minor fixes

Fixed build of the moenchZmqExecutables (#706 )
* changed to pure virtual methods for Clone and setClusterSize * added std:: * added moench to the github actions build
2025-06-19 00:07:13 +02:00 · 2023-03-31 09:40:03 +02:00 · 2023-03-29 15:01:22 +02:00 · 2023-03-28 16:27:01 +02:00 · 2023-03-28 15:22:36 +02:00 · 2023-03-22 14:25:02 +01:00
21 changed files with 754 additions and 148 deletions
--- a/.github/workflows/cmake.yml
+++ b/.github/workflows/cmake.yml
@ -23,7 +23,7 @@ jobs:
      - name: Configure CMake
        # Configure CMake in a 'build' subdirectory. `CMAKE_BUILD_TYPE` is only required if you are using a single-configuration generator such as make.
        # See https://cmake.org/cmake/help/latest/variable/CMAKE_BUILD_TYPE.html?highlight=cmake_build_type
-        run: cmake -B ${{github.workspace}}/build -DCMAKE_BUILD_TYPE=${{env.BUILD_TYPE}} -DSLS_USE_TESTS=ON -DSLS_USE_HDF5=ON -DSLS_USE_GUI=ON
+        run: cmake -B ${{github.workspace}}/build -DCMAKE_BUILD_TYPE=${{env.BUILD_TYPE}} -DSLS_USE_TESTS=ON -DSLS_USE_HDF5=ON -DSLS_USE_GUI=ON -DSLS_USE_MOENCH=ON
      - name: Build
        # Build your program with the given configuration
--- a/slsDetectorCalibration/analogDetector.h
+++ b/slsDetectorCalibration/analogDetector.h
@ -220,7 +220,7 @@ template <class dataType> class analogDetector {
       clone. Must be virtual!
       \returns a clone of the original analog detector
     */
-    virtual analogDetector *Clone() { return new analogDetector(this); }
+    virtual analogDetector *Clone() = 0;
    /**
       Gives an id to the structure. For debugging purposes in case of
@ -298,8 +298,8 @@ template <class dataType> class analogDetector {
            if (gmap)
                delete[] gmap;
            gmap = new double[nnx * nny];
-            for (iy = 0; iy < nny; ++iy) {
+            for (iy = 0; iy < static_cast<int>(nny); ++iy) {
-                for (ix = 0; ix < nnx; ++ix) {
+                for (ix = 0; ix < static_cast<int>(nnx); ++ix) {
                    gmap[iy * nnx + ix] = gm[iy * nnx + ix];
                    // cout << gmap[iy*nnx+ix] << " " ;
                }
@ -1097,8 +1097,7 @@ template <class dataType> class analogDetector {
        return thr;
    };
-    virtual int setClusterSize(int n = -1) { 
+    virtual int setClusterSize(int n = -1) = 0;
    };
    /**
       gets threshold value for conversion into number of photons
--- a/slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData.h
+++ b/slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData.h
@ -57,21 +57,33 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
       1286 large etc.) \param c crosstalk parameter for the output buffer
    */
    int groupmap[512*5][1024/5];
    jungfrauLGADStrixelsData()
        : slsDetectorData<uint16_t>(1024/5, 512*5,
                                    512 * 1024 * 2 + sizeof(header)) {
-      cout << "aaa" << endl;
+      //      cout << "aaa" << endl;
 #ifdef ALDO //VH
      cout<< "using reduced jf_header" << endl; //VH
 #endif //VH
        for (int ix = 0; ix < 1024/5; ix++) {
            for (int iy = 0; iy < 512*5; iy++) {
 	      dataMap[iy][ix] = sizeof(header);//+ ( 1024 * 5 + 300) * 2; //somewhere on the guardring of the LGAD
 	      groupmap[iy][ix]=-1;
 #ifdef HIGHZ
                dataMask[iy][ix] = 0x3fff;
 #endif
            }
        }
 	int x0=256+10, x1=256+246;
 	int y0=10, y1=256-10;
 	int ix,iy;
 	int ox=0, oy=0, ooy=0;
 	ox=2;//0; //original value is 0
 	cout << "G0" << endl;
 	//chip1
 	/*
@ -90,10 +102,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
 	ox=0;
 	for (int ipx=x0; ipx<x1; ipx++) {
 	  for (int ipy=y0; ipy<y0+54; ipy++) { //y0+54 excludes the last row (in chip coordinates), should be y0+55 to include all rows
 	    ix=(ipx-x0+ox)/3;
 	    iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy;
 	    ix=(ipx-x0+ox)/3;
 	    dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
-	     //  cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
+	    groupmap[iy][ix]=0;
 	    //  cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
 	  }
 	}
@ -101,12 +114,13 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
 	//3 square pixels in x on the left
 	oy=-54;
 	ooy=54*3;
-	ox=3;
+	ox=2;//; //original value is 3
 	for (int ipx=x0; ipx<x1; ipx++) {
 	  for (int ipy=y0+54; ipy<y0+64+54; ipy++) { //I think y0+54 catches the last row of group1! Should be y0+55 if we want to include all rows? And y0+55+64
 	    ix=(ipx-x0+ox)/5;
 	    iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy;
 	    dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
 	    groupmap[iy][ix]=1;
 	  }
 	}
@ -120,6 +134,7 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
 	    ix=(ipx-x0+ox)/4;
 	    iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy;
 	    dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
 	    groupmap[iy][ix]=2;
 	  }
 	}
@ -143,8 +158,8 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
 	    ix=(ipx-x0+ox)/4;
 	    iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy;
 	    dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
-	    //if (ipx==x0)
+	    //if (ipx==x0)    cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
-	    //  cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
+	    groupmap[iy][ix]=2;
 	  }
 	}
@ -158,6 +173,7 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
 	    ix=(ipx-x0+ox)/5;
 	    iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy;
 	    dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
 	    groupmap[iy][ix]=1;
 	  }
 	}
@ -171,6 +187,7 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
 	    ix=(ipx-x0+ox)/3;
 	    iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy;
 	    dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
 	    groupmap[iy][ix]=0;
 	  }
 	}
--- a/slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData_new.h
+++ b/slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData_new.h
@ -0,0 +1,336 @@
 // SPDX-License-Identifier: LGPL-3.0-or-other
 // Copyright (C) 2021 Contributors to the SLS Detector Package
 #ifndef JUNGFRAULGADSTRIXELSDATA_H
 #define JUNGFRAULGADSTRIXELSDATA_H
 #ifdef CINT
 #include "sls/sls_detector_defs_CINT.h"
 #else
 #include "sls/sls_detector_defs.h"
 #endif
 #include "slsDetectorData.h"
