// Copyright (c) The NodeRT Contributors // 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. // TODO: Verify that this is is still needed.. #define NTDDI_VERSION 0x06010000 #include #include "nan.h" #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 v8::Array; using v8::String; using v8::Value; using v8::Boolean; using v8::Integer; using v8::FunctionTemplate; using v8::Object; using v8::Local; using v8::Function; using v8::Date; using v8::Number; using v8::PropertyAttribute; using v8::Primitive; using Nan::HandleScope; using Nan::Persistent; using Nan::Undefined; using Nan::True; using Nan::False; using Nan::Null; using Nan::MaybeLocal; using Nan::EscapableHandleScope; using Nan::HandleScope; using Nan::TryCatch; using namespace concurrency; namespace NodeRT { namespace Windows { namespace Devices { namespace Lights { v8::Local WrapLamp(::Windows::Devices::Lights::Lamp^ wintRtInstance); ::Windows::Devices::Lights::Lamp^ UnwrapLamp(Local value); v8::Local WrapLampArray(::Windows::Devices::Lights::LampArray^ wintRtInstance); ::Windows::Devices::Lights::LampArray^ UnwrapLampArray(Local value); v8::Local WrapLampAvailabilityChangedEventArgs(::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ wintRtInstance); ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ UnwrapLampAvailabilityChangedEventArgs(Local value); v8::Local WrapLampInfo(::Windows::Devices::Lights::LampInfo^ wintRtInstance); ::Windows::Devices::Lights::LampInfo^ UnwrapLampInfo(Local value); static void InitLampArrayKindEnum(const Local exports) { HandleScope scope; Local enumObject = Nan::New(); Nan::Set(exports, Nan::New("LampArrayKind").ToLocalChecked(), enumObject); Nan::Set(enumObject, Nan::New("undefined").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Undefined))); Nan::Set(enumObject, Nan::New("keyboard").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Keyboard))); Nan::Set(enumObject, Nan::New("mouse").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Mouse))); Nan::Set(enumObject, Nan::New("gameController").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::GameController))); Nan::Set(enumObject, Nan::New("peripheral").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Peripheral))); Nan::Set(enumObject, Nan::New("scene").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Scene))); Nan::Set(enumObject, Nan::New("notification").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Notification))); Nan::Set(enumObject, Nan::New("chassis").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Chassis))); Nan::Set(enumObject, Nan::New("wearable").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Wearable))); Nan::Set(enumObject, Nan::New("furniture").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Furniture))); Nan::Set(enumObject, Nan::New("art").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampArrayKind::Art))); } static void InitLampPurposesEnum(const Local exports) { HandleScope scope; Local enumObject = Nan::New(); Nan::Set(exports, Nan::New("LampPurposes").ToLocalChecked(), enumObject); Nan::Set(enumObject, Nan::New("undefined").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Undefined))); Nan::Set(enumObject, Nan::New("control").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Control))); Nan::Set(enumObject, Nan::New("accent").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Accent))); Nan::Set(enumObject, Nan::New("branding").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Branding))); Nan::Set(enumObject, Nan::New("status").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Status))); Nan::Set(enumObject, Nan::New("illumination").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Illumination))); Nan::Set(enumObject, Nan::New("presentation").ToLocalChecked(), Nan::New(static_cast(::Windows::Devices::Lights::LampPurposes::Presentation))); } static bool IsColorJsObject(Local value) { if (!value->IsObject()) { return false; } Local symbol; Local obj = Nan::To(value).ToLocalChecked(); return true; } ::Windows::UI::Color ColorFromJsObject(Local value) { HandleScope scope; ::Windows::UI::Color returnValue; if (!value->IsObject()) { Nan::ThrowError(Nan::TypeError(NodeRT::Utils::NewString(L"Unexpected type, expected an object"))); return returnValue; } Local obj = Nan::To(value).ToLocalChecked(); Local symbol; return returnValue; } Local ColorToJsObject(::Windows::UI::Color value) { EscapableHandleScope scope; Local obj = Nan::New(); return scope.Escape(obj); } static bool IsVector3JsObject(Local value) { if (!value->IsObject()) { return false; } Local symbol; Local obj = Nan::To(value).ToLocalChecked(); symbol = Nan::New("x").ToLocalChecked(); if (Nan::Has(obj, symbol).FromMaybe(false)) { if (!Nan::Get(obj,symbol).ToLocalChecked()->IsNumber()) { return false; } } symbol = Nan::New("y").ToLocalChecked(); if (Nan::Has(obj, symbol).FromMaybe(false)) { if (!Nan::Get(obj,symbol).ToLocalChecked()->IsNumber()) { return false; } } symbol = Nan::New("z").ToLocalChecked(); if (Nan::Has(obj, symbol).FromMaybe(false)) { if (!Nan::Get(obj,symbol).ToLocalChecked()->IsNumber()) { return false; } } return true; } ::Platform::Numerics::Vector3 Vector3FromJsObject(Local value) { HandleScope scope; ::Platform::Numerics::Vector3 returnValue; if (!value->IsObject()) { Nan::ThrowError(Nan::TypeError(NodeRT::Utils::NewString(L"Unexpected type, expected an object"))); return returnValue; } Local obj = Nan::To(value).ToLocalChecked(); Local symbol; symbol = Nan::New("x").ToLocalChecked(); if (Nan::Has(obj, symbol).FromMaybe(false)) { returnValue.X = static_cast(Nan::To(Nan::Get(obj,symbol).ToLocalChecked()).FromMaybe(0.0)); } symbol = Nan::New("y").ToLocalChecked(); if (Nan::Has(obj, symbol).FromMaybe(false)) { returnValue.Y = static_cast(Nan::To(Nan::Get(obj,symbol).ToLocalChecked()).FromMaybe(0.0)); } symbol = Nan::New("z").ToLocalChecked(); if (Nan::Has(obj, symbol).FromMaybe(false)) { returnValue.Z = static_cast(Nan::To(Nan::Get(obj,symbol).ToLocalChecked()).FromMaybe(0.0)); } return returnValue; } Local Vector3ToJsObject(::Platform::Numerics::Vector3 value) { EscapableHandleScope scope; Local obj = Nan::New(); Nan::Set(obj, Nan::New("x").ToLocalChecked(), Nan::New(static_cast(value.X))); Nan::Set(obj, Nan::New("y").ToLocalChecked(), Nan::New(static_cast(value.Y))); Nan::Set(obj, Nan::New("z").ToLocalChecked(), Nan::New(static_cast(value.Z))); return scope.Escape(obj); } class Lamp : public WrapperBase { public: static void Init(const Local exports) { HandleScope scope; Local localRef = Nan::New(New); s_constructorTemplate.Reset(localRef); localRef->SetClassName(Nan::New("Lamp").ToLocalChecked()); localRef->InstanceTemplate()->SetInternalFieldCount(1); Local func; Local funcTemplate; Nan::SetPrototypeMethod(localRef, "close", Close); Nan::SetPrototypeMethod(localRef,"addListener", AddListener); Nan::SetPrototypeMethod(localRef,"on", AddListener); Nan::SetPrototypeMethod(localRef,"removeListener", RemoveListener); Nan::SetPrototypeMethod(localRef, "off", RemoveListener); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("isEnabled").ToLocalChecked(), IsEnabledGetter, IsEnabledSetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("color").ToLocalChecked(), ColorGetter, ColorSetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("brightnessLevel").ToLocalChecked(), BrightnessLevelGetter, BrightnessLevelSetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("deviceId").ToLocalChecked(), DeviceIdGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("isColorSettable").ToLocalChecked(), IsColorSettableGetter); Local constructor = Nan::To(Nan::GetFunction(localRef).ToLocalChecked()).ToLocalChecked(); Nan::SetMethod(constructor, "castFrom", CastFrom); Nan::SetMethod(constructor, "getDeviceSelector", GetDeviceSelector); func = Nan::GetFunction(Nan::New(FromIdAsync)).ToLocalChecked(); Nan::Set(constructor, Nan::New("fromIdAsync").ToLocalChecked(), func); func = Nan::GetFunction(Nan::New(GetDefaultAsync)).ToLocalChecked(); Nan::Set(constructor, Nan::New("getDefaultAsync").ToLocalChecked(), func); Nan::Set(exports, Nan::New("Lamp").ToLocalChecked(), constructor); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: Lamp(::Windows::Devices::Lights::Lamp^ instance) { _instance = instance; } static void New(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; Local localRef = Nan::New(s_constructorTemplate); // in case the constructor was called without the new operator if (!localRef->HasInstance(info.This())) { if (info.Length() > 0) { std::unique_ptr []> constructorArgs(new Local[info.Length()]); Local *argsPtr = constructorArgs.get(); for (int i = 0; i < info.Length(); i++) { argsPtr[i] = info[i]; } MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), constructorArgs.get()); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } else { MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), nullptr); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } } ::Windows::Devices::Lights::Lamp^ winRtInstance; if (info.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(info[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info[0])) { try { winRtInstance = (::Windows::Devices::Lights::Lamp^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return; } NodeRT::Utils::SetHiddenValue(info.This(), Nan::New("__winRtInstance__").ToLocalChecked(), True()); Lamp *wrapperInstance = new Lamp(winRtInstance); wrapperInstance->Wrap(info.This()); info.GetReturnValue().Set(info.This()); } static void CastFrom(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() < 1 || !NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info[0])) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no object provided, or given object could not be casted to requested type"))); return; } ::Windows::Devices::Lights::Lamp^ winRtInstance; try { winRtInstance = (::Windows::Devices::Lights::Lamp^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } info.GetReturnValue().Set(WrapLamp(winRtInstance)); } static void Close(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); if (info.Length() == 0) { try { delete wrapper->_instance; wrapper->_instance = nullptr; return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void FromIdAsync(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() == 0 || !info[info.Length() -1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return; } ::Windows::Foundation::IAsyncOperation<::Windows::Devices::Lights::Lamp^>^ op; if (info.Length() == 2 && info[0]->IsString()) { try { Platform::String^ arg0 = ref new Platform::String(NodeRT::Utils::StringToWchar(v8::String::Value(v8::Isolate::GetCurrent(), info[0]))); op = ::Windows::Devices::Lights::Lamp::FromIdAsync(arg0); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(info[info.Length() -1].As()); opTask.then( [asyncToken] (task<::Windows::Devices::Lights::Lamp^> t) { try { auto result = t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [result](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error; Local arg1; { TryCatch tryCatch; arg1 = WrapLamp(result); if (tryCatch.HasCaught()) { error = Nan::To(tryCatch.Exception()).ToLocalChecked(); } else { error = Undefined(); } if (arg1.IsEmpty()) arg1 = Undefined(); } Local args[] = {error, arg1}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error = NodeRT::Utils::WinRtExceptionToJsError(exception); Local args[] = {error}; invokeCallback(_countof(args), args); }); } }); } static void GetDefaultAsync(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() == 0 || !info[info.Length() -1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return; } ::Windows::Foundation::IAsyncOperation<::Windows::Devices::Lights::Lamp^>^ op; if (info.Length() == 1) { try { op = ::Windows::Devices::Lights::Lamp::GetDefaultAsync(); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(info[info.Length() -1].As()); opTask.then( [asyncToken] (task<::Windows::Devices::Lights::Lamp^> t) { try { auto result = t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [result](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error; Local arg1; { TryCatch tryCatch; arg1 = WrapLamp(result); if (tryCatch.HasCaught()) { error = Nan::To(tryCatch.Exception()).ToLocalChecked(); } else { error = Undefined(); } if (arg1.IsEmpty()) arg1 = Undefined(); } Local args[] = {error, arg1}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error = NodeRT::Utils::WinRtExceptionToJsError(exception); Local args[] = {error}; invokeCallback(_countof(args), args); }); } }); } static void GetDeviceSelector(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() == 0) { try { Platform::String^ result; result = ::Windows::Devices::Lights::Lamp::GetDeviceSelector(); info.GetReturnValue().Set(NodeRT::Utils::NewString(result->Data())); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void IsEnabledGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { bool result = wrapper->_instance->IsEnabled; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void IsEnabledSetter(Local property, Local value, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!value->IsBoolean()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { bool winRtValue = Nan::To(value).FromMaybe(false); wrapper->_instance->IsEnabled = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static void ColorGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { ::Windows::UI::Color result = wrapper->_instance->Color; info.GetReturnValue().Set(NodeRT::Utils::ColorToJs(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void ColorSetter(Local property, Local value, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsColor(value)) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { ::Windows::UI::Color winRtValue = NodeRT::Utils::ColorFromJs(value); wrapper->_instance->Color = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static void BrightnessLevelGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { float result = wrapper->_instance->BrightnessLevel; info.GetReturnValue().Set(Nan::New(static_cast(result))); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void BrightnessLevelSetter(Local property, Local value, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!value->IsNumber()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { float winRtValue = static_cast(Nan::To(value).FromMaybe(0.0)); wrapper->_instance->BrightnessLevel = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static void DeviceIdGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { Platform::String^ result = wrapper->_instance->DeviceId; info.GetReturnValue().Set(NodeRT::Utils::NewString(result->Data())); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void IsColorSettableGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { bool result = wrapper->_instance->IsColorSettable; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void AddListener(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() < 2 || !info[0]->IsString() || !info[1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"wrong arguments, expected arguments are eventName(string),callback(function)"))); return; } String::Value eventName(v8::Isolate::GetCurrent(), info[0]); auto str = *eventName; Local callback = info[1].As(); ::Windows::Foundation::EventRegistrationToken registrationToken; if (NodeRT::Utils::CaseInsenstiveEquals(L"availabilityChanged", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return; } Lamp *wrapper = Lamp::Unwrap(info.This()); try { Persistent* perstPtr = new Persistent(); perstPtr->Reset(NodeRT::Utils::CreateCallbackObjectInDomain(callback)); std::shared_ptr> callbackObjPtr(perstPtr, [] (Persistent *ptr ) { NodeUtils::Async::RunOnMain([ptr]() { ptr->Reset(); delete ptr; }); }); registrationToken = wrapper->_instance->AvailabilityChanged::add( ref new ::Windows::Foundation::TypedEventHandler<::Windows::Devices::Lights::Lamp^, ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^>( [callbackObjPtr](::Windows::Devices::Lights::Lamp^ arg0, ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ arg1) { NodeUtils::Async::RunOnMain([callbackObjPtr , arg0, arg1]() { HandleScope scope; Local wrappedArg0; Local wrappedArg1; { TryCatch tryCatch; wrappedArg0 = WrapLamp(arg0); wrappedArg1 = WrapLampAvailabilityChangedEventArgs(arg1); if (wrappedArg0.IsEmpty()) wrappedArg0 = Undefined(); if (wrappedArg1.IsEmpty()) wrappedArg1 = Undefined(); } Local args[] = { wrappedArg0, wrappedArg1 }; Local callbackObjLocalRef = Nan::New(*callbackObjPtr); NodeRT::Utils::CallCallbackInDomain(callbackObjLocalRef, _countof(args), args); }); }) ); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(String::Concat(v8::Isolate::GetCurrent(), NodeRT::Utils::NewString(L"given event name isn't supported: "), info[0].As()))); return; } Local tokenMapVal = NodeRT::Utils::GetHiddenValue(callback, Nan::New(REGISTRATION_TOKEN_MAP_PROPERTY_NAME).ToLocalChecked()); Local tokenMap; if (tokenMapVal.IsEmpty() || Nan::Equals(tokenMapVal, Undefined()).FromMaybe(false)) { tokenMap = Nan::New(); NodeRT::Utils::SetHiddenValueWithObject(callback, Nan::New(REGISTRATION_TOKEN_MAP_PROPERTY_NAME).ToLocalChecked(), tokenMap); } else { tokenMap = Nan::To(tokenMapVal).ToLocalChecked(); } Nan::Set(tokenMap, info[0], CreateOpaqueWrapper(::Windows::Foundation::PropertyValue::CreateInt64(registrationToken.Value))); } static void RemoveListener(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() < 2 || !info[0]->IsString() || !info[1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"wrong arguments, expected a string and a callback"))); return; } String::Value eventName(v8::Isolate::GetCurrent(), info[0]); auto str = *eventName; if ((!NodeRT::Utils::CaseInsenstiveEquals(L"availabilityChanged", str))) { Nan::ThrowError(Nan::Error(String::Concat(v8::Isolate::GetCurrent(), NodeRT::Utils::NewString(L"given event name isn't supported: "), info[0].As()))); return; } Local callback = info[1].As(); Local tokenMap = NodeRT::Utils::GetHiddenValue(callback, Nan::New(REGISTRATION_TOKEN_MAP_PROPERTY_NAME).ToLocalChecked()); if (tokenMap.IsEmpty() || Nan::Equals(tokenMap, Undefined()).FromMaybe(false)) { return; } Local opaqueWrapperObj = Nan::Get(Nan::To(tokenMap).ToLocalChecked(), info[0]).ToLocalChecked(); if (opaqueWrapperObj.IsEmpty() || Nan::Equals(opaqueWrapperObj,Undefined()).FromMaybe(false)) { return; } 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"availabilityChanged", str)) { if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::Lamp^>(info.This())) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"The caller of this method isn't of the expected type or internal WinRt object was disposed"))); return; } Lamp *wrapper = Lamp::Unwrap(info.This()); wrapper->_instance->AvailabilityChanged::remove(registrationToken); } } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } Nan::Delete(Nan::To(tokenMap).ToLocalChecked(), Nan::To(info[0]).ToLocalChecked()); } private: ::Windows::Devices::Lights::Lamp^ _instance; static Persistent s_constructorTemplate; friend v8::Local WrapLamp(::Windows::Devices::Lights::Lamp^ wintRtInstance); friend ::Windows::Devices::Lights::Lamp^ UnwrapLamp(Local value); }; Persistent Lamp::s_constructorTemplate; v8::Local WrapLamp(::Windows::Devices::Lights::Lamp^ winRtInstance) { EscapableHandleScope scope; if (winRtInstance == nullptr) { return scope.Escape(Undefined()); } Local opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Local args[] = {opaqueWrapper}; Local localRef = Nan::New(Lamp::s_constructorTemplate); return scope.Escape(Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(),_countof(args), args).ToLocalChecked()); } ::Windows::Devices::Lights::Lamp^ UnwrapLamp(Local value) { return Lamp::Unwrap(Nan::To(value).ToLocalChecked())->_instance; } void InitLamp(Local exports) { Lamp::Init(exports); } class LampArray : public WrapperBase { public: static void Init(const Local exports) { HandleScope scope; Local localRef = Nan::New(New); s_constructorTemplate.Reset(localRef); localRef->SetClassName(Nan::New("LampArray").ToLocalChecked()); localRef->InstanceTemplate()->SetInternalFieldCount(1); Local func; Local funcTemplate; Nan::SetPrototypeMethod(localRef, "getLampInfo", GetLampInfo); Nan::SetPrototypeMethod(localRef, "getIndicesForKey", GetIndicesForKey); Nan::SetPrototypeMethod(localRef, "getIndicesForPurposes", GetIndicesForPurposes); Nan::SetPrototypeMethod(localRef, "setColor", SetColor); Nan::SetPrototypeMethod(localRef, "setColorForIndex", SetColorForIndex); Nan::SetPrototypeMethod(localRef, "setSingleColorForIndices", SetSingleColorForIndices); Nan::SetPrototypeMethod(localRef, "setColorsForIndices", SetColorsForIndices); Nan::SetPrototypeMethod(localRef, "setColorsForKey", SetColorsForKey); Nan::SetPrototypeMethod(localRef, "setColorsForKeys", SetColorsForKeys); Nan::SetPrototypeMethod(localRef, "setColorsForPurposes", SetColorsForPurposes); Nan::SetPrototypeMethod(localRef, "sendMessageAsync", SendMessageAsync); Nan::SetPrototypeMethod(localRef, "requestMessageAsync", RequestMessageAsync); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("isEnabled").ToLocalChecked(), IsEnabledGetter, IsEnabledSetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("brightnessLevel").ToLocalChecked(), BrightnessLevelGetter, BrightnessLevelSetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("boundingBox").ToLocalChecked(), BoundingBoxGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("deviceId").ToLocalChecked(), DeviceIdGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("hardwareProductId").ToLocalChecked(), HardwareProductIdGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("hardwareVendorId").ToLocalChecked(), HardwareVendorIdGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("hardwareVersion").ToLocalChecked(), HardwareVersionGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("isConnected").ToLocalChecked(), IsConnectedGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("lampArrayKind").ToLocalChecked(), LampArrayKindGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("lampCount").ToLocalChecked(), LampCountGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("minUpdateInterval").ToLocalChecked(), MinUpdateIntervalGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("supportsVirtualKeys").ToLocalChecked(), SupportsVirtualKeysGetter); Local constructor = Nan::To(Nan::GetFunction(localRef).ToLocalChecked()).ToLocalChecked(); Nan::SetMethod(constructor, "castFrom", CastFrom); Nan::SetMethod(constructor, "getDeviceSelector", GetDeviceSelector); func = Nan::GetFunction(Nan::New(FromIdAsync)).ToLocalChecked(); Nan::Set(constructor, Nan::New("fromIdAsync").ToLocalChecked(), func); Nan::Set(exports, Nan::New("LampArray").ToLocalChecked(), constructor); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: LampArray(::Windows::Devices::Lights::LampArray^ instance) { _instance = instance; } static void New(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; Local localRef = Nan::New(s_constructorTemplate); // in case the constructor was called without the new operator if (!localRef->HasInstance(info.This())) { if (info.Length() > 0) { std::unique_ptr []> constructorArgs(new Local[info.Length()]); Local *argsPtr = constructorArgs.get(); for (int i = 0; i < info.Length(); i++) { argsPtr[i] = info[i]; } MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), constructorArgs.get()); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } else { MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), nullptr); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } } ::Windows::Devices::Lights::LampArray^ winRtInstance; if (info.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(info[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info[0])) { try { winRtInstance = (::Windows::Devices::Lights::LampArray^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return; } NodeRT::Utils::SetHiddenValue(info.This(), Nan::New("__winRtInstance__").ToLocalChecked(), True()); LampArray *wrapperInstance = new LampArray(winRtInstance); wrapperInstance->Wrap(info.This()); info.GetReturnValue().Set(info.This()); } static void CastFrom(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() < 1 || !NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info[0])) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no object provided, or given object could not be casted to requested type"))); return; } ::Windows::Devices::Lights::LampArray^ winRtInstance; try { winRtInstance = (::Windows::Devices::Lights::LampArray^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } info.GetReturnValue().Set(WrapLampArray(winRtInstance)); } static void SendMessageAsync(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } if (info.Length() == 0 || !info[info.Length() -1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return; } LampArray *wrapper = LampArray::Unwrap(info.This()); ::Windows::Foundation::IAsyncAction^ op; if (info.Length() == 3 && info[0]->IsInt32() && NodeRT::Utils::IsWinRtWrapperOf<::Windows::Storage::Streams::IBuffer^>(info[1])) { try { int arg0 = static_cast(Nan::To(info[0]).FromMaybe(0)); ::Windows::Storage::Streams::IBuffer^ arg1 = dynamic_cast<::Windows::Storage::Streams::IBuffer^>(NodeRT::Utils::GetObjectInstance(info[1])); op = wrapper->_instance->SendMessageAsync(arg0,arg1); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(info[info.Length() -1].As()); opTask.then( [asyncToken] (task t) { try { t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local args[] = {Undefined()}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error = NodeRT::Utils::WinRtExceptionToJsError(exception); Local args[] = {error}; invokeCallback(_countof(args), args); }); } }); } static void RequestMessageAsync(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } if (info.Length() == 0 || !info[info.Length() -1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return; } LampArray *wrapper = LampArray::Unwrap(info.This()); ::Windows::Foundation::IAsyncOperation<::Windows::Storage::Streams::IBuffer^>^ op; if (info.Length() == 2 && info[0]->IsInt32()) { try { int arg0 = static_cast(Nan::To(info[0]).FromMaybe(0)); op = wrapper->_instance->RequestMessageAsync(arg0); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(info[info.Length() -1].As()); opTask.then( [asyncToken] (task<::Windows::Storage::Streams::IBuffer^> t) { try { auto result = t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [result](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error; Local arg1; { TryCatch tryCatch; arg1 = NodeRT::Utils::CreateExternalWinRTObject("Windows.Storage.Streams", "IBuffer", result); if (tryCatch.HasCaught()) { error = Nan::To(tryCatch.Exception()).ToLocalChecked(); } else { error = Undefined(); } if (arg1.IsEmpty()) arg1 = Undefined(); } Local args[] = {error, arg1}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error = NodeRT::Utils::WinRtExceptionToJsError(exception); Local args[] = {error}; invokeCallback(_countof(args), args); }); } }); } static void GetLampInfo(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 1 && info[0]->IsInt32()) { try { int arg0 = static_cast(Nan::To(info[0]).FromMaybe(0)); ::Windows::Devices::Lights::LampInfo^ result; result = wrapper->_instance->GetLampInfo(arg0); info.GetReturnValue().Set(WrapLampInfo(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void GetIndicesForKey(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 1 && info[0]->IsInt32()) { try { ::Windows::System::VirtualKey arg0 = static_cast<::Windows::System::VirtualKey>(Nan::To(info[0]).FromMaybe(0)); ::Platform::Array^ result; result = wrapper->_instance->GetIndicesForKey(arg0); info.GetReturnValue().Set(NodeRT::Collections::ArrayWrapper::CreateArrayWrapper(result, [](int val) -> Local { return Nan::New(val); }, [](Local value) -> bool { return value->IsInt32(); }, [](Local value) -> int { return static_cast(Nan::To(value).FromMaybe(0)); } )); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void GetIndicesForPurposes(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 1 && info[0]->IsInt32()) { try { ::Windows::Devices::Lights::LampPurposes arg0 = static_cast<::Windows::Devices::Lights::LampPurposes>(Nan::To(info[0]).FromMaybe(0)); ::Platform::Array^ result; result = wrapper->_instance->GetIndicesForPurposes(arg0); info.GetReturnValue().Set(NodeRT::Collections::ArrayWrapper::CreateArrayWrapper(result, [](int val) -> Local { return Nan::New(val); }, [](Local value) -> bool { return value->IsInt32(); }, [](Local value) -> int { return static_cast(Nan::To(value).FromMaybe(0)); } )); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetColor(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 1 && NodeRT::Utils::IsColor(info[0])) { try { ::Windows::UI::Color arg0 = NodeRT::Utils::ColorFromJs(info[0]); wrapper->_instance->SetColor(arg0); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetColorForIndex(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 2 && info[0]->IsInt32() && NodeRT::Utils::IsColor(info[1])) { try { int arg0 = static_cast(Nan::To(info[0]).FromMaybe(0)); ::Windows::UI::Color arg1 = NodeRT::Utils::ColorFromJs(info[1]); wrapper->_instance->SetColorForIndex(arg0, arg1); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetSingleColorForIndices(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 2 && NodeRT::Utils::IsColor(info[0]) && (NodeRT::Utils::IsWinRtWrapperOf<::Platform::Array^>(info[1]) || info[1]->IsArray())) { try { ::Windows::UI::Color arg0 = NodeRT::Utils::ColorFromJs(info[0]); ::Platform::Array^ arg1 = [] (v8::Local value) -> ::Platform::Array^ { if (value->IsArray()) { return NodeRT::Collections::JsArrayToWinrtArray(value.As(), [](Local value) -> bool { return value->IsInt32(); }, [](Local value) -> int { return static_cast(Nan::To(value).FromMaybe(0)); } ); } else { return dynamic_cast<::Platform::Array^>(NodeRT::Utils::GetObjectInstance(value)); } } (info[1]); wrapper->_instance->SetSingleColorForIndices(arg0, arg1); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetColorsForIndices(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 2 && (NodeRT::Utils::IsWinRtWrapperOf<::Platform::Array<::Windows::UI::Color>^>(info[0]) || info[0]->IsArray()) && (NodeRT::Utils::IsWinRtWrapperOf<::Platform::Array^>(info[1]) || info[1]->IsArray())) { try { ::Platform::Array<::Windows::UI::Color>^ arg0 = [] (v8::Local value) -> ::Platform::Array<::Windows::UI::Color>^ { if (value->IsArray()) { return NodeRT::Collections::JsArrayToWinrtArray<::Windows::UI::Color>(value.As(), [](Local value) -> bool { return NodeRT::Utils::IsColor(value); }, [](Local value) -> ::Windows::UI::Color { return NodeRT::Utils::ColorFromJs(value); } ); } else { return dynamic_cast<::Platform::Array<::Windows::UI::Color>^>(NodeRT::Utils::GetObjectInstance(value)); } } (info[0]); ::Platform::Array^ arg1 = [] (v8::Local value) -> ::Platform::Array^ { if (value->IsArray()) { return NodeRT::Collections::JsArrayToWinrtArray(value.As(), [](Local value) -> bool { return value->IsInt32(); }, [](Local value) -> int { return static_cast(Nan::To(value).FromMaybe(0)); } ); } else { return dynamic_cast<::Platform::Array^>(NodeRT::Utils::GetObjectInstance(value)); } } (info[1]); wrapper->_instance->SetColorsForIndices(arg0, arg1); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetColorsForKey(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 2 && NodeRT::Utils::IsColor(info[0]) && info[1]->IsInt32()) { try { ::Windows::UI::Color arg0 = NodeRT::Utils::ColorFromJs(info[0]); ::Windows::System::VirtualKey arg1 = static_cast<::Windows::System::VirtualKey>(Nan::To(info[1]).FromMaybe(0)); wrapper->_instance->SetColorsForKey(arg0, arg1); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetColorsForKeys(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 2 && (NodeRT::Utils::IsWinRtWrapperOf<::Platform::Array<::Windows::UI::Color>^>(info[0]) || info[0]->IsArray()) && (NodeRT::Utils::IsWinRtWrapperOf<::Platform::Array<::Windows::Platform::VirtualKey>^>(info[1]) || info[1]->IsArray())) { try { ::Platform::Array<::Windows::UI::Color>^ arg0 = [] (v8::Local value) -> ::Platform::Array<::Windows::UI::Color>^ { if (value->IsArray()) { return NodeRT::Collections::JsArrayToWinrtArray<::Windows::UI::Color>(value.As(), [](Local value) -> bool { return NodeRT::Utils::IsColor(value); }, [](Local value) -> ::Windows::UI::Color { return NodeRT::Utils::ColorFromJs(value); } ); } else { return dynamic_cast<::Platform::Array<::Windows::UI::Color>^>(NodeRT::Utils::GetObjectInstance(value)); } } (info[0]); ::Platform::Array<::Windows::Platform::VirtualKey>^ arg1 = [] (v8::Local value) -> ::Platform::Array<::Windows::Platform::VirtualKey>^ { if (value->IsArray()) { return