Exemple #1
1
bool PleoraVideo::GrabNewest( unsigned char* image, bool wait )
{
    PvBuffer *lBuffer0 = NULL;
    PvBuffer *lBuffer = NULL;
    PvResult lOperationResult;

    const uint32_t timeout = wait ? 0xFFFFFFFF : 0;

    PvResult lResult = lStream->RetrieveBuffer( &lBuffer, &lOperationResult, timeout );
    if ( !lResult.IsOK() ) {
        pango_print_warn("Pleora error: %s\n", lResult.GetCodeString().GetAscii() );
        return false;
    }else if( !lOperationResult.IsOK() ) {
        pango_print_warn("Pleora error: %s\n", lOperationResult.GetCodeString().GetAscii() );
        lStream->QueueBuffer( lBuffer );
        return false;
    }

    // We have at least one frame. Capture more until we fail, 0 timeout
    while(true) {
        PvResult lResult = lStream->RetrieveBuffer( &lBuffer0, &lOperationResult, 0 );
        if ( !lResult.IsOK() ) {
            break;
        }else if( !lOperationResult.IsOK() ) {
            lStream->QueueBuffer( lBuffer0 );
            break;
        }else{
            lStream->QueueBuffer( lBuffer );
            lBuffer = lBuffer0;
        }
    }

    bool good = false;

    PvPayloadType lType = lBuffer->GetPayloadType();
    if ( lType == PvPayloadTypeImage )
    {
        PvImage *lImage = lBuffer->GetImage();
        std::memcpy(image, lImage->GetDataPointer(), size_bytes);
        good = true;
    }

    lStream->QueueBuffer( lBuffer );
    return good;
}
Exemple #2
0
bool PleoraVideo::GrabNext( unsigned char* image, bool /*wait*/ )
{
    PvBuffer *lBuffer = NULL;
    PvResult lOperationResult;

    // Retrieve next buffer
    PvResult lResult = lStream->RetrieveBuffer( &lBuffer, &lOperationResult, 1000 );
    if ( !lResult.IsOK() ) {
        pango_print_warn("Pleora error: %s\n", lResult.GetCodeString().GetAscii() );
        return false;
    }

    bool good = false;

    if ( lOperationResult.IsOK() )
    {
        PvPayloadType lType = lBuffer->GetPayloadType();
        if ( lType == PvPayloadTypeImage )
        {
            PvImage *lImage = lBuffer->GetImage();
            std::memcpy(image, lImage->GetDataPointer(), size_bytes);
            good = true;
        }
    } else {
        pango_print_warn("Pleora error: %s\n", lOperationResult.GetCodeString().GetAscii() );
    }

    lStream->QueueBuffer( lBuffer );
    return good;
}
Exemple #3
0
int ImperxStream::Snap(cv::Mat &frame, int timeout)
{
//  std::cout << "ImperxStream::Snap starting" << std::endl;
    // The pipeline is already "armed", we just have to tell the device
    // to start sending us images
    lDeviceParams->ExecuteCommand( "AcquisitionStart" );
    int lWidth, lHeight, result = 0;
    // Retrieve next buffer             
    PvBuffer *lBuffer = NULL;
    PvResult lOperationResult;
    PvResult lResult = lPipeline.RetrieveNextBuffer( &lBuffer, timeout, &lOperationResult );
        
    if ( lResult.IsOK() )
    {
        if ( lOperationResult.IsOK() )
        {
            // Process Buffer
            
            if ( lBuffer->GetPayloadType() == PvPayloadTypeImage )
            {
//              std::cout << "ImperxStream::Snap Copying frame" << std::endl;
                // Get image specific buffer interface
                PvImage *lImage = lBuffer->GetImage();
              
                // Read width, height
                lWidth = (int) lImage->GetWidth();
                lHeight = (int) lImage->GetHeight();
                unsigned char *img = lImage->GetDataPointer();
                cv::Mat lframe(lHeight,lWidth,CV_8UC1,img, cv::Mat::AUTO_STEP);
                lframe.copyTo(frame);
                result = 0;
            }
            else
            {
                std::cout << "ImperxStream::Snap No image in buffer" << std::endl;
                result = 1;
            }
        }
        else
        {
            std::cout << "ImperxStream::Snap Operation result: " << lOperationResult << std::endl;
            result = 1;;
        }
        // We have an image - do some processing (...) and VERY IMPORTANT,
        // release the buffer back to the pipeline
    }
    else
    {
        std::cout << "ImperxStream::Snap Timeout: " << lResult << std::endl;
        result = 1;
    }
    
    lPipeline.ReleaseBuffer( lBuffer );
//    std::cout << "ImperxStream::Snap Exiting" << std::endl;
    return result;
}
Exemple #4
0
void ImperxStream::Stream(unsigned char *frame, Semaphore &frame_semaphore, Flag &stream_flag)
{
    // The pipeline is already "armed", we just have to tell the device
    // to start sending us images
    printf( "Sending StartAcquisition command to device\n" );
    lDeviceParams->ExecuteCommand( "AcquisitionStart" );

    char lDoodle[] = "|\\-|-/";
    int lDoodleIndex = 0;
    PvInt64 lImageCountVal = 0;
    double lFrameRateVal = 0.0;
    double lBandwidthVal = 0.0;

