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Update data structures and eta functions for JF strixels

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This commit is contained in:
hinger_v 2023-03-17 15:33:01 +01:00
parent 339cb925c7
commit 943a85cbd5
7 changed files with 1331 additions and 39 deletions
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85
slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData.h
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@ -2,7 +2,11 @@
// Copyright (C) 2021 Contributors to the SLS Detector Package // Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef JUNGFRAULGADSTRIXELDATA_H #ifndef JUNGFRAULGADSTRIXELDATA_H
#define JUNGFRAULGADSTRIXELDATA_H #define JUNGFRAULGADSTRIXELDATA_H
#ifdef CINT
#include "sls/sls_detector_defs_CINT.h"
#else
#include "sls/sls_detector_defs.h" #include "sls/sls_detector_defs.h"
#endif
#include "slsDetectorData.h" #include "slsDetectorData.h"
/* /*
@ -32,7 +36,7 @@ typedef struct {
uint64_t bunchNumber; /**< is the frame number */ uint64_t bunchNumber; /**< is the frame number */
uint64_t pre; /**< something */ uint64_t pre; /**< something */
} jf_header; } jf_header; //Aldo's header
using namespace std; using namespace std;
@ -41,7 +45,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
private: private:
int iframe; int iframe;
#ifdef ALDO //VH
using header = jf_header; //VH
#else //VH
using header = sls::defs::sls_receiver_header; using header = sls::defs::sls_receiver_header;
#endif //VH
public: public:
/** /**
Implements the slsReceiverData structure for the moench02 prototype read Implements the slsReceiverData structure for the moench02 prototype read
@ -53,6 +61,9 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
: slsDetectorData<uint16_t>(1024/5, 512*5, : slsDetectorData<uint16_t>(1024/5, 512*5,
512 * 1024 * 2 + sizeof(header)) { 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 ix = 0; ix < 1024/5; ix++) {
for (int iy = 0; iy < 512*5; iy++) { for (int iy = 0; iy < 512*5; iy++) {
dataMap[iy][ix] = sizeof(header);//+ ( 1024 * 5 + 300) * 2; //somewhere on the guardring of the LGAD dataMap[iy][ix] = sizeof(header);//+ ( 1024 * 5 + 300) * 2; //somewhere on the guardring of the LGAD
@ -61,44 +72,51 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
#endif #endif
} }
} }
int x0=256+10, x1=256+246;
int y0=10, y1=256-10; //chip1
/*
* TL;DR comments: y0 is too high by 1, group 1 and group 2 are by one row too short
* group34 by 2 rows, x is by one column too short
* NOTE: If x0, x1, y0 are changed, likely also ox (and oy and ooy) will be affected!
*/
cout << "G0" << endl; //chip coordinates of chip1 group1: x=255+10 to x=255+246, y=10 to y=64
//9 pixels guard ring, bonding shift by one pixel in y, one square pixel in x on the left
int x0=256+10, x1=256+246; //excludes first column (in chip coordinates)
int y0=10, y1=256-10; //y1 does nothing
int ix,iy; int ix,iy;
int ox=0, oy=0, ooy=0; int ox=0, oy=0, ooy=0;
ox=0; ox=0;
cout << "G0" << endl;
//chip1
for (int ipx=x0; ipx<x1; ipx++) { for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0; ipy<y0+54; ipy++) { 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; ix=(ipx-x0+ox)/3;
iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy; iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2; dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
// cout << ipx << " " << ipy << " " << ix << " " << iy << endl; // cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
} }
} }
cout << "G1" << endl;
cout << "G1" << endl; //chip coordinates of chip1 group2: x=255+12 to x=255+246, y=65 to y=128
//3 square pixels in x on the left
oy=-54; oy=-54;
ooy=54*3; ooy=54*3;
ox=3; ox=3;
for (int ipx=x0; ipx<x1; ipx++) { for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+54; ipy<y0+64+54; ipy++) { 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; ix=(ipx-x0+ox)/5;
iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy; iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2; dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
} }
} }
cout << "G2" << endl; cout << "G2" << endl; //chip coordinates of chip1 group34: x=255+11 to x=255+246, y=129 to y=247
//2 square pixels on the left
oy=-54-64; oy=-54-64;
ooy=54*3+64*5; ooy=54*3+64*5;
ox=3; ox=3;
for (int ipx=x0; ipx<x1; ipx++) { for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+64+54; ipy<y0+64*2+54*2; ipy++) { for (int ipy=y0+64+54; ipy<y0+64*2+54*2; ipy++) { //Same as above, I think it should be y0+55+64 and y0+55*2+64*2 to include all rows
ix=(ipx-x0+ox)/4; ix=(ipx-x0+ox)/4;
iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy; iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2; dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
@ -106,43 +124,50 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
} }
//chip 6 //chip 6
/*
* TL;DR comments: y0 is too high by 3, group34 and group 1 are by one row too short
* x is by two columns too short
* NOTE: If x0, x1, y0 are changed, likely also ox (and oy and ooy) will be affected!