 //#define VERSION_V2
 /**
    @short  structure for a Detector Packet or Image Header
    @li frameNumber is the frame number
    @li expLength is the subframe number (32 bit eiger) or real time exposure
   time in 100ns (others)
    @li packetNumber is the packet number
    @li bunchId is the bunch id from beamline
    @li timestamp is the time stamp with 10 MHz clock
    @li modId is the unique module id (unique even for left, right, top, bottom)
    @li xCoord is the x coordinate in the complete detector system
    @li yCoord is the y coordinate in the complete detector system
    @li zCoord is the z coordinate in the complete detector system
    @li debug is for debugging purposes
    @li roundRNumber is the round robin set number
    @li detType is the detector type see :: detectorType
    @li version is the version number of this structure format
 */
 namespace strixelSingleChip {
  constexpr int nc_rawimg = 1024; //for full images  //256;
  constexpr int nr_rawimg = 512; 
  constexpr int nr_chip = 256;
  constexpr int gr = 9;
  //Group 1: 25um pitch, groups of 3, 1 column of square pixels
  constexpr int g1_ncols{ (nc_rawimg-(2*gr)-1)/3 }; //79
  constexpr int g1_nrows{ ( (nr_chip/4)-gr )*3 }; //165
  //Group 2: 15um pitch, groups of 5, 3 columns of square pixels
  constexpr int g2_ncols{ (nc_rawimg-(2*gr)-3)/5 }; //47
  constexpr int g2_nrows{ (nr_chip/4)*5 }; //320
  //Group 3: 18.75um pitch, groups of 4, 2 columns of square pixels (double the size of the other groups)
  constexpr int g3_ncols{ (nc_rawimg-(2*gr)-2)/4 }; //59
  constexpr int g3_nrows{ ( ((nr_chip/4)*2)-gr )*4 }; //476
  constexpr int nc_strixel = 2*gr + 1 + g1_ncols; //group 1 is the "longest" group in x and has one extra square pixel
  constexpr int nr_strixel = 2*gr + g1_nrows + g2_nrows + g3_nrows;
 }
 typedef struct {
    uint64_t bunchNumber; /**< is the frame number */
    uint64_t pre;         /**< something */
 } jf_header; //Aldo's header
 using namespace strixelSingleChip; 
 class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
  private:
    int iframe;
    int mchip;
    int chip_x0;
    int chip_y0;
    void remapGroup( const int group ) {
      int ix, iy=0;
      int x0, y0, x1, y1, shifty;
      int multiplicator;
      int shiftx;
      switch (group) {
      default:
      case 1:
 	multiplicator = 3;
 	break;
      case 2:
 	multiplicator = 5;
 	break;
      case 3:
 	multiplicator = 4;
 	break;
      }
       if ( mchip == 1 ) {
 	chip_x0=256;
 	chip_y0=1;  //because of bump bonding issues(+1 row)  on M408 
 	switch (group) {
 	default:
 	case 1:
 	  x0 = 10+chip_x0;  //9 gr + 1 sq pixel 
 	  x1 = 246+chip_x0;
 	  y0 = 9+chip_y0;
 	  y1 = 64+chip_y0;
 	  shifty = 0;
 	  break;
 	case 2:
 	  x0 = 12+chip_x0;
 	  x1 = 247+chip_x0;
 	  y0 = 64+chip_y0;
 	  y1 = 128+chip_y0;
 	  shifty = g1_nrows;
 	  break;
 	case 3:
 	  x0 = 11+chip_x0;
 	  x1 = 247+chip_x0;
 	  y0 = 128+chip_y0;
 	  y1 = 247+chip_y0;
 	  shifty = g2_nrows+g1_nrows;
 	  break;
 	}
      }
      if ( mchip == 6 ) {
 	chip_x0=512;
 	chip_y0=255;  //should be 256 but is 255 because of bump bonding issues (+1 row) on M408
 	switch (group) {
 	default:
 	case 1:
 	  x0 = 9+chip_x0;  //9 gr sq pixel 
 	  x1 = 246+chip_x0;
 	  y0 = 192+chip_y0;
 	  y1 = 244+chip_y0;
 	  shifty = g1_nrows+2*g2_nrows+2*g3_nrows;
 	  break;
 	case 2:
 	  x0 = 9+chip_x0;
 	  x1 = 244+chip_x0;
 	  y0 = 128+chip_y0;
 	  y1 = 191+chip_y0;
 	  shifty = g1_nrows+g2_nrows+2*g3_nrows;;
 	  break;
 	case 3:
 	  x0 = 9+chip_x0;
 	  x1 = 244+chip_x0;
 	  y0 = 9+chip_y0;
 	  y1 = 127+chip_y0;
 	  shifty =g1_nrows+g2_nrows+g3_nrows;
 	  break;
 	}
      }
      //remapping loop
      for ( int ipy=y0; ipy<=y1;ipy++) {
 	for ( int ipx=x0; ipx<=x1; ipx++ ) {
 	  ix = int ((ipx-x0)/multiplicator);
 	  for ( int m=0; m<multiplicator;m++ ) {
 	    if ( (ipx-x0)%multiplicator==m ) iy=(ipy-y0)*multiplicator +m + shifty;
 	  }
 	  //	  if (iy< 40)	  cout << iy << "  " << ix <<endl;
 	  	  dataMap[iy][ix] = sizeof(header) + (nc_rawimg * ipy + ipx) * 2;
 	  	  groupmap[iy][ix]=group-1;
 	}
      } 
    }
  public:
    int groupmap[512*5][1024/3];
    using header = sls::defs::sls_receiver_header;
    jungfrauLGADStrixelsData()
      : slsDetectorData<uint16_t>( /*nc_strixel*/g1_ncols, /*nr_strixel*/ 2*g1_nrows+2*g2_nrows+2*g3_nrows,
 				   g1_ncols*  (2*g1_nrows+2*g2_nrows+2*g3_nrows) * 2 + sizeof(header) ) {
      std::cout << "Jungfrau strixels 2X single chip with full module data " << std::endl;
      //Fill all strixels with dummy values
      for (int ix = 0; ix != g1_ncols; ++ix) {
 	for (int iy = 0; iy != 2*g1_nrows+2*g2_nrows+2*g3_nrows; ++iy) {
 	  dataMap[iy][ix] = sizeof(header);
 	}
      }
      cout << "sizeofheader = "<<sizeof(header)<<endl;
 std::cout << "Jungfrau strixels 2X single chip with full module data " << std::endl;
      mchip = 1;
      remapGroup(1);
      remapGroup(2);
      remapGroup(3);
      mchip = 6;
      remapGroup(1);
      remapGroup(2);
      remapGroup(3);
      iframe = 0;
      std::cout << "data struct created" << std::endl;
    };
    /**
       Returns the value of the selected channel for the given dataset as
       double. \param data pointer to the dataset (including headers etc) \param
       ix pixel number in the x direction \param iy pixel number in the y
       direction \returns data for the selected channel, with inversion if
       required as double
    */
    virtual double getValue(char *data, int ix, int iy = 0) {
        uint16_t val = getChannel(data, ix, iy) & 0x3fff;
        return val;
    };
    /**
    Returns the frame number for the given dataset. Purely virtual func.
    \param buff pointer to the dataset
    \returns frame number
    */
    int getFrameNumber(char *buff) {
 #ifdef ALDO //VH
      return ((header *)buff)->bunchNumber; //VH
 #else //VH
      return ((header *)buff)->detHeader.frameNumber;
 #endif //VH
    };
    /**
       Returns the packet number for the given dataset. purely virtual func
       \param buff pointer to the dataset
       \returns packet number number
    */
    int getPacketNumber(char *buff) {
 #ifdef ALDO //VH
      //uint32_t fakePacketNumber = 1000;
      //return fakePacketNumber; //VH //TODO: Keep in mind in case of bugs! //This is definitely bad!