    // Acquire images until the user instructs us to stop
    printf( "\n<press a key to stop streaming>\n" );
    while ( stream_flag.check() )
    {
	std::cout << "here\n";
	// Retrieve next buffer		
	PvBuffer *lBuffer = NULL;
	PvResult  lOperationResult;
	PvResult lResult = lPipeline.RetrieveNextBuffer( &lBuffer, 1000, &lOperationResult );
        
	if ( lResult.IsOK() )
        {
	    if ( lOperationResult.IsOK() )
            {
		// Process Buffer
		lStreamParams->GetIntegerValue( "ImagesCount", lImageCountVal );
		lStreamParams->GetFloatValue( "AcquisitionRateAverage", lFrameRateVal );
		lStreamParams->GetFloatValue( "BandwidthAverage", lBandwidthVal );
            
		// If the buffer contains an image, display width and height
		PvUInt32 lWidth = 0, lHeight = 0;
		if ( lBuffer->GetPayloadType() == PvPayloadTypeImage )
		{
		    // Get image specific buffer interface
		    PvImage *lImage = lBuffer->GetImage();

		    // Read width, height
		    lWidth = lBuffer->GetImage()->GetWidth();
		    lHeight = lBuffer->GetImage()->GetHeight();
		    stream_flag.raise();	    

		}

		std::cout << lWidth << " " << lHeight << "\n";
	    
            }
	    // We have an image - do some processing (...) and VERY IMPORTANT,
	    // release the buffer back to the pipeline
	    //semaphore thing
	    //get all in there.
	    //a semaphore thing
    	
	    lPipeline.ReleaseBuffer( lBuffer );
        }
	else
        {
	    // Timeout
	    printf( "%c Timeout\r", lDoodle[ lDoodleIndex ] );
        }

	++lDoodleIndex %= 6;

    }
}
Exemple #5
0
void ImperxStream::Snap(cv::Mat &frame)
{
    // The pipeline is already "armed", we just have to tell the device
    // to start sending us images
    printf( "Sending StartAcquisition command to device\n" );
    lDeviceParams->ExecuteCommand( "AcquisitionStart" );

    char lDoodle[] = "|\\-|-/";
    int lDoodleIndex = 0;

    PvInt64 lImageCountVal = 0;
    double lFrameRateVal = 0.0;
    double lBandwidthVal = 0.0;

    std::cout << "here\n";
    // Retrieve next buffer		
    PvBuffer *lBuffer = NULL;
    PvResult lOperationResult;
    PvResult lResult = lPipeline.RetrieveNextBuffer( &lBuffer, 1000, &lOperationResult );
        
    if ( lResult.IsOK() )
    {
	if ( lOperationResult.IsOK() )
	{
	    // Process Buffer
	    lStreamParams->GetIntegerValue( "ImagesCount", lImageCountVal );
	    lStreamParams->GetFloatValue( "AcquisitionRateAverage", lFrameRateVal );
	    lStreamParams->GetFloatValue( "BandwidthAverage", lBandwidthVal );
            
	    // If the buffer contains an image, display width and height
	    int lWidth = 0, lHeight = 0;
	    if ( lBuffer->GetPayloadType() == PvPayloadTypeImage )
	    {
		// Get image specific buffer interface
		PvImage *lImage = lBuffer->GetImage();
	      
	      
		// Read width, height
		lWidth = (int) lImage->GetWidth();
		lHeight = (int) lImage->GetHeight();
		unsigned char *img = lImage->GetDataPointer();
//		cv::Mat lframe(lHeight,lWidth,CV_8UC1,img, cv::Mat::AUTO_STEP);
//		lframe.copyTo(frame);
		for (int m = 0; m < lHeight; m++)
		{
		    for (int n = 0; n < lWidth; n++)
		    {
			frame.at<unsigned char>(m,n) = img[m*lWidth + n];
//			std::cout << (short int) img[n*lHeight +m] << " ";
		    }
		}

	    }
	    else
	    {
		std::cout << "No image\n";
	    }
	    
	    std::cout << lWidth << " " << lHeight << "\n";
	    
