/// <summary> /// Writes a serial command to the camera and returns the number of characters written /// </summary> /// <param name="command">The serial command to write including the appropriate termination char</param> /// <returns>The number of characters written to the interface</returns> public uint SerialWrite(string command) { uint written = (uint)command.Length; NIImaq.CheckError(NIImaq.imgSessionSerialWrite(_sid, command, ref written, 1000)); return(written); }
/// <summary> /// Reads up to the specified number of characters from the serial buffer /// </summary> /// <param name="charsToRead">The (maximum) number of characters to read on call and the number /// of characters actually read after the function call</param> /// <returns>The read string from the serial port</returns> public string SerialRead(ref uint charsToRead) { StringBuilder sb = new StringBuilder((int)charsToRead); NIImaq.CheckError(NIImaq.imgSessionSerialRead(_sid, sb, ref charsToRead, 1000)); return(sb.ToString()); }
/// <summary> /// Extracts an 8-bit image reducing bit depth if necessary /// </summary> /// <param name="imageOut">The container to recieve the image</param> /// <param name="requestedFrame">The framenumber to request</param> /// <returns>The frame number actually retrieved from the buffer</returns> public uint Extract(Image8 imageOut, uint requestedFrame) { uint frameActual, indexActual; if (_bytesPerPixel == 2) { //this requires acquisition into our internal buffer first //followed by handing out a downsized copy frameActual = Extract(_imgDownsize, requestedFrame); //if our bit-depth is not 16 we have a problem - we need //to scale our image first to really fill the 16bits otherwise we run into //problems later... if (_bitsPerPixel < 16) { ip.ippiMulC_16u_C1IRSfs(_scaleFactor, _imgDownsize.Image, _imgDownsize.Stride, _imgDownsize.Size, 0); } //we got handed 8 bits _imgDownsize.ReduceTo8U(imageOut); } else { NIImaq.CheckError(NIImaq.imgSessionCopyBufferByNumber(_sid, requestedFrame, (IntPtr)imageOut.Image, IMG_OVERWRITE_MODE.IMG_OVERWRITE_GET_NEWEST, out frameActual, out indexActual)); if (frameActual != requestedFrame) { System.Diagnostics.Debug.WriteLine("Requested frame {0}; obtained frame {1}", requestedFrame, frameActual); } } _acquiredFrames++; return(frameActual); }
/// <summary> /// Configures the camera setting up required buffers. /// Allows separation of this time-intensive task from /// acquisition start. /// </summary> /// <param name="bufferCount">The number of frames requested as buffer</param> public void Configure(uint bufferCount) { //set up ring buffer pointers _ringBuffer = new IntPtr[bufferCount]; //create buffer list NIImaq.CheckError(NIImaq.imgCreateBufList(bufferCount, out _bufId)); //compute required buffer size uint bufSize = _width * _height * BytesPerPixel; //if this is a 16bit acquisition we pre-allocate an internal buffer //to allow us handing out 8bit images instead _imgDownsize = new Image16((int)Width, (int)Height); //Create our camera buffers and set up the buffer list //We set the list up as a ring buffer which means that the command //is NEXT for each buffer except the last one, where it will be loop for (uint i = 0; i < bufferCount; i++) { //Let imaq obtain the buffer memory NIImaq.CheckError(NIImaq.imgCreateBuffer(_sid, Buffer_Location.IMG_HOST_FRAME, bufSize, out _ringBuffer[i])); //assign buffer to our buffer list NIImaq.CheckError(NIImaq.imgSetBufferElement2(_bufId, i, BlItemType.IMG_BUFF_ADDRESS, _ringBuffer[i])); //tell the list about our buffer size