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.

                                                        {
 psetAvailable=false;
  xsize=xsize1;ysize=ysize1;
  title=s;
  jsfilename="CommonTools/TrackerMap/data/trackermap.txt";
  infilename="CommonTools/TrackerMap/data/tracker.dat";
  saveWebInterface=false;
  saveGeoTrackerMap=true;
  tkMapLog=false;
  jsPath="CommonTools/TrackerMap/data/";
  enableFedProcessing=false; 
  enableFecProcessing=false; 
  enableLVProcessing=false; 
  enableHVProcessing=false; 
  saveAsSingleLayer=false;
 init();

}

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.

                                                        {
 psetAvailable=true;
  xsize=340;ysize=200;
  title=" ";
  jsfilename="CommonTools/TrackerMap/data/trackermap.txt";
  infilename="CommonTools/TrackerMap/data/tracker.dat";
  enableFedProcessing=true;ncrates=0;firstcrate=0;
  saveAsSingleLayer=false;
  tkMapLog = tkmapPset.getUntrackedParameter<bool>("logScale",false);
  saveWebInterface=tkmapPset.getUntrackedParameter<bool>("saveWebInterface",false);
  saveGeoTrackerMap=tkmapPset.getUntrackedParameter<bool>("saveGeoTrackerMap",true);
  //  if(tkmapPset.exists("trackermaptxtPath")){
  jsfilename=tkmapPset.getUntrackedParameter<std::string>("trackermaptxtPath","CommonTools/TrackerMap/data/")+"trackermap.txt";
  std::cout << jsfilename << std::endl;
  infilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","CommonTools/TrackerMap/data/")+"tracker.dat";
  std::cout << infilename << std::endl;
  //  } else std::cout << "no parameters found" << std::endl;
 init();
}

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, firstcrate, 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, imoduleMap, recoMuon::in, infilename, init(), sistrip::invalid32_, sistrip::invalid_, jsfilename, jsPath, crabWrapper::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, 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.

                                                                                                                             {

 psetAvailable=true;
  xsize=340;ysize=200;

  title=" ";
  jsPath="";
  jsfilename="CommonTools/TrackerMap/data/trackermap.txt";
  infilename="CommonTools/TrackerMap/data/tracker.dat";
  saveAsSingleLayer=false;
  tkMapLog = false;
  //  if(tkmapPset.exists("trackermaptxtPath")){
  jsPath=tkmapPset.getUntrackedParameter<std::string>("trackermaptxtPath","CommonTools/TrackerMap/data/");
  jsfilename=jsPath+"trackermap.txt";
  std::cout << jsfilename << std::endl;
  infilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","CommonTools/TrackerMap/data/")+"tracker.dat";
  std::cout << infilename << std::endl;
  saveWebInterface=tkmapPset.getUntrackedParameter<bool>("saveWebInterface",false);
  saveGeoTrackerMap=tkmapPset.getUntrackedParameter<bool>("saveGeoTrackerMap",true);
  ncrates=0;
  firstcrate=0;
  enableFedProcessing=tkmapPset.getUntrackedParameter<bool>("loadFedCabling",false);
  if(tkFed==0 && enableFedProcessing){enableFedProcessing=false;std::cout << "ERROR:fed trackermap requested but no valid fedCabling is available!!!"<<std::endl;}
  nfeccrates=0;
  enableFecProcessing=tkmapPset.getUntrackedParameter<bool>("loadFecCabling",false);
  if(tkFed==0 && enableFecProcessing){enableFecProcessing=false;std::cout << "ERROR:fec trackermap requested but no valid fedCabling is available!!!"<<std::endl;} 
 // std::cout << "loadFecCabling " << enableFecProcessing << std::endl;
  npsuracks=0;
  enableLVProcessing=tkmapPset.getUntrackedParameter<bool>("loadLVCabling",false);
 // std::cout << "loadLVCabling " << enableLVProcessing << std::endl;
  enableHVProcessing=tkmapPset.getUntrackedParameter<bool>("loadHVCabling",false);
 // std::cout << "loadHVCabling " << enableHVProcessing << std::endl;
  tkMapLog = tkmapPset.getUntrackedParameter<bool>("logScale",false);
  //  } else std::cout << "no parameters found" << std::endl;

 init();
// Now load fed cabling information
 if(enableFedProcessing){
  auto feds = tkFed->fedIds();
  std::cout<<"SiStripFedCabling has "<< feds.size()<<" active FEDS"<<std::endl;
  //    int num_board=0;
    //    int num_crate=0;
  for(std::vector<unsigned short>::const_iterator ifed = feds.begin();ifed<feds.end();ifed++){
    auto theconn = tkFed->fedConnections( *ifed );
    int num_conn=0;
    for(auto iconn = theconn.begin();iconn<theconn.end();iconn++){

      if( iconn->fedId()== sistrip::invalid_    ||  
      iconn->detId() == sistrip::invalid_   ||  
      iconn->detId() == sistrip::invalid32_ ||  
      iconn->apvPairNumber() == sistrip::invalid_  ||
      iconn->nApvPairs() == sistrip::invalid_ ) {
    continue;
      }
    
      TmModule *imod = imoduleMap[iconn->detId()];
      int key = iconn->fedId()*1000+iconn->fedCh();
      TmApvPair* apvpair = apvMap[key];
      if(apvpair!=0)std::cout << "Fed "<< iconn->fedId() << " channel " << iconn->fedCh() << " seem to be already loaded!"<<std::endl;
      else
    {
      num_conn++;
      if(num_conn==1){
        //      if(fedMap[iconn->fedId()]==0){num_crate=num_board/18+1;fedMap[iconn->fedId()]=num_crate;num_board++;}
        if(fedMap[iconn->fedId()]==0){fedMap[iconn->fedId()]=iconn->fedCrate();}
        if(slotMap[iconn->fedId()]==0){slotMap[iconn->fedId()]=iconn->fedSlot();}
        if(ncrates==0 || ncrates < iconn->fedCrate()) ncrates = iconn->fedCrate();
        if(firstcrate==0 || firstcrate > iconn->fedCrate()) firstcrate = iconn->fedCrate();
          }

      //      apvpair = new TmApvPair(key,num_crate);
      apvpair = new TmApvPair(key,iconn->fedCrate());
      apvpair->mod=imod;
          apvpair->mpos=iconn->apvPairNumber();
      apvMap[key] = apvpair;    
          apvModuleMap.insert(std::make_pair(iconn->detId(),apvpair));
      std::stringstream s;
          iconn->print(s);  
          apvpair->text=s.str();
    }
    }
  }
  //  ncrates=num_crate;
  std::cout << "from " << firstcrate << " to " << ncrates << " crates used "<< std::endl;
//Now add APv information to module name
    std::map<int , TmModule *>::iterator i_mod;
    for( i_mod=imoduleMap.begin();i_mod !=imoduleMap.end(); i_mod++){
      TmModule *  mod= i_mod->second;
      if(mod!=0) {
    std::ostringstream outs,outs1;
       outs << " connected to ";
       outs1 << "(";

      int idmod=mod->idex;
       int nchan=0;
       std::multimap<const int, TmApvPair*>::iterator pos;
       for (pos = apvModuleMap.lower_bound(idmod);
         pos != apvModuleMap.upper_bound(idmod); ++pos) {
       TmApvPair* apvpair = pos->second;
       if(apvpair!=0){
       outs << apvpair->mpos << " " <<apvpair->getFedId() << "/"<<apvpair->getFedCh()<<" ";
       outs1 << apvpair->idex+apvpair->crate*1000000<<",";
      nchan++;
    }

  }
       outs<< "("<<nchan<<")";
      mod->name=mod->name + outs.str(); 
      std::string s = outs1.str(); s.erase(s.end()-1,s.end());
      mod->capvids=s+")";
  }
  }
}
// Now load fec cabling information
 if(enableFecProcessing){
   int nfec=0; int nccu; int nmod;
   int crate,slot,ring,addr,pos;
   SiStripFecCabling* fecCabling_;
   fecCabling_ = new SiStripFecCabling( *tkFed );
   std::string Ccufilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","")+"cculist.txt";
   std::ifstream Ccufile(edm::FileInPath(Ccufilename).fullPath().c_str(),std::ios::in);
   std::string dummys;
   while(!Ccufile.eof()) {
     Ccufile >> crate >> slot >> ring >> addr >> pos;
     getline(Ccufile,dummys);
     int key =crate*10000000+slot*100000+ring*1000+addr;
     TmCcu * ccu = ccuMap[key];
     if(ccu==0){
       ccu = new TmCcu(crate,slot,ring,addr);
       ccu->mpos=pos,
         ccuMap[key]=ccu;
     }
   }

   for ( std::vector<SiStripFecCrate>::const_iterator icrate = fecCabling_->crates().begin(); icrate != fecCabling_->crates().end(); icrate++ ) {
     for ( std::vector<SiStripFec>::const_iterator ifec = icrate->fecs().begin(); ifec != icrate->fecs().end(); ifec++ ) {
       for ( std::vector<SiStripRing>::const_iterator iring = ifec->rings().begin(); iring != ifec->rings().end(); iring++ ) {
         nccu=0;nfec++;
         for ( std::vector<SiStripCcu>::const_iterator iccu = iring->ccus().begin(); iccu != iring->ccus().end(); iccu++ ) {
           nccu++; nmod=0;
           int key = icrate->fecCrate()*10000000+ifec->fecSlot()*100000+iring->fecRing()*1000+iccu->ccuAddr();
           int layer=0;
           TmCcu * ccu = ccuMap[key];
           for ( std::vector<SiStripModule>::const_iterator imod = iccu->modules().begin(); imod != iccu->modules().end(); imod++ ) {
             nmod++;
             TmModule *imod1 = imoduleMap[imod->detId()];
             layer=imod1->layer;
             fecModuleMap.insert(std::make_pair(ccu,imod1));
             if(imod1!=0)imod1->CcuId=key;//imod1->ccuId=key+Crate*1000000
           }
           if(ccu==0)std::cout <<key<< " This ccu seems to have not been stored! " << std::endl; else{ ccu->nmod=nmod;ccu->layer=layer;}
           //std::cout <<nfec<<" "<< nccu << " " << nmod << std::endl;

         }
       }
     }
   }

   std::map<int , TmCcu *>::iterator i_ccu;
   std::multimap<TmCcu*, TmModule*>::iterator it;
   std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
   nccu=0;
   for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
     TmCcu *  ccu= i_ccu->second;
     nccu++;
     if(ccu!=0){
       std::ostringstream outs;
       std::ostringstream outs1;
       outs << "CCU "<<ccu->idex <<" connected to fec,ring " << ccu->getCcuSlot() <<","<<ccu->getCcuRing()<< " in crate " <<ccu->getCcuCrate()<<" at position "<< ccu->mpos << " with  " << ccu->nmod << " modules: ";
        outs1<<"(";
        ret = fecModuleMap.equal_range(ccu);
        for (it = ret.first; it != ret.second; ++it)
          {
            outs << (*it).second->idex << " ";
            outs1 << (*it).second->getKey() <<",";
          }
        outs1 << ")";
        ccu->text=outs.str();
        ccu->cmodid=outs1.str();
        //std::cout << ccu->text << std::endl;
     }

   }
   nfeccrates=4;
   std::cout << nccu << " ccu stored in " <<nfeccrates<< " crates"<< std::endl;

   delete fecCabling_ ;

 }
//load Psu cabling info
 //load Psu cabling info 
 if(enableLVProcessing || enableHVProcessing){

   SiStripDetCabling* detCabling = 0;
   if(enableFedProcessing) detCabling = new SiStripDetCabling( *tkFed,topology );


   int npsu=0; int nmod,nmodHV2,nmodHV3;
   int modId1, dcuId; // ,modId2;
   int dcs,branch,crate,board;
   int rack=0;
   std::string channelstr1;
   short int channel;
   std::string psinfo;
   std::string psIdinfo;
   int rack_order[54]={0,1,0,2,0,3,0,
                         4,0,5,6,0,7,
                         8,0,9,10,0,11,
                         12,0,13,14,0,15,
                         0,0,0,0,0,0,
                         16,0,17,18,0,19,
                         20,0,21,0,22,0,
                         23,0,24,25,0,26,
                         27,0,28,0,29};
 //  std::ifstream *LVfile;
 //  std::ifstream *HVfile;
   
  
 
  std::string LVfilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","CommonTools/TrackerMap/data/")+"psdcumap.dat";
  //std::string HVfilename=tkmapPset.getUntrackedParameter<std::string>("trackerdatPath","")+"hvmap.dat";
  
  std::ifstream LVfile(edm::FileInPath(LVfilename).fullPath().c_str(),std::ios::in);
  
  std::cout<<LVfilename<<std::endl;
  
 /* 
   if(enableHVProcessing){
        std::ifstream HVfile(edm::FileInPath(HVfilename).fullPath().c_str(),std::ios::in);
        while(!HVfile.eof()) {
        HVfile >> modId2 >> channelstr1;
        std::string channelstr2 = channelstr1.substr(9,1);
            channel= atoi(channelstr2.c_str());
        TmModule *imod = imoduleMap[modId2];
       // if(modId1==modId2){
            imod->HVchannel=channel;      
           
          } 
            
        }
*/
    
  
   while(!LVfile.eof()) {
      LVfile >> modId1  >> dcuId >> psIdinfo >> psinfo;
      
      if(detCabling && detCabling->getConnections(modId1).size()==0) continue;

      //      int length=psinfo.length();
      std::string dcsinfo = psinfo.substr(39,1);
      std::string branchinfo = psinfo.substr(57,2);
      std::string crateinfo= psinfo.substr(69,1);
      std::string boardinfo = psinfo.substr(80,2);
      std::string channelinfo = psinfo.substr(90,3);
    
      dcs= atoi(dcsinfo.c_str());
      branch= atoi(branchinfo.c_str());
      crate= atoi(crateinfo.c_str())+1;
      board= atoi(boardinfo.c_str())+1;
      rack = (branch+1)+(dcs-1)*6; 
      rack = rack_order[rack]; 
      channel = atoi(channelinfo.c_str());
      //      std::cout << dcs << " " << branch<< " " <<crate<< " " << board<<" " << rack << std::endl;
      int key = rack*1000+crate*100+board;
      
      TmPsu *psu = psuMap[key];
      TmModule *imod = imoduleMap[modId1];
      if(psu==0){
        psu = new TmPsu(dcs,branch,rack,crate,board);
        psuMap[key]=psu;
        psu->psId=psIdinfo;
      }
   
      psuModuleMap.insert(std::make_pair(psu,imod));
      if(imod!=0){imod->PsuId=psIdinfo;imod->psuIdex=psu->idex;imod->HVchannel=channel;}
       
   }
      
   
 //  int nmax=0; 
   std::map<int , TmPsu *>::iterator ipsu;
   std::multimap<TmPsu*, TmModule*>::iterator it;
   std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
   npsu=0;
  
   for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
     TmPsu *  psu= ipsu->second;
     npsu++;
    
    if(psu!=0){
    
      std::ostringstream outs;
      std::ostringstream outs1;
    
      std::ostringstream outs3;
      std::ostringstream outs4;
    
      std::ostringstream outs5;
      std::ostringstream outs6;
    
    outs <<"PSU "<<psu->psId<<" connected to Mainframe "<<psu->getPsuDcs()<<" BranchController "<<psu->getPsuBranch()<<" (Rack "<<psu->getPsuRack()<<"), crate "<<psu->getPsuCrate()<<" in position "<< psu->getPsuBoard()<< " with modules: ";
        outs1<<"(";
    
    if(enableHVProcessing){
      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: ";
          outs4<<"(";
    
      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: ";
          outs6<<"(";}
    
    
    ret = psuModuleMap.equal_range(psu);
        nmod=0;
    nmodHV2=0;
    nmodHV3=0;
    for (it = ret.first; it != ret.second; ++it)
      {
        nmod++; 
        outs << (*it).second->idex << ", ";
        outs1 << (*it).second->getKey() <<",";
    
        if(enableHVProcessing){
          if((*it).second->HVchannel==2){
          nmodHV2++;
          outs3 << (*it).second->idex << ", ";
          outs4 << (*it).second->getKey() <<",";}
          else if((*it).second->HVchannel==3){
          nmodHV3++;
          outs5 << (*it).second->idex << ", ";
          outs6 << (*it).second->getKey() <<",";}
    
          }
      }

    outs1 << ")";
    psu->nmod=nmod;
    outs << "(" << psu->nmod << ")";
    psu->text=outs.str();
        psu->cmodid_LV=outs1.str();
        if(enableHVProcessing){
        outs4 << ")";
    outs6 << ")";
    psu->nmodHV2=nmodHV2;
    psu->nmodHV3=nmodHV3;
    outs3 << "(" << psu->nmodHV2 << ")";
    outs5 << "(" << psu->nmodHV3 << ")";
    psu->textHV2=outs3.str();
    psu->textHV3=outs5.str();
    psu->cmodid_HV2=outs4.str();
        psu->cmodid_HV3=outs6.str();
        }
    }
   }
  
  
   npsuracks=29;
   std::cout << npsu << " psu stored in " <<npsuracks<<" racks"<<std::endl;
  }
}

TrackerMap::~TrackerMap

(

)

default destructor

Definition at line 490 of file TrackerMap.cc.

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

                        {
 
for (int layer=1; layer < 44; layer++){
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
        if(mod !=0 ) delete mod;
      }
    }
  }

//std::map<int , TmModule *>::iterator i_mod;
//   for( i_mod=imoduleMap.begin();i_mod !=imoduleMap.end(); i_mod++){
//      TmModule *  mod= i_mod->second;
//      delete mod;
//      }
std::map<int , TmApvPair *>::iterator i_apv;
  for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
      TmApvPair *  apvPair= i_apv->second;
      delete apvPair;
      }


std::map<int , TmCcu *>::iterator i_ccu;
   for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
     TmCcu *  ccu= i_ccu->second;
     delete ccu;
     }

std::map<int , TmPsu *>::iterator ipsu;
    for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
     TmPsu *  psu= ipsu->second;
     delete psu;
     }

gROOT->Reset();


//for(std::vector<TColor*>::iterator col1=vc.begin();col1!=vc.end();col1++){
//     std::cout<<(*col1)<<std::endl;}
}

Member Function Documentation

void TrackerMap::addPixel ( bool  addPixelfl )

inline

Definition at line 130 of file TrackerMap.h.

References addPixelFlag.

Referenced by DetIdSelectorTest::DetIdSelectorTest().

{addPixelFlag=addPixelfl;};

void TrackerMap::build

(

)

Definition at line 2809 of file TrackerMap.cc.

References TmModule::count, gather_cfg::cout, TmModule::idex, imoduleMap, recoMuon::in, infilename, crabWrapper::key, TmModule::length, mod(), TmModule::name, dataset::name, number_modules, TmModule::posx, TmModule::posy, TmModule::posz, relativeConstraints::ring, TmModule::setUsed(), smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, TmModule::thickness, TmModule::value, TmModule::width, ApeEstimator_cff::width, and TmModule::widthAtHalfLength.

