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TrackerMap Class Reference

#include <TrackerMap.h>

Public Types

typedef std::multimap< TmCcu
*, TmModule * > 
FecModule
 
typedef std::map< const int,
TmModule * > 
ImoduleMap
 
typedef std::map< const int,
TmCcu * > 
MapCcu
 
typedef std::map< const int,
TmPsu * > 
MapPsu
 
typedef std::multimap< const
int, TmApvPair * > 
ModApvPair
 
typedef std::multimap< TmPsu
*, TmModule * > 
PsuModule
 
typedef std::map< const int,
TmModule * > 
SmoduleMap
 
typedef std::map< const int,
TmApvPair * > 
SvgApvPair
 
typedef std::map< const int, int > SvgFed
 

Public Member Functions

void addPixel (bool addPixelfl)
 
void build ()
 
void defcwindow (int num_crate)
 
void deffecwindow (int num_crate)
 
void defpsuwindow (int num_rack)
 
void defwindow (int num_lay)
 
void drawApvPair (int crate, int numfed_incrate, bool total, TmApvPair *apvPair, std::ofstream *file, bool useApvPairValue)
 
void drawCcu (int crate, int numfed_incrate, bool total, TmCcu *ccu, std::ofstream *file, bool useCcuValue)
 
void drawHV2 (int rack, int numcrate_inrack, bool print_total, TmPsu *psu, std::ofstream *svgfile, bool usePsuValue)
 
void drawHV3 (int rack, int numcrate_inrack, bool print_total, TmPsu *psu, std::ofstream *svgfile, bool usePsuValue)
 
void drawModule (TmModule *mod, int key, int layer, bool total, std::ofstream *file)
 
void drawPalette (std::ofstream *file, int xoffset=3660, int yoffset=1540)
 
void drawPsu (int rack, int numcrate_inrack, bool print_total, TmPsu *psu, std::ofstream *svgfile, bool usePsuValue)
 
void fill (int layer, int ring, int nmod, float x)
 
void fill (int idmod, float qty)
 
void fill_all_blank ()
 
void fill_current_val (int idmod, float current_val)
 
void fill_current_val_fed_channel (int fedId, int fedCh, float current_val)
 
void fill_fec_channel (int crate, int slot, int ring, int addr, float qty)
 
void fill_fed_channel (int fedId, int fedCh, float qty)
 
void fill_fed_channel (int modId, float qty)
 
void fill_hv_channel2 (int rack, int crate, int board, float qty)
 
void fill_hv_channel3 (int rack, int crate, int board, float qty)
 
void fill_lv_channel (int rack, int crate, int board, float qty)
 
void fillc (int idmod, int RGBcode)
 
void fillc (int idmod, int red, int green, int blue)
 
void fillc (int layer, int ring, int nmod, int red, int green, int blue)
 
void fillc_all_blank ()
 
void fillc_fec_channel (int crate, int slot, int ring, int addr, int red, int green, int blue)
 
void fillc_fed_channel (int fedId, int fedCh, int red, int green, int blue)
 
void fillc_hv_channel2 (int rack, int crate, int board, int red, int green, int blue)
 
void fillc_hv_channel3 (int rack, int crate, int board, int red, int green, int blue)
 
void fillc_lv_channel (int rack, int crate, int board, int red, int green, int blue)
 
int find_layer (int ix, int iy)
 
std::ifstream * findfile (std::string filename)
 
std::pair< float, float > getAutomaticRange ()
 
int getcolor (float value, int palette)
 
int getlayerCount (int subdet, int partdet)
 
int getmoduleCount (int subdet, int partdet, int layer, int ring)
 
int getNumMod ()
 
int getringCount (int subdet, int partdet, int layer)
 
int getxsize ()
 
int getysize ()
 
void init ()
 
std::string layername (int layer)
 
void load (std::string s="tmap.svg")
 
int module (int fedId, int fedCh)
 
int nlayer (int det, int part, int lay)
 
void onlyPixel (bool onlyPixelfl)
 
double phival (double x, double y)
 
void print (bool print_total=true, float minval=0., float maxval=0., std::string s="svgmap")
 
void printall (bool print_total=true, float minval=0., float maxval=0., std::string s="svgmap", int width=6000, int height=3200)
 
void printlayers (bool print_total=true, float minval=0., float maxval=0., std::string s="layer")
 
void printonline ()
 
void reset ()
 
void save (bool print_total=true, float minval=0., float maxval=0., std::string s="svgmap.svg", int width=1500, int height=800)
 
void save_as_fectrackermap (bool print_total=true, float minval=0., float maxval=0., std::string s="fec_svgmap.svg", int width=1500, int height=800)
 
void save_as_fedtrackermap (bool print_total=true, float minval=0., float maxval=0., std::string s="fed_svgmap.svg", int width=100+(90+100)*31+300, int height=150+(2940+150)*1+300)
 
void save_as_HVtrackermap (bool print_total=true, float minval=0., float maxval=0., std::string s="psu_svgmap.svg", int width=1500, int height=800)
 
void save_as_psutrackermap (bool print_total=true, float minval=0., float maxval=0., std::string s="psu_svgmap.svg", int width=100+(360+100)*5+300, int height=50+(150+50)*6+300)
 
void setPalette (int numpalette)
 
void setRange (float min, float max)
 
void setText (int idmod, std::string s)
 
void setText (int layer, int ring, int nmod, std::string s)
 
void setTitle (std::string s)
 
void showPalette (bool printflag1)
 
 TrackerMap (std::string s=" ", int xsize1=340, int ysize1=200)
 
 TrackerMap (const edm::ParameterSet &iConfig)
 
 TrackerMap (const edm::ParameterSet &iConfig, const SiStripFedCabling *tkFed, const TrackerTopology *const topology)
 
double xdpixel (double x)
 
double xdpixelc (double x)
 
double xdpixelfec (double x)
 
double xdpixelpsu (double x)
 
double ydpixel (double y)
 
double ydpixelc (double y)
 
double ydpixelfec (double y)
 
double ydpixelpsu (double y)
 
 ~TrackerMap ()
 default destructor More...
 

Static Public Member Functions

static bool isRingStereo (int key)
 
static int layerno (int subdet, int leftright, int layer)
 

Public Attributes

SvgApvPair apvMap
 
ModApvPair apvModuleMap
 
MapCcu ccuMap
 
bool enableFecProcessing
 
bool enableFedProcessing
 
bool enableHVProcessing
 
bool enableLVProcessing
 
FecModule fecModuleMap
 
SvgFed fedMap
 
int firstRing [43]
 
ImoduleMap imoduleMap
 
std::string infilename
 
std::string jsfilename
 
std::string jsPath
 
int ndet
 
int npart
 
int ntotRing [43]
 
int palette
 
bool printflag
 
bool psetAvailable
 
MapPsu psuMap
 
PsuModule psuModuleMap
 
bool saveGeoTrackerMap
 
bool saveWebInterface
 
SvgFed slotMap
 
SmoduleMap smoduleMap
 
std::string title
 
bool tkMapLog
 
std::vector< TColor * > vc
 

Protected Attributes

std::ifstream * ccufile
 
bool firstcall
 
int firstcrate
 
float gmaxvalue
 
float gminvalue
 
std::ifstream * inputfile
 
int ix
 
int iy
 
std::ifstream * jsfile
 
float maxvalue
 
float minvalue
 
int ncrates
 
int nfeccrates
 
int nlay
 
int npsuracks
 
int number_modules
 
bool posrel
 
std::ofstream * savefile
 
std::ofstream * svgfile
 
bool temporary_file
 
double xmax
 
double xmin
 
int xsize
 
double ymax
 
double ymin
 
int ysize
 

Private Attributes

bool addPixelFlag
 
float oldz
 
bool onlyPixelFlag
 
bool saveAsSingleLayer
 

Detailed Description

Definition at line 72 of file TrackerMap.h.

Member Typedef Documentation

typedef std::multimap<TmCcu* , TmModule*> TrackerMap::FecModule

Definition at line 153 of file TrackerMap.h.

typedef std::map<const int , TmModule *> TrackerMap::ImoduleMap

Definition at line 142 of file TrackerMap.h.

typedef std::map<const int , TmCcu*> TrackerMap::MapCcu

Definition at line 151 of file TrackerMap.h.

typedef std::map<const int , TmPsu*> TrackerMap::MapPsu

Definition at line 155 of file TrackerMap.h.

typedef std::multimap<const int , TmApvPair*> TrackerMap::ModApvPair

Definition at line 146 of file TrackerMap.h.

typedef std::multimap<TmPsu* , TmModule*> TrackerMap::PsuModule

Definition at line 157 of file TrackerMap.h.

typedef std::map<const int , TmModule *> TrackerMap::SmoduleMap

Definition at line 140 of file TrackerMap.h.

typedef std::map<const int , TmApvPair*> TrackerMap::SvgApvPair

Definition at line 144 of file TrackerMap.h.

typedef std::map<const int , int> TrackerMap::SvgFed

Definition at line 148 of file TrackerMap.h.

Constructor & Destructor Documentation

TrackerMap::TrackerMap ( std::string  s = " ",
int  xsize1 = 340,
int  ysize1 = 200 
)

Definition at line 412 of file TrackerMap.cc.

References enableFecProcessing, enableFedProcessing, enableHVProcessing, enableLVProcessing, infilename, init(), jsfilename, jsPath, psetAvailable, alignCSCRings::s, saveAsSingleLayer, saveGeoTrackerMap, saveWebInterface, title, tkMapLog, xsize, and ysize.

412  {
413  psetAvailable=false;
414  xsize=xsize1;ysize=ysize1;
415  title=s;
416  jsfilename="CommonTools/TrackerMap/data/trackermap.txt";
417  infilename="CommonTools/TrackerMap/data/tracker.dat";
418  saveWebInterface=false;
419  saveGeoTrackerMap=true;
420  tkMapLog=false;
421  jsPath="CommonTools/TrackerMap/data/";
422  enableFedProcessing=false;
423  enableFecProcessing=false;
424  enableLVProcessing=false;
425  enableHVProcessing=false;
426  saveAsSingleLayer=false;
427  init();
428 
429 }
bool tkMapLog
Definition: TrackerMap.h:167
bool psetAvailable
Definition: TrackerMap.h:173
bool saveGeoTrackerMap
Definition: TrackerMap.h:162
bool enableFecProcessing
Definition: TrackerMap.h:164
bool saveWebInterface
Definition: TrackerMap.h:161
std::string infilename
Definition: TrackerMap.h:171
bool enableFedProcessing
Definition: TrackerMap.h:163
std::string jsPath
Definition: TrackerMap.h:172
bool enableHVProcessing
Definition: TrackerMap.h:166
bool saveAsSingleLayer
Definition: TrackerMap.h:507
void init()
Definition: TrackerMap.cc:439
std::string title
Definition: TrackerMap.h:170
bool enableLVProcessing
Definition: TrackerMap.h:165
std::string jsfilename
Definition: TrackerMap.h:171
TrackerMap::TrackerMap ( const edm::ParameterSet iConfig)

Definition at line 392 of file TrackerMap.cc.

References gather_cfg::cout, enableFedProcessing, firstcrate, edm::ParameterSet::getUntrackedParameter(), infilename, init(), jsfilename, ncrates, psetAvailable, saveAsSingleLayer, saveGeoTrackerMap, saveWebInterface, AlCaHLTBitMon_QueryRunRegistry::string, title, tkMapLog, xsize, and ysize.

392  {
393  psetAvailable=true;
394  xsize=340;ysize=200;
395  title=" ";
396  jsfilename="CommonTools/TrackerMap/data/trackermap.txt";
397  infilename="CommonTools/TrackerMap/data/tracker.dat";
399  saveAsSingleLayer=false;
400  tkMapLog = tkmapPset.getUntrackedParameter<bool>("logScale",false);
401  saveWebInterface=tkmapPset.getUntrackedParameter<bool>("saveWebInterface",false);
402  saveGeoTrackerMap=tkmapPset.getUntrackedParameter<bool>("saveGeoTrackerMap",true);
403  // if(tkmapPset.exists("trackermaptxtPath")){
404  jsfilename=tkmapPset.getUntrackedParameter<std::string>("trackermaptxtPath","CommonTools/TrackerMap/data/")+"trackermap.txt";
405  std::cout << jsfilename << std::endl;
406  infilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","CommonTools/TrackerMap/data/")+"tracker.dat";
407  std::cout << infilename << std::endl;
408  // } else std::cout << "no parameters found" << std::endl;
409  init();
410 }
bool tkMapLog
Definition: TrackerMap.h:167
bool psetAvailable
Definition: TrackerMap.h:173
bool saveGeoTrackerMap
Definition: TrackerMap.h:162
bool saveWebInterface
Definition: TrackerMap.h:161
std::string infilename
Definition: TrackerMap.h:171
bool enableFedProcessing
Definition: TrackerMap.h:163
bool saveAsSingleLayer
Definition: TrackerMap.h:507
void init()
Definition: TrackerMap.cc:439
int firstcrate
Definition: TrackerMap.h:487
std::string title
Definition: TrackerMap.h:170
tuple cout
Definition: gather_cfg.py:145
std::string jsfilename
Definition: TrackerMap.h:171
TrackerMap::TrackerMap ( const edm::ParameterSet iConfig,
const SiStripFedCabling tkFed,
const TrackerTopology *const  topology 
)

Definition at line 32 of file TrackerMap.cc.

References apvMap, apvModuleMap, dataDML::branchinfo, TmModule::capvids, TmModule::CcuId, ccuMap, TmCcu::cmodid, TmPsu::cmodid_HV2, TmPsu::cmodid_HV3, TmPsu::cmodid_LV, gather_cfg::cout, TmApvPair::crate, SiStripFecCabling::crates(), enableFecProcessing, enableFedProcessing, enableHVProcessing, enableLVProcessing, fecModuleMap, SiStripFedCabling::fedConnections(), SiStripFedCabling::fedIds(), fedMap, HcalMonitorModule_cfi::feds, firstcrate, contentValuesFiles::fullPath, TmCcu::getCcuCrate(), TmCcu::getCcuRing(), TmCcu::getCcuSlot(), SiStripDetCabling::getConnections(), TmApvPair::getFedCh(), TmApvPair::getFedId(), TmPsu::getPsuBoard(), TmPsu::getPsuBranch(), TmPsu::getPsuCrate(), TmPsu::getPsuDcs(), TmPsu::getPsuRack(), edm::ParameterSet::getUntrackedParameter(), TmModule::HVchannel, TmPsu::idex, TmCcu::idex, TmApvPair::idex, TmModule::idex, customiseL1CustomReco::idmod, imoduleMap, recoMuon::in, infilename, init(), sistrip::invalid32_, sistrip::invalid_, jsfilename, jsPath, relval_steps::key, TmCcu::layer, TmModule::layer, mod(), TmApvPair::mod, TmApvPair::mpos, TmCcu::mpos, TmModule::name, nchan, ncrates, nfeccrates, TmCcu::nmod, TmPsu::nmod, TmPsu::nmodHV2, TmPsu::nmodHV3, npsuracks, psetAvailable, TmPsu::psId, TmModule::PsuId, TmModule::psuIdex, psuMap, psuModuleMap, runTheMatrix::ret, relativeConstraints::ring, alignCSCRings::s, saveAsSingleLayer, saveGeoTrackerMap, saveWebInterface, slotMap, AlCaHLTBitMon_QueryRunRegistry::string, TmCcu::text, TmApvPair::text, TmPsu::text, TmPsu::textHV2, TmPsu::textHV3, title, tkMapLog, xsize, and ysize.

32  {
33 
34  psetAvailable=true;
35  xsize=340;ysize=200;
36 
37  title=" ";
38  jsPath="";
39  jsfilename="CommonTools/TrackerMap/data/trackermap.txt";
40  infilename="CommonTools/TrackerMap/data/tracker.dat";
41  saveAsSingleLayer=false;
42  tkMapLog = false;
43  // if(tkmapPset.exists("trackermaptxtPath")){
44  jsPath=tkmapPset.getUntrackedParameter<std::string>("trackermaptxtPath","CommonTools/TrackerMap/data/");
45  jsfilename=jsPath+"trackermap.txt";
46  std::cout << jsfilename << std::endl;
47  infilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","CommonTools/TrackerMap/data/")+"tracker.dat";
48  std::cout << infilename << std::endl;
49  saveWebInterface=tkmapPset.getUntrackedParameter<bool>("saveWebInterface",false);
50  saveGeoTrackerMap=tkmapPset.getUntrackedParameter<bool>("saveGeoTrackerMap",true);
51  ncrates=0;
52  firstcrate=0;
53  enableFedProcessing=tkmapPset.getUntrackedParameter<bool>("loadFedCabling",false);
54  if(tkFed==0 && enableFedProcessing){enableFedProcessing=false;std::cout << "ERROR:fed trackermap requested but no valid fedCabling is available!!!"<<std::endl;}
55  nfeccrates=0;
56  enableFecProcessing=tkmapPset.getUntrackedParameter<bool>("loadFecCabling",false);
57  if(tkFed==0 && enableFecProcessing){enableFecProcessing=false;std::cout << "ERROR:fec trackermap requested but no valid fedCabling is available!!!"<<std::endl;}
58  // std::cout << "loadFecCabling " << enableFecProcessing << std::endl;
59  npsuracks=0;
60  enableLVProcessing=tkmapPset.getUntrackedParameter<bool>("loadLVCabling",false);
61  // std::cout << "loadLVCabling " << enableLVProcessing << std::endl;
62  enableHVProcessing=tkmapPset.getUntrackedParameter<bool>("loadHVCabling",false);
63  // std::cout << "loadHVCabling " << enableHVProcessing << std::endl;
64  tkMapLog = tkmapPset.getUntrackedParameter<bool>("logScale",false);
65  // } else std::cout << "no parameters found" << std::endl;
66 
67  init();
68 // Now load fed cabling information
70  auto feds = tkFed->fedIds();
71  std::cout<<"SiStripFedCabling has "<< feds.size()<<" active FEDS"<<std::endl;
72  // int num_board=0;
73  // int num_crate=0;
74  for(std::vector<unsigned short>::const_iterator ifed = feds.begin();ifed<feds.end();ifed++){
75  auto theconn = tkFed->fedConnections( *ifed );
76  int num_conn=0;
77  for(auto iconn = theconn.begin();iconn<theconn.end();iconn++){
78 
79  if( iconn->fedId()== sistrip::invalid_ ||
80  iconn->detId() == sistrip::invalid_ ||
81  iconn->detId() == sistrip::invalid32_ ||
82  iconn->apvPairNumber() == sistrip::invalid_ ||
83  iconn->nApvPairs() == sistrip::invalid_ ) {
84  continue;
85  }
86 
87  TmModule *imod = imoduleMap[iconn->detId()];
88  int key = iconn->fedId()*1000+iconn->fedCh();
89  TmApvPair* apvpair = apvMap[key];
90  if(apvpair!=0)std::cout << "Fed "<< iconn->fedId() << " channel " << iconn->fedCh() << " seem to be already loaded!"<<std::endl;
91  else
92  {
93  num_conn++;
94  if(num_conn==1){
95  // if(fedMap[iconn->fedId()]==0){num_crate=num_board/18+1;fedMap[iconn->fedId()]=num_crate;num_board++;}
96  if(fedMap[iconn->fedId()]==0){fedMap[iconn->fedId()]=iconn->fedCrate();}
97  if(slotMap[iconn->fedId()]==0){slotMap[iconn->fedId()]=iconn->fedSlot();}
98  if(ncrates==0 || ncrates < iconn->fedCrate()) ncrates = iconn->fedCrate();
99  if(firstcrate==0 || firstcrate > iconn->fedCrate()) firstcrate = iconn->fedCrate();
100  }
101 
102  // apvpair = new TmApvPair(key,num_crate);
103  apvpair = new TmApvPair(key,iconn->fedCrate());
104  apvpair->mod=imod;
105  apvpair->mpos=iconn->apvPairNumber();
106  apvMap[key] = apvpair;
107  apvModuleMap.insert(std::make_pair(iconn->detId(),apvpair));
108  std::stringstream s;
109  iconn->print(s);
110  apvpair->text=s.str();
111  }
112  }
113  }
114  // ncrates=num_crate;
115  std::cout << "from " << firstcrate << " to " << ncrates << " crates used "<< std::endl;
116 //Now add APv information to module name
117  std::map<int , TmModule *>::iterator i_mod;
118  for( i_mod=imoduleMap.begin();i_mod !=imoduleMap.end(); i_mod++){
119  TmModule * mod= i_mod->second;
120  if(mod!=0) {
121  std::ostringstream outs,outs1;
122  outs << " connected to ";
123  outs1 << "(";
124 
125  int idmod=mod->idex;
126  int nchan=0;
127  std::multimap<const int, TmApvPair*>::iterator pos;
128  for (pos = apvModuleMap.lower_bound(idmod);
129  pos != apvModuleMap.upper_bound(idmod); ++pos) {
130  TmApvPair* apvpair = pos->second;
131  if(apvpair!=0){
132  outs << apvpair->mpos << " " <<apvpair->getFedId() << "/"<<apvpair->getFedCh()<<" ";
133  outs1 << apvpair->idex+apvpair->crate*1000000<<",";
134  nchan++;
135  }
136 
137  }
138  outs<< "("<<nchan<<")";
139  mod->name=mod->name + outs.str();
140  std::string s = outs1.str(); s.erase(s.end()-1,s.end());
141  mod->capvids=s+")";
142  }
143  }
144 }
145 // Now load fec cabling information
147  int nfec=0; int nccu; int nmod;
148  int crate,slot,ring,addr,pos;
149  SiStripFecCabling* fecCabling_;
150  fecCabling_ = new SiStripFecCabling( *tkFed );
151  std::string Ccufilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","")+"cculist.txt";
152  std::ifstream Ccufile(edm::FileInPath(Ccufilename).fullPath().c_str(),std::ios::in);
153  std::string dummys;
154  while(!Ccufile.eof()) {
155  Ccufile >> crate >> slot >> ring >> addr >> pos;
156  getline(Ccufile,dummys);
157  int key =crate*10000000+slot*100000+ring*1000+addr;
158  TmCcu * ccu = ccuMap[key];
159  if(ccu==0){
160  ccu = new TmCcu(crate,slot,ring,addr);
161  ccu->mpos=pos,
162  ccuMap[key]=ccu;
163  }
164  }
165 
166  for ( std::vector<SiStripFecCrate>::const_iterator icrate = fecCabling_->crates().begin(); icrate != fecCabling_->crates().end(); icrate++ ) {
167  for ( std::vector<SiStripFec>::const_iterator ifec = icrate->fecs().begin(); ifec != icrate->fecs().end(); ifec++ ) {
168  for ( std::vector<SiStripRing>::const_iterator iring = ifec->rings().begin(); iring != ifec->rings().end(); iring++ ) {
169  nccu=0;nfec++;
170  for ( std::vector<SiStripCcu>::const_iterator iccu = iring->ccus().begin(); iccu != iring->ccus().end(); iccu++ ) {
171  nccu++; nmod=0;
172  int key = icrate->fecCrate()*10000000+ifec->fecSlot()*100000+iring->fecRing()*1000+iccu->ccuAddr();
173  int layer=0;
174  TmCcu * ccu = ccuMap[key];
175  for ( std::vector<SiStripModule>::const_iterator imod = iccu->modules().begin(); imod != iccu->modules().end(); imod++ ) {
176  nmod++;
177  TmModule *imod1 = imoduleMap[imod->detId()];
178  layer=imod1->layer;
179  fecModuleMap.insert(std::make_pair(ccu,imod1));
180  if(imod1!=0)imod1->CcuId=key;//imod1->ccuId=key+Crate*1000000
181  }
182  if(ccu==0)std::cout <<key<< " This ccu seems to have not been stored! " << std::endl; else{ ccu->nmod=nmod;ccu->layer=layer;}
183  //std::cout <<nfec<<" "<< nccu << " " << nmod << std::endl;
184 
185  }
186  }
187  }
188  }
189 
190  std::map<int , TmCcu *>::iterator i_ccu;
191  std::multimap<TmCcu*, TmModule*>::iterator it;
192  std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
193  nccu=0;
194  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
195  TmCcu * ccu= i_ccu->second;
196  nccu++;
197  if(ccu!=0){
198  std::ostringstream outs;
199  std::ostringstream outs1;
200  outs << "CCU "<<ccu->idex <<" connected to fec,ring " << ccu->getCcuSlot() <<","<<ccu->getCcuRing()<< " in crate " <<ccu->getCcuCrate()<<" at position "<< ccu->mpos << " with " << ccu->nmod << " modules: ";
201  outs1<<"(";
202  ret = fecModuleMap.equal_range(ccu);
203  for (it = ret.first; it != ret.second; ++it)
204  {
205  outs << (*it).second->idex << " ";
206  outs1 << (*it).second->getKey() <<",";
207  }
208  outs1 << ")";
209  ccu->text=outs.str();
210  ccu->cmodid=outs1.str();
211  //std::cout << ccu->text << std::endl;
212  }
213 
214  }
215  nfeccrates=4;
216  std::cout << nccu << " ccu stored in " <<nfeccrates<< " crates"<< std::endl;
217 
218  delete fecCabling_ ;
219 
220  }
221 //load Psu cabling info
222  //load Psu cabling info
223  if(enableLVProcessing || enableHVProcessing){
224 
225  SiStripDetCabling* detCabling = 0;
226  if(enableFedProcessing) detCabling = new SiStripDetCabling( *tkFed,topology );
227 
228 
229  int npsu=0; int nmod,nmodHV2,nmodHV3;
230  int modId1, dcuId; // ,modId2;
231  int dcs,branch,crate,board;
232  int rack=0;
233  std::string channelstr1;
234  short int channel;
235  std::string psinfo;
236  std::string psIdinfo;
237  int rack_order[54]={0,1,0,2,0,3,0,
238  4,0,5,6,0,7,
239  8,0,9,10,0,11,
240  12,0,13,14,0,15,
241  0,0,0,0,0,0,
242  16,0,17,18,0,19,
243  20,0,21,0,22,0,
244  23,0,24,25,0,26,
245  27,0,28,0,29};
246  // std::ifstream *LVfile;
247  // std::ifstream *HVfile;
248 
249 
250 
251  std::string LVfilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","CommonTools/TrackerMap/data/")+"psdcumap.dat";
252  //std::string HVfilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","")+"hvmap.dat";
253 
254  std::ifstream LVfile(edm::FileInPath(LVfilename).fullPath().c_str(),std::ios::in);
255 
256  std::cout<<LVfilename<<std::endl;
257 
258  /*
259  if(enableHVProcessing){
260  std::ifstream HVfile(edm::FileInPath(HVfilename).fullPath().c_str(),std::ios::in);
261  while(!HVfile.eof()) {
262  HVfile >> modId2 >> channelstr1;
263  std::string channelstr2 = channelstr1.substr(9,1);
264  channel= atoi(channelstr2.c_str());
265  TmModule *imod = imoduleMap[modId2];
266  // if(modId1==modId2){
267  imod->HVchannel=channel;
268 
269  }
270 
271  }
272 */
273 
274 
275  while(!LVfile.eof()) {
276  LVfile >> modId1 >> dcuId >> psIdinfo >> psinfo;
277 
278  if(detCabling && detCabling->getConnections(modId1).size()==0) continue;
279 
280  // int length=psinfo.length();
281  std::string dcsinfo = psinfo.substr(39,1);
282  std::string branchinfo = psinfo.substr(57,2);
283  std::string crateinfo= psinfo.substr(69,1);
284  std::string boardinfo = psinfo.substr(80,2);
285  std::string channelinfo = psinfo.substr(90,3);
286 
287  dcs= atoi(dcsinfo.c_str());
288  branch= atoi(branchinfo.c_str());
289  crate= atoi(crateinfo.c_str())+1;
290  board= atoi(boardinfo.c_str())+1;
291  rack = (branch+1)+(dcs-1)*6;
292  rack = rack_order[rack];
293  channel = atoi(channelinfo.c_str());
294  // std::cout << dcs << " " << branch<< " " <<crate<< " " << board<<" " << rack << std::endl;
295  int key = rack*1000+crate*100+board;
296 
297  TmPsu *psu = psuMap[key];
298  TmModule *imod = imoduleMap[modId1];
299  if(psu==0){
300  psu = new TmPsu(dcs,branch,rack,crate,board);
301  psuMap[key]=psu;
302  psu->psId=psIdinfo;
303  }
304 
305  psuModuleMap.insert(std::make_pair(psu,imod));
306  if(imod!=0){imod->PsuId=psIdinfo;imod->psuIdex=psu->idex;imod->HVchannel=channel;}
307 
308  }
309 
310 
311  // int nmax=0;
312  std::map<int , TmPsu *>::iterator ipsu;
313  std::multimap<TmPsu*, TmModule*>::iterator it;
314  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
315  npsu=0;
316 
317  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
318  TmPsu * psu= ipsu->second;
319  npsu++;
320 
321  if(psu!=0){
322 
323  std::ostringstream outs;
324  std::ostringstream outs1;
325 
326  std::ostringstream outs3;
327  std::ostringstream outs4;
328 
329  std::ostringstream outs5;
330  std::ostringstream outs6;
331 
332  outs <<"PSU "<<psu->psId<<" connected to Mainframe "<<psu->getPsuDcs()<<" BranchController "<<psu->getPsuBranch()<<" (Rack "<<psu->getPsuRack()<<"), crate "<<psu->getPsuCrate()<<" in position "<< psu->getPsuBoard()<< " with modules: ";
333  outs1<<"(";
334 
335  if(enableHVProcessing){
336  outs3 <<"PSU "<<psu->psId<<" connected to Mainframe "<<psu->getPsuDcs()<<" BranchController "<<psu->getPsuBranch()<<" (Rack "<<psu->getPsuRack()<<"),crate "<<psu->getPsuCrate()<<" in position "<< psu->getPsuBoard()<<" and HV channel 002 with modules: ";
337  outs4<<"(";
338 
339  outs5 <<"PSU "<<psu->psId<<" connected to Mainframe "<<psu->getPsuDcs()<<" BranchController "<<psu->getPsuBranch()<<" (Rack "<<psu->getPsuRack()<<"), crate "<<psu->getPsuCrate()<<" in position "<< psu->getPsuBoard()<<" and HV channel 002 with modules: ";
340  outs6<<"(";}
341 
342 
343  ret = psuModuleMap.equal_range(psu);
344  nmod=0;
345  nmodHV2=0;
346  nmodHV3=0;
347  for (it = ret.first; it != ret.second; ++it)
348  {
349  nmod++;
350  outs << (*it).second->idex << ", ";
351  outs1 << (*it).second->getKey() <<",";
352 
353  if(enableHVProcessing){
354  if((*it).second->HVchannel==2){
355  nmodHV2++;
356  outs3 << (*it).second->idex << ", ";
357  outs4 << (*it).second->getKey() <<",";}
358  else if((*it).second->HVchannel==3){
359  nmodHV3++;
360  outs5 << (*it).second->idex << ", ";
361  outs6 << (*it).second->getKey() <<",";}
362 
363  }
364  }
365 
366  outs1 << ")";
367  psu->nmod=nmod;
368  outs << "(" << psu->nmod << ")";
369  psu->text=outs.str();
370  psu->cmodid_LV=outs1.str();
371  if(enableHVProcessing){
372  outs4 << ")";
373  outs6 << ")";
374  psu->nmodHV2=nmodHV2;
375  psu->nmodHV3=nmodHV3;
376  outs3 << "(" << psu->nmodHV2 << ")";
377  outs5 << "(" << psu->nmodHV3 << ")";
378  psu->textHV2=outs3.str();
379  psu->textHV3=outs5.str();
380  psu->cmodid_HV2=outs4.str();
381  psu->cmodid_HV3=outs6.str();
382  }
383  }
384  }
385 
386 
387  npsuracks=29;
388  std::cout << npsu << " psu stored in " <<npsuracks<<" racks"<<std::endl;
389  }
390 }
TmModule * mod
Definition: TmApvPair.h:16
bool tkMapLog
Definition: TrackerMap.h:167
std::string text
Definition: TmApvPair.h:12
int getPsuBranch()
Definition: TmPsu.h:14
tuple ret
prodAgent to be discontinued
ModApvPair apvModuleMap
Definition: TrackerMap.h:147
int nfeccrates
Definition: TrackerMap.h:488
MapCcu ccuMap
Definition: TrackerMap.h:152
int mpos
Definition: TmApvPair.h:17
std::string cmodid_HV2
Definition: TmPsu.h:33
int nmodHV3
Definition: TmPsu.h:31
bool psetAvailable
Definition: TrackerMap.h:173
int idex
Definition: TmPsu.h:11
std::string cmodid
Definition: TmCcu.h:16
static const uint32_t invalid32_
Definition: Constants.h:15
bool saveGeoTrackerMap
Definition: TrackerMap.h:162
bool enableFecProcessing
Definition: TrackerMap.h:164
int layer
Definition: TmCcu.h:17
int getCcuRing()
Definition: TmCcu.h:21
bool saveWebInterface
Definition: TrackerMap.h:161
std::string infilename
Definition: TrackerMap.h:171
int npsuracks
Definition: TrackerMap.h:489
const std::vector< SiStripFecCrate > & crates() const
int getPsuBoard()
Definition: TmPsu.h:17
bool enableFedProcessing
Definition: TrackerMap.h:163
int layer
Definition: TmModule.h:28
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
int nmod
Definition: TmCcu.h:15
std::string jsPath
Definition: TrackerMap.h:172
bool enableHVProcessing
Definition: TrackerMap.h:166
int getFedId()
Definition: TmApvPair.h:19
int getPsuDcs()
Definition: TmPsu.h:13
int getCcuSlot()
Definition: TmCcu.h:20
const std::vector< const FedChannelConnection * > & getConnections(uint32_t det_id) const
unsigned int idex
Definition: TmModule.h:29
int nmod
Definition: TmPsu.h:29
int nchan
Definition: TauolaWrapper.h:80
std::string PsuId
Definition: TmModule.h:18
FedsConstIterRange fedIds() const
bool saveAsSingleLayer
Definition: TrackerMap.h:507
int getCcuCrate()
Definition: TmCcu.h:19
int getPsuRack()
Definition: TmPsu.h:15
int nmodHV2
Definition: TmPsu.h:30
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
void init()
Definition: TrackerMap.cc:439
std::string psId
Definition: TmPsu.h:12
int psuIdex
Definition: TmModule.h:19
SvgFed slotMap
Definition: TrackerMap.h:150
int mpos
Definition: TmCcu.h:18
std::string capvids
Definition: TmModule.h:16
short int HVchannel
Definition: TmModule.h:20
int CcuId
Definition: TmModule.h:17
SvgFed fedMap
Definition: TrackerMap.h:149
PsuModule psuModuleMap
Definition: TrackerMap.h:158
std::string cmodid_HV3
Definition: TmPsu.h:34
tuple branchinfo
Definition: dataDML.py:2355
static const uint16_t invalid_
Definition: Constants.h:16
int crate
Definition: TmApvPair.h:15
int firstcrate
Definition: TrackerMap.h:487
FecModule fecModuleMap
Definition: TrackerMap.h:154
ConnsConstIterRange fedConnections(uint16_t fed_id) const
std::string title
Definition: TrackerMap.h:170
int idex
Definition: TmCcu.h:13
std::string textHV3
Definition: TmPsu.h:37
SvgApvPair apvMap
Definition: TrackerMap.h:145
std::string text
Definition: TmPsu.h:35
int idex
Definition: TmApvPair.h:14
tuple cout
Definition: gather_cfg.py:145
std::string cmodid_LV
Definition: TmPsu.h:32
bool enableLVProcessing
Definition: TrackerMap.h:165
std::string textHV2
Definition: TmPsu.h:36
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmCcu.h:5
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
std::string text
Definition: TmCcu.h:11
Definition: TmPsu.h:6
std::string name
Definition: TmModule.h:15
int getFedCh()
Definition: TmApvPair.h:18
int getPsuCrate()
Definition: TmPsu.h:16
std::string jsfilename
Definition: TrackerMap.h:171
TrackerMap::~TrackerMap ( )

default destructor

Definition at line 490 of file TrackerMap.cc.

