Пример #1
0
void phantomClose()
{
	fclose(data);
	hdStopScheduler();
	hdUnschedule(hPhantomMain);
	hdDisableDevice(Device);
}
Пример #2
0
HapticDevice::~HapticDevice(void)
{
	if(m_updateDeviceCallback != HD_INVALID_HANDLE)
	{
		hdStopScheduler();
		hdUnschedule(m_updateDeviceCallback);
	}

	for(unsigned int i=0;i<m_nbDevices;i++)
	{
		if(m_constraints[i] != NULL)
			delete m_constraints[i];

		if(m_hss[i].m_data!=NULL)
		{
			if (m_hss[i].m_data->m_id != HD_INVALID_HANDLE)
			{
				hdDisableDevice(m_hss[i].m_data->m_id);
				m_hss[i].m_data->m_id = HD_INVALID_HANDLE;
			}
		}
	}

	printf(" Haptic Divice Done . \n");
}
Пример #3
0
/******************************************************************************
 This handler gets called when the process is exiting. Ensures that HDAPI is
 properly shutdown
******************************************************************************/
void exitHandler()
{
    hdStopScheduler();
    hdUnschedule(gSchedulerCallback);

    if (ghHD != HD_INVALID_HANDLE)
    {
        hdDisableDevice(ghHD);
        ghHD = HD_INVALID_HANDLE;
    }
}
Пример #4
0
/*******************************************************************************
 * main function
   Initializes the device, creates a callback to handles plane forces, 
   terminates upon key press.
 ******************************************************************************/
int main(int argc, char* argv[])
{
    HDErrorInfo error;

    // Initialize the default haptic device.
    HHD hHD = hdInitDevice(HD_DEFAULT_DEVICE);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to initialize haptic device");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    // Start the servo scheduler and enable forces.
    hdEnable(HD_FORCE_OUTPUT);
    hdStartScheduler();
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to start the scheduler");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    // Schedule the frictionless plane callback, which will then run at 
    // servoloop rates and command forces if the user penetrates the plane.
    HDCallbackCode hPlaneCallback = hdScheduleAsynchronous(
        FrictionlessPlaneCallback, 0, HD_DEFAULT_SCHEDULER_PRIORITY);

    printf("Plane example.\n");
    printf("Move the device up and down to feel a plane along Y=0.\n");
    printf("Push hard against the plane to popthrough to the other side.\n");
    printf("Press any key to quit.\n\n");

    while (!_kbhit())
    {       
        if (!hdWaitForCompletion(hPlaneCallback, HD_WAIT_CHECK_STATUS))
        {
            fprintf(stderr, "\nThe main scheduler callback has exited\n");
            fprintf(stderr, "\nPress any key to quit.\n");
            getch();
            break;
        }
    }

    // Cleanup and shutdown the haptic device, cleanup all callbacks.
    hdStopScheduler();
    hdUnschedule(hPlaneCallback);
    hdDisableDevice(hHD);

    return 0;
}
bool BaseGeometryPatch::terminate()
{
	/* For cleanup, unschedule callback and stop the scheduler. */
	hdStopScheduler();
	if(hHapticEffect != NULL)
		hdUnschedule(hHapticEffect);

	/* Disable the device. */
	hdDisableDevice(hHD);

	return true;
}
Пример #6
0
void Window::teardownGL()
{
	vertexArrayObject.destroy();
    vertexBuffer.destroy();
	indexBuffer.destroy();

	if (hapticsEnabled) {
		haptic.terminateHL();
		hdUnschedule(handle);
	}

    delete shaderProgram;
	delete interator;
}
/******************************************************************************
 main function
 Initializes the device, creates a callback to handle sphere forces, terminates
 upon key press.
******************************************************************************/
int main(int argc, char* argv[])
{
    HDErrorInfo error;
    // Initialize the default haptic device.
    HHD hHD = hdInitDevice(HD_DEFAULT_DEVICE);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to initialize haptic device");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    // Start the servo scheduler and enable forces.
    hdEnable(HD_FORCE_OUTPUT);
    hdStartScheduler();
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to start scheduler");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }
        
    // Application loop - schedule our call to the main callback.
    HDSchedulerHandle hSphereCallback = hdScheduleAsynchronous(
        FrictionlessSphereCallback, 0, HD_DEFAULT_SCHEDULER_PRIORITY);

    printf("Sphere example.\n");
    printf("Move the device around to feel a frictionless sphere\n\n");
    printf("Press any key to quit.\n\n");

    while (!_kbhit())
    {
        if (!hdWaitForCompletion(hSphereCallback, HD_WAIT_CHECK_STATUS))
        {
            fprintf(stderr, "\nThe main scheduler callback has exited\n");
            fprintf(stderr, "\nPress any key to quit.\n");
            getch();
            break;
        }
    }

