjectInstance(); ::Windows::Foundation::EventRegistrationToken registrationToken; registrationToken.Value = tokenValue; try { if (NodeRT::Utils::CaseInsenstiveEquals(L"hiding", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPane^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } InputPane *wrapper = InputPane::Unwrap(args.This()); wrapper->_instance->Hiding::remove(registrationToken); } else if (NodeRT::Utils::CaseInsenstiveEquals(L"showing", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::InputPane^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } InputPane *wrapper = InputPane::Unwrap(args.This()); wrapper->_instance->Showing::remove(registrationToken); } } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } tokenMap.As()->Delete(args[0].As()); return scope.Close(Undefined()); } private: ::Windows::UI::ViewManagement::InputPane^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapInputPane(::Windows::UI::ViewManagement::InputPane^ wintRtInstance); friend ::Windows::UI::ViewManagement::InputPane^ UnwrapInputPane(Handle value); friend bool IsInputPaneWrapper(Handle value); }; Persistent InputPane::s_constructorTemplate; v8::Handle WrapInputPane(::Windows::UI::ViewManagement::InputPane^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(InputPane::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::InputPane^ UnwrapInputPane(Handle value) { return InputPane::Unwrap(value.As())->_instance; } void InitInputPane(Handle exports) { InputPane::Init(exports); } class AccessibilitySettings : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("AccessibilitySettings")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); Local addListenerFunc = FunctionTemplate::New(AddListener)->GetFunction(); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("addListener"), addListenerFunc); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("on"), addListenerFunc); Local removeListenerFunc = FunctionTemplate::New(RemoveListener)->GetFunction(); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("removeListener"), removeListenerFunc); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("off"), removeListenerFunc); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("highContrast"), HighContrastGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("highContrastScheme"), HighContrastSchemeGetter); Local constructor = s_constructorTemplate->GetFunction(); exports->Set(String::NewSymbol("AccessibilitySettings"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: AccessibilitySettings(::Windows::UI::ViewManagement::AccessibilitySettings^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::AccessibilitySettings^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::AccessibilitySettings^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::AccessibilitySettings^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (args.Length() == 0) { try { winRtInstance = ref new ::Windows::UI::ViewManagement::AccessibilitySettings(); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); AccessibilitySettings *wrapperInstance = new AccessibilitySettings(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle HighContrastGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::AccessibilitySettings^>(info.This())) { return scope.Close(Undefined()); } AccessibilitySettings *wrapper = AccessibilitySettings::Unwrap(info.This()); try { bool result = wrapper->_instance->HighContrast; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle HighContrastSchemeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::AccessibilitySettings^>(info.This())) { return scope.Close(Undefined()); } AccessibilitySettings *wrapper = AccessibilitySettings::Unwrap(info.This()); try { Platform::String^ result = wrapper->_instance->HighContrastScheme; return scope.Close(NodeRT::Utils::NewString(result->Data())); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static v8::Handle AddListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected arguments are eventName(string),callback(function)"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; Local callback = args[1].As(); ::Windows::Foundation::EventRegistrationToken registrationToken; if (NodeRT::Utils::CaseInsenstiveEquals(L"highContrastChanged", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::AccessibilitySettings^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } AccessibilitySettings *wrapper = AccessibilitySettings::Unwrap(args.This()); try { std::shared_ptr> callbackObjPtr(new Persistent(Persistent::New(NodeRT::Utils::CreateCallbackObjectInDomain(callback))), [] (Persistent *ptr ) { NodeUtils::Async::RunOnMain([ptr]() { ptr->Dispose(); delete ptr; }); }); registrationToken = wrapper->_instance->HighContrastChanged::add( ref new ::Windows::Foundation::TypedEventHandler<::Windows::UI::ViewManagement::AccessibilitySettings^, ::Platform::Object^>( [callbackObjPtr](::Windows::UI::ViewManagement::AccessibilitySettings^ arg0, ::Platform::Object^ arg1) { NodeUtils::Async::RunOnMain([callbackObjPtr , arg0, arg1]() { TryCatch tryCatch; Handle error; Handle wrappedArg0 = WrapAccessibilitySettings(arg0); Handle wrappedArg1 = CreateOpaqueWrapper(arg1); if (tryCatch.HasCaught()) { error = tryCatch.Exception()->ToObject(); } else { error = Undefined(); } if (wrappedArg0.IsEmpty()) wrappedArg0 = Undefined(); if (wrappedArg1.IsEmpty()) wrappedArg1 = Undefined(); Handle args[] = { wrappedArg0, wrappedArg1 }; NodeRT::Utils::CallCallbackInDomain(*callbackObjPtr, _countof(args), args); }); }) ); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { tokenMap = Object::New(); callback->SetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME), tokenMap); } tokenMap.As()->Set(args[1], CreateOpaqueWrapper(::Windows::Foundation::PropertyValue::CreateInt64(registrationToken.Value))); return