References apvMap, ccuMap, firstRing, relval_steps::key, mod(), module(), ntotRing, psuMap, relativeConstraints::ring, and smoduleMap.

490  {
491 
492 for (int layer=1; layer < 44; layer++){
493  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
494  for (int module=1;module<200;module++) {
495  int key=layer*100000+ring*1000+module;
496  TmModule * mod = smoduleMap[key];
497  if(mod !=0 ) delete mod;
498  }
499  }
500  }
501 
502 //std::map<int , TmModule *>::iterator i_mod;
503 // for( i_mod=imoduleMap.begin();i_mod !=imoduleMap.end(); i_mod++){
504 // TmModule * mod= i_mod->second;
505 // delete mod;
506 // }
507 std::map<int , TmApvPair *>::iterator i_apv;
508  for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
509  TmApvPair * apvPair= i_apv->second;
510  delete apvPair;
511  }
512 
513 
514 std::map<int , TmCcu *>::iterator i_ccu;
515  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
516  TmCcu * ccu= i_ccu->second;
517  delete ccu;
518  }
519 
520 std::map<int , TmPsu *>::iterator ipsu;
521  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
522  TmPsu * psu= ipsu->second;
523  delete psu;
524  }
525 
526 gROOT->Reset();
527 
528 
529 //for(std::vector<TColor*>::iterator col1=vc.begin();col1!=vc.end();col1++){
530 // std::cout<<(*col1)<<std::endl;}
531 }
MapCcu ccuMap
Definition: TrackerMap.h:152
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
int firstRing[43]
Definition: TrackerMap.h:480
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
SvgApvPair apvMap
Definition: TrackerMap.h:145
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmCcu.h:5
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
Definition: TmPsu.h:6
Definition: vlib.h:208
int ntotRing[43]
Definition: TrackerMap.h:479

Member Function Documentation

void TrackerMap::addPixel ( bool  addPixelfl)
inline

Definition at line 130 of file TrackerMap.h.

References addPixelFlag.

Referenced by DetIdSelectorTest::DetIdSelectorTest().

130 {addPixelFlag=addPixelfl;};
bool addPixelFlag
Definition: TrackerMap.h:508
void TrackerMap::build ( )

Definition at line 2808 of file TrackerMap.cc.

References TmModule::count, gather_cfg::cout, contentValuesFiles::fullPath, TmModule::idex, imoduleMap, recoMuon::in, timingPdfMaker::infile, infilename, relval_steps::key, TmModule::length, mod(), TmModule::name, mergeVDriftHistosByStation::name, number_modules, TmModule::posx, TmModule::posy, TmModule::posz, relativeConstraints::ring, TmModule::setUsed(), smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, TmModule::thickness, TmModule::value, TmModule::width, create_public_lumi_plots::width, and TmModule::widthAtHalfLength.

Referenced by init(), and psClasses.BuildThread::run().

2808  {
2809  // std::ifstream* infile;
2810 
2811  int nmods, pix_sil, fow_bar, ring, nmod, layer;
2812  unsigned int idex;
2813  float posx, posy, posz, length, width, thickness, widthAtHalfLength;
2814  int iModule=0,old_layer=0, ntotMod =0;
2815  std::string name,dummys;
2816  std::ifstream infile(edm::FileInPath(infilename).fullPath().c_str(),std::ios::in);
2817  while(!infile.eof()) {
2818  infile >> nmods >> pix_sil >> fow_bar >> layer >> ring >> nmod >> posx >> posy
2819  >> posz>> length >> width >> thickness
2820  >> widthAtHalfLength >> idex ;
2821  getline(infile,dummys); //necessary to reach end of record
2822  getline(infile,name);
2823  if(old_layer!=layer){old_layer=layer;iModule=0;}
2824  iModule++;
2825  ntotMod++;
2826  int key=layer*100000+ring*1000+nmod;
2827  TmModule * mod = smoduleMap[key];
2828 
2829  imoduleMap[idex]=mod;
2830 
2831  if(mod==0) std::cout << "error in module "<<key <<std::endl;
2832  else
2833  {
2834  mod->posx = posx;
2835  mod->posy = posy;
2836  mod->setUsed();
2837  mod->value=0;
2838  mod->count=0;
2839  mod->posz = posz;
2840  mod->length = length;
2841  mod->width = width;
2842  mod->thickness = thickness;
2843  mod->widthAtHalfLength = widthAtHalfLength;
2844  mod->idex = idex;
2845  mod->name = name;
2846  }
2847  }
2848  infile.close();
2849  number_modules = ntotMod-1;
2850 }
float value
Definition: TmModule.h:12
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
void setUsed()
Definition: TmModule.h:25
float posz
Definition: TmModule.h:9
int number_modules
Definition: TrackerMap.h:501
std::string infilename
Definition: TrackerMap.h:171
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
float posx
Definition: TmModule.h:9
unsigned int idex
Definition: TmModule.h:29
float posy
Definition: TmModule.h:9
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmModule.h:13
float width
Definition: TmModule.h:10
float widthAtHalfLength
Definition: TmModule.h:10
float thickness
Definition: TmModule.h:10
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
float length
Definition: TmModule.h:10
std::string name
Definition: TmModule.h:15
void TrackerMap::defcwindow ( int  num_crate)
inline

Definition at line 299 of file TrackerMap.h.

References ix, iy, NUMFED_INCOLUMN, NUMFED_INROW, NUMFEDCH_INCOLUMN, NUMFEDCH_INROW, NUMFEDCRATE_INCOLUMN, XFEDCSIZE, XFEDOFFSET, xmax, xmin, YFEDCSIZE, YFEDOFFSET, ymax, and ymin.

Referenced by save_as_fedtrackermap().

299  {
300  // ncrate = num_crate;
301  int xoffset=XFEDOFFSET;
302  int yoffset=YFEDOFFSET;
304 
305  ix = xoffset+((NUMFEDCRATE_INCOLUMN-1)-((num_crate-1)%NUMFEDCRATE_INCOLUMN))*(XFEDCSIZE+XFEDOFFSET);
306  iy = yoffset+((num_crate-1)/NUMFEDCRATE_INCOLUMN)*(YFEDCSIZE+YFEDOFFSET);
307  }
#define NUMFEDCRATE_INCOLUMN
Definition: TrackerMap.h:56
#define YFEDOFFSET
Definition: TrackerMap.h:63
double xmin
Definition: TrackerMap.h:490
#define NUMFEDCH_INCOLUMN
Definition: TrackerMap.h:50
#define YFEDCSIZE
Definition: TrackerMap.h:61
double ymax
Definition: TrackerMap.h:490
#define NUMFED_INCOLUMN
Definition: TrackerMap.h:52
#define XFEDCSIZE
Definition: TrackerMap.h:60
double xmax
Definition: TrackerMap.h:490
double ymin
Definition: TrackerMap.h:490
#define NUMFED_INROW
Definition: TrackerMap.h:53
#define XFEDOFFSET
Definition: TrackerMap.h:62
#define NUMFEDCH_INROW
Definition: TrackerMap.h:51
void TrackerMap::deffecwindow ( int  num_crate)
inline

Definition at line 308 of file TrackerMap.h.

References ix, iy, xmax, xmin, xsize, ymax, ymin, and ysize.

Referenced by save_as_fectrackermap().

308  {
309  // ncrate = num_crate;
310  int xoffset=xsize/3;
311  int yoffset=2*ysize;
312  xmin=-1.;xmax=37.; ymin = -10.; ymax=40.;
313  if(num_crate==1||num_crate==3)ix = xoffset+xsize*2;
314  if(num_crate==2||num_crate==4)ix = xoffset;
315  iy = yoffset+((num_crate-1)/2)*ysize*4;
316  }
double xmin
Definition: TrackerMap.h:490
double ymax
Definition: TrackerMap.h:490
double xmax
Definition: TrackerMap.h:490
double ymin
Definition: TrackerMap.h:490
void TrackerMap::defpsuwindow ( int  num_rack)
inline

Definition at line 317 of file TrackerMap.h.

References ix, iy, NUMPSUCH_INROW, NUMPSUCRATE_INCOLUMN, NUMPSURACK_INCOLUMN, xmax, xmin, XPSUOFFSET, XPSURSIZE, ymax, ymin, YPSUOFFSET, and YPSURSIZE.

Referenced by save_as_HVtrackermap(), and save_as_psutrackermap().

317  {
318  // nrack = num_rack;
319  int xoffset=XPSUOFFSET;
320  int yoffset=YPSUOFFSET;
321  xmin=0; xmax=(NUMPSUCRATE_INCOLUMN)*1.5;
323 
324  ix = xoffset+((NUMPSURACK_INCOLUMN-1)-((num_rack-1)%NUMPSURACK_INCOLUMN))*(XPSURSIZE+XPSUOFFSET);
325  iy = yoffset+((num_rack-1)/NUMPSURACK_INCOLUMN)*(YPSURSIZE+YPSUOFFSET);
326  }
#define NUMPSURACK_INCOLUMN
Definition: TrackerMap.h:43
double xmin
Definition: TrackerMap.h:490
#define XPSURSIZE
Definition: TrackerMap.h:45
double ymax
Definition: TrackerMap.h:490
double xmax
Definition: TrackerMap.h:490
double ymin
Definition: TrackerMap.h:490
#define YPSUOFFSET
Definition: TrackerMap.h:48
#define NUMPSUCRATE_INCOLUMN
Definition: TrackerMap.h:42
#define YPSURSIZE
Definition: TrackerMap.h:46
#define XPSUOFFSET
Definition: TrackerMap.h:47
#define NUMPSUCH_INROW
Definition: TrackerMap.h:41
void TrackerMap::defwindow ( int  num_lay)
inline

Definition at line 329 of file TrackerMap.h.

References ix, iy, posrel, xmax, xmin, xsize, ymax, ymin, and ysize.

Referenced by print(), printlayers(), and save().

329  {
330  // nlay = num_lay;
331  if(posrel){ // separated modules
332  xmin=-2.;ymin=-2.;xmax=2.;ymax=2.;
333  if(num_lay >12 && num_lay < 19){
334  xmin=-.40;xmax=.40;ymin=-.40;ymax=.40;
335  }
336  if(num_lay>30){
337  xmin=-0.1;xmax=3.;ymin=-0.1;ymax=8.5;
338  if(num_lay<34){xmin=-0.3;xmax=1.0;}
339  if(num_lay>33&&num_lay<38){xmax=2.0;}
340  if(num_lay>37){ymax=8.;}//inner
341  }
342  }else{ //overlayed modules
343  xmin=-1.3;ymin=-1.3;xmax=1.3;ymax=1.3;
344  if(num_lay >12 && num_lay < 19){
345  xmin=-.20;xmax=.20;ymin=-.20;ymax=.20;
346  }
347  if(num_lay>30){
348  xmin=-1.5;xmax=1.5;ymin=-1.;ymax=28.;
349  if(num_lay<34){xmin=-0.5;xmax=0.5;}
350  if(num_lay>33&&num_lay<38){xmin=-1.;xmax=1.;}
351  }
352 
353  }
354  if(num_lay<16){
355  ix=0;
356  if(num_lay==15||num_lay==14)iy=(15-num_lay)*2*ysize; else
357  {if(num_lay>9&&num_lay<13)iy=4*ysize-(int)(ysize/2.)+(12-num_lay)*(int)(ysize/1.50);else iy=6*ysize+(9-num_lay)*(int)(ysize*1.3);}}
358  if(num_lay>15&&num_lay<31){
359  ix=3*xsize;
360  if(num_lay==16||num_lay==17)iy=(num_lay-16)*2*ysize; else
361  {if(num_lay>18&&num_lay<22)iy=4*ysize-(int)(ysize/2.)+(num_lay-19)*(int)(ysize/1.50);else iy=6*ysize+(num_lay-22)*(int)(ysize*1.3);}}
362  if(num_lay>30){
363  if(num_lay==31){ix=(int)(1.5*xsize);iy=0;}
364  if(num_lay==32){int il=(num_lay-30)/2;ix=xsize;iy=il*2*ysize;}
365  if(num_lay==33){int il=(num_lay-30)/2;ix=2*xsize;iy=il*2*ysize;}
366  if(num_lay==34){int il=(num_lay-30)/2;ix=xsize;iy=il*(int)(2.57*ysize);}
367  if(num_lay>34 && num_lay%2==0){int il=(num_lay-30)/2;ix=xsize;iy=il*(int)(2.5*ysize);}
368  if(num_lay>34 && num_lay%2!=0){int il=(num_lay-30)/2;ix=2*xsize;iy=il*(int)(2.5*ysize);}
369  }
370 }
double xmin
Definition: TrackerMap.h:490
bool posrel
Definition: TrackerMap.h:492
double ymax
Definition: TrackerMap.h:490
double xmax
Definition: TrackerMap.h:490
double ymin
Definition: TrackerMap.h:490
void TrackerMap::drawApvPair ( int  crate,
int  numfed_incrate,
bool  total,
TmApvPair apvPair,
std::ofstream *  file,
bool  useApvPairValue 
)

Definition at line 943 of file TrackerMap.cc.

References TmApvPair::blue, TmModule::blue, create_public_lumi_plots::color, TmApvPair::count, TmModule::count, getcolor(), TmApvPair::getFedCh(), TmApvPair::getFedId(), TmModule::getKey(), TmApvPair::green, TmModule::green, cmsRelvalreport::green(), TmApvPair::idex, TmModule::idex, j, relval_2017::k, TmApvPair::mod, TmModule::name, np, NUMFED_INCOLUMN, NUMFED_INROW, NUMFEDCH_INCOLUMN, NUMFEDCH_INROW, palette, TmApvPair::red, TmModule::red, cmsRelvalreport::red(), alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmApvPair::value, TmModule::value, xdpixelc(), and ydpixelc().

Referenced by save_as_fedtrackermap().

944 {
945  double xp[4],yp[4];
946  int color;
947  int green = 0;
948  int red = 0;
949  int blue = 0;
950  double xd[4],yd[4];
951  int np = 4;
952  double boxinitx=0., boxinity=0.;
953  double dx=.9,dy=.9;
954  /*
955  int numfedch_incolumn = 12;
956  int numfedch_inrow = 8;
957  int numfed_incolumn = 6;
958  int numfed_inrow = 4;
959  */
960  boxinitx=boxinitx+(NUMFED_INCOLUMN-1-(numfed_incrate-1)/NUMFED_INROW)*(NUMFEDCH_INCOLUMN+2);
961  boxinity=boxinity+(NUMFED_INROW-1-(numfed_incrate-1)%NUMFED_INROW)*(NUMFEDCH_INROW+1);
962  boxinity=boxinity+NUMFEDCH_INROW-(apvPair->getFedCh()/NUMFEDCH_INCOLUMN);
963  boxinitx = boxinitx+NUMFEDCH_INCOLUMN-(int)(apvPair->getFedCh()%NUMFEDCH_INCOLUMN);
964  // std::cout << crate << " " << numfed_incrate << " " << apvPair->getFedCh()<<" "<<boxinitx<< " " << boxinity << std::endl; ;
965  xp[0]=boxinitx;yp[0]=boxinity;
966  xp[1]=boxinitx+dx;yp[1]=boxinity;
967  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
968  xp[3]=boxinitx;yp[3]=boxinity + dy;
969  for(int j=0;j<4;j++){
970  xd[j]=xdpixelc(xp[j]);yd[j]=ydpixelc(yp[j]);
971  //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
972  }
973 
974  char buffer [20];
975  sprintf(buffer,"%X",apvPair->mod->idex);
976  std::string s = apvPair->mod->name;
977  s.erase(s.begin()+s.find("connected"),s.end());
978 
979  if(useApvPairValue){
980  if(apvPair->red < 0){ //use count to compute color
981  if(apvPair->count > 0) {
982  color = getcolor(apvPair->value,palette);
983  red=(color>>16)&0xFF;
984  green=(color>>8)&0xFF;
985  blue=(color)&0xFF;
986  if(!print_total)apvPair->value=apvPair->value*apvPair->count;//restore mod->value
987  if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
988  else *svgfile <<"<svg:polygon detid=\""<<apvPair->idex<<"\" count=\""<<apvPair->count <<"\" value=\""<<apvPair->value<<"\" id=\""<<apvPair->idex+crate*1000000<<"\" cmodid=\""<<apvPair->mod->getKey()<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Fed/Ch "<<apvPair->getFedId()<<"/"<<apvPair->getFedCh()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" points=\"";
989  } else {
990  if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
991  else *svgfile <<"<svg:polygon detid=\""<<apvPair->idex<<"\" count=\""<<apvPair->count <<"\" value=\""<<apvPair->value<<"\" id=\""<<apvPair->idex+crate*1000000<<"\" cmodid=\""<<apvPair->mod->getKey()<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Fed/Ch "<<apvPair->getFedId()<<"/"<<apvPair->getFedCh()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"white\" points=\"";
992  }
993  } else {//color defined with fillc
994  if(apvPair->red>255)apvPair->red=255;
995  if(apvPair->green>255)apvPair->green=255;
996  if(apvPair->blue>255)apvPair->blue=255;
997  if(temporary_file)*svgfile << apvPair->red << " " << apvPair->green << " " << apvPair->blue << " ";
998  else *svgfile <<"<svg:polygon detid=\""<<apvPair->idex<<"\" count=\""<<apvPair->count <<"\" value=\""<<apvPair->value<<"\" id=\""<<apvPair->idex+crate*1000000<<"\" cmodid=\""<<apvPair->mod->getKey()<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Fed/Ch "<<apvPair->getFedId()<<"/"<<apvPair->getFedCh()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"rgb("<<apvPair->red<<","<<apvPair->green<<","<<apvPair->blue<<")\" points=\"";
999  }
1000  }else{
1001  if(apvPair->mod->red < 0){ //use count to compute color
1002  if(apvPair->mod->count > 0) {
1003  color = getcolor(apvPair->mod->value,palette);
1004  red=(color>>16)&0xFF;
1005  green=(color>>8)&0xFF;
1006  blue=(color)&0xFF;
1007  if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
1008  else *svgfile <<"<svg:polygon detid=\""<<apvPair->idex<<"\" count=\""<<apvPair->count <<"\" value=\""<<apvPair->value<<"\" id=\""<<apvPair->idex+crate*1000000<<"\" cmodid=\""<<apvPair->mod->getKey()<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Fed/Ch "<<apvPair->getFedId()<<"/"<<apvPair->getFedCh()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" points=\"";
1009  } else {
1010  if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
1011  else *svgfile <<"<svg:polygon detid=\""<<apvPair->idex<<"\" count=\""<<apvPair->count <<"\" value=\""<<apvPair->value<<"\" id=\""<<apvPair->idex+crate*1000000<<"\" cmodid=\""<<apvPair->mod->getKey()<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Fed/Ch "<<apvPair->getFedId()<<"/"<<apvPair->getFedCh()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"white\" points=\"";
1012  }
1013  } else {//color defined with fillc
1014  if(apvPair->mod->red>255)apvPair->mod->red=255;
1015  if(apvPair->mod->green>255)apvPair->mod->green=255;
1016  if(apvPair->mod->blue>255)apvPair->mod->blue=255;
1017  if(temporary_file)*svgfile << apvPair->mod->red << " " << apvPair->mod->green << " " << apvPair->mod->blue << " ";
1018  else *svgfile <<"<svg:polygon detid=\""<<apvPair->idex<<"\" count=\""<<apvPair->count <<"\" value=\""<<apvPair->value<<"\" id=\""<<apvPair->idex+crate*1000000<<"\" cmodid=\""<<apvPair->mod->getKey()<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Fed/Ch "<<apvPair->getFedId()<<"/"<<apvPair->getFedCh()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"rgb("<<apvPair->mod->red<<","<<apvPair->mod->green<<","<<apvPair->mod->blue<<")\" points=\"";
1019  }
1020  }
1021  if(temporary_file)*svgfile << np << " ";
1022  for(int k=0;k<np;k++){
1023  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ;
1024  else *svgfile << xd[k] << "," << yd[k] << " " ;
1025  }
1026  if(temporary_file)*svgfile << std::endl;
1027  else *svgfile <<"\" />" <<std::endl;
1028 }
TmModule * mod
Definition: TmApvPair.h:16
double ydpixelc(double y)
Definition: TrackerMap.h:262
float value
Definition: TmModule.h:12
int green
Definition: TmApvPair.h:10
#define NUMFEDCH_INCOLUMN
Definition: TrackerMap.h:50
double xdpixelc(double x)
Definition: TrackerMap.h:256
int getFedId()
Definition: TmApvPair.h:19
int red
Definition: TmApvPair.h:10
unsigned int idex
Definition: TmModule.h:29
int np
Definition: AMPTWrapper.h:33
#define NUMFED_INCOLUMN
Definition: TrackerMap.h:52
int j
Definition: DBlmapReader.cc:9
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
int blue
Definition: TmApvPair.h:10
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
int count
Definition: TmModule.h:13
int getKey()
Definition: TmModule.h:23
int green
Definition: TmModule.h:11
int count
Definition: TmApvPair.h:13
int red
Definition: TmModule.h:11
int blue
Definition: TmModule.h:11
#define NUMFED_INROW
Definition: TrackerMap.h:53
int idex
Definition: TmApvPair.h:14
float value
Definition: TmApvPair.h:11
std::string name
Definition: TmModule.h:15
int getFedCh()
Definition: TmApvPair.h:18
#define NUMFEDCH_INROW
Definition: TrackerMap.h:51
void TrackerMap::drawCcu ( int  crate,
int  numfed_incrate,
bool  total,
TmCcu ccu,
std::ofstream *  file,
bool  useCcuValue 
)

Definition at line 1029 of file TrackerMap.cc.

References TmCcu::blue, TmCcu::cmodid, create_public_lumi_plots::color, TmCcu::count, TmCcu::getCcuRing(), TmCcu::getCcuSlot(), getcolor(), TmCcu::green, cmsRelvalreport::green(), TmCcu::idex, j, relval_2017::k, TmCcu::layer, TmCcu::mpos, np, palette, TmCcu::red, cmsRelvalreport::red(), alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmCcu::text, TmCcu::value, xdpixelfec(), and ydpixelfec().

Referenced by save_as_fectrackermap().

1030 {
1031  double xp[4],yp[4];
1032  int color;
1033  int green = 0;
1034  int red = 0;
1035  int blue = 0;
1036  double xd[4],yd[4];
1037  int np = 4;
1038  double boxinitx=0., boxinity=0.;
1039  double dx=.9,dy=.9;
1040  int numccu_incolumn = 8;
1041  int numccu_inrow = 15;
1042  int numfec_incolumn = 5;
1043  int numfec_inrow = 4;
1044  boxinitx=boxinitx+(numfec_incolumn-(numfec_incrate-1)/numfec_inrow)*14.;
1045  boxinity=boxinity+(numfec_inrow-(numfec_incrate-1)%numfec_inrow)*16.;
1046  boxinity=boxinity+numccu_inrow-ccu->mpos;
1047  boxinitx = boxinitx+numccu_incolumn-(int)(ccu->getCcuRing()%numccu_incolumn);
1048  //std::cout << crate << " " << numfec_incrate << " " << ccu->getCcuRing()<<" "<<ccu->mpos<<" "<<boxinitx<< " " << boxinity << std::endl; ;
1049  xp[0]=boxinitx;yp[0]=boxinity;
1050  xp[1]=boxinitx+dx;yp[1]=boxinity;
1051  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
1052  xp[3]=boxinitx;yp[3]=boxinity + dy;
1053  for(int j=0;j<4;j++){
1054  xd[j]=xdpixelfec(xp[j]);yd[j]=ydpixelfec(yp[j]);
1055  //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
1056  }
1057 
1058  char buffer [20];
1059  sprintf(buffer,"%X",ccu->idex);
1060  //sprintf(buffer,"%X",ccu->mod->idex);
1061  //std::string s = ccu->mod->name;
1062  std::string s = ccu->text;
1063  s.erase(s.begin()+s.find("connected"),s.end());
1064 
1065  if(ccu->red < 0){ //use count to compute color
1066  if(ccu->count > 0) {
1067  color = getcolor(ccu->value,palette);
1068  red=(color>>16)&0xFF;
1069  green=(color>>8)&0xFF;
1070  blue=(color)&0xFF;
1071  if(!print_total)ccu->value=ccu->value*ccu->count;//restore mod->value
1072  if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
1073  else *svgfile <<"<svg:polygon detid=\""<<ccu->idex<<"\" count=\""<<ccu->count <<"\" value=\""<<ccu->value<<"\" id=\""<<ccu->idex+crate*1000000<<"\" cmodid=\""<<ccu->cmodid<<"\" layer=\""<<ccu->layer<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Slot/Ring"<<ccu->getCcuSlot()<<"/"<<ccu->getCcuRing()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" points=\"";
1074  } else {
1075  if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
1076  else *svgfile <<"<svg:polygon detid=\""<<ccu->idex<<"\" count=\""<<ccu->count <<"\" value=\""<<ccu->value<<"\" id=\""<<ccu->idex+crate*1000000<<"\" cmodid=\""<<ccu->cmodid<<"\" layer=\""<<ccu->layer<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Slot/Ring "<<ccu->getCcuSlot()<<"/"<<ccu->getCcuRing()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"white\" points=\"";
1077  }
1078  } else {//color defined with fillc
1079  if(ccu->red>255)ccu->red=255;
1080  if(ccu->green>255)ccu->green=255;
1081  if(ccu->blue>255)ccu->blue=255;
1082  if(temporary_file)*svgfile << ccu->red << " " << ccu->green << " " << ccu->blue << " ";
1083  else *svgfile <<"<svg:polygon detid=\""<<ccu->idex<<"\" count=\""<<ccu->count <<"\" value=\""<<ccu->value<<"\" id=\""<<ccu->idex+crate*1000000<<"\" cmodid=\""<<ccu->cmodid<<"\" layer=\""<<ccu->layer<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"Slot/Ring "<<ccu->getCcuSlot()<<"/"<<ccu->getCcuRing()<<" connected to "<<s<<" Id "<<buffer<<" \" fill=\"rgb("<<ccu->red<<","<<ccu->green<<","<<ccu->blue<<")\" points=\"";
1084  }
1085 if(temporary_file)*svgfile << np << " ";
1086 for(int k=0;k<np;k++){
1087  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ;
1088  else *svgfile << xd[k] << "," << yd[k] << " " ;
1089 }
1090 if(temporary_file)*svgfile << std::endl;
1091 else *svgfile <<"\" />" <<std::endl;
1092 
1093 }
double ydpixelfec(double y)
Definition: TrackerMap.h:276
std::string cmodid
Definition: TmCcu.h:16
int layer
Definition: TmCcu.h:17
int getCcuRing()
Definition: TmCcu.h:21
int count
Definition: TmCcu.h:12
double xdpixelfec(double x)
Definition: TrackerMap.h:270
int getCcuSlot()
Definition: TmCcu.h:20
int np
Definition: AMPTWrapper.h:33
int j
Definition: DBlmapReader.cc:9
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
int green
Definition: TmCcu.h:9
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
int mpos
Definition: TmCcu.h:18
float value
Definition: TmCcu.h:10
int idex
Definition: TmCcu.h:13
int red
Definition: TmCcu.h:9
int blue
Definition: TmCcu.h:9
std::string text
Definition: TmCcu.h:11
void TrackerMap::drawHV2 ( int  rack,
int  numcrate_inrack,
bool  print_total,
TmPsu psu,
std::ofstream *  svgfile,
bool  usePsuValue 
)

Definition at line 1171 of file TrackerMap.cc.

References TmPsu::blueHV2, TmPsu::cmodid_HV2, create_public_lumi_plots::color, TmPsu::countHV2, getcolor(), TmPsu::getPsuBoard(), TmPsu::getPsuCrate(), TmPsu::greenHV2, TmPsu::idex, j, relval_2017::k, np, palette, TmPsu::redHV2, alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmPsu::textHV2, TmPsu::valueHV2, xdpixelpsu(), and ydpixelpsu().

Referenced by save_as_HVtrackermap().