	}
	else
	{
	    std::cout << "Damaged Result\n";
	}
	// We have an image - do some processing (...) and VERY IMPORTANT,
	// release the buffer back to the pipeline
	//semaphore thing
	//get all in there.
	//a semaphore thing

	lPipeline.ReleaseBuffer( lBuffer );
    }
    else
    {
	std::cout << "Timeout\n";
    }

    ++lDoodleIndex %= 6;
}
bool StartSlave()
{
	// Let the user select the device to receive from
	PvString lDeviceIP;
	if ( !SelectDevice( lDeviceIP ) )
	{
		return false;
	}
	
	// Create the PvStream object
	PvStream lStream;

	// Create the PvPipeline object
	PvPipeline lPipeline( &lStream );

    // Create a PvPipeline event sink (used to trap buffer too small events)
    PipelineEventSink lPipelineEventSink;
    lPipeline.RegisterEventSink( &lPipelineEventSink );

	// Open stream
	printf( "Opening stream\n" );
	lStream.Open( lDeviceIP, "239.192.1.1", 1042 );

	// IMPORTANT: the pipeline needs to be "armed", or started before 
	// we instruct the device to send us images
	printf( "Starting pipeline\n" );
    lPipeline.SetBufferCount( 16 );
	lPipeline.Start();

	// Get stream parameters/stats
	PvGenParameterArray *lStreamParams = lStream.GetParameters();
	PvGenInteger *lCount = dynamic_cast<PvGenInteger *>( lStreamParams->Get( "ImagesCount" ) );
	PvGenFloat *lFrameRate = dynamic_cast<PvGenFloat *>( lStreamParams->Get( "AcquisitionRateAverage" ) );
	PvGenFloat *lBandwidth = dynamic_cast<PvGenFloat *>( lStreamParams->Get( "BandwidthAverage" ) );
	PvGenBoolean *lIgnoreMissingPackets = dynamic_cast<PvGenBoolean *>( lStreamParams->Get( "IgnoreMissingPackets" ) );

	// Disabling resend packets
	lIgnoreMissingPackets->SetValue( true );

	char lDoodle[] = "|\\-|-/";
	int lDoodleIndex = 0;
	PvInt64 lImageCountVal = 0;
	double lFrameRateVal = 0.0;
	double lBandwidthVal = 0.0;

	// Acquire images until the user instructs us to stop
	printf( "\n<press a key to stop receiving>\n" );
	while ( !PvKbHit() )
	{
		// Retrieve next buffer		
		PvBuffer *lBuffer = NULL;
        PvResult  lOperationResult;
		PvResult lResult = lPipeline.RetrieveNextBuffer( &lBuffer, 1000, &lOperationResult );
		
        if ( lResult.IsOK() )
		{
            if (lOperationResult.IsOK())
            {
                //
                // We now have a valid buffer. This is where you would typically process the buffer.
                // -----------------------------------------------------------------------------------------
                // ...

			    lCount->GetValue( lImageCountVal );
			    lFrameRate->GetValue( lFrameRateVal );
			    lBandwidth->GetValue( lBandwidthVal );
			
				// If the buffer contains an image, display width and height
				PvUInt32 lWidth = 0, lHeight = 0;
				if ( lBuffer->GetPayloadType() == PvPayloadTypeImage )
				{
					// Get image specific buffer interface
					PvImage *lImage = lBuffer->GetImage();

					// Read width, height
					lWidth = lBuffer->GetImage()->GetWidth();
					lHeight = lBuffer->GetImage()->GetHeight();
				}
				
				printf( "%c BlockID: %016llX W: %i H: %i %.01f FPS %.01f Mb/s\r", 
                    lDoodle[ lDoodleIndex ],
                    lBuffer->GetBlockID(),
					lWidth,
					lHeight,
                    lFrameRateVal,
                    lBandwidthVal / 1000000.0 ); 
            }

            // We have an image - do some processing (...) and VERY IMPORTANT,
			// release the buffer back to the pipeline
			lPipeline.ReleaseBuffer( lBuffer );
		}
		else
		{
			// Timeout
			printf( "%c Timeout\r", lDoodle[ lDoodleIndex ] );
		}

		++lDoodleIndex %= 6;
	}

	PvGetChar(); // Flush key buffer for next stop
	printf( "\n\n" );

	// We stop the pipeline - letting the object lapse out of 
	// scope would have had the destructor do the same, but we do it anyway
	printf( "Stop pipeline\n" );
	lPipeline.Stop();

	// Now close the stream. Also optionnal but nice to have
	printf( "Closing stream\n" );
	lStream.Close();

    // Unregister pipeline event sink. Optional but nice to have.
    lPipeline.UnregisterEventSink( &lPipelineEventSink );

	return true;
}