    // For cleanup, unschedule our callbacks and stop the servo loop.
    hdStopScheduler();
    hdUnschedule(hSphereCallback);
    hdDisableDevice(hHD);

    return 0;
}
Пример #8
0
/******************************************************************************
 Main function.
******************************************************************************/
int main(int argc, char* argv[])
{  
	hHD = device.setup();

    /* Start the main application loop. */
    mainLoop();

    /* Cleanup by stopping the haptics loop, unscheduling the asynchronous
       callback, disabling the device. */
    hdStopScheduler();
    hdUnschedule(gCallbackHandle);
    hdDisableDevice(hHD);

    return 0;
}
Пример #9
0
/******************************************************************************
 Main function.
******************************************************************************/
int main(int argc, char* argv[])
{  
    HDErrorInfo error;

    HHD hHD = hdInitDevice(HD_DEFAULT_DEVICE);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to initialize haptic device");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    printf("Anchored Spring Force Example\n");

    /* Schedule the haptic callback function for continuously monitoring the
       button state and rendering the anchored spring force. */
    gCallbackHandle = hdScheduleAsynchronous(
        AnchoredSpringForceCallback, 0, HD_MAX_SCHEDULER_PRIORITY);

    hdEnable(HD_FORCE_OUTPUT);

    /* Query the max closed loop control stiffness that the device
       can handle. Using a value beyond this limit will likely cause the 
       device to buzz. */
    hdGetDoublev(HD_NOMINAL_MAX_STIFFNESS, &gMaxStiffness);

    /* Start the haptic rendering loop. */
    hdStartScheduler();
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to start scheduler");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    /* Start the main application loop. */
    mainLoop();

    /* Cleanup by stopping the haptics loop, unscheduling the asynchronous
       callback, disabling the device. */
    hdStopScheduler();
    hdUnschedule(gCallbackHandle);
    hdDisableDevice(hHD);

    return 0;
}
Пример #10
0
/*******************************************************************************
 Main function.
 Sets up the device, runs main application loop, cleans up when finished.
*******************************************************************************/
int main(int argc, char* argv[])
{
    HDSchedulerHandle hUpdateHandle = 0;
    HDErrorInfo error;

    /* Initialize the device, must be done before attempting to call any hd 
       functions. */
    HHD hHD = hdInitDevice(HD_DEFAULT_DEVICE);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to initialize the device");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;           
    }

    /* Schedule the main scheduler callback that updates the device state. */
    hUpdateHandle = hdScheduleAsynchronous(
        updateDeviceCallback, 0, HD_MAX_SCHEDULER_PRIORITY);

    /* Start the servo loop scheduler. */
    hdStartScheduler();
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to start the scheduler");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;           
    }
    
    /* Run the application loop. */
    mainLoop();

    /* For cleanup, unschedule callbacks and stop the servo loop. */
    hdStopScheduler();
    hdUnschedule(hUpdateHandle);
    hdDisableDevice(hHD);

    return 0;
}
Пример #11
0
void ExitHandler(){

	hdStopScheduler();
	hdUnschedule(gSchedulerCallback);

}
Пример #12
0
/******************************************************************************
 Collects statistics about the update rate of the haptic device.
******************************************************************************/
int main(int argc, char* argv[])
{
    HDErrorInfo error;
    HHD hHD = hdInitDevice(HD_DEFAULT_DEVICE);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to initialize haptic device");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    HDstring model = hdGetString(HD_DEVICE_MODEL_TYPE);
    std::cout << "Initialized: " << model << std::endl;

    HDSchedulerHandle hServoCallback = hdScheduleAsynchronous(
                                           ServoSchedulerCallback, 0, HD_MAX_SCHEDULER_PRIORITY);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        std::cerr << error << std::endl;
        std::cerr << "Failed to schedule servoloop callback" << std::endl;
        hdDisableDevice(hHD);
        return -1;
    }

    hdSetSchedulerRate(TARGET_SERVOLOOP_RATE);
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        std::cerr << error << std::endl;
        std::cerr << "Failed to set servoloop rate" << std::endl;
        hdDisableDevice(hHD);
        return -1;
    }

    hdDisable(HD_FORCE_OUTPUT);