1172 {
1173  double xp[4],yp[4];
1174  int color;
1175  int greenHV2 = 0;
1176  int redHV2 = 0;
1177  int blueHV2 = 0;
1178  double xd[4],yd[4];
1179  int np = 4;
1180  double boxinitx=35, boxinity=12;
1181  double dx=1.1,dy=1.3;
1182 
1183  boxinitx= boxinitx+(5 - psu->getPsuCrate())*5;
1184  boxinity= boxinity+(18 - psu->getPsuBoard())*1.75;
1185 
1186  xp[0]=boxinitx;yp[0]=boxinity;
1187  xp[1]=boxinitx+dx;yp[1]=boxinity;
1188  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
1189  xp[3]=boxinitx;yp[3]=boxinity + dy;
1190 
1191 
1192  for(int j=0;j<4;j++){
1193  xd[j]=xdpixelpsu(xp[j]);yd[j]=ydpixelpsu(yp[j]);
1194  //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
1195  }
1196 
1197  char buffer [20];
1198  sprintf(buffer,"%X",psu->idex);
1199  std::string s = psu->textHV2;
1200  s.erase(s.begin()+s.find("connected"),s.end());
1201 
1202  if(psu->redHV2 < 0){ //use count to compute color
1203 
1204  if(psu->valueHV2 > 0){
1205  color = getcolor(psu->valueHV2,palette);
1206  redHV2=(color>>16)&0xFF;
1207  greenHV2=(color>>8)&0xFF;
1208  blueHV2=(color)&0xFF;
1209  if(!print_total)psu->valueHV2=psu->valueHV2*psu->countHV2;//restore mod->value
1210  if(temporary_file)*svgfile << redHV2 << " " << greenHV2 << " " << blueHV2 << " ";
1211  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->countHV2 <<"\" value=\""<<psu->valueHV2<<"\" id=\""<< psu->idex*10+2 <<"\" cmodid=\""<<psu->cmodid_HV2<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"rgb("<<redHV2<<","<<greenHV2<<","<<blueHV2<<")\" points=\"";
1212  }
1213  else{
1214  if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
1215  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->countHV2 <<"\" value=\""<<psu->valueHV2<<"\" id=\""<< psu->idex*10+2 <<"\" cmodid=\""<<psu->cmodid_HV2<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"white\" points=\"";
1216  }
1217  }
1218 
1219  else {//color defined with fillc
1220  if(psu->redHV2>255)psu->redHV2=255;
1221  if(psu->greenHV2>255)psu->greenHV2=255;
1222  if(psu->blueHV2>255)psu->blueHV2=255;
1223  if(temporary_file)*svgfile << psu->redHV2 << " " << psu->greenHV2 << " " << psu->blueHV2 << " ";
1224  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->countHV2 <<"\" value=\""<<psu->valueHV2<<"\" id=\""<< psu->idex*10+2 <<"\" cmodid=\""<<psu->cmodid_HV2<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"rgb("<<psu->redHV2<<","<<psu->greenHV2<<","<<psu->blueHV2<<")\" points=\"";
1225  }
1226 
1227 if(temporary_file)*svgfile << np << " ";
1228 for(int k=0;k<np;k++){
1229  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ;
1230  else *svgfile << xd[k] << "," << yd[k] << " " ;
1231 }
1232 if(temporary_file)*svgfile << std::endl;
1233 else *svgfile <<"\" />" <<std::endl;
1234 
1235 }
int redHV2
Definition: TmPsu.h:21
std::string cmodid_HV2
Definition: TmPsu.h:33
int idex
Definition: TmPsu.h:11
int countHV2
Definition: TmPsu.h:27
int getPsuBoard()
Definition: TmPsu.h:17
int np
Definition: AMPTWrapper.h:33
double xdpixelpsu(double x)
Definition: TrackerMap.h:284
int j
Definition: DBlmapReader.cc:9
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
int greenHV2
Definition: TmPsu.h:21
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
float valueHV2
Definition: TmPsu.h:25
std::string textHV2
Definition: TmPsu.h:36
int blueHV2
Definition: TmPsu.h:21
double ydpixelpsu(double y)
Definition: TrackerMap.h:290
int getPsuCrate()
Definition: TmPsu.h:16
void TrackerMap::drawHV3 ( int  rack,
int  numcrate_inrack,
bool  print_total,
TmPsu psu,
std::ofstream *  svgfile,
bool  usePsuValue 
)

Definition at line 1238 of file TrackerMap.cc.

References TmPsu::blueHV3, TmPsu::cmodid_HV3, create_public_lumi_plots::color, TmPsu::countHV3, getcolor(), TmPsu::getPsuBoard(), TmPsu::getPsuCrate(), TmPsu::greenHV3, TmPsu::idex, j, relval_2017::k, np, palette, TmPsu::redHV3, alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmPsu::textHV3, TmPsu::valueHV3, xdpixelpsu(), and ydpixelpsu().

Referenced by save_as_HVtrackermap().

1239 {
1240  double xp[4],yp[4];
1241  int color;
1242  int greenHV3 = 0;
1243  int redHV3 = 0;
1244  int blueHV3 = 0;
1245  double xd[4],yd[4];
1246  int np = 4;
1247  double boxinitx=36.5, boxinity=12;
1248  double dx=1.1,dy=1.3;
1249 
1250  boxinitx= boxinitx+(5 - psu->getPsuCrate())*5;
1251  boxinity= boxinity+(18 - psu->getPsuBoard())*1.75;
1252 
1253  xp[0]=boxinitx;yp[0]=boxinity;
1254  xp[1]=boxinitx+dx;yp[1]=boxinity;
1255  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
1256  xp[3]=boxinitx;yp[3]=boxinity + dy;
1257 
1258 
1259  for(int j=0;j<4;j++){
1260  xd[j]=xdpixelpsu(xp[j]);yd[j]=ydpixelpsu(yp[j]);
1261  //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
1262  }
1263 
1264  char buffer [20];
1265  sprintf(buffer,"%X",psu->idex);
1266  std::string s = psu->textHV3;
1267  s.erase(s.begin()+s.find("connected"),s.end());
1268 
1269  if(psu->redHV3 < 0){ //use count to compute color
1270  if(psu->valueHV3 > 0){
1271  color = getcolor(psu->valueHV3,palette);
1272  redHV3=(color>>16)&0xFF;
1273  greenHV3=(color>>8)&0xFF;
1274  blueHV3=(color)&0xFF;
1275  if(!print_total)psu->valueHV3=psu->valueHV3*psu->countHV3;//restore mod->value
1276  if(temporary_file)*svgfile << redHV3 << " " << greenHV3 << " " << blueHV3 << " ";
1277  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->countHV3 <<"\" value=\""<<psu->valueHV3<<"\" id=\""<< psu->idex*10+3 <<"\" cmodid=\""<<psu->cmodid_HV3<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard"<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"rgb("<<redHV3<<","<<greenHV3<<","<<blueHV3<<")\" points=\"";
1278  }
1279  else{
1280  if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
1281  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->countHV3 <<"\" value=\""<<psu->valueHV3<<"\" id=\""<< psu->idex*10+3 <<"\" cmodid=\""<<psu->cmodid_HV3<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"white\" points=\"";
1282  }
1283  }
1284 
1285  else {//color defined with fillc
1286  if(psu->redHV3>255)psu->redHV3=255;
1287  if(psu->greenHV3>255)psu->greenHV3=255;
1288  if(psu->blueHV3>255)psu->blueHV3=255;
1289  if(temporary_file)*svgfile << psu->redHV3 << " " << psu->greenHV3 << " " << psu->blueHV3 << " ";
1290  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->countHV3 <<"\" value=\""<<psu->valueHV3<<"\" id=\""<< psu->idex*10+3 <<"\" cmodid=\""<<psu->cmodid_HV3<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"rgb("<<psu->redHV3<<","<<psu->greenHV3<<","<<psu->blueHV3<<")\" points=\"";
1291  }
1292 
1293 if(temporary_file)*svgfile << np << " ";
1294 for(int k=0;k<np;k++){
1295  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ;
1296  else *svgfile << xd[k] << "," << yd[k] << " " ;
1297 }
1298 if(temporary_file)*svgfile << std::endl;
1299 else *svgfile <<"\" />" <<std::endl;
1300 
1301 }
int idex
Definition: TmPsu.h:11
int getPsuBoard()
Definition: TmPsu.h:17
int greenHV3
Definition: TmPsu.h:22
int np
Definition: AMPTWrapper.h:33
double xdpixelpsu(double x)
Definition: TrackerMap.h:284
int blueHV3
Definition: TmPsu.h:22
int j
Definition: DBlmapReader.cc:9
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
int redHV3
Definition: TmPsu.h:22
std::string cmodid_HV3
Definition: TmPsu.h:34
std::string textHV3
Definition: TmPsu.h:37
int countHV3
Definition: TmPsu.h:28
float valueHV3
Definition: TmPsu.h:24
double ydpixelpsu(double y)
Definition: TrackerMap.h:290
int getPsuCrate()
Definition: TmPsu.h:16
void TrackerMap::drawModule ( TmModule mod,
int  key,
int  layer,
bool  total,
std::ofstream *  file 
)

Definition at line 537 of file TrackerMap.cc.

References TmModule::blue, TmModule::capvids, TmModule::CcuId, create_public_lumi_plots::color, funct::cos(), TmModule::count, getcolor(), TmModule::green, cmsRelvalreport::green(), TmModule::HVchannel, TmModule::idex, TmModule::idModule, isRingStereo(), j, relval_2017::k, TmModule::length, M_PI, TmModule::name, nlay, np, palette, phi, phival(), posrel, TmModule::posx, TmModule::posy, TmModule::posz, TmModule::psuIdex, alignCSCRings::r, TmModule::red, cmsRelvalreport::red(), TmModule::ring, funct::sin(), mathSSE::sqrt(), temporary_file, TmModule::text, TmModule::value, TmModule::width, TmModule::widthAtHalfLength, xdpixel(), and ydpixel().

Referenced by print(), printlayers(), and save().

537  {
538  //int x,y;
539  nlay = mlay;
540  double phi,r,dx,dy, dy1;
541  double xp[4],yp[4],xp1,yp1;
542  double vhbot,vhtop,vhapo;
543  double rmedio[]={0.041,0.0701,0.0988,0.255,0.340,0.430,0.520,0.610,0.696,0.782,0.868,0.965,1.080};
544  double xt1,yt1,xs1=0.,ys1=0.,xt2,yt2,xs2,ys2,pv1,pv2;
545  int green = 0;
546  int red = 0;
547  int blue = 0;
548  double xd[4],yd[4];
549  int np = 4;
550  //int numrec=0;
551  int numod=0;
552  phi = phival(mod->posx,mod->posy);
553  r = sqrt(mod->posx*mod->posx+mod->posy*mod->posy);
554  vhbot = mod->width;
555  vhtop=mod->width;
556  vhapo=mod->length;
557  if(mlay < 31){ //endcap
558  vhbot = mod->widthAtHalfLength/2.-(mod->width/2.-mod->widthAtHalfLength/2.);
559  vhtop=mod->width/2.;
560  vhapo=mod->length/2.;
561  if(mlay >12 && mlay <19){
562  if(posrel)r = r+r;
563  xp[0]=r-vhtop;yp[0]=-vhapo;
564  xp[1]=r+vhtop;yp[1]=-vhapo;
565  xp[2]=r+vhtop;yp[2]=vhapo;
566  xp[3]=r-vhtop;yp[3]=vhapo;
567  }else{
568  if(posrel)r = r + r/3.;
569  xp[0]=r-vhapo;yp[0]=-vhbot;
570  xp[1]=r+vhapo;yp[1]=-vhtop;
571  xp[2]=r+vhapo;yp[2]=vhtop;
572  xp[3]=r-vhapo;yp[3]=vhbot;
573  }
574  for(int j=0;j<4;j++){
575  xp1 = xp[j]*cos(phi)-yp[j]*sin(phi);
576  yp1 = xp[j]*sin(phi)+yp[j]*cos(phi);
577  xp[j] = xp1;yp[j]=yp1;
578  }
579  } else { //barrel
580  numod=mod->idModule;if(numod>100)numod=numod-100;
581  int vane = mod->ring;
582  if(posrel){
583  dx = vhapo;
584  phi=M_PI;
585  xt1=rmedio[mlay-31]; yt1=-vhtop/2.;
586  xs1 = xt1*cos(phi)-yt1*sin(phi);
587  ys1 = xt1*sin(phi)+yt1*cos(phi);
588  xt2=rmedio[mlay-31]; yt2=vhtop/2.;
589  xs2 = xt2*cos(phi)-yt2*sin(phi);
590  ys2 = xt2*sin(phi)+yt2*cos(phi);
591  dy=phival(xs2,ys2)-phival(xs1,ys1);
592  dy1 = dy;
593  if(mlay==31)dy1=0.39;
594  if(mlay==32)dy1=0.23;
595  if(mlay==33)dy1=0.16;
596  xp[0]=vane*(dx+dx/8.);yp[0]=numod*(dy1);
597  xp[1]=vane*(dx+dx/8.)+dx;yp[1]=numod*(dy1);
598  xp[2]=vane*(dx+dx/8.)+dx;yp[2]=numod*(dy1)+dy;
599  xp[3]=vane*(dx+dx/8.);yp[3]=numod*(dy1)+dy;
600  }else{
601  xt1=r; yt1=-vhtop/2.;
602  xs1 = xt1*cos(phi)-yt1*sin(phi);
603  ys1 = xt1*sin(phi)+yt1*cos(phi);
604  xt2=r; yt2=vhtop/2.;
605  xs2 = xt2*cos(phi)-yt2*sin(phi);
606  ys2 = xt2*sin(phi)+yt2*cos(phi);
607  pv1=phival(xs1,ys1);
608  pv2=phival(xs2,ys2);
609  if(fabs(pv1-pv2)>M_PI && numod==1)pv1=pv1-2.*M_PI;
610  if(fabs(pv1-pv2)>M_PI && numod!=1)pv2=pv2+2.*M_PI;
611  xp[0]=mod->posz-vhapo/2.;yp[0]=4.2*pv1;
612  xp[1]=mod->posz+vhapo/2.;yp[1]=4.2*pv1;
613  xp[2]=mod->posz+vhapo/2. ;yp[2]=4.2*pv2;
614  xp[3]=mod->posz-vhapo/2.;yp[3]=4.2*pv2;
615  }
616  }
617  if(isRingStereo(key))
618  {
619  np = 3;
620  if(mod->idModule>100 ){for(int j=0;j<3;j++){
621  xd[j]=xdpixel(xp[j]);yd[j]=ydpixel(yp[j]);
622  }
623  }else {
624  xd[0]=xdpixel(xp[2]);yd[0]=ydpixel(yp[2]);
625  xd[1]=xdpixel(xp[3]);yd[1]=ydpixel(yp[3]);
626  xd[2]=xdpixel(xp[0]);yd[2]=ydpixel(yp[0]);
627  }
628  } else {
629  for(int j=0;j<4;j++){
630  xd[j]=xdpixel(xp[j]);yd[j]=ydpixel(yp[j]);
631  }
632  }
633  char buffer [20];
634  sprintf(buffer,"%X",mod->idex);
635 
636  if(mod->red < 0){ //use count to compute color
637  int color = getcolor(mod->value,palette);
638  red=(color>>16)&0xFF;
639  green=(color>>8)&0xFF;
640  blue=(color)&0xFF;
641 
642 if(!print_total)mod->value=mod->value*mod->count;//restore mod->value
643 
644  if(mod->count > 0)
645  if(temporary_file) *svgfile << red << " " << green << " " << blue << " "; else
646  *svgfile <<"<svg:polygon detid=\""<<mod->idex<<"\" count=\""<<mod->count <<"\" value=\""<<mod->value<<"\" id=\""<<key<<"\" capvids=\""<<mod->capvids<<"\" lv=\""<<mod->psuIdex<<"\" hv=\""<<mod->psuIdex*10 + mod->HVchannel<<"\" fec=\""<<mod->CcuId<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\""<<mod->text<<"\" POS=\""<<mod->name<<" \" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" points=\"";
647  else
648  if(temporary_file) *svgfile << 255 << " " << 255 << " " << 255 << " "; else
649  *svgfile <<"<svg:polygon detid=\""<<mod->idex<<"\" count=\""<<mod->count <<"\" value=\""<<mod->value<<"\" id=\""<<key<<"\" capvids=\""<<mod->capvids<<"\" lv=\""<<mod->psuIdex<<"\" hv=\""<<mod->psuIdex*10 + mod->HVchannel<<"\" fec=\""<<mod->CcuId<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\""<<mod->text<<"\" POS=\""<<mod->name<<" \" fill=\"white\" points=\"";
650  if(temporary_file) *svgfile << np << " ";
651  for(int k=0;k<np;k++){
652  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; else
653  *svgfile << xd[k] << "," << yd[k] << " " ;
654  }
655  if(temporary_file)*svgfile << std::endl; else *svgfile <<"\" />" <<std::endl;
656  } else {//color defined with fillc
657  if(mod->red>255)mod->red=255;
658  if(mod->green>255)mod->green=255;
659  if(mod->blue>255)mod->blue=255;
660  if(temporary_file) *svgfile << mod->red << " " << mod->green << " " << mod->blue << " "; else
661  *svgfile <<"<svg:polygon detid=\""<<mod->idex<<"\" count=\""<<mod->count <<"\" value=\""<<mod->value<<"\" id=\""<<key<<"\" capvids=\""<<mod->capvids<<"\" lv=\""<<mod->psuIdex<<"\" hv=\""<<mod->psuIdex*10 + mod->HVchannel<<"\" fec=\""<<mod->CcuId<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\""<<mod->text<<"\" POS=\""<<mod->name<<" \" fill=\"rgb("<<mod->red<<","<<mod->green<<","<<mod->blue<<")\" points=\"";
662  if(temporary_file) *svgfile << np << " ";
663  for(int k=0;k<np;k++){
664  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; else
665  *svgfile << xd[k] << "," << yd[k] << " " ;
666  }
667  if(temporary_file)*svgfile << std::endl; else *svgfile <<"\" />" <<std::endl;
668  }
669 
670 }
float value
Definition: TmModule.h:12
int idModule
Definition: TmModule.h:26
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
float posz
Definition: TmModule.h:9
float posx
Definition: TmModule.h:9
bool posrel
Definition: TrackerMap.h:492
double phival(double x, double y)
Definition: TrackerMap.h:174
unsigned int idex
Definition: TmModule.h:29
int np
Definition: AMPTWrapper.h:33
std::string text
Definition: TmModule.h:14
float posy
Definition: TmModule.h:9
T sqrt(T t)
Definition: SSEVec.h:18
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
int j
Definition: DBlmapReader.cc:9
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
double ydpixel(double y)
Definition: TrackerMap.h:242
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
int count
Definition: TmModule.h:13
float width
Definition: TmModule.h:10
#define M_PI
int psuIdex
Definition: TmModule.h:19
std::string capvids
Definition: TmModule.h:16
short int HVchannel
Definition: TmModule.h:20
float widthAtHalfLength
Definition: TmModule.h:10
int green
Definition: TmModule.h:11
int CcuId
Definition: TmModule.h:17
int red
Definition: TmModule.h:11
int blue
Definition: TmModule.h:11
double xdpixel(double x)
Definition: TrackerMap.h:236
static bool isRingStereo(int key)
Definition: TrackerMap.h:441
int ring
Definition: TmModule.h:27
float length
Definition: TmModule.h:10
std::string name
Definition: TmModule.h:15
void TrackerMap::drawPalette ( std::ofstream *  file,
int  xoffset = 3660,
int  yoffset = 1540 
)

Definition at line 2500 of file TrackerMap.cc.

References create_public_lumi_plots::color, gather_cfg::cout, getcolor(), cmsRelvalreport::green(), i, maxvalue, minvalue, palette, cmsRelvalreport::red(), relval_parameters_module::step, temporary_file, tkMapLog, and create_public_lumi_plots::width.

Referenced by print(), save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), and save_as_psutrackermap().

2500  {
2501  std::cout << "preparing the palette" << std::endl;
2502  int color,red, green, blue;
2503  float val=minvalue;
2504  int paletteLength = 250;
2505  int width=50*(yoffset-40)/1500;
2506  float dval = (maxvalue-minvalue)/(float)paletteLength;
2507  bool rtkMapLog = tkMapLog; if (tkMapLog)tkMapLog=false;
2508  float step = float(yoffset-40)/float(paletteLength);
2509  for(int i=1;i<paletteLength+1;i++){
2510  color = getcolor(val,palette);
2511  red=(color>>16)&0xFF;
2512  green=(color>>8)&0xFF;
2513  blue=(color)&0xFF;
2514  // if(!temporary_file)*svgfile <<"<svg:rect x=\"3010\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"6\" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" />\n";
2515  // else *svgfile << red << " " << green << " " << blue << " 4 " << (6*i)+40 << " 3010. " <<//
2516  // (6*i)+40 << " 3060. " <<//
2517  // (6*(i-1))+40 << " 3060. " <<//
2518  // (6*(i-1))+40 <<" 3010. " << std::endl; //
2519 
2520  // if(i%50 == 0){
2521  // if(!temporary_file)*svgfile <<"<svg:rect x=\"3010\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"1\" fill=\"black\" />\n";
2522  // if(i%50==0&&!temporary_file)*svgfile << " <svg:text class=\"normalText\" x=\"3060\" y=\""<<(1560-6*i)<<"\">" <<val<<"</svg:text>"<<std::endl;
2523 
2524  if(!temporary_file)*svgfile <<"<svg:rect x=\"3610\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"6\" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" />\n";
2525  else *svgfile << red << " " << green << " " << blue << " 4 " << int(step*i)+34 << " " << xoffset-width << ". " <<//
2526  int(step*i)+34 << " " << xoffset << ". " <<//
2527  int(step*(i-1))+34 << " " << xoffset << ". " <<//
2528  int(step*(i-1))+34 << " " << xoffset-width << ". " << std::endl; //
2529 
2530  if(i%50 == 0){
2531  if(!temporary_file)*svgfile <<"<svg:rect x=\"3610\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"1\" fill=\"black\" />\n";
2532  if(i%50==0&&!temporary_file)*svgfile << " <svg:text class=\"normalText\" x=\"3660\" y=\""<<(1560-6*i)<<"\">" <<val<<"</svg:text>"<<std::endl;
2533  }
2534  val = val + dval;
2535  }
2536  tkMapLog=rtkMapLog;
2537 }
bool tkMapLog
Definition: TrackerMap.h:167
int i
Definition: DBlmapReader.cc:9
float minvalue
Definition: TrackerMap.h:500
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
float maxvalue
Definition: TrackerMap.h:500
tuple cout
Definition: gather_cfg.py:145
void TrackerMap::drawPsu ( int  rack,
int  numcrate_inrack,
bool  print_total,
TmPsu psu,
std::ofstream *  svgfile,
bool  usePsuValue 
)

Definition at line 1094 of file TrackerMap.cc.

References TmPsu::blue, TmPsu::cmodid_LV, create_public_lumi_plots::color, TmPsu::count, getcolor(), TmPsu::getPsuBoard(), TmPsu::getPsuCrate(), TmPsu::green, cmsRelvalreport::green(), TmPsu::idex, j, relval_2017::k, np, NUMPSUCH_INROW, NUMPSUCRATE_INCOLUMN, palette, TmPsu::red, cmsRelvalreport::red(), alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmPsu::text, TmPsu::value, xdpixelpsu(), and ydpixelpsu().

Referenced by save_as_psutrackermap().

1095 {
1096  double xp[4],yp[4];
1097  int color;
1098  int green = 0;
1099  int red = 0;
1100  int blue = 0;
1101  double xd[4],yd[4];
1102  int np = 4;
1103  double boxinitx=0., boxinity=0.;
1104  double dx=.9,dy=.9;
1105 
1106  boxinitx=boxinitx+(NUMPSUCRATE_INCOLUMN-psu->getPsuCrate())*1.5;
1107  boxinity=boxinity+(NUMPSUCH_INROW-psu->getPsuBoard());
1108 
1109  xp[0]=boxinitx;yp[0]=boxinity;
1110  xp[1]=boxinitx+dx;yp[1]=boxinity;
1111  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
1112  xp[3]=boxinitx;yp[3]=boxinity + dy;
1113 
1114 
1115  for(int j=0;j<4;j++){
1116  xd[j]=xdpixelpsu(xp[j]);yd[j]=ydpixelpsu(yp[j]);
1117  //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
1118  }
1119 
1120  // lines needed to prepare the clickable maps: understand why I get twice the full list of channels (HV1 and HV0?)
1121  /*
1122  double scalex=2695./2700.;
1123  double scaley=1520./1550.;
1124  std::cout << "<area shape=\"rect\" coords=\" "
1125  << int(scalex*yd[2]) << "," << int(1520-scaley*xd[2])
1126  << "," << int(scalex*yd[0]) << "," << int(1520-scaley*xd[0])
1127  << "\" title=\" " << psu->psId << "\" /> " << std::endl;
1128  */
1129  //
1130 
1131  char buffer [20];
1132  sprintf(buffer,"%X",psu->idex);
1133  std::string s = psu->text;
1134  s.erase(s.begin()+s.find("connected"),s.end());
1135 
1136  if(psu->red < 0){ //use count to compute color
1137  if(psu->count > 0){
1138  color = getcolor(psu->value,palette);
1139  red=(color>>16)&0xFF;
1140  green=(color>>8)&0xFF;
1141  blue=(color)&0xFF;
1142  if(!print_total)psu->value=psu->value*psu->count;//restore mod->value
1143  if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
1144  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->count <<"\" value=\""<<psu->value<<"\" id=\""<< psu->idex <<"\" cmodid=\""<<psu->cmodid_LV<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" points=\"";
1145  }
1146  else{
1147 
1148  if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
1149  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->count <<"\" value=\""<<psu->value<<"\" id=\""<< psu->idex <<"\" cmodid=\""<<psu->cmodid_LV<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"white\" points=\"";
1150  }
1151  }
1152 
1153  else {//color defined with fillc
1154  if(psu->red>255)psu->red=255;
1155  if(psu->green>255)psu->green=255;
1156  if(psu->blue>255)psu->blue=255;
1157  if(temporary_file)*svgfile << psu->red << " " << psu->green << " " << psu->blue << " ";
1158  else *svgfile <<"<svg:polygon detid=\""<<psu->idex<<"\" count=\""<<psu->count <<"\" value=\""<<psu->value<<"\" id=\""<< psu->idex <<"\" cmodid=\""<<psu->cmodid_LV<<"\" onclick=\"showData(evt);\" onmouseover=\"showData(evt);\" onmouseout=\"showData(evt);\" MESSAGE=\"""\" POS=\"easyCrate/easyBoard "<<psu->getPsuCrate()<<"/"<<psu->getPsuBoard()<<" connected to "<<s<<" \" fill=\"rgb("<<psu->red<<","<<psu->green<<","<<psu->blue<<")\" points=\"";
1159  }
1160 
1161 if(temporary_file)*svgfile << np << " ";
1162 for(int k=0;k<np;k++){
1163  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ;
1164  else *svgfile << xd[k] << "," << yd[k] << " " ;
1165 }
1166 if(temporary_file)*svgfile << std::endl;
1167 else *svgfile <<"\" />" <<std::endl;
1168 
1169 }
int count
Definition: TmPsu.h:26
int idex
Definition: TmPsu.h:11
float value
Definition: TmPsu.h:23
int getPsuBoard()
Definition: TmPsu.h:17
int red
Definition: TmPsu.h:20
int np
Definition: AMPTWrapper.h:33
double xdpixelpsu(double x)
Definition: TrackerMap.h:284
int j
Definition: DBlmapReader.cc:9
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
int green
Definition: TmPsu.h:20
int getcolor(float value, int palette)
Definition: TrackerMap.cc:2851
#define NUMPSUCRATE_INCOLUMN
Definition: TrackerMap.h:42
std::string text
Definition: TmPsu.h:35
std::string cmodid_LV
Definition: TmPsu.h:32
int blue
Definition: TmPsu.h:20
#define NUMPSUCH_INROW
Definition: TrackerMap.h:41
double ydpixelpsu(double y)
Definition: TrackerMap.h:290
int getPsuCrate()
Definition: TmPsu.h:16
void TrackerMap::fill ( int  layer,
int  ring,
int  nmod,
float  x 
)

Definition at line 2777 of file TrackerMap.cc.

References TmModule::count, gather_cfg::cout, relval_steps::key, mod(), smoduleMap, and TmModule::value.

Referenced by SiStripCablingTrackerMap::analyze(), SiStripQualityStatistics::analyze(), SiStripPlotGain::DoAnalysis(), SiStripCorrelateNoise::DoAnalysis(), TkHistoMap::dumpInTkMap(), SiStripBaseCondObjDQM::fillTkMap(), load(), and SiStripHitEffFromCalibTree::makeTKMap().

2777  {
2778 
2779  int key = layer*100000+ring*1000+nmod;
2780  TmModule * mod = smoduleMap[key];
2781  if(mod!=0){
2782  mod->value=mod->value+qty;
2783  mod->count++;
2784  }
2785  else std::cout << "**************************error in SvgModuleMap **************";
2786 }
float value
Definition: TmModule.h:12
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmModule.h:13
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::fill ( int  idmod,
float  qty 
)

Definition at line 2757 of file TrackerMap.cc.

References TmModule::count, gather_cfg::cout, customiseL1CustomReco::idmod, imoduleMap, mod(), and TmModule::value.

2757  {
2758 
2760  if(mod!=0){
2761  mod->value=mod->value+qty;
2762  mod->count++;
2763  return;
2764  }else{
2765  TmModule * mod1 = imoduleMap[idmod+1];
2766  TmModule * mod2 = imoduleMap[idmod+2];
2767  if(mod1!=0 && mod2!=0){
2768  mod1->value=mod1->value+qty;
2769  mod1->count++;
2770  mod2->value=mod2->value+qty;
2771  mod2->count++;
2772  return;
2773  }}
2774  std::cout << "**************************error in fill method **************module "<<idmod<<std::endl;
2775 }
float value
Definition: TmModule.h:12
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
int count
Definition: TmModule.h:13
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::fill_all_blank ( )

Definition at line 2740 of file TrackerMap.cc.

References fill_current_val(), and imoduleMap.

Referenced by SiStripTrackerMapCreator::create().

2740  {
2741 
2742  std::map<const int , TmModule *>::iterator imod;
2743  for( imod=imoduleMap.begin();imod !=imoduleMap.end(); imod++){
2744  fill_current_val(imod->first,0);
2745  }
2746 }
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
void fill_current_val(int idmod, float current_val)
Definition: TrackerMap.cc:2750
void TrackerMap::fill_current_val ( int  idmod,
float  current_val 
)

Definition at line 2750 of file TrackerMap.cc.

References TmModule::count, gather_cfg::cout, customiseL1CustomReco::idmod, imoduleMap, mod(), TmModule::red, and TmModule::value.

Referenced by DetIdSelectorTest::analyze(), TrackerDpgAnalysis::beginRun(), fill_all_blank(), and SiStripTrackerMapCreator::paintTkMapFromHistogram().

2750  {
2751 
2753  if(mod!=0) {mod->value=current_val; mod->count=1; mod->red=-1;}
2754  else std::cout << "**error in fill_current_val method ***module "<<idmod<<std::endl;
2755 }
float value
Definition: TmModule.h:12
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
int count
Definition: TmModule.h:13
int red
Definition: TmModule.h:11
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::fill_current_val_fed_channel ( int  fedId,
int  fedCh,
float  current_val 
)

Definition at line 2565 of file TrackerMap.cc.

References apvMap, TmApvPair::count, gather_cfg::cout, relval_steps::key, TmApvPair::red, and TmApvPair::value.

2566 {
2567  int key = fedId*1000+fedCh;
2568  TmApvPair* apvpair = apvMap[key];
2569 
2570  if(apvpair!=0) {apvpair->value=current_val; apvpair->count=1; apvpair->red=-1;}
2571  else
2572  std::cout << "*** error in FedTrackerMap fill_current_val method ***";
2573 }
int red
Definition: TmApvPair.h:10
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmApvPair.h:13
SvgApvPair apvMap
Definition: TrackerMap.h:145
tuple cout
Definition: gather_cfg.py:145
float value
Definition: TmApvPair.h:11
void TrackerMap::fill_fec_channel ( int  crate,
int  slot,
int  ring,
int  addr,
float  qty 
)

Definition at line 2589 of file TrackerMap.cc.

References ccuMap, TmCcu::count, gather_cfg::cout, relval_steps::key, and TmCcu::value.

2590 {
2591  int key =crate*10000000+slot*100000+ring*1000+addr;
2592  TmCcu *ccu = ccuMap[key];
2593  if(ccu!=0){
2594  ccu->count++; ccu->value=ccu->value+qty;
2595  return;
2596 
2597  }
2598 
2599  std::cout << "*** error in FecTrackerMap fill by module method ***";
2600  }
MapCcu ccuMap
Definition: TrackerMap.h:152
int count
Definition: TmCcu.h:12
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
float value
Definition: TmCcu.h:10
tuple cout
Definition: gather_cfg.py:145
Definition: TmCcu.h:5
void TrackerMap::fill_fed_channel ( int  fedId,
int  fedCh,
float  qty 
)

Definition at line 2698 of file TrackerMap.cc.

