/* * QtGl.h * * Created on: Jul 20, 2011 * Author: lyard */ #ifndef QTGL_H_ #define QTGL_H_ #define NBOARDS 40 // max. number of boards #define NPIX 1440 // max. number of pixels #define NTMARK 160 // max. number of timeMarker signals #include #include #include #include "BasicGlCamera.h" #include class QwtPlotZoomer; class QwtPlotGrid; #ifndef Q_MOC_RUN #include "src/DataCalib.h" #include "externals/ofits.h" #endif /************************************************* * Class Raw Data Viewer. FACT raw data diplayer *************************************************/ class RawDataViewer : public BasicGlCamera//QGLWidget { Q_OBJECT friend class UIConnector; enum CalibDataTypes { CALIB_BASELINE, CALIB_GAIN, CALIB_TRIG_OFFSET }; public: DrsCalibration fDrsCalib; bool fIsDrsCalibration; RawDataViewer(QWidget *parent = 0); ~RawDataViewer(); void openFile(std::string file, bool reopen); void openCalibFile(std::string& file); template void getCalibrationDataForDisplay(const CalibDataTypes calibTypes, const vector& inputData, const int roi, const int roiTM); int getCurrentPixel(){return selectedPixel;} void assignPixelMapFile(const string& map=""); public Q_SLOTS: void plusEvent(); void minusEvent(); void readEvent(); void setEventStep(int step); void nextSlice(); void previousSlice(); void setCurrentPixel(int); Q_SIGNALS: void signalCurrentEvent(int event); void signalCurrentSlice(int slice); void newFileLoaded(); void signalCurrentPixel(int pixel); void signalAutoScaleNeeded(); protected: // void initializeGL(); // void resizeGL(int width, int height); void paintGL(); void mousePressEvent(QMouseEvent *event); void mouseMoveEvent(QMouseEvent *event); void mouseDoubleClickEvent(QMouseEvent *event); void drawCamera(bool alsoWire); // void drawPatches(); // int PixelAtPosition(const QPoint &pos); // void drawHexagon(int index, bool solid); int selectedPixel; vector eventData; //vector rmsData; vector rawEventData; vector waveLetArray; valarray RMSvalues;//(1440); valarray Meanvalues; valarray Maxvalues; valarray PosOfMaxvalues; ///Used to load zero data in case of missing fits columns //void allocateZeroArray(); //char* fZeroArray; //bool telling whether the data is natively ordered in software or hardware id //used to correctly display monte-carlo data. bool _softwareOrdering; private: void drawPixelCurve(); // void updateNeighbors(int currentPixel); // void skipPixels(int start, int howMany); // void calculatePixelsCoords(); bool setCorrectSlice(QMouseEvent* event); void eventStepping(bool plus); // void buildVerticesList(); // void buildPatchesIndices(); void calcBlurColor(int pixel, int vertex); void calcMidBlurColor(int pixel, int vertex); void drawBlurryHexagon(int index); int whichSlice; // float shownSizex; // float shownSizey; bool drawPatch; bool drawImpulse; bool drawBlur; bool loopCurrentEvent; //allocate the maximum size for one event uint32_t boardTime[NBOARDS]; int16_t startPix[NPIX]; int16_t startTM[NTMARK]; int32_t pcTime[2]; uint32_t softTrig; uint16_t triggerType; int nRows; int rowNum; int eventNum; int nRoi; int nRoiTM; int offSetRoi; int runNumber; int nTM; std::string runType; int firstDataTime; int lastDataTime; int revision; int builderVersion; int nBoards; int nPixels; std::string timeSystem; std::string creationDate; int nightInt; std::string camera; std::string daq; float adcCount; int nbOk; int nbRej; int nbBad; int eventStep; // int hardwareMapping[1440]; // int softwareMapping[1440]; //// int patches[160][9]; GLfloat patchesColor[160][3]; // vector patchesIndices[160]; fits* inputFile; // std::fits* calibInputFile; // float baseLineMean[1440*1024]; // float gainMean[1440*1024]; // float triggerOffsetMean[1440*1024]; // bool calibrationLoaded; // bool drawCalibrationLoaded; QPoint lastPos; public: /* void computePulsesStatistics(); double aMeas[1024]; double n1mean[1024]; double n2mean[1024]; double