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

                      {
  //  std::ifstream* infile;

  int nmods, pix_sil, fow_bar, ring, nmod, layer;
  unsigned int idex;
  float posx, posy, posz, length, width, thickness, widthAtHalfLength;
  int iModule=0,old_layer=0, ntotMod =0;
  std::string name,dummys;
  std::ifstream infile(edm::FileInPath(infilename).fullPath().c_str(),std::ios::in);
  while(!infile.eof()) {
    infile >> nmods >> pix_sil >> fow_bar >> layer >> ring >> nmod >> posx >> posy
       >> posz>> length >> width >> thickness
       >> widthAtHalfLength >> idex ;
    getline(infile,dummys); //necessary to reach end of record
    getline(infile,name); 
    if(old_layer!=layer){old_layer=layer;iModule=0;}
    iModule++;
    ntotMod++;
    int key=layer*100000+ring*1000+nmod;
    TmModule * mod = smoduleMap[key];
    
    imoduleMap[idex]=mod;

    if(mod==0) std::cout << "error in module "<<key <<std::endl;
    else
      {
          mod->posx = posx;
          mod->posy = posy;
          mod->setUsed();
          mod->value=0;
          mod->count=0;
          mod->posz = posz;
          mod->length = length;
          mod->width = width;
          mod->thickness = thickness;
          mod->widthAtHalfLength = widthAtHalfLength;
          mod->idex = idex;
          mod->name = name;
      }
  }
  infile.close();
  number_modules = ntotMod-1;
}

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().

                                 {
     //    ncrate = num_crate;
     int xoffset=XFEDOFFSET;
    int yoffset=YFEDOFFSET;
    xmin=0.;xmax=(NUMFEDCH_INCOLUMN+2)*NUMFED_INCOLUMN;  ymin = 0.; ymax=(NUMFEDCH_INROW+1)*NUMFED_INROW;

    ix = xoffset+((NUMFEDCRATE_INCOLUMN-1)-((num_crate-1)%NUMFEDCRATE_INCOLUMN))*(XFEDCSIZE+XFEDOFFSET);
    iy = yoffset+((num_crate-1)/NUMFEDCRATE_INCOLUMN)*(YFEDCSIZE+YFEDOFFSET);
  } 

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().

                                   {
     //    ncrate = num_crate;
    int xoffset=xsize/3;
    int yoffset=2*ysize;
    xmin=-1.;xmax=37.;  ymin = -10.; ymax=40.;
    if(num_crate==1||num_crate==3)ix = xoffset+xsize*2;
    if(num_crate==2||num_crate==4)ix = xoffset;
    iy = yoffset+((num_crate-1)/2)*ysize*4;
  }

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().

                                  {
     //    nrack = num_rack;
    int xoffset=XPSUOFFSET;
    int yoffset=YPSUOFFSET;
    xmin=0; xmax=(NUMPSUCRATE_INCOLUMN)*1.5;
    ymin=0; ymax=NUMPSUCH_INROW;

    ix = xoffset+((NUMPSURACK_INCOLUMN-1)-((num_rack-1)%NUMPSURACK_INCOLUMN))*(XPSURSIZE+XPSUOFFSET);
    iy = yoffset+((num_rack-1)/NUMPSURACK_INCOLUMN)*(YPSURSIZE+YPSUOFFSET);
    }

void TrackerMap::defwindow ( int  num_lay )

inline

Definition at line 329 of file TrackerMap.h.

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

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

                           {
  // nlay = num_lay;
  if(posrel){ // separated modules
    xmin=-2.;ymin=-2.;xmax=2.;ymax=2.;
    if(num_lay >12 && num_lay < 19){
      xmin=-.40;xmax=.40;ymin=-.40;ymax=.40;
    }
    if(num_lay>30){
      xmin=-0.1;xmax=3.;ymin=-0.1;ymax=8.5;
      if(num_lay<34){xmin=-0.3;xmax=1.0;}
      if(num_lay>33&&num_lay<38){xmax=2.0;}
      if(num_lay>37){ymax=8.;}//inner
    }
  }else{ //overlayed modules
    xmin=-1.3;ymin=-1.3;xmax=1.3;ymax=1.3;
    if(num_lay >12 && num_lay < 19){
      xmin=-.20;xmax=.20;ymin=-.20;ymax=.20;
    }
    if(num_lay>30){
      xmin=-1.5;xmax=1.5;ymin=-1.;ymax=28.;
      if(num_lay<34){xmin=-0.5;xmax=0.5;}
      if(num_lay>33&&num_lay<38){xmin=-1.;xmax=1.;}
    }
    
  }
  if(num_lay<16){
      ix=0;
      if(num_lay==15||num_lay==14)iy=(15-num_lay)*2*ysize; else 
          {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);}}
  if(num_lay>15&&num_lay<31){
    ix=3*xsize;
     if(num_lay==16||num_lay==17)iy=(num_lay-16)*2*ysize; else 
          {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);}}
  if(num_lay>30){
    if(num_lay==31){ix=(int)(1.5*xsize);iy=0;}
    if(num_lay==32){int il=(num_lay-30)/2;ix=xsize;iy=il*2*ysize;}
    if(num_lay==33){int il=(num_lay-30)/2;ix=2*xsize;iy=il*2*ysize;}
    if(num_lay==34){int il=(num_lay-30)/2;ix=xsize;iy=il*(int)(2.57*ysize);}
    if(num_lay>34 && num_lay%2==0){int il=(num_lay-30)/2;ix=xsize;iy=il*(int)(2.5*ysize);}
    if(num_lay>34 && num_lay%2!=0){int il=(num_lay-30)/2;ix=2*xsize;iy=il*(int)(2.5*ysize);}
  }
}

void TrackerMap::drawApvPair	(	int	crate,
		int	numfed_incrate,
		bool	total,
		TmApvPair *	apvPair,
		std::ofstream *	file,
		bool	useApvPairValue
	)

Definition at line 942 of file TrackerMap.cc.

References TmApvPair::blue, TmModule::blue, edmScanValgrind::buffer, 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, createfilelist::int, gen::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().

{
  double xp[4],yp[4];
  int color;
  int green = 0;
  int red = 0;
  int blue = 0;
  double xd[4],yd[4];
  int np = 4;
  double boxinitx=0., boxinity=0.; 
  double dx=.9,dy=.9;
  /*
  int numfedch_incolumn = 12;
  int numfedch_inrow = 8;
  int numfed_incolumn = 6;
  int numfed_inrow = 4;
  */
  boxinitx=boxinitx+(NUMFED_INCOLUMN-1-(numfed_incrate-1)/NUMFED_INROW)*(NUMFEDCH_INCOLUMN+2);
  boxinity=boxinity+(NUMFED_INROW-1-(numfed_incrate-1)%NUMFED_INROW)*(NUMFEDCH_INROW+1);
  boxinity=boxinity+NUMFEDCH_INROW-(apvPair->getFedCh()/NUMFEDCH_INCOLUMN);
  boxinitx = boxinitx+NUMFEDCH_INCOLUMN-(int)(apvPair->getFedCh()%NUMFEDCH_INCOLUMN);
  //  std::cout << crate << " " << numfed_incrate << " " << apvPair->getFedCh()<<" "<<boxinitx<< " " << boxinity << std::endl; ;
  xp[0]=boxinitx;yp[0]=boxinity;
  xp[1]=boxinitx+dx;yp[1]=boxinity;
  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
  xp[3]=boxinitx;yp[3]=boxinity + dy;
  for(int j=0;j<4;j++){
    xd[j]=xdpixelc(xp[j]);yd[j]=ydpixelc(yp[j]);
    //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
  }
  
  char buffer [20];
  sprintf(buffer,"%X",apvPair->mod->idex);
  std::string s = apvPair->mod->name;
  s.erase(s.begin()+s.find("connected"),s.end());

  if(useApvPairValue){ 
    if(apvPair->red < 0){ //use count to compute color
      if(apvPair->count > 0) {
    color = getcolor(apvPair->value,palette);
    red=(color>>16)&0xFF;
    green=(color>>8)&0xFF;
    blue=(color)&0xFF;
    if(!print_total)apvPair->value=apvPair->value*apvPair->count;//restore mod->value
    if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
           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=\"";
      } else {
        if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
         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=\"";
      }
    } else {//color defined with fillc
      if(apvPair->red>255)apvPair->red=255;
      if(apvPair->green>255)apvPair->green=255;
      if(apvPair->blue>255)apvPair->blue=255;
      if(temporary_file)*svgfile << apvPair->red << " " << apvPair->green << " " << apvPair->blue << " ";
         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=\"";
    }
  }else{
    if(apvPair->mod->red < 0){ //use count to compute color
      if(apvPair->mod->count > 0) {
    color = getcolor(apvPair->mod->value,palette);
    red=(color>>16)&0xFF;
    green=(color>>8)&0xFF;
    blue=(color)&0xFF;
    if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
           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=\"";
      } else {
        if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
         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=\"";
      }
    } else {//color defined with fillc
      if(apvPair->mod->red>255)apvPair->mod->red=255;
      if(apvPair->mod->green>255)apvPair->mod->green=255;
      if(apvPair->mod->blue>255)apvPair->mod->blue=255;
      if(temporary_file)*svgfile << apvPair->mod->red << " " << apvPair->mod->green << " " << apvPair->mod->blue << " ";
         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=\"";
    }
  }
  if(temporary_file)*svgfile << np << " ";
  for(int k=0;k<np;k++){
    if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; 
      else *svgfile << xd[k] << "," << yd[k] << " " ;
  }
  if(temporary_file)*svgfile << std::endl;
     else *svgfile <<"\" />" <<std::endl;
}

void TrackerMap::drawCcu	(	int	crate,
		int	numfed_incrate,
		bool	total,
		TmCcu *	ccu,
		std::ofstream *	file,
		bool	useCcuValue
	)

Definition at line 1028 of file TrackerMap.cc.

References TmCcu::blue, edmScanValgrind::buffer, TmCcu::cmodid, create_public_lumi_plots::color, TmCcu::count, TmCcu::getCcuRing(), TmCcu::getCcuSlot(), getcolor(), TmCcu::green, cmsRelvalreport::green(), TmCcu::idex, createfilelist::int, gen::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().

{
  double xp[4],yp[4];
  int color;
  int green = 0;
  int red = 0;
  int blue = 0;
  double xd[4],yd[4];
  int np = 4;
  double boxinitx=0., boxinity=0.;
  double dx=.9,dy=.9;
  int numccu_incolumn = 8;
  int numccu_inrow = 15;
  int numfec_incolumn = 5;
  int numfec_inrow = 4;
  boxinitx=boxinitx+(numfec_incolumn-(numfec_incrate-1)/numfec_inrow)*14.;
  boxinity=boxinity+(numfec_inrow-(numfec_incrate-1)%numfec_inrow)*16.;
  boxinity=boxinity+numccu_inrow-ccu->mpos;
  boxinitx = boxinitx+numccu_incolumn-(int)(ccu->getCcuRing()%numccu_incolumn);
  //std::cout << crate << " " << numfec_incrate << " " << ccu->getCcuRing()<<" "<<ccu->mpos<<" "<<boxinitx<< " " << boxinity << std::endl; ;
  xp[0]=boxinitx;yp[0]=boxinity;
  xp[1]=boxinitx+dx;yp[1]=boxinity;
  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
  xp[3]=boxinitx;yp[3]=boxinity + dy;
  for(int j=0;j<4;j++){
    xd[j]=xdpixelfec(xp[j]);yd[j]=ydpixelfec(yp[j]);
    //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
  }

  char buffer [20];
  sprintf(buffer,"%X",ccu->idex);
  //sprintf(buffer,"%X",ccu->mod->idex);
  //std::string s = ccu->mod->name;
  std::string s = ccu->text;
  s.erase(s.begin()+s.find("connected"),s.end());

  if(ccu->red < 0){ //use count to compute color
    if(ccu->count > 0) {
      color = getcolor(ccu->value,palette);
      red=(color>>16)&0xFF;
      green=(color>>8)&0xFF;
      blue=(color)&0xFF;
      if(!print_total)ccu->value=ccu->value*ccu->count;//restore mod->value
      if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
      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=\"";
    } else {
      if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
      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=\"";
    }
  } else {//color defined with fillc
    if(ccu->red>255)ccu->red=255;
    if(ccu->green>255)ccu->green=255;
    if(ccu->blue>255)ccu->blue=255;
    if(temporary_file)*svgfile << ccu->red << " " << ccu->green << " " << ccu->blue << " ";
    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=\"";
  }
if(temporary_file)*svgfile << np << " ";
for(int k=0;k<np;k++){
  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ;
  else *svgfile << xd[k] << "," << yd[k] << " " ;
}
if(temporary_file)*svgfile << std::endl;
else *svgfile <<"\" />" <<std::endl;

}

void TrackerMap::drawHV2	(	int	rack,
		int	numcrate_inrack,
		bool	print_total,
		TmPsu *	psu,
		std::ofstream *	svgfile,
		bool	usePsuValue
	)

Definition at line 1170 of file TrackerMap.cc.

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

Referenced by save_as_HVtrackermap().

{
  double xp[4],yp[4];
  int color;
  int greenHV2 = 0;
  int redHV2 = 0;
  int blueHV2 = 0;
  double xd[4],yd[4];
  int np = 4;
  double boxinitx=35, boxinity=12; 
  double dx=1.1,dy=1.3;
  
  boxinitx= boxinitx+(5 - psu->getPsuCrate())*5;
  boxinity= boxinity+(18 - psu->getPsuBoard())*1.75;

  xp[0]=boxinitx;yp[0]=boxinity;
  xp[1]=boxinitx+dx;yp[1]=boxinity;
  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
  xp[3]=boxinitx;yp[3]=boxinity + dy;
 
 
  for(int j=0;j<4;j++){
    xd[j]=xdpixelpsu(xp[j]);yd[j]=ydpixelpsu(yp[j]);
    //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
  }
  
  char buffer [20];
  sprintf(buffer,"%X",psu->idex);
  std::string s = psu->textHV2;
  s.erase(s.begin()+s.find("connected"),s.end());
   
  if(psu->redHV2 < 0){ //use count to compute color
    
    if(psu->valueHV2 > 0){
      color = getcolor(psu->valueHV2,palette);
      redHV2=(color>>16)&0xFF;
      greenHV2=(color>>8)&0xFF;
      blueHV2=(color)&0xFF;
      if(!print_total)psu->valueHV2=psu->valueHV2*psu->countHV2;//restore mod->value
      if(temporary_file)*svgfile << redHV2 << " " << greenHV2 << " " << blueHV2 << " ";
      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=\"";
      } 
      else{
      if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
      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=\"";
      }
    } 
   
    else {//color defined with fillc
    if(psu->redHV2>255)psu->redHV2=255;
    if(psu->greenHV2>255)psu->greenHV2=255;
    if(psu->blueHV2>255)psu->blueHV2=255;
    if(temporary_file)*svgfile << psu->redHV2 << " " << psu->greenHV2 << " " << psu->blueHV2 << " ";
    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=\"";
  }

if(temporary_file)*svgfile << np << " ";
for(int k=0;k<np;k++){
  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; 
  else *svgfile << xd[k] << "," << yd[k] << " " ;
}
if(temporary_file)*svgfile << std::endl;
else *svgfile <<"\" />" <<std::endl;

}

void TrackerMap::drawHV3	(	int	rack,
		int	numcrate_inrack,
		bool	print_total,
		TmPsu *	psu,
		std::ofstream *	svgfile,
		bool	usePsuValue
	)

Definition at line 1237 of file TrackerMap.cc.

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

Referenced by save_as_HVtrackermap().

{
  double xp[4],yp[4];
  int color;
  int greenHV3 = 0;
  int redHV3 = 0;
  int blueHV3 = 0;
  double xd[4],yd[4];
  int np = 4;
  double boxinitx=36.5, boxinity=12; 
  double dx=1.1,dy=1.3;
  
  boxinitx= boxinitx+(5 - psu->getPsuCrate())*5;
  boxinity= boxinity+(18 - psu->getPsuBoard())*1.75;

  xp[0]=boxinitx;yp[0]=boxinity;
  xp[1]=boxinitx+dx;yp[1]=boxinity;
  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
  xp[3]=boxinitx;yp[3]=boxinity + dy;
 
 
  for(int j=0;j<4;j++){
    xd[j]=xdpixelpsu(xp[j]);yd[j]=ydpixelpsu(yp[j]);
    //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
  }
  
  char buffer [20];
  sprintf(buffer,"%X",psu->idex);
  std::string s = psu->textHV3;
  s.erase(s.begin()+s.find("connected"),s.end());
   
  if(psu->redHV3 < 0){ //use count to compute color
    if(psu->valueHV3 > 0){
      color = getcolor(psu->valueHV3,palette);
      redHV3=(color>>16)&0xFF;
      greenHV3=(color>>8)&0xFF;
      blueHV3=(color)&0xFF;
      if(!print_total)psu->valueHV3=psu->valueHV3*psu->countHV3;//restore mod->value
      if(temporary_file)*svgfile << redHV3 << " " << greenHV3 << " " << blueHV3 << " ";
      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=\"";
      } 
      else{
      if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
      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=\"";
      }
    } 
   
    else {//color defined with fillc
    if(psu->redHV3>255)psu->redHV3=255;
    if(psu->greenHV3>255)psu->greenHV3=255;
    if(psu->blueHV3>255)psu->blueHV3=255;
    if(temporary_file)*svgfile << psu->redHV3 << " " << psu->greenHV3 << " " << psu->blueHV3 << " ";
    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=\"";
  }

if(temporary_file)*svgfile << np << " ";
for(int k=0;k<np;k++){
  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; 
  else *svgfile << xd[k] << "," << yd[k] << " " ;
}
if(temporary_file)*svgfile << std::endl;
else *svgfile <<"\" />" <<std::endl;

}

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, edmScanValgrind::buffer, 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(), gen::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().