*/
cout << "G0" << endl; //chip coordinates of chip6 group34: x=255+256+9 to x=255+256+244, y=255+8 to y=255+126
//9 pixels guard ring, bonding shift by one pixel in -y, 2 square pixels in x on the right
x0=256*2+10; x0=256*2+10;
y0=256+10; y0=256+10;
x1=256*2+246; x1=256*2+246;
ooy=256*5; ooy=256*5;
oy=0; oy=0;
ox=1; ox=1;
cout << "G0" << endl;
for (int ipx=x0; ipx<x1; ipx++) { for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0; ipy<y0+54+64; ipy++) { for (int ipy=y0; ipy<y0+54+64; ipy++) { //shifted by 3 rows because of y0, if y0 is corrected it should be y0+55+64 to include all rows
ix=(ipx-x0+ox)/4; ix=(ipx-x0+ox)/4;
iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy; iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2; 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;
} }
} }
cout << "G1" << endl;
cout << "G1" << endl; //chip coordinates of chip6 group2: x=255+256+9 to x=255+256+243, y=255+127 to y=255+190
//3 square pixels in x on the right
oy=-54-64; oy=-54-64;
ooy+=(54+64)*4; ooy+=(54+64)*4;
ox=1; ox=1;
for (int ipx=x0; ipx<x1; ipx++) { for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+54+64; ipy<y0+64*2+54; ipy++) { for (int ipy=y0+54+64; ipy<y0+64*2+54; ipy++) { //shifted by 3 rows because of y0, if y0 is corrected it should be y0+55+64 and y0+55+64*2 to include all rows
ix=(ipx-x0+ox)/5; ix=(ipx-x0+ox)/5;
iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy; iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2; dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
} }
} }
cout << "G2" << endl; cout << "G2" << endl; //chip coordinates of chip6 group1: x=255+256+9 to x=255+256+245, y=255+191 to y=255+245
//one square pixel in x on the right
oy=-54-64*2; oy=-54-64*2;
ooy+=64*5; ooy+=64*5;
ox=1; ox=1;
for (int ipx=x0; ipx<x1; ipx++) { for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+64*2+54; ipy<y0+64*2+54*2; ipy++) { for (int ipy=y0+64*2+54; ipy<y0+64*2+54*2; ipy++) { //shifted by 3 rows because of y0, if y0 is corrected it should be y0+55+64*2 and y0+55*2+64*2
ix=(ipx-x0+ox)/3; ix=(ipx-x0+ox)/3;
iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy; iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2; dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
@ -206,7 +231,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
int getFrameNumber(char *buff) { int getFrameNumber(char *buff) {
#ifdef ALDO //VH
return ((header *)buff)->bunchNumber; //VH
#else //VH
return ((header *)buff)->detHeader.frameNumber; return ((header *)buff)->detHeader.frameNumber;
#endif //VH
}; };
/** /**
@ -219,7 +248,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
*/ */
int getPacketNumber(char *buff) { int getPacketNumber(char *buff) {
#ifdef ALDO //VH
return -1; //VH //TODO: Keep in mind in case of bugs!
#else //VH
return ((header *)buff)->detHeader.packetNumber; return ((header *)buff)->detHeader.packetNumber;
#endif //VH
}; };
@ -265,8 +298,6 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
return NULL; return NULL;
}; };
/* /**
/* Loops over a memory slot until a complete frame is found (i.e. all */ /* 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 */ /* packets 0 to nPackets, same frame number). purely virtual func \param */
/* data pointer to the memory to be analyzed \param ndata reference to the */ /* data pointer to the memory to be analyzed \param ndata reference to the */

305
slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsDataSingleChip.h Normal file
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@ -0,0 +1,305 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef JUNGFRAULGADSTRIXELSDATASINGLECHIP_H
#define JUNGFRAULGADSTRIXELSDATASINGLECHIP_H
#ifdef CINT
#include "sls/sls_detector_defs_CINT.h"
#else
#include "sls/sls_detector_defs.h"
#endif
#include "slsDetectorData.h"
/*
/afs/psi.ch/project/mythen/Anna/slsDetectorPackageDeveloperMpc2011/slsDetectorCalibration/jungfrauExecutables
make -f Makefile.rawdataprocess jungfrauRawDataProcessStrx
../dataStructures/jungfrauLGADStrixelsData.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_chip = 256;
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_chip-(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_chip-(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_chip-(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 jungfrauLGADStrixelsDataSingleChip : public slsDetectorData<uint16_t> {
private:
int iframe;
int mchip;
void remapGroup( const int group ) {
int ix, iy;
int x0, y0, x1, y1, shifty;
int multiplicator;
switch (group) {
default:
case 1:
multiplicator = 3;
break;
case 2:
multiplicator = 5;
break;
case 3:
multiplicator = 4;
break;
}
if ( mchip == 1 ) {
switch (group) {
default:
case 1:
x0 = 10;
x1 = 247;
y0 = 10;
y1 = 65;
shifty = 0;
break;
case 2:
x0 = 12;
x1 = 247;
y0 = 65;
y1 = 129;
shifty = ( (nr_chip/4)-gr )*3;
break;