References apvMap, TmApvPair::count, gather_cfg::cout, relval_steps::key, and TmApvPair::value.

2699 {
2700  int key = fedId*1000+fedCh;
2701  TmApvPair* apvpair = apvMap[key];
2702  if(apvpair!=0){
2703  apvpair->value=apvpair->value+qty;
2704  apvpair->count++;
2705  return;
2706  }
2707  std::cout << "*** error inFedTrackerMap fill method ***";
2708 }
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmApvPair.h:13
SvgApvPair apvMap
Definition: TrackerMap.h:145
tuple cout
Definition: gather_cfg.py:145
float value
Definition: TmApvPair.h:11
void TrackerMap::fill_fed_channel ( int  modId,
float  qty 
)

Definition at line 2550 of file TrackerMap.cc.

References apvModuleMap, TmApvPair::count, gather_cfg::cout, and TmApvPair::value.

2551 {
2552  std::multimap<const int, TmApvPair*>::iterator pos;
2553  for (pos = apvModuleMap.lower_bound(idmod);
2554  pos != apvModuleMap.upper_bound(idmod); ++pos) {
2555  TmApvPair* apvpair = pos->second;
2556  if(apvpair!=0){
2557  apvpair->value=apvpair->value+qty;
2558  apvpair->count++;
2559  }
2560  }
2561  return;
2562  std::cout << "*** error in FedTrackerMap fill by module method ***";
2563  }
ModApvPair apvModuleMap
Definition: TrackerMap.h:147
int count
Definition: TmApvPair.h:13
tuple cout
Definition: gather_cfg.py:145
float value
Definition: TmApvPair.h:11
void TrackerMap::fill_hv_channel2 ( int  rack,
int  crate,
int  board,
float  qty 
)

Definition at line 2659 of file TrackerMap.cc.

References TmPsu::countHV2, gather_cfg::cout, relval_steps::key, psuMap, and TmPsu::valueHV2.

2660 {
2661  int key = rack*1000+crate*100+board;
2662  TmPsu *psu = psuMap[key];
2663  if(psu!=0){
2664  psu->countHV2++; psu->valueHV2=psu->valueHV2+qty;
2665  return;
2666 
2667  }
2668 
2669  std::cout << "*** error in HVTrackerMap fill by module method ***";
2670  }
int countHV2
Definition: TmPsu.h:27
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
float valueHV2
Definition: TmPsu.h:25
tuple cout
Definition: gather_cfg.py:145
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmPsu.h:6
void TrackerMap::fill_hv_channel3 ( int  rack,
int  crate,
int  board,
float  qty 
)

Definition at line 2671 of file TrackerMap.cc.

References TmPsu::countHV3, gather_cfg::cout, relval_steps::key, psuMap, and TmPsu::valueHV3.

2672 {
2673  int key = rack*1000+crate*100+board;
2674  TmPsu *psu = psuMap[key];
2675  if(psu!=0){
2676  psu->countHV3++; psu->valueHV3=psu->valueHV3+qty;
2677  return;
2678 
2679  }
2680 
2681  std::cout << "*** error in HVTrackerMap fill by module method ***";
2682  }
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int countHV3
Definition: TmPsu.h:28
tuple cout
Definition: gather_cfg.py:145
float valueHV3
Definition: TmPsu.h:24
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmPsu.h:6
void TrackerMap::fill_lv_channel ( int  rack,
int  crate,
int  board,
float  qty 
)

Definition at line 2618 of file TrackerMap.cc.

References TmPsu::count, gather_cfg::cout, relval_steps::key, psuMap, and TmPsu::value.

2619 {
2620  int key = rack*1000+crate*100+board;
2621  TmPsu *psu = psuMap[key];
2622  if(psu!=0){
2623  psu->count++; psu->value=psu->value+qty;
2624  return;
2625 
2626  }
2627 
2628  std::cout << "*** error in LVTrackerMap fill by module method ***";
2629  }
int count
Definition: TmPsu.h:26
float value
Definition: TmPsu.h:23
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
tuple cout
Definition: gather_cfg.py:145
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmPsu.h:6
void TrackerMap::fillc ( int  idmod,
int  RGBcode 
)
inline
void TrackerMap::fillc ( int  idmod,
int  red,
int  green,
int  blue 
)

Definition at line 2711 of file TrackerMap.cc.

References TmModule::blue, gather_cfg::cout, TmModule::green, cmsRelvalreport::green(), customiseL1CustomReco::idmod, imoduleMap, mod(), TmModule::red, and cmsRelvalreport::red().

2711  {
2712 
2714  if(mod!=0){
2715  mod->red=red; mod->green=green; mod->blue=blue;
2716  return;
2717  }
2718  std::cout << "**************************error in fill method **************module "<<idmod<<std::endl;
2719 }
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
int green
Definition: TmModule.h:11
int red
Definition: TmModule.h:11
int blue
Definition: TmModule.h:11
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::fillc ( int  layer,
int  ring,
int  nmod,
int  red,
int  green,
int  blue 
)

Definition at line 2720 of file TrackerMap.cc.

References TmModule::blue, gather_cfg::cout, TmModule::green, cmsRelvalreport::green(), relval_steps::key, mod(), TmModule::red, cmsRelvalreport::red(), and smoduleMap.

2720  {
2721 
2722  int key = layer*10000+ring*1000+nmod;
2723  TmModule * mod = smoduleMap[key];
2724 
2725  if(mod!=0){
2726  mod->red=red; mod->green=green; mod->blue=blue;
2727  return;
2728  }
2729  std::cout << "**************************error in fill method **************"<< std::endl;
2730 }
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int green
Definition: TmModule.h:11
int red
Definition: TmModule.h:11
int blue
Definition: TmModule.h:11
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::fillc_all_blank ( )

Definition at line 2732 of file TrackerMap.cc.

References fillc(), and imoduleMap.

Referenced by SiStripTrackerMapCreator::setTkMapFromAlarm().

2732  {
2733 
2734  std::map<const int , TmModule *>::iterator imod;
2735  for( imod=imoduleMap.begin();imod !=imoduleMap.end(); imod++){
2736  fillc(imod->first,255,255,255);
2737  }
2738 }
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
void fillc(int idmod, int RGBcode)
Definition: TrackerMap.h:104
void TrackerMap::fillc_fec_channel ( int  crate,
int  slot,
int  ring,
int  addr,
int  red,
int  green,
int  blue 
)

Definition at line 2576 of file TrackerMap.cc.

References TmCcu::blue, ccuMap, gather_cfg::cout, TmCcu::green, cmsRelvalreport::green(), relval_steps::key, TmCcu::red, and cmsRelvalreport::red().

2577  {
2578  int key =crate*10000000+slot*100000+ring*1000+addr;
2579 
2580  TmCcu *ccu = ccuMap[key];
2581 
2582  if(ccu!=0){
2583  ccu->red=red; ccu->green=green; ccu->blue=blue;
2584  return;
2585  }
2586  std::cout << "*** error in FecTrackerMap fillc method ***";
2587 }
MapCcu ccuMap
Definition: TrackerMap.h:152
int green
Definition: TmCcu.h:9
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int red
Definition: TmCcu.h:9
tuple cout
Definition: gather_cfg.py:145
int blue
Definition: TmCcu.h:9
Definition: TmCcu.h:5
void TrackerMap::fillc_fed_channel ( int  fedId,
int  fedCh,
int  red,
int  green,
int  blue 
)

Definition at line 2538 of file TrackerMap.cc.

References apvMap, TmApvPair::blue, gather_cfg::cout, TmApvPair::green, cmsRelvalreport::green(), relval_steps::key, TmApvPair::red, and cmsRelvalreport::red().

2539 {
2540  int key = fedId*1000+fedCh;
2541  TmApvPair* apvpair = apvMap[key];
2542 
2543  if(apvpair!=0){
2544  apvpair->red=red; apvpair->green=green; apvpair->blue=blue;
2545  return;
2546  }
2547  std::cout << "*** error in FedTrackerMap fillc method ***";
2548 }
int green
Definition: TmApvPair.h:10
int red
Definition: TmApvPair.h:10
int blue
Definition: TmApvPair.h:10
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
SvgApvPair apvMap
Definition: TrackerMap.h:145
tuple cout
Definition: gather_cfg.py:145
void TrackerMap::fillc_hv_channel2 ( int  rack,
int  crate,
int  board,
int  red,
int  green,
int  blue 
)

Definition at line 2631 of file TrackerMap.cc.

References TmPsu::blueHV2, gather_cfg::cout, cmsRelvalreport::green(), TmPsu::greenHV2, relval_steps::key, psuMap, cmsRelvalreport::red(), and TmPsu::redHV2.

2632 {
2633 
2634  int key = rack*1000+crate*100+board;
2635 
2636  TmPsu *psu = psuMap[key];
2637 
2638  if(psu!=0){
2639  psu->redHV2=red; psu->greenHV2=green; psu->blueHV2=blue;
2640  return;
2641  }
2642  std::cout << "*** error in HVTrackerMap (channel 2) fillc method ***";
2643 }
int redHV2
Definition: TmPsu.h:21
int greenHV2
Definition: TmPsu.h:21
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
tuple cout
Definition: gather_cfg.py:145
MapPsu psuMap
Definition: TrackerMap.h:156
int blueHV2
Definition: TmPsu.h:21
Definition: TmPsu.h:6
void TrackerMap::fillc_hv_channel3 ( int  rack,
int  crate,
int  board,
int  red,
int  green,
int  blue 
)

Definition at line 2644 of file TrackerMap.cc.

References TmPsu::blueHV3, gather_cfg::cout, cmsRelvalreport::green(), TmPsu::greenHV3, relval_steps::key, psuMap, cmsRelvalreport::red(), and TmPsu::redHV3.

2645 {
2646 
2647  int key = rack*1000+crate*100+board;
2648 
2649  TmPsu *psu = psuMap[key];
2650 
2651  if(psu!=0){
2652  psu->redHV3=red; psu->greenHV3=green; psu->blueHV3=blue;
2653  return;
2654  }
2655  std::cout << "*** error in HVTrackerMap (channel 3) fillc method ***";
2656 }
int greenHV3
Definition: TmPsu.h:22
int blueHV3
Definition: TmPsu.h:22
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int redHV3
Definition: TmPsu.h:22
tuple cout
Definition: gather_cfg.py:145
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmPsu.h:6
void TrackerMap::fillc_lv_channel ( int  rack,
int  crate,
int  board,
int  red,
int  green,
int  blue 
)

Definition at line 2604 of file TrackerMap.cc.

References TmPsu::blue, gather_cfg::cout, TmPsu::green, cmsRelvalreport::green(), relval_steps::key, psuMap, TmPsu::red, and cmsRelvalreport::red().

2605 {
2606 
2607  int key = rack*1000+crate*100+board;
2608 
2609  TmPsu *psu = psuMap[key];
2610 
2611  if(psu!=0){
2612  psu->red=red; psu->green=green; psu->blue=blue;
2613  return;
2614  }
2615  std::cout << "*** error in LVTrackerMap fillc method ***";
2616 }
int red
Definition: TmPsu.h:20
int green
Definition: TmPsu.h:20
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
tuple cout
Definition: gather_cfg.py:145
int blue
Definition: TmPsu.h:20
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmPsu.h:6
int TrackerMap::find_layer ( int  ix,
int  iy 
)
inline

Definition at line 188 of file TrackerMap.h.

References Clusterizer1DCommons::add(), xsize, and ysize.

189  {
190  int add;
191  int layer=0;
192  if(iy <= xsize){//endcap+z
193  add = 15;
194  layer = ix/ysize;
195  layer = layer+add+1;
196  }
197  if(iy > xsize && iy< 3*xsize){//barrel
198  add=30;
199  if(ix < 2*ysize){
200  layer=1;
201  }else {
202  layer = ix/(2*ysize);
203  if(iy < 2*xsize)layer=layer*2+1; else layer=layer*2;
204  }
205  layer = layer+add;
206  }
207  if(iy >= 3*xsize){ //endcap-z
208  layer = ix/ysize;
209  layer = 15-layer;
210  }
211  return layer;
212  }
void add(const std::vector< const T * > &source, std::vector< const T * > &dest)
std::ifstream * TrackerMap::findfile ( std::string  filename)

Definition at line 3510 of file TrackerMap.cc.

References gather_cfg::cout, lut2db_cfg::filename, contentValuesFiles::fullPath, recoMuon::in, jsPath, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by printall(), and printonline().

3510  {
3511  std::ifstream * ifilename;
3512  std::string ifname;
3513  if(jsPath!=""){
3514  ifname=jsPath+filename;
3515  ifilename = new std::ifstream(edm::FileInPath(ifname).fullPath().c_str(),std::ios::in);
3516  if(!ifilename){
3517  ifname="CommonTools/TrackerMap/data/"+filename;
3518  ifilename = new std::ifstream(edm::FileInPath(ifname).fullPath().c_str(),std::ios::in);
3519  }
3520  }else {
3521  ifname="CommonTools/TrackerMap/data/"+filename;
3522  ifilename = new std::ifstream(edm::FileInPath(ifname).fullPath().c_str(),std::ios::in);
3523  }
3524  if(!ifilename)std::cout << "File " << filename << " missing" << std::endl;
3525  return ifilename;
3526  }
std::string jsPath
Definition: TrackerMap.h:172
tuple filename
Definition: lut2db_cfg.py:20
tuple cout
Definition: gather_cfg.py:145
std::pair< float, float > TrackerMap::getAutomaticRange ( )

Definition at line 675 of file TrackerMap.cc.

References TmModule::count, firstRing, relval_steps::key, dqm-mbProfile::log, mod(), module(), TmModule::notInUse(), ntotRing, relativeConstraints::ring, smoduleMap, tkMapLog, TmModule::value, and relativeConstraints::value.

675  {
676  float minval,maxval;
677  minval=9999999.;
678  maxval=-9999999.;
679  for (int layer=1; layer < 44; layer++){
680  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
681  for (int module=1;module<200;module++) {
682  int key=layer*100000+ring*1000+module;
683  TmModule * mod = smoduleMap[key];
684  if(mod !=0 && !mod->notInUse() && mod->count>0){
685  if (minval > mod->value)minval=mod->value;
686  if (maxval < mod->value)maxval=mod->value;
687  }
688  }
689  }
690  }
691 if(tkMapLog) {minval=log(minval)/log(10);maxval=log(maxval)/log(10);}
692  return std::make_pair(minval,maxval);
693 
694 }
bool tkMapLog
Definition: TrackerMap.h:167
float value
Definition: TmModule.h:12
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
int firstRing[43]
Definition: TrackerMap.h:480
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmModule.h:13
bool notInUse()
Definition: TmModule.h:24
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
Definition: vlib.h:208
int ntotRing[43]
Definition: TrackerMap.h:479
int TrackerMap::getcolor ( float  value,
int  palette 
)

Definition at line 2851 of file TrackerMap.cc.

References delta, cmsRelvalreport::green(), dqm-mbProfile::log, maxvalue, minvalue, cmsRelvalreport::red(), tkMapLog, and x.

Referenced by drawApvPair(), drawCcu(), drawHV2(), drawHV3(), drawModule(), drawPalette(), and drawPsu().

2851  {
2852  int red,green,blue;
2853  float lminvalue, lmaxvalue;
2854  lminvalue=minvalue; lmaxvalue=maxvalue;
2855  if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10); value=log(value)/log(10);}
2856 
2857 
2858  red=0;green=0;blue=0;
2859  if(palette==1){//palette1 1 - raibow
2860  float delta=(lmaxvalue-lminvalue);
2861  float x =(value-lminvalue);
2862  if(value<lminvalue){red=0;green=0;blue=255;}
2863  if(value>lmaxvalue){red=255;green=0;blue=0;}
2864  if(value>=lminvalue&&value<=lmaxvalue){
2865  red = (int) ( x<(delta/2) ? 0 : ( x > ((3./4.)*delta) ? 255 : 255/(delta/4) * (x-(2./4.)*delta) ) );
2866  green= (int) ( x<delta/4 ? (x*255/(delta/4)) : ( x > ((3./4.)*delta) ? 255-255/(delta/4) *(x-(3./4.)*delta) : 255 ) );
2867  blue = (int) ( x<delta/4 ? 255 : ( x > ((1./2.)*delta) ? 0 : 255-255/(delta/4) * (x-(1./4.)*delta) ) );
2868  }
2869  }
2870  if (palette==2){//palette 2 yellow-green
2871  green = (int)((value-lminvalue)/(lmaxvalue-lminvalue)*256.);
2872  if (green > 255) green=255;
2873  red = 255; blue=0;green=255-green;
2874  }
2875  // std::cout<<red<<" "<<green<<" "<<blue<<" "<<value <<" "<<lminvalue<<" "<< lmaxvalue<<std::endl;
2876  return(blue|(green<<8)|(red<<16));
2877 }
dbl * delta
Definition: mlp_gen.cc:36
bool tkMapLog
Definition: TrackerMap.h:167
float minvalue
Definition: TrackerMap.h:500
float maxvalue
Definition: TrackerMap.h:500
int TrackerMap::getlayerCount ( int  subdet,
int  partdet 
)
inline

Definition at line 214 of file TrackerMap.h.

Referenced by init().

214  {
215  int ncomponent=0;
216  if(subdet == 1){ //1=pixel
217  if(partdet == 1 || partdet == 3){ //1-3=encap
218  ncomponent = 3;
219  }
220  else { ncomponent = 3; } //barrel
221  }
222  if(subdet== 2){ //2=inner silicon
223  if(partdet == 1 || partdet == 3){ //1-3=encap
224  ncomponent = 3;
225  }
226  else { ncomponent = 4; } //barrel
227  }
228  if(subdet== 3){ //3=outer silicon
229  if(partdet == 1 || partdet == 3){ //1-3=encap
230  ncomponent = 9;
231  }
232  else { ncomponent = 6; } //barrel
233  }
234  return(ncomponent);
235  }
int TrackerMap::getmoduleCount ( int  subdet,
int  partdet,
int  layer,
int  ring 
)
inline

Definition at line 405 of file TrackerMap.h.

Referenced by init().

405  {
406  int ncomponent=0;
407  int spicchif[] ={24,24,40,56,40,56,80};
408  int spicchib[] ={20,32,44,30,38,46,56,42,48,54,60,66,74};
409  int numero_layer = 0;
410 
411  if(partdet == 2){ //barrel
412  numero_layer = layer-1;
413  if(subdet== 2){ //inner
414  numero_layer = numero_layer+3;
415  }
416  if(subdet == 3){ //outer
417  numero_layer = numero_layer+7;
418  }
419  ncomponent = spicchib[numero_layer];
420  }
421  if(partdet!= 2){ //endcap
422  if(subdet== 1)ncomponent=24;//pixel
423  else
424  ncomponent = spicchif[ring-1];
425  }
426  return(ncomponent);
427  }
int TrackerMap::getNumMod ( )
inline

Definition at line 138 of file TrackerMap.h.

138 {return number_modules;};
int number_modules
Definition: TrackerMap.h:501
int TrackerMap::getringCount ( int  subdet,
int  partdet,
int  layer 
)
inline

Definition at line 372 of file TrackerMap.h.

Referenced by init().

372  {
373  int ncomponent=0;
374  if(subdet== 1){ //1=pixel
375  if(partdet== 1 || partdet== 3){ //end-cap
376  ncomponent = 7;
377  }
378  else{ncomponent = 8;} //barrel
379  }
380  if(subdet== 2){ //inner-silicon
381  if(partdet== 1 || partdet== 3){ //end-cap
382  ncomponent = 3;
383  }
384  else{ncomponent = 12;} //barrel
385  }
386  if(subdet== 3){ //outer-silicon
387  if(partdet== 1){ //end-cap-z
388  if (layer== 1) ncomponent = 4;
389  if (layer== 2 || layer== 3) ncomponent = 5;
390  if (layer== 4 || layer== 5 || layer== 6) ncomponent = 6;
391  if (layer== 7 || layer== 8 || layer== 9) ncomponent = 7;
392  }
393  if(partdet== 3){ //endcap+z
394  if (layer== 9) ncomponent = 4;
395  if (layer== 8 || layer== 7) ncomponent = 5;
396  if (layer== 6 || layer== 5 || layer== 4) ncomponent = 6;
397  if (layer== 3 || layer== 2 || layer== 1) ncomponent = 7;
398  }
399  if(partdet== 2){ //barrel
400  ncomponent = 12;
401  }
402  }
403  return(ncomponent);
404  }
int TrackerMap::getxsize ( )
inline

Definition at line 134 of file TrackerMap.h.

References xsize.

134 {return xsize;};
int TrackerMap::getysize ( )
inline

Definition at line 135 of file TrackerMap.h.

References ysize.

135 {return ysize;};
void TrackerMap::init ( void  )

Definition at line 439 of file TrackerMap.cc.

References addPixelFlag, build(), firstcall, firstRing, getlayerCount(), getmoduleCount(), getringCount(), gmaxvalue, gminvalue, isRingStereo(), ix, iy, relval_steps::key, maxvalue, minvalue, module(), ndet, nlayer(), nlayers, npart, ntotRing, onlyPixelFlag, palette, posrel, printflag, relativeConstraints::ring, smoduleMap, and temporary_file.

Referenced by TrackerMap().

439  {
440 
441  int ntotmod=0;
442  ix=0;iy=0; //used to compute the place of each layer in the tracker map
443  firstcall = true;
445  posrel=true;
446  palette = 1;
447  printflag=true;
448  addPixelFlag=false;
449  onlyPixelFlag=false;
450  temporary_file=false;
451  gminvalue=0.; gmaxvalue=0.;//default global range for online rendering
452 
453  ndet = 3; // number of detectors: pixel, inner silicon, outer silicon
454  npart = 3; // number of detector parts: endcap -z, barrel, endcap +z
455 
456  //allocate module map
457  for (int subdet=1; subdet < ndet+1; subdet++){//loop on subdetectors
458  for (int detpart=1; detpart < npart+1; detpart++){//loop on subdetectors parts
459  int nlayers = getlayerCount(subdet,detpart); // compute number of layers
460  for(int layer=1; layer < nlayers+1; layer++){//loop on layers
461  int nrings = getringCount(subdet,detpart,layer);// compute number of rings
462  //fill arrays used to do the loop on the rings
463  int layer_g = nlayer(subdet,detpart,layer);
464  ntotRing[layer_g-1]=nrings;
465  firstRing[layer_g-1]=1;
466  if(subdet==3 && detpart!=2) firstRing[layer_g-1]= 8-nrings; //special numbering for TEC
467  for (int ring=firstRing[layer_g-1]; ring < ntotRing[layer_g-1]+firstRing[layer_g-1];ring++){//loop on rings
468  int nmodules = getmoduleCount(subdet,detpart,layer,ring);// compute number of modules
469  int key=0;
470  TmModule *smodule;
471  for(int module=1; module < nmodules+1; module++){//loop on modules
472  smodule = new TmModule(module,ring,layer_g);
473  key=layer_g*100000+ring*1000+module;//key identifying module
474  smoduleMap[key]=smodule;
475  ntotmod++;
476  }
477  if(isRingStereo(key))for(int module=1; module < nmodules+1; module++){//loop on stereo modules
478  smodule = new TmModule(module+100,ring,layer_g);
479  int key=layer_g*100000+ring*1000+module+100;
480  smoduleMap[key]=smodule;
481  ntotmod++;
482  }
483  }
484  }
485  }
486  }
487  build();
488 }
void build()
Definition: TrackerMap.cc:2808
float minvalue
Definition: TrackerMap.h:500
int getmoduleCount(int subdet, int partdet, int layer, int ring)
Definition: TrackerMap.h:405
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
bool addPixelFlag
Definition: TrackerMap.h:508
int getlayerCount(int subdet, int partdet)
Definition: TrackerMap.h:214
int firstRing[43]
Definition: TrackerMap.h:480
float gminvalue
Definition: TrackerMap.h:499
bool posrel
Definition: TrackerMap.h:492
int getringCount(int subdet, int partdet, int layer)
Definition: TrackerMap.h:372
bool temporary_file
Definition: TrackerMap.h:502
bool onlyPixelFlag
Definition: TrackerMap.h:509
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
bool printflag
Definition: TrackerMap.h:160
int nlayer(int det, int part, int lay)
Definition: TrackerMap.h:450
float gmaxvalue
Definition: TrackerMap.h:499
float maxvalue
Definition: TrackerMap.h:500
bool firstcall
Definition: TrackerMap.h:493
static bool isRingStereo(int key)
Definition: TrackerMap.h:441
Definition: vlib.h:208
int ntotRing[43]
Definition: TrackerMap.h:479
static bool TrackerMap::isRingStereo ( int  key)
inlinestatic

Definition at line 441 of file TrackerMap.h.

Referenced by drawModule(), and init().

441  {
442  int layer=key/100000;
443  int ring = key - layer*100000;
444  ring = ring/1000;
445  if(layer==34 || layer==35 || layer==38 || layer==39) return true;
446  if(layer<13 || (layer>18&&layer<31))
447  if(ring==1 || ring==2 || ring==5)return true;
448  return false;
449  }
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
std::string TrackerMap::layername ( int  layer)
inline

Definition at line 463 of file TrackerMap.h.

References alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

463  {
464  std::string s= " ";
465  std::ostringstream ons;
466 
467  if(layer < 10) ons << "TEC -z Layer " << layer;
468  if(layer < 13 && layer > 9) ons << "TID -z Layer " << layer-9;
469  if(layer < 16 && layer > 12) ons << "FPIX -z Layer " << layer-12;
470  if(layer < 19 && layer > 15) ons << "FPIX +z Layer " << layer-15;
471  if(layer < 22 && layer > 18) ons << "TID +z Layer " << layer-18;
472  if(layer < 31 && layer > 21) ons << "TEC +z Layer " << layer-21;
473  if(layer < 34 && layer > 30) ons << "TPB Layer " << layer-30;
474  if(layer < 38 && layer > 33) ons << "TIB Layer " << layer-33;
475  if(layer > 37) ons << "TOB Layer " << layer-37;
476  s = ons.str();
477  return s;
478  }
static int TrackerMap::layerno ( int  subdet,
int  leftright,
int  layer 
)
inlinestatic

Definition at line 428 of file TrackerMap.h.

References assert().

428  {
429  if(subdet==6&&leftright==1)return(10-layer);
430  if(subdet==6&&leftright==2)return(layer+21);
431  if(subdet==4&&leftright==1)return(4-layer+9);
432  if(subdet==4&&leftright==2)return(layer+18);
433  if(subdet==2&&leftright==1)return(4-layer+12);
434  if(subdet==2&&leftright==2)return(layer+15);
435  if(subdet==1)return(layer+30);
436  if(subdet==3)return(layer+33);
437  if(subdet==5)return(layer+37);
438  assert(false);
439  }
assert(m_qm.get())
void TrackerMap::load ( std::string  s = "tmap.svg")

Definition at line 2398 of file TrackerMap.cc.

References gather_cfg::cout, fill(), recoMuon::in, inputfile, geometryCSVtoXML::line, AlCaHLTBitMon_QueryRunRegistry::string, and relativeConstraints::value.

Referenced by MatrixToProcess.MatrixToProcess::getProcess(), and MatrixToProcess.MatrixToProcess::listAll().

2398  {
2399  inputfile = new std::ifstream(inputfilename.c_str(),std::ios::in);
2401  int ipos,ipos1,ipos2,id=0,val=0;
2402  int nline=0;
2403  while (getline( *inputfile, line ))
2404  {
2405  ipos1 = line.find("value=\"");
2406  if(ipos1 > 0) {
2407  value = line.substr(ipos1+7,10);
2408  ipos = value.find("\"");
2409  value = value.substr(0,ipos);
2410  val=atoi(value.c_str());
2411  }
2412  ipos2 = line.find("detid=\"");
2413  if(ipos2 > 0) {
2414  value = line.substr(ipos2+7,10);
2415  ipos = value.find("\"");
2416  value = value.substr(0,ipos);
2417  id = atoi(value.c_str());
2418  }
2419  if(ipos1>0 && ipos2>0 && val>0)this->fill(id,val);
2420  if(ipos1>0 && ipos2>0)nline++;
2421  //if(ipos1>0 && ipos2>0)std::cout << nline << " " << id << " " << val << std::endl;
2422 
2423  }
2424  std::cout << nline << " modules found in this svg file " << std::endl;
2425  inputfile->close();delete inputfile;
2426  }
std::ifstream * inputfile
Definition: TrackerMap.h:497
tuple cout
Definition: gather_cfg.py:145
void fill(int layer, int ring, int nmod, float x)
Definition: TrackerMap.cc:2777
int TrackerMap::module ( int  fedId,
int  fedCh 
)

Definition at line 2688 of file TrackerMap.cc.

References apvMap, gather_cfg::cout, TmModule::idex, relval_steps::key, and TmApvPair::mod.

Referenced by getAutomaticRange(), init(), print(), printall(), printlayers(), printonline(), save(), and ~TrackerMap().

2689 {
2690  int key = fedId*1000+fedCh;
2691  TmApvPair* apvpair = apvMap[key];
2692  if(apvpair!=0){
2693  return(apvpair->mod->idex);
2694  }
2695  return(0);
2696  std::cout << "*** error in FedTrackerMap module method ***";
2697 }
TmModule * mod
Definition: TmApvPair.h:16
unsigned int idex
Definition: TmModule.h:29
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
SvgApvPair apvMap
Definition: TrackerMap.h:145
tuple cout
Definition: gather_cfg.py:145
int TrackerMap::nlayer ( int  det,
int  part,
int  lay 
)
inline

Definition at line 450 of file TrackerMap.h.

Referenced by init().

450  {
451  if(det==3 && part==1) return lay;
452  if(det==2 && part==1) return lay+9;
453  if(det==1 && part==1) return lay+12;
454  if(det==1 && part==3) return lay+15;
455  if(det==2 && part==3) return lay+18;
456  if(det==3 && part==3) return lay+21;
457  if(det==1 && part==2) return lay+30;
458  if(det==2 && part==2) return lay+33;
459  if(det==3 && part==2) return lay+37;
460  return -1;
461  }
part
Definition: HCALResponse.h:20
void TrackerMap::onlyPixel ( bool  onlyPixelfl)
inline

Definition at line 131 of file TrackerMap.h.

References onlyPixelFlag.

131 {onlyPixelFlag=onlyPixelfl;};
bool onlyPixelFlag
Definition: TrackerMap.h:509
double TrackerMap::phival ( double  x,
double  y 
)
inline

Definition at line 174 of file TrackerMap.h.

References M_PI, and phi.

Referenced by drawModule().

174  {
175  double phi;
176  double phi1=atan(y/x);
177  phi = phi1;
178  if(y<0. && x>0) phi = phi1+2.*M_PI;
179  if(x<0.)phi=phi1+M_PI;
180  if(fabs(y)<0.000001 && x>0)phi=0;
181  if(fabs(y)<0.000001&&x<0)phi=M_PI;
182  if(fabs(x)<0.000001&&y>0)phi=M_PI/2.;
183  if(fabs(x)<0.000001&&y<0)phi=3.*M_PI/2.;
184 
185  return phi;
186  }
#define M_PI
void TrackerMap::print ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "svgmap" 
)

Definition at line 2433 of file TrackerMap.cc.

References TmModule::count, defwindow(), drawModule(), drawPalette(), firstRing, contentValuesFiles::fullPath, recoMuon::in, jsfile, jsfilename, relval_steps::key, geometryCSVtoXML::line, maxvalue, minvalue, mod(), module(), TmModule::notInUse(), ntotRing, GenerateHcalLaserBadRunList::out, printflag, relativeConstraints::ring, smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, svgfile, temporary_file, title, TmModule::value, and relativeConstraints::value.

Referenced by SiStripQualityStatistics::analyze(), SiStripCablingTrackerMap::endJob(), and SiStripQualityStatistics::endJob().

