Exemplo n.º 1
0
void CALLBACK dispatchEvents(SIMCONNECT_RECV*  pData, DWORD  cbData, void *  pContext)
{
	HRESULT hr;

	switch (pData->dwID)
	{
	case SIMCONNECT_RECV_ID_EVENT:
	{
		SIMCONNECT_RECV_EVENT *evt = (SIMCONNECT_RECV_EVENT*)pData;

		switch (evt->uEventID)
		{
		case STARTUP:
			stats.lastDeleted = 0;
			stats.nrOfDeletions = 0;
			stats.nrOfRequests = 0;
			// Now the sim is running, request information on the user aircraft
			hr = SimConnect_RequestDataOnSimObjectType(hSimConnect, R1, AIPARKDATA, conf.radius, SIMCONNECT_SIMOBJECT_TYPE_AIRCRAFT);
			++stats.nrOfRequests;
			break;


		case R2:
			fsecCnt++;

			if (fsecCnt >= (conf.requestEveryXSec/4))
			{
				fsecCnt = 0;
				if (SUCCEEDED(SimConnect_RequestDataOnSimObjectType(hSimConnect, R1, AIPARKDATA, conf.radius, SIMCONNECT_SIMOBJECT_TYPE_AIRCRAFT)))
				{
					++stats.nrOfRequests;
				}
			}
			break;

		case MENU:
			getMenu(menu, sizeof(menu));
			SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
			break;

		case SELECTION:
			res = (SIMCONNECT_TEXT_RESULT)(evt->dwData);
			switch (res) {
			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_1:
				if (conf.requestEveryXSec < 3600)
				{
					conf.requestEveryXSec += 30;
				}
				getMenu(menu, sizeof(menu));
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
				break;

			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_2:
				if (conf.requestEveryXSec > 45)
				{
					conf.requestEveryXSec -= 30;
				}
				getMenu(menu, sizeof(menu));
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
				break;

			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_3:
				if (conf.radius < 190000)
				{
					conf.radius += 5000;
				}
				getMenu(menu, sizeof(menu));
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
				break;

			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_4:
				if (conf.radius > 5000)
				{
					conf.radius -= 5000;
				}
				getMenu(menu, sizeof(menu));
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
				break;

			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_5:
				if (conf.maxetd > 5400)
				{
					conf.maxetd -= 3600;
				}
				getMenu(menu, sizeof(menu));
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
				break;


			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_6:
				if (conf.maxetd < 7*86400) // must be smaller than a week
				{
					conf.maxetd += 3600;
				}
				getMenu(menu, sizeof(menu));
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(menu), (void*)menu);
				break;

			case SIMCONNECT_TEXT_RESULT_MENU_SELECT_8:
				SimConnect_Text(hSimConnect, SIMCONNECT_TEXT_TYPE_MENU, 0, SELECTION, sizeof(empty), (void*)empty);
				break;
			default: //default cannot be close as displayed is also an event
				break;
			}
			saveConfig(conf);
			break;
		default:
			break;
		}
		break;
	}


	case SIMCONNECT_RECV_ID_SIMOBJECT_DATA_BYTYPE:
	{
		SIMCONNECT_RECV_SIMOBJECT_DATA_BYTYPE *pObjData = (SIMCONNECT_RECV_SIMOBJECT_DATA_BYTYPE*)pData;

		switch (pObjData->dwRequestID)
		{
		case R1:
		{
			DWORD ObjectID = pObjData->dwObjectID;
			DWORD entry = pObjData->dwentrynumber;
			DWORD outof = pObjData->dwoutof;
			DWORD length = pObjData->dwDefineCount;
			AIData *pS = (AIData*)&pObjData->dwData;
			if (ObjectID != SIMCONNECT_OBJECT_ID_USER)
			{
				if (strcmp(pS->state, "sleep") == 0 && pS->ETD > conf.maxetd)
				{
					if (FS10DeleteAIAircraft != NULL)
					{
						FS10DeleteAIAircraft(ObjectID, 1);
						++stats.nrOfDeletions;
						deletedSome = true;
					}
				}
			}

			if (entry == outof)
			{
				if (deletedSome)
				{
					stats.lastDeleted = GetTickCount64();
				}
				deletedSome = false;
			}


		}

		default:
			break;
		}
		break;
	}

	case SIMCONNECT_RECV_ID_EXCEPTION:
	{
		SIMCONNECT_RECV_EXCEPTION *except = (SIMCONNECT_RECV_EXCEPTION*)pData;
		printf("\n\n***** EXCEPTION=%d  SendID=%d  Index=%d  cbData=%d\n", except->dwException, except->dwSendID, except->dwIndex, cbData);
		break;
	}

	case SIMCONNECT_RECV_ID_QUIT:
	{
		quit = 1;
		break;
	}

	default:
		printf("\nReceived:%d", pData->dwID);
		break;
	}
}
Exemplo n.º 2
0
void CALLBACK MyDispatchProcCC(SIMCONNECT_RECV* pData, DWORD cbData, void *pContext)
{
	switch (pData->dwID)
	{
	case SIMCONNECT_RECV_ID_EVENT:
	{
		SIMCONNECT_RECV_EVENT *evt = (SIMCONNECT_RECV_EVENT*)pData;