case 3:
x0 = 11;
x1 = 247;
y0 = 129;
y1 = 248;
shifty = ( (nr_chip/4)-gr )*3 + (nr_chip/4)*5;
break;
}
}
if ( mchip == 6 ) {
switch (group) {
default:
case 1:
x0 = 9;
x1 = 246;
y0 = 191;
y1 = 246;
shifty = ( (nr_chip/4)-gr+(nr_chip/4) )*4 + (nr_chip/4)*5;
break;
case 2:
x0 = 9;
x1 = 244;
y0 = 127;
y1 = 191;
shifty = ( (nr_chip/4)-gr+(nr_chip/4) )*4;
break;
case 3:
x0 = 9;
x1 = 245;
y0 = 8;
y1 = 127;
shifty = 0;
break;
}
}
//remapping loop
for ( int ipx=x0; ipx!=x1; ++ipx ) {
for ( int ipy=y0; ipy!=y1; ++ipy) {
ix = (ipx-x0)/multiplicator;
for ( int m=0; m!=multiplicator; ++m ) {
if ( (ipx-x0)%multiplicator==m ) iy=(ipy-y0)*multiplicator + m + shifty;
}
dataMap[iy][ix] = sizeof(header) + (nc_chip * ipy + ipx) * 2;
}
}
}
public:
#ifdef ALDO //VH
using header = jf_header; //VH
#else //VH
using header = sls::defs::sls_receiver_header;
#endif //VH
jungfrauLGADStrixelsDataSingleChip( const int chip )
: slsDetectorData<uint16_t>( /*nc_strixel*/nc_chip/3, /*nr_strixel*/ nr_chip*5,
nc_chip * nr_chip * 2 + sizeof(header) ) {
std::cout << "Jungfrau strixels single chip" << std::endl;
#ifdef ALDO //VH
std::cout<< "using reduced jf_header" << std::endl; //VH
#endif //VH
mchip = chip;
//Fill all strixels with dummy values
for (int ix = 0; ix != nc_strixel; ++ix) {
for (int iy = 0; iy != nr_strixel; ++iy) {
dataMap[iy][ix] = sizeof(header);
#ifdef HIGHZ
dataMask[iy][ix] = 0x3fff;
#endif
}
}
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

271
slsDetectorCalibration/dataStructures/jungfrauStrixelsHalfModuleOldDesign.h Normal file
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@ -0,0 +1,271 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef JUNGFRAUSTRIXELSHALFMODULEOLD_H
#define JUNGFRAUSTRIXELSHALFMODULEOLD_H
#ifdef CINT
#include "sls/sls_detector_defs_CINT.h"
#else
#include "sls/sls_detector_defs.h"
#endif
#include "slsDetectorData.h"
/*
/afs/psi.ch/project/mythen/Anna/slsDetectorPackageDeveloperMpc2011/slsDetectorCalibration/jungfrauExecutables
make -f Makefile.rawdataprocess jungfrauRawDataProcessStrx
../dataStructures/jungfrauLGADStrixelsData.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 strixelsOldDesign {
constexpr int NC_STRIXEL = (1024*3);
constexpr int NR_TOTAL = (512/3);
constexpr int NR_STRIXEL = ( (256-4)/3 );
}
typedef struct {
uint64_t bunchNumber; /**< is the frame number */
uint64_t pre; /**< something */
} jf_header; //Aldo's header
using namespace strixelsOldDesign;
class jungfrauStrixelsHalfModuleOldDesign : public slsDetectorData<uint16_t> {
private:
int iframe;
#ifdef ALDO //VH
using header = jf_header; //VH
#else //VH
using header = sls::defs::sls_receiver_header;
#endif //VH
public:
/**
Implements the slsReceiverData structure for the moench02 prototype read
out by a module i.e. using the slsReceiver (160x160 pixels, 40 packets
1286 large etc.) \param c crosstalk parameter for the output buffer
*/
jungfrauStrixelsHalfModuleOldDesign()
: slsDetectorData<uint16_t>( 1024*3, 512/3,
512 * 1024 * 2 + sizeof(header) ) {
std::cout << "Jungfrau strixels old design" << std::endl;
#ifdef ALDO //VH
std::cout<< "using reduced jf_header" << std::endl; //VH
#endif //VH
for (int ix = 0; ix != 1024*3; ++ix) {
for (int iy = 0; iy != 512/3; ++iy) {
dataMap[iy][ix] = sizeof(header);//+ ( 1024 * 5 + 300) * 2; //somewhere on the guardring of the LGAD
#ifdef HIGHZ
dataMask[iy][ix] = 0x3fff;
#endif
}
}
//remap
int ix, iy;
for (int ipx=0; ipx!=1024; ++ipx) {
for (int ipy=0; ipy!=256-4; ++ipy) {
iy=ipy/3;
/* //1
if (ipy%3==0) ix=ipx*3+2;
if (ipy%3==1) ix=ipx*3+1;
if (ipy%3==2) ix=ipx*3;
*/
/* //2
if (ipy%3==2) ix=ipx*3+2;
if (ipy%3==0) ix=ipx*3+1;
if (ipy%3==1) ix=ipx*3;
*/
/* //3
if (ipy%3==1) ix=ipx*3+2;
if (ipy%3==2) ix=ipx*3+1;
if (ipy%3==0) ix=ipx*3;
*/
//4 //This seems to be correct //corresponds to looking from the backside of the sensor
if (ipy%3==0) ix=ipx*3;
if (ipy%3==1) ix=ipx*3+1;
if (ipy%3==2) ix=ipx*3+2;
/* //5
if (ipy%3==2) ix=ipx*3;
if (ipy%3==0) ix=ipx*3+1;
if (ipy%3==1) ix=ipx*3+2;
*/
/* //6
if (ipy%3==1) ix=ipx*3;
if (ipy%3==2) ix=ipx*3+1;
if (ipy%3==0) ix=ipx*3+2;
*/
if ( ipx!=255 && ipx!=256 && ipx!=511 && ipx!=512 && ipx!=767 && ipx!=768 ) //avoid double pixels
// ( !( ipx%256==0 || ipx%256==255 ) || ipx==0 || ipx==1023 )
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
// cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
}
}
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;
};
/* virtual void calcGhost(char *data, int ix, int iy) { */
/* double val=0; */
/* ghost[iy][ix]=0; */
/* } */
/* virtual void calcGhost(char *data) { */
/* for (int ix=0; ix<25; ix++){ */
/* for (int iy=0; iy<200; iy++) { */
/* calcGhost(data, ix,iy); */
/* } */
/* } */
/* // cout << "*" << endl; */
/* } */
/* double getGhost(int ix, int iy) { */
/* return 0; */
/* }; */
/**
Returns the frame number for the given dataset. Purely virtual func.