scope.Close(Undefined()); } static v8::Handle RemoveListener(const v8::Arguments& args) { HandleScope scope; if (args.Length() < 2 || !args[0]->IsString() || !args[1]->IsFunction()) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"wrong arguments, expected a string and a callback"))); return scope.Close(Undefined()); } String::Value eventName(args[0]); auto str = *eventName; if ((NodeRT::Utils::CaseInsenstiveEquals(L"highContrastChanged", str))) { ThrowException(Exception::Error(String::Concat(NodeRT::Utils::NewString(L"given event name isn't supported: "), args[0].As()))); return scope.Close(Undefined()); } Local callback = args[1].As(); Handle tokenMap = callback->GetHiddenValue(String::NewSymbol(REGISTRATION_TOKEN_MAP_PROPERTY_NAME)); if (tokenMap.IsEmpty() || tokenMap->Equals(Undefined())) { return scope.Close(Undefined()); } Handle opaqueWrapperObj = tokenMap.As()->Get(args[1]); if (opaqueWrapperObj.IsEmpty() || opaqueWrapperObj->Equals(Undefined())) { return scope.Close(Undefined()); } OpaqueWrapper *opaqueWrapper = OpaqueWrapper::Unwrap(opaqueWrapperObj.As()); long long tokenValue = (long long) opaqueWrapper->GetObjectInstance(); ::Windows::Foundation::EventRegistrationToken registrationToken; registrationToken.Value = tokenValue; try { if (NodeRT::Utils::CaseInsenstiveEquals(L"highContrastChanged", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::AccessibilitySettings^>(args.This())) { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return scope.Close(Undefined()); } AccessibilitySettings *wrapper = AccessibilitySettings::Unwrap(args.This()); wrapper->_instance->HighContrastChanged::remove(registrationToken); } } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } tokenMap.As()->Delete(args[0].As()); return scope.Close(Undefined()); } private: ::Windows::UI::ViewManagement::AccessibilitySettings^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapAccessibilitySettings(::Windows::UI::ViewManagement::AccessibilitySettings^ wintRtInstance); friend ::Windows::UI::ViewManagement::AccessibilitySettings^ UnwrapAccessibilitySettings(Handle value); friend bool IsAccessibilitySettingsWrapper(Handle value); }; Persistent AccessibilitySettings::s_constructorTemplate; v8::Handle WrapAccessibilitySettings(::Windows::UI::ViewManagement::AccessibilitySettings^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(AccessibilitySettings::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::AccessibilitySettings^ UnwrapAccessibilitySettings(Handle value) { return AccessibilitySettings::Unwrap(value.As())->_instance; } void InitAccessibilitySettings(Handle exports) { AccessibilitySettings::Init(exports); } class UISettings : public WrapperBase { public: static v8::Handle Init(const Handle exports) { HandleScope scope; s_constructorTemplate = Persistent::New(FunctionTemplate::New(New)); s_constructorTemplate->SetClassName(String::NewSymbol("UISettings")); s_constructorTemplate->InstanceTemplate()->SetInternalFieldCount(1); s_constructorTemplate->PrototypeTemplate()->Set(String::NewSymbol("uIElementColor"), FunctionTemplate::New(UIElementColor)->GetFunction()); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("animationsEnabled"), AnimationsEnabledGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("caretBlinkRate"), CaretBlinkRateGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("caretBrowsingEnabled"), CaretBrowsingEnabledGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("caretWidth"), CaretWidthGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("cursorSize"), CursorSizeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("doubleClickTime"), DoubleClickTimeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("handPreference"), HandPreferenceGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("messageDuration"), MessageDurationGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("mouseHoverTime"), MouseHoverTimeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("scrollBarArrowSize"), ScrollBarArrowSizeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("scrollBarSize"), ScrollBarSizeGetter); s_constructorTemplate->PrototypeTemplate()->SetAccessor(String::NewSymbol("scrollBarThumbBoxSize"), ScrollBarThumbBoxSizeGetter); Local constructor = s_constructorTemplate->GetFunction(); exports->Set(String::NewSymbol("UISettings"), constructor); return scope.Close(Undefined()); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: UISettings(::Windows::UI::ViewManagement::UISettings^ instance) { _instance = instance; } static v8::Handle New(const v8::Arguments& args) { HandleScope scope; // in case the constructor was called without the new operator if (!s_constructorTemplate->HasInstance(args.This())) { if (args.Length() > 0) { std::unique_ptr []> constructorArgs(new Handle[args.Length()]); Handle *argsPtr = constructorArgs.get(); for (int i = 0; i < args.Length(); i++) { argsPtr[i] = args[i]; } return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), constructorArgs.get()); } else { return s_constructorTemplate->GetFunction()->CallAsConstructor(args.Length(), nullptr); } } ::Windows::UI::ViewManagement::UISettings^ winRtInstance; if (args.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(args[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(args[0])) { try { winRtInstance = (::Windows::UI::ViewManagement::UISettings^) NodeRT::Utils::GetObjectInstance(args[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else if (args.Length() == 0) { try { winRtInstance = ref new ::Windows::UI::ViewManagement::UISettings(); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return scope.Close(Undefined()); } args.This()->SetHiddenValue(String::NewSymbol("__winRtInstance__"), True()); UISettings *wrapperInstance = new UISettings(winRtInstance); wrapperInstance->Wrap(args.This()); return args.This(); } static Handle UIElementColor(const v8::Arguments& args) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(args.