                                                                                                    {
  //int x,y;
  nlay = mlay;
  double phi,r,dx,dy, dy1;
  double xp[4],yp[4],xp1,yp1;
  double vhbot,vhtop,vhapo;
  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};
  double xt1,yt1,xs1=0.,ys1=0.,xt2,yt2,xs2,ys2,pv1,pv2;
  int green = 0;
  int red = 0;
  int blue = 0;
  double xd[4],yd[4];
  int np = 4;
  //int numrec=0;
  int numod=0;
  phi = phival(mod->posx,mod->posy);
  r = sqrt(mod->posx*mod->posx+mod->posy*mod->posy);
  vhtop=mod->width;
  vhapo=mod->length;
  if(mlay < 31){ //endcap
    vhbot = mod->widthAtHalfLength/2.-(mod->width/2.-mod->widthAtHalfLength/2.);
    vhtop=mod->width/2.;
    vhapo=mod->length/2.;
    if(mlay >12 && mlay <19){
      if(posrel)r = r+r;
      xp[0]=r-vhtop;yp[0]=-vhapo;
      xp[1]=r+vhtop;yp[1]=-vhapo;
      xp[2]=r+vhtop;yp[2]=vhapo;
      xp[3]=r-vhtop;yp[3]=vhapo;
    }else{
      if(posrel)r = r + r/3.;
      xp[0]=r-vhapo;yp[0]=-vhbot;
      xp[1]=r+vhapo;yp[1]=-vhtop;
      xp[2]=r+vhapo;yp[2]=vhtop;
      xp[3]=r-vhapo;yp[3]=vhbot;
    }
    for(int j=0;j<4;j++){
      xp1 = xp[j]*cos(phi)-yp[j]*sin(phi);
      yp1 = xp[j]*sin(phi)+yp[j]*cos(phi);
      xp[j] = xp1;yp[j]=yp1;
    }
  } else { //barrel
    numod=mod->idModule;if(numod>100)numod=numod-100;
    int vane = mod->ring;
    if(posrel){
      dx = vhapo;
      phi=M_PI;
      xt1=rmedio[mlay-31]; yt1=-vhtop/2.;
      xs1 = xt1*cos(phi)-yt1*sin(phi);
      ys1 = xt1*sin(phi)+yt1*cos(phi);
      xt2=rmedio[mlay-31]; yt2=vhtop/2.;
      xs2 = xt2*cos(phi)-yt2*sin(phi);
      ys2 = xt2*sin(phi)+yt2*cos(phi);
      dy=phival(xs2,ys2)-phival(xs1,ys1);
     dy1 = dy;
      if(mlay==31)dy1=0.39;
      if(mlay==32)dy1=0.23;
      if(mlay==33)dy1=0.16;
      xp[0]=vane*(dx+dx/8.);yp[0]=numod*(dy1);
      xp[1]=vane*(dx+dx/8.)+dx;yp[1]=numod*(dy1);
      xp[2]=vane*(dx+dx/8.)+dx;yp[2]=numod*(dy1)+dy;
      xp[3]=vane*(dx+dx/8.);yp[3]=numod*(dy1)+dy;
    }else{
      xt1=r; yt1=-vhtop/2.;
      xs1 = xt1*cos(phi)-yt1*sin(phi);
      ys1 = xt1*sin(phi)+yt1*cos(phi);
      xt2=r; yt2=vhtop/2.;
      xs2 = xt2*cos(phi)-yt2*sin(phi);
      ys2 = xt2*sin(phi)+yt2*cos(phi);
      pv1=phival(xs1,ys1);
      pv2=phival(xs2,ys2);
      if(fabs(pv1-pv2)>M_PI && numod==1)pv1=pv1-2.*M_PI;
      if(fabs(pv1-pv2)>M_PI && numod!=1)pv2=pv2+2.*M_PI;
      xp[0]=mod->posz-vhapo/2.;yp[0]=4.2*pv1;
      xp[1]=mod->posz+vhapo/2.;yp[1]=4.2*pv1;
      xp[2]=mod->posz+vhapo/2. ;yp[2]=4.2*pv2;
          xp[3]=mod->posz-vhapo/2.;yp[3]=4.2*pv2;
    }
  }
  if(isRingStereo(key))
        {
      np = 3;
      if(mod->idModule>100 ){for(int j=0;j<3;j++){
          xd[j]=xdpixel(xp[j]);yd[j]=ydpixel(yp[j]);
        }
      }else {
        xd[0]=xdpixel(xp[2]);yd[0]=ydpixel(yp[2]);
        xd[1]=xdpixel(xp[3]);yd[1]=ydpixel(yp[3]);
        xd[2]=xdpixel(xp[0]);yd[2]=ydpixel(yp[0]);
      }
        } else {
    for(int j=0;j<4;j++){
      xd[j]=xdpixel(xp[j]);yd[j]=ydpixel(yp[j]);
    }
  }
  char buffer [20];
   sprintf(buffer,"%X",mod->idex);

 if(mod->red < 0){ //use count to compute color
 int color = getcolor(mod->value,palette);
     red=(color>>16)&0xFF;
     green=(color>>8)&0xFF;
     blue=(color)&0xFF;
  
if(!print_total)mod->value=mod->value*mod->count;//restore mod->value
  
  if(mod->count > 0)
    if(temporary_file) *svgfile << red << " " << green << " " << blue << " "; else
    *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=\"";
  else
    if(temporary_file) *svgfile << 255 << " " << 255 << " " << 255 << " "; else
    *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=\"";
  if(temporary_file) *svgfile << np << " ";
  for(int k=0;k<np;k++){
    if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; else
    *svgfile << xd[k] << "," << yd[k] << " " ;
  }
  if(temporary_file)*svgfile << std::endl; else *svgfile <<"\" />" <<std::endl;
 } else {//color defined with fillc
  if(mod->red>255)mod->red=255;
  if(mod->green>255)mod->green=255;
  if(mod->blue>255)mod->blue=255;
    if(temporary_file) *svgfile << mod->red << " " << mod->green << " " << mod->blue << " "; else
    *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=\"";
  if(temporary_file) *svgfile << np << " ";
  for(int k=0;k<np;k++){
    if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; else
    *svgfile << xd[k] << "," << yd[k] << " " ;
  }
  if(temporary_file)*svgfile << std::endl; else *svgfile <<"\" />" <<std::endl;
 }
  
}

void TrackerMap::drawPalette	(	std::ofstream *	file,
		int	xoffset = 3660,
		int	yoffset = 1540
	)

Definition at line 2501 of file TrackerMap.cc.

References create_public_lumi_plots::color, gather_cfg::cout, objects.autophobj::float, getcolor(), cmsRelvalreport::green(), mps_fire::i, createfilelist::int, maxvalue, minvalue, palette, cmsRelvalreport::red(), temporary_file, tkMapLog, heppy_batch::val, and ApeEstimator_cff::width.

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

                                                                          {
  std::cout << "preparing the palette" << std::endl;
  int color,red, green, blue;
  float val=minvalue;
  int paletteLength = 250;
  int width=50*(yoffset-40)/1500;
  float dval = (maxvalue-minvalue)/(float)paletteLength;
  bool rtkMapLog = tkMapLog; if (tkMapLog)tkMapLog=false;
  float step = float(yoffset-40)/float(paletteLength);
  for(int i=1;i<paletteLength+1;i++){
  color = getcolor(val,palette);
     red=(color>>16)&0xFF;
     green=(color>>8)&0xFF;
     blue=(color)&0xFF;
 //   if(!temporary_file)*svgfile <<"<svg:rect  x=\"3010\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"6\" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" />\n"; 
  //  else *svgfile << red << " " << green << " " << blue << " 4 " << (6*i)+40 << " 3010. " <<//
   //           (6*i)+40 << " 3060. " <<//
    //          (6*(i-1))+40 << " 3060. " <<//
     //         (6*(i-1))+40 <<" 3010. " << std::endl; //

   // if(i%50 == 0){
    //  if(!temporary_file)*svgfile <<"<svg:rect  x=\"3010\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"1\" fill=\"black\" />\n";
     // if(i%50==0&&!temporary_file)*svgfile << " <svg:text  class=\"normalText\"  x=\"3060\" y=\""<<(1560-6*i)<<"\">" <<val<<"</svg:text>"<<std::endl;

    if(!temporary_file)*svgfile <<"<svg:rect  x=\"3610\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"6\" fill=\"rgb("<<red<<","<<green<<","<<blue<<")\" />\n"; 
    else *svgfile << red << " " << green << " " << blue << " 4 " << int(step*i)+34 << " " << xoffset-width << ". " <<//
      int(step*i)+34 << " " << xoffset << ". " <<//
      int(step*(i-1))+34 << " " << xoffset << ". " <<//
      int(step*(i-1))+34 << " " << xoffset-width << ". " << std::endl; //

    if(i%50 == 0){
     if(!temporary_file)*svgfile <<"<svg:rect  x=\"3610\" y=\""<<(1550-6*i)<<"\" width=\"50\" height=\"1\" fill=\"black\" />\n";
      if(i%50==0&&!temporary_file)*svgfile << " <svg:text  class=\"normalText\"  x=\"3660\" y=\""<<(1560-6*i)<<"\">" <<val<<"</svg:text>"<<std::endl;
       }
    val = val + dval;
   }
  tkMapLog=rtkMapLog;
} 

void TrackerMap::drawPsu	(	int	rack,
		int	numcrate_inrack,
		bool	print_total,
		TmPsu *	psu,
		std::ofstream *	svgfile,
		bool	usePsuValue
	)

Definition at line 1093 of file TrackerMap.cc.

References TmPsu::blue, edmScanValgrind::buffer, TmPsu::cmodid_LV, create_public_lumi_plots::color, TmPsu::count, getcolor(), TmPsu::getPsuBoard(), TmPsu::getPsuCrate(), TmPsu::green, cmsRelvalreport::green(), TmPsu::idex, gen::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().

{
  double xp[4],yp[4];
  int color;
  int green = 0;
  int red = 0;
  int blue = 0;
  double xd[4],yd[4];
  int np = 4;
  double boxinitx=0., boxinity=0.; 
  double dx=.9,dy=.9;

  boxinitx=boxinitx+(NUMPSUCRATE_INCOLUMN-psu->getPsuCrate())*1.5;
  boxinity=boxinity+(NUMPSUCH_INROW-psu->getPsuBoard());

  xp[0]=boxinitx;yp[0]=boxinity;
  xp[1]=boxinitx+dx;yp[1]=boxinity;
  xp[2]=boxinitx+dx;yp[2]=boxinity + dy;
  xp[3]=boxinitx;yp[3]=boxinity + dy;
 
 
  for(int j=0;j<4;j++){
    xd[j]=xdpixelpsu(xp[j]);yd[j]=ydpixelpsu(yp[j]);
    //std::cout << boxinity << " "<< ymax << " "<< yp[j] << std::endl;
  }

  // lines needed to prepare the clickable maps: understand why I get twice the full list of channels (HV1 and HV0?)
  /*
  double scalex=2695./2700.;
  double scaley=1520./1550.;
  std::cout << "<area shape=\"rect\" coords=\" " 
        << int(scalex*yd[2]) << "," << int(1520-scaley*xd[2]) 
        << "," << int(scalex*yd[0]) << "," << int(1520-scaley*xd[0]) 
        << "\" title=\" " << psu->psId << "\" /> " << std::endl;
  */
  //
  
  char buffer [20];
  sprintf(buffer,"%X",psu->idex);
  std::string s = psu->text;
  s.erase(s.begin()+s.find("connected"),s.end());
   
  if(psu->red < 0){ //use count to compute color
    if(psu->count > 0){
      color = getcolor(psu->value,palette);
      red=(color>>16)&0xFF;
      green=(color>>8)&0xFF;
      blue=(color)&0xFF;
      if(!print_total)psu->value=psu->value*psu->count;//restore mod->value
      if(temporary_file)*svgfile << red << " " << green << " " << blue << " ";
      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=\"";
      } 
      else{
     
      if(temporary_file)*svgfile << 255 << " " << 255 << " " << 255 << " ";
      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=\"";
      }
    } 
   
    else {//color defined with fillc
    if(psu->red>255)psu->red=255;
    if(psu->green>255)psu->green=255;
    if(psu->blue>255)psu->blue=255;
    if(temporary_file)*svgfile << psu->red << " " << psu->green << " " << psu->blue << " ";
    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=\"";
  }

if(temporary_file)*svgfile << np << " ";
for(int k=0;k<np;k++){
  if(temporary_file)*svgfile << xd[k] << " " << yd[k] << " " ; 
  else *svgfile << xd[k] << "," << yd[k] << " " ;
}
if(temporary_file)*svgfile << std::endl;
else *svgfile <<"\" />" <<std::endl;

}

void TrackerMap::fill	(	int	layer,
		int	ring,
		int	nmod,
		float	x
	)

Definition at line 2778 of file TrackerMap.cc.

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

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

                                                              {

  int key = layer*100000+ring*1000+nmod;
  TmModule * mod = smoduleMap[key];
  if(mod!=0){
     mod->value=mod->value+qty;
     mod->count++;
  }
  else std::cout << "**************************error in SvgModuleMap **************";
} 

void TrackerMap::fill	(	int	idmod,
		float	qty
	)

Definition at line 2758 of file TrackerMap.cc.

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

                                          {

  TmModule * mod = imoduleMap[idmod];
  if(mod!=0){
    mod->value=mod->value+qty;
    mod->count++;
    return;
  }else{
   TmModule * mod1 = imoduleMap[idmod+1];
   TmModule * mod2 = imoduleMap[idmod+2];
   if(mod1!=0 && mod2!=0){
    mod1->value=mod1->value+qty;
    mod1->count++;
    mod2->value=mod2->value+qty;
    mod2->count++;
    return;
   }}
  std::cout << "**************************error in fill method **************module "<<idmod<<std::endl;
}

void TrackerMap::fill_all_blank

(

)

Definition at line 2741 of file TrackerMap.cc.

References fill_current_val(), and imoduleMap.

Referenced by SiStripTrackerMapCreator::create(), and fillc().

                               {

  std::map<const int  , TmModule *>::iterator imod;
   for( imod=imoduleMap.begin();imod !=imoduleMap.end(); imod++){
   fill_current_val(imod->first,0); 
   }
}

void TrackerMap::fill_current_val	(	int	idmod,
		float	current_val
	)

Definition at line 2751 of file TrackerMap.cc.

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

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

                                                              {

  TmModule * mod = imoduleMap[idmod];
  if(mod!=0)  {mod->value=current_val; mod->count=1;  mod->red=-1;}
  else std::cout << "**error in fill_current_val method ***module "<<idmod<<std::endl;
}

void TrackerMap::fill_current_val_fed_channel	(	int	fedId,
		int	fedCh,
		float	current_val
	)

Definition at line 2566 of file TrackerMap.cc.

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

Referenced by fillc().

{
  int key = fedId*1000+fedCh;
  TmApvPair* apvpair = apvMap[key];
  
  if(apvpair!=0)  {apvpair->value=current_val; apvpair->count=1; apvpair->red=-1;}
  else 
    std::cout << "*** error in FedTrackerMap fill_current_val method ***";
}

void TrackerMap::fill_fec_channel	(	int	crate,
		int	slot,
		int	ring,
		int	addr,
		float	qty
	)

Definition at line 2590 of file TrackerMap.cc.

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

Referenced by fillc().

{
 int key =crate*10000000+slot*100000+ring*1000+addr;
 TmCcu *ccu = ccuMap[key];
  if(ccu!=0){
    ccu->count++; ccu->value=ccu->value+qty;
    return;
 
  }
  
  std::cout << "*** error in FecTrackerMap fill by module method ***";
  }

void TrackerMap::fill_fed_channel	(	int	fedId,
		int	fedCh,
		float	qty
	)

Definition at line 2699 of file TrackerMap.cc.

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

Referenced by fillc().

{
  int key = fedId*1000+fedCh;
  TmApvPair* apvpair = apvMap[key];
  if(apvpair!=0){
    apvpair->value=apvpair->value+qty;
    apvpair->count++;
    return;
  }
  std::cout << "*** error inFedTrackerMap fill method ***";
}

void TrackerMap::fill_fed_channel	(	int	modId,
		float	qty
	)

Definition at line 2551 of file TrackerMap.cc.

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

{
  std::multimap<const int, TmApvPair*>::iterator pos;
  for (pos = apvModuleMap.lower_bound(idmod);
         pos != apvModuleMap.upper_bound(idmod); ++pos) {
  TmApvPair* apvpair = pos->second;
  if(apvpair!=0){
    apvpair->value=apvpair->value+qty;
    apvpair->count++;
  }
  }
    return;
  std::cout << "*** error in FedTrackerMap fill by module method ***";
  }

void TrackerMap::fill_hv_channel2	(	int	rack,
		int	crate,
		int	board,
		float	qty
	)

Definition at line 2660 of file TrackerMap.cc.

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

Referenced by fillc().

{
 int key = rack*1000+crate*100+board;
 TmPsu *psu = psuMap[key];
  if(psu!=0){
    psu->countHV2++; psu->valueHV2=psu->valueHV2+qty;
    return;
 
  }
  
  std::cout << "*** error in HVTrackerMap fill by module method ***";
  }

void TrackerMap::fill_hv_channel3	(	int	rack,
		int	crate,
		int	board,
		float	qty
	)

Definition at line 2672 of file TrackerMap.cc.

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

Referenced by fillc().

{
 int key = rack*1000+crate*100+board;
 TmPsu *psu = psuMap[key];
  if(psu!=0){
    psu->countHV3++; psu->valueHV3=psu->valueHV3+qty;
    return;
 
  }
  
  std::cout << "*** error in HVTrackerMap fill by module method ***";
  }

void TrackerMap::fill_lv_channel	(	int	rack,
		int	crate,
		int	board,
		float	qty
	)

Definition at line 2619 of file TrackerMap.cc.

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

Referenced by fillc().

{
 int key = rack*1000+crate*100+board;
 TmPsu *psu = psuMap[key];
  if(psu!=0){
    psu->count++; psu->value=psu->value+qty;
    return;
 
  }
  
  std::cout << "*** error in LVTrackerMap fill by module method ***";
  }

void TrackerMap::fillc ( int  idmod, int  RGBcode  )

inline

Definition at line 104 of file TrackerMap.h.

References l1t::stage2::layer2::fedId, fill_all_blank(), fill_current_val_fed_channel(), fill_fec_channel(), fill_fed_channel(), fill_hv_channel2(), fill_hv_channel3(), fill_lv_channel(), fillc(), fillc_all_blank(), fillc_fec_channel(), fillc_fed_channel(), fillc_hv_channel2(), fillc_hv_channel3(), fillc_lv_channel(), cmsRelvalreport::green(), module(), cmsRelvalreport::red(), alignCSCRings::s, setText(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by SiStripQualityStatistics::analyze(), SiStripCorrelateBadStripAndNoise::correlateWithNoise(), fillc(), fillc_all_blank(), SiStripHitEffFromCalibTree::makeTKMap(), SiStripTrackerMapCreator::paintTkMapFromAlarm(), SiStripTrackerMapCreator::paintTkMapFromHistogram(), and SiStripQualityStatistics::SetBadComponents().

{fillc(idmod,(RGBcode>>16) & 0xFF , (RGBcode>>8) & 0xFF, RGBcode & 0xFF);}

void TrackerMap::fillc	(	int	idmod,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2712 of file TrackerMap.cc.

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

                                                               {

  TmModule * mod = imoduleMap[idmod];
  if(mod!=0){
     mod->red=red; mod->green=green; mod->blue=blue;
     return;
  }
  std::cout << "**************************error in fill method **************module "<<idmod<<std::endl;
}

void TrackerMap::fillc	(	int	layer,
		int	ring,
		int	nmod,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2721 of file TrackerMap.cc.

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

                                                                                   {
  
  int key = layer*10000+ring*1000+nmod;
  TmModule * mod = smoduleMap[key];

  if(mod!=0){
     mod->red=red; mod->green=green; mod->blue=blue;
    return;
  }
  std::cout << "**************************error in fill method **************"<< std::endl;
}

void TrackerMap::fillc_all_blank

(

)

Definition at line 2733 of file TrackerMap.cc.

References fillc(), and imoduleMap.

Referenced by fillc(), and SiStripTrackerMapCreator::setTkMapFromAlarm().

                                {

  std::map<const int  , TmModule *>::iterator imod;
   for( imod=imoduleMap.begin();imod !=imoduleMap.end(); imod++){
   fillc(imod->first,255,255,255); 
   }
}

void TrackerMap::fillc_fec_channel	(	int	crate,
		int	slot,
		int	ring,
		int	addr,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2577 of file TrackerMap.cc.

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

Referenced by fillc().

 {
 int key =crate*10000000+slot*100000+ring*1000+addr;

 TmCcu *ccu = ccuMap[key];
 
 if(ccu!=0){
    ccu->red=red; ccu->green=green; ccu->blue=blue;
    return;
  }
  std::cout << "*** error in FecTrackerMap fillc method ***";
}

void TrackerMap::fillc_fed_channel	(	int	fedId,
		int	fedCh,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2539 of file TrackerMap.cc.

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

Referenced by fillc().

{
  int key = fedId*1000+fedCh;
  TmApvPair* apvpair = apvMap[key];
  
  if(apvpair!=0){
    apvpair->red=red; apvpair->green=green; apvpair->blue=blue;
    return;
  }
  std::cout << "*** error in FedTrackerMap fillc method ***";
}

void TrackerMap::fillc_hv_channel2	(	int	rack,
		int	crate,
		int	board,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2632 of file TrackerMap.cc.