\param buff pointer to the dataset
\returns frame number
*/
/* class jfrau_packet_header_t { */
/* public: */
/* unsigned char reserved[4]; */
/* unsigned char packetNumber[1]; */
/* unsigned char frameNumber[3]; */
/* unsigned char bunchid[8]; */
/* }; */
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

3
slsDetectorCalibration/dataStructures/slsDetectorData.h
View File

@ -217,6 +217,7 @@ 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 (iy = 0; iy < ny; iy++) {
for (ix = 0; ix < nx; ix++) { for (ix = 0; ix < nx; ix++) {
ip = dataMap[iy][ix] / sizeof(dataType); ip = dataMap[iy][ix] / sizeof(dataType);
@ -224,7 +225,7 @@ void slsDetectorData<dataType>::setDataMap(int **dMap) {
ymap[ip] = iy; ymap[ip] = iy;
} }
} }
*/
// cout << "nx:" <<nx << " ny:" << ny << endl; // cout << "nx:" <<nx << " ny:" << ny << endl;
} }

195
slsDetectorCalibration/interpolations/slsInterpolation.h
View File

@ -22,7 +22,7 @@ enum quadrant {
#include <iostream> #include <iostream>
#include <stdio.h> #include <stdio.h>
using namespace std; //using namespace std;
//#ifdef MYROOT1 //#ifdef MYROOT1
//: public TObject //: public TObject
@ -128,7 +128,7 @@ class slsInterpolation {
nSubPixelsY * nPixelsY); nSubPixelsY * nPixelsY);
delete[] gm; delete[] gm;
} else } else
cout << "Could not allocate float image " << endl; std::cout << "Could not allocate float image " << std::endl;
return NULL; return NULL;
} }
@ -323,7 +323,7 @@ class slsInterpolation {
if (ix > 1) if (ix > 1)
sumR += cl[ix + iy * 3]; sumR += cl[ix + iy * 3];
if (iy < 1) if (iy < 1)
sumB = cl[ix + iy * 3]; sumB = cl[ix + iy * 3]; //???? not "+="? VH
if (iy > 1) if (iy > 1)
sumT += cl[ix + iy * 3]; sumT += cl[ix + iy * 3];
} }
@ -472,13 +472,13 @@ class slsInterpolation {
val = cl[ix + 3 * iy]; val = cl[ix + 3 * iy];
sum += val; sum += val;
if (iy == 0) if (iy == 0)
l += val;
if (iy == 2)
r += val;
if (ix == 0)
b += val; b += val;
if (ix == 2) if (iy == 2)
t += val; t += val;
if (ix == 0)
l += val;
if (ix == 2)
r += val;
} }
} }
if (sum > 0) { if (sum > 0) {
@ -526,6 +526,185 @@ class slsInterpolation {
return calcEta3X(cli, etax, etay, sum); return calcEta3X(cli, etax, etay, sum);
} }
/************************************************/
/* Additional strixel eta functions by Viktoria */
/************************************************/
//Etax: only central row, etay: only central column
static int calcEta1x3( double* cl, double& etax, double& etay, double& toth, double& totv ) {
double l, r, t, b;
//sum = cl[0] + cl[1] + cl[2] + cl[3] + cl[4] + cl[5] + cl[6] + cl[7] + cl[8];
toth = cl[3] + cl[4] + cl[5];
if (toth > 0) {
l = cl[3];
r = cl[5];
}
etax = (-l + r) / toth;
totv = cl[1] + cl[4] + cl[7];
if (toth > 0) {
b = cl[1];
t = cl[7];
}
etay = (-b + t) / totv;
return -1;
}
static int calcEta1x3( int* cl, double& etax, double& etay, double& toth, double& totv ) {
double cli[9];
for ( int ix = 0; ix != 9; ++ix )
cli[ix] = cl[ix];
return calcEta1x3( cli, etax, etay, toth , totv );
}
//Eta 1x2 essentially the same as etaL, but we also return toth and totv
static int calcEta1x2(double totquad, int corner, double sDum[2][2],
double &etax, double &etay, double& toth, double& totv) {
double t, r;
if (totquad > 0) {
switch (corner) {
case TOP_LEFT:
t = sDum[1][1];
r = sDum[0][1];
toth = sDum[0][1] + sDum[0][0];
totv = sDum[0][1] + sDum[1][1];
break;
case TOP_RIGHT:
t = sDum[1][0];
r = sDum[0][1];
toth = sDum[0][1] + sDum[0][0];
totv = sDum[1][0] + sDum[0][0];
break;
case BOTTOM_LEFT:
r = sDum[1][1];
t = sDum[1][1];
toth = sDum[1][0] + sDum[1][1];
totv = sDum[0][1] + sDum[1][1];
break;
case BOTTOM_RIGHT:
t = sDum[1][0];
r = sDum[1][1];
toth = sDum[1][0] + sDum[1][1];
totv = sDum[1][0] + sDum[0][0];
break;
default:
etax = -1000;
etay = -1000;
return 0;
}
// etax=r/totquad;
// etay=t/totquad;
etax = r / toth;
etay = t / totv;
}
return 0;
}
static int calcEta1x2( double *cl, double &etax, double &etay, double &sum,
double &totquad, double sDum[2][2], double& toth, double& totv ) {