		switch (evt->uEventID)
		{
		case EVENT_SIM_START:
			SimConnect_RequestDataOnSimObjectType(hSimConnect, REQUEST_1, DEFINITION_1, 0, SIMCONNECT_SIMOBJECT_TYPE_USER);
			break;
		case EVENT_AIRCRAFT_CHANGED:
			SimConnect_RequestDataOnSimObjectType(hSimConnect, REQUEST_1, DEFINITION_1, 0, SIMCONNECT_SIMOBJECT_TYPE_USER);
			break;
		case EVENT_LEFT:
			currentCameraPosition.fDeltaXMeters -= cameraMovementSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_RIGHT:
			currentCameraPosition.fDeltaXMeters += cameraMovementSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_UP:
			currentCameraPosition.fDeltaZMeters += cameraMovementSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_DOWN:
			currentCameraPosition.fDeltaZMeters -= cameraMovementSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_FORWARD:
			currentCameraPosition.fDeltaYMeters += cameraMovementSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_BACK:
			currentCameraPosition.fDeltaYMeters -= cameraMovementSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_CENTER:
			currentCameraPosition.fDeltaXMeters = 0;
			currentCameraPosition.fDeltaYMeters = 0;
			currentCameraPosition.fDeltaZMeters = 0;
			currentCameraPosition.fPitchDeg = 0.0f;
			currentCameraPosition.fHeadingDeg = 0.0f;
			currentCameraPosition.fBankDeg = 0.0f;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_PITCH_DOWN:
			currentCameraPosition.fPitchDeg += cameraTiltSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_PITCH_UP:
			currentCameraPosition.fPitchDeg -= cameraTiltSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_HEADING_LEFT:
			currentCameraPosition.fHeadingDeg -= cameraTiltSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;
		case EVENT_HEADING_RIGHT:
			currentCameraPosition.fHeadingDeg += cameraTiltSpeed;
			SimConnect_CameraSetRelative6DOF(hSimConnect, currentCameraPosition.fDeltaXMeters, currentCameraPosition.fDeltaYMeters, currentCameraPosition.fDeltaZMeters, currentCameraPosition.fPitchDeg, currentCameraPosition.fBankDeg, currentCameraPosition.fHeadingDeg);
			break;

		case EVENT_CAMERA_CHOOSE_1:
		case EVENT_CAMERA_CHOOSE_2:
		case EVENT_CAMERA_CHOOSE_3:
		case EVENT_CAMERA_CHOOSE_4:
		case EVENT_CAMERA_CHOOSE_5:
		case EVENT_CAMERA_CHOOSE_6:
		case EVENT_CAMERA_CHOOSE_7:
		case EVENT_CAMERA_CHOOSE_8:
		case EVENT_CAMERA_CHOOSE_9:
		{
			ConfigLoader::ConfigType::const_iterator vehicleIterator = cameraConfig.find(aircraftName);
			if (vehicleIterator != cameraConfig.end()) {
				std::map<unsigned int, SIMCONNECT_RECV_CAMERA_6DOF >::const_iterator cameraIterator = vehicleIterator->second.find(evt->uEventID);
				if (cameraIterator != vehicleIterator->second.end()) {
					SIMCONNECT_RECV_CAMERA_6DOF cameraPosition = cameraIterator->second;
					SimConnect_CameraSmoothRelative6DOF(hSimConnect, cameraPosition.fDeltaXMeters, cameraPosition.fDeltaYMeters, cameraPosition.fDeltaZMeters, cameraPosition.fPitchDeg, cameraPosition.fBankDeg, cameraPosition.fHeadingDeg, 0.3f);
					currentCameraPosition = cameraPosition;
				}
			}
			break;
		}
		case EVENT_SAVE_CAMERA_1:
		case EVENT_SAVE_CAMERA_2:
		case EVENT_SAVE_CAMERA_3:
		case EVENT_SAVE_CAMERA_4:
		case EVENT_SAVE_CAMERA_5:
		case EVENT_SAVE_CAMERA_6:
		case EVENT_SAVE_CAMERA_7:
		case EVENT_SAVE_CAMERA_8:
		case EVENT_SAVE_CAMERA_9:
			currentSaveCamera = evt->uEventID - 9;
			save = true;
			SimConnect_RequestCameraRelative6DOF(hSimConnect, REQUEST_CAMERA_POSITION);
			break;

		default:
			break;
		}
		break;
	}
	case SIMCONNECT_RECV_ID_SIMOBJECT_DATA_BYTYPE:
	{
		SIMCONNECT_RECV_SIMOBJECT_DATA_BYTYPE *pObjData = (SIMCONNECT_RECV_SIMOBJECT_DATA_BYTYPE*)pData;

		switch (pObjData->dwRequestID)
		{
		case REQUEST_1:
		{
			StructVS *pS = (StructVS*)&pObjData->dwData;
			DWORD cbtitle;
			char *aircraftNameCStr;
			SimConnect_RetrieveString(pData, cbData, &pS->strings, &aircraftNameCStr, &cbtitle);
			aircraftName = std::string(aircraftNameCStr);
			std::replace(aircraftName.begin(), aircraftName.end(), ' ', '_');
			break;
		}
		break;
		}
		break;
	}
	case SIMCONNECT_RECV_ID_CAMERA_6DOF:
	{
		currentCameraPosition = *(SIMCONNECT_RECV_CAMERA_6DOF*)pData;

		if (save) {
			cameraConfig[aircraftName][currentSaveCamera] = currentCameraPosition;
			configLoader.save(cameraConfig);
			save = false;
		}
		break;
	}

	case SIMCONNECT_RECV_ID_QUIT:
		quit = 1;
		break;
	default:
		break;
	}
}