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

Referenced by fillc().

{
 
 int key = rack*1000+crate*100+board;
 
 TmPsu *psu = psuMap[key];
  
  if(psu!=0){
    psu->redHV2=red; psu->greenHV2=green; psu->blueHV2=blue;
    return;
  }
  std::cout << "*** error in HVTrackerMap (channel 2) fillc method ***";
}

void TrackerMap::fillc_hv_channel3	(	int	rack,
		int	crate,
		int	board,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2645 of file TrackerMap.cc.

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

Referenced by fillc().

{
 
 int key = rack*1000+crate*100+board;
 
 TmPsu *psu = psuMap[key];
  
  if(psu!=0){
    psu->redHV3=red; psu->greenHV3=green; psu->blueHV3=blue;
    return;
  }
  std::cout << "*** error in HVTrackerMap (channel 3) fillc method ***";
}

void TrackerMap::fillc_lv_channel	(	int	rack,
		int	crate,
		int	board,
		int	red,
		int	green,
		int	blue
	)

Definition at line 2605 of file TrackerMap.cc.

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

Referenced by fillc().

{
 
 int key = rack*1000+crate*100+board;
 
 TmPsu *psu = psuMap[key];
  
  if(psu!=0){
    psu->red=red; psu->green=green; psu->blue=blue;
    return;
  }
  std::cout << "*** error in LVTrackerMap fillc method ***";
}

int TrackerMap::find_layer ( int  ix, int  iy  )

inline

Definition at line 188 of file TrackerMap.h.

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

    {
      int add;
      int layer=0;
      if(iy <= xsize){//endcap+z
        add = 15;
    layer = ix/ysize;
    layer = layer+add+1;
      }
      if(iy > xsize && iy< 3*xsize){//barrel
    add=30;
    if(ix < 2*ysize){
      layer=1;
    }else {
      layer = ix/(2*ysize);
      if(iy < 2*xsize)layer=layer*2+1; else layer=layer*2;
        }
    layer = layer+add;
      }
      if(iy >= 3*xsize){    //endcap-z
    layer = ix/ysize;
    layer = 15-layer;
      }
      return layer;  
    }

std::ifstream * TrackerMap::findfile

(

std::string

filename

)

Definition at line 3511 of file TrackerMap.cc.

References gather_cfg::cout, corrVsCorr::filename, recoMuon::in, jsPath, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by getysize(), printall(), and printonline().

                                                     {
  std::ifstream * ifilename;
  std::string ifname;
  if(jsPath!=""){
  ifname=jsPath+filename;
  ifilename = new std::ifstream(edm::FileInPath(ifname).fullPath().c_str(),std::ios::in);
  if(!ifilename){
  ifname="CommonTools/TrackerMap/data/"+filename;
  ifilename = new std::ifstream(edm::FileInPath(ifname).fullPath().c_str(),std::ios::in);
  }
  }else {
  ifname="CommonTools/TrackerMap/data/"+filename;
  ifilename = new std::ifstream(edm::FileInPath(ifname).fullPath().c_str(),std::ios::in);
 }
  if(!ifilename)std::cout << "File " << filename << " missing" << std::endl;
  return ifilename;
 }

std::pair< float, float > TrackerMap::getAutomaticRange

(

)

Definition at line 674 of file TrackerMap.cc.

References TmModule::count, firstRing, crabWrapper::key, cmsBatch::log, mod(), module(), TmModule::notInUse(), ntotRing, relativeConstraints::ring, smoduleMap, tkMapLog, and TmModule::value.

Referenced by setTitle().

                                                  {
  float minval,maxval;
  minval=9999999.;
  maxval=-9999999.;
  for (int layer=1; layer < 44; layer++){
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
        if(mod !=0 && !mod->notInUse()  && mod->count>0){
          if (minval > mod->value)minval=mod->value;
          if (maxval < mod->value)maxval=mod->value;
        }
      }
    }
  }
if(tkMapLog) {minval=log(minval)/log(10);maxval=log(maxval)/log(10);}
 return std::make_pair(minval,maxval);

}

int TrackerMap::getcolor	(	float	value,
		int	palette
	)

Definition at line 2852 of file TrackerMap.cc.

References delta, cmsRelvalreport::green(), createfilelist::int, cmsBatch::log, maxvalue, minvalue, cmsRelvalreport::red(), tkMapLog, and x.

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

                                               {
   int red,green,blue;
   float lminvalue, lmaxvalue;
   lminvalue=minvalue; lmaxvalue=maxvalue;
   if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10); value=log(value)/log(10);}

   
   red=0;green=0;blue=0;
   if(palette==1){//palette1 1 - raibow
   float delta=(lmaxvalue-lminvalue);
   float x =(value-lminvalue);
   if(value<lminvalue){red=0;green=0;blue=255;}
   if(value>lmaxvalue){red=255;green=0;blue=0;}
   if(value>=lminvalue&&value<=lmaxvalue){ 
   red = (int) ( x<(delta/2) ? 0 : ( x > ((3./4.)*delta) ?  255 : 255/(delta/4) * (x-(2./4.)*delta)  ) );
   green= (int) ( x<delta/4 ? (x*255/(delta/4)) : ( x > ((3./4.)*delta) ?  255-255/(delta/4) *(x-(3./4.)*delta) : 255 ) );
   blue = (int) ( x<delta/4 ? 255 : ( x > ((1./2.)*delta) ?  0 : 255-255/(delta/4) * (x-(1./4.)*delta) ) );
     }
     }
     if (palette==2){//palette 2 yellow-green
     green = (int)((value-lminvalue)/(lmaxvalue-lminvalue)*256.);
         if (green > 255) green=255;
         red = 255; blue=0;green=255-green;  
        } 
  // std::cout<<red<<" "<<green<<" "<<blue<<" "<<value <<" "<<lminvalue<<" "<< lmaxvalue<<std::endl;
   return(blue|(green<<8)|(red<<16));
}

int TrackerMap::getlayerCount ( int  subdet, int  partdet  )

inline

Definition at line 214 of file TrackerMap.h.

Referenced by init().

                                            {
    int ncomponent=0;
    if(subdet == 1){ //1=pixel
      if(partdet == 1 || partdet == 3){ //1-3=encap
    ncomponent = 3;
      }
      else { ncomponent = 3; } //barrel
    }
    if(subdet== 2){ //2=inner silicon
      if(partdet == 1 || partdet == 3){ //1-3=encap
    ncomponent = 3;
      }
      else { ncomponent = 4; } //barrel
    }
    if(subdet== 3){ //3=outer silicon
      if(partdet == 1 || partdet == 3){ //1-3=encap
    ncomponent = 9;
      }
      else { ncomponent = 6; } //barrel
    }
    return(ncomponent);
  }   

int TrackerMap::getmoduleCount ( int  subdet, int  partdet, int  layer, int  ring  )

inline

Definition at line 405 of file TrackerMap.h.

Referenced by init().

                                                                  {
    int ncomponent=0;
    int spicchif[] ={24,24,40,56,40,56,80};
    int spicchib[] ={20,32,44,30,38,46,56,42,48,54,60,66,74};
    int numero_layer = 0;
    
    if(partdet == 2){ //barrel
      numero_layer = layer-1;
      if(subdet== 2){ //inner
    numero_layer = numero_layer+3;
      }
      if(subdet == 3){ //outer
    numero_layer = numero_layer+7;
      }
      ncomponent = spicchib[numero_layer];
    }
    if(partdet!= 2){ //endcap
      if(subdet== 1)ncomponent=24;//pixel
      else
    ncomponent = spicchif[ring-1];
    }
    return(ncomponent);
  }

int TrackerMap::getNumMod ( )

inline

Definition at line 138 of file TrackerMap.h.

{return number_modules;};

int TrackerMap::getringCount ( int  subdet, int  partdet, int  layer  )

inline

Definition at line 372 of file TrackerMap.h.

Referenced by init().

                                                      {
    int ncomponent=0;
    if(subdet== 1){ //1=pixel
      if(partdet== 1 || partdet== 3){ //end-cap
    ncomponent = 7;
      }
      else{ncomponent = 8;} //barrel
    }   
    if(subdet== 2){ //inner-silicon
      if(partdet== 1 || partdet== 3){ //end-cap
    ncomponent = 3;
      }
      else{ncomponent = 12;} //barrel
    }
    if(subdet== 3){ //outer-silicon
      if(partdet== 1){ //end-cap-z
    if (layer== 1) ncomponent = 4;
    if (layer== 2 || layer== 3) ncomponent = 5;
    if (layer== 4 || layer== 5 || layer== 6) ncomponent = 6;
    if (layer== 7 || layer== 8 || layer== 9) ncomponent = 7;
      }
      if(partdet== 3){ //endcap+z
    if (layer== 9) ncomponent = 4;
    if (layer== 8 || layer== 7) ncomponent = 5;
    if (layer== 6 || layer== 5 || layer== 4) ncomponent = 6;
    if (layer== 3 || layer== 2 || layer== 1) ncomponent = 7;
      }
      if(partdet== 2){ //barrel
    ncomponent = 12;
      }
    }
    return(ncomponent);
  }

int TrackerMap::getxsize ( )

inline

Definition at line 134 of file TrackerMap.h.

References xsize.

{return xsize;};

int TrackerMap::getysize ( )

inline

Definition at line 135 of file TrackerMap.h.

References corrVsCorr::filename, findfile(), getcolor(), palette, AlCaHLTBitMon_QueryRunRegistry::string, and ysize.

{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, crabWrapper::key, maxvalue, minvalue, module(), ndet, nlayer(), nlayers, npart, ntotRing, onlyPixelFlag, palette, posrel, printflag, relativeConstraints::ring, smoduleMap, and temporary_file.

Referenced by TrackerMap().

                      {
  
  int ntotmod=0;
  ix=0;iy=0; //used to compute the place of each layer in the tracker map
  firstcall = true;
  minvalue=0.; maxvalue=minvalue;
  posrel=true;
  palette = 1;
  printflag=true;
  addPixelFlag=false;
  onlyPixelFlag=false;
  temporary_file=false;
  gminvalue=0.; gmaxvalue=0.;//default global range for online rendering

  ndet = 3; // number of detectors: pixel, inner silicon, outer silicon
  npart = 3; // number of detector parts: endcap -z, barrel, endcap +z

  //allocate module map
  for (int subdet=1; subdet < ndet+1; subdet++){//loop on subdetectors
    for (int detpart=1; detpart < npart+1; detpart++){//loop on subdetectors parts
      int nlayers = getlayerCount(subdet,detpart); // compute number of layers
      for(int layer=1; layer < nlayers+1; layer++){//loop on layers
    int nrings = getringCount(subdet,detpart,layer);// compute number of rings
    //fill arrays used to do the loop on the rings  
        int layer_g = nlayer(subdet,detpart,layer);
    ntotRing[layer_g-1]=nrings;
    firstRing[layer_g-1]=1;
    if(subdet==3 && detpart!=2)  firstRing[layer_g-1]= 8-nrings; //special numbering for TEC 
    for (int ring=firstRing[layer_g-1]; ring < ntotRing[layer_g-1]+firstRing[layer_g-1];ring++){//loop on rings
      int nmodules = getmoduleCount(subdet,detpart,layer,ring);// compute number of modules
      int key=0;
      TmModule *smodule; 
          for(int module=1; module < nmodules+1; module++){//loop on modules
            smodule = new TmModule(module,ring,layer_g);
        key=layer_g*100000+ring*1000+module;//key identifying module
        smoduleMap[key]=smodule;
        ntotmod++;
      }
      if(isRingStereo(key))for(int module=1; module < nmodules+1; module++){//loop on stereo modules
            smodule = new TmModule(module+100,ring,layer_g);
        int key=layer_g*100000+ring*1000+module+100;
        smoduleMap[key]=smodule;
        ntotmod++;
      }
    }
      }
    }
  }
 build();
}

static bool TrackerMap::isRingStereo ( int  key )

inlinestatic

Definition at line 441 of file TrackerMap.h.

Referenced by drawModule(), and init().

                                   {
    int layer=key/100000;
    int ring = key - layer*100000;
    ring = ring/1000;
    if(layer==34 || layer==35 || layer==38 || layer==39) return true;
    if(layer<13 || (layer>18&&layer<31))
      if(ring==1 || ring==2 || ring==5)return true;
    return false;
  }

std::string TrackerMap::layername ( int  layer )

inline

Definition at line 463 of file TrackerMap.h.

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

                                {
    std::string s= " ";
    std::ostringstream ons;
    
    if(layer < 10) ons << "TEC -z Layer " << layer;
    if(layer < 13 && layer > 9) ons << "TID -z Layer " << layer-9;
    if(layer < 16 && layer > 12) ons << "FPIX -z Layer " << layer-12;
    if(layer < 19 && layer > 15) ons << "FPIX +z Layer " << layer-15;
    if(layer < 22 && layer > 18) ons << "TID +z Layer " << layer-18;
    if(layer < 31 && layer > 21) ons << "TEC +z Layer " << layer-21;
    if(layer < 34 && layer > 30) ons << "TPB Layer " << layer-30;
    if(layer < 38 && layer > 33) ons << "TIB Layer " << layer-33;
    if(layer > 37) ons << "TOB Layer " << layer-37;
    s = ons.str(); 
    return s;  
  }

static int TrackerMap::layerno ( int  subdet, int  leftright, int  layer  )

inlinestatic

Definition at line 428 of file TrackerMap.h.

                                                        {
    if(subdet==6&&leftright==1)return(10-layer);
    if(subdet==6&&leftright==2)return(layer+21);
    if(subdet==4&&leftright==1)return(4-layer+9);
    if(subdet==4&&leftright==2)return(layer+18);
    if(subdet==2&&leftright==1)return(4-layer+12);
    if(subdet==2&&leftright==2)return(layer+15);
    if(subdet==1)return(layer+30);
    if(subdet==3)return(layer+33);
    if(subdet==5)return(layer+37);
    assert(false);
  }

void TrackerMap::load

(

std::string

s = "tmap.svg"

)

Definition at line 2399 of file TrackerMap.cc.

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

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

                                            {
  inputfile = new std::ifstream(inputfilename.c_str(),std::ios::in);
  std::string line,value;
  int ipos,ipos1,ipos2,id=0,val=0;
  int nline=0;
  while (getline( *inputfile, line ))
        {
        ipos1 = line.find("value=\"");
        if(ipos1 > 0)      {
             value = line.substr(ipos1+7,10);
             ipos = value.find("\"");
             value = value.substr(0,ipos); 
             val=atoi(value.c_str());
             }
        ipos2 = line.find("detid=\"");
        if(ipos2 > 0)      {
             value = line.substr(ipos2+7,10);
             ipos = value.find("\"");
             value = value.substr(0,ipos); 
             id = atoi(value.c_str());
             }
        if(ipos1>0 && ipos2>0 && val>0)this->fill(id,val);
        if(ipos1>0 && ipos2>0)nline++;
        //if(ipos1>0 && ipos2>0)std::cout << nline << " " << id << " " << val << std::endl; 

        }
       std::cout << nline << " modules found in this svg file " << std::endl;
       inputfile->close();delete inputfile;
 }

int TrackerMap::module	(	int	fedId,
		int	fedCh
	)

Definition at line 2689 of file TrackerMap.cc.

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

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

{
  int key = fedId*1000+fedCh;
  TmApvPair* apvpair = apvMap[key];
  if(apvpair!=0){
    return(apvpair->mod->idex);
  }
  return(0);
  std::cout << "*** error in FedTrackerMap module method ***";
}

int TrackerMap::nlayer ( int  det, int  part, int  lay  )

inline

Definition at line 450 of file TrackerMap.h.

Referenced by init().

                                      {
    if(det==3 && part==1) return lay;
    if(det==2 && part==1) return lay+9;
    if(det==1 && part==1) return lay+12;
    if(det==1 && part==3) return lay+15;
    if(det==2 && part==3) return lay+18;
    if(det==3 && part==3) return lay+21;
    if(det==1 && part==2) return lay+30;
    if(det==2 && part==2) return lay+33;
    if(det==3 && part==2) return lay+37;
    return -1; 
  }

void TrackerMap::onlyPixel ( bool  onlyPixelfl )

inline

Definition at line 131 of file TrackerMap.h.

References load(), onlyPixelFlag, reset(), and AlCaHLTBitMon_QueryRunRegistry::string.

{onlyPixelFlag=onlyPixelfl;};

double TrackerMap::phival ( double  x, double  y  )

inline

Definition at line 174 of file TrackerMap.h.

References M_PI, and phi.

Referenced by drawModule().

                                   {
    double phi;
    double phi1=atan(y/x);
    phi = phi1;
    if(y<0. && x>0) phi = phi1+2.*M_PI;
    if(x<0.)phi=phi1+M_PI;
    if(fabs(y)<0.000001 && x>0)phi=0;
    if(fabs(y)<0.000001&&x<0)phi=M_PI;
    if(fabs(x)<0.000001&&y>0)phi=M_PI/2.;
    if(fabs(x)<0.000001&&y<0)phi=3.*M_PI/2.;
      
    return phi;
  }

void TrackerMap::print	(	bool	print_total = true,
		float	minval = 0.,
		float	maxval = 0.,
		std::string	s = "svgmap"
	)

Definition at line 2434 of file TrackerMap.cc.

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

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

                                                                                            {
  temporary_file=false;
  std::ostringstream outs;
  minvalue=minval; maxvalue=maxval;
  outs << outputfilename << ".xml";
  svgfile = new std::ofstream(outs.str().c_str(),std::ios::out);
  jsfile = new std::ifstream(edm::FileInPath(jsfilename).fullPath().c_str(),std::ios::in);

  //copy javascript interface from trackermap.txt file
  std::string line;
  while (getline( *jsfile, line ))
        {
            *svgfile << line << std::endl;
        }
  jsfile->close();delete jsfile;
  //
 if(!print_total){
  for (int layer=1; layer < 44; layer++){
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
        if(mod !=0 && !mod->notInUse()){
          mod->value = mod->value / mod->count;
        }
      }
    }
  }
  }
  if(minvalue>=maxvalue){
  minvalue=9999999.;
  maxvalue=-9999999.;
  for (int layer=1; layer < 44; layer++){
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
        if(mod !=0 && !mod->notInUse()){
          if (minvalue > mod->value)minvalue=mod->value;
          if (maxvalue < mod->value)maxvalue=mod->value;
        }
      }
    }
  }
}
  for (int layer=1; layer < 44; layer++){
    //    nlay=layer;
    defwindow(layer);
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
    if(mod !=0 && !mod->notInUse()){
          drawModule(mod,key,layer,print_total,svgfile);
        }
      }
    }
  }
  *svgfile << "</svg:g></svg:svg>"<<std::endl;
  *svgfile << " <svg:text id=\"Title\" class=\"normalText\"  x=\"300\" y=\"0\">"<<title<<"</svg:text>"<<std::endl;
  if(printflag)drawPalette(svgfile);
  *svgfile << "</svg:svg>"<<std::endl;
  *svgfile << "</body></html>"<<std::endl;
   svgfile->close();delete svgfile;

}

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 3180 of file TrackerMap.cc.