2433  {
2434  temporary_file=false;
2435  std::ostringstream outs;
2436  minvalue=minval; maxvalue=maxval;
2437  outs << outputfilename << ".xml";
2438  svgfile = new std::ofstream(outs.str().c_str(),std::ios::out);
2439  jsfile = new std::ifstream(edm::FileInPath(jsfilename).fullPath().c_str(),std::ios::in);
2440 
2441  //copy javascript interface from trackermap.txt file
2442  std::string line;
2443  while (getline( *jsfile, line ))
2444  {
2445  *svgfile << line << std::endl;
2446  }
2447  jsfile->close();delete jsfile;
2448  //
2449  if(!print_total){
2450  for (int layer=1; layer < 44; layer++){
2451  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
2452  for (int module=1;module<200;module++) {
2453  int key=layer*100000+ring*1000+module;
2454  TmModule * mod = smoduleMap[key];
2455  if(mod !=0 && !mod->notInUse()){
2456  mod->value = mod->value / mod->count;
2457  }
2458  }
2459  }
2460  }
2461  }
2462  if(minvalue>=maxvalue){
2463  minvalue=9999999.;
2464  maxvalue=-9999999.;
2465  for (int layer=1; layer < 44; layer++){
2466  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
2467  for (int module=1;module<200;module++) {
2468  int key=layer*100000+ring*1000+module;
2469  TmModule * mod = smoduleMap[key];
2470  if(mod !=0 && !mod->notInUse()){
2471  if (minvalue > mod->value)minvalue=mod->value;
2472  if (maxvalue < mod->value)maxvalue=mod->value;
2473  }
2474  }
2475  }
2476  }
2477 }
2478  for (int layer=1; layer < 44; layer++){
2479  // nlay=layer;
2480  defwindow(layer);
2481  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
2482  for (int module=1;module<200;module++) {
2483  int key=layer*100000+ring*1000+module;
2484  TmModule * mod = smoduleMap[key];
2485  if(mod !=0 && !mod->notInUse()){
2486  drawModule(mod,key,layer,print_total,svgfile);
2487  }
2488  }
2489  }
2490  }
2491  *svgfile << "</svg:g></svg:svg>"<<std::endl;
2492  *svgfile << " <svg:text id=\"Title\" class=\"normalText\" x=\"300\" y=\"0\">"<<title<<"</svg:text>"<<std::endl;
2494  *svgfile << "</svg:svg>"<<std::endl;
2495  *svgfile << "</body></html>"<<std::endl;
2496  svgfile->close();delete svgfile;
2497 
2498 }
float minvalue
Definition: TrackerMap.h:500
float value
Definition: TmModule.h:12
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
void defwindow(int num_lay)
Definition: TrackerMap.h:329
int firstRing[43]
Definition: TrackerMap.h:480
bool temporary_file
Definition: TrackerMap.h:502
std::ofstream * svgfile
Definition: TrackerMap.h:494
void drawModule(TmModule *mod, int key, int layer, bool total, std::ofstream *file)
Definition: TrackerMap.cc:537
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmModule.h:13
bool printflag
Definition: TrackerMap.h:160
void drawPalette(std::ofstream *file, int xoffset=3660, int yoffset=1540)
Definition: TrackerMap.cc:2500
bool notInUse()
Definition: TmModule.h:24
std::string title
Definition: TrackerMap.h:170
float maxvalue
Definition: TrackerMap.h:500
std::ifstream * jsfile
Definition: TrackerMap.h:496
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
Definition: vlib.h:208
int ntotRing[43]
Definition: TrackerMap.h:479
std::string jsfilename
Definition: TrackerMap.h:171
void TrackerMap::printall ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "svgmap",
int  width = 6000,
int  height = 3200 
)

Definition at line 3179 of file TrackerMap.cc.

References apvMap, apvModuleMap, ccuMap, mps_check::command, gather_cfg::cout, enableFecProcessing, enableFedProcessing, enableHVProcessing, enableLVProcessing, fecModuleMap, l1tstage2_dqm_sourceclient-live_cfg::fedId, fedMap, symbols::filetype, findfile(), firstcrate, firstRing, newFWLiteAna::found, TmCcu::getCcuCrate(), TmApvPair::getFedCh(), TmApvPair::getFedId(), TmPsu::getPsuBoard(), TmPsu::getPsuRack(), TmPsu::idex, TmCcu::idex, TmApvPair::idex, TmModule::idex, customiseL1CustomReco::idmod, relval_steps::key, geometryCSVtoXML::line, mod(), TmApvPair::mod, module(), TmCcu::mpos, TmModule::name, nchan, ncrates, nfeccrates, TmCcu::nmod, TmPsu::nmod, TmPsu::nmodHV2, TmPsu::nmodHV3, TmModule::notInUse(), npsuracks, ntotRing, GenerateHcalLaserBadRunList::out, funct::pow(), printlayers(), psuMap, psuModuleMap, runTheMatrix::ret, relativeConstraints::ring, alignCSCRings::s, save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), save_as_psutrackermap(), saveGeoTrackerMap, saveWebInterface, smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmCcu::text, TmApvPair::text, TmPsu::text, TmPsu::textHV2, TmPsu::textHV3, title, tkMapLog, makeMuonMisalignmentScenario::txtfile, and create_public_lumi_plots::width.

3179  {
3180 //Copy interface
3181  float minval,maxval; minval=minval1; maxval=maxval1;
3182  if(tkMapLog && (minval<maxval)) {minval=pow(10.,minval1);maxval=pow(10.,maxval1);}
3183  std::string filetype=s,outputfilename=s;
3184  if(saveWebInterface){width=6000;height=3200;}
3185  else{
3186  size_t found=filetype.find_last_of(".");
3187  filetype=filetype.substr(found+1);
3188  found=outputfilename.find_last_of(".");
3189  outputfilename=outputfilename.substr(0,found);
3190  }
3191  std::ofstream * ofilename;
3192  std::ifstream * ifilename;
3193  std::ostringstream ofname;
3194  std::string ifname;
3195  std::string line;
3197  if(saveWebInterface){
3198  ifilename=findfile("viewerHeader.xhtml");
3199  ofname << outputfilename << "viewer.html";
3200  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3201  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3202 *ofilename <<" var tmapname=\"" <<outputfilename << "\""<<std::endl;
3203 *ofilename <<" var tmaptitle=\"" <<title << "\""<<std::endl;
3204 *ofilename <<" var ncrates=" <<ncrates << ";"<<std::endl;
3205 *ofilename <<" var nfeccrates=" <<nfeccrates << ";"<<std::endl;
3206 *ofilename <<" var npsuracks=" <<npsuracks << ";"<<std::endl;
3207  ifilename->close();delete ifilename;
3208  ifilename=findfile("viewerTrailer.xhtml");
3209  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3210  ofilename->close();delete ofilename;
3211  ifilename->close();delete ifilename;
3212  command = "sed -i \"s/XtmapnameX/"+outputfilename+"/g\" "+ ofname.str();
3213  std::cout << "Executing " << command << std::endl;
3214  system(command.c_str());
3215  command = "sed -i \"s/XtmaptitleX/"+title+"/g\" "+ ofname.str();
3216  std::cout << "Executing " << command << std::endl;
3217  system(command.c_str());
3218  ofname.str("");
3219 
3220 ifilename=findfile("jqviewer.js");
3221  ofname << "jqviewer.js";
3222  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3223  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3224  ofilename->close();delete ofilename;
3225  ifilename->close();delete ifilename;
3226 
3227  ofname.str("");
3228  ifilename=findfile("crate.js");
3229  ofname << "crate.js";
3230  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3231  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3232  ofilename->close();delete ofilename;
3233  ifilename->close();delete ifilename;
3234 
3235  ofname.str("");
3236  ifilename=findfile("feccrate.js");
3237  ofname << "feccrate.js";
3238  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3239  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3240  ofilename->close();delete ofilename;
3241  ifilename->close();delete ifilename;
3242 
3243  ofname.str("");
3244  ifilename=findfile("rack.js");
3245  ofname << "rack.js";
3246  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3247  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3248  ofilename->close();delete ofilename;
3249  ifilename->close();delete ifilename;
3250 
3251  ofname.str("");
3252  ifilename=findfile("rackhv.js");
3253  ofname << "rackhv.js";
3254  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3255  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3256  ofilename->close();delete ofilename;
3257  ifilename->close();delete ifilename;
3258 
3259  ofname.str("");
3260  ifilename=findfile("layer.js");
3261  ofname << "layer.js";
3262  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
3263  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
3264  ofilename->close();delete ofilename;
3265  ifilename->close();delete ifilename;
3266 
3267  command = "scp -r ../../DQM/TrackerCommon/test/jquery/ .";
3268  std::cout << "Executing " << command << std::endl;
3269  system(command.c_str());
3270  command = "scp -r ../../CommonTools/TrackerMap/data/images/ .";
3271  std::cout << "Executing " << command << std::endl;
3272  system(command.c_str());
3273 }
3274 
3275  std::ostringstream outs;
3276  outs << outputfilename<<".png";
3277  if(saveWebInterface)save(true,minval,maxval,outs.str(),3000,1600);
3278  else {if(saveGeoTrackerMap)save(true,minval,maxval,s,width,height);}
3279  if(saveWebInterface){
3280  std::ostringstream outs;
3281  outs << outputfilename<<".png";
3282 temporary_file=false;
3283 printlayers(true,minval,maxval,outputfilename);
3284 
3285 //Now print a text file for each layer
3286  std::ofstream * txtfile;
3287 for (int layer=1; layer < 44; layer++){
3288  std::ostringstream outs;
3289  outs << outputfilename <<"layer"<<layer<< ".html";
3290  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3291  *txtfile << "<html><head></head> <body>" << std::endl;
3292  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
3293  for (int module=1;module<200;module++) {
3294  int key=layer*100000+ring*1000+module;
3295  TmModule * mod = smoduleMap[key];
3296  if(mod !=0 && !mod->notInUse()){
3297  int idmod=mod->idex;
3298  int nchan=0;
3299  *txtfile << "<a name="<<idmod<<"><pre>"<<std::endl;
3300  std::multimap<const int, TmApvPair*>::iterator pos;
3301  for (pos = apvModuleMap.lower_bound(idmod);
3302  pos != apvModuleMap.upper_bound(idmod); ++pos) {
3303  TmApvPair* apvpair = pos->second;
3304  if(apvpair!=0){
3305  nchan++;
3306  *txtfile << apvpair->text << std::endl;
3307  }
3308 
3309  }
3310  *txtfile << "</pre><h3>"<< mod->name<<"</h3>"<<std::endl;
3311  }
3312  }
3313  }
3314  *txtfile << "</body></html>" << std::endl;
3315  txtfile->close();delete txtfile;
3316 }
3317  }
3319  std::ostringstream outs1,outs2;
3320  if(saveWebInterface)outs1 << outputfilename<<"fed.png";
3321  else outs1 << outputfilename<<"fed."<<filetype;
3322 save_as_fedtrackermap(true,0.,0.,outs1.str(),width,height);
3323  if(saveWebInterface){
3324  outs2 << outputfilename<<".xml";
3325 save_as_fedtrackermap(true,0.,0.,outs2.str(),3000,1600);
3326 //And a text file for each crate
3327  std::map<int , int>::iterator i_fed;
3328  std::ofstream * txtfile;
3329  for (int crate=firstcrate; crate < (ncrates+1); crate++){
3330  std::ostringstream outs;
3331  outs << outputfilename <<"crate"<<crate<< ".html";
3332  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3333  *txtfile << "<html><head></head> <body>" << std::endl;
3334  for (i_fed=fedMap.begin();i_fed != fedMap.end(); i_fed++){
3335  if(i_fed->second == crate){
3336  int fedId = i_fed->first;
3337  for (int nconn=0;nconn<96;nconn++){
3338  int key = fedId*1000+nconn;
3339  TmApvPair * apvPair= apvMap[key];
3340  if(apvPair !=0){
3341  int idmod=apvPair->idex;
3342  *txtfile << "<a name="<<idmod<<"><pre>"<<std::endl;
3343  *txtfile << apvPair->text << std::endl;
3344  std::ostringstream outs;
3345  outs << "fedchannel " <<apvPair->getFedId() << "/"<<apvPair->getFedCh()<<" connects to module " << apvPair->mod->idex ;
3346  *txtfile << "</pre><h3>"<< outs.str()<<"</h3>"<<std::endl;
3347  }
3348  }
3349  }
3350  }
3351  *txtfile << "</body></html>" << std::endl;
3352  txtfile->close();delete txtfile;
3353  }
3354  }
3355  }
3357  std::ostringstream outs1,outs2;
3358  if(saveWebInterface)outs1 << outputfilename<<"fec.png";
3359  else outs1 << outputfilename<<"fec."<<filetype;
3360 save_as_fectrackermap(true,0.,0.,outs1.str(),width,height);
3361  if(saveWebInterface){
3362  outs2 << outputfilename<<".xml";
3363 save_as_fectrackermap(true,0.,0.,outs2.str(),3000,1600);
3364 //And a text file for each crate
3365  std::ofstream * txtfile;
3366  std::map<int , TmCcu *>::iterator i_ccu;
3367  std::multimap<TmCcu*, TmModule*>::iterator it;
3368  std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
3369  for (int crate=1; crate < (nfeccrates+1); crate++){
3370  std::ostringstream outs;
3371  outs << outputfilename <<"feccrate"<<crate<< ".html";
3372  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3373  *txtfile << "<html><head></head> <body>" << std::endl;
3374  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
3375  TmCcu * ccu= i_ccu->second;
3376  if(ccu!=0&&ccu->getCcuCrate() == crate){
3377  int idmod=ccu->idex;
3378  *txtfile << "<a name="<<idmod<<"><pre>"<<std::endl;
3379  *txtfile << ccu->text << std::endl;
3380  std::ostringstream outs;
3381  if(ccu->nmod==0)outs << "ccu is in position" << ccu->mpos<<"in ring but doesn't seem to have any module connected"; else
3382  {
3383  outs << "ccu is in position " << ccu->mpos<<" in ring and connects " <<ccu->nmod<< " modules" << std::endl;
3384  ret = fecModuleMap.equal_range(ccu);
3385  for (it = ret.first; it != ret.second; ++it)
3386  {
3387  outs << (*it).second->idex<<" " << (*it).second->name <<" value= "<< (*it).second->value<<"\n\n";
3388  }
3389 
3390  *txtfile << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
3391  }//ifccu->nmod==0
3392  }//if ccu!=0
3393  }//for i_ccu
3394  *txtfile << "</body></html>" << std::endl;
3395  txtfile->close();
3396  }//for int crate
3397  }
3398  }
3399 if(enableLVProcessing){
3400  std::ostringstream outs3,outs4;
3401  if(saveWebInterface)outs3 << outputfilename<<"psu.png";
3402  else outs3 << outputfilename<<"psu."<<filetype;
3403 save_as_psutrackermap(true,0.,0.,outs3.str(),width,height);
3404  if(saveWebInterface){
3405  outs4 << outputfilename<<".xml";
3406 save_as_psutrackermap(true,0.,0.,outs4.str(),3000,1600);
3407 //And a text file for each rack
3408 
3409  std::ofstream * txtfile;
3410  std::map<int , TmPsu *>::iterator ipsu;
3411  std::multimap<TmPsu*, TmModule*>::iterator it;
3412  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
3413  for (int rack=1; rack < (npsuracks+1); rack++){
3414  std::ostringstream outs;
3415 
3416  outs << outputfilename <<"psurack"<<rack<< ".html";
3417  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3418  *txtfile << "<html><head></head> <body>" << std::endl;
3419  for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
3420  TmPsu * psu= ipsu->second;
3421  if(psu!=0 && psu->getPsuRack() == rack){
3422  *txtfile << "<a name="<<psu->idex<<"><pre>"<<std::endl;
3423  *txtfile << psu->text << std::endl;
3424  std::ostringstream outs;
3425  if(psu->nmod==0)outs << "Ps is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
3426  {
3427  outs<< "PS is in position " <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmod<<" modules. "<<std::endl;
3428 
3429  ret = psuModuleMap.equal_range(psu);
3430  for (it = ret.first; it != ret.second; ++it)
3431  {
3432  outs <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;
3433 
3434  }
3435  *txtfile << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
3436  }
3437  }
3438  }
3439  *txtfile << "</body></html>" << std::endl;
3440  txtfile->close();
3441  }
3442  }
3443  }
3444 
3445 
3446 if(enableHVProcessing){
3447  std::ostringstream outs5,outs6;
3448  if(saveWebInterface)outs5 << outputfilename<<"hv.png";
3449  else outs5 << outputfilename<<"hv."<<filetype;
3450 save_as_HVtrackermap(true,0.,0.,outs5.str(),width,height);
3451  if(saveWebInterface){
3452  outs6 << outputfilename<<".xml";
3453 save_as_HVtrackermap(true,0.,0.,outs6.str(),3000,1600);
3454 //And a text file for each rack
3455 
3456  std::ofstream * txtfile;
3457  std::map<int , TmPsu *>::iterator ipsu;
3458  std::multimap<TmPsu*, TmModule*>::iterator it;
3459  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
3460  for (int rack=1; rack < (npsuracks+1); rack++){
3461  std::ostringstream outs;
3462 
3463  outs << outputfilename <<"HVrack"<<rack<< ".html";
3464  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3465  *txtfile << "<html><head></head> <body>" << std::endl;
3466  for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
3467  TmPsu * psu= ipsu->second;
3468  if(psu!=0 && psu->getPsuRack() == rack){
3469  *txtfile << "<a name="<<psu->idex<<"><pre>"<<std::endl;
3470  *txtfile << psu->textHV2 << std::endl;
3471  std::ostringstream outsHV2;
3472  if(psu->nmodHV2==0)outsHV2 << "HV Channel002 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
3473  {
3474  outsHV2<< "HV Channel002 is in position " <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV2<<" modules. "<<" <br>"<<std::endl;
3475 
3476  ret = psuModuleMap.equal_range(psu);
3477  for (it = ret.first; it != ret.second; ++it)
3478  {
3479  if((*it).second->HVchannel==2){outsHV2 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
3480  }
3481  *txtfile << "</pre><h4>"<< outsHV2.str()<<"</h4>"<<std::endl;
3482  }
3483 
3484  *txtfile << psu->textHV3 << std::endl;
3485  std::ostringstream outsHV3;
3486  if(psu->nmodHV3==0)outsHV3 << "HV Channel003 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
3487  {
3488  outsHV3<< "HV Channel003 is in position " <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV3<<" modules. "<<" <br>"<<std::endl;
3489 
3490  ret = psuModuleMap.equal_range(psu);
3491  for (it = ret.first; it != ret.second; ++it)
3492  {
3493  if((*it).second->HVchannel==3){outsHV3 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
3494  }
3495  *txtfile << "</pre><h4>"<< outsHV3.str()<<"</h4>"<<std::endl;
3496  }
3497 
3498  }
3499  }
3500  *txtfile << "</body></html>" << std::endl;
3501  txtfile->close();
3502  }
3503  }
3504  }
3505 
3506 
3507 }
TmModule * mod
Definition: TmApvPair.h:16
bool tkMapLog
Definition: TrackerMap.h:167
std::string text
Definition: TmApvPair.h:12
tuple ret
prodAgent to be discontinued
ModApvPair apvModuleMap
Definition: TrackerMap.h:147
std::ifstream * findfile(std::string filename)
Definition: TrackerMap.cc:3510
int nfeccrates
Definition: TrackerMap.h:488
MapCcu ccuMap
Definition: TrackerMap.h:152
int nmodHV3
Definition: TmPsu.h:31
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
void save_as_psutrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="psu_svgmap.svg", int width=100+(360+100)*5+300, int height=50+(150+50)*6+300)
Definition: TrackerMap.cc:1844
int idex
Definition: TmPsu.h:11
bool saveGeoTrackerMap
Definition: TrackerMap.h:162
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
bool enableFecProcessing
Definition: TrackerMap.h:164
void save_as_HVtrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="psu_svgmap.svg", int width=1500, int height=800)
Definition: TrackerMap.cc:1562
bool saveWebInterface
Definition: TrackerMap.h:161
int npsuracks
Definition: TrackerMap.h:489
tuple txtfile
Delete all three files at once to make sure the user never sees stale data (e.g.
int getPsuBoard()
Definition: TmPsu.h:17
bool enableFedProcessing
Definition: TrackerMap.h:163
int firstRing[43]
Definition: TrackerMap.h:480
int nmod
Definition: TmCcu.h:15
bool enableHVProcessing
Definition: TrackerMap.h:166
int getFedId()
Definition: TmApvPair.h:19
unsigned int idex
Definition: TmModule.h:29
int nmod
Definition: TmPsu.h:29
int nchan
Definition: TauolaWrapper.h:80
void save(bool print_total=true, float minval=0., float maxval=0., std::string s="svgmap.svg", int width=1500, int height=800)
Definition: TrackerMap.cc:699
bool temporary_file
Definition: TrackerMap.h:502
int getCcuCrate()
Definition: TmCcu.h:19
int getPsuRack()
Definition: TmPsu.h:15
int nmodHV2
Definition: TmPsu.h:30
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
void printlayers(bool print_total=true, float minval=0., float maxval=0., std::string s="layer")
Definition: TrackerMap.cc:3527
int mpos
Definition: TmCcu.h:18
void save_as_fedtrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="fed_svgmap.svg", int width=100+(90+100)*31+300, int height=150+(2940+150)*1+300)
Definition: TrackerMap.cc:2126
SvgFed fedMap
Definition: TrackerMap.h:149
PsuModule psuModuleMap
Definition: TrackerMap.h:158
int firstcrate
Definition: TrackerMap.h:487
FecModule fecModuleMap
Definition: TrackerMap.h:154
string command
Definition: mps_check.py:26
bool notInUse()
Definition: TmModule.h:24
std::string title
Definition: TrackerMap.h:170
int idex
Definition: TmCcu.h:13
std::string textHV3
Definition: TmPsu.h:37
tuple filetype
Definition: symbols.py:48
SvgApvPair apvMap
Definition: TrackerMap.h:145
std::string text
Definition: TmPsu.h:35
int idex
Definition: TmApvPair.h:14
tuple cout
Definition: gather_cfg.py:145
bool enableLVProcessing
Definition: TrackerMap.h:165
std::string textHV2
Definition: TmPsu.h:36
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmCcu.h:5
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
std::string text
Definition: TmCcu.h:11
Definition: TmPsu.h:6
Definition: vlib.h:208
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void save_as_fectrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="fec_svgmap.svg", int width=1500, int height=800)
Definition: TrackerMap.cc:1303
std::string name
Definition: TmModule.h:15
int getFedCh()
Definition: TmApvPair.h:18
int ntotRing[43]
Definition: TrackerMap.h:479
void TrackerMap::printlayers ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "layer" 
)

Definition at line 3527 of file TrackerMap.cc.

References TmModule::count, defwindow(), drawModule(), firstRing, relval_steps::key, maxvalue, minvalue, mod(), module(), TmModule::notInUse(), ntotRing, GenerateHcalLaserBadRunList::out, relativeConstraints::ring, saveAsSingleLayer, smoduleMap, TmModule::value, relativeConstraints::value, and makeMuonMisalignmentScenario::xmlfile.

Referenced by printall(), and printonline().

3527  {
3528  std::ofstream * xmlfile;
3529 saveAsSingleLayer=true;
3530 if(!print_total){
3531  for (int layer=1; layer < 44; layer++){
3532  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
3533  for (int module=1;module<200;module++) {
3534  int key=layer*100000+ring*1000+module;
3535  TmModule * mod = smoduleMap[key];
3536  if(mod !=0 && !mod->notInUse()){
3537  mod->value = mod->value / mod->count;
3538  }
3539  }
3540  }
3541  }
3542  }
3543  if(minvalue>=maxvalue){
3544  minvalue=9999999.;
3545  maxvalue=-9999999.;
3546  for (int layer=1; layer < 44; layer++){
3547  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
3548  for (int module=1;module<200;module++) {
3549  int key=layer*100000+ring*1000+module;
3550  TmModule * mod = smoduleMap[key];
3551  if(mod !=0 && !mod->notInUse()){
3552  if (minvalue > mod->value)minvalue=mod->value;
3553  if (maxvalue < mod->value)maxvalue=mod->value;
3554  }
3555  }
3556  }
3557  }
3558  }
3559 for (int layer=1; layer < 44; layer++){
3560  std::ostringstream outs;
3561  outs << outputfilename <<"layer"<<layer<< ".xml";
3562  xmlfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3563  *xmlfile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
3564  *xmlfile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
3565  *xmlfile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
3566  *xmlfile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
3567  *xmlfile << "<script type=\"text/ecmascript\" xlink:href=\"layer.js\" />"<<std::endl;
3568  *xmlfile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 500 500\" width=\"700\" height=\"700\" onload=\"TrackerLayer.init()\">"<<std::endl;
3569  if(layer<31)*xmlfile << "<g id=\"layer\" transform=\" translate(0,400) rotate(270) scale(1.,1.)\" > "<<std::endl;
3570  else *xmlfile << "<g id=\"layer\" transform=\" translate(0,400) rotate(270) scale(1.,0.8)\" > "<<std::endl;
3571  *xmlfile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
3572  *xmlfile << "<svg:polygon id=\"fed\" mapAttribute=\"fed\" points=\"250,40 250,10 230,10 230,40\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" fill=\"rgb(0,127,255)\"/>"<<std::endl;
3573  *xmlfile << "<svg:polygon id=\"fec\" mapAttribute=\"fec\" points=\"228,40 228,10 208,10 208,40\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" fill=\"rgb(0,127,255)\"/>"<<std::endl;
3574  *xmlfile << "<svg:polygon id=\"lv\" mapAttribute=\"lv\" points=\"206,40 206,10 186,10 186,40\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" fill=\"rgb(0,127,255)\"/>"<<std::endl;
3575  *xmlfile << "<svg:polygon id=\"hv\" mapAttribute=\"hv\" points=\"184,40 184,10 164,10 164,40\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" fill=\"rgb(0,127,255)\"/>"<<std::endl;
3576  *xmlfile << "<svg:polygon id=\"plot\" mapAttribute=\"plot\" points=\"155,45 155,5 135,5 135,45\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" fill=\"rgb(200,0,0)\"/>"<<std::endl;
3577 
3578  // nlay=layer;
3579  defwindow(layer);
3580  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
3581  for (int module=1;module<200;module++) {
3582  int key=layer*100000+ring*1000+module;
3583  TmModule * mod = smoduleMap[key];
3584  if(mod !=0 && !mod->notInUse()){
3585  drawModule(mod,key,layer,print_total,xmlfile);
3586  }
3587  }
3588  }
3589  *xmlfile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\">" << std::endl;
3590  *xmlfile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
3591  *xmlfile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
3592  *xmlfile << "<tspan id=\"line3\" x=\"40\" y=\"90\"> </tspan> " << std::endl;
3593  *xmlfile << "<tspan id=\"line4\" x=\"40\" y=\"120\"> </tspan> " << std::endl;
3594  if(layer > 33){
3595  *xmlfile << "<tspan mapAttribute=\"fed\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"15\" y=\"228\" font-size=\"12\" font-family=\"arial\" fill=\"white\">FED</tspan> " <<std::endl;
3596  *xmlfile << "<tspan mapAttribute=\"fec\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"15\" y=\"258\" font-size=\"12\" font-family=\"arial\" fill=\"white\">FEC</tspan> " <<std::endl;
3597  *xmlfile << "<tspan mapAttribute=\"lv\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"18\" y=\"289\" font-size=\"12\" font-family=\"arial\" fill=\"white\">LV</tspan> " <<std::endl;
3598  *xmlfile << "<tspan mapAttribute=\"hv\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"18\" y=\"319\" font-size=\"12\" font-family=\"arial\" fill=\"white\">HV</tspan> " <<std::endl;
3599  *xmlfile << "<tspan mapAttribute=\"plot\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"12\" y=\"360\" font-size=\"12\" font-family=\"arial\" fill=\"white\">PLOT</tspan> " <<std::endl;
3600  }
3601  else{
3602  *xmlfile << "<tspan mapAttribute=\"fed\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"21\" y=\"228\" font-size=\"12\" font-family=\"arial\" fill=\"white\">FED</tspan> " <<std::endl;
3603  *xmlfile << "<tspan mapAttribute=\"fec\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"21\" y=\"258\" font-size=\"12\" font-family=\"arial\" fill=\"white\">FEC</tspan> " <<std::endl;
3604  *xmlfile << "<tspan mapAttribute=\"lv\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"24\" y=\"289\" font-size=\"12\" font-family=\"arial\" fill=\"white\">LV</tspan> " <<std::endl;
3605  *xmlfile << "<tspan mapAttribute=\"hv\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"24\" y=\"319\" font-size=\"12\" font-family=\"arial\" fill=\"white\">HV</tspan> " <<std::endl;
3606  *xmlfile << "<tspan mapAttribute=\"plot\" onclick=\"chooseMap(evt);\" onmouseover=\"chooseMap(evt);\" onmouseout=\"chooseMap(evt);\" x=\"17\" y=\"360\" font-size=\"12\" font-family=\"arial\" fill=\"white\">PLOT</tspan> " <<std::endl;
3607  }
3608  *xmlfile << " </text> </svg>" << std::endl;
3609  xmlfile->close();delete xmlfile;
3610  }
3611 saveAsSingleLayer=false;
3612 }
float minvalue
Definition: TrackerMap.h:500
float value
Definition: TmModule.h:12
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
void defwindow(int num_lay)
Definition: TrackerMap.h:329
int firstRing[43]
Definition: TrackerMap.h:480
tuple xmlfile
Make an XML representation of the misalignment.
bool saveAsSingleLayer
Definition: TrackerMap.h:507
void drawModule(TmModule *mod, int key, int layer, bool total, std::ofstream *file)
Definition: TrackerMap.cc:537
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmModule.h:13
bool notInUse()
Definition: TmModule.h:24
float maxvalue
Definition: TrackerMap.h:500
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
Definition: vlib.h:208
int ntotRing[43]
Definition: TrackerMap.h:479
void TrackerMap::printonline ( )

Definition at line 2878 of file TrackerMap.cc.

References apvMap, apvModuleMap, ccuMap, mps_check::command, gather_cfg::cout, enableFecProcessing, enableFedProcessing, enableHVProcessing, enableLVProcessing, fecModuleMap, l1tstage2_dqm_sourceclient-live_cfg::fedId, fedMap, findfile(), firstcrate, firstRing, TmCcu::getCcuCrate(), TmApvPair::getFedCh(), TmApvPair::getFedId(), TmPsu::getPsuBoard(), TmPsu::getPsuRack(), gmaxvalue, gminvalue, TmPsu::idex, TmCcu::idex, TmApvPair::idex, TmModule::idex, customiseL1CustomReco::idmod, relval_steps::key, geometryCSVtoXML::line, mod(), TmApvPair::mod, module(), TmCcu::mpos, TmModule::name, nchan, ncrates, nfeccrates, TmCcu::nmod, TmPsu::nmod, TmPsu::nmodHV2, TmPsu::nmodHV3, TmModule::notInUse(), npsuracks, ntotRing, GenerateHcalLaserBadRunList::out, printlayers(), psuMap, psuModuleMap, runTheMatrix::ret, relativeConstraints::ring, save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), save_as_psutrackermap(), smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, TmCcu::text, TmApvPair::text, TmPsu::text, TmPsu::textHV2, TmPsu::textHV3, title, and makeMuonMisalignmentScenario::txtfile.

Referenced by SiStripTrackerMapCreator::create().