      return 1000;
 #else //VH
      return ((header *)buff)->detHeader.packetNumber;
 #endif //VH
    };
    char *readNextFrame(std::ifstream &filebin) {
        int ff = -1, np = -1;
        return readNextFrame(filebin, ff, np);
    };
    char *readNextFrame(std::ifstream &filebin, int &ff) {
        int np = -1;
        return readNextFrame(filebin, ff, np);
    };
    char *readNextFrame(std::ifstream &filebin, int &ff, int &np) {
        char *data = new char[dataSize];
        char *d = readNextFrame(filebin, ff, np, data);
        if (d == NULL) {
            delete[] data;
            data = NULL;
        }
        return data;
    };
    char *readNextFrame(std::ifstream &filebin, int &ff, int &np,char *data) {
        char *retval = 0;
        int nd;
        int fnum = -1;
        np = 0;
        int pn;
        //  cout << dataSize << endl;
        if (ff >= 0)
            fnum = ff;
        if (filebin.is_open()) {
            if (filebin.read(data, dataSize)) {
                ff = getFrameNumber(data);
                np = getPacketNumber(data);
                return data;
            }
        }
        return NULL;
    };
    /*    Loops over a memory slot until a complete frame is found (i.e. all */
    /*    packets 0 to nPackets, same frame number). purely virtual func \param */
    /*    data pointer to the memory to be analyzed \param ndata reference to the */
    /*    amount of data found for the frame, in case the frame is incomplete at */
    /*    the end of the memory slot \param dsize size of the memory slot to be */
    /*    analyzed \returns pointer to the beginning of the last good frame (might */
    /*    be incomplete if ndata smaller than dataSize), or NULL if no frame is */
    /*    found */
    /* *\/ */
    virtual char *findNextFrame(char *data, int &ndata, int dsize) {
        if (dsize < dataSize)
            ndata = dsize;
        else
            ndata = dataSize;
        return data;
    };
    // int getPacketNumber(int x, int y) {return dataMap[y][x]/packetSize;};
 };
 #endif
--- a/slsDetectorCalibration/dataStructures/moench04CtbZmq10GbData.h
+++ b/slsDetectorCalibration/dataStructures/moench04CtbZmq10GbData.h
@ -54,28 +54,28 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
 #endif
 #endif
-      cout << "off is " << off << endl;
+    cout << "off is " << off << endl;
-	  if (off>0)
+	if (off>0)
 	    cout << "M04 RAW DATA NEW " << endl;
-	  else
+	else
 	    cout << "M04 ZMQ DATA NEW " << endl;
-            int adc_nr[32] = {9,  8,  11, 10, 13, 12, 15, 14, 1,  0,  3,
+    int adc_nr[32] = {9,  8,  11, 10, 13, 12, 15, 14, 1,  0,  3,
-                              2,  5,  4,  7,  6,  23, 22, 21, 20, 19, 18,
+                        2,  5,  4,  7,  6,  23, 22, 21, 20, 19, 18,
-                              17, 16, 31, 30, 29, 28, 27, 26, 25, 24};
+                        17, 16, 31, 30, 29, 28, 27, 26, 25, 24};
-           
+    
-            int row, col;
+    int row, col;
-            // int isample;
+    // int isample;
-            int iadc;
+    int iadc;
-            // int ix, iy;
+    // int ix, iy;
-            // int npackets=40;
+    // int npackets=40;
-            int i;
+    int i;
-            // int adc4(0);
+    // int adc4(0);
            for (int is = 0; is < aSamples; is++) {
--- a/slsDetectorCalibration/dataStructures/slsDetectorData.h
+++ b/slsDetectorCalibration/dataStructures/slsDetectorData.h
@ -12,8 +12,7 @@ template <class dataType> class slsDetectorData {
    const int nx;  /**< Number of pixels in the x direction */
    const int ny;  /**< Number of pixels in the y direction */
    int dataSize;  /**<size of the data constituting one frame */
-    int **dataMap; /**< Array of size nx*ny storing the pointers to the data in
+ 
                      the dataset (as offset)*/
    dataType **dataMask; /**< Array of size nx*ny storing the polarity of the
                            data in the dataset (should be 0 if no inversion is
                            required, 0xffffffff is inversion is required) */
@ -25,6 +24,9 @@ template <class dataType> class slsDetectorData {
    int isOrdered;
  public:
    int **dataMap; /**< Array of size nx*ny storing the pointers to the data in
                      the dataset (as offset)*/
    /**
    General slsDetectors data structure. Works for data acquired using the
    slsDetectorReceiver. Can be generalized to other detectors (many virtual
@ -196,19 +198,18 @@ template <typename dataType> slsDetectorData<dataType>::~slsDetectorData() {
 template <typename dataType>
 void slsDetectorData<dataType>::setDataMap(int **dMap) {
-    int ip = 0;
+    // int ip = 0;
    int ix, iy;
    if (dMap == NULL) {
-        for (iy = 0; iy < ny; iy++) {
+        for (int iy = 0; iy < ny; iy++) {
-            for (ix = 0; ix < nx; ix++) {
+            for (int ix = 0; ix < nx; ix++) {
                dataMap[iy][ix] = (iy * nx + ix) * sizeof(dataType);
            }
        }
    } else {
        // cout << "set dmap "<< dataMap << " " << dMap << endl;
-        for (iy = 0; iy < ny; iy++) {
+        for (int iy = 0; iy < ny; iy++) {
            // cout << iy << endl;
-            for (ix = 0; ix < nx; ix++) {
+            for (int ix = 0; ix < nx; ix++) {
                dataMap[iy][ix] = dMap[iy][ix];
                // cout << ix << " " << iy << endl;
                /*ip=dataMap[ix][iy]/sizeof(dataType);
@ -218,8 +219,8 @@ void slsDetectorData<dataType>::setDataMap(int **dMap) {
        }
    }
    /* //commented this part because it causes out-of-bound issues if nx or ny are larger than dataMap bounds (single-chip readout of strixel with groups of different pitches) VH 2023-02-24
-    for (iy = 0; iy < ny; iy++) {
+    for (int iy = 0; iy < ny; iy++) {
-        for (ix = 0; ix < nx; ix++) {
+        for (int ix = 0; ix < nx; ix++) {
            ip = dataMap[iy][ix] / sizeof(dataType);
            xmap[ip] = ix;
            ymap[ip] = iy;
@ -291,7 +292,6 @@ template <typename dataType>
 dataType **slsDetectorData<dataType>::getData(char *ptr, int dsize) {
    int el = dsize / sizeof(dataType);
    // dataType **data;
    int ix, iy;
    // data=new dataType*[ny];
    // for(int i = 0; i < ny; i++) {
    //   data[i]=new dataType[nx];
@ -301,6 +301,7 @@ dataType **slsDetectorData<dataType>::getData(char *ptr, int dsize) {
        dsize = dataSize;
    for (int ip = 0; ip < (el); ip++) {
        int ix, iy;
        getPixel(ip, ix, iy);