References apvMap, apvModuleMap, ccuMap, mps_alisetup::command, gather_cfg::cout, enableFecProcessing, enableFedProcessing, enableHVProcessing, enableLVProcessing, fecModuleMap, l1t::stage2::layer2::fedId, fedMap, symbols::filetype, findfile(), firstcrate, firstRing, runEdmFileComparison::found, TmCcu::getCcuCrate(), TmApvPair::getFedCh(), TmApvPair::getFedId(), TmPsu::getPsuBoard(), TmPsu::getPsuRack(), TmPsu::idex, TmCcu::idex, TmApvPair::idex, TmModule::idex, crabWrapper::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, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, funct::pow(), printlayers(), psuMap, psuModuleMap, 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 ApeEstimator_cff::width.

                                                                                                          {
//Copy interface
 float minval,maxval; minval=minval1; maxval=maxval1; 
  if(tkMapLog && (minval<maxval)) {minval=pow(10.,minval1);maxval=pow(10.,maxval1);}
  std::string filetype=s,outputfilename=s;
  if(saveWebInterface){width=6000;height=3200;}
  else{ 
  size_t found=filetype.find_last_of(".");
  filetype=filetype.substr(found+1);
  found=outputfilename.find_last_of(".");
  outputfilename=outputfilename.substr(0,found);
  }
  std::ofstream * ofilename;
  std::ifstream * ifilename;
  std::ostringstream ofname;
  std::string ifname;
  std::string line;
  std::string command;
  if(saveWebInterface){
  ifilename=findfile("viewerHeader.xhtml");
  ofname << outputfilename << "viewer.html";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
*ofilename <<"    var tmapname=\"" <<outputfilename << "\""<<std::endl;
*ofilename <<"    var tmaptitle=\"" <<title << "\""<<std::endl;
*ofilename <<"    var ncrates=" <<ncrates << ";"<<std::endl;
*ofilename <<"    var nfeccrates=" <<nfeccrates << ";"<<std::endl;
*ofilename <<"    var npsuracks=" <<npsuracks << ";"<<std::endl;
   ifilename->close();delete ifilename;
  ifilename=findfile("viewerTrailer.xhtml");
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
   command = "sed -i \"s/XtmapnameX/"+outputfilename+"/g\" "+ ofname.str();
    std::cout << "Executing " << command << std::endl;
    system(command.c_str());
   command = "sed -i \"s/XtmaptitleX/"+title+"/g\" "+ ofname.str();
    std::cout << "Executing " << command << std::endl;
    system(command.c_str());
  ofname.str("");
  
ifilename=findfile("jqviewer.js");
  ofname << "jqviewer.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
 
  ofname.str("");
  ifilename=findfile("crate.js");
  ofname <<  "crate.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
 
  ofname.str("");
  ifilename=findfile("feccrate.js");
  ofname <<  "feccrate.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
 
  ofname.str("");
  ifilename=findfile("rack.js");
  ofname <<  "rack.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
 
   ofname.str("");
  ifilename=findfile("rackhv.js");
  ofname <<  "rackhv.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
   
   ofname.str("");
  ifilename=findfile("layer.js");
  ofname <<  "layer.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
  
   command = "scp -r ../../DQM/TrackerCommon/test/jquery/ .";
    std::cout << "Executing " << command << std::endl;
    system(command.c_str());
   command = "scp -r ../../CommonTools/TrackerMap/data/images/ .";
    std::cout << "Executing " << command << std::endl;
    system(command.c_str());
}
 
    std::ostringstream outs;
    outs << outputfilename<<".png";
    if(saveWebInterface)save(true,minval,maxval,outs.str(),3000,1600);
    else {if(saveGeoTrackerMap)save(true,minval,maxval,s,width,height);}
  if(saveWebInterface){
    std::ostringstream outs;
    outs << outputfilename<<".png";
temporary_file=false;
printlayers(true,minval,maxval,outputfilename);

//Now print a text file for each layer 
  std::ofstream * txtfile;
for (int layer=1; layer < 44; layer++){
  std::ostringstream outs;
    outs << outputfilename <<"layer"<<layer<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
    if(mod !=0 && !mod->notInUse()){
            int idmod=mod->idex;
            int nchan=0;
            *txtfile  << "<a name="<<idmod<<"><pre>"<<std::endl;
             std::multimap<const int, TmApvPair*>::iterator pos;
             for (pos = apvModuleMap.lower_bound(idmod);
                pos != apvModuleMap.upper_bound(idmod); ++pos) {
               TmApvPair* apvpair = pos->second;
               if(apvpair!=0){
                   nchan++;
                   *txtfile  <<  apvpair->text << std::endl;
                    }

                    }
                   *txtfile  << "</pre><h3>"<< mod->name<<"</h3>"<<std::endl;
                  }
                }
                }
    *txtfile << "</body></html>" << std::endl;
    txtfile->close();delete txtfile;
}
                }
if(enableFedProcessing){
  std::ostringstream outs1,outs2;
    if(saveWebInterface)outs1 << outputfilename<<"fed.png";
        else outs1 << outputfilename<<"fed."<<filetype;
save_as_fedtrackermap(true,0.,0.,outs1.str(),width,height);
  if(saveWebInterface){
    outs2 << outputfilename<<".xml";
save_as_fedtrackermap(true,0.,0.,outs2.str(),3000,1600);
//And a text file for each crate 
  std::map<int , int>::iterator i_fed;
  std::ofstream * txtfile;
  for (int crate=firstcrate; crate < (ncrates+1); crate++){
    std::ostringstream outs;
    outs << outputfilename <<"crate"<<crate<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
    for (i_fed=fedMap.begin();i_fed != fedMap.end(); i_fed++){
      if(i_fed->second == crate){
    int fedId = i_fed->first;
    for (int nconn=0;nconn<96;nconn++){
      int key = fedId*1000+nconn; 
      TmApvPair *  apvPair= apvMap[key];
      if(apvPair !=0){
            int idmod=apvPair->idex;
            *txtfile  << "<a name="<<idmod<<"><pre>"<<std::endl;
            *txtfile  <<  apvPair->text << std::endl;
        std::ostringstream outs;
            outs << "fedchannel "  <<apvPair->getFedId() << "/"<<apvPair->getFedCh()<<" connects to module  " << apvPair->mod->idex ;
            *txtfile  << "</pre><h3>"<< outs.str()<<"</h3>"<<std::endl;
             }
          }
      }
      }
    *txtfile << "</body></html>" << std::endl;
    txtfile->close();delete txtfile;
                }
   }
  }
if(enableFecProcessing){
  std::ostringstream outs1,outs2;
    if(saveWebInterface)outs1 << outputfilename<<"fec.png";
        else outs1 << outputfilename<<"fec."<<filetype;
save_as_fectrackermap(true,0.,0.,outs1.str(),width,height);
  if(saveWebInterface){
    outs2 << outputfilename<<".xml";
save_as_fectrackermap(true,0.,0.,outs2.str(),3000,1600);
//And a text file for each crate
  std::ofstream * txtfile;
  std::map<int , TmCcu *>::iterator i_ccu;
  std::multimap<TmCcu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
  for (int crate=1; crate < (nfeccrates+1); crate++){
    std::ostringstream outs;
    outs << outputfilename <<"feccrate"<<crate<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
    for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
     TmCcu *  ccu= i_ccu->second;
      if(ccu!=0&&ccu->getCcuCrate() == crate){
            int idmod=ccu->idex;
            *txtfile  << "<a name="<<idmod<<"><pre>"<<std::endl;
            *txtfile  <<  ccu->text << std::endl;
        std::ostringstream outs;
            if(ccu->nmod==0)outs << "ccu  is in position" << ccu->mpos<<"in ring but doesn't seem to have any module connected"; else
            {
            outs << "ccu  is in position " << ccu->mpos<<" in ring and connects  " <<ccu->nmod<< " modules" << std::endl;
            ret = fecModuleMap.equal_range(ccu);
        for (it = ret.first; it != ret.second; ++it)
          {
           outs << (*it).second->idex<<" " << (*it).second->name <<" value= "<< (*it).second->value<<"\n\n";
          }

            *txtfile  << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
          }//ifccu->nmod==0
      }//if ccu!=0
      }//for i_ccu
    *txtfile << "</body></html>" << std::endl;
    txtfile->close();
                }//for int crate
  }
  }
if(enableLVProcessing){
  std::ostringstream outs3,outs4;
    if(saveWebInterface)outs3 << outputfilename<<"psu.png";
        else outs3 << outputfilename<<"psu."<<filetype;
save_as_psutrackermap(true,0.,0.,outs3.str(),width,height);
  if(saveWebInterface){
    outs4 << outputfilename<<".xml";
save_as_psutrackermap(true,0.,0.,outs4.str(),3000,1600);
//And a text file for each rack 
  
  std::ofstream * txtfile;
  std::map<int , TmPsu *>::iterator ipsu;
  std::multimap<TmPsu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
  for (int rack=1; rack < (npsuracks+1); rack++){
    std::ostringstream outs;
    
    outs << outputfilename <<"psurack"<<rack<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
     for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu!=0 && psu->getPsuRack() == rack){
    *txtfile  << "<a name="<<psu->idex<<"><pre>"<<std::endl;      
        *txtfile  <<  psu->text << std::endl;
    std::ostringstream outs;
        if(psu->nmod==0)outs << "Ps is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
    {
    outs<< "PS is in position "  <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmod<<" modules. "<<std::endl;
        
    ret = psuModuleMap.equal_range(psu);
    for (it = ret.first; it != ret.second; ++it)
      {
       outs <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;
       
      }
    *txtfile  << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
     }
    }
  }
  *txtfile << "</body></html>" << std::endl;
   txtfile->close();
  }
  }
 } 


if(enableHVProcessing){
  std::ostringstream outs5,outs6;
    if(saveWebInterface)outs5 << outputfilename<<"hv.png";
        else outs5 << outputfilename<<"hv."<<filetype;
save_as_HVtrackermap(true,0.,0.,outs5.str(),width,height);
  if(saveWebInterface){
    outs6 << outputfilename<<".xml";
save_as_HVtrackermap(true,0.,0.,outs6.str(),3000,1600);
//And a text file for each rack 

  std::ofstream * txtfile;
  std::map<int , TmPsu *>::iterator ipsu;
  std::multimap<TmPsu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
  for (int rack=1; rack < (npsuracks+1); rack++){
    std::ostringstream outs;
    
    outs << outputfilename <<"HVrack"<<rack<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
     for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu!=0 && psu->getPsuRack() == rack){
    *txtfile  << "<a name="<<psu->idex<<"><pre>"<<std::endl;      
        *txtfile  <<  psu->textHV2 << std::endl;
    std::ostringstream outsHV2;
        if(psu->nmodHV2==0)outsHV2 << "HV Channel002 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
    {
    outsHV2<< "HV Channel002 is in position "  <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV2<<" modules. "<<" <br>"<<std::endl;
        
    ret = psuModuleMap.equal_range(psu);
    for (it = ret.first; it != ret.second; ++it)
      {
       if((*it).second->HVchannel==2){outsHV2 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
      }
    *txtfile  << "</pre><h4>"<< outsHV2.str()<<"</h4>"<<std::endl;
     }
    
        *txtfile  <<  psu->textHV3 << std::endl;
    std::ostringstream outsHV3;
        if(psu->nmodHV3==0)outsHV3 << "HV Channel003 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
    {
    outsHV3<< "HV Channel003 is in position "  <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV3<<" modules. "<<" <br>"<<std::endl;
        
    ret = psuModuleMap.equal_range(psu);
    for (it = ret.first; it != ret.second; ++it)
      {
       if((*it).second->HVchannel==3){outsHV3 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
      }
    *txtfile  << "</pre><h4>"<< outsHV3.str()<<"</h4>"<<std::endl;
     }
   
    }
  }
  *txtfile << "</body></html>" << std::endl;
   txtfile->close();
  }
 } 
 } 


}

void TrackerMap::printlayers	(	bool	print_total = true,
		float	minval = 0.,
		float	maxval = 0.,
		std::string	s = "layer"
	)

Definition at line 3528 of file TrackerMap.cc.

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

Referenced by printall(), and printonline().

                                                                                                  {
  std::ofstream * xmlfile;
saveAsSingleLayer=true;
if(!print_total){
    for (int layer=1; layer < 44; layer++){
      for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
    for (int module=1;module<200;module++) {
      int key=layer*100000+ring*1000+module;
      TmModule * mod = smoduleMap[key];
      if(mod !=0 && !mod->notInUse()){
        mod->value = mod->value / mod->count;
      }
    }
      }
    }
  }
  if(minvalue>=maxvalue){
    minvalue=9999999.;
    maxvalue=-9999999.;
    for (int layer=1; layer < 44; layer++){
      for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
    for (int module=1;module<200;module++) {
      int key=layer*100000+ring*1000+module;
      TmModule * mod = smoduleMap[key];
      if(mod !=0 && !mod->notInUse()){
        if (minvalue > mod->value)minvalue=mod->value;
        if (maxvalue < mod->value)maxvalue=mod->value;
      }
    }
      }
    }
  }
for (int layer=1; layer < 44; layer++){
  std::ostringstream outs;
    outs << outputfilename <<"layer"<<layer<< ".xml";
    xmlfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *xmlfile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
    *xmlfile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
    *xmlfile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
    *xmlfile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
    *xmlfile << "<script type=\"text/ecmascript\" xlink:href=\"layer.js\" />"<<std::endl;
    *xmlfile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0  500 500\" width=\"700\" height=\"700\" onload=\"TrackerLayer.init()\">"<<std::endl;
    if(layer<31)*xmlfile << "<g id=\"layer\" transform=\" translate(0,400) rotate(270) scale(1.,1.)\"  > "<<std::endl;
    else *xmlfile << "<g id=\"layer\" transform=\" translate(0,400) rotate(270) scale(1.,0.8)\"  > "<<std::endl;
    *xmlfile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
    *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;
    *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;
    *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;
    *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;
    *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;
  
    //    nlay=layer;
    defwindow(layer);
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
    if(mod !=0 && !mod->notInUse()){
          drawModule(mod,key,layer,print_total,xmlfile);
        }
      }
    }
    *xmlfile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\">" << std::endl;
    *xmlfile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
    *xmlfile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
    *xmlfile << "<tspan id=\"line3\" x=\"40\" y=\"90\"> </tspan> " << std::endl;
    *xmlfile << "<tspan id=\"line4\" x=\"40\" y=\"120\"> </tspan> " << std::endl;
    if(layer > 33){
    *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;
    *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;
    *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;
    *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;
    *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;
    }
    else{
    *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;
    *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;
    *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;
    *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;
    *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;
    }
    *xmlfile << " </text> </svg>" << std::endl;
    xmlfile->close();delete xmlfile;
  }
saveAsSingleLayer=false;
}

void TrackerMap::printonline

(

)

Definition at line 2879 of file TrackerMap.cc.

References apvMap, apvModuleMap, ccuMap, mps_alisetup::command, gather_cfg::cout, enableFecProcessing, enableFedProcessing, enableHVProcessing, enableLVProcessing, fecModuleMap, l1t::stage2::layer2::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, crabWrapper::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, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, printlayers(), psuMap, psuModuleMap, 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().

                            {
//Copy interface
  std::ofstream * ofilename;
  std::ifstream * ifilename;
  std::ostringstream ofname;
  std::string ifname;
  std::string command;
  std::string line;
  std::string outputfilename="dqmtmap";
  ifilename=findfile("viewerHeader.xhtml");
  ofname << outputfilename << "viewer.html";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
*ofilename <<"    var tmapname=\"" <<outputfilename << "\""<<std::endl;
*ofilename <<"    var tmaptitle=\"" <<title << "\""<<std::endl;
*ofilename <<"    var ncrates=" <<ncrates << ";"<<std::endl;
*ofilename <<"    var nfeccrates=" <<nfeccrates << ";"<<std::endl;
 *ofilename <<"    var npsuracks=" <<npsuracks << ";"<<std::endl;
 
   ifilename->close();delete ifilename;

  ifilename=findfile("viewerTrailer.xhtml");
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofilename->close();delete ofilename;
   command = "sed -i \"s/XtmapnameX/"+outputfilename+"/g\" "+ ofname.str();
    std::cout << "Executing " << command << std::endl;
    system(command.c_str());
   command = "sed -i \"s/XtmaptitleX/"+title+"/g\" "+ ofname.str();
    std::cout << "Executing " << command << std::endl;
    system(command.c_str());
  ofname.str("");
   ifilename->close();delete ifilename;

  ifilename=findfile("jqviewer.js");
  ofname << "jqviewer.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
  ofname.str("");
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;

  ifilename=findfile("crate.js");
  ofname <<  "crate.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
  ofname.str("");
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;

  ifilename=findfile("feccrate.js");
  ofname <<  "feccrate.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
  ofname.str("");
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
  
  ifilename=findfile("layer.js");
  ofname <<  "layer.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofname.str("");
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
  
  ifilename=findfile("rack.js");
  ofname <<  "rack.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofname.str("");
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
   ofname.str("");
  
  ifilename=findfile("rackhv.js");
  ofname <<  "rackhv.js";
  ofilename = new std::ofstream(ofname.str().c_str(),std::ios::out);
  while (getline( *ifilename, line )) { *ofilename << line << std::endl; }
   ofname.str("");
   ofilename->close();delete ofilename;
   ifilename->close();delete ifilename;
    
    
    
    
   std::ostringstream outs,outs1,outs2;
    outs << outputfilename<<".png";
save(true,gminvalue,gmaxvalue,outs.str(),3000,1600);
temporary_file=false;
printlayers(true,gminvalue,gmaxvalue,outputfilename);

//Now print a text file for each layer 
  std::ofstream * txtfile;
for (int layer=1; layer < 44; layer++){
  std::ostringstream outs;
    outs << outputfilename <<"layer"<<layer<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
    if(mod !=0 && !mod->notInUse()){
            int idmod=mod->idex;
            int nchan=0;
            *txtfile  << "<a name="<<idmod<<"><pre>"<<std::endl;
             std::multimap<const int, TmApvPair*>::iterator pos;
             for (pos = apvModuleMap.lower_bound(idmod);
                pos != apvModuleMap.upper_bound(idmod); ++pos) {
               TmApvPair* apvpair = pos->second;
               if(apvpair!=0){
                   nchan++;
                   *txtfile  <<  apvpair->text << std::endl;
                    }