2878  {
2879 //Copy interface
2880  std::ofstream * ofilename;
2881  std::ifstream * ifilename;
2882  std::ostringstream ofname;
2883  std::string ifname;
2885  std::string line;
2886  std::string outputfilename="dqmtmap";
2887  ifilename=findfile("viewerHeader.xhtml");
2888  ofname << outputfilename << "viewer.html";
2889  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2890  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2891 *ofilename <<" var tmapname=\"" <<outputfilename << "\""<<std::endl;
2892 *ofilename <<" var tmaptitle=\"" <<title << "\""<<std::endl;
2893 *ofilename <<" var ncrates=" <<ncrates << ";"<<std::endl;
2894 *ofilename <<" var nfeccrates=" <<nfeccrates << ";"<<std::endl;
2895  *ofilename <<" var npsuracks=" <<npsuracks << ";"<<std::endl;
2896 
2897  ifilename->close();delete ifilename;
2898 
2899  ifilename=findfile("viewerTrailer.xhtml");
2900  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2901  ofilename->close();delete ofilename;
2902  command = "sed -i \"s/XtmapnameX/"+outputfilename+"/g\" "+ ofname.str();
2903  std::cout << "Executing " << command << std::endl;
2904  system(command.c_str());
2905  command = "sed -i \"s/XtmaptitleX/"+title+"/g\" "+ ofname.str();
2906  std::cout << "Executing " << command << std::endl;
2907  system(command.c_str());
2908  ofname.str("");
2909  ifilename->close();delete ifilename;
2910 
2911  ifilename=findfile("jqviewer.js");
2912  ofname << "jqviewer.js";
2913  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2914  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2915  ofname.str("");
2916  ofilename->close();delete ofilename;
2917  ifilename->close();delete ifilename;
2918 
2919  ifilename=findfile("crate.js");
2920  ofname << "crate.js";
2921  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2922  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2923  ofname.str("");
2924  ofilename->close();delete ofilename;
2925  ifilename->close();delete ifilename;
2926 
2927  ifilename=findfile("feccrate.js");
2928  ofname << "feccrate.js";
2929  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2930  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2931  ofname.str("");
2932  ofilename->close();delete ofilename;
2933  ifilename->close();delete ifilename;
2934 
2935  ifilename=findfile("layer.js");
2936  ofname << "layer.js";
2937  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2938  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2939  ofname.str("");
2940  ofilename->close();delete ofilename;
2941  ifilename->close();delete ifilename;
2942 
2943  ifilename=findfile("rack.js");
2944  ofname << "rack.js";
2945  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2946  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2947  ofname.str("");
2948  ofilename->close();delete ofilename;
2949  ifilename->close();delete ifilename;
2950  ofname.str("");
2951 
2952  ifilename=findfile("rackhv.js");
2953  ofname << "rackhv.js";
2954  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
2955  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
2956  ofname.str("");
2957  ofilename->close();delete ofilename;
2958  ifilename->close();delete ifilename;
2959 
2960 
2961 
2962 
2963  std::ostringstream outs,outs1,outs2;
2964  outs << outputfilename<<".png";
2965 save(true,gminvalue,gmaxvalue,outs.str(),3000,1600);
2966 temporary_file=false;
2967 printlayers(true,gminvalue,gmaxvalue,outputfilename);
2968 
2969 //Now print a text file for each layer
2970  std::ofstream * txtfile;
2971 for (int layer=1; layer < 44; layer++){
2972  std::ostringstream outs;
2973  outs << outputfilename <<"layer"<<layer<< ".html";
2974  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
2975  *txtfile << "<html><head></head> <body>" << std::endl;
2976  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
2977  for (int module=1;module<200;module++) {
2978  int key=layer*100000+ring*1000+module;
2979  TmModule * mod = smoduleMap[key];
2980  if(mod !=0 && !mod->notInUse()){
2981  int idmod=mod->idex;
2982  int nchan=0;
2983  *txtfile << "<a name="<<idmod<<"><pre>"<<std::endl;
2984  std::multimap<const int, TmApvPair*>::iterator pos;
2985  for (pos = apvModuleMap.lower_bound(idmod);
2986  pos != apvModuleMap.upper_bound(idmod); ++pos) {
2987  TmApvPair* apvpair = pos->second;
2988  if(apvpair!=0){
2989  nchan++;
2990  *txtfile << apvpair->text << std::endl;
2991  }
2992 
2993  }
2994  *txtfile << "</pre><h3>"<< mod->name<<"</h3>"<<std::endl;
2995  }
2996  }
2997  }
2998  *txtfile << "</body></html>" << std::endl;
2999  txtfile->close();delete txtfile;
3000  }
3002  outs1 << outputfilename<<"fed.png";
3003 save_as_fedtrackermap(true,gminvalue,gmaxvalue,outs1.str(),6000,3200);
3004  outs2 << outputfilename<<".xml";
3005 save_as_fedtrackermap(true,gminvalue,gmaxvalue,outs2.str(),3000,1600);
3006 //And a text file for each crate
3007  std::map<int , int>::iterator i_fed;
3008  std::ofstream * txtfile;
3009  for (int crate=firstcrate; crate < (ncrates+1); crate++){
3010  std::ostringstream outs;
3011  outs << outputfilename <<"crate"<<crate<< ".html";
3012  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3013  *txtfile << "<html><head></head> <body>" << std::endl;
3014  for (i_fed=fedMap.begin();i_fed != fedMap.end(); i_fed++){
3015  if(i_fed->second == crate){
3016  int fedId = i_fed->first;
3017  for (int nconn=0;nconn<96;nconn++){
3018  int key = fedId*1000+nconn;
3019  TmApvPair * apvPair= apvMap[key];
3020  if(apvPair !=0){
3021  int idmod=apvPair->idex;
3022  *txtfile << "<a name="<<idmod<<"><pre>"<<std::endl;
3023  *txtfile << apvPair->text << std::endl;
3024  std::ostringstream outs;
3025  outs << "fedchannel " <<apvPair->getFedId() << "/"<<apvPair->getFedCh()<<" connects to module " << apvPair->mod->idex ;
3026  *txtfile << "</pre><h3>"<< outs.str()<<"</h3>"<<std::endl;
3027  }
3028  }
3029  }
3030  }
3031  *txtfile << "</body></html>" << std::endl;
3032  txtfile->close();delete txtfile;
3033  }
3034  }
3036  std::ostringstream outs1,outs2;
3037  outs1 << outputfilename<<"fec.png";
3038 save_as_fectrackermap(true,gminvalue,gmaxvalue,outs1.str(),6000,3200);
3039  outs2 << outputfilename<<".xml";
3040 save_as_fectrackermap(true,gminvalue,gmaxvalue,outs2.str(),3000,1600);
3041 //And a text file for each crate
3042  std::ofstream * txtfile;
3043  std::map<int , TmCcu *>::iterator i_ccu;
3044  std::multimap<TmCcu*, TmModule*>::iterator it;
3045  std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
3046  for (int crate=1; crate < (nfeccrates+1); crate++){
3047  std::ostringstream outs;
3048  outs << outputfilename <<"feccrate"<<crate<< ".html";
3049  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3050  *txtfile << "<html><head></head> <body>" << std::endl;
3051  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
3052  TmCcu * ccu= i_ccu->second;
3053  if(ccu!=0&&ccu->getCcuCrate() == crate){
3054  int idmod=ccu->idex;
3055  *txtfile << "<a name="<<idmod<<"><pre>"<<std::endl;
3056  *txtfile << ccu->text << std::endl;
3057  std::ostringstream outs;
3058  if(ccu->nmod==0)outs << "ccu is in position" << ccu->mpos<<"in ring but doesn't seem to have any module connected"; else
3059  {
3060  outs << "ccu is in position " << ccu->mpos<<" in ring and connects " <<ccu->nmod<< " modules" << std::endl;
3061  ret = fecModuleMap.equal_range(ccu);
3062  for (it = ret.first; it != ret.second; ++it)
3063  {
3064  outs << (*it).second->idex<<" " << (*it).second->name <<" value= "<< (*it).second->value<<"\n\n";
3065  }
3066 
3067  *txtfile << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
3068  }//ifccu->nmod==0
3069  }//if ccu!=0
3070  }//for i_ccu
3071  *txtfile << "</body></html>" << std::endl;
3072  txtfile->close();delete txtfile;
3073  }//for int crate
3074  }
3075 if(enableLVProcessing){
3076  std::ostringstream outs3,outs4;
3077  outs3 << outputfilename<<"psu.png";
3078 save_as_psutrackermap(true,gminvalue,gmaxvalue,outs3.str(),6000,3200);
3079 
3080  outs4 << outputfilename<<".xml";
3081 save_as_psutrackermap(true,gminvalue,gmaxvalue,outs4.str(),3000,1600);
3082 //And a text file for each rack
3083 
3084  std::ofstream * txtfile;
3085  std::map<int , TmPsu *>::iterator ipsu;
3086  std::multimap<TmPsu*, TmModule*>::iterator it;
3087  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
3088  for (int rack=1; rack < (npsuracks+1); rack++){
3089  std::ostringstream outs;
3090 
3091  outs << outputfilename <<"psurack"<<rack<< ".html";
3092  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3093  *txtfile << "<html><head></head> <body>" << std::endl;
3094  for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
3095  TmPsu * psu= ipsu->second;
3096  if(psu!=0 && psu->getPsuRack() == rack){
3097  *txtfile << "<a name="<<psu->idex<<"><pre>"<<std::endl;
3098  *txtfile << psu->text << std::endl;
3099  std::ostringstream outs;
3100  if(psu->nmod==0)outs << "Ps is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
3101  {
3102  outs<< "PS is in position " <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmod<<" modules. "<<std::endl;
3103 
3104  ret = psuModuleMap.equal_range(psu);
3105  for (it = ret.first; it != ret.second; ++it)
3106  {
3107  outs <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;
3108 
3109  }
3110  *txtfile << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
3111  }
3112  }
3113  }
3114  *txtfile << "</body></html>" << std::endl;
3115  txtfile->close();delete txtfile;
3116  }
3117  }
3118 
3119 
3120 if(enableHVProcessing){
3121  std::ostringstream outs5,outs6;
3122  outs5 << outputfilename<<"hv.png";
3123 save_as_HVtrackermap(true,gminvalue,gmaxvalue,outs5.str(),6000,3200);
3124 
3125  outs6 << outputfilename<<".xml";
3126 save_as_HVtrackermap(true,gminvalue,gmaxvalue,outs6.str(),3000,1600);
3127 //And a text file for each rack
3128 
3129  std::ofstream * txtfile;
3130  std::map<int , TmPsu *>::iterator ipsu;
3131  std::multimap<TmPsu*, TmModule*>::iterator it;
3132  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
3133  for (int rack=1; rack < (npsuracks+1); rack++){
3134  std::ostringstream outs;
3135 
3136  outs << outputfilename <<"HVrack"<<rack<< ".html";
3137  txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
3138  *txtfile << "<html><head></head> <body>" << std::endl;
3139  for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
3140  TmPsu * psu= ipsu->second;
3141  if(psu!=0 && psu->getPsuRack() == rack){
3142  *txtfile << "<a name="<<psu->idex<<"><pre>"<<std::endl;
3143  *txtfile << psu->textHV2 << std::endl;
3144  std::ostringstream outsHV2;
3145  if(psu->nmodHV2==0)outsHV2 << "HV Channel002 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
3146  {
3147  outsHV2<< "HV Channel002 is in position " <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV2<<" modules. "<<" <br>"<<std::endl;
3148 
3149  ret = psuModuleMap.equal_range(psu);
3150  for (it = ret.first; it != ret.second; ++it)
3151  {
3152  if((*it).second->HVchannel==2){outsHV2 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
3153  }
3154  *txtfile << "</pre><h4>"<< outsHV2.str()<<"</h4>"<<std::endl;
3155  }
3156 
3157  *txtfile << psu->textHV3 << std::endl;
3158  std::ostringstream outsHV3;
3159  if(psu->nmodHV3==0)outsHV3 << "HV Channel003 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
3160  {
3161  outsHV3<< "HV Channel003 is in position " <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV3<<" modules. "<<" <br>"<<std::endl;
3162 
3163  ret = psuModuleMap.equal_range(psu);
3164  for (it = ret.first; it != ret.second; ++it)
3165  {
3166  if((*it).second->HVchannel==3){outsHV3 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
3167  }
3168  *txtfile << "</pre><h4>"<< outsHV3.str()<<"</h4>"<<std::endl;
3169  }
3170 
3171  }
3172  }
3173  *txtfile << "</body></html>" << std::endl;
3174  txtfile->close();delete txtfile;
3175  }
3176  }
3177 
3178 }
TmModule * mod
Definition: TmApvPair.h:16
std::string text
Definition: TmApvPair.h:12
tuple ret
prodAgent to be discontinued
ModApvPair apvModuleMap
Definition: TrackerMap.h:147
std::ifstream * findfile(std::string filename)
Definition: TrackerMap.cc:3510
int nfeccrates
Definition: TrackerMap.h:488
MapCcu ccuMap
Definition: TrackerMap.h:152
int nmodHV3
Definition: TmPsu.h:31
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
void save_as_psutrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="psu_svgmap.svg", int width=100+(360+100)*5+300, int height=50+(150+50)*6+300)
Definition: TrackerMap.cc:1844
int idex
Definition: TmPsu.h:11
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
bool enableFecProcessing
Definition: TrackerMap.h:164
void save_as_HVtrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="psu_svgmap.svg", int width=1500, int height=800)
Definition: TrackerMap.cc:1562
int npsuracks
Definition: TrackerMap.h:489
tuple txtfile
Delete all three files at once to make sure the user never sees stale data (e.g.
int getPsuBoard()
Definition: TmPsu.h:17
bool enableFedProcessing
Definition: TrackerMap.h:163
int firstRing[43]
Definition: TrackerMap.h:480
float gminvalue
Definition: TrackerMap.h:499
int nmod
Definition: TmCcu.h:15
bool enableHVProcessing
Definition: TrackerMap.h:166
int getFedId()
Definition: TmApvPair.h:19
unsigned int idex
Definition: TmModule.h:29
int nmod
Definition: TmPsu.h:29
int nchan
Definition: TauolaWrapper.h:80
void save(bool print_total=true, float minval=0., float maxval=0., std::string s="svgmap.svg", int width=1500, int height=800)
Definition: TrackerMap.cc:699
bool temporary_file
Definition: TrackerMap.h:502
int getCcuCrate()
Definition: TmCcu.h:19
int getPsuRack()
Definition: TmPsu.h:15
int nmodHV2
Definition: TmPsu.h:30
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
void printlayers(bool print_total=true, float minval=0., float maxval=0., std::string s="layer")
Definition: TrackerMap.cc:3527
int mpos
Definition: TmCcu.h:18
void save_as_fedtrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="fed_svgmap.svg", int width=100+(90+100)*31+300, int height=150+(2940+150)*1+300)
Definition: TrackerMap.cc:2126
SvgFed fedMap
Definition: TrackerMap.h:149
PsuModule psuModuleMap
Definition: TrackerMap.h:158
int firstcrate
Definition: TrackerMap.h:487
FecModule fecModuleMap
Definition: TrackerMap.h:154
string command
Definition: mps_check.py:26
bool notInUse()
Definition: TmModule.h:24
std::string title
Definition: TrackerMap.h:170
int idex
Definition: TmCcu.h:13
std::string textHV3
Definition: TmPsu.h:37
SvgApvPair apvMap
Definition: TrackerMap.h:145
std::string text
Definition: TmPsu.h:35
float gmaxvalue
Definition: TrackerMap.h:499
int idex
Definition: TmApvPair.h:14
tuple cout
Definition: gather_cfg.py:145
bool enableLVProcessing
Definition: TrackerMap.h:165
std::string textHV2
Definition: TmPsu.h:36
MapPsu psuMap
Definition: TrackerMap.h:156
Definition: TmCcu.h:5
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
std::string text
Definition: TmCcu.h:11
Definition: TmPsu.h:6
Definition: vlib.h:208
void save_as_fectrackermap(bool print_total=true, float minval=0., float maxval=0., std::string s="fec_svgmap.svg", int width=1500, int height=800)
Definition: TrackerMap.cc:1303
std::string name
Definition: TmModule.h:15
int getFedCh()
Definition: TmApvPair.h:18
int ntotRing[43]
Definition: TrackerMap.h:479
void TrackerMap::reset ( void  )

Definition at line 431 of file TrackerMap.cc.

References TmModule::count, imoduleMap, mod(), TmModule::red, and TmModule::value.

Referenced by MatrixReader.MatrixReader::__init__(), and MatrixReader.MatrixReader::showRaw().

431  {
432 std::map<int , TmModule *>::iterator i_mod;
433  for( i_mod=imoduleMap.begin();i_mod !=imoduleMap.end(); i_mod++){
434  TmModule * mod= i_mod->second;
435  mod->count=0;mod->value=0;mod->red=-1;
436  }
437 }
float value
Definition: TmModule.h:12
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
int count
Definition: TmModule.h:13
int red
Definition: TmModule.h:11
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::save ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "svgmap.svg",
int  width = 1500,
int  height = 800 
)

Definition at line 699 of file TrackerMap.cc.

References addPixelFlag, EnergyCorrector::c, cuy::col, colors, mps_check::command, TmModule::count, gather_cfg::cout, defwindow(), drawModule(), drawPalette(), lut2db_cfg::filename, symbols::filetype, firstRing, newFWLiteAna::found, cmsRelvalreport::green(), i, recoMuon::in, relval_steps::key, cmsLHEtoEOSManager::l, dqm-mbProfile::log, maxvalue, minvalue, mod(), module(), TmModule::notInUse(), npoints, ntotRing, onlyPixelFlag, GenerateHcalLaserBadRunList::out, printflag, cmsRelvalreport::red(), relativeConstraints::ring, alignCSCRings::s, savefile, saveGeoTrackerMap, smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmModule::value, relativeConstraints::value, vc, x, and y.

Referenced by Vispa.Main.TabController.TabController::allowClose(), SiStripQualityStatistics::analyze(), TkVoltageMapCreator::beginRun(), TrackerDpgAnalysis::beginRun(), Vispa.Main.TabController.TabController::checkModificationTimestamp(), SiStripTrackerMapCreator::createForOffline(), SiStripCorrelateNoise::DoPlots(), SiStripCablingTrackerMap::endJob(), SiStripQualityStatistics::endJob(), SiStripCorrelateBadStripAndNoise::endJob(), SiStripPlotGain::endJob(), BuildTrackerMapPlugin::endJob(), DetIdSelectorTest::endJob(), SiStripHitEffFromCalibTree::makeTKMap(), printall(), printonline(), and SiStripBaseCondObjDQM::saveTkMap().

699  {
700 
701  printflag=true;
702  bool rangefound = true;
703  if(saveGeoTrackerMap){
704  std::string filetype=s,outputfilename=s;
705  std::vector<TPolyLine*> vp;
706  TGaxis *axis = 0 ;
707  size_t found=filetype.find_last_of(".");
708  filetype=filetype.substr(found+1);
709  found=outputfilename.find_last_of(".");
710  outputfilename=outputfilename.substr(0,found);
711  //outputfilename.erase(outputfilename.begin()+outputfilename.find("."),outputfilename.end());
712  temporary_file=true;
713  if(filetype=="svg")temporary_file=false;
714  std::ostringstream outs;
715  minvalue=minval; maxvalue=maxval;
716  outs << outputfilename << ".coor";
717  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
718  if(!print_total){
719  for (int layer=1; layer < 44; layer++){
720  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
721  for (int module=1;module<200;module++) {
722  int key=layer*100000+ring*1000+module;
723  TmModule * mod = smoduleMap[key];
724  if(mod !=0 && !mod->notInUse()){
725  mod->value = mod->value / mod->count;
726  }
727  }
728  }
729  }
730  }
731 
732  if(minvalue>=maxvalue){
733  minvalue=9999999.;
734  maxvalue=-9999999.;
735  rangefound=false;
736  for (int layer=1; layer < 44; layer++){
737  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
738  for (int module=1;module<200;module++) {
739  int key=layer*100000+ring*1000+module;
740  TmModule * mod = smoduleMap[key];
741  if(mod !=0 && !mod->notInUse() && mod->count>0){
742  rangefound=true;
743  if (minvalue > mod->value)minvalue=mod->value;
744  if (maxvalue < mod->value)maxvalue=mod->value;
745  }
746  }
747  }
748  }
749  }
750  if ((title.find("QTestAlarm")!=std::string::npos) || (maxvalue == minvalue)||!rangefound) printflag = false;
751  if(!temporary_file){
752  *savefile << "<?xml version=\"1.0\" standalone=\"no\" ?>"<<std::endl;
753  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
754  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
755  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
756  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3100 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
757  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3100\" height=\"1600\" /> "<<std::endl;
758  *savefile << "<svg:g id=\"tracker\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
759  }
760  for (int layer=1; layer < 44; layer++){
761  // nlay=layer;
762  defwindow(layer);
763  for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
764  for (int module=1;module<200;module++) {
765  int key=layer*100000+ring*1000+module;
766  TmModule * mod = smoduleMap[key];
767  if(mod !=0 && !mod->notInUse()){
768  drawModule(mod,key,layer,print_total,savefile);
769  }
770  }
771  }
772  }
773 
774  if(!temporary_file){
775  *savefile << "</svg:g>"<<std::endl;
776  *savefile << " <svg:text id=\"Title\" class=\"normalText\" x=\"300\" y=\"0\">"<<title<<"</svg:text>"<<std::endl;
777  }
778 
779  if(printflag) {
781  else {drawPalette(savefile);}
782  }
783  if(!temporary_file){
784  *savefile << "</svg:svg>"<<std::endl;
785  *savefile << "</svg>"<<std::endl;
786  }
787  savefile->close(); delete savefile;
788 
789  const char * command1;
790  std::string tempfilename = outputfilename + ".coor";
791  if(filetype=="svg"){
792  std::string command = "mv "+tempfilename +" " +outputfilename + ".svg";
793  command1=command.c_str();
794  std::cout << "Executing " << command1 << std::endl;
795  system(command1);
796  }
797 
798 
799  if (temporary_file){ // create root trackermap image
800  int red,green,blue,npoints,colindex,ncolor;
801  double x[4],y[4];
802  std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
803  TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
804  gPad->SetFillColor(38);
805 
806  if(addPixelFlag) {gPad->Range(0,0,3800,1600);}
807  else if(onlyPixelFlag) {gPad->Range(-100,0,800,1600);}
808  else {gPad->Range(800,0,3800,1600);}
809 
810  //First build palette
811  ncolor=0;
812  typedef std::map<int,int> ColorList;
813  ColorList colorList;
814  ColorList::iterator pos;
815  TColor *col, *c;
816  std::cout<<"tempfilename "<<tempfilename<<std::endl;
817  while(!tempfile.eof()) {
818  tempfile >> red >> green >> blue >> npoints;
819  colindex=red+green*1000+blue*1000000;
820  pos=colorList.find(colindex);
821  if(pos == colorList.end()){ colorList[colindex]=ncolor+100; col =gROOT->GetColor(ncolor+100);
822  if(col) col->SetRGB((Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.)); else c = new TColor(ncolor+100,(Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));vc.push_back(c); ncolor++;}
823  for (int i=0;i<npoints;i++){
824  tempfile >> x[i] >> y[i];
825  }
826  }
827 
828  if(ncolor>0 && ncolor<10000){
829  Int_t colors[10000];
830  for(int i=0;i<ncolor;i++){colors[i]=i+100;}
831  gStyle->SetPalette(ncolor,colors);
832  }
833 
834  tempfile.clear();
835  tempfile.seekg(0,std::ios::beg);
836  std::cout << "created palette with " << ncolor << " colors" << std::endl;
837 
838  while(!tempfile.eof()) {//create polylines
839  tempfile >> red >> green >> blue >> npoints;
840  for (int i=0;i<npoints;i++){
841  tempfile >> x[i] >> y[i];
842  }
843  colindex=red+green*1000+blue*1000000;
844  pos=colorList.find(colindex);
845  if(pos != colorList.end()){
846  TPolyLine* pline = new TPolyLine(npoints,y,x);
847  vp.push_back(pline);
848  pline->SetFillColor(colorList[colindex]);
849  pline->SetLineWidth(0);
850  pline->Draw("f");
851  }
852  }
853  if (printflag) {
854  float lminvalue=minvalue; float lmaxvalue=maxvalue;
855  if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
856  if(onlyPixelFlag) {axis = new TGaxis(-30,36,-30,1530,lminvalue,lmaxvalue,510,"+L");}
857  else {axis = new TGaxis(3660,36,3660,1530,lminvalue,lmaxvalue,510,"+L");}
858  axis->SetLabelSize(0.02);
859  axis->Draw();
860  }
861  TLatex l;
862  l.SetTextSize(0.03);
863  l.DrawLatex(950,1330,"TID");
864  l.DrawLatex(2300,1330,"TEC");
865  l.DrawLatex(300,1330,"FPIX");
866  l.DrawLatex(20,560,"BPIX L1");
867  l.DrawLatex(500,385,"BPIX L2");
868  l.DrawLatex(500,945,"BPIX L3");
869  l.SetTextSize(0.04);
870  std::string fulltitle = title;
871  if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
872  if(onlyPixelFlag) {l.DrawLatex(30,1500,fulltitle.c_str());}
873  else {l.DrawLatex(850,1500,fulltitle.c_str());}
874  if(onlyPixelFlag) {l.DrawLatex(380,40,"-z");}
875  else {l.DrawLatex(1730,40,"-z");}
876  if(onlyPixelFlag) {l.DrawLatex(380,1330,"+z");}
877  else {l.DrawLatex(1730,1360,"+z");}
878  l.DrawLatex(1085,330,"TIB L1");
879  l.DrawLatex(1085,1000,"TIB L2");
880  l.DrawLatex(1585,330,"TIB L3");
881  l.DrawLatex(1585,1000,"TIB L4");
882  l.DrawLatex(2085,330,"TOB L1");
883  l.DrawLatex(2085,1000,"TOB L2");
884  l.DrawLatex(2585,330,"TOB L3");
885  l.DrawLatex(2585,1000,"TOB L4");
886  l.DrawLatex(3085,330,"TOB L5");
887  l.DrawLatex(3085,1000,"TOB L6");
888  TArrow arx(3448,1190,3448,1350,0.01,"|>");
889  l.DrawLatex(3460,1350,"x");
890  TArrow ary(3448,1190,3312,1190,0.01,"|>");
891  l.DrawLatex(3312,1210,"y");
892  TArrow arz(3485,373,3485,676,0.01,"|>");
893  l.DrawLatex(3510,667,"z");
894  TArrow arphi(3485,511,3037,511,0.01,"|>");
895  l.DrawLatex(3023,520,"#Phi");
896  arx.SetLineWidth(3);
897  ary.SetLineWidth(3);
898  arz.SetLineWidth(3);
899  arphi.SetLineWidth(3);
900  if(onlyPixelFlag) {
901  arx.SetX1(570);arx.SetX2(570);arx.SetY1(1190);arx.SetY2(1350);
902  l.DrawLatex(570+12,1190+160,"x");
903  ary.SetX1(570);ary.SetX2(570-160);ary.SetY1(1190);ary.SetY2(1190);
904  l.DrawLatex(570-160,1190+30,"y");
905  arz.SetX1(380);arz.SetX2(380);arz.SetY1(683-100);arz.SetY2(683+100);
906  l.DrawLatex(380+15,683+100-9,"z");
907  arphi.SetX1(380);arphi.SetX2(380-390);arphi.SetY1(683);arphi.SetY2(683);
908  l.DrawLatex(380-390-14,683+9,"#Phi");
909  }
910  arx.Draw();
911  ary.Draw();
912  arz.Draw();
913  arphi.Draw();
914  MyC->Update();
915  if(filetype=="png"){
916 
917  std::string filename = outputfilename + ".png";
918  std::cout << "printing " <<filename<< std::endl;
919  MyC->Print(filename.c_str());
920  }
921  if(filetype=="jpg"){
922  std::string filename = outputfilename + ".jpg";
923  MyC->Print(filename.c_str());
924  }
925  if(filetype=="pdf"){
926  std::string filename = outputfilename + ".pdf";
927  MyC->Print(filename.c_str());
928  }
929  std::string command = "rm "+tempfilename ;
930  command1=command.c_str();
931  std::cout << "Executing " << command1 << std::endl;
932  system(command1);
933  MyC->Clear();
934  delete MyC;
935  if (printflag)delete axis;
936  for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
937  delete (*pos1);}
938 
939  }
940  }
941  return;
942 }
bool tkMapLog
Definition: TrackerMap.h:167
int i
Definition: DBlmapReader.cc:9
float minvalue
Definition: TrackerMap.h:500
float value
Definition: TmModule.h:12
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
std::ofstream * savefile
Definition: TrackerMap.h:495
bool saveGeoTrackerMap
Definition: TrackerMap.h:162
int module(int fedId, int fedCh)
Definition: TrackerMap.cc:2688
void defwindow(int num_lay)
Definition: TrackerMap.h:329
bool addPixelFlag
Definition: TrackerMap.h:508
int firstRing[43]
Definition: TrackerMap.h:480
vector< Color_t > colors
bool temporary_file
Definition: TrackerMap.h:502
bool onlyPixelFlag
Definition: TrackerMap.h:509
static const int npoints
void drawModule(TmModule *mod, int key, int layer, bool total, std::ofstream *file)
Definition: TrackerMap.cc:537
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
int count
Definition: TmModule.h:13
bool printflag
Definition: TrackerMap.h:160
string command
Definition: mps_check.py:26
void drawPalette(std::ofstream *file, int xoffset=3660, int yoffset=1540)
Definition: TrackerMap.cc:2500
bool notInUse()
Definition: TmModule.h:24
std::string title
Definition: TrackerMap.h:170
tuple filetype
Definition: symbols.py:48
tuple filename
Definition: lut2db_cfg.py:20
float maxvalue
Definition: TrackerMap.h:500
tuple cout
Definition: gather_cfg.py:145
int col
Definition: cuy.py:1008
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
Definition: vlib.h:208
std::vector< TColor * > vc
Definition: TrackerMap.h:138
int ntotRing[43]
Definition: TrackerMap.h:479
void TrackerMap::save_as_fectrackermap ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "fec_svgmap.svg",
int  width = 1500,
int  height = 800 
)

Definition at line 1303 of file TrackerMap.cc.

References TmCcu::blue, EnergyCorrector::c, ccuMap, cuy::col, colors, mps_check::command, TmCcu::count, gather_cfg::cout, deffecwindow(), drawCcu(), drawPalette(), enableFecProcessing, fecModuleMap, lut2db_cfg::filename, symbols::filetype, newFWLiteAna::found, TmCcu::getCcuCrate(), TmCcu::getCcuSlot(), TmCcu::green, cmsRelvalreport::green(), i, recoMuon::in, cmsLHEtoEOSManager::l, dqm-mbProfile::log, maxvalue, minvalue, nfeccrates, TmCcu::nmod, npoints, GenerateHcalLaserBadRunList::out, printflag, TmCcu::red, cmsRelvalreport::red(), runTheMatrix::ret, alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmCcu::value, relativeConstraints::value, vc, x, and y.

Referenced by printall(), and printonline().