int corner = calcQuad( cl, sum, totquad, sDum );
calcEta1x2( totquad, corner, sDum, etax, etay, toth, totv );
return corner;
}
static int calcEta1x2( int *cl, double &etax, double &etay, double &sum,
double &totquad, double sDum[2][2], double& toth, double& totv ) {
int corner = calcQuad( cl, sum, totquad, sDum );
calcEta1x2( totquad, corner, sDum, etax, etay, toth , totv );
return corner;
}
//Two functions to calculate 2x3 or 3x2 eta
static int calcEta2x3( double* cl, double totquad, int corner, double& etax, double& etay, double& tot6 ) {
double t, b, r;
if (totquad > 0) {
switch (corner) {
case TOP_LEFT:
case BOTTOM_LEFT:
t = cl[6] + cl[7];
b = cl[0] + cl[1];
r = cl[1] + cl[4] + cl[7];
tot6 = cl[0] + cl[1] + cl[3] + cl[4] + cl[6] + cl[7];
break;
case TOP_RIGHT:
case BOTTOM_RIGHT:
t = cl[7] + cl[8];
b = cl[1] + cl[2];
r = cl[2] + cl[5] + cl[8];
tot6 = cl[1] + cl[2] + cl[4] + cl[5] + cl[7] + cl[8];
break;
default:
etax = -1000;
etay = -1000;
return -1;
}
etax = r / tot6;
etay = (-b + t) / tot6;
}
return -1;
}
static int calcEta3x2( double* cl, double totquad, int corner, double& etax, double& etay, double& tot6 ) {
double t, l, r;
if (totquad > 0) {
switch (corner) {
case TOP_LEFT:
case TOP_RIGHT:
l = cl[3] + cl[6];
r = cl[5] + cl[8];
t = cl[6] + cl[7] + cl[8];
tot6 = cl[3] + cl[4] + cl[5] + cl[6] + cl[7] + cl[8];
break;
case BOTTOM_LEFT:
case BOTTOM_RIGHT:
l = cl[0] + cl[3];
r = cl[2] + cl[5];
t = cl[3] + cl[4] + cl[5];
tot6 = cl[0] + cl[1] + cl[2] + cl[3] + cl[4] + cl[5];
break;
default:
etax = -1000;
etay = -1000;
return -1;
}
etax = (-l + r) / tot6;
etay = t / tot6;
}
return -1;
}
//overload including both eta2x3 and eta3x2
//ornt (orientation of long side (3) of eta) decides which eta is chosen
enum orientation {
HORIZONTAL_ORIENTATION = 0,
VERTICAL_ORIENTATION = 1,
UNDEFINED_ORIENTATION = -1
};
static int calcEta2x3( int ornt, double* cl, double& etax, double& etay, double& tot6 ) {
double sum{};
double totquad{};
double sDum[2][2]{};
int corner = calcQuad( cl, sum, totquad, sDum );
switch (ornt) {
case HORIZONTAL_ORIENTATION:
calcEta3x2( cl, totquad, corner, etax, etay, tot6 );
break;
case VERTICAL_ORIENTATION:
calcEta2x3( cl, totquad, corner, etax, etay, tot6 );
break;
default:
etax = -1000;
etay = -1000;
return -1;
}
return corner;
}
static int calcEta2x3( int strxo, int* cl, double& etax, double& etay, double& tot6 ) {
double cli[9]{};
for ( int ix = 0; ix != 9; ++ix )
cli[ix] = cl[ix];
return calcEta2x3( strxo, cli, etax, etay, tot6 );
}
/* static int calcMyEta(double totquad, int quad, double *cl, double &etax, /* static int calcMyEta(double totquad, int quad, double *cl, double &etax,
* double &etay) { */ * double &etay) { */
/* double l,r,t,b, sum; */ /* double l,r,t,b, sum; */

76
slsDetectorCalibration/jungfrauExecutables/Makefile.rawdataprocess Normal file
View File

@ -0,0 +1,76 @@
# SPDX-License-Identifier: LGPL-3.0-or-other
# Copyright (C) 2021 Contributors to the SLS Detector Package
#module add CBFlib/0.9.5
INCDIR=-I. -I../ -I../interpolations -I../interpolations/etaVEL -I../dataStructures -I../../slsSupportLib/include/ -I../../slsReceiverSoftware/include/ -I../tiffio/include
LDFLAG= ../tiffio/src/tiffIO.cpp -L/usr/lib64/ -lpthread -lm -lstdc++ -pthread -lrt -ltiff -O3 -std=c++11
MAIN=jungfrauClusterFinder.cpp
all: jungfrauRawDataProcess
jungfrauRawDataProcess: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcess jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DMODULE
jungfrauRawDataProcessStrx: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrx jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRX
jungfrauRawDataProcessStrxChip1: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip1 jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP1
jungfrauRawDataProcessStrxChip6: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip6 jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP6