                    }
                   *txtfile  << "</pre><h3>"<< mod->name<<"</h3>"<<std::endl;
                  }
                }
                }
    *txtfile << "</body></html>" << std::endl;
    txtfile->close();delete txtfile;
                }
if(enableFedProcessing){
    outs1 << outputfilename<<"fed.png";
save_as_fedtrackermap(true,gminvalue,gmaxvalue,outs1.str(),6000,3200);
    outs2 << outputfilename<<".xml";
save_as_fedtrackermap(true,gminvalue,gmaxvalue,outs2.str(),3000,1600);
//And a text file for each crate 
  std::map<int , int>::iterator i_fed;
  std::ofstream * txtfile;
  for (int crate=firstcrate; crate < (ncrates+1); crate++){
    std::ostringstream outs;
    outs << outputfilename <<"crate"<<crate<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
    for (i_fed=fedMap.begin();i_fed != fedMap.end(); i_fed++){
      if(i_fed->second == crate){
    int fedId = i_fed->first;
    for (int nconn=0;nconn<96;nconn++){
      int key = fedId*1000+nconn; 
      TmApvPair *  apvPair= apvMap[key];
      if(apvPair !=0){
            int idmod=apvPair->idex;
            *txtfile  << "<a name="<<idmod<<"><pre>"<<std::endl;
            *txtfile  <<  apvPair->text << std::endl;
        std::ostringstream outs;
            outs << "fedchannel "  <<apvPair->getFedId() << "/"<<apvPair->getFedCh()<<" connects to module  " << apvPair->mod->idex ;
            *txtfile  << "</pre><h3>"<< outs.str()<<"</h3>"<<std::endl;
             }
          }
      }
      }
    *txtfile << "</body></html>" << std::endl;
    txtfile->close();delete txtfile;
                }
  }
if(enableFecProcessing){
  std::ostringstream outs1,outs2;
    outs1 << outputfilename<<"fec.png";
save_as_fectrackermap(true,gminvalue,gmaxvalue,outs1.str(),6000,3200);
    outs2 << outputfilename<<".xml";
save_as_fectrackermap(true,gminvalue,gmaxvalue,outs2.str(),3000,1600);
//And a text file for each crate
  std::ofstream * txtfile;
  std::map<int , TmCcu *>::iterator i_ccu;
  std::multimap<TmCcu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
  for (int crate=1; crate < (nfeccrates+1); crate++){
    std::ostringstream outs;
    outs << outputfilename <<"feccrate"<<crate<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
    for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
     TmCcu *  ccu= i_ccu->second;
      if(ccu!=0&&ccu->getCcuCrate() == crate){
            int idmod=ccu->idex;
            *txtfile  << "<a name="<<idmod<<"><pre>"<<std::endl;
            *txtfile  <<  ccu->text << std::endl;
        std::ostringstream outs;
            if(ccu->nmod==0)outs << "ccu  is in position" << ccu->mpos<<"in ring but doesn't seem to have any module connected"; else
            {
            outs << "ccu  is in position " << ccu->mpos<<" in ring and connects  " <<ccu->nmod<< " modules" << std::endl;
            ret = fecModuleMap.equal_range(ccu);
        for (it = ret.first; it != ret.second; ++it)
          {
           outs << (*it).second->idex<<" " << (*it).second->name <<" value= "<< (*it).second->value<<"\n\n";
          }

            *txtfile  << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
          }//ifccu->nmod==0
      }//if ccu!=0
      }//for i_ccu
    *txtfile << "</body></html>" << std::endl;
    txtfile->close();delete txtfile;
                }//for int crate
  }
if(enableLVProcessing){
  std::ostringstream outs3,outs4;
    outs3 << outputfilename<<"psu.png";
save_as_psutrackermap(true,gminvalue,gmaxvalue,outs3.str(),6000,3200);

    outs4 << outputfilename<<".xml";
save_as_psutrackermap(true,gminvalue,gmaxvalue,outs4.str(),3000,1600);
//And a text file for each rack 
  
  std::ofstream * txtfile;
  std::map<int , TmPsu *>::iterator ipsu;
  std::multimap<TmPsu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
  for (int rack=1; rack < (npsuracks+1); rack++){
    std::ostringstream outs;
    
    outs << outputfilename <<"psurack"<<rack<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
     for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu!=0 && psu->getPsuRack() == rack){
    *txtfile  << "<a name="<<psu->idex<<"><pre>"<<std::endl;      
        *txtfile  <<  psu->text << std::endl;
    std::ostringstream outs;
        if(psu->nmod==0)outs << "Ps is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
    {
    outs<< "PS is in position "  <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmod<<" modules. "<<std::endl;
        
    ret = psuModuleMap.equal_range(psu);
    for (it = ret.first; it != ret.second; ++it)
      {
       outs <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;
       
      }
    *txtfile  << "</pre><h4>"<< outs.str()<<"</h4>"<<std::endl;
     }
    }
  }
  *txtfile << "</body></html>" << std::endl;
   txtfile->close();delete txtfile;
  }
 } 


if(enableHVProcessing){
  std::ostringstream outs5,outs6;
    outs5 << outputfilename<<"hv.png";
save_as_HVtrackermap(true,gminvalue,gmaxvalue,outs5.str(),6000,3200);

    outs6 << outputfilename<<".xml";
save_as_HVtrackermap(true,gminvalue,gmaxvalue,outs6.str(),3000,1600);
//And a text file for each rack 

 std::ofstream * txtfile;
  std::map<int , TmPsu *>::iterator ipsu;
  std::multimap<TmPsu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
  for (int rack=1; rack < (npsuracks+1); rack++){
    std::ostringstream outs;
    
    outs << outputfilename <<"HVrack"<<rack<< ".html";
    txtfile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *txtfile << "<html><head></head> <body>" << std::endl;
     for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu!=0 && psu->getPsuRack() == rack){
    *txtfile  << "<a name="<<psu->idex<<"><pre>"<<std::endl;      
        *txtfile  <<  psu->textHV2 << std::endl;
    std::ostringstream outsHV2;
        if(psu->nmodHV2==0)outsHV2 << "HV Channel002 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
    {
    outsHV2<< "HV Channel002 is in position "  <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV2<<" modules. "<<" <br>"<<std::endl;
        
    ret = psuModuleMap.equal_range(psu);
    for (it = ret.first; it != ret.second; ++it)
      {
       if((*it).second->HVchannel==2){outsHV2 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
      }
    *txtfile  << "</pre><h4>"<< outsHV2.str()<<"</h4>"<<std::endl;
     }
    
        *txtfile  <<  psu->textHV3 << std::endl;
    std::ostringstream outsHV3;
        if(psu->nmodHV3==0)outsHV3 << "HV Channel003 is in position" << psu->getPsuBoard()<<"in crate but doesn't seem to have any module connected"; else
    {
    outsHV3<< "HV Channel003 is in position "  <<psu->getPsuBoard()<< " in crate and connects to "<<psu->nmodHV3<<" modules. "<<" <br>"<<std::endl;
        
    ret = psuModuleMap.equal_range(psu);
    for (it = ret.first; it != ret.second; ++it)
      {
       if((*it).second->HVchannel==3){outsHV3 <<(*it).second->idex << " "<< (*it).second->name<<" value= "<<(*it).second->value<<" <br>"<<std::endl;}
      }
    *txtfile  << "</pre><h4>"<< outsHV3.str()<<"</h4>"<<std::endl;
     }
   
    }
  }
  *txtfile << "</body></html>" << std::endl;
   txtfile->close();delete txtfile;
  }
 } 
 
}

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__(), data_sources.json_list::next(), onlyPixel(), and MatrixReader.MatrixReader::showRaw().

                       {
std::map<int , TmModule *>::iterator i_mod;
    for( i_mod=imoduleMap.begin();i_mod !=imoduleMap.end(); i_mod++){
      TmModule *  mod= i_mod->second;
      mod->count=0;mod->value=0;mod->red=-1;
      }
}

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 698 of file TrackerMap.cc.

References addPixelFlag, EnergyCorrector::c, cuy::col, mps_alisetup::command, TmModule::count, gather_cfg::cout, defwindow(), drawModule(), drawPalette(), corrVsCorr::filename, symbols::filetype, firstRing, runEdmFileComparison::found, cmsRelvalreport::green(), mps_fire::i, recoMuon::in, crabWrapper::key, checklumidiff::l, cmsBatch::log, maxvalue, minvalue, mod(), module(), TmModule::notInUse(), npoints, ntotRing, onlyPixelFlag, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, printflag, cmsRelvalreport::red(), relativeConstraints::ring, alignCSCRings::s, savefile, saveGeoTrackerMap, smoduleMap, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmModule::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(), SiStripPlotGain::endJob(), SiStripCorrelateBadStripAndNoise::endJob(), BuildTrackerMapPlugin::endJob(), DetIdSelectorTest::endJob(), SiStripHitEffFromCalibTree::makeTKMap(), printall(), printonline(), SpecificationBuilder_cfi.Specification::saveAll(), and SiStripBaseCondObjDQM::saveTkMap().

                                                                                                  {

  printflag=true;
  bool rangefound = true; 
  if(saveGeoTrackerMap){ 
  std::string filetype=s,outputfilename=s;
  std::vector<TPolyLine*> vp;
  TGaxis *axis = 0 ;
  size_t found=filetype.find_last_of(".");
  filetype=filetype.substr(found+1);
  found=outputfilename.find_last_of(".");
  outputfilename=outputfilename.substr(0,found);
  //outputfilename.erase(outputfilename.begin()+outputfilename.find("."),outputfilename.end());
  temporary_file=true;
  if(filetype=="svg")temporary_file=false;
  std::ostringstream outs;
  minvalue=minval; maxvalue=maxval;
  outs << outputfilename << ".coor";
  savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  if(!print_total){
    for (int layer=1; layer < 44; layer++){
      for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
    for (int module=1;module<200;module++) {
      int key=layer*100000+ring*1000+module;
      TmModule * mod = smoduleMap[key];
      if(mod !=0 && !mod->notInUse()){
        mod->value = mod->value / mod->count;
      }
    }
      }
    }
  }
  
  if(minvalue>=maxvalue){
    minvalue=9999999.;
    maxvalue=-9999999.;
    rangefound=false;
    for (int layer=1; layer < 44; layer++){
      for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
    for (int module=1;module<200;module++) {
      int key=layer*100000+ring*1000+module;
      TmModule * mod = smoduleMap[key];
      if(mod !=0 && !mod->notInUse()  && mod->count>0){
        rangefound=true;
        if (minvalue > mod->value)minvalue=mod->value;
        if (maxvalue < mod->value)maxvalue=mod->value;
      }
    }
      }
    }
  }
  if ((title.find("QTestAlarm")!=std::string::npos) || (maxvalue == minvalue)||!rangefound) printflag = false;
  if(!temporary_file){
    *savefile << "<?xml version=\"1.0\"  standalone=\"no\" ?>"<<std::endl;
    *savefile << "<svg  xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
    *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
    *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3100 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
    *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3100\" height=\"1600\" /> "<<std::endl; 
    *savefile << "<svg:g id=\"tracker\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
  }
  for (int layer=1; layer < 44; layer++){
    //    nlay=layer;
    defwindow(layer);
    for (int ring=firstRing[layer-1]; ring < ntotRing[layer-1]+firstRing[layer-1];ring++){
      for (int module=1;module<200;module++) {
        int key=layer*100000+ring*1000+module;
        TmModule * mod = smoduleMap[key];
    if(mod !=0 && !mod->notInUse()){
          drawModule(mod,key,layer,print_total,savefile);
        }
      }
    }
  }
  
  if(!temporary_file){
    *savefile << "</svg:g>"<<std::endl;
    *savefile << " <svg:text id=\"Title\" class=\"normalText\"  x=\"300\" y=\"0\">"<<title<<"</svg:text>"<<std::endl;
  }
  
  if(printflag) {
    if(onlyPixelFlag) {drawPalette(savefile,-30);}
    else {drawPalette(savefile);}
  }
  if(!temporary_file){
    *savefile << "</svg:svg>"<<std::endl;
    *savefile << "</svg>"<<std::endl;
  }
  savefile->close(); delete savefile;
  
  const char * command1;
  std::string tempfilename = outputfilename + ".coor";
  if(filetype=="svg"){
    std::string command = "mv "+tempfilename +" " +outputfilename + ".svg";
    command1=command.c_str();
    std::cout << "Executing " << command1 << std::endl;
    system(command1);
  }
  

  if (temporary_file){ // create root trackermap image
    int red,green,blue,npoints,colindex,ncolor;
    double x[4],y[4];
    std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
    TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
    gPad->SetFillColor(38);
    
    if(addPixelFlag) {gPad->Range(0,0,3800,1600);}
    else if(onlyPixelFlag) {gPad->Range(-100,0,800,1600);}
    else {gPad->Range(800,0,3800,1600);}
    
    //First  build palette
    ncolor=0;
    typedef std::map<int,int> ColorList;
    ColorList colorList;
    ColorList::iterator pos;
    TColor *col, *c;
    std::cout<<"tempfilename "<<tempfilename<<std::endl;
    while(!tempfile.eof()) {
      tempfile  >> red >> green  >> blue >> npoints; 
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos == colorList.end()){ colorList[colindex]=ncolor+100; col =gROOT->GetColor(ncolor+100);
    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++;}
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
    }
    
    if(ncolor>0 && ncolor<10000){
      Int_t colors[10000];
      for(int i=0;i<ncolor;i++){colors[i]=i+100;}
      gStyle->SetPalette(ncolor,colors);
    }
    
    tempfile.clear();
    tempfile.seekg(0,std::ios::beg);
    std::cout << "created palette with " << ncolor << " colors" << std::endl;
    
    while(!tempfile.eof()) {//create polylines
      tempfile  >> red >> green  >> blue >> npoints; 
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos != colorList.end()){
        TPolyLine*  pline = new TPolyLine(npoints,y,x);
        vp.push_back(pline);
        pline->SetFillColor(colorList[colindex]);
        pline->SetLineWidth(0);
        pline->Draw("f");
      }
    }
    if (printflag) {
      float lminvalue=minvalue; float lmaxvalue=maxvalue;
      if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
      if(onlyPixelFlag) {axis = new TGaxis(-30,36,-30,1530,lminvalue,lmaxvalue,510,"+L");}
      else {axis = new TGaxis(3660,36,3660,1530,lminvalue,lmaxvalue,510,"+L");}
      axis->SetLabelSize(0.02);
      axis->Draw();
    }
    TLatex l;
    l.SetTextSize(0.03);
    l.DrawLatex(950,1330,"TID");
    l.DrawLatex(2300,1330,"TEC");
    l.DrawLatex(300,1330,"FPIX");
    l.DrawLatex(20,560,"BPIX L1");
    l.DrawLatex(500,385,"BPIX L2");
    l.DrawLatex(500,945,"BPIX L3");
    l.SetTextSize(0.04);
    std::string fulltitle = title;
    if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
    if(onlyPixelFlag) {l.DrawLatex(30,1500,fulltitle.c_str());} 
    else {l.DrawLatex(850,1500,fulltitle.c_str());}
    if(onlyPixelFlag) {l.DrawLatex(380,40,"-z");}
    else {l.DrawLatex(1730,40,"-z");}
    if(onlyPixelFlag) {l.DrawLatex(380,1330,"+z");}
    else {l.DrawLatex(1730,1360,"+z");}
    l.DrawLatex(1085,330,"TIB L1");
    l.DrawLatex(1085,1000,"TIB L2");
    l.DrawLatex(1585,330,"TIB L3");
    l.DrawLatex(1585,1000,"TIB L4");
    l.DrawLatex(2085,330,"TOB L1");
    l.DrawLatex(2085,1000,"TOB L2");
    l.DrawLatex(2585,330,"TOB L3");
    l.DrawLatex(2585,1000,"TOB L4");
    l.DrawLatex(3085,330,"TOB L5");
    l.DrawLatex(3085,1000,"TOB L6");
    TArrow arx(3448,1190,3448,1350,0.01,"|>");
    l.DrawLatex(3460,1350,"x");
    TArrow ary(3448,1190,3312,1190,0.01,"|>");
    l.DrawLatex(3312,1210,"y");
    TArrow arz(3485,373,3485,676,0.01,"|>");
    l.DrawLatex(3510,667,"z");
    TArrow arphi(3485,511,3037,511,0.01,"|>");
    l.DrawLatex(3023,520,"#Phi");
    arx.SetLineWidth(3);
    ary.SetLineWidth(3);
    arz.SetLineWidth(3);
    arphi.SetLineWidth(3);
    if(onlyPixelFlag) {
      arx.SetX1(570);arx.SetX2(570);arx.SetY1(1190);arx.SetY2(1350);
      l.DrawLatex(570+12,1190+160,"x");
      ary.SetX1(570);ary.SetX2(570-160);ary.SetY1(1190);ary.SetY2(1190);
      l.DrawLatex(570-160,1190+30,"y");
      arz.SetX1(380);arz.SetX2(380);arz.SetY1(683-100);arz.SetY2(683+100);
      l.DrawLatex(380+15,683+100-9,"z");
      arphi.SetX1(380);arphi.SetX2(380-390);arphi.SetY1(683);arphi.SetY2(683);
      l.DrawLatex(380-390-14,683+9,"#Phi");
    }
    arx.Draw();
    ary.Draw();
    arz.Draw();
    arphi.Draw();
    MyC->Update();
    if(filetype=="png"){
      
      std::string filename = outputfilename + ".png";
      std::cout << "printing " <<filename<< std::endl;
      MyC->Print(filename.c_str());
    }
    if(filetype=="jpg"){
      std::string filename = outputfilename + ".jpg";
      MyC->Print(filename.c_str());
    }
    if(filetype=="pdf"){
      std::string filename = outputfilename + ".pdf";
      MyC->Print(filename.c_str());
    }
    std::string command = "rm "+tempfilename ;
    command1=command.c_str();
    std::cout << "Executing " << command1 << std::endl;
    system(command1);
    MyC->Clear();
    delete MyC;
    if (printflag)delete axis;
    for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
      delete (*pos1);}
    
  }
  }
  return;
}

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 1302 of file TrackerMap.cc.

References TmCcu::blue, EnergyCorrector::c, ccuMap, cuy::col, mps_alisetup::command, TmCcu::count, gather_cfg::cout, deffecwindow(), drawCcu(), drawPalette(), enableFecProcessing, fecModuleMap, corrVsCorr::filename, symbols::filetype, runEdmFileComparison::found, TmCcu::getCcuCrate(), TmCcu::getCcuSlot(), TmCcu::green, cmsRelvalreport::green(), mps_fire::i, recoMuon::in, checklumidiff::l, cmsBatch::log, maxvalue, minvalue, nfeccrates, TmCcu::nmod, npoints, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, printflag, TmCcu::red, cmsRelvalreport::red(), alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmCcu::value, vc, x, and y.

Referenced by printall(), and printonline().