        if (ix >= 0 && ix < nx && iy >= 0 && iy < ny) {
            // data[iy][ix]=getChannel(ptr,ix,iy);
--- a/slsDetectorCalibration/interpolations/eta2InterpolationBase.h
+++ b/slsDetectorCalibration/interpolations/eta2InterpolationBase.h
@ -23,7 +23,7 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
              /* if (etamin>=etamax) { */
              /*   etamin=-1; */
              /*   etamax=2;  */
-              /*   //  cout << ":" <<endl; */
+              /*   //  std::cout << ":" <<endl; */
              /* } */
              /* etastep=(etamax-etamin)/nbeta; */
@ -164,7 +164,7 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
            dY = -1.;
            break;
        default:
-            cout << "bad quadrant" << endl;
+            std::cout << "bad quadrant" << std::endl;
            dX = 0.;
            dY = 0.;
        }
@ -174,19 +174,19 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
            ex = (etax - etamin) / etastepX;
            ey = (etay - etamin) / etastepY;
            if (ex < 0) {
-                cout << "x*" << ex << endl;
+                std::cout << "x*" << ex << std::endl;
                ex = 0;
            }
            if (ex >= nbetaX) {
-                cout << "x?" << ex << endl;
+                std::cout << "x?" << ex << std::endl;
                ex = nbetaX - 1;
            }
            if (ey < 0) {
-                cout << "y*" << ey << " " << nbetaY << endl;
+                std::cout << "y*" << ey << " " << nbetaY << std::endl;
                ey = 0;
            }
            if (ey >= nbetaY) {
-                cout << "y?" << ey << " " << nbetaY << endl;
+                std::cout << "y?" << ey << " " << nbetaY << std::endl;
                ey = nbetaY - 1;
            }
@ -236,7 +236,7 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
        // calcMyEta(totquad,quad,cl,etax, etay);
        calcEta(totquad, cc, etax, etay);
-        //     cout <<"******"<< etax << " " << etay << endl;
+        //     std::cout <<"******"<< etax << " " << etay << std::endl;
        return addToFlatFieldDistribution(etax, etay);
    }
@ -270,16 +270,16 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
    /*     cc[0][1] = cl[yoff * 3 + xoff + 1]; */
    /*     cc[1][1] = cl[(yoff + 1) * 3 + xoff + 1]; */
-    /*     /\* cout << cl[0] << " " << cl[1] << " " << cl[2] << endl;   *\/ */
+    /*     /\* std::cout << cl[0] << " " << cl[1] << " " << cl[2] << std::endl;   *\/ */
-    /*     /\* cout << cl[3] << " " << cl[4] << " " << cl[5] << endl;   *\/ */
+    /*     /\* std::cout << cl[3] << " " << cl[4] << " " << cl[5] << std::endl;   *\/ */
-    /*     /\* cout << cl[6] << " " << cl[7] << " " << cl[8] << endl;   *\/ */
+    /*     /\* std::cout << cl[6] << " " << cl[7] << " " << cl[8] << std::endl;   *\/ */
-    /*     /\* cout <<"******"<<totquad << " " << quad << endl;  *\/ */
+    /*     /\* std::cout <<"******"<<totquad << " " << quad << std::endl;  *\/ */
-    /*     /\* cout << cc[0][0]<< " " << cc[0][1] << endl;  *\/ */
+    /*     /\* std::cout << cc[0][0]<< " " << cc[0][1] << std::endl;  *\/ */
-    /*     /\* cout << cc[1][0]<< " " << cc[1][1] << endl;  *\/ */
+    /*     /\* std::cout << cc[1][0]<< " " << cc[1][1] << std::endl;  *\/ */
    /*     // calcMyEta(totquad,quad,cl,etax, etay); */
    /*     calcEta(totquad, cc, etax, etay); */
-    /*     //     cout <<"******"<< etax << " " << etay << endl; */
+    /*     //     std::cout <<"******"<< etax << " " << etay << std::endl; */
    /*     return addToFlatFieldDistribution(etax, etay); */
    /* } */
@ -331,7 +331,7 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
    virtual int *getInterpolatedImage() {
        int ipx, ipy;
-        // cout << "ff" << endl;
+        // std::cout << "ff" << std::endl;
        calcDiff(1, hhx, hhy); // get flat
        double avg = 0;
        for (ipx = 0; ipx < nSubPixelsX; ipx++)
@ -347,8 +347,8 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
                ipy = iby % nSubPixelsY - nSubPixelsY / 2;
                if (ipy < 0)
                    ipy = nSubPixelsY + ipy;
-                // cout << ipx << " " << ipy << " " << ibx << " " << iby <<
+                // std::cout << ipx << " " << ipy << " " << ibx << " " << iby <<
-                // endl;
+                // std::endl;
                if (flat[ipx + ipy * nSubPixelsX] > 0)
                    hintcorr[ibx + iby * nSubPixelsX * nPixelsX] =
                        hint[ibx + iby * nSubPixelsX * nPixelsX] *
--- a/slsDetectorCalibration/interpolations/etaInterpolationBase.h
+++ b/slsDetectorCalibration/interpolations/etaInterpolationBase.h
@ -21,14 +21,14 @@ class etaInterpolationBase : public slsInterpolation {
                         double emax = 0)
        : slsInterpolation(nx, ny, ns, nsy), hhx(NULL), hhy(NULL), heta(NULL),
          nbetaX(nb), nbetaY(nby), etamin(emin), etamax(emax) {
-        // cout << "eb " << nb << " " << emin << " " << emax << endl;
+        // std::cout << "eb " << nb << " " << emin << " " << emax << std::endl;
-        // cout << nb << " " << etamin << " " << etamax << endl;
+        // std::cout << nb << " " << etamin << " " << etamax << std::endl;
        if (nbetaX <= 0) {
-            // cout << "aaa:" <<endl;
+            // std::cout << "aaa:" <<endl;
            nbetaX = nSubPixelsX * 10;
        }
        if (nbetaY <= 0) {
-            // cout << "aaa:" <<endl;
+            // std::cout << "aaa:" <<endl;
            nbetaY = nSubPixelsY * 10;
        }
        if (etamin >= etamax) {
@ -145,9 +145,9 @@ class etaInterpolationBase : public slsInterpolation {
        uint32_t nny;
        float *gm = ReadFromTiff(imgname, nnx, nny);
        /* if (nnx!=nny) { */
-        /*   cout << "different number of bins in x " << nnx << "  and y " <<
+        /*   std::cout << "different number of bins in x " << nnx << "  and y " <<
-         * nny<< " !"<< endl; */
+         * nny<< " !"<< std::endl; */
-        /*   cout << "Aborting read"<< endl; */
+        /*   std::cout << "Aborting read"<< std::endl; */
        /*   return 0; */
        /* } */
        nbetaX = nnx;
@ -254,12 +254,12 @@ class etaInterpolationBase : public slsInterpolation {
            if (ibx >= 0 && ibx < nSubPixelsX && iby >= 0 &&
                iby < nSubPixelsY) {
                //
-                // if (ibx>0 && iby>0) cout << ibx << " " << iby << " " << ii <<