jungfrauRawDataProcessStrxChip1Aldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip1Aldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP1 -DALDO
jungfrauRawDataProcessStrxChip6Aldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip6Aldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP6 -DALDO
jungfrauRawDataProcessStrxAldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxAldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRX -DALDO
jungfrauRawDataProcessStrxOld: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxOld jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXOLD
jungfrauRawDataProcessStrxOldAldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxOldAldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXOLD -DALDO
jungfrauClusterFinder: jungfrauClusterFinder.cpp $(INCS) clean
g++ -o jungfrauClusterFinder jungfrauClusterFinder.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL
jungfrauClusterFinderHighZ: jungfrauClusterFinder.cpp $(INCS) clean
g++ -o jungfrauClusterFinderHighZ jungfrauClusterFinder.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DHIGHZ
jungfrauMakeEta: jungfrauInterpolation.cpp $(INCS) clean
g++ -o jungfrauMakeEta jungfrauInterpolation.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DFF
jungfrauInterpolation: jungfrauInterpolation.cpp $(INCS) clean
g++ -o jungfrauInterpolation jungfrauInterpolation.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF)
jungfrauNoInterpolation: jungfrauNoInterpolation.cpp $(INCS) clean
g++ -o jungfrauNoInterpolation jungfrauNoInterpolation.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF)
jungfrauPhotonCounter: jungfrauPhotonCounter.cpp $(INCS) clean
g++ -o jungfrauPhotonCounter jungfrauPhotonCounter.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DNEWRECEIVER
jungfrauAnalog: jungfrauPhotonCounter.cpp $(INCS) clean
g++ -o jungfrauAnalog jungfrauPhotonCounter.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DNEWRECEIVER -DANALOG
jungfrauPhotonCounterHighZ: jungfrauPhotonCounter.cpp $(INCS) clean
g++ -o jungfrauPhotonCounterHighZ jungfrauPhotonCounter.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DNEWRECEIVER -DHIGHZ
jungfrauAnalogHighZ: jungfrauPhotonCounter.cpp $(INCS) clean
g++ -o jungfrauAnalogHighZ jungfrauPhotonCounter.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DNEWRECEIVER -DANALOG -DHIGHZ
clean:
rm -f jungfrauClusterFinder jungfrauMakeEta jungfrauInterpolation jungfrauNoInterpolation jungfrauPhotonCounter jungfrauAnalog

429
slsDetectorCalibration/jungfrauExecutables/jungfrauRawDataProcess.cpp Normal file
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@ -0,0 +1,429 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
//#include "sls/ansi.h"
#include <iostream>
#undef CORR
#define C_GHOST 0.0004
#define CM_ROWS 50
#define RAWDATA
#if !defined JFSTRX && !defined JFSTRXOLD && !defined JFSTRXCHIP1 && !defined JFSTRXCHIP6
#ifndef MODULE
#include "jungfrauHighZSingleChipData.h"
#endif
#ifdef MODULE
#include "jungfrauModuleData.h"
#endif
#endif
#ifdef JFSTRX
#include "jungfrauLGADStrixelsData.h"
#endif
#if defined JFSTRXCHIP1 || defined JFSTRXCHIP6
#include "jungfrauLGADStrixelsDataSingleChip.h"
#endif
#ifdef JFSTRXOLD
#include "jungfrauStrixelsHalfModuleOldDesign.h"
#endif
#include "multiThreadedCountingDetector.h"
#include "singlePhotonDetector.h"
#include <fstream>
#include <map>
#include <stdio.h>
#include <sys/stat.h>
#include <ctime>
using namespace std;
int main(int argc, char *argv[]) {
if (argc < 5) {
cout << "Usage is " << argv[0]
<< "indir outdir fname(no extension) fextension [runmin] [runmax] [pedfile (raw or tiff)] [threshold] "
"[nframes] [xmin xmax ymin ymax] [gainmap]"
<< endl;
cout << "threshold <0 means analog; threshold=0 means cluster finder; "
"threshold>0 means photon counting"
<< endl;
cout << "nframes <0 means sum everything; nframes=0 means one file per "
"run; nframes>0 means one file every nframes"
<< endl;
return 1;
}
int fifosize = 1000;
int nthreads = 10;
int csize = 3; //3