    hdStartScheduler();
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        std::cerr << error << std::endl;
        std::cerr << "Failed to start servoloop" << std::endl;
        hdDisableDevice(hHD);
        return -1;
    }

    std::cout << "Printing servoloop rate stats. All numbers are in Hz units" << std::endl;
    std::cout << std::endl;

    char fileName[256];
    sprintf(fileName, "%s Rate Stats.txt", model);
    std::ofstream fout(fileName, std::ios::out | std::ios::app);

    for (int nRuns = 0; nRuns < 10 && !_kbhit(); nRuns++)
    {
        Sleep(1000);

        hdScheduleSynchronous(CopyUpdateRateStats, 0, HD_MIN_SCHEDULER_PRIORITY);

        // Prints some stats about the rate as well as log it to file.
        PrintUpdateRateStats(std::cout);
        PrintUpdateRateStats(fout);

        if (!hdWaitForCompletion(hServoCallback, HD_WAIT_CHECK_STATUS))
        {
            std::cerr << "Error occurred during main loop" << std::endl;
            std::cerr << "Press any key to quit." << std::endl;
            getch();
            break;
        }
    }

    hdStopScheduler();
    hdUnschedule(hServoCallback);
    hdDisableDevice(hHD);

    return 0;
}
Пример #13
0
void Phantom::Close() {
	hdStopScheduler();
	hdUnschedule(_hPhantomMain);
	hdDisableDevice(_Device);
}
/*******************************************************************************
 Main function.
 Initializes the device, starts the schedule, creates a schedule callback
 to handle gravity well forces, waits for the user to press a button, exits
 the application.
*******************************************************************************/
int main(int argc, char* argv[])
{    
	int KeyInfo;

	HDErrorInfo error;
    HDSchedulerHandle hGravityWell;

    /* Initialize the device, must be done before attempting to call any hd 
       functions. Passing in HD_DEFAULT_DEVICE causes the default device to be 
       initialized. */
    HHD hHD = hdInitDevice(HD_DEFAULT_DEVICE);

	hIOMutex = CreateMutex(NULL, FALSE, NULL);
	kill = 0;
	recording = 0;

    if (HD_DEVICE_ERROR(error = hdGetError())) 
    {
        hduPrintError(stderr, &error, "Failed to initialize haptic device");
        fprintf(stderr, "\nPress any key to quit.\n");
        getch();
        return -1;
    }

    printf("Hello Haptic Device!\n");
    printf("Found device model: %s.\n\n", hdGetString(HD_DEVICE_MODEL_TYPE));


    /* Schedule the main callback that will render forces to the device. */
    hGravityWell = hdScheduleAsynchronous(
        gravityWellCallback, 0, 
        HD_MAX_SCHEDULER_PRIORITY);

    hdEnable(HD_FORCE_OUTPUT);
    
	hdStartScheduler();
	_beginthread( recordingLoop );
    /* Check for errors and abort if so. */
    if (HD_DEVICE_ERROR(error = hdGetError()))
    {
        hduPrintError(stderr, &error, "Failed to start scheduler");
        fprintf(stderr, "\nPress any key to quit.\n");
        return -1;
    }

    /* Wait until the user presses a key.  Meanwhile, the scheduler
       runs and applies forces to the device. */
    printf("Press R to record data\n");
    printf("Press Q to quit.\n\n");
	count = 0;
    
	//while (!_kbhit())
    do
	{
		KeyInfo = _getch();
		if ( tolower( KeyInfo ) == 'q') 
		{
			kill = 1;
		}
		else
		{
			if ( tolower( KeyInfo ) == 'r' )
			{
				if ( recording == 0) {
					printf("Data recording ON\n");
					recording = 1;
				}
				else
				{
					printf("Data recording OFF\n");
					recording = 0;
				}
			}
		}

		
		/* Periodically check if the gravity well callback has exited. */
        if (!hdWaitForCompletion(hGravityWell, HD_WAIT_CHECK_STATUS))
        {
            kill = 1;
			fprintf(stderr, "Press any key to quit.\n");     
            getch();
            break;
        }
//		printf("\n%d", count);
    } while (!kill);

    /* For cleanup, unschedule callback and stop the scheduler. */
    hdStopScheduler();
    hdUnschedule(hGravityWell);

    /* Disable the device. */
    hdDisableDevice(hHD);

    return 0;
}
Пример #15
0
static void exit(){
 	hdStopScheduler();
	// arrêt du scheduler
	hdUnschedule(gSchedulerCallback);
	// suppression des informations à envoyer
}