NIImaq.CheckError(NIImaq.imgSetBufferElement2(_bufId, i, BlItemType.IMG_BUFF_SIZE, bufSize)); //Set the appropriate buffer command var bufCmd = i < (bufferCount - 1) ? BuffCommands.IMG_CMD_NEXT : BuffCommands.IMG_CMD_LOOP; NIImaq.CheckError(NIImaq.imgSetBufferElement2(_bufId, i, BlItemType.IMG_BUFF_COMMAND, bufCmd)); } //lock buffer list (supposed to be obsolote but example still does it...) NIImaq.CheckError(NIImaq.imgMemLock(_bufId)); //configure the session to use this buffer list NIImaq.CheckError(NIImaq.imgSessionConfigure(_sid, _bufId)); _configured = true; }
/// <summary> /// Constructs a new IMAQ camera on the /// specified camera link interface /// </summary> /// <param name="interfaceId">The interface name. Optionally followed by ::# identifying the port - 0 based</param> public CameraLinkCamera(string interfaceId) { //Attach to interface NIImaq.CheckError(NIImaq.imgInterfaceOpen(interfaceId, out _ifid)); //Open session NIImaq.CheckError(NIImaq.imgSessionOpen(_ifid, out _sid)); //Get image dimensions NIImaq.CheckError(NIImaq.imgGetAttribute(_sid, ImaqAttribute.IMG_ATTR_ROI_WIDTH, out _width)); NIImaq.CheckError(NIImaq.imgGetAttribute(_sid, ImaqAttribute.IMG_ATTR_ROI_HEIGHT, out _height)); NIImaq.CheckError(NIImaq.imgGetAttribute(_sid, ImaqAttribute.IMG_ATTR_BYTESPERPIXEL, out _bytesPerPixel)); System.Diagnostics.Debug.WriteLine("Bytes per pixel {0}", _bytesPerPixel); NIImaq.CheckError(NIImaq.imgGetAttribute(_sid, ImaqAttribute.IMG_ATTR_BITSPERPIXEL, out _bitsPerPixel)); if (_bytesPerPixel == 2 && _bitsPerPixel < 16) { _scaleFactor = 1; _scaleFactor <<= (16 - (int)_bitsPerPixel); } else { _scaleFactor = 1; } System.Diagnostics.Debug.WriteLine("Bits per pixel {0}", _bitsPerPixel); System.Diagnostics.Debug.WriteLine("Frame width: {0}", _width); System.Diagnostics.Debug.WriteLine("Frame height: {0}", _height); //Unfortunately there is now way (?) to nicely align the camera buffers on 4-byte boundary for ipp //The user generated image wrappers will expect this however - so for now do NOT allow to //start acquisition with a width which is non-dividable by 4!! System.Diagnostics.Debug.Assert(Width % 4 == 0, "At the moment for memory alignment, the class requires an image width which is dividable by 4!!"); //We also only allow images with either 1 or 2 bytes per pixel! if (BytesPerPixel < 1 || BytesPerPixel > 2) { System.Diagnostics.Debug.Assert(false, "Unknown pixel depth", "Currently a pixel depth of {0} bytes is not supported", BytesPerPixel); } }
/// <summary> /// Creates a new pulse that is triggered based on an internal event/signal /// </summary> /// <param name="timeBase">The timebase of the pulse</param> /// <param name="delay">The ticks of the off-phase</param> /// <param name="width">The ticks of the on-phase</param> /// <param name="signalType">The type of trigger signal line</param> /// <param name="triggerEvent">The internal trigger event</param> /// <param name="signalPolarity">The polarity of the trigger signal</param> /// <param name="outputType">The type of pulse output line</param> /// <param name="outputNumber">The output line identifier</param> /// <param name="outputPolarity">The polarity of the on-phase</param> /// <param name="pulseMode">The pulse generation mode</param> public IMGPulse(PulseTimebase timeBase, uint delay, uint width, IMG_SIGNAL_TYPE signalType, InternalSignalIdentifier triggerEvent, TriggerPolarity signalPolarity, IMG_SIGNAL_TYPE outputType, uint outputNumber, PulsePolarity outputPolarity, PulseMode pulseMode) { if (signalType != IMG_SIGNAL_TYPE.IMG_SIGNAL_STATUS) { throw new ArgumentException("signalType", "If an internal event is specified to trigger pulse generation, the signal type must be IMG_SIGNAL_STATUS!"); } NIImaq.CheckError(NIImaq.imgPulseCreate2(timeBase, delay, width, signalType, triggerEvent, signalPolarity, outputType, outputNumber, outputPolarity, pulseMode, ref _plsId)); }