int nsigma = 5;
int nped = 10000;
int cf = 0;
#if !defined JFSTRX && !defined JFSTRXOLD && !defined JFSTRXCHIP1 && !defined JFSTRXCHIP6
#ifndef MODULE
jungfrauHighZSingleChipData *decoder = new jungfrauHighZSingleChipData();
int nx = 256, ny = 256;
#endif
#ifdef MODULE
jungfrauModuleData *decoder = new jungfrauModuleData();
int nx = 1024, ny = 512;
#endif
#endif
#ifdef JFSTRX
cout << "Jungfrau strixel full module readout" << endl;
jungfrauLGADStrixelsData *decoder = new jungfrauLGADStrixelsData();
int nx = 1024/5, ny = 512*5;
#endif
#ifdef JFSTRXCHIP1
std::cout << "Jungfrau strixel LGAD single chip 1" << std::endl;
jungfrauLGADStrixelsDataSingleChip *decoder = new jungfrauLGADStrixelsDataSingleChip(1);
int nx = 256/3, ny = 256*5;
#endif
#ifdef JFSTRXCHIP6
std::cout << "Jungfrau strixel LGAD single chip 6" << std::endl;
jungfrauLGADStrixelsDataSingleChip *decoder = new jungfrauLGADStrixelsDataSingleChip(6);
int nx = 256/3, ny = 256*5;
#endif
#ifdef JFSTRXOLD
std::cout << "Jungfrau strixels old design" << std::endl;
jungfrauStrixelsHalfModuleOldDesign *decoder = new jungfrauStrixelsHalfModuleOldDesign();
int nx = 1024*3, ny = 512/3;
#endif
decoder->getDetectorSize(nx, ny);
cout << "Detector size is " << nx << " " << ny << endl;
double *gainmap = NULL;
//float *gm;
int ff, np;
// cout << " data size is " << dsize;
ifstream filebin;
char *indir = argv[1];
char *outdir = argv[2];
char *fformat = argv[3];
char *fext = argv[4];
int runmin = 0;
// cout << "argc is " << argc << endl;
if (argc >= 6) {
runmin = atoi(argv[5]);
}
int runmax = runmin;
if (argc >= 7) {
runmax = atoi(argv[6]);
}
char *pedfile = NULL;
if (argc >= 8) {
pedfile = argv[7];
}
double thr = 0;
double thr1 = 1;
if (argc >= 9) {
thr = atof(argv[8]);
}
int nframes = 0;
if (argc >= 10) {
nframes = atoi(argv[9]);
}
int xmin = 0, xmax = nx, ymin = 0, ymax = ny;
if (argc >= 14) {
xmin = atoi(argv[10]);
xmax = atoi(argv[11]);
ymin = atoi(argv[12]);
ymax = atoi(argv[13]);
}
char *gainfname = NULL;
if (argc > 14) {
gainfname = argv[14];
cout << "Gain map file name is: " << gainfname << endl;
}
char ffname[10000];
char fname[10000];
char imgfname[10000];
char cfname[10000];
std::time_t end_time;
FILE *of = NULL;
cout << "input directory is " << indir << endl;
cout << "output directory is " << outdir << endl;
cout << "input file is " << fformat << endl;
cout << "runmin is " << runmin << endl;
cout << "runmax is " << runmax << endl;
if (pedfile)
cout << "pedestal file is " << pedfile << endl;
if (thr > 0)
cout << "threshold is " << thr << endl;
cout << "Nframes is " << nframes << endl;
uint32_t nnx, nny;
singlePhotonDetector *filter = new singlePhotonDetector(
decoder, 3, nsigma, 1, NULL, nped, 200, -1, -1, gainmap, NULL);
if (gainfname) {
if (filter->readGainMap(gainfname))
cout << "using gain map " << gainfname << endl;
else
cout << "Could not open gain map " << gainfname << endl;
} else
thr = 0.15 * thr;
filter->newDataSet();
//int dsize = decoder->getDataSize();
if (thr > 0) {
cout << "threshold is " << thr << endl;
filter->setThreshold(thr);
cf = 0;
} else
cf = 1;
filter->setROI(xmin, xmax, ymin, ymax);
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
char *buff;
// multiThreadedAnalogDetector *mt=new
// multiThreadedAnalogDetector(filter,nthreads,fifosize);
multiThreadedCountingDetector *mt =
new multiThreadedCountingDetector(filter, nthreads, fifosize);
mt->setClusterSize(csize,csize);
#ifndef ANALOG
mt->setDetectorMode(ePhotonCounting);
cout << "Counting!" << endl;
if (thr > 0) {
cf = 0;
}
#endif
//{
#ifdef ANALOG
mt->setDetectorMode(eAnalog);
cout << "Analog!" << endl;
cf = 0;
// thr1=thr;
#endif
// }
mt->StartThreads();
mt->popFree(buff);
// cout << "mt " << endl;
int ifr = 0;
char froot[1000];
double *ped=new double[nx * ny];//, *ped1;
int pos,pos1;
if (pedfile) {
if (string(pedfile).find(".dat") != std::string::npos) {
pos1=string(pedfile).rfind("/");
strcpy(froot,pedfile+pos1);
pos=string(froot).find(".dat");
froot[pos]='\0';