NodeRT::Collections::JsArrayToWinrtArray<::Windows::System::VirtualKey>(value.As(), [](Local value) -> bool { return value->IsInt32(); }, [](Local value) -> ::Windows::System::VirtualKey { return static_cast<::Windows::System::VirtualKey>(Nan::To(value).FromMaybe(0)); } ); } else { return dynamic_cast<::Platform::Array<::Windows::Platform::VirtualKey>^>(NodeRT::Utils::GetObjectInstance(value)); } } (info[1]); wrapper->_instance->SetColorsForKeys(arg0, arg1); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void SetColorsForPurposes(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); if (info.Length() == 2 && NodeRT::Utils::IsColor(info[0]) && info[1]->IsInt32()) { try { ::Windows::UI::Color arg0 = NodeRT::Utils::ColorFromJs(info[0]); ::Windows::Devices::Lights::LampPurposes arg1 = static_cast<::Windows::Devices::Lights::LampPurposes>(Nan::To(info[1]).FromMaybe(0)); wrapper->_instance->SetColorsForPurposes(arg0, arg1); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void FromIdAsync(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() == 0 || !info[info.Length() -1]->IsFunction()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: No callback was given"))); return; } ::Windows::Foundation::IAsyncOperation<::Windows::Devices::Lights::LampArray^>^ op; if (info.Length() == 2 && info[0]->IsString()) { try { Platform::String^ arg0 = ref new Platform::String(NodeRT::Utils::StringToWchar(v8::String::Value(v8::Isolate::GetCurrent(), info[0]))); op = ::Windows::Devices::Lights::LampArray::FromIdAsync(arg0); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } auto opTask = create_task(op); uv_async_t* asyncToken = NodeUtils::Async::GetAsyncToken(info[info.Length() -1].As()); opTask.then( [asyncToken] (task<::Windows::Devices::Lights::LampArray^> t) { try { auto result = t.get(); NodeUtils::Async::RunCallbackOnMain(asyncToken, [result](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error; Local arg1; { TryCatch tryCatch; arg1 = WrapLampArray(result); if (tryCatch.HasCaught()) { error = Nan::To(tryCatch.Exception()).ToLocalChecked(); } else { error = Undefined(); } if (arg1.IsEmpty()) arg1 = Undefined(); } Local args[] = {error, arg1}; invokeCallback(_countof(args), args); }); } catch (Platform::Exception^ exception) { NodeUtils::Async::RunCallbackOnMain(asyncToken, [exception](NodeUtils::InvokeCallbackDelegate invokeCallback) { Local error = NodeRT::Utils::WinRtExceptionToJsError(exception); Local args[] = {error}; invokeCallback(_countof(args), args); }); } }); } static void GetDeviceSelector(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() == 0) { try { Platform::String^ result; result = ::Windows::Devices::Lights::LampArray::GetDeviceSelector(); info.GetReturnValue().Set(NodeRT::Utils::NewString(result->Data())); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void IsEnabledGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { bool result = wrapper->_instance->IsEnabled; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void IsEnabledSetter(Local property, Local value, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!value->IsBoolean()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { bool winRtValue = Nan::To(value).FromMaybe(false); wrapper->_instance->IsEnabled = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static void BrightnessLevelGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { double result = wrapper->_instance->BrightnessLevel; info.GetReturnValue().Set(Nan::New(static_cast(result))); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void BrightnessLevelSetter(Local property, Local value, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!value->IsNumber()) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Value to set is of unexpected type"))); return; } if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { double winRtValue = Nan::To(value).FromMaybe(0.0); wrapper->_instance->BrightnessLevel = winRtValue; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); } } static void BoundingBoxGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { ::Platform::Numerics::Vector3 result = wrapper->_instance->BoundingBox; info.GetReturnValue().Set(Vector3ToJsObject(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void DeviceIdGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { Platform::String^ result = wrapper->_instance->DeviceId; info.GetReturnValue().Set(NodeRT::Utils::NewString(result->Data())); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void HardwareProductIdGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { unsigned short result = wrapper->_instance->HardwareProductId; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void HardwareVendorIdGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { unsigned short result = wrapper->_instance->HardwareVendorId; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void HardwareVersionGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { unsigned short result = wrapper->_instance->HardwareVersion; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void IsConnectedGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { bool result = wrapper->_instance->IsConnected; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void LampArrayKindGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { ::Windows::Devices::Lights::LampArrayKind result = wrapper->_instance->LampArrayKind; info.GetReturnValue().Set(Nan::New(static_cast(result))); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void LampCountGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { int result = wrapper->_instance->LampCount; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void MinUpdateIntervalGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { ::Windows::Foundation::TimeSpan result = wrapper->_instance->MinUpdateInterval; info.GetReturnValue().Set(Nan::New(result.Duration/10000.0)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void SupportsVirtualKeysGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampArray^>(info.This())) { return; } LampArray *wrapper = LampArray::Unwrap(info.This()); try { bool result = wrapper->_instance->SupportsVirtualKeys; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } private: ::Windows::Devices::Lights::LampArray^ _instance; static Persistent s_constructorTemplate; friend v8::Local WrapLampArray(::Windows::Devices::Lights::LampArray^ wintRtInstance); friend ::Windows::Devices::Lights::LampArray^ UnwrapLampArray(Local value); }; Persistent LampArray::s_constructorTemplate; v8::Local