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slsDetectorPackage/slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData_new.h
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

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// 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
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