1303  {
1304 
1305  if(enableFecProcessing){
1306  std::string filetype=s,outputfilename=s;
1307  std::vector<TPolyLine*> vp;
1308  TGaxis *axis = 0 ;
1309  size_t found=filetype.find_last_of(".");
1310  filetype=filetype.substr(found+1);
1311  found=outputfilename.find_last_of(".");
1312  outputfilename=outputfilename.substr(0,found);
1313  temporary_file=true;
1314  if(filetype=="xml"||filetype=="svg")temporary_file=false;
1315  std::ostringstream outs;
1316  minvalue=minval; maxvalue=maxval;
1317  outs << outputfilename << ".coor";
1318  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1319  std::map<int , TmCcu *>::iterator i_ccu;
1320  std::multimap<TmCcu*, TmModule*>::iterator it;
1321  std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
1322  //Decide if we must use Module or Ccu value
1323  bool useCcuValue=false;
1324 
1325 
1326  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1327  TmCcu * ccu= i_ccu->second;
1328  if(ccu!=0) {
1329  if(ccu->count > 0 || ccu->red!=-1) { useCcuValue=true; break;}
1330  }
1331  }
1332 
1333 
1334  if(!useCcuValue)//store mean of connected modules value{
1335  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1336  TmCcu * ccu= i_ccu->second;
1337  if(ccu!=0) {
1338  ret = fecModuleMap.equal_range(ccu);
1339  for (it = ret.first; it != ret.second; ++it)
1340  {
1341  if( (*it).second->count>0){ccu->value=ccu->value+(*it).second->value;ccu->count++;}
1342  }
1343  if(ccu->count>0)ccu->value=ccu->value/ccu->count;
1344  if(ccu->nmod==0) { ccu->red=0;ccu->green=0;ccu->blue=0;}
1345  }
1346  }
1347 
1348 
1349  if(title.find("QTestAlarm")!=std::string::npos){
1350  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1351  TmCcu * ccu= i_ccu->second;
1352  if(ccu!=0) {
1353  ret = fecModuleMap.equal_range(ccu);
1354  ccu->red=0;ccu->green=255;ccu->blue=0;
1355  for (it = ret.first; it != ret.second; ++it) {
1356  if( !( (*it).second->red==0 && (*it).second->green==255 && (*it).second->blue==0 ) && !( (*it).second->red==255 && (*it).second->green==255 && (*it).second->blue==255 ) ){
1357  ccu->red=255;ccu->green=0;ccu->blue=0;
1358  }
1359  }
1360  }
1361  }
1362  }
1363 
1364 
1365 
1366  if(!print_total){
1367  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1368  TmCcu * ccu= i_ccu->second;
1369  if(ccu!=0) {
1370  if(useCcuValue) ccu->value = ccu->value / ccu->count;
1371 
1372  }
1373  }
1374  }
1375 
1376  if(minvalue>=maxvalue){
1377 
1378  minvalue=9999999.;
1379  maxvalue=-9999999.;
1380  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1381  TmCcu * ccu= i_ccu->second;
1382  if(ccu!=0 && ccu->count>0) {
1383  if (minvalue > ccu->value)minvalue=ccu->value;
1384  if (maxvalue < ccu->value)maxvalue=ccu->value;
1385  }
1386  }
1387  }
1388 
1389 
1390 
1391  if(filetype=="svg"){
1392  saveAsSingleLayer=false;
1393  std::ostringstream outs;
1394  outs << outputfilename<<".svg";
1395  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1396  *savefile << "<?xml version=\"1.0\" standalone=\"no\" ?>"<<std::endl;
1397  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
1398  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
1399  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
1400  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
1401  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl;
1402  *savefile << "<svg:g id=\"fedtrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
1403  }
1404  for (int crate=1; crate < (nfeccrates+1); crate++){
1405  if(filetype=="xml"){
1406  saveAsSingleLayer=true;
1407  std::ostringstream outs;
1408  outs << outputfilename<<"feccrate" <<crate<< ".xml";
1409  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1410  *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
1411  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
1412  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
1413  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
1414  *savefile << "<script type=\"text/ecmascript\" xlink:href=\"feccrate.js\" />"<<std::endl;
1415  *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 500 500\" width=\"700\" height=\"700\" onload=\"TrackerCrate.init()\">"<<std::endl;
1416  *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
1417  *savefile << "<g id=\"crate\" transform=\" translate(280,580) rotate(270) scale(.7,.8)\" > "<<std::endl;
1418  }
1419  // ncrate=crate;
1420  deffecwindow(crate);
1421 
1422  for ( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1423  TmCcu * ccu= i_ccu->second;
1424  if(ccu!=0){
1425  if(ccu->getCcuCrate() == crate){
1426 
1427  drawCcu(crate,ccu->getCcuSlot()-2,print_total,ccu,savefile,useCcuValue);
1428  }
1429  }
1430  }
1431 
1432  if(!temporary_file){
1433  if(filetype=="xml"){
1434  *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
1435  *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
1436  *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
1437  *savefile << " </text> </svg>" << std::endl;
1438  savefile->close();
1439  saveAsSingleLayer=false;
1440  }
1441  }
1442  }
1443  if(filetype=="svg"){
1444  *savefile << "</g> </svg> </svg> " << std::endl;
1445  savefile->close();
1446  }
1447  if(!print_total && !useCcuValue){
1448 //Restore ccu value
1449  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
1450  TmCcu * ccu= i_ccu->second;
1451  if(ccu!=0) {
1452  ccu->value = ccu->value * ccu->count;
1453  }
1454 }
1455 }
1456  if(temporary_file){
1458  savefile->close();
1459 
1460  const char * command1;
1461  std::string tempfilename = outputfilename + ".coor";
1462  int red,green,blue,npoints,colindex,ncolor;
1463  double x[4],y[4];
1464  std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
1465  TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
1466  gPad->SetFillColor(38);
1467 
1468  if(saveWebInterface)gPad->Range(0,0,3700,1600); else gPad->Range(0,0,3800,1600);
1469 
1470  //First build palette
1471  ncolor=0;
1472  typedef std::map<int,int> ColorList;
1473  ColorList colorList;
1474  ColorList::iterator pos;
1475  TColor *col,*c;
1476  while(!tempfile.eof()) {
1477  tempfile >> red >> green >> blue >> npoints;
1478  colindex=red+green*1000+blue*1000000;
1479  pos=colorList.find(colindex);
1480  if(pos == colorList.end()){
1481  colorList[colindex]=ncolor+100;
1482  col =gROOT->GetColor(ncolor+100);
1483  if(col)
1484  col->SetRGB((Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
1485  else
1486  c = new TColor(ncolor+100,(Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
1487  vc.push_back(c);
1488  ncolor++;
1489  }
1490  for (int i=0;i<npoints;i++){
1491  tempfile >> x[i] >> y[i];
1492  }
1493  }
1494  if(ncolor>0 && ncolor<10000){
1495  Int_t colors[10000];
1496  for(int i=0;i<ncolor;i++){colors[i]=i+100;}
1497  gStyle->SetPalette(ncolor,colors);
1498  }
1499  tempfile.clear();
1500  tempfile.seekg(0,std::ios::beg);
1501  std::cout << "created palette with " << ncolor << " colors" << std::endl;
1502  while(!tempfile.eof()) {//create polylines
1503  tempfile >> red >> green >> blue >> npoints;
1504  for (int i=0;i<npoints;i++){
1505  tempfile >> x[i] >> y[i];
1506  }
1507  colindex=red+green*1000+blue*1000000;
1508  pos=colorList.find(colindex);
1509  if(pos != colorList.end()){
1510  TPolyLine* pline = new TPolyLine(npoints,y,x);
1511  vp.push_back(pline);
1512  pline->SetFillColor(colorList[colindex]);
1513  pline->SetLineWidth(0);
1514  pline->Draw("f");
1515  }
1516  }
1517  if (printflag&&!saveWebInterface) {
1518  float lminvalue=minvalue; float lmaxvalue=maxvalue;
1519  if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
1520  axis = new TGaxis(3660,36,3660,1530,lminvalue,lmaxvalue,510,"+L");
1521  axis->SetLabelSize(0.02);
1522  axis->Draw();
1523  }
1524 
1525  if(!saveWebInterface){
1526  TLatex l;
1527  l.SetTextSize(0.05);
1528  std::string fulltitle = title;
1529  if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
1530  l.DrawLatex(50,1530,fulltitle.c_str());
1531  }
1532  MyC->Update();
1533  std::cout << "Filetype " << filetype << std::endl;
1534  if(filetype=="png"){
1535  std::string filename = outputfilename + ".png";
1536  MyC->Print(filename.c_str());
1537  }
1538  if(filetype=="jpg"){
1539  std::string filename = outputfilename + ".jpg";
1540  MyC->Print(filename.c_str());
1541  }
1542  if(filetype=="pdf"){
1543  std::string filename = outputfilename + ".pdf";
1544  MyC->Print(filename.c_str());
1545  }
1546  std::string command = "rm "+tempfilename ;
1547  command1=command.c_str();
1548  std::cout << "Executing " << command1 << std::endl;
1549  system(command1);
1550  MyC->Clear();
1551  delete MyC;
1552  if (printflag&&!saveWebInterface)delete axis;
1553  for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
1554  delete (*pos1);}
1555 
1556 
1557 
1558 
1559 }//if(temporary_file)
1560 }//if(enabledFecProcessing)
1561 }
bool tkMapLog
Definition: TrackerMap.h:167
int i
Definition: DBlmapReader.cc:9
tuple ret
prodAgent to be discontinued
float minvalue
Definition: TrackerMap.h:500
int nfeccrates
Definition: TrackerMap.h:488
MapCcu ccuMap
Definition: TrackerMap.h:152
std::ofstream * savefile
Definition: TrackerMap.h:495
bool enableFecProcessing
Definition: TrackerMap.h:164
bool saveWebInterface
Definition: TrackerMap.h:161
int count
Definition: TmCcu.h:12
int nmod
Definition: TmCcu.h:15
int getCcuSlot()
Definition: TmCcu.h:20
vector< Color_t > colors
bool saveAsSingleLayer
Definition: TrackerMap.h:507
void deffecwindow(int num_crate)
Definition: TrackerMap.h:308
bool temporary_file
Definition: TrackerMap.h:502
static const int npoints
int getCcuCrate()
Definition: TmCcu.h:19
int green
Definition: TmCcu.h:9
void drawCcu(int crate, int numfed_incrate, bool total, TmCcu *ccu, std::ofstream *file, bool useCcuValue)
Definition: TrackerMap.cc:1029
float value
Definition: TmCcu.h:10
bool printflag
Definition: TrackerMap.h:160
FecModule fecModuleMap
Definition: TrackerMap.h:154
string command
Definition: mps_check.py:26
void drawPalette(std::ofstream *file, int xoffset=3660, int yoffset=1540)
Definition: TrackerMap.cc:2500
std::string title
Definition: TrackerMap.h:170
int red
Definition: TmCcu.h:9
tuple filetype
Definition: symbols.py:48
tuple filename
Definition: lut2db_cfg.py:20
float maxvalue
Definition: TrackerMap.h:500
tuple cout
Definition: gather_cfg.py:145
int blue
Definition: TmCcu.h:9
Definition: TmCcu.h:5
int col
Definition: cuy.py:1008
std::vector< TColor * > vc
Definition: TrackerMap.h:138
void TrackerMap::save_as_fedtrackermap ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "fed_svgmap.svg",
int  width = 100 +( 90 + 100 )* 31 +300,
int  height = 150 +( 2940 + 150 )* 1 +300 
)

Definition at line 2126 of file TrackerMap.cc.

References apvMap, EnergyCorrector::c, cuy::col, colors, mps_check::command, TmModule::count, TmApvPair::count, gather_cfg::cout, defcwindow(), drawApvPair(), drawPalette(), enableFedProcessing, l1tstage2_dqm_sourceclient-live_cfg::fedId, fedMap, lut2db_cfg::filename, symbols::filetype, firstcrate, newFWLiteAna::found, cmsRelvalreport::green(), i, recoMuon::in, relval_steps::key, cmsLHEtoEOSManager::l, dqm-mbProfile::log, maxvalue, minvalue, TmApvPair::mod, TmApvPair::mpos, ncrates, TmModule::notInUse(), npoints, NUMFEDCRATE_INCOLUMN, NUMFEDCRATE_INROW, GenerateHcalLaserBadRunList::out, printflag, TmApvPair::red, cmsRelvalreport::red(), alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, slotMap, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmApvPair::value, TmModule::value, relativeConstraints::value, vc, x, XFEDCSIZE, XFEDOFFSET, y, YFEDCSIZE, and YFEDOFFSET.

Referenced by SiStripTrackerMapCreator::createForOffline(), BuildTrackerMapPlugin::endJob(), printall(), and printonline().

2126  {
2127  if(enableFedProcessing){
2128  printflag=true;
2129  bool rangefound = true;
2130  std::string filetype=s,outputfilename=s;
2131  std::vector<TPolyLine*> vp;
2132  TGaxis *axis = 0 ;
2133 
2134  size_t found=filetype.find_last_of(".");
2135  filetype=filetype.substr(found+1);
2136  found=outputfilename.find_last_of(".");
2137  outputfilename=outputfilename.substr(0,found);
2138 
2139  temporary_file=true;
2140  if(filetype=="xml"||filetype=="svg")temporary_file=false;
2141  std::ostringstream outs;
2142  minvalue=minval; maxvalue=maxval;
2143  outs << outputfilename << ".coor";
2144  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
2145  std::map<int , TmApvPair *>::iterator i_apv;
2146  std::map<int , int>::iterator i_fed;
2147  //Decide if we must use Module or ApvPair value
2148  bool useApvPairValue=false;
2149  for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
2150  TmApvPair * apvPair= i_apv->second;
2151  if(apvPair!=0) {
2152  TmModule * apv_mod = apvPair->mod;
2153  if(apv_mod !=0 && !apv_mod->notInUse()){
2154  if(apvPair->count > 0 || apvPair->red!=-1) { useApvPairValue=true; break;}
2155  }
2156  }
2157  }
2158  if(!print_total){
2159  for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
2160  TmApvPair * apvPair= i_apv->second;
2161  if(apvPair!=0) {
2162  TmModule * apv_mod = apvPair->mod;
2163  if(apv_mod !=0 && !apv_mod->notInUse() ){
2164  if(useApvPairValue) apvPair->value = apvPair->value / apvPair->count;
2165  else if(apvPair->mpos==0 && apv_mod->count>0)apv_mod->value = apv_mod->value / apv_mod->count;
2166  }
2167  }
2168  }
2169  }
2170  if(minvalue>=maxvalue){
2171 
2172  minvalue=9999999.;
2173  maxvalue=-9999999.;
2174  rangefound=false;
2175  for(i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
2176  TmApvPair * apvPair= i_apv->second;
2177  if(apvPair!=0 ) {
2178  TmModule * apv_mod = apvPair->mod;
2179  if( apv_mod !=0 && !apv_mod->notInUse() ){
2180  if(useApvPairValue){
2181  rangefound=true;
2182  if (minvalue > apvPair->value)minvalue=apvPair->value;
2183  if (maxvalue < apvPair->value)maxvalue=apvPair->value;
2184  } else {
2185  if(apv_mod->count>0){
2186  rangefound=true;
2187  if (minvalue > apv_mod->value)minvalue=apv_mod->value;
2188  if (maxvalue < apv_mod->value)maxvalue=apv_mod->value;}
2189  }
2190  }
2191  }
2192  }
2193  }
2194  if ((title.find("QTestAlarm")!=std::string::npos) || (maxvalue == minvalue)||!rangefound) printflag = false;
2195 
2196  if(filetype=="svg"){
2197  saveAsSingleLayer=false;
2198  std::ostringstream outs;
2199  outs << outputfilename<<".svg";
2200  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
2201  *savefile << "<?xml version=\"1.0\" standalone=\"no\" ?>"<<std::endl;
2202  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
2203  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
2204  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
2205  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
2206  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl;
2207  *savefile << "<svg:g id=\"fedtrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
2208  }
2209  for (int crate=firstcrate; crate < (ncrates+1); crate++){
2210  if(filetype=="xml"){
2211  saveAsSingleLayer=true;
2212  std::ostringstream outs;
2213  outs << outputfilename<<"crate" <<crate<< ".xml";
2214  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
2215  *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
2216  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
2217  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
2218  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
2219  *savefile << "<script type=\"text/ecmascript\" xlink:href=\"crate.js\" />"<<std::endl;
2220  *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 500 500\" width=\"700\" height=\"700\" onload=\"TrackerCrate.init()\">"<<std::endl;
2221  *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
2222  *savefile << "<g id=\"crate\" transform=\" translate(150,500) rotate(270) scale(1.,1.)\" > "<<std::endl;
2223  }
2224  // ncrate=crate;
2225  defcwindow(crate);
2226  int numfed_incrate=0;
2227  for (i_fed=fedMap.begin();i_fed != fedMap.end(); i_fed++){
2228  if(i_fed->second == crate){
2229  int fedId = i_fed->first;
2230  // numfed_incrate++;
2231  numfed_incrate = slotMap[fedId];
2232  // the following piece of code is used to prepare the HTML clickable map
2233  /*
2234  double scalex=6285./6290.;
2235  double scaley=3510./3540.;
2236  double boxinitix=(NUMFED_INCOLUMN-1-(numfed_incrate-1)/NUMFED_INROW)*(NUMFEDCH_INCOLUMN+2)+NUMFEDCH_INCOLUMN+0.9;
2237  double boxinitiy=(NUMFED_INROW-1-(numfed_incrate-1)%NUMFED_INROW)*(NUMFEDCH_INROW+1)+NUMFEDCH_INROW+0.9;
2238  double boxendix=boxinitix-(NUMFEDCH_INCOLUMN-1)-0.9;
2239  double boxendiy=boxinitiy-(NUMFEDCH_INROW-1)-0.9;
2240 
2241  std::cout << "<area shape=\"rect\" coords=\" "
2242  << int(scalex*ydpixelc(boxinitiy)) << "," << int(3510-scaley*xdpixelc(boxinitix))
2243  << "," << int(scalex*ydpixelc(boxendiy)) << "," << int(3510-scaley*xdpixelc(boxendix))
2244  << "\" href=\"\" title=\"crate " << crate << " slot " << numfed_incrate << " FED " << fedId << "\" /> " << std::endl;
2245  */
2246  //
2247  for (int nconn=0;nconn<96;nconn++){
2248  int key = fedId*1000+nconn;
2249  TmApvPair * apvPair= apvMap[key];
2250  if(apvPair !=0){
2251  TmModule * apv_mod = apvPair->mod;
2252  if(apv_mod !=0 && !apv_mod->notInUse()){
2253  drawApvPair(crate,numfed_incrate,print_total,apvPair,savefile,useApvPairValue);
2254  }
2255  }
2256  }
2257  }
2258  }
2259  if(!temporary_file){
2260  if(filetype=="xml"){
2261  *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
2262  *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
2263  *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
2264  *savefile << " </text> </svg>" << std::endl;
2265  savefile->close();delete savefile;
2266  saveAsSingleLayer=false;
2267  }
2268  }
2269  }
2270  if(filetype=="svg"){
2271  *savefile << "</g> </svg> </svg> " << std::endl;
2272  savefile->close();delete savefile;
2273  }
2274  if(!print_total && !useApvPairValue){
2275 //Restore module value
2276  for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
2277  TmApvPair * apvPair= i_apv->second;
2278  if(apvPair!=0) {
2279  TmModule * apv_mod = apvPair->mod;
2280  if(apv_mod !=0 && apvPair->mpos==0 && !apv_mod->notInUse()){
2281  apv_mod->value = apv_mod->value * apv_mod->count;
2282  }
2283  }
2284  }
2285 }
2286 
2287  int rangex = YFEDOFFSET+(YFEDCSIZE+YFEDOFFSET)*NUMFEDCRATE_INROW+300;
2289 
2290  if(temporary_file){
2291  if(printflag&&!saveWebInterface)drawPalette(savefile,rangex-140,rangey-100);
2292  savefile->close(); delete savefile;
2293 
2294  const char * command1;
2295  std::string tempfilename = outputfilename + ".coor";
2296  int red,green,blue,npoints,colindex,ncolor;
2297  double x[4],y[4];
2298  std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
2299  TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
2300  gPad->SetFillColor(38);
2301 
2302  // if(saveWebInterface)gPad->Range(0,0,3750,1600); else gPad->Range(0,0,3800,1600);
2303  std::cout << " range x " << rangex << std::endl;
2304  std::cout << " range y " << rangey << std::endl;
2305  gPad->Range(0,0,rangex,rangey);
2306 
2307  //First build palette
2308  ncolor=0;
2309  typedef std::map<int,int> ColorList;
2310  ColorList colorList;
2311  ColorList::iterator pos;
2312  TColor *col,*c;
2313  while(!tempfile.eof()) {
2314  tempfile >> red >> green >> blue >> npoints;
2315  colindex=red+green*1000+blue*1000000;
2316  pos=colorList.find(colindex);
2317  if(pos == colorList.end()){
2318  colorList[colindex]=ncolor+100;
2319  col =gROOT->GetColor(ncolor+100);
2320  if(col)
2321  col->SetRGB((Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
2322  else
2323  c = new TColor(ncolor+100,(Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
2324  vc.push_back(c);
2325  ncolor++;
2326  }
2327  for (int i=0;i<npoints;i++){
2328  tempfile >> x[i] >> y[i];
2329  }
2330  }
2331  if(ncolor>0 && ncolor<10000){
2332  Int_t colors[10000];
2333  for(int i=0;i<ncolor;i++){colors[i]=i+100;}
2334  gStyle->SetPalette(ncolor,colors);
2335  }
2336  tempfile.clear();
2337  tempfile.seekg(0,std::ios::beg);
2338  std::cout << "created palette with " << ncolor << " colors" << std::endl;
2339  while(!tempfile.eof()) {//create polylines
2340  tempfile >> red >> green >> blue >> npoints;
2341  for (int i=0;i<npoints;i++){
2342  tempfile >> x[i] >> y[i];
2343  }
2344  colindex=red+green*1000+blue*1000000;
2345  pos=colorList.find(colindex);
2346  if(pos != colorList.end()){
2347  TPolyLine* pline = new TPolyLine(npoints,y,x);
2348  vp.push_back(pline);
2349  pline->SetFillColor(colorList[colindex]);
2350  pline->SetLineWidth(0);
2351  pline->Draw("f");
2352  }
2353  }
2354  if (printflag&&!saveWebInterface) {
2355  float lminvalue=minvalue; float lmaxvalue=maxvalue;
2356  if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
2357  axis = new TGaxis(rangex-140,34,rangex-140,rangey-106,lminvalue,lmaxvalue,510,"+L");
2358  axis->SetLabelSize(0.02);
2359  axis->Draw();
2360  }
2361 
2362  if(!saveWebInterface){
2363  TLatex l;
2364  l.SetTextSize(0.05);
2365  std::string fulltitle = title;
2366  if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
2367  l.DrawLatex(50,rangey-200,fulltitle.c_str());
2368  }
2369  MyC->Update();
2370  std::cout << "Filetype " << filetype << std::endl;
2371  if(filetype=="png"){
2372  std::string filename = outputfilename + ".png";
2373  MyC->Print(filename.c_str());
2374  }
2375  if(filetype=="jpg"){
2376  std::string filename = outputfilename + ".jpg";
2377  MyC->Print(filename.c_str());
2378  }
2379  if(filetype=="pdf"){
2380  std::string filename = outputfilename + ".pdf";
2381  MyC->Print(filename.c_str());
2382  }
2383  std::string command = "rm "+tempfilename ;
2384  command1=command.c_str();
2385  std::cout << "Executing " << command1 << std::endl;
2386  system(command1);
2387  MyC->Clear();
2388  delete MyC;
2389  if (printflag&&!saveWebInterface)delete axis;
2390  for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
2391  delete (*pos1);}
2392 
2393 
2394 }//if(temporary_file)
2395 }//if(enabledFedProcessing)
2396 }
TmModule * mod
Definition: TmApvPair.h:16
bool tkMapLog
Definition: TrackerMap.h:167
int i
Definition: DBlmapReader.cc:9
#define NUMFEDCRATE_INCOLUMN
Definition: TrackerMap.h:56
float minvalue
Definition: TrackerMap.h:500
float value
Definition: TmModule.h:12
int mpos
Definition: TmApvPair.h:17
std::ofstream * savefile
Definition: TrackerMap.h:495
#define YFEDOFFSET
Definition: TrackerMap.h:63
bool saveWebInterface
Definition: TrackerMap.h:161
#define YFEDCSIZE
Definition: TrackerMap.h:61
bool enableFedProcessing
Definition: TrackerMap.h:163
#define NUMFEDCRATE_INROW
Definition: TrackerMap.h:57
int red
Definition: TmApvPair.h:10
vector< Color_t > colors
bool saveAsSingleLayer
Definition: TrackerMap.h:507
bool temporary_file
Definition: TrackerMap.h:502
#define XFEDCSIZE
Definition: TrackerMap.h:60
static const int npoints
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
void drawApvPair(int crate, int numfed_incrate, bool total, TmApvPair *apvPair, std::ofstream *file, bool useApvPairValue)
Definition: TrackerMap.cc:943
int count
Definition: TmModule.h:13
SvgFed slotMap
Definition: TrackerMap.h:150
int count
Definition: TmApvPair.h:13
SvgFed fedMap
Definition: TrackerMap.h:149
bool printflag
Definition: TrackerMap.h:160
int firstcrate
Definition: TrackerMap.h:487
string command
Definition: mps_check.py:26
void drawPalette(std::ofstream *file, int xoffset=3660, int yoffset=1540)
Definition: TrackerMap.cc:2500
bool notInUse()
Definition: TmModule.h:24
std::string title
Definition: TrackerMap.h:170
tuple filetype
Definition: symbols.py:48
SvgApvPair apvMap
Definition: TrackerMap.h:145
tuple filename
Definition: lut2db_cfg.py:20
float maxvalue
Definition: TrackerMap.h:500
tuple cout
Definition: gather_cfg.py:145
#define XFEDOFFSET
Definition: TrackerMap.h:62
int col
Definition: cuy.py:1008
void defcwindow(int num_crate)
Definition: TrackerMap.h:299
std::vector< TColor * > vc
Definition: TrackerMap.h:138
float value
Definition: TmApvPair.h:11
void TrackerMap::save_as_HVtrackermap ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "psu_svgmap.svg",
int  width = 1500,
int  height = 800 
)

Definition at line 1562 of file TrackerMap.cc.

References TmPsu::blueHV2, TmPsu::blueHV3, EnergyCorrector::c, cuy::col, colors, mps_check::command, TmPsu::countHV2, TmPsu::countHV3, gather_cfg::cout, defpsuwindow(), drawHV2(), drawHV3(), drawPalette(), enableHVProcessing, lut2db_cfg::filename, symbols::filetype, newFWLiteAna::found, TmPsu::getPsuCrate(), TmPsu::getPsuRack(), cmsRelvalreport::green(), TmPsu::greenHV2, TmPsu::greenHV3, i, recoMuon::in, cmsLHEtoEOSManager::l, dqm-mbProfile::log, bookConverter::max, maxvalue, min(), minvalue, TmPsu::nmodHV2, TmPsu::nmodHV3, npoints, npsuracks, GenerateHcalLaserBadRunList::out, printflag, psuMap, psuModuleMap, cmsRelvalreport::red(), TmPsu::redHV2, TmPsu::redHV3, runTheMatrix::ret, alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmPsu::valueHV2, TmPsu::valueHV3, vc, x, and y.

Referenced by printall(), and printonline().

1562  {
1563 
1564  if(enableHVProcessing){
1565  std::string filetype=s,outputfilename=s;
1566  std::vector<TPolyLine*> vp;
1567  TGaxis *axis = 0 ;
1568  size_t found=filetype.find_last_of(".");
1569  filetype=filetype.substr(found+1);
1570  found=outputfilename.find_last_of(".");
1571  outputfilename=outputfilename.substr(0,found);
1572 
1573  temporary_file=true;
1574 
1575 
1576  if(filetype=="xml"||filetype=="svg")temporary_file=false;
1577 
1578  std::ostringstream outs;
1579  minvalue=minval; maxvalue=maxval;
1580  outs << outputfilename << ".coor";
1581  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1582 
1583  std::map<int , TmPsu *>::iterator ipsu;
1584  std::multimap<TmPsu*, TmModule*>::iterator it;
1585  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
1586 
1587 
1588  bool usePsuValue=false;
1589 
1590  for( ipsu=psuMap.begin();ipsu!=psuMap.end(); ipsu++){
1591  TmPsu* psu= ipsu->second;
1592  if(psu!=0) {
1593  if(psu->countHV2 > 0 || psu->redHV2!=-1 || psu->countHV3 > 0 || psu->redHV3!=-1) { usePsuValue=true; break;}
1594  }
1595  }
1596 
1597  if(!usePsuValue){//store mean of connected modules value{
1598 
1599  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1600  TmPsu * psu= ipsu->second;
1601  if(psu!=0) {
1602  ret = psuModuleMap.equal_range(psu);
1603  int nconn1=0;int nconn2=0;
1604  for(it = ret.first; it != ret.second; ++it){
1605  if((*it).second->HVchannel==2&&(*it).second->count>0){ nconn1++;psu->valueHV2=psu->valueHV2+(*it).second->value;}
1606  if((*it).second->HVchannel==3&&(*it).second->count>0){ nconn2++;psu->valueHV3=psu->valueHV3+(*it).second->value;}
1607  }
1608  if(psu->nmodHV2!=0 &&nconn1>0){psu->valueHV2=psu->valueHV2/psu->nmodHV2; psu->countHV2=1; }
1609  if(psu->nmodHV3!=0 &&nconn2>0){psu->valueHV3=psu->valueHV3/psu->nmodHV3; psu->countHV3=1; }
1610 
1611  }
1612 
1613  }
1614  }
1615 
1616  if(title.find("QTestAlarm")!=std::string::npos){
1617  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1618  TmPsu * psu= ipsu->second;
1619  if(psu!=0) {
1620  ret = psuModuleMap.equal_range(psu);
1621  psu->redHV2=0;psu->greenHV2=255;psu->blueHV2=0;
1622  psu->redHV3=0;psu->greenHV3=255;psu->blueHV3=0;
1623  for (it = ret.first; it != ret.second; ++it) {
1624  if((*it).second->HVchannel==2){
1625  if( !( (*it).second->red==0 && (*it).second->green==255 && (*it).second->blue==0 ) && !( (*it).second->red==255 && (*it).second->green==255 && (*it).second->blue==255 ) ){
1626  psu->redHV2=255;psu->greenHV2=0;psu->blueHV2=0;
1627  }
1628  }
1629  if((*it).second->HVchannel==3){
1630  if( !( (*it).second->red==0 && (*it).second->green==255 && (*it).second->blue==0 ) && !( (*it).second->red==255 && (*it).second->green==255 && (*it).second->blue==255 ) ){
1631  psu->redHV3=255;psu->greenHV3=0;psu->blueHV3=0;
1632  }
1633  }
1634  }
1635  }
1636  }
1637  }
1638 
1639  if(!print_total){
1640  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1641  TmPsu * psu= ipsu->second;
1642  if(psu!=0) {
1643  if(usePsuValue){
1644  psu->valueHV2 = psu->valueHV2 / psu->countHV2;
1645  psu->valueHV3 = psu->valueHV3 / psu->countHV3;
1646  }
1647  }
1648  }
1649  }
1650 
1651  if(minvalue>=maxvalue){
1652 
1653  minvalue=9999999.;
1654  maxvalue=-9999999.;
1655 
1656  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1657  TmPsu * psu= ipsu->second;
1658  if(psu!=0 && psu->countHV2>0 && psu->countHV3 >0) {
1659 
1660  if (minvalue > psu->valueHV2 || minvalue > psu->valueHV3)minvalue=std::min(psu->valueHV2,psu->valueHV3);
1661  if (maxvalue < psu->valueHV2 || maxvalue < psu->valueHV3)maxvalue=std::max(psu->valueHV2,psu->valueHV3);
1662 
1663 
1664  }
1665  }
1666  }
1667 
1668  if(filetype=="svg"){
1669  saveAsSingleLayer=false;
1670  std::ostringstream outs;
1671  outs << outputfilename<<".svg";
1672  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1673  *savefile << "<?xml version=\"1.0\" standalone=\"no\" ?>"<<std::endl;
1674  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
1675  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
1676  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
1677  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
1678  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl;
1679  *savefile << "<svg:g id=\"HVtrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
1680  }
1681 
1682  for (int irack=1; irack < (npsuracks+1); irack++){
1683  if(filetype=="xml"){
1684  saveAsSingleLayer=true;
1685  std::ostringstream outs;
1686  outs << outputfilename<<"HVrack" <<irack<< ".xml";
1687  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1688  *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
1689  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
1690  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
1691  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
1692  *savefile << "<script type=\"text/ecmascript\" xlink:href=\"rackhv.js\" />"<<std::endl;
1693  *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 500 500\" width=\"700\" height=\"700\" onload=\"TrackerRackhv.init()\">"<<std::endl;
1694  *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
1695  *savefile << "<g id=\"rackhv\" transform=\" translate(150,500) rotate(270) scale(1.,1.)\" > "<<std::endl;
1696  }
1697 
1698  // nrack=irack;
1699  defpsuwindow(irack);
1700  for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1701  TmPsu * psu= ipsu->second;
1702  if(psu->getPsuRack() == irack){
1703  drawHV2(irack,psu->getPsuCrate(),print_total,psu,savefile,usePsuValue);
1704  drawHV3(irack,psu->getPsuCrate(),print_total,psu,savefile,usePsuValue);
1705  }
1706  }
1707 
1708 
1709  if(!temporary_file){
1710  if(filetype=="xml"){
1711  *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
1712  *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
1713  *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
1714  *savefile << " </text> </svg>" << std::endl;
1715  savefile->close();
1716  saveAsSingleLayer=false;
1717  }
1718  }
1719  }
1720  if(filetype=="svg"){
1721  *savefile << "</g> </svg> </svg> " << std::endl;
1722  savefile->close();
1723  }
1724 
1725  //Restore psu value
1726  if(!print_total && !usePsuValue){
1727  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1728  TmPsu *psu = ipsu->second;
1729  if(psu!=0) {
1730  psu->valueHV2 = psu->valueHV2 * psu->countHV2;
1731  psu->valueHV3 = psu->valueHV3 * psu->countHV3;
1732  }
1733  }
1734  }
1735 
1736 
1737  if(temporary_file){
1739  savefile->close();
1740 
1741  const char * command1;
1742  std::string tempfilename = outputfilename + ".coor";
1743  int red,green,blue,npoints,colindex,ncolor;
1744  double x[4],y[4];
1745  std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
1746  TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
1747  gPad->SetFillColor(38);
1748 
1749  if(saveWebInterface)gPad->Range(0,0,3700,1600); else gPad->Range(0,0,3800,1600);
1750 
1751  //First build palette
1752  ncolor=0;
1753  typedef std::map<int,int> ColorList;
1754  ColorList colorList;
1755  ColorList::iterator pos;
1756  TColor *col,*c;
1757  while(!tempfile.eof()) {
1758  tempfile >> red >> green >> blue >> npoints;
1759  colindex=red+green*1000+blue*1000000;
1760  pos=colorList.find(colindex);
1761  if(pos == colorList.end()){
1762  colorList[colindex]=ncolor+100;
1763  col =gROOT->GetColor(ncolor+100);
1764  if(col)
1765  col->SetRGB((Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
1766  else
1767  c = new TColor(ncolor+100,(Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
1768  vc.push_back(c);
1769  ncolor++;
1770  }
1771  for (int i=0;i<npoints;i++){
1772  tempfile >> x[i] >> y[i];
1773  }
1774  }
1775  if(ncolor>0 && ncolor<10000){
1776  Int_t colors[10000];
1777  for(int i=0;i<ncolor;i++){colors[i]=i+100;}
1778  gStyle->SetPalette(ncolor,colors);
1779  }
1780  tempfile.clear();
1781  tempfile.seekg(0,std::ios::beg);
1782  std::cout << "created palette with " << ncolor << " colors" << std::endl;
1783  while(!tempfile.eof()) {//create polylines
1784  tempfile >> red >> green >> blue >> npoints;
1785  for (int i=0;i<npoints;i++){
1786  tempfile >> x[i] >> y[i];
1787  }
1788  colindex=red+green*1000+blue*1000000;
1789  pos=colorList.find(colindex);
1790  if(pos != colorList.end()){
1791  TPolyLine* pline = new TPolyLine(npoints,y,x);
1792  vp.push_back(pline);
1793  pline->SetFillColor(colorList[colindex]);
1794  pline->SetLineWidth(0);
1795  pline->Draw("f");
1796  }
1797  }
1798  if (printflag&&!saveWebInterface) {
1799  float lminvalue=minvalue; float lmaxvalue=maxvalue;
1800  if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
1801  axis = new TGaxis(3660,36,3660,1530,lminvalue,lmaxvalue,510,"+L");
1802  axis->SetLabelSize(0.02);
1803  axis->Draw();
1804  }
1805 
1806 
1807  if(!saveWebInterface){
1808  TLatex l;
1809  l.SetTextSize(0.05);
1810  std::string fulltitle = title;
1811  if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
1812  l.DrawLatex(50,1530,fulltitle.c_str());
1813  }
1814  MyC->Update();
1815  std::cout << "Filetype " << filetype << std::endl;
1816  if(filetype=="png"){
1817  std::string filename = outputfilename + ".png";
1818  MyC->Print(filename.c_str());
1819  }
1820  if(filetype=="jpg"){
1821  std::string filename = outputfilename + ".jpg";
1822  MyC->Print(filename.c_str());
1823  }
1824  if(filetype=="pdf"){
1825  std::string filename = outputfilename + ".pdf";
1826  MyC->Print(filename.c_str());
1827  }
1828  std::string command = "rm "+tempfilename ;
1829  command1=command.c_str();
1830  std::cout << "Executing " << command1 << std::endl;
1831  system(command1);
1832  MyC->Clear();
1833  delete MyC;
1834  if (printflag&&!saveWebInterface)delete axis;
1835  for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
1836  delete (*pos1);}
1837 
1838 
1839  }//if(temporary_file)
1840 }//if(enabledHVProcessing)
1841 }
bool tkMapLog
Definition: TrackerMap.h:167
int i
Definition: DBlmapReader.cc:9
tuple ret
prodAgent to be discontinued
float minvalue
Definition: TrackerMap.h:500
int redHV2
Definition: TmPsu.h:21
int nmodHV3
Definition: TmPsu.h:31
std::ofstream * savefile
Definition: TrackerMap.h:495
int countHV2
Definition: TmPsu.h:27
void defpsuwindow(int num_rack)
Definition: TrackerMap.h:317
bool saveWebInterface
Definition: TrackerMap.h:161
int npsuracks
Definition: TrackerMap.h:489
int greenHV3
Definition: TmPsu.h:22
bool enableHVProcessing
Definition: TrackerMap.h:166
vector< Color_t > colors
void drawHV3(int rack, int numcrate_inrack, bool print_total, TmPsu *psu, std::ofstream *svgfile, bool usePsuValue)
Definition: TrackerMap.cc:1238
bool saveAsSingleLayer
Definition: TrackerMap.h:507
int blueHV3
Definition: TmPsu.h:22
bool temporary_file
Definition: TrackerMap.h:502
int greenHV2
Definition: TmPsu.h:21
static const int npoints
T min(T a, T b)
Definition: MathUtil.h:58
int getPsuRack()
Definition: TmPsu.h:15
int nmodHV2
Definition: TmPsu.h:30
void drawHV2(int rack, int numcrate_inrack, bool print_total, TmPsu *psu, std::ofstream *svgfile, bool usePsuValue)
Definition: TrackerMap.cc:1171
int redHV3
Definition: TmPsu.h:22
PsuModule psuModuleMap
Definition: TrackerMap.h:158
float valueHV2
Definition: TmPsu.h:25
bool printflag
Definition: TrackerMap.h:160
string command
Definition: mps_check.py:26
void drawPalette(std::ofstream *file, int xoffset=3660, int yoffset=1540)
Definition: TrackerMap.cc:2500
std::string title
Definition: TrackerMap.h:170
tuple filetype
Definition: symbols.py:48
tuple filename
Definition: lut2db_cfg.py:20
int countHV3
Definition: TmPsu.h:28
float maxvalue
Definition: TrackerMap.h:500
tuple cout
Definition: gather_cfg.py:145
float valueHV3
Definition: TmPsu.h:24
MapPsu psuMap
Definition: TrackerMap.h:156
int col
Definition: cuy.py:1008
int blueHV2
Definition: TmPsu.h:21
Definition: TmPsu.h:6
std::vector< TColor * > vc
Definition: TrackerMap.h:138
int getPsuCrate()
Definition: TmPsu.h:16
void TrackerMap::save_as_psutrackermap ( bool  print_total = true,
float  minval = 0.,
float  maxval = 0.,
std::string  s = "psu_svgmap.svg",
int  width = 100 +( 360 + 100 )* 5 +300,
int  height = 50 +( 150 + 50 )* 6 +300 
)