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(args.This()); if (args.Length() == 1 && args[0]->IsInt32()) { try { ::Windows::UI::ViewManagement::UIElementType arg0 = static_cast<::Windows::UI::ViewManagement::UIElementType>(args[0]->Int32Value()); ::Windows::UI::Color result; result = wrapper->_instance->UIElementColor(arg0); return scope.Close(NodeRT::Utils::ColorToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } else { ThrowException(Exception::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return scope.Close(Undefined()); } return scope.Close(Undefined()); } static Handle AnimationsEnabledGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { bool result = wrapper->_instance->AnimationsEnabled; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle CaretBlinkRateGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { unsigned int result = wrapper->_instance->CaretBlinkRate; return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle CaretBrowsingEnabledGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { bool result = wrapper->_instance->CaretBrowsingEnabled; return scope.Close(Boolean::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle CaretWidthGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { unsigned int result = wrapper->_instance->CaretWidth; return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle CursorSizeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { ::Windows::Foundation::Size result = wrapper->_instance->CursorSize; return scope.Close(NodeRT::Utils::SizeToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle DoubleClickTimeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { unsigned int result = wrapper->_instance->DoubleClickTime; return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle HandPreferenceGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { ::Windows::UI::ViewManagement::HandPreference result = wrapper->_instance->HandPreference; return scope.Close(Integer::New(static_cast(result))); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle MessageDurationGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { unsigned int result = wrapper->_instance->MessageDuration; return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle MouseHoverTimeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { unsigned int result = wrapper->_instance->MouseHoverTime; return scope.Close(Integer::New(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle ScrollBarArrowSizeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { ::Windows::Foundation::Size result = wrapper->_instance->ScrollBarArrowSize; return scope.Close(NodeRT::Utils::SizeToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle ScrollBarSizeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { ::Windows::Foundation::Size result = wrapper->_instance->ScrollBarSize; return scope.Close(NodeRT::Utils::SizeToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } static Handle ScrollBarThumbBoxSizeGetter(Local property, const AccessorInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::UI::ViewManagement::UISettings^>(info.This())) { return scope.Close(Undefined()); } UISettings *wrapper = UISettings::Unwrap(info.This()); try { ::Windows::Foundation::Size result = wrapper->_instance->ScrollBarThumbBoxSize; return scope.Close(NodeRT::Utils::SizeToJs(result)); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return scope.Close(Undefined()); } } private: ::Windows::UI::ViewManagement::UISettings^ _instance; static Persistent s_constructorTemplate; friend v8::Handle WrapUISettings(::Windows::UI::ViewManagement::UISettings^ wintRtInstance); friend ::Windows::UI::ViewManagement::UISettings^ UnwrapUISettings(Handle value); friend bool IsUISettingsWrapper(Handle value); }; Persistent UISettings::s_constructorTemplate; v8::Handle WrapUISettings(::Windows::UI::ViewManagement::UISettings^ winRtInstance) { HandleScope scope; if (winRtInstance == nullptr) { return scope.Close(Undefined()); } Handle opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Handle args[] = {opaqueWrapper}; return scope.Close(UISettings::s_constructorTemplate->GetFunction()->NewInstance(_countof(args), args)); } ::Windows::UI::ViewManagement::UISettings^ UnwrapUISettings(Handle value) { return UISettings::Unwrap(value.As())->_instance; } void InitUISettings(Handle exports) { UISettings::Init(exports); } } } } } void init(Handle exports) { if (FAILED(CoInitializeEx(nullptr, COINIT_MULTITHREADED))) { ThrowException(v8::Exception::Error(NodeRT::Utils::NewString(L"error in CoInitializeEx()"))); return; } NodeRT::Windows::UI::ViewManagement::InitApplicationViewStateEnum(exports); NodeRT::Windows::UI::ViewManagement::InitApplicationViewOrientationEnum(exports); NodeRT::Windows::UI::ViewManagement::InitApplicationViewSwitchingOptionsEnum(exports); NodeRT::Windows::UI::ViewManagement::InitViewSizePreferenceEnum(exports); NodeRT::Windows::UI::ViewManagement::InitHandPreferenceEnum(exports); NodeRT::Windows::UI::ViewManagement::InitUIElementTypeEnum(exports); NodeRT::Windows::UI::ViewManagement::InitApplicationView(exports); NodeRT::Windows::UI::ViewManagement::InitApplicationViewConsolidatedEventArgs(exports); NodeRT::Windows::UI::ViewManagement::InitApplicationViewSwitcher(exports); NodeRT::Windows::UI::ViewManagement::InitProjectionManager(exports); NodeRT::Windows::UI::ViewManagement::InitInputPaneVisibilityEventArgs(exports); NodeRT::Windows::UI::ViewManagement::InitInputPane(exports); NodeRT::Windows::UI::ViewManagement::InitAccessibilitySettings(exports); NodeRT::Windows::UI::ViewManagement::InitUISettings(exports); NodeRT::Utils::RegisterNameSpace("Windows.UI.ViewManagement", exports); } NODE_MODULE(binding, init)