+                // if (ibx>0 && iby>0) std::cout << ibx << " " << iby << " " << ii <<
-                // endl;
+                // std::endl;
                ftest[ibx + iby * nSubPixelsX] += heta[ii];
            } else
-                cout << "Bad interpolation " << ii << " " << ibx << " " << iby
+                std::cout << "Bad interpolation " << ii << " " << ibx << " " << iby
-                     << endl;
+                     << std::endl;
        }
        sprintf(tit, "/scratch/ftest_%d.tiff", ind);
@ -282,7 +282,7 @@ class etaInterpolationBase : public slsInterpolation {
        }
        sprintf(tit, "/scratch/eta_bad_%d.tiff", ind);
        WriteToTiff(etah, tit, nbetaX, nbetaY);
-        // cout << "Index: " << ind << "\t Bad bins: "<< nbad << endl;
+        // std::cout << "Index: " << ind << "\t Bad bins: "<< nbad << std::endl;
        // int ibx=0, iby=0;
        delete[] ftest;
@ -330,9 +330,9 @@ class etaInterpolationBase : public slsInterpolation {
            }
        }
-        //  cout << endl << endl;
+        //  std::cout << std::endl << std::endl;
        for (ipy = 0; ipy < nSubPixelsY; ipy++) {
-            cout.width(5);
+            std::cout.width(5);
            // flat_y[ipy]=p_tot_y[ipy];//avg/nSubPixels;
            for (ipx = 0; ipx < nSubPixelsX; ipx++) {
@ -353,19 +353,19 @@ class etaInterpolationBase : public slsInterpolation {
                //"   ";
            }
-            /* cout << "** "  << setprecision(4) <<  flat_y[ipy]; */
+            /* std::cout << "** "  << setprecision(4) <<  flat_y[ipy]; */
-            // cout << "\n";
+            // std::cout << "\n";
        }
-        /* cout << "**" << endl; cout.width(5); */
+        /* std::cout << "**" << std::endl; std::cout.width(5); */
        /* for (ipx=0; ipx<nSubPixels; ipx++) { */
-        /*   cout  << setprecision(4) <<  flat_x[ipx] << " "; */
+        /*   std::cout  << setprecision(4) <<  flat_x[ipx] << " "; */
        /* } */
-        // cout << "**" << endl; cout.width(5);
+        // std::cout << "**" << std::endl; std::cout.width(5);
-        // cout << "Min diff: " << mindiff/sqrt(avg) << " Max diff: " <<
+        // std::cout << "Min diff: " << mindiff/sqrt(avg) << " Max diff: " <<
-        // maxdiff/sqrt(avg) << " Nbad: " << nbad << endl;
+        // maxdiff/sqrt(avg) << " Nbad: " << nbad << std::endl;
-        //   cout << "Bad pixels: " <<
+        //   std::cout << "Bad pixels: " <<
-        //   100.*(float)nbad/((float)(nSubPixels*nSubPixels)) << " %" << endl;
+        //   100.*(float)nbad/((float)(nSubPixels*nSubPixels)) << " %" << std::endl;
        delete[] p_tot_x;
        delete[] p_tot_y;
        delete[] p_tot;
--- a/slsDetectorCalibration/interpolations/etaInterpolationPosXY.h
+++ b/slsDetectorCalibration/interpolations/etaInterpolationPosXY.h
@ -14,8 +14,8 @@ class etaInterpolationPosXY : public virtual etaInterpolationBase {
                          int nb = -1, int nby = -1, double emin = 1,
                          double emax = 0)
        : etaInterpolationBase(nx, ny, ns, nsy, nb, nby, emin, emax){
-              //  cout << "epxy " << nb << " " << emin << " " << emax << endl;
+              //  std::cout << "epxy " << nb << " " << emin << " " << emax << std::endl;
-              //  cout << nbeta << " " << etamin << " " << etamax << endl;
+              //  std::cout << nbeta << " " << etamin << " " << etamax << std::endl;
          };
    etaInterpolationPosXY(etaInterpolationPosXY *orig)
@ -32,14 +32,14 @@ class etaInterpolationPosXY : public virtual etaInterpolationBase {
        ///*Eta Distribution Rebinning*///
        // double bsize=1./nSubPixels; //precision
-        // cout<<"nPixelsX = "<<nPixelsX<<" nPixelsY = "<<nPixelsY<<" nSubPixels
+        // std::cout<<"nPixelsX = "<<nPixelsX<<" nPixelsY = "<<nPixelsY<<" nSubPixels
        // = "<<nSubPixels<<endl;
        double tot_eta = 0;
        double tot_eta_x = 0;
        double tot_eta_y = 0;
        for (int ip = 0; ip < nbetaX * nbetaY; ip++)
            tot_eta += heta[ip];
-        cout << "total eta entries is :" << tot_eta << endl;
+        std::cout << "total eta entries is :" << tot_eta << std::endl;
        if (tot_eta <= 0) {
            ok = 0;
            return;
@ -57,7 +57,7 @@ class etaInterpolationPosXY : public virtual etaInterpolationBase {
            for (int iby = 0; iby < nbetaY; iby++) {
                etay = etamin + iby * etastepY;
-                // cout << etax << endl;
+                // std::cout << etax << std::endl;
                // tot_eta_x+=hx[iby];
                if (etay >= 0 && etay <= 1)
@ -90,7 +90,7 @@ class etaInterpolationPosXY : public virtual etaInterpolationBase {
            for (int ibx = 0; ibx < nbetaX; ibx++) {
                etax = etamin + ibx * etastepX;
-                // cout << etax << endl;
+                // std::cout << etax << std::endl;
                if (etax >= 0 && etax <= 1)
                    hx[ibx] = heta[ibx + ib * nbetaX];
                else {
@ -178,7 +178,7 @@ class eta2InterpolationPosXY : public virtual eta2InterpolationBase,
        : etaInterpolationBase(nx, ny, ns, nsy, nb, nby, emin, emax),
          eta2InterpolationBase(nx, ny, ns, nsy, nb, nby, emin, emax),
          etaInterpolationPosXY(nx, ny, ns, nsy, nb, nby, emin, emax){
-              //  cout << "e2pxy " << nb << " " << emin << " " << emax << endl;
+              //  std::cout << "e2pxy " << nb << " " << emin << " " << emax << std::endl;
          };
    eta2InterpolationPosXY(eta2InterpolationPosXY *orig)
@ -198,8 +198,8 @@ class eta3InterpolationPosXY : public virtual eta3InterpolationBase,
        : etaInterpolationBase(nx, ny, ns, nsy, nb, nby, emin, emax),
          eta3InterpolationBase(nx, ny, ns, nsy, nb, nby, emin, emax),
          etaInterpolationPosXY(nx, ny, ns, nsy, nb, nby, emin, emax){
-              //   cout << "e3pxy " << nbeta << " " << etamin << " " << etamax
+              //   std::cout << "e3pxy " << nbeta << " " << etamin << " " << etamax
-              //   << " " << nSubPixels<< endl;
+              //   << " " << nSubPixels<< std::endl;
          };
    eta3InterpolationPosXY(eta3InterpolationPosXY *orig)
--- a/slsDetectorCalibration/jungfrauExecutables/Makefile
+++ b/slsDetectorCalibration/jungfrauExecutables/Makefile
@ -0,0 +1 @@
 Makefile.zmqrootdisp
--- a/slsDetectorCalibration/jungfrauExecutables/Makefile.zmqrootdisp
+++ b/slsDetectorCalibration/jungfrauExecutables/Makefile.zmqrootdisp