vCorr[1024]; */ int64_t VALUES_SPAN; void ApplyCalibration(); // GLfloat pixelsCoords[MAX_NUM_PIXELS][3]; // PixelsNeighbors neighbors[MAX_NUM_PIXELS]; // GLfloat pixelsColor[ACTUAL_NUM_PIXELS][3]; // GLfloat verticesList[ACTUAL_NUM_PIXELS*6][2]; // int verticesIndices[ACTUAL_NUM_PIXELS][6]; // int numVertices; }; /************************************************* * Class UIConnector. used to connect the interface to the raw data displayer *************************************************/ #include "ui_viewer.h" class Configuration; class UIConnector : public QMainWindow, protected Ui::MainWindow { Q_OBJECT private: QTimer timer; std::string currentFile; std::string currentCalibFile; QRectF scaleBoundingRectangle(QRectF rectangle, float scale); bool updateSpinnerDisplay; bool updating; void initHistograms(); public: UIConnector(QWidget *parent = 0); ~UIConnector(); public Q_SLOTS: void fileSelected(QString file); void calibFileSelected(QString file); void newFileLoaded(); void slicesPerSecondChanged(double value); void nextSlicePlease(); void currentSliceHasChanged(int slice); void currentEventHasChanged(int event); void on_playPauseButton_clicked(); void on_loadNewFileButton_clicked(); void on_loadDRSCalibButton_clicked(); void on_drawPatchCheckBox_stateChanged(int); void on_drawImpulseCheckBox_stateChanged(int); void on_drawBlurCheckBox_stateChanged(int); void on_loopOverCurrentEventBox_stateChanged(int); void on_colorRange0_valueChanged(double); void on_colorRange1_valueChanged(double); void on_colorRange2_valueChanged(double); void on_colorRange3_valueChanged(double); void on_colorRange4_valueChanged(double); void on_redValue0_valueChanged(double); void on_redValue1_valueChanged(double); void on_redValue2_valueChanged(double); void on_redValue3_valueChanged(double); void on_redValue4_valueChanged(double); void on_greenValue0_valueChanged(double); void on_greenValue1_valueChanged(double); void on_greenValue2_valueChanged(double); void on_greenValue3_valueChanged(double); void on_greenValue4_valueChanged(double); void on_blueValue0_valueChanged(double); void on_blueValue1_valueChanged(double); void on_blueValue2_valueChanged(double); void on_blueValue3_valueChanged(double); void on_blueValue4_valueChanged(double); void on_slicesPerSecValue_valueChanged(double); void pixelChanged(int); void cbpxChanged(); void on_HwIDBox_valueChanged(int = 0); void on_SwIDBox_valueChanged(int); void on_crateIDBox_valueChanged(int) { cbpxChanged(); } void on_boardIDBox_valueChanged(int) { cbpxChanged(); } void on_patchIDBox_valueChanged(int) { cbpxChanged(); } void on_pixelIDBox_valueChanged(int) { cbpxChanged(); } void on_autoScaleColor_clicked(); void on_entireCameraScale_toggled(bool) { on_autoScaleColor_clicked(); } void on_currentPixelScale_toggled(bool) { on_autoScaleColor_clicked(); } void slicesPlusPlus(); void slicesMinusMinus(); void on_calibratedCheckBox_stateChanged(int state); void on_displayingSliceBox_valueChanged(int); void on_displayingEventBox_valueChanged(int); void displaySliceValue(); int SetupConfiguration(Configuration &conf); private: QwtPlotCurve boardsTimeHistoItem; QwtPlotCurve startCellHistoItem; QwtPlotCurve startTimeMarkHistoItem; QwtPlotCurve pixelValueCurveItem; QwtPlotCurve pixelAverageCurveItem; QwtPlotCurve aMeanCurveItem; QwtPlotCurve vCorrCurveItem; QwtPlotCurve meanCurveItem; QwtPlotCurve triggerDelayHistoItem; QwtPlotZoomer* curveZoom; QwtPlotZoomer* averageCurveZoom; QwtPlotZoomer* boardsTimeHistoZoom; QwtPlotZoomer* startCellHistoZoom; QwtPlotZoomer* startTimeMarkHistoZoom; QwtPlotZoomer* triggerDelayHistoZoom; //declare the grids here, because I must have access to them to detach them properly at destruction time (bug and crash with "bad" versions of qwt) QwtPlotGrid* grid1; QwtPlotGrid* grid2; QwtPlotGrid* grid3; QwtPlotGrid* grid4; QwtPlotGrid* grid5; QwtPlotGrid* grid6; }; #endif /* QTGL_H_ */