}
cout << "PEDESTAL " << endl;
// sprintf(imgfname, "%s/pedestals.tiff", outdir);
if (string(pedfile).find(".tif") == std::string::npos) {
sprintf(fname, "%s", pedfile);
cout << fname << endl;
std::time(&end_time);
//cout << "aaa" << std::ctime(&end_time) << endl;
mt->setFrameMode(ePedestal);
// sprintf(fn,fformat,irun);
filebin.open((const char *)(fname), ios::in | ios::binary);
// //open file
if (filebin.is_open()) {
ff = -1;
while (decoder->readNextFrame(filebin, ff, np, buff)) {
// if (np == 40) {
if ((ifr+1) % 100 == 0) {
cout << " ****" << decoder->getValue(buff,20,20);// << endl;
}
mt->pushData(buff);
mt->nextThread();
mt->popFree(buff);
ifr++;
if (ifr % 100 == 0) {
cout << " ****" << ifr << " " << ff << " " << np << endl;
} //else
//cout << ifr << " " << ff << " " << np << endl;
if (ifr>=1000)
break;
ff = -1;
}
filebin.close();
while (mt->isBusy()) {
;
}
sprintf(imgfname, "%s/%s_ped.tiff", outdir, froot);
mt->writePedestal(imgfname);
sprintf(imgfname, "%s/%s_rms.tiff", outdir, froot);
mt->writePedestalRMS(imgfname);
} else
cout << "Could not open pedestal file " << fname
<< " for reading " << endl;
} else {
float *pp = ReadFromTiff(pedfile, nny, nnx);
if (pp && (int)nnx == nx && (int)nny == ny) {
for (int i = 0; i < nx * ny; i++) {
ped[i] = pp[i];
}
delete[] pp;
mt->setPedestal(ped);
cout << "Pedestal set from tiff file " << pedfile << endl;
} else {
cout << "Could not open pedestal tiff file " << pedfile
<< " for reading " << endl;
}
}
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
}
ifr = 0;
int ifile = 0;
mt->setFrameMode(eFrame);
for (int irun = runmin; irun <= runmax; irun++) {
cout << "DATA ";
// sprintf(fn,fformat,irun);
sprintf(ffname, "%s/%s.%s", indir, fformat, fext);
sprintf(fname, (const char*)ffname, irun);
sprintf(ffname, "%s/%s.tiff", outdir, fformat);
sprintf(imgfname, (const char*)ffname, irun);
sprintf(ffname, "%s/%s.clust", outdir, fformat);
sprintf(cfname, (const char*)ffname, irun);
cout << fname << " ";
cout << imgfname << endl;
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
// cout << fname << " " << outfname << " " << imgfname << endl;
filebin.open((const char *)(fname), ios::in | ios::binary);
// //open file
ifile = 0;
if (filebin.is_open()) {
if (thr <= 0 && cf != 0) { // cluster finder
if (of == NULL) {
of = fopen(cfname, "w");
if (of) {
mt->setFilePointer(of);
cout << "file pointer set " << endl;
} else {
cout << "Could not open " << cfname << " for writing "
<< endl;
mt->setFilePointer(NULL);
return 1;
}
}
}
// //while read frame
ff = -1;
ifr = 0;
while (decoder->readNextFrame(filebin, ff, np, buff)) {
// if (np == 40) {
// //push
if ((ifr+1) % 100 == 0) {
cout << " ****" << decoder->getValue(buff,20,20);// << endl;
}
mt->pushData(buff);
// // //pop
mt->nextThread();
mt->popFree(buff);
ifr++;
if (ifr % 100 == 0)
cout << " " << ifr << " " << ff << endl;
if (nframes > 0) {
if (ifr % nframes == 0) {
sprintf(ffname, "%s/%s_f%05d.tiff", outdir, fformat,
ifile);
sprintf(imgfname, (const char*)ffname, irun);
mt->writeImage(imgfname, thr1);
mt->clearImage();
ifile++;
}
}
// } else
// cout << ifr << " " << ff << " " << np << endl;
ff = -1;
}
cout << "--" << endl;
filebin.close();
while (mt->isBusy()) {
;
}
if (nframes >= 0) {
if (nframes > 0) {
sprintf(ffname, "%s/%s_f%05d.tiff", outdir, fformat, ifile);
sprintf(imgfname, (const char*)ffname, irun);
} else {
sprintf(ffname, "%s/%s.tiff", outdir, fformat);
sprintf(imgfname, (const char*)ffname, irun);
}
cout << "Writing tiff to " << imgfname << " " << thr1 << endl;
mt->writeImage(imgfname, thr1);
mt->clearImage();
if (of) {
fclose(of);
of = NULL;
mt->setFilePointer(NULL);
}
}
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
} else
cout << "Could not open " << fname << " for reading " << endl;
}
if (nframes < 0) {
sprintf(ffname, "%s/%s.tiff", outdir, fformat);
strcpy(imgfname, ffname);
cout << "Writing tiff to " << imgfname << " " << thr1 << endl;
mt->writeImage(imgfname, thr1);
}
return 0;
}