                                                                                                                   {

 if(enableFecProcessing){
  std::string filetype=s,outputfilename=s;
  std::vector<TPolyLine*> vp;
  TGaxis *axis = 0 ;
  size_t found=filetype.find_last_of(".");
  filetype=filetype.substr(found+1);
  found=outputfilename.find_last_of(".");
  outputfilename=outputfilename.substr(0,found); 
  temporary_file=true;
  if(filetype=="xml"||filetype=="svg")temporary_file=false;
  std::ostringstream outs;
  minvalue=minval; maxvalue=maxval;
  outs << outputfilename << ".coor";
  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
   std::map<int , TmCcu *>::iterator i_ccu;
   std::multimap<TmCcu*, TmModule*>::iterator it;
   std::pair<std::multimap<TmCcu*, TmModule*>::iterator,std::multimap<TmCcu*, TmModule*>::iterator> ret;
  //Decide if we must use Module or Ccu value
  bool useCcuValue=false;
  
  
  for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
    TmCcu *  ccu= i_ccu->second;
    if(ccu!=0) {
        if(ccu->count > 0 || ccu->red!=-1) { useCcuValue=true; break;}
      }
    }
 
  
  if(!useCcuValue)//store mean of connected modules value{
    for(  i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
    TmCcu *  ccu= i_ccu->second;
      if(ccu!=0) {
            ret = fecModuleMap.equal_range(ccu);
        for (it = ret.first; it != ret.second; ++it)
          {
           if( (*it).second->count>0){ccu->value=ccu->value+(*it).second->value;ccu->count++;}
          }
          if(ccu->count>0)ccu->value=ccu->value/ccu->count;
          if(ccu->nmod==0)  { ccu->red=0;ccu->green=0;ccu->blue=0;}
          }
          }
  
 
  if(title.find("QTestAlarm")!=std::string::npos){
      for(  i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
          TmCcu *  ccu= i_ccu->second;
          if(ccu!=0) {
        ret = fecModuleMap.equal_range(ccu);
        ccu->red=0;ccu->green=255;ccu->blue=0;
        for (it = ret.first; it != ret.second; ++it) {
              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 ) ){
        ccu->red=255;ccu->green=0;ccu->blue=0;
        }
          }
       }
      }
   }
  

  
  if(!print_total){
    for(  i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
    TmCcu *  ccu= i_ccu->second;
      if(ccu!=0) {
          if(useCcuValue) ccu->value = ccu->value / ccu->count;

        }
    }
  }
 
  if(minvalue>=maxvalue){

    minvalue=9999999.;
    maxvalue=-9999999.;
    for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
       TmCcu *  ccu= i_ccu->second;
       if(ccu!=0 && ccu->count>0) {
              if (minvalue > ccu->value)minvalue=ccu->value;
              if (maxvalue < ccu->value)maxvalue=ccu->value;
        }
    }
  }


  
 if(filetype=="svg"){
      saveAsSingleLayer=false;
      std::ostringstream outs;
    outs << outputfilename<<".svg";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  *savefile << "<?xml version=\"1.0\"  standalone=\"no\" ?>"<<std::endl;
  *savefile << "<svg  xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl;
  *savefile << "<svg:g id=\"fedtrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
     }
  for (int crate=1; crate < (nfeccrates+1); crate++){
    if(filetype=="xml"){
      saveAsSingleLayer=true;
      std::ostringstream outs;
    outs << outputfilename<<"feccrate" <<crate<< ".xml";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
    *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
    *savefile << "<script type=\"text/ecmascript\" xlink:href=\"feccrate.js\" />"<<std::endl;
    *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0  500 500\" width=\"700\" height=\"700\" onload=\"TrackerCrate.init()\">"<<std::endl;
    *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
    *savefile << "<g id=\"crate\" transform=\" translate(280,580) rotate(270) scale(.7,.8)\"  > "<<std::endl;
         }
    //    ncrate=crate;
    deffecwindow(crate);
 
    for ( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
      TmCcu *  ccu= i_ccu->second;
      if(ccu!=0){
        if(ccu->getCcuCrate() == crate){
              
          drawCcu(crate,ccu->getCcuSlot()-2,print_total,ccu,savefile,useCcuValue);
        }
      }
    }
 
   if(!temporary_file){
    if(filetype=="xml"){
    *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
    *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
    *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
    *savefile << " </text> </svg>" << std::endl;
    savefile->close();
     saveAsSingleLayer=false;
      }
      }
    }
    if(filetype=="svg"){
    *savefile << "</g> </svg> </svg> " << std::endl;
    savefile->close();
      }
  if(!print_total && !useCcuValue){
//Restore ccu value
    for( i_ccu=ccuMap.begin();i_ccu !=ccuMap.end(); i_ccu++){
       TmCcu *  ccu= i_ccu->second;
       if(ccu!=0) {
          ccu->value = ccu->value * ccu->count;
    }
}
}
 if(temporary_file){
 if(printflag&&!saveWebInterface)drawPalette(savefile);
  savefile->close();

  const char * command1;
  std::string tempfilename = outputfilename + ".coor";
    int red,green,blue,npoints,colindex,ncolor;
    double x[4],y[4];
    std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
    TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
    gPad->SetFillColor(38);

    if(saveWebInterface)gPad->Range(0,0,3700,1600); else gPad->Range(0,0,3800,1600);

    //First  build palette
    ncolor=0;
    typedef std::map<int,int> ColorList;
    ColorList colorList;
    ColorList::iterator pos;
    TColor *col,*c;
    while(!tempfile.eof()) {
      tempfile  >> red >> green  >> blue >> npoints;
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex);
      if(pos == colorList.end()){
        colorList[colindex]=ncolor+100;
        col =gROOT->GetColor(ncolor+100);
        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++;
      }
      for (int i=0;i<npoints;i++){
        tempfile >> x[i] >> y[i];
      }
    }
    if(ncolor>0 && ncolor<10000){
      Int_t colors[10000];
      for(int i=0;i<ncolor;i++){colors[i]=i+100;}
      gStyle->SetPalette(ncolor,colors);
    }
    tempfile.clear();
    tempfile.seekg(0,std::ios::beg);
    std::cout << "created palette with " << ncolor << " colors" << std::endl;
    while(!tempfile.eof()) {//create polylines
      tempfile  >> red >> green  >> blue >> npoints;
      for (int i=0;i<npoints;i++){
        tempfile >> x[i] >> y[i];
      }
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex);
      if(pos != colorList.end()){
        TPolyLine*  pline = new TPolyLine(npoints,y,x);
        vp.push_back(pline);
        pline->SetFillColor(colorList[colindex]);
        pline->SetLineWidth(0);
        pline->Draw("f");
      }
    }
        if (printflag&&!saveWebInterface) {
      float lminvalue=minvalue; float lmaxvalue=maxvalue;
      if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
      axis = new TGaxis(3660,36,3660,1530,lminvalue,lmaxvalue,510,"+L");
      axis->SetLabelSize(0.02);
      axis->Draw();
    }

    if(!saveWebInterface){
    TLatex l;
    l.SetTextSize(0.05);
    std::string fulltitle = title;
    if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
    l.DrawLatex(50,1530,fulltitle.c_str());
       }
    MyC->Update();
    std::cout << "Filetype " << filetype << std::endl;
    if(filetype=="png"){
      std::string filename = outputfilename + ".png";
      MyC->Print(filename.c_str());
    }
    if(filetype=="jpg"){
      std::string filename = outputfilename + ".jpg";
      MyC->Print(filename.c_str());
    }
    if(filetype=="pdf"){
      std::string filename = outputfilename + ".pdf";
      MyC->Print(filename.c_str());
    }
    std::string command = "rm "+tempfilename ;
    command1=command.c_str();
    std::cout << "Executing " << command1 << std::endl;
    system(command1);
    MyC->Clear();
    delete MyC;
    if (printflag&&!saveWebInterface)delete axis;
    for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
         delete (*pos1);}
   



}//if(temporary_file)
}//if(enabledFecProcessing)
}

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 2127 of file TrackerMap.cc.

References apvMap, EnergyCorrector::c, cuy::col, mps_alisetup::command, TmApvPair::count, TmModule::count, gather_cfg::cout, defcwindow(), drawApvPair(), drawPalette(), enableFedProcessing, l1t::stage2::layer2::fedId, fedMap, corrVsCorr::filename, symbols::filetype, firstcrate, runEdmFileComparison::found, cmsRelvalreport::green(), mps_fire::i, recoMuon::in, crabWrapper::key, checklumidiff::l, cmsBatch::log, maxvalue, minvalue, TmApvPair::mod, TmApvPair::mpos, ncrates, TmModule::notInUse(), npoints, NUMFEDCRATE_INCOLUMN, NUMFEDCRATE_INROW, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, printflag, TmApvPair::red, cmsRelvalreport::red(), alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, slotMap, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmApvPair::value, TmModule::value, vc, x, XFEDCSIZE, XFEDOFFSET, y, YFEDCSIZE, and YFEDOFFSET.

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

                                                                                                                   {
 if(enableFedProcessing){
  printflag=true;
   bool rangefound = true; 
  std::string filetype=s,outputfilename=s;
  std::vector<TPolyLine*> vp;
  TGaxis *axis = 0 ;
  
  size_t found=filetype.find_last_of(".");
  filetype=filetype.substr(found+1);
  found=outputfilename.find_last_of(".");
  outputfilename=outputfilename.substr(0,found);
  
  temporary_file=true;
  if(filetype=="xml"||filetype=="svg")temporary_file=false;
  std::ostringstream outs;
  minvalue=minval; maxvalue=maxval;
  outs << outputfilename << ".coor";
  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  std::map<int , TmApvPair *>::iterator i_apv;
  std::map<int , int>::iterator i_fed;
  //Decide if we must use Module or ApvPair value
  bool useApvPairValue=false;
  for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
    TmApvPair *  apvPair= i_apv->second;
    if(apvPair!=0) {
      TmModule * apv_mod = apvPair->mod;
      if(apv_mod !=0 && !apv_mod->notInUse()){
        if(apvPair->count > 0 || apvPair->red!=-1) { useApvPairValue=true; break;}
      }
    }
  }
  if(!print_total){
    for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
      TmApvPair *  apvPair= i_apv->second;
      if(apvPair!=0) {
    TmModule * apv_mod = apvPair->mod;
    if(apv_mod !=0 && !apv_mod->notInUse() ){
      if(useApvPairValue) apvPair->value = apvPair->value / apvPair->count;
      else if(apvPair->mpos==0 && apv_mod->count>0)apv_mod->value = apv_mod->value / apv_mod->count; 
    }
      }
    }
  }
  if(minvalue>=maxvalue){
    
    minvalue=9999999.;
    maxvalue=-9999999.;
    rangefound=false;
    for(i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
    TmApvPair *  apvPair= i_apv->second;
    if(apvPair!=0 ) {
      TmModule * apv_mod = apvPair->mod;
      if( apv_mod !=0 && !apv_mod->notInUse() ){
        if(useApvPairValue){
          rangefound=true;
          if (minvalue > apvPair->value)minvalue=apvPair->value;
          if (maxvalue < apvPair->value)maxvalue=apvPair->value;
        } else {
              if(apv_mod->count>0){
          rangefound=true;
          if (minvalue > apv_mod->value)minvalue=apv_mod->value;
          if (maxvalue < apv_mod->value)maxvalue=apv_mod->value;}
        }
      }
    }
    }
  }
  if ((title.find("QTestAlarm")!=std::string::npos) || (maxvalue == minvalue)||!rangefound) printflag = false;

     if(filetype=="svg"){
      saveAsSingleLayer=false;
      std::ostringstream outs;
    outs << outputfilename<<".svg";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  *savefile << "<?xml version=\"1.0\"  standalone=\"no\" ?>"<<std::endl;
  *savefile << "<svg  xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl; 
  *savefile << "<svg:g id=\"fedtrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
     }
  for (int crate=firstcrate; crate < (ncrates+1); crate++){
    if(filetype=="xml"){
      saveAsSingleLayer=true;
      std::ostringstream outs;
    outs << outputfilename<<"crate" <<crate<< ".xml";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
    *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
    *savefile << "<script type=\"text/ecmascript\" xlink:href=\"crate.js\" />"<<std::endl;
    *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0  500 500\" width=\"700\" height=\"700\" onload=\"TrackerCrate.init()\">"<<std::endl;
    *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
    *savefile << "<g id=\"crate\" transform=\" translate(150,500) rotate(270) scale(1.,1.)\"  > "<<std::endl;
        }
    //    ncrate=crate;
    defcwindow(crate);
    int numfed_incrate=0;
    for (i_fed=fedMap.begin();i_fed != fedMap.end(); i_fed++){
      if(i_fed->second == crate){
    int fedId = i_fed->first;
    //  numfed_incrate++;
    numfed_incrate = slotMap[fedId];
    // the following piece of code is used to prepare the HTML clickable map
    /*  
    double scalex=6285./6290.;
    double scaley=3510./3540.;
    double boxinitix=(NUMFED_INCOLUMN-1-(numfed_incrate-1)/NUMFED_INROW)*(NUMFEDCH_INCOLUMN+2)+NUMFEDCH_INCOLUMN+0.9;
    double boxinitiy=(NUMFED_INROW-1-(numfed_incrate-1)%NUMFED_INROW)*(NUMFEDCH_INROW+1)+NUMFEDCH_INROW+0.9;
    double boxendix=boxinitix-(NUMFEDCH_INCOLUMN-1)-0.9;
    double boxendiy=boxinitiy-(NUMFEDCH_INROW-1)-0.9;

    std::cout << "<area shape=\"rect\" coords=\" " 
          << int(scalex*ydpixelc(boxinitiy)) << "," << int(3510-scaley*xdpixelc(boxinitix)) 
          << "," << int(scalex*ydpixelc(boxendiy)) << "," << int(3510-scaley*xdpixelc(boxendix)) 
          << "\" href=\"\" title=\"crate " << crate << " slot " << numfed_incrate << " FED " << fedId << "\" /> " << std::endl;
    */
    //
    for (int nconn=0;nconn<96;nconn++){
      int key = fedId*1000+nconn; 
      TmApvPair *  apvPair= apvMap[key];
      if(apvPair !=0){
        TmModule * apv_mod = apvPair->mod;
        if(apv_mod !=0 && !apv_mod->notInUse()){
          drawApvPair(crate,numfed_incrate,print_total,apvPair,savefile,useApvPairValue);
        }
      } 
    }
      }
    }
   if(!temporary_file){
    if(filetype=="xml"){
    *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
    *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
    *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
    *savefile << " </text> </svg>" << std::endl;
    savefile->close();delete savefile;
     saveAsSingleLayer=false;
      }
      }
  }
    if(filetype=="svg"){
    *savefile << "</g> </svg> </svg> " << std::endl;
    savefile->close();delete savefile;
      }
  if(!print_total && !useApvPairValue){
//Restore module value
    for( i_apv=apvMap.begin();i_apv !=apvMap.end(); i_apv++){
      TmApvPair *  apvPair= i_apv->second;
      if(apvPair!=0) {
    TmModule * apv_mod = apvPair->mod;
    if(apv_mod !=0 && apvPair->mpos==0 && !apv_mod->notInUse()){
      apv_mod->value = apv_mod->value * apv_mod->count;
    }
      }
    }
}
  
  int rangex = YFEDOFFSET+(YFEDCSIZE+YFEDOFFSET)*NUMFEDCRATE_INROW+300;
  int rangey = XFEDOFFSET+(XFEDCSIZE+XFEDOFFSET)*NUMFEDCRATE_INCOLUMN+300;
    
    if(temporary_file){
      if(printflag&&!saveWebInterface)drawPalette(savefile,rangex-140,rangey-100);
  savefile->close(); delete savefile;

  const char * command1;
  std::string tempfilename = outputfilename + ".coor";
    int red,green,blue,npoints,colindex,ncolor;
    double x[4],y[4];
    std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
    TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
    gPad->SetFillColor(38);

    //    if(saveWebInterface)gPad->Range(0,0,3750,1600); else gPad->Range(0,0,3800,1600);
    std::cout << " range x " <<  rangex << std::endl;
    std::cout << " range y " <<  rangey << std::endl;
    gPad->Range(0,0,rangex,rangey);
    
    //First  build palette
    ncolor=0;
    typedef std::map<int,int> ColorList;
    ColorList colorList;
    ColorList::iterator pos;
    TColor *col,*c;
    while(!tempfile.eof()) {
      tempfile  >> red >> green  >> blue >> npoints; 
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos == colorList.end()){ 
    colorList[colindex]=ncolor+100; 
    col =gROOT->GetColor(ncolor+100);
    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++;
      }
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
    }
    if(ncolor>0 && ncolor<10000){
      Int_t colors[10000];
      for(int i=0;i<ncolor;i++){colors[i]=i+100;}
      gStyle->SetPalette(ncolor,colors);
    }
    tempfile.clear();
    tempfile.seekg(0,std::ios::beg);
    std::cout << "created palette with " << ncolor << " colors" << std::endl;
    while(!tempfile.eof()) {//create polylines
      tempfile  >> red >> green  >> blue >> npoints; 
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos != colorList.end()){
        TPolyLine*  pline = new TPolyLine(npoints,y,x);
        vp.push_back(pline);
        pline->SetFillColor(colorList[colindex]);
        pline->SetLineWidth(0);
        pline->Draw("f");
      }
    }
        if (printflag&&!saveWebInterface) {
      float lminvalue=minvalue; float lmaxvalue=maxvalue;
      if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
      axis = new TGaxis(rangex-140,34,rangex-140,rangey-106,lminvalue,lmaxvalue,510,"+L");
      axis->SetLabelSize(0.02);
      axis->Draw();
    }

    if(!saveWebInterface){
    TLatex l;
    l.SetTextSize(0.05);
    std::string fulltitle = title;
    if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
    l.DrawLatex(50,rangey-200,fulltitle.c_str());
       }
    MyC->Update();
    std::cout << "Filetype " << filetype << std::endl;
    if(filetype=="png"){
      std::string filename = outputfilename + ".png";
      MyC->Print(filename.c_str());
    }
    if(filetype=="jpg"){
      std::string filename = outputfilename + ".jpg";
      MyC->Print(filename.c_str());
    }
    if(filetype=="pdf"){
      std::string filename = outputfilename + ".pdf";
      MyC->Print(filename.c_str());
    }
    std::string command = "rm "+tempfilename ;
    command1=command.c_str();
    std::cout << "Executing " << command1 << std::endl;
    system(command1);
    MyC->Clear();
    delete MyC;
     if (printflag&&!saveWebInterface)delete axis;
    for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
         delete (*pos1);}
   
  
}//if(temporary_file)
}//if(enabledFedProcessing)
}

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, mps_alisetup::command, TmPsu::countHV2, TmPsu::countHV3, gather_cfg::cout, defpsuwindow(), drawHV2(), drawHV3(), drawPalette(), enableHVProcessing, corrVsCorr::filename, symbols::filetype, runEdmFileComparison::found, TmPsu::getPsuCrate(), TmPsu::getPsuRack(), cmsRelvalreport::green(), TmPsu::greenHV2, TmPsu::greenHV3, mps_fire::i, recoMuon::in, checklumidiff::l, cmsBatch::log, hpstanc_transforms::max, maxvalue, min(), minvalue, TmPsu::nmodHV2, TmPsu::nmodHV3, npoints, npsuracks, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, printflag, psuMap, psuModuleMap, cmsRelvalreport::red(), TmPsu::redHV2, TmPsu::redHV3, 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().