@ -18,7 +18,7 @@ LDFLAG= -L/usr/lib64/ -lpthread -lm  -lstdc++  -lzmq -pthread -lrt -ltiff   -O3
 default: onlinedisp_zmq
-onlinedisp_zmq: onlinedisp_zmq.cpp onlinedisp_zmq.h 
+onlinedisp_zmq: onlinedisp_zmq.cpp onlinedisp_zmq.h ../dataStructures/jungfrauLGADStrixelsData_new.h
 # flags from root-config --cflags --glibs
 	g++ -o onlinedisp_zmq onlinedisp_zmq.cpp  -I. -I$(ROOTSYS)/include -Wall -g -lm  -L. -lzmq -pthread -lrt -L$(ROOTSYS)/lib -lGui -lCore  -lRIO -lNet -lHist -lGraf -lGraf3d -lGpad -lTree -lRint -lPostscript -lMatrix  -lPhysics -lMathCore -lThread -m64 $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) 
--- a/slsDetectorCalibration/jungfrauExecutables/onlinedisp_zmq.cpp
+++ b/slsDetectorCalibration/jungfrauExecutables/onlinedisp_zmq.cpp
@ -7,17 +7,23 @@ sls::zmqHeader zHeader;
 #define NPRO 50
 #define NPRI 50
-//#define JFSTRX
+#define JFSTRX
 #ifdef JFSTRX
-#include "jungfrauLGADStrixelsData.h"
+#include "jungfrauLGADStrixelsData_new.h"
-#else
+#include "sls/sls_detector_defs.h"
-#include "jungfrauModuleData.h"
+#include "slsDetectorData.h"
 using header = sls::defs::sls_receiver_header;
 #endif
 int main(int argc, char* argv[]) 
 {
  goout=1;
  hasallpede=false;
  dophotonmap=true;  if ((argc<3)) {printf("USAGE: command photon_energy_(peakinADC) [rx_ip]  [port] \n"); return -1  ;}
@ -43,9 +49,19 @@ int main(int argc, char* argv[])
 #ifdef JFSTRX
    cout << "JFSTRX" << endl;
    jungfrauLGADStrixelsData *decoder = new jungfrauLGADStrixelsData();
-    nx = 1024/5; ny= 512*5;
+
    decoder->getDetectorSize(nx,ny);
    cout<<    decoder->dataMap[22][22] <<endl;
 #else
    nx = 1024; ny= 512;
 #endif
@ -57,7 +73,7 @@ int main(int argc, char* argv[])
  HDraw_every=20;
  fixranges=false;
-
+  int group;
  hchptr = (short*) malloc(NCH*sizeof(short)); 
@ -80,29 +96,85 @@ int main(int argc, char* argv[])
  char hname[100];
 #ifdef JFSTRX
  int nxx=79; int nyy=165;
  his1000= new TH2F("his1000","2d, chip 1 group 1 (25um) pede corr.",nxx,-0.5,nxx-0.5,nyy,-0.5,nyy-0.5);
  his1060= new TH2F("his1060","2d,  chip 6 group 1 (25um) pede corr.",nxx,-0.5,nxx-0.5,nyy,-0.5,nyy-0.5);
  nxx=47; nyy=320; //320;
  his1001= new TH2F("his1001","2d, chip 1 group 2 (15um) pede corr.",nxx,-0.5,nxx-0.5,nyy,-0.5,nyy-0.5);
  his1061= new TH2F("his1061","2d, chip 6 group 2 (15um) pede corr.",nxx,-0.5,nxx-0.5,nyy,-0.5,nyy-0.5);
  nxx=59; nyy=476; //476;
  his1002= new TH2F("his1002","2d, chip 1 group 3 (18.75um) pede corr.",nxx,-0.5,nxx-0.5,nyy,-0.5,nyy-0.5);
  his1062= new TH2F("his1002","2d, chip 6 group 3 (18.75um) pede corr.",nxx,-0.5,nxx-0.5,nyy,-0.5,nyy-0.5);
  his1000->SetOption("colz");
  his1001->SetOption("colz");
  his1002->SetOption("colz");
  his1060->SetOption("colz");
  his1061->SetOption("colz");
  his1062->SetOption("colz");
 #else
  his1000= new TH2F("his1000","2d , ev. pede corrected",nx,-0.5,nx-0.5,ny,-0.5,ny-0.5);
  his1000->SetOption("colz");
 #endif
  his2000= new TH2F("his2000","2d gain ",nx,-0.5,nx-0.5,ny,-0.5,ny-0.5);
  his2000->GetZaxis()->SetRangeUser(0,4);
  if (dophotonmap) {
-    his3000= new TH2F("his3000"," photon map  ",nx,-0.5,nx-0.5,ny,-0.5,ny-0.5);
+    his3000= new TH2F("his3000"," photon map  ",1024,-0.5,1024-0.5,512,-0.5,512-0.5);
  }
  else {
-    his3000= new TH2F("his3000"," raw adc  ",nx,-0.5,nx-0.5,ny,-0.5,ny-0.5);
+    his3000= new TH2F("his3000"," raw adc  ",1024,-0.5,1024-0.5,512,-0.5,512-0.5);
  }
-  his4500= new TH2F("his45000","L vs R",101,-50,500,101,-50,500);
+  his4500= new TH2F("his4500","T vs B",101,-500,MAX_POS,101,-500,MAX_POS);
  hchip=new TH1I*[8];
 #ifdef JFSTRX
  for (i=0;i<8;i++) {
    if(i<3)
      sprintf(hname,"%d_hchip1group%d",i,i+1);
    else if (i>4)
      sprintf(hname,"%d_hchip6group%d",i, i-4);
    else
      sprintf(hname,"%d_",i);
    hchip[i] = new TH1I(hname,hname,NBIN,MIN_POS,MAX_POS);
  }
 #else
  for (i=0;i<8;i++) {
    sprintf(hname,"hchip%d",i);
    hchip[i] = new TH1I(hname,hname,NBIN,MIN_POS,MAX_POS);
  }
 #endif
  cout <<"end of histo booking" <<endl;
  if  (A2==NULL)  A2 = new TCanvas("A2","Plotting Canvas gain",150,10,500,250);
-  if  (A3==NULL)  A3 = new TCanvas("A3","Plotting Canvas ADC",150,360,1200,550);
+  if  (A3==NULL)  {
 #ifdef JFSTRX
    A3 = new TCanvas("A3","Plotting Canvas ADC",150,360,1200,750);
    p1 = new TPad("p1","p1",0.01,0.5,0.49,1.);
    p1->Draw();
    p2 = new TPad("p2","p2",0.51,0.75,0.99,0.97);
    p2->Draw();
    p3 = new TPad("p3","p3",0.01,0.25,0.49,0.47);
    p3->Draw();
    p4 = new TPad("p4","p4",0.51,0.53,0.99,0.75);
    p4->Draw();
    p5 = new TPad("p5","p5",0.01,0.03,0.49,0.25);
    p5->Draw();
    p6 = new TPad("p6","p6",0.51,0.,0.99,0.5);
    p6->Draw();
    //A3->Divide(2,3);
    // TVirtualPad* g=A3->cd(1);
    // g->SetCanvasSize( g->GetWw(), 2*g->GetWw());
    //  g=A3->cd(6);
    // g->SetCanvasSize( g->GetWw(), 2*g->GetWw());
 #else
    A3 = new TCanvas("A3","Plotting Canvas ADC",150,360,1200,550);
 #endif
    }
  if  (A4==NULL)  A4 = new TCanvas("A4","Plotting Canvas PHs",750,300,1000,800);
  A4->Clear();
  A4->Divide(4,2,0.005,0.005);
@ -131,7 +203,14 @@ int main(int argc, char* argv[])
    }
    {
-
+     
      memcpy(&croi, &zHeader.detSpec1, 8);  
      ROIxmin=croi.xmin;
      ROIxmax=croi.xmax;
      ROIymin=croi.ymin;
      ROIymax=croi.ymax;
      cout<<" ROIymin "<<  ROIymin<<endl;
      framesinstream++;
      running++;
@ -143,7 +222,19 @@ int main(int argc, char* argv[])
      npacket=0;
      if  (show2Ds)  {
 #ifdef JFSTRX
 	his1000->Reset(); 
 	his1001->Reset(); 
 	his1002->Reset();
 	his1060->Reset(); 
 	his1061->Reset(); 
 	his1062->Reset();
 #else
 	his1000->Reset(); 
 #endif
 	his2000->Reset(); 
 	if (!dophotonmap) his3000->Reset(); //FOR RAW ADC DISPLAY 
      }
@ -187,10 +278,28 @@ int main(int argc, char* argv[])
 	  if (fill1Ds) {
 	    if (((i%1024)<1004)&&((i%1024)>20)&&((i/1024)>20)) { //skip the pix near guardring for PH plots
 	      ichip= i/(256*256*4)*4+((i/256)%4)  ;
-	   
+#ifdef JFSTRX
 	      int new_ichip=0;
 	      //exclude border rows of each group
 	      if (ichip==1) {
 		if (i<=(1024*(64-2))) new_ichip=0; //chip 1 group 1
 		if (i>(1024*(64+6))&&(i<=(1024*(64*2-4)))) new_ichip=1; //chip 1 group 2
 		if (i>(1024*(64*2+5))) new_ichip=2; //chip 1 group 3
 	      }
 	      if (ichip==6) {
 		if (i<=(1024*(256+2*64-5))) new_ichip=7; //chip 6 group 3
 		if (i>(1024*(256+2*64+4))&&(i<=(1024*(256+64*3-6)))) new_ichip=6; //chip 6 group 2
 		if (i>(1024*(256+64*3-4))) new_ichip=5; //chip 6 group 1