WrapLampArray(::Windows::Devices::Lights::LampArray^ winRtInstance) { EscapableHandleScope scope; if (winRtInstance == nullptr) { return scope.Escape(Undefined()); } Local opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Local args[] = {opaqueWrapper}; Local localRef = Nan::New(LampArray::s_constructorTemplate); return scope.Escape(Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(),_countof(args), args).ToLocalChecked()); } ::Windows::Devices::Lights::LampArray^ UnwrapLampArray(Local value) { return LampArray::Unwrap(Nan::To(value).ToLocalChecked())->_instance; } void InitLampArray(Local exports) { LampArray::Init(exports); } class LampAvailabilityChangedEventArgs : public WrapperBase { public: static void Init(const Local exports) { HandleScope scope; Local localRef = Nan::New(New); s_constructorTemplate.Reset(localRef); localRef->SetClassName(Nan::New("LampAvailabilityChangedEventArgs").ToLocalChecked()); localRef->InstanceTemplate()->SetInternalFieldCount(1); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("isAvailable").ToLocalChecked(), IsAvailableGetter); Local constructor = Nan::To(Nan::GetFunction(localRef).ToLocalChecked()).ToLocalChecked(); Nan::SetMethod(constructor, "castFrom", CastFrom); Nan::Set(exports, Nan::New("LampAvailabilityChangedEventArgs").ToLocalChecked(), constructor); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: LampAvailabilityChangedEventArgs(::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ instance) { _instance = instance; } static void New(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; Local localRef = Nan::New(s_constructorTemplate); // in case the constructor was called without the new operator if (!localRef->HasInstance(info.This())) { if (info.Length() > 0) { std::unique_ptr []> constructorArgs(new Local[info.Length()]); Local *argsPtr = constructorArgs.get(); for (int i = 0; i < info.Length(); i++) { argsPtr[i] = info[i]; } MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), constructorArgs.get()); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } else { MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), nullptr); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } } ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ winRtInstance; if (info.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(info[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^>(info[0])) { try { winRtInstance = (::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return; } NodeRT::Utils::SetHiddenValue(info.This(), Nan::New("__winRtInstance__").ToLocalChecked(), True()); LampAvailabilityChangedEventArgs *wrapperInstance = new LampAvailabilityChangedEventArgs(winRtInstance); wrapperInstance->Wrap(info.This()); info.GetReturnValue().Set(info.This()); } static void CastFrom(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() < 1 || !NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^>(info[0])) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no object provided, or given object could not be casted to requested type"))); return; } ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ winRtInstance; try { winRtInstance = (::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } info.GetReturnValue().Set(WrapLampAvailabilityChangedEventArgs(winRtInstance)); } static void IsAvailableGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^>(info.This())) { return; } LampAvailabilityChangedEventArgs *wrapper = LampAvailabilityChangedEventArgs::Unwrap(info.This()); try { bool result = wrapper->_instance->IsAvailable; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } private: ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ _instance; static Persistent s_constructorTemplate; friend v8::Local WrapLampAvailabilityChangedEventArgs(::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ wintRtInstance); friend ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ UnwrapLampAvailabilityChangedEventArgs(Local value); }; Persistent LampAvailabilityChangedEventArgs::s_constructorTemplate; v8::Local WrapLampAvailabilityChangedEventArgs(::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ winRtInstance) { EscapableHandleScope scope; if (winRtInstance == nullptr) { return scope.Escape(Undefined()); } Local opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Local args[] = {opaqueWrapper}; Local localRef = Nan::New(LampAvailabilityChangedEventArgs::s_constructorTemplate); return scope.Escape(Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(),_countof(args), args).ToLocalChecked()); } ::Windows::Devices::Lights::LampAvailabilityChangedEventArgs^ UnwrapLampAvailabilityChangedEventArgs(Local value) { return LampAvailabilityChangedEventArgs::Unwrap(Nan::To(value).ToLocalChecked())->_instance; } void InitLampAvailabilityChangedEventArgs(Local exports) { LampAvailabilityChangedEventArgs::Init(exports); } class LampInfo : public WrapperBase { public: static void Init(const Local exports) { HandleScope scope; Local localRef = Nan::New(New); s_constructorTemplate.Reset(localRef); localRef->SetClassName(Nan::New("LampInfo").ToLocalChecked()); localRef->InstanceTemplate()->SetInternalFieldCount(1); Nan::SetPrototypeMethod(localRef, "getNearestSupportedColor", GetNearestSupportedColor); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("blueLevelCount").ToLocalChecked(), BlueLevelCountGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("fixedColor").ToLocalChecked(), FixedColorGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("gainLevelCount").ToLocalChecked(), GainLevelCountGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("greenLevelCount").ToLocalChecked(), GreenLevelCountGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("index").ToLocalChecked(), IndexGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("position").ToLocalChecked(), PositionGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("purposes").ToLocalChecked(), PurposesGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("redLevelCount").ToLocalChecked(), RedLevelCountGetter); Nan::SetAccessor(localRef->PrototypeTemplate(), Nan::New("updateLatency").ToLocalChecked(), UpdateLatencyGetter); Local constructor = Nan::To(Nan::GetFunction(localRef).ToLocalChecked()).ToLocalChecked(); Nan::SetMethod(constructor, "castFrom", CastFrom); Nan::Set(exports, Nan::New("LampInfo").ToLocalChecked(), constructor); } virtual ::Platform::Object^ GetObjectInstance() const override { return _instance; } private: LampInfo(::Windows::Devices::Lights::LampInfo^ instance) { _instance = instance; } static void New(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; Local localRef = Nan::New(s_constructorTemplate); // in case the constructor was called without the new operator if (!localRef->HasInstance(info.This())) { if (info.Length() > 0) { std::unique_ptr []> constructorArgs(new Local[info.Length()]); Local *argsPtr = constructorArgs.get(); for (int i = 0; i < info.Length(); i++) { argsPtr[i] = info[i]; } MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), constructorArgs.get()); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } else { MaybeLocal res = Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(), info.Length(), nullptr); if (res.IsEmpty()) { return; } info.GetReturnValue().Set(res.ToLocalChecked()); return; } } ::Windows::Devices::Lights::LampInfo^ winRtInstance; if (info.Length() == 1 && OpaqueWrapper::IsOpaqueWrapper(info[0]) && NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info[0])) { try { winRtInstance = (::Windows::Devices::Lights::LampInfo^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no suitable constructor found"))); return; } NodeRT::Utils::SetHiddenValue(info.This(), Nan::New("__winRtInstance__").ToLocalChecked(), True()); LampInfo *wrapperInstance = new LampInfo(winRtInstance); wrapperInstance->Wrap(info.This()); info.GetReturnValue().Set(info.This()); } static void CastFrom(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (info.Length() < 1 || !NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info[0])) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Invalid arguments, no object provided, or given object could not be casted to requested type"))); return; } ::Windows::Devices::Lights::LampInfo^ winRtInstance; try { winRtInstance = (::Windows::Devices::Lights::LampInfo^) NodeRT::Utils::GetObjectInstance(info[0]); } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } info.GetReturnValue().Set(WrapLampInfo(winRtInstance)); } static void GetNearestSupportedColor(Nan::NAN_METHOD_ARGS_TYPE info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); if (info.Length() == 1 && NodeRT::Utils::IsColor(info[0])) { try { ::Windows::UI::Color arg0 = NodeRT::Utils::ColorFromJs(info[0]); ::Windows::UI::Color result; result = wrapper->_instance->GetNearestSupportedColor(arg0); info.GetReturnValue().Set(NodeRT::Utils::ColorToJs(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } else { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"Bad arguments: no suitable overload found"))); return; } } static void BlueLevelCountGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { int result = wrapper->_instance->BlueLevelCount; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void FixedColorGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { ::Platform::IBox<::Windows::UI::Color>^ result = wrapper->_instance->FixedColor; info.GetReturnValue().Set(result ? static_cast>(NodeRT::Utils::ColorToJs(result->Value)) : Undefined()); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void GainLevelCountGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { int result = wrapper->_instance->GainLevelCount; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void GreenLevelCountGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { int result = wrapper->_instance->GreenLevelCount; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void IndexGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { int result = wrapper->_instance->Index; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void PositionGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { ::Platform::Numerics::Vector3 result = wrapper->_instance->Position; info.GetReturnValue().Set(Vector3ToJsObject(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void PurposesGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { ::Windows::Devices::Lights::LampPurposes result = wrapper->_instance->Purposes; info.GetReturnValue().Set(Nan::New(static_cast(result))); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void RedLevelCountGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { int result = wrapper->_instance->RedLevelCount; info.GetReturnValue().Set(Nan::New(result)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } static void UpdateLatencyGetter(Local property, const Nan::PropertyCallbackInfo &info) { HandleScope scope; if (!NodeRT::Utils::IsWinRtWrapperOf<::Windows::Devices::Lights::LampInfo^>(info.This())) { return; } LampInfo *wrapper = LampInfo::Unwrap(info.This()); try { ::Windows::Foundation::TimeSpan result = wrapper->_instance->UpdateLatency; info.GetReturnValue().Set(Nan::New(result.Duration/10000.0)); return; } catch (Platform::Exception ^exception) { NodeRT::Utils::ThrowWinRtExceptionInJs(exception); return; } } private: ::Windows::Devices::Lights::LampInfo^ _instance; static Persistent s_constructorTemplate; friend v8::Local WrapLampInfo(::Windows::Devices::Lights::LampInfo^ wintRtInstance); friend ::Windows::Devices::Lights::LampInfo^ UnwrapLampInfo(Local value); }; Persistent LampInfo::s_constructorTemplate; v8::Local WrapLampInfo(::Windows::Devices::Lights::LampInfo^ winRtInstance) { EscapableHandleScope scope; if (winRtInstance == nullptr) { return scope.Escape(Undefined()); } Local opaqueWrapper = CreateOpaqueWrapper(winRtInstance); Local args[] = {opaqueWrapper}; Local localRef = Nan::New(LampInfo::s_constructorTemplate); return scope.Escape(Nan::NewInstance(Nan::GetFunction(localRef).ToLocalChecked(),_countof(args), args).ToLocalChecked()); } ::Windows::Devices::Lights::LampInfo^ UnwrapLampInfo(Local value) { return LampInfo::Unwrap(Nan::To(value).ToLocalChecked())->_instance; } void InitLampInfo(Local exports) { LampInfo::Init(exports); } } } } } NAN_MODULE_INIT(init) { // We ignore failures for now since it probably means that // the initialization already happened for STA, and that's cool CoInitializeEx(nullptr, COINIT_MULTITHREADED); /* if (FAILED(CoInitializeEx(nullptr, COINIT_MULTITHREADED))) { Nan::ThrowError(Nan::Error(NodeRT::Utils::NewString(L"error in CoInitializeEx()"))); return; } */ NodeRT::Windows::Devices::Lights::InitLampArrayKindEnum(target); NodeRT::Windows::Devices::Lights::InitLampPurposesEnum(target); NodeRT::Windows::Devices::Lights::InitLamp(target); NodeRT::Windows::Devices::Lights::InitLampArray(target); NodeRT::Windows::Devices::Lights::InitLampAvailabilityChangedEventArgs(target); NodeRT::Windows::Devices::Lights::InitLampInfo(target); NodeRT::Utils::RegisterNameSpace("Windows.Devices.Lights", target); } NODE_MODULE(binding, init)