/// <summary> /// Extracts a 16-bit image /// </summary> /// <param name="imageOut">The container to recieve the image</param> /// <param name="requestedFrame">The framenumber to request</param> /// <returns>The frame number actually retrieved from the buffer</returns> public uint Extract(Image16 imageOut, uint requestedFrame) { uint frameActual, indexActual; if (_bytesPerPixel == 1) { System.Diagnostics.Debug.WriteLine("Acquired 8 bit image into 16bit structure"); } NIImaq.CheckError(NIImaq.imgSessionCopyBufferByNumber(_sid, requestedFrame, (IntPtr)imageOut.Image, IMG_OVERWRITE_MODE.IMG_OVERWRITE_GET_NEWEST, out frameActual, out indexActual)); if (frameActual != requestedFrame) { System.Diagnostics.Debug.WriteLine("Requested frame {0}; obtained frame {1}", requestedFrame, frameActual); } _acquiredFrames++; return(frameActual); }
/// <summary> /// Starts acquisition on the camera and configures /// the session if necessary /// </summary> /// <param name="bufferCount">The number of frames requested as buffer</param> public void Start(int bufferCount) { if (_captureRunning) { System.Diagnostics.Debug.WriteLine("Tried to start already running capture"); return; } if (!_configured) { Configure((uint)bufferCount); } //Start asynchronous acquisition - after this call the ring-buffer //will get filled with images! NIImaq.CheckError(NIImaq.imgSessionAcquire(_sid, true, null)); _captureRunning = true; _acquiredFrames = 0; }
/// <summary> /// Flushes the serial buffer. Call btw. consecutive writes and reads /// </summary> public void SerialFlush() { NIImaq.CheckError(NIImaq.imgSessionSerialFlush(_sid)); }
/// <summary> /// Stops pulse generation /// </summary> public void Stop() { NIImaq.CheckError(NIImaq.imgPulseStop(_plsId)); }
/// <summary> /// Arms a triggered pulse to be run on the /// configured session /// </summary> /// <param name="sessionId">The session to which the pulse should be associated</param> public void Start(uint sessionId) { NIImaq.CheckError(NIImaq.imgPulseStart(_plsId, sessionId)); }
/// <summary> /// Creates a new pulse that is triggered based on an external line /// </summary> /// <param name="timeBase">The timebase of the pulse</param> /// <param name="delay">The ticks of the off-phase</param> /// <param name="width">The ticks of the on-phase</param> /// <param name="signalType">The type of trigger signal line</param> /// <param name="signalIdentifier">The trigger signal line identifier</param> /// <param name="signalPolarity">The polarity of the trigger signal</param> /// <param name="outputType">The type of pulse output line</param> /// <param name="outputNumber">The output line identifier</param> /// <param name="outputPolarity">The polarity of the on-phase</param> /// <param name="pulseMode">The pulse generation mode</param> public IMGPulse(PulseTimebase timeBase, uint delay, uint width, IMG_SIGNAL_TYPE signalType, uint signalIdentifier, TriggerPolarity signalPolarity, IMG_SIGNAL_TYPE outputType, uint outputNumber, PulsePolarity outputPolarity, PulseMode pulseMode) { NIImaq.CheckError(NIImaq.imgPulseCreate2(timeBase, delay, width, signalType, signalIdentifier, signalPolarity, outputType, outputNumber, outputPolarity, pulseMode, ref _plsId)); }