 	      }
 	      hchip[new_ichip]->Fill(adcpedecorr,1);
 #else	   
 	      hchip[ichip]->Fill(adcpedecorr,1);
 #endif
-	      if (((i%256)<253)&&((i%256)>2)) his4500->Fill(adcpedecorrold,adcpedecorr,1);
+	      //	      if (((i%256)<253)&&((i%256)>2)) his4500->Fill(adcpedecorrold,adcpedecorr,1);
 	      adcpedecorrold=adcpedecorr;
@ -200,33 +309,110 @@ int main(int argc, char* argv[])
 	  if ((show2Ds)) {
 	    factor=2.0;
 	    value=adcpedecorr;
 	    if ((i%256==0)||(i%256==255)) value=int(value/factor);
 	    if ((i/1024==255)||(i/1024==256)||(i/1024==767)||(i/1024==768)) value=int(value/factor);
 	    his1000->Fill(float(i%1024),float(int (i/1024)),value);
 	    if (!dophotonmap) his3000->Fill(float(i%1024),float(int (i/1024)) ,adcvalue);
 	    his2000->Fill(float(i%1024),float(int (i/1024)) ,gain);
 	    value=(int)(hchptr[i]);
 	    if ((i%256==0)||(i%256==255)) value=int(value/factor);
 	    if ((i/1024==255)||(i/1024==256)||(i/1024==767)||(i/1024==768)) value=int(value/factor);
 	    if (dophotonmap) his3000->Fill(float(i%1024),float(int (i/1024)),float(value));
 	  }
 	}//   for (i=0 ;i<NCH-0;i++)
 	if ((show2Ds)) {
 	  for (ipx=0;ipx<nx;ipx++){
 	    for (ipy=0;ipy<ny;ipy++){
 	    // for (ipx=0;ipx<nx;ipx++){
 #ifdef JFSTRX
 	      //cout<<i<< " cdcsdcvsvcsc  " << group << "  " << (decoder->dataMap[ipy][ipx])/2 << endl; 
 	      i=int (((decoder->dataMap[ipy][ipx])-sizeof(header)) /2);
 	      group=(decoder->groupmap[ipy][ipx]);
 	      //     cout<<i<< "  "<<ipx<<"  "<<ipy<< "  " << group <<endl; 
 #else	      
 	      i=ipx+ipy*1024;
 #endif
 		value= ((image_data[i]) & 0x3fff) -fpeded[i];
 #ifndef JFSTRX
 		if ((i%256==0)||(i%256==255)) value=int(value/factor);
 		if ((i/1024==255)||(i/1024==256)||(i/1024==767)||(i/1024==768)) value=int(value/factor);
 #endif
 		//	        his1000->Fill(float(ipx),float(ipy),value);
 		//	if ((ipy>165)&&(ipy<320+165)){ his1000->Fill(float(ipx)*5/3.0,float(ipy),value);}
 		//	else  { his1000->Fill(float(ipx),float(ipy),value);}
 #ifdef JFSTRX
 		static const int mc1g1y_start = 0;
 		static const int mc1g2y_start = g1_nrows;
 		static const int mc1g3y_start = g1_nrows+g2_nrows;
 		static const int mc6g3y_start = g1_nrows+g2_nrows+g3_nrows;
 		static const int mc6g2y_start = mc6g3y_start + g3_nrows;
 		static const int mc6g1y_start = mc6g3y_start  + g3_nrows + g2_nrows;
 		if (group==0) {
 		  if (ipy<165){
 		    his1000->Fill(float(ipx),float(ipy-mc1g1y_start),value);}
 		  if (ipy>=mc6g1y_start){
 		    his1060->Fill(float(ipx),float(ipy-mc6g1y_start),value);}
 		}
 		if (group==1) {
 		  if (ipy<(165+320)){ 
 		    his1001->Fill(float(ipx),float(ipy-mc1g2y_start),value);}
 		  if ( (ipy>=mc6g2y_start) && (ipy<mc6g1y_start) ){his4500->Fill(value,oldvalue,1.0);
 		    oldvalue=value;
 		    his1061->Fill(float(ipx),float(ipy-mc6g2y_start),value);}
 		}
 		if (group==2) {
 		  if (ipy<(165+320+476))
 		    his1002->Fill(float(ipx),float(ipy-mc1g3y_start),value);
 		  if ( (ipy>=mc6g3y_start) && (ipy<mc6g2y_start) )
 		    his1062->Fill(float(ipx),float(ipy-mc6g3y_start),value);
 		}
 #else
 	his1000->Fill(float(ipx),float(ipy),value);
 #endif
 	his2000->Fill(float(ipx),float(ipy) ,gain);
 		// if (!dophotonmap)his3000->Fill(float(ipx),float(ipy) ,value);
 		// value=(int)(hchptr[i]);
 		// if (dophotonmap) his3000->Fill(float(ipx),float(ipy),float(value));
 	    }// for ipx
 	  } //for ipy
 	  for (ipx=0;ipx<1024;ipx++){
 	    for (ipy=0;ipy<512;ipy++){
 	      i=ipx+ipy*1024;
 	      value= ((image_data[i]) & 0x3fff) -fpeded[i];
 	      if (!dophotonmap)his3000->Fill(float(ipx),float(ipy) ,value);
 	      value=(int)(hchptr[i]);
 	      if (dophotonmap) his3000->Fill(float(ipx),float(ipy),float(value));
 	    }
 	  }
 	}// endo of show2d 
      }// /end of do something 
      if   ((show2Ds)) {
-	for (ipx=0;ipx<NCH;ipx++) hchptr[(ipx)]=0;
+	for (i=0;i<NCH;i++) hchptr[(i)]=0;
@ -419,10 +605,31 @@ void SetRanges() {
 void axisreset(){
  fixranges=false;
 #ifdef JFSTRX
  his1000->GetXaxis()->UnZoom();
  his1000->GetYaxis()->UnZoom();
  his1000->GetZaxis()->UnZoom();
  his1001->GetXaxis()->UnZoom();
  his1001->GetYaxis()->UnZoom();
  his1001->GetZaxis()->UnZoom();
  his1002->GetXaxis()->UnZoom();
  his1002->GetYaxis()->UnZoom();
  his1002->GetZaxis()->UnZoom();
  his1060->GetXaxis()->UnZoom();
  his1060->GetYaxis()->UnZoom();
  his1060->GetZaxis()->UnZoom();
  his1061->GetXaxis()->UnZoom();
  his1061->GetYaxis()->UnZoom();
  his1061->GetZaxis()->UnZoom();
  his1062->GetXaxis()->UnZoom();
  his1062->GetYaxis()->UnZoom();
  his1062->GetZaxis()->UnZoom();
 #else
  his1000->GetXaxis()->UnZoom();
  his1000->GetYaxis()->UnZoom();
  his1000->GetZaxis()->UnZoom();
 #endif
  his2000->GetXaxis()->UnZoom();
  his2000->GetYaxis()->UnZoom();
@ -540,7 +747,6 @@ void Plot1DHistos(void){
 void Plot2DHistos(void){
  gStyle->SetOptStat(0);
  A3->cd();
  //  if (bw_flag) LoadPaletteBW(1.0);
@ -553,8 +759,24 @@ void Plot2DHistos(void){
  }
  his1000->SetMinimum(-200);
  his1000->Draw();
 #ifdef JFSTRX
  p5->cd();
  his1000->Draw("colz");
  p3->cd();
  his1001->Draw("colz");
  p1->cd();
  his1002->Draw("colz");
  p2->cd();
  his1060->Draw("colz");
  p4->cd();
  his1061->Draw("colz");
  p6->cd();
  his1062->Draw("colz");
 #else
  A3->cd();
  his1000->Draw("colz");
 #endif
  A3->Update();
  A2->cd();
  // if (bw_flag)  LoadPaletteFalse();
@ -565,9 +787,16 @@ void Plot2DHistos(void){
  A2->Update(); 
  A5->cd();
-  his3000->GetXaxis()->SetRange(his1000->GetXaxis()->GetFirst(),his1000->GetXaxis()->GetLast());
+  //his3000->GetXaxis()->SetRange(his1000->GetXaxis()->GetFirst(),his1000->GetXaxis()->GetLast());
-  his3000->GetYaxis()->SetRange(his1000->GetYaxis()->GetFirst(),his1000->GetYaxis()->GetLast());
+  //his3000->GetYaxis()->SetRange(his1000->GetYaxis()->GetFirst(),his1000->GetYaxis()->GetLast());
  his3000->Draw("colz");
  box = new TBox(ROIxmin,ROIymin,ROIxmax,ROIymax);
  box->SetLineColor(kRed);
  box->SetFillStyle(0);
  box->SetLineWidth(2);
  box->Draw();
  A5->Update();
  A6->cd();
--- a/slsDetectorCalibration/jungfrauExecutables/onlinedisp_zmq.h
+++ b/slsDetectorCalibration/jungfrauExecutables/onlinedisp_zmq.h
@ -56,6 +56,7 @@ using namespace sls;
 #include "TMath.h"
 #include "TFile.h"
 #include "TStyle.h"
 #include "TBox.h"
 #include "TSystem.h"
 #include "TTimer.h"
 #include "TProfile.h"
@ -81,7 +82,7 @@ using namespace sls;
 #define OFFSET 0
 #define NBIN 500  
 #define MIN_POS  -500.5   // 400.5   