Definition at line 1844 of file TrackerMap.cc.

References EnergyCorrector::c, cuy::col, colors, mps_check::command, TmPsu::count, gather_cfg::cout, defpsuwindow(), drawPalette(), drawPsu(), enableLVProcessing, lut2db_cfg::filename, symbols::filetype, newFWLiteAna::found, TmPsu::getPsuCrate(), TmPsu::getPsuRack(), cmsRelvalreport::green(), i, recoMuon::in, cmsLHEtoEOSManager::l, dqm-mbProfile::log, maxvalue, minvalue, TmPsu::nmod, npoints, npsuracks, NUMPSURACK_INCOLUMN, NUMPSURACK_INROW, GenerateHcalLaserBadRunList::out, printflag, psuMap, psuModuleMap, TmPsu::red, cmsRelvalreport::red(), runTheMatrix::ret, alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmPsu::value, relativeConstraints::value, vc, x, XPSUOFFSET, XPSURSIZE, y, YPSUOFFSET, and YPSURSIZE.

Referenced by SiStripTrackerMapCreator::createForOffline(), printall(), and printonline().

1844  {
1845 
1846  if(enableLVProcessing){
1847 
1848  printflag=true;
1849  bool rangefound=true;
1850  std::string filetype=s,outputfilename=s;
1851  std::vector<TPolyLine*> vp;
1852  TGaxis *axis = 0 ;
1853 
1854  size_t found=filetype.find_last_of(".");
1855  filetype=filetype.substr(found+1);
1856  found=outputfilename.find_last_of(".");
1857  outputfilename=outputfilename.substr(0,found);
1858 
1859  temporary_file=true;
1860 
1861 
1862 
1863  if(filetype=="xml"||filetype=="svg")temporary_file=false;
1864 
1865  std::ostringstream outs;
1866  minvalue=minval; maxvalue=maxval;
1867  outs << outputfilename << ".coor";
1868  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1869 
1870  std::map<int , TmPsu *>::iterator ipsu;
1871  std::multimap<TmPsu*, TmModule*>::iterator it;
1872  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
1873 
1874  //Decide if we must use Module or Power Psupply value
1875  bool usePsuValue=false;
1876 
1877  for( ipsu=psuMap.begin();ipsu!=psuMap.end(); ipsu++){
1878  TmPsu* psu= ipsu->second;
1879  if(psu!=0) {
1880  if(psu->count > 0 || psu->red!=-1) { usePsuValue=true; break;}
1881  }
1882  }
1883 
1884  if(!usePsuValue){//store mean of connected modules value{
1885  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1886  TmPsu * psu= ipsu->second;
1887  if(psu!=0) {
1888  ret = psuModuleMap.equal_range(psu);
1889  int nconn=0;
1890  for(it = ret.first; it != ret.second; ++it){
1891  if((*it).second->count>0){nconn++;psu->value=psu->value+(*it).second->value;}
1892 
1893  }
1894  if(nconn>0){ psu->value=psu->value/psu->nmod; psu->count=1;}
1895 
1896  }
1897  }
1898  }
1899 
1900  if(title.find("QTestAlarm")!=std::string::npos){
1901  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1902  TmPsu * psu= ipsu->second;
1903  if(psu!=0) {
1904  ret = psuModuleMap.equal_range(psu);
1905  // psu->red=255;psu->green=255;psu->blue=255;
1906  psu->red=-1;
1907  int nconn=0;
1908  for (it = ret.first; it != ret.second; ++it) {
1909  if( !( (*it).second->red==0 && (*it).second->green==255 && (*it).second->blue==0 ) && !( (*it).second->red==255 && (*it).second->green==255 && (*it).second->blue==255 ) ){
1910  nconn++;psu->value++;
1911  }
1912  }
1913  if(nconn>0){ psu->value=psu->value/psu->nmod; psu->count=1;}
1914  }
1915  }
1916  }
1917 
1918 
1919 
1920  if(!print_total){
1921  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1922  TmPsu * psu= ipsu->second;
1923  if(psu!=0) {
1924  if(usePsuValue) psu->value = psu->value / psu->count;
1925 
1926  }
1927  }
1928  }
1929 
1930  if(minvalue>=maxvalue){
1931 
1932  minvalue=9999999.;
1933  maxvalue=-9999999.;
1934  rangefound=false;
1935  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1936  TmPsu * psu= ipsu->second;
1937  if(psu!=0 && psu->count>0) {
1938  rangefound = true;
1939  if (minvalue > psu->value)minvalue=psu->value;
1940  if (maxvalue < psu->value)maxvalue=psu->value;
1941  }
1942  }
1943  }
1944  if ((maxvalue == minvalue)||!rangefound) printflag = false;
1945 
1946 
1947  if(filetype=="svg"){
1948  saveAsSingleLayer=false;
1949  std::ostringstream outs;
1950  outs << outputfilename<<".svg";
1951  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1952  *savefile << "<?xml version=\"1.0\" standalone=\"no\" ?>"<<std::endl;
1953  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
1954  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
1955  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
1956  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
1957  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl;
1958  *savefile << "<svg:g id=\"psutrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
1959  }
1960 
1961  for (int irack=1; irack < (npsuracks+1); irack++){
1962  if(filetype=="xml"){
1963  saveAsSingleLayer=true;
1964  std::ostringstream outs;
1965  outs << outputfilename<<"psurack" <<irack<< ".xml";
1966  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
1967  *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
1968  *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
1969  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
1970  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
1971  *savefile << "<script type=\"text/ecmascript\" xlink:href=\"rack.js\" />"<<std::endl;
1972  *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 500 500\" width=\"700\" height=\"700\" onload=\"TrackerCrate.init()\">"<<std::endl;
1973  *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
1974  *savefile << "<g id=\"rack\" transform=\" translate(150,500) rotate(270) scale(1.,1.)\" > "<<std::endl;
1975  }
1976 
1977 
1978  // nrack=irack;
1979  defpsuwindow(irack);
1980  for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
1981  TmPsu * psu= ipsu->second;
1982  if(psu->getPsuRack() == irack){
1983 
1984  drawPsu(irack,psu->getPsuCrate(),print_total,psu,savefile,usePsuValue);
1985  }
1986  }
1987 
1988 
1989  if(!temporary_file){
1990  if(filetype=="xml"){
1991  *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
1992  *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
1993  *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
1994  *savefile << " </text> </svg>" << std::endl;
1995  savefile->close();
1996  saveAsSingleLayer=false;
1997  }
1998  }
1999  }
2000  if(filetype=="svg"){
2001  *savefile << "</g> </svg> </svg> " << std::endl;
2002  savefile->close();
2003  }
2004 
2005  //Restore psu value
2006  if(!print_total && !usePsuValue){
2007  for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
2008  TmPsu *psu = ipsu->second;
2009  if(psu!=0) {
2010  psu->value = psu->value * psu->count;
2011  }
2012  }
2013  }
2014 
2015  int rangex=YPSUOFFSET+(YPSURSIZE+YPSUOFFSET)*NUMPSURACK_INROW+300;
2017 
2018 
2019  if(temporary_file){
2020  if(printflag&&!saveWebInterface)drawPalette(savefile,rangex-140,rangey-100);
2021  savefile->close();
2022 
2023  const char * command1;
2024  std::string tempfilename = outputfilename + ".coor";
2025  int red,green,blue,npoints,colindex,ncolor;
2026  double x[4],y[4];
2027  std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
2028  TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
2029  gPad->SetFillColor(38);
2030 
2031  // if(saveWebInterface)gPad->Range(0,0,3700,1600); else gPad->Range(0,0,3800,1600);
2032  std::cout << " range x " << rangex << std::endl;
2033  std::cout << " range y " << rangey << std::endl;
2034  gPad->Range(0,0,rangex,rangey);
2035 
2036  //First build palette
2037  ncolor=0;
2038  typedef std::map<int,int> ColorList;
2039  ColorList colorList;
2040  ColorList::iterator pos;
2041  TColor *col,*c;
2042  while(!tempfile.eof()) {
2043  tempfile >> red >> green >> blue >> npoints;
2044  colindex=red+green*1000+blue*1000000;
2045  pos=colorList.find(colindex);
2046  if(pos == colorList.end()){
2047  colorList[colindex]=ncolor+100;
2048  col =gROOT->GetColor(ncolor+100);
2049  if(col)
2050  col->SetRGB((Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
2051  else
2052  c = new TColor(ncolor+100,(Double_t)(red/255.),(Double_t)(green/255.),(Double_t)(blue/255.));
2053  vc.push_back(c);
2054  ncolor++;
2055  }
2056  for (int i=0;i<npoints;i++){
2057  tempfile >> x[i] >> y[i];
2058  }
2059  }
2060  if(ncolor>0 && ncolor<10000){
2061  Int_t colors[10000];
2062  for(int i=0;i<ncolor;i++){colors[i]=i+100;}
2063  gStyle->SetPalette(ncolor,colors);
2064  }
2065  tempfile.clear();
2066  tempfile.seekg(0,std::ios::beg);
2067  std::cout << "created palette with " << ncolor << " colors" << std::endl;
2068  while(!tempfile.eof()) {//create polylines
2069  tempfile >> red >> green >> blue >> npoints;
2070  for (int i=0;i<npoints;i++){
2071  tempfile >> x[i] >> y[i];
2072  }
2073  colindex=red+green*1000+blue*1000000;
2074  pos=colorList.find(colindex);
2075  if(pos != colorList.end()){
2076  TPolyLine* pline = new TPolyLine(npoints,y,x);
2077  vp.push_back(pline);
2078  pline->SetFillColor(colorList[colindex]);
2079  pline->SetLineWidth(0);
2080  pline->Draw("f");
2081  }
2082  }
2083  if (printflag&&!saveWebInterface) {
2084  float lminvalue=minvalue; float lmaxvalue=maxvalue;
2085  if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
2086  axis = new TGaxis(rangex-140,34,rangex-140,rangey-106,lminvalue,lmaxvalue,510,"+L");
2087  axis->SetLabelSize(0.02);
2088  axis->Draw();
2089  }
2090 
2091  if(!saveWebInterface){
2092  TLatex l;
2093  l.SetTextSize(0.05);
2094  std::string fulltitle = title;
2095  if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
2096  l.DrawLatex(50,rangey-200,fulltitle.c_str());
2097  }
2098  MyC->Update();
2099  std::cout << "Filetype " << filetype << std::endl;
2100  if(filetype=="png"){
2101  std::string filename = outputfilename + ".png";
2102  MyC->Print(filename.c_str());
2103  }
2104  if(filetype=="jpg"){
2105  std::string filename = outputfilename + ".jpg";
2106  MyC->Print(filename.c_str());
2107  }
2108  if(filetype=="pdf"){
2109  std::string filename = outputfilename + ".pdf";
2110  MyC->Print(filename.c_str());
2111  }
2112  std::string command = "rm "+tempfilename ;
2113  command1=command.c_str();
2114  std::cout << "Executing " << command1 << std::endl;
2115  system(command1);
2116  MyC->Clear();
2117  delete MyC;
2118  if (printflag&&!saveWebInterface)delete axis;
2119  for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
2120  delete (*pos1);}
2121 
2122 }//if(temporary_file)
2123 }//if(enabledFedProcessing)
2124 }
bool tkMapLog
Definition: TrackerMap.h:167
int i
Definition: DBlmapReader.cc:9
tuple ret
prodAgent to be discontinued
float minvalue
Definition: TrackerMap.h:500
#define NUMPSURACK_INCOLUMN
Definition: TrackerMap.h:43
std::ofstream * savefile
Definition: TrackerMap.h:495
int count
Definition: TmPsu.h:26
#define XPSURSIZE
Definition: TrackerMap.h:45
void defpsuwindow(int num_rack)
Definition: TrackerMap.h:317
bool saveWebInterface
Definition: TrackerMap.h:161
int npsuracks
Definition: TrackerMap.h:489
float value
Definition: TmPsu.h:23
int red
Definition: TmPsu.h:20
vector< Color_t > colors
int nmod
Definition: TmPsu.h:29
bool saveAsSingleLayer
Definition: TrackerMap.h:507
bool temporary_file
Definition: TrackerMap.h:502
static const int npoints
int getPsuRack()
Definition: TmPsu.h:15
PsuModule psuModuleMap
Definition: TrackerMap.h:158
#define YPSUOFFSET
Definition: TrackerMap.h:48
bool printflag
Definition: TrackerMap.h:160
string command
Definition: mps_check.py:26
void drawPalette(std::ofstream *file, int xoffset=3660, int yoffset=1540)
Definition: TrackerMap.cc:2500
#define YPSURSIZE
Definition: TrackerMap.h:46
std::string title
Definition: TrackerMap.h:170
tuple filetype
Definition: symbols.py:48
tuple filename
Definition: lut2db_cfg.py:20
float maxvalue
Definition: TrackerMap.h:500
tuple cout
Definition: gather_cfg.py:145
bool enableLVProcessing
Definition: TrackerMap.h:165
#define NUMPSURACK_INROW
Definition: TrackerMap.h:44
MapPsu psuMap
Definition: TrackerMap.h:156
int col
Definition: cuy.py:1008
Definition: TmPsu.h:6
#define XPSUOFFSET
Definition: TrackerMap.h:47
std::vector< TColor * > vc
Definition: TrackerMap.h:138
void drawPsu(int rack, int numcrate_inrack, bool print_total, TmPsu *psu, std::ofstream *svgfile, bool usePsuValue)
Definition: TrackerMap.cc:1094
int getPsuCrate()
Definition: TmPsu.h:16
void TrackerMap::setPalette ( int  numpalette)
inline
void TrackerMap::setRange ( float  min,
float  max 
)

Definition at line 671 of file TrackerMap.cc.

References gmaxvalue, gminvalue, bookConverter::max, min(), funct::pow(), and tkMapLog.

Referenced by SiStripTrackerMapCreator::setTkMapRange().

672 if(tkMapLog) {gminvalue=pow(10.,min);gmaxvalue=pow(10.,max);}
673 }
bool tkMapLog
Definition: TrackerMap.h:167
float gminvalue
Definition: TrackerMap.h:499
T min(T a, T b)
Definition: MathUtil.h:58
float gmaxvalue
Definition: TrackerMap.h:499
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
void TrackerMap::setText ( int  idmod,
std::string  s 
)

Definition at line 2788 of file TrackerMap.cc.

References gather_cfg::cout, customiseL1CustomReco::idmod, imoduleMap, mod(), alignCSCRings::s, and TmModule::text.

Referenced by SiStripTrackerMapCreator::paintTkMapFromAlarm(), and Vispa.Gui.PortWidget.PortWidget::setDescription().

2788  {
2789 
2791  if(mod!=0){
2792  mod->text=s;
2793  }
2794  else std::cout << "**************************error in IdModuleMap **************";
2795 }
ImoduleMap imoduleMap
Definition: TrackerMap.h:143
std::string text
Definition: TmModule.h:14
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::setText ( int  layer,
int  ring,
int  nmod,
std::string  s 
)

Definition at line 2798 of file TrackerMap.cc.

References gather_cfg::cout, relval_steps::key, mod(), alignCSCRings::s, smoduleMap, and TmModule::text.

Referenced by Vispa.Gui.PortWidget.PortWidget::setDescription().

2798  {
2799 
2800  int key = layer*100000+ring*1000+nmod;
2801  TmModule * mod = smoduleMap[key];
2802  if(mod!=0){
2803  mod->text=s;
2804  }
2805  else std::cout << "**************************error in SvgModuleMap **************";
2806 }
SmoduleMap smoduleMap
Definition: TrackerMap.h:141
std::string text
Definition: TmModule.h:14
string key
FastSim: produces sample of signal events, overlayed with premixed minbias events.
tuple cout
Definition: gather_cfg.py:145
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void TrackerMap::setTitle ( std::string  s)
inline
void TrackerMap::showPalette ( bool  printflag1)
inline

Definition at line 126 of file TrackerMap.h.

References printflag.

Referenced by BuildTrackerMapPlugin::endJob(), and SiStripBaseCondObjDQM::saveTkMap().

126 {printflag=printflag1;};
bool printflag
Definition: TrackerMap.h:160
double TrackerMap::xdpixel ( double  x)
inline

Definition at line 236 of file TrackerMap.h.

References ix, saveAsSingleLayer, xmax, xmin, and xsize.

Referenced by drawModule().

236  {
237  double res;
238  if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*xsize);
239  else res= ((x-xmin)/(xmax-xmin)*xsize)+ix;
240  return res;
241  }
double xmin
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double xmax
Definition: TrackerMap.h:490
double TrackerMap::xdpixelc ( double  x)
inline

Definition at line 256 of file TrackerMap.h.

References ix, saveAsSingleLayer, XFEDCSIZE, xmax, and xmin.

Referenced by drawApvPair().

256  {
257  double res;
258  if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*XFEDCSIZE);
259  else res= ((x-xmin)/(xmax-xmin)*XFEDCSIZE)+ix;
260  return res;
261  }
double xmin
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
#define XFEDCSIZE
Definition: TrackerMap.h:60
double xmax
Definition: TrackerMap.h:490
double TrackerMap::xdpixelfec ( double  x)
inline

Definition at line 270 of file TrackerMap.h.

References ix, saveAsSingleLayer, xmax, xmin, and xsize.

Referenced by drawCcu().

270  {
271  double res;
272  if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*xsize);
273  else res= ((x-xmin)/(xmax-xmin)*xsize)+ix;
274  return res;
275  }
double xmin
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double xmax
Definition: TrackerMap.h:490
double TrackerMap::xdpixelpsu ( double  x)
inline

Definition at line 284 of file TrackerMap.h.

References ix, saveAsSingleLayer, xmax, xmin, and XPSURSIZE.

Referenced by drawHV2(), drawHV3(), and drawPsu().

284  {
285  double res;
286  if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*XPSURSIZE);
287  else res= ((x-xmin)/(xmax-xmin)*XPSURSIZE)+ix;
288  return res;
289  }
double xmin
Definition: TrackerMap.h:490
#define XPSURSIZE
Definition: TrackerMap.h:45
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double xmax
Definition: TrackerMap.h:490
double TrackerMap::ydpixel ( double  y)
inline

Definition at line 242 of file TrackerMap.h.

References iy, nlay, saveAsSingleLayer, xsize, ymax, ymin, and ysize.

Referenced by drawModule().

242  {
243  double res=0;
244  double y1;
245  y1 = (y-ymin)/(ymax-ymin);
246  if(nlay>30)
247  {
248  if(nlay <34) res= 2*ysize - (y1*2*ysize);
249  if(nlay==34) res= 2.4*ysize - (y1*2.4*ysize);
250  if(nlay>34) res= 2.5*ysize - (y1*2.5*ysize);
251  }
252  else res= xsize - (y1*xsize);
253  if(!saveAsSingleLayer) res=res+iy;
254  return res;
255  }
double ymax
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double ymin
Definition: TrackerMap.h:490
double TrackerMap::ydpixelc ( double  y)
inline

Definition at line 262 of file TrackerMap.h.

References iy, saveAsSingleLayer, YFEDCSIZE, ymax, and ymin.

Referenced by drawApvPair().

262  {
263  double res;
264  double y1;
265  y1 = (y-ymin)/(ymax-ymin);
266  if(saveAsSingleLayer)res= YFEDCSIZE - (y1*YFEDCSIZE);
267  else res= YFEDCSIZE - (y1*YFEDCSIZE)+iy;
268  return res;
269  }
#define YFEDCSIZE
Definition: TrackerMap.h:61
double ymax
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double ymin
Definition: TrackerMap.h:490
double TrackerMap::ydpixelfec ( double  y)
inline

Definition at line 276 of file TrackerMap.h.

References iy, saveAsSingleLayer, ymax, ymin, and ysize.

Referenced by drawCcu().

276  {
277  double res;
278  double y1;
279  y1 = (y-ymin)/(ymax-ymin);
280  if(saveAsSingleLayer)res= 2*ysize - (y1*2*ysize);
281  else res= 2*ysize - (y1*2*ysize)+iy;
282  return res;
283  }
double ymax
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double ymin
Definition: TrackerMap.h:490
double TrackerMap::ydpixelpsu ( double  y)
inline

Definition at line 290 of file TrackerMap.h.

References iy, saveAsSingleLayer, ymax, ymin, and YPSURSIZE.

Referenced by drawHV2(), drawHV3(), and drawPsu().

290  {
291  double res;
292  double y1;
293  y1 = (y-ymin)/(ymax-ymin);
294  if(saveAsSingleLayer)res=YPSURSIZE - (y1*YPSURSIZE);
295  else res= YPSURSIZE - (y1*YPSURSIZE)+iy;
296  return res;
297  }
double ymax
Definition: TrackerMap.h:490
bool saveAsSingleLayer
Definition: TrackerMap.h:507
double ymin
Definition: TrackerMap.h:490
#define YPSURSIZE
Definition: TrackerMap.h:46

Member Data Documentation

bool TrackerMap::addPixelFlag
private

Definition at line 508 of file TrackerMap.h.

Referenced by addPixel(), init(), and save().

SvgApvPair TrackerMap::apvMap
ModApvPair TrackerMap::apvModuleMap

Definition at line 147 of file TrackerMap.h.

Referenced by fill_fed_channel(), printall(), printonline(), and TrackerMap().

std::ifstream* TrackerMap::ccufile
protected

Definition at line 498 of file TrackerMap.h.

MapCcu TrackerMap::ccuMap
bool TrackerMap::enableFecProcessing

Definition at line 164 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fectrackermap(), and TrackerMap().

bool TrackerMap::enableFedProcessing

Definition at line 163 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fedtrackermap(), and TrackerMap().

bool TrackerMap::enableHVProcessing

Definition at line 166 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_HVtrackermap(), and TrackerMap().

bool TrackerMap::enableLVProcessing

Definition at line 165 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_psutrackermap(), and TrackerMap().

FecModule TrackerMap::fecModuleMap

Definition at line 154 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fectrackermap(), and TrackerMap().

SvgFed TrackerMap::fedMap

Definition at line 149 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fedtrackermap(), and TrackerMap().

bool TrackerMap::firstcall
protected

Definition at line 493 of file TrackerMap.h.

Referenced by init().

int TrackerMap::firstcrate
protected

Definition at line 487 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fedtrackermap(), and TrackerMap().

int TrackerMap::firstRing[43]
float TrackerMap::gmaxvalue
protected

Definition at line 499 of file TrackerMap.h.

Referenced by init(), printonline(), and setRange().

float TrackerMap::gminvalue
protected

Definition at line 499 of file TrackerMap.h.

Referenced by init(), printonline(), and setRange().

ImoduleMap TrackerMap::imoduleMap
std::string TrackerMap::infilename

Definition at line 171 of file TrackerMap.h.

Referenced by build(), and TrackerMap().

std::ifstream* TrackerMap::inputfile
protected

Definition at line 497 of file TrackerMap.h.

Referenced by load().

int TrackerMap::ix
protected
int TrackerMap::iy
protected
std::ifstream* TrackerMap::jsfile
protected

Definition at line 496 of file TrackerMap.h.

Referenced by print().

std::string TrackerMap::jsfilename

Definition at line 171 of file TrackerMap.h.

Referenced by print(), and TrackerMap().

std::string TrackerMap::jsPath

Definition at line 172 of file TrackerMap.h.

Referenced by findfile(), and TrackerMap().

float TrackerMap::maxvalue
protected
float TrackerMap::minvalue
protected
int TrackerMap::ncrates
protected

Definition at line 486 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fedtrackermap(), and TrackerMap().

int TrackerMap::ndet

Definition at line 168 of file TrackerMap.h.

Referenced by init().

int TrackerMap::nfeccrates
protected

Definition at line 488 of file TrackerMap.h.

Referenced by printall(), printonline(), save_as_fectrackermap(), and TrackerMap().

int TrackerMap::nlay
protected

Definition at line 483 of file TrackerMap.h.

Referenced by drawModule(), and ydpixel().

int TrackerMap::npart

Definition at line 169 of file TrackerMap.h.

Referenced by init().

int TrackerMap::npsuracks
protected
int TrackerMap::ntotRing[43]
int TrackerMap::number_modules
protected

Definition at line 501 of file TrackerMap.h.

Referenced by build().

float TrackerMap::oldz
private

Definition at line 506 of file TrackerMap.h.

bool TrackerMap::onlyPixelFlag
private

Definition at line 509 of file TrackerMap.h.

Referenced by init(), onlyPixel(), and save().

int TrackerMap::palette
bool TrackerMap::posrel
protected

Definition at line 492 of file TrackerMap.h.

Referenced by defwindow(), drawModule(), and init().

bool TrackerMap::printflag
bool TrackerMap::psetAvailable

Definition at line 173 of file TrackerMap.h.

Referenced by TrackerMap().

MapPsu TrackerMap::psuMap
PsuModule TrackerMap::psuModuleMap
bool TrackerMap::saveAsSingleLayer
private
std::ofstream* TrackerMap::savefile
protected
bool TrackerMap::saveGeoTrackerMap

Definition at line 162 of file TrackerMap.h.

Referenced by printall(), save(), and TrackerMap().

bool TrackerMap::saveWebInterface
SvgFed TrackerMap::slotMap

Definition at line 150 of file TrackerMap.h.

Referenced by save_as_fedtrackermap(), and TrackerMap().

SmoduleMap TrackerMap::smoduleMap
std::ofstream* TrackerMap::svgfile
protected

Definition at line 494 of file TrackerMap.h.

Referenced by print().

bool TrackerMap::temporary_file
protected
std::string TrackerMap::title
bool TrackerMap::tkMapLog
std::vector<TColor*> TrackerMap::vc
double TrackerMap::xmax
protected
double TrackerMap::xmin
protected
int TrackerMap::xsize
protected
double TrackerMap::ymax
protected
double TrackerMap::ymin
protected
int TrackerMap::ysize
protected