-#define MAX_POS 3499.5   //-100.5
+#define MAX_POS 8499.5   //-100.5
 #define NCH 524288
@ -92,7 +93,7 @@ int portnum;
 FILE * sfilefd;
 short* hchptr; // photon counted map "histogram"
-int value;
+int value,oldvalue;
 float factor=1.84;
 int npacket=0;
 int totalnpacket=0;
@ -105,6 +106,7 @@ struct hostent      *server;
 int i=0;
 int ipx=0;
 int ipy=0;
 bool haveconnection;
@ -112,6 +114,12 @@ TStyle *gStyle;
 TApplication* rootapp;
 TCanvas *A2;
 TCanvas *A3;
 TPad *p1;
 TPad *p2;
 TPad *p3;
 TPad *p4;
 TPad *p5;
 TPad *p6;
 TCanvas *A4;
 TCanvas *A5;
 TCanvas *A6;
@ -139,6 +147,18 @@ bool fill1Ds;
 bool pede_flag;
 bool dophotonmap;
      typedef struct {
        uint16_t xmin;
     	uint16_t xmax;
     	uint16_t ymin;
     	uint16_t ymax;
      } receriverRoi_compact;   
     receriverRoi_compact croi;
 TBox *box;
 uint16_t ROIxmin;
 uint16_t ROIxmax;
 uint16_t ROIymin;
 uint16_t ROIymax;     
 int nx, ny;
 int nframes;
 int goout;
@ -154,7 +174,8 @@ int frameIndex_old;
 char pedefilename[128];
 int  framenum,bunchid;
-TH2F* his1000;
+TH2F* his1000;TH2F* his1001;TH2F* his1002;
 TH2F* his1060;TH2F* his1061;TH2F* his1062;
 TH2F* his2000;
 TH2F* his3000;
 TH2F* his4500;
--- a/slsDetectorCalibration/moenchExecutables/moench03NoInterpolation.cpp
+++ b/slsDetectorCalibration/moenchExecutables/moench03NoInterpolation.cpp
@ -30,13 +30,14 @@ int main(int argc, char *argv[]) {
    int runmax = atoi(argv[5]);
    int nsubpix = atoi(argv[6]);
-    int etabins = 1000; // nsubpix*2*100;
+    // int etabins = 1000; // nsubpix*2*100;
-    double etamin = -1, etamax = 2;
+    // double etamin = -1, etamax = 2;
    int quad;
    double sum, totquad;
    double sDum[2][2];
-    double etax, etay, int_x, int_y;
+    // double etax, etay;
-    int ok;
+    double int_x, int_y;
    // int ok;
    int ix, iy, isx, isy;
--- a/slsDetectorCalibration/moenchExecutables/moenchRawDataProcess.cpp
+++ b/slsDetectorCalibration/moenchExecutables/moenchRawDataProcess.cpp
@ -86,17 +86,10 @@ int main(int argc, char *argv[]) {
 #endif
-
+    //Read detector size from decoder
-    int nx = 400, ny = 400;
+    int nx , ny;
    decoder->getDetectorSize(nx, ny);
-#ifdef CORR
+
    int ncol_cm = CM_ROWS;
    double xt_ghost = C_GHOST;
 #endif
    moench03CommonMode *cm = NULL;
    moench03GhostSummation *gs;
    double *gainmap = NULL;
    //float *gm;
    int ff, np;
@ -171,8 +164,15 @@ int main(int argc, char *argv[]) {
    uint32_t nnx, nny;
    moench03CommonMode *cm = nullptr;
    moench03GhostSummation *gs = nullptr;
    double *gainmap = nullptr;
 #ifdef CORR
-    cout << "Applying common mode  " << ncol_cm << endl;
+    int ncol_cm = CM_ROWS;
    double xt_ghost = C_GHOST;
    std::cout << "Applying common mode  " << ncol_cm << endl;
    cm = new moench03CommonMode(ncol_cm);
    // cout << "Applying ghost corrections " << xt_ghost << endl;
--- a/slsDetectorServers/ctbDetectorServer/slsDetectorFunctionList.c
+++ b/slsDetectorServers/ctbDetectorServer/slsDetectorFunctionList.c
@ -332,7 +332,7 @@ void getServerVersion(char *version) { strcpy(version, APICTB); }
 uint64_t getFirmwareVersion() {
 #ifdef VIRTUAL
-    return 0;
+    return REQRD_FRMWR_VRSN;
 #endif
    return ((bus_r(FPGA_VERSION_REG) & FPGA_VERSION_BRD_RVSN_MSK) >>
            FPGA_VERSION_BRD_RVSN_OFST);
--- a/slsDetectorServers/gotthard2DetectorServer/slsDetectorFunctionList.c
+++ b/slsDetectorServers/gotthard2DetectorServer/slsDetectorFunctionList.c
@ -256,7 +256,7 @@ void getServerVersion(char *version) { strcpy(version, APIGOTTHARD2); }
 u_int64_t getFirmwareVersion() {
 #ifdef VIRTUAL
-    return 0;
+    return REQRD_FRMWRE_VRSN;
 #endif
    return ((bus_r(FPGA_VERSION_REG) & FPGA_COMPILATION_DATE_MSK) >>
            FPGA_COMPILATION_DATE_OFST);
--- a/slsDetectorServers/gotthardDetectorServer/slsDetectorFunctionList.c
+++ b/slsDetectorServers/gotthardDetectorServer/slsDetectorFunctionList.c
@ -275,7 +275,7 @@ void getServerVersion(char *version) { strcpy(version, APIGOTTHARD); }
 u_int64_t getFirmwareVersion() {
 #ifdef VIRTUAL
-    return 0;
+    return 1;
 #endif
    return ((bus_r(FPGA_VERSION_REG) & FPGA_VERSION_MSK) >> FPGA_VERSION_OFST);
 }
--- a/slsDetectorServers/jungfrauDetectorServer/slsDetectorFunctionList.c
+++ b/slsDetectorServers/jungfrauDetectorServer/slsDetectorFunctionList.c
@ -266,7 +266,7 @@ void getServerVersion(char *version) { strcpy(version, APIJUNGFRAU); }
 u_int64_t getFirmwareVersion() {
 #ifdef VIRTUAL
-    return 0;
+    return REQRD_FRMWRE_VRSN;
 #endif
    return ((bus_r(FPGA_VERSION_REG) & FPGA_COMPILATION_DATE_MSK) >>
            FPGA_COMPILATION_DATE_OFST);
--- a/slsDetectorServers/moenchDetectorServer/slsDetectorFunctionList.c
+++ b/slsDetectorServers/moenchDetectorServer/slsDetectorFunctionList.c
@ -270,7 +270,8 @@ void getServerVersion(char *version) { strcpy(version, APIMOENCH); }
 u_int64_t getFirmwareVersion() {
 #ifdef VIRTUAL
-    return 0;
+    return (isHardwareVersion_1_0() ? REQRD_FRMWRE_VRSN
                                    : REQRD_FRMWRE_VRSN_BOARD2);
 #endif
    return ((bus_r(FPGA_VERSION_REG) & FPGA_COMPILATION_DATE_MSK) >>
            FPGA_COMPILATION_DATE_OFST);
--- a/slsDetectorServers/mythen3DetectorServer/slsDetectorFunctionList.c
+++ b/slsDetectorServers/mythen3DetectorServer/slsDetectorFunctionList.c
@ -250,7 +250,7 @@ void getServerVersion(char *version) { strcpy(version, APIMYTHEN3); }
 u_int64_t getFirmwareVersion() {
 #ifdef VIRTUAL
-    return 0;
+    return REQRD_FRMWRE_VRSN;
 #endif
    return ((bus_r(FPGA_VERSION_REG) & FPGA_COMPILATION_DATE_MSK) >>
            FPGA_COMPILATION_DATE_OFST);
Author	SHA1	Message	Date
Erik Frojdh	7d7a4e79d0	minor fixes	2023-03-31 09:40:03 +02:00
Erik Fröjdh	3b8c612103	Fixed build of the moenchZmqExecutables (#706 ) * changed to pure virtual methods for Clone and setClusterSize * added std:: * added moench to the github actions build	2023-03-29 15:01:22 +02:00
Erik Fröjdh	08c0c59a28	Added github actions for build and run unit tests (#705 )	2023-03-28 16:27:01 +02:00
Dhanya Thattil	7e01095684	Fix tests (#698 ) * fix firmwareversion to reqd version as fw version cannot be 0 for virtual	2023-03-28 15:22:36 +02:00
mozzanica	500442fd6b	modified ZMQonline display for stripsel usage. (#699 ) * modified ZMQonline display for stripsel usage. modified dataprocessor to overwrite header.detspec1 with ROI in case of ROI. * Removing changes to the slsReceiver, moved to branch jf_zeromq_display_rxroi	2023-03-22 14:25:02 +01:00