                                                                                                                  {
  
 if(enableHVProcessing){
  std::string filetype=s,outputfilename=s;
  std::vector<TPolyLine*> vp;
  TGaxis *axis = 0 ;
  size_t found=filetype.find_last_of(".");
  filetype=filetype.substr(found+1);
  found=outputfilename.find_last_of(".");
  outputfilename=outputfilename.substr(0,found);

  temporary_file=true;
  

  if(filetype=="xml"||filetype=="svg")temporary_file=false;
  
  std::ostringstream outs;
  minvalue=minval; maxvalue=maxval;
  outs << outputfilename << ".coor";
  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  
  std::map<int , TmPsu *>::iterator ipsu;
  std::multimap<TmPsu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
 
  
  bool usePsuValue=false;
  
  for( ipsu=psuMap.begin();ipsu!=psuMap.end(); ipsu++){
    TmPsu*  psu= ipsu->second;
    if(psu!=0) {
      if(psu->countHV2 > 0 || psu->redHV2!=-1 || psu->countHV3 > 0 || psu->redHV3!=-1) { usePsuValue=true; break;}
      }
    }
   
  if(!usePsuValue){//store mean of connected modules value{
    
    for(  ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
       TmPsu *  psu= ipsu->second;
       if(psu!=0) {
       ret = psuModuleMap.equal_range(psu);
         int nconn1=0;int nconn2=0;
         for(it = ret.first; it != ret.second; ++it){
           if((*it).second->HVchannel==2&&(*it).second->count>0){ nconn1++;psu->valueHV2=psu->valueHV2+(*it).second->value;}
           if((*it).second->HVchannel==3&&(*it).second->count>0){ nconn2++;psu->valueHV3=psu->valueHV3+(*it).second->value;} 
        }
         if(psu->nmodHV2!=0 &&nconn1>0){psu->valueHV2=psu->valueHV2/psu->nmodHV2; psu->countHV2=1; }
         if(psu->nmodHV3!=0 &&nconn2>0){psu->valueHV3=psu->valueHV3/psu->nmodHV3; psu->countHV3=1; }
      
       }
     
     }
       }
   
   if(title.find("QTestAlarm")!=std::string::npos){
      for(  ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
          TmPsu *  psu= ipsu->second;
          if(psu!=0) {
        ret = psuModuleMap.equal_range(psu);
        psu->redHV2=0;psu->greenHV2=255;psu->blueHV2=0;
        psu->redHV3=0;psu->greenHV3=255;psu->blueHV3=0;
        for (it = ret.first; it != ret.second; ++it) {
              if((*it).second->HVchannel==2){
            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 ) ){
           psu->redHV2=255;psu->greenHV2=0;psu->blueHV2=0;
           }
        }
          if((*it).second->HVchannel==3){
            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 ) ){
           psu->redHV3=255;psu->greenHV3=0;psu->blueHV3=0;
           }
        }
         }
       }
      }
   } 
 
  if(!print_total){
    for(  ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
    TmPsu *  psu= ipsu->second;
      if(psu!=0) {
      if(usePsuValue){ 
        psu->valueHV2 = psu->valueHV2 / psu->countHV2;
            psu->valueHV3 = psu->valueHV3 / psu->countHV3;
    }
    }
  }
 } 
  
  if(minvalue>=maxvalue){
    
    minvalue=9999999.;
    maxvalue=-9999999.;
    
    for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
       TmPsu *  psu= ipsu->second;
       if(psu!=0 && psu->countHV2>0 && psu->countHV3 >0) {

          if (minvalue > psu->valueHV2 || minvalue > psu->valueHV3)minvalue=std::min(psu->valueHV2,psu->valueHV3);
          if (maxvalue < psu->valueHV2 || maxvalue < psu->valueHV3)maxvalue=std::max(psu->valueHV2,psu->valueHV3);
          
    
    }
    }
  }
  
     if(filetype=="svg"){
      saveAsSingleLayer=false;
      std::ostringstream outs;
    outs << outputfilename<<".svg";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  *savefile << "<?xml version=\"1.0\"  standalone=\"no\" ?>"<<std::endl;
  *savefile << "<svg  xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl; 
  *savefile << "<svg:g id=\"HVtrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
     }
   
  for (int irack=1; irack < (npsuracks+1); irack++){
    if(filetype=="xml"){
      saveAsSingleLayer=true;
      std::ostringstream outs;
    outs << outputfilename<<"HVrack" <<irack<< ".xml";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
    *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
    *savefile << "<script type=\"text/ecmascript\" xlink:href=\"rackhv.js\" />"<<std::endl;
    *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0  500 500\" width=\"700\" height=\"700\" onload=\"TrackerRackhv.init()\">"<<std::endl;
    *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
    *savefile << "<g id=\"rackhv\" transform=\" translate(150,500) rotate(270) scale(1.,1.)\"  > "<<std::endl;
         }
    
    // nrack=irack;
    defpsuwindow(irack);
    for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu->getPsuRack() == irack){
          drawHV2(irack,psu->getPsuCrate(),print_total,psu,savefile,usePsuValue);
              drawHV3(irack,psu->getPsuCrate(),print_total,psu,savefile,usePsuValue);
      }
    }
   
  
   if(!temporary_file){
    if(filetype=="xml"){
    *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
    *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
    *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
    *savefile << " </text> </svg>" << std::endl;
    savefile->close();
     saveAsSingleLayer=false;
      }
      }
    }
    if(filetype=="svg"){
    *savefile << "</g> </svg> </svg> " << std::endl;
    savefile->close();
      }
 
    //Restore psu value
    if(!print_total && !usePsuValue){
     for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
       TmPsu *psu = ipsu->second;
       if(psu!=0) {
      psu->valueHV2 = psu->valueHV2 * psu->countHV2;
          psu->valueHV3 = psu->valueHV3 * psu->countHV3;
      }
       }
     }
  

  if(temporary_file){
  if(printflag&&!saveWebInterface)drawPalette(savefile);
    savefile->close(); 

  const char * command1;
  std::string tempfilename = outputfilename + ".coor";
    int red,green,blue,npoints,colindex,ncolor;
    double x[4],y[4];
    std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
    TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
    gPad->SetFillColor(38);
    
    if(saveWebInterface)gPad->Range(0,0,3700,1600); else gPad->Range(0,0,3800,1600);
    
    //First  build palette
    ncolor=0;
    typedef std::map<int,int> ColorList;
    ColorList colorList;
    ColorList::iterator pos;
    TColor *col,*c;
    while(!tempfile.eof()) {
      tempfile  >> red >> green  >> blue >> npoints; 
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos == colorList.end()){ 
    colorList[colindex]=ncolor+100; 
    col =gROOT->GetColor(ncolor+100);
    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++;
      }
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
    }
    if(ncolor>0 && ncolor<10000){
      Int_t colors[10000];
      for(int i=0;i<ncolor;i++){colors[i]=i+100;}
      gStyle->SetPalette(ncolor,colors);
    }
    tempfile.clear();
    tempfile.seekg(0,std::ios::beg);
    std::cout << "created palette with " << ncolor << " colors" << std::endl;
    while(!tempfile.eof()) {//create polylines
      tempfile  >> red >> green  >> blue >> npoints; 
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos != colorList.end()){
        TPolyLine*  pline = new TPolyLine(npoints,y,x);
        vp.push_back(pline);
        pline->SetFillColor(colorList[colindex]);
        pline->SetLineWidth(0);
        pline->Draw("f");
      }
    }
        if (printflag&&!saveWebInterface) {
      float lminvalue=minvalue; float lmaxvalue=maxvalue;
      if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
      axis = new TGaxis(3660,36,3660,1530,lminvalue,lmaxvalue,510,"+L");
      axis->SetLabelSize(0.02);
      axis->Draw();
    }


    if(!saveWebInterface){
    TLatex l;
    l.SetTextSize(0.05);
    std::string fulltitle = title;
    if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
    l.DrawLatex(50,1530,fulltitle.c_str());
       }
    MyC->Update();
    std::cout << "Filetype " << filetype << std::endl;
    if(filetype=="png"){
      std::string filename = outputfilename + ".png";
      MyC->Print(filename.c_str());
    }
    if(filetype=="jpg"){
      std::string filename = outputfilename + ".jpg";
      MyC->Print(filename.c_str());
    }
    if(filetype=="pdf"){
      std::string filename = outputfilename + ".pdf";
      MyC->Print(filename.c_str());
    }
    std::string command = "rm "+tempfilename ;
    command1=command.c_str();
    std::cout << "Executing " << command1 << std::endl;
    system(command1);
    MyC->Clear();
    delete MyC;
     if (printflag&&!saveWebInterface)delete axis;
    for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
         delete (*pos1);}
    
     
     }//if(temporary_file)
}//if(enabledHVProcessing)
}

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 1845 of file TrackerMap.cc.

References EnergyCorrector::c, cuy::col, mps_alisetup::command, TmPsu::count, gather_cfg::cout, defpsuwindow(), drawPalette(), drawPsu(), enableLVProcessing, corrVsCorr::filename, symbols::filetype, runEdmFileComparison::found, TmPsu::getPsuCrate(), TmPsu::getPsuRack(), cmsRelvalreport::green(), mps_fire::i, recoMuon::in, checklumidiff::l, cmsBatch::log, maxvalue, minvalue, TmPsu::nmod, npoints, npsuracks, NUMPSURACK_INCOLUMN, NUMPSURACK_INROW, MillePedeFileConverter_cfg::out, createfilelist::outputfilename, printflag, psuMap, psuModuleMap, TmPsu::red, cmsRelvalreport::red(), alignCSCRings::s, saveAsSingleLayer, savefile, saveWebInterface, AlCaHLTBitMon_QueryRunRegistry::string, temporary_file, title, tkMapLog, TmPsu::value, vc, x, XPSUOFFSET, XPSURSIZE, y, YPSUOFFSET, and YPSURSIZE.

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

                                                                                                                   {

 if(enableLVProcessing){
  
  printflag=true;
  bool rangefound=true;
  std::string filetype=s,outputfilename=s;
  std::vector<TPolyLine*> vp;
  TGaxis *axis = 0 ;
  
  size_t found=filetype.find_last_of(".");
  filetype=filetype.substr(found+1);
  found=outputfilename.find_last_of(".");
  outputfilename=outputfilename.substr(0,found);
  
  temporary_file=true;
  

  
  if(filetype=="xml"||filetype=="svg")temporary_file=false;
   
  std::ostringstream outs;
  minvalue=minval; maxvalue=maxval;
  outs << outputfilename << ".coor";
  if(temporary_file)savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  
  std::map<int , TmPsu *>::iterator ipsu;
  std::multimap<TmPsu*, TmModule*>::iterator it;
  std::pair<std::multimap<TmPsu*, TmModule*>::iterator,std::multimap<TmPsu*, TmModule*>::iterator> ret;
 
  //Decide if we must use Module or Power Psupply value
  bool usePsuValue=false;
  
  for( ipsu=psuMap.begin();ipsu!=psuMap.end(); ipsu++){
    TmPsu*  psu= ipsu->second;
    if(psu!=0) {
      if(psu->count > 0 || psu->red!=-1) { usePsuValue=true; break;}
      }
    }
  
  if(!usePsuValue){//store mean of connected modules value{
    for(  ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu!=0) {
    ret = psuModuleMap.equal_range(psu);
    int nconn=0;
    for(it = ret.first; it != ret.second; ++it){
      if((*it).second->count>0){nconn++;psu->value=psu->value+(*it).second->value;}
          
    }
    if(nconn>0){ psu->value=psu->value/psu->nmod; psu->count=1;}
    
      }
    }
  }
  
  if(title.find("QTestAlarm")!=std::string::npos){
    for(  ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu!=0) {
    ret = psuModuleMap.equal_range(psu);
    //  psu->red=255;psu->green=255;psu->blue=255;
    psu->red=-1;
    int nconn=0;
    for (it = ret.first; it != ret.second; ++it) {
      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 ) ){
        nconn++;psu->value++;
      }
    }
    if(nconn>0){ psu->value=psu->value/psu->nmod; psu->count=1;}
      }
    }
  }
  
  
  
  if(!print_total){
    for(  ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
    TmPsu *  psu= ipsu->second;
      if(psu!=0) {
      if(usePsuValue) psu->value = psu->value / psu->count;

    }
    }
  }
  
  if(minvalue>=maxvalue){
    
    minvalue=9999999.;
    maxvalue=-9999999.;
    rangefound=false;
    for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
       TmPsu *  psu= ipsu->second;
       if(psu!=0 && psu->count>0) {
     rangefound = true;
          if (minvalue > psu->value)minvalue=psu->value;
          if (maxvalue < psu->value)maxvalue=psu->value;
    }
    }
  }
  if ((maxvalue == minvalue)||!rangefound) printflag = false;

  
     if(filetype=="svg"){
      saveAsSingleLayer=false;
      std::ostringstream outs;
    outs << outputfilename<<".svg";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
  *savefile << "<?xml version=\"1.0\"  standalone=\"no\" ?>"<<std::endl;
  *savefile << "<svg  xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
  *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\" "<<std::endl;
  *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\">"<<std::endl;
  *savefile << "<svg:svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0 3000 1600"<<"\" width=\""<<width<<"\" height=\""<<height<<"\">"<<std::endl;
  *savefile << "<svg:rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"3000\" height=\"1600\" /> "<<std::endl; 
  *savefile << "<svg:g id=\"psutrackermap\" transform=\"translate(10,1500) rotate(270)\" style=\"fill:none;stroke:black;stroke-width:0;\"> "<<std::endl;
     }
  
  for (int irack=1; irack < (npsuracks+1); irack++){
    if(filetype=="xml"){
      saveAsSingleLayer=true;
      std::ostringstream outs;
    outs << outputfilename<<"psurack" <<irack<< ".xml";
    savefile = new std::ofstream(outs.str().c_str(),std::ios::out);
    *savefile << "<?xml version=\"1.0\" standalone=\"no\"?>"<<std::endl;
    *savefile << "<svg xmlns=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:svg=\"http://www.w3.org/2000/svg\""<<std::endl;
    *savefile << "xmlns:xlink=\"http://www.w3.org/1999/xlink\" >"<<std::endl;
    *savefile << "<script type=\"text/ecmascript\" xlink:href=\"rack.js\" />"<<std::endl;
    *savefile << "<svg id=\"mainMap\" x=\"0\" y=\"0\" viewBox=\"0 0  500 500\" width=\"700\" height=\"700\" onload=\"TrackerCrate.init()\">"<<std::endl;
    *savefile << "<rect fill=\"lightblue\" stroke=\"none\" x=\"0\" y=\"0\" width=\"700\" height=\"700\" />"<<std::endl;
    *savefile << "<g id=\"rack\" transform=\" translate(150,500) rotate(270) scale(1.,1.)\"  > "<<std::endl;
         }
   
    
    // nrack=irack;
    defpsuwindow(irack);
    for ( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
      TmPsu *  psu= ipsu->second;
      if(psu->getPsuRack() == irack){
          
          drawPsu(irack,psu->getPsuCrate(),print_total,psu,savefile,usePsuValue);
      }
    }
   
    
   if(!temporary_file){
    if(filetype=="xml"){
    *savefile << "</g> </svg> <text id=\"currentElementText\" x=\"40\" y=\"30\"> " << std::endl;
    *savefile << "<tspan id=\"line1\" x=\"40\" y=\"30\"> </tspan> " << std::endl;
    *savefile << "<tspan id=\"line2\" x=\"40\" y=\"60\"> </tspan> " << std::endl;
    *savefile << " </text> </svg>" << std::endl;
    savefile->close();
     saveAsSingleLayer=false;
      }
      }
    }
    if(filetype=="svg"){
    *savefile << "</g> </svg> </svg> " << std::endl;
    savefile->close();
      }
 
    //Restore psu value
    if(!print_total && !usePsuValue){
     for( ipsu=psuMap.begin();ipsu !=psuMap.end(); ipsu++){
       TmPsu *psu = ipsu->second;
       if(psu!=0) {
      psu->value = psu->value * psu->count;
          }
       }
     }

    int rangex=YPSUOFFSET+(YPSURSIZE+YPSUOFFSET)*NUMPSURACK_INROW+300; 
    int rangey=XPSUOFFSET+(XPSURSIZE+XPSUOFFSET)*NUMPSURACK_INCOLUMN+300;
  
  
  if(temporary_file){
    if(printflag&&!saveWebInterface)drawPalette(savefile,rangex-140,rangey-100);
    savefile->close(); 

  const char * command1;
  std::string tempfilename = outputfilename + ".coor";
    int red,green,blue,npoints,colindex,ncolor;
    double x[4],y[4];
    std::ifstream tempfile(tempfilename.c_str(),std::ios::in);
    TCanvas *MyC = new TCanvas("MyC", "TrackerMap",width,height);
    gPad->SetFillColor(38);
    
    //    if(saveWebInterface)gPad->Range(0,0,3700,1600); else gPad->Range(0,0,3800,1600);
    std::cout << " range x " <<  rangex << std::endl;
    std::cout << " range y " <<  rangey << std::endl;
    gPad->Range(0,0,rangex,rangey);
    
    //First  build palette
    ncolor=0;
    typedef std::map<int,int> ColorList;
    ColorList colorList;
    ColorList::iterator pos;
    TColor *col,*c;
    while(!tempfile.eof()) {
      tempfile  >> red >> green  >> blue >> npoints; 
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos == colorList.end()){ 
    colorList[colindex]=ncolor+100; 
    col =gROOT->GetColor(ncolor+100);
    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++;
      }
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
    }
    if(ncolor>0 && ncolor<10000){
      Int_t colors[10000];
      for(int i=0;i<ncolor;i++){colors[i]=i+100;}
      gStyle->SetPalette(ncolor,colors);
    }
    tempfile.clear();
    tempfile.seekg(0,std::ios::beg);
    std::cout << "created palette with " << ncolor << " colors" << std::endl;
    while(!tempfile.eof()) {//create polylines
      tempfile  >> red >> green  >> blue >> npoints; 
      for (int i=0;i<npoints;i++){
    tempfile >> x[i] >> y[i];  
      }
      colindex=red+green*1000+blue*1000000;
      pos=colorList.find(colindex); 
      if(pos != colorList.end()){
        TPolyLine*  pline = new TPolyLine(npoints,y,x);
        vp.push_back(pline);
        pline->SetFillColor(colorList[colindex]);
        pline->SetLineWidth(0);
        pline->Draw("f");
      }
    }
        if (printflag&&!saveWebInterface) {
      float lminvalue=minvalue; float lmaxvalue=maxvalue;
      if(tkMapLog) {lminvalue=log(minvalue)/log(10);lmaxvalue=log(maxvalue)/log(10);}
      axis = new TGaxis(rangex-140,34,rangex-140,rangey-106,lminvalue,lmaxvalue,510,"+L");
      axis->SetLabelSize(0.02);
      axis->Draw();
    }

    if(!saveWebInterface){
    TLatex l;
    l.SetTextSize(0.05);
    std::string fulltitle = title;
    if(tkMapLog && (fulltitle.find("Log10 scale") == std::string::npos)) fulltitle += ": Log10 scale";
    l.DrawLatex(50,rangey-200,fulltitle.c_str());
       }
    MyC->Update();
    std::cout << "Filetype " << filetype << std::endl;
    if(filetype=="png"){
      std::string filename = outputfilename + ".png";
      MyC->Print(filename.c_str());
    }
    if(filetype=="jpg"){
      std::string filename = outputfilename + ".jpg";
      MyC->Print(filename.c_str());
    }
    if(filetype=="pdf"){
      std::string filename = outputfilename + ".pdf";
      MyC->Print(filename.c_str());
    }
    std::string command = "rm "+tempfilename ;
    command1=command.c_str();
    std::cout << "Executing " << command1 << std::endl;
    system(command1);
    MyC->Clear();
    delete MyC;
     if (printflag&&!saveWebInterface)delete axis;
    for(std::vector<TPolyLine*>::iterator pos1=vp.begin();pos1!=vp.end();pos1++){
         delete (*pos1);}
   
}//if(temporary_file)
}//if(enabledFedProcessing)
}

void TrackerMap::setPalette ( int  numpalette )

inline

Definition at line 124 of file TrackerMap.h.

References drawPalette(), and palette.

Referenced by Vispa.Views.LineDecayView.LineDecayView::__init__(), TkVoltageMapCreator::beginRun(), DetIdSelectorTest::DetIdSelectorTest(), BuildTrackerMapPlugin::endJob(), and SiStripBaseCondObjDQM::saveTkMap().

{palette=numpalette;} 

void TrackerMap::setRange	(	float	min,
		float	max
	)

Definition at line 670 of file TrackerMap.cc.

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

Referenced by setTitle(), and SiStripTrackerMapCreator::setTkMapRange().

                                            {gminvalue=min;gmaxvalue=max;
if(tkMapLog) {gminvalue=pow(10.,min);gmaxvalue=pow(10.,max);}
}

void TrackerMap::setText	(	int	idmod,
		std::string	s
	)

Definition at line 2789 of file TrackerMap.cc.

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

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

                                              {

  TmModule * mod = imoduleMap[idmod];
  if(mod!=0){
     mod->text=s;
  }
  else std::cout << "**************************error in IdModuleMap **************";
}

void TrackerMap::setText	(	int	layer,
		int	ring,
		int	nmod,
		std::string	s
	)

Definition at line 2799 of file TrackerMap.cc.

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

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

                                                                  {

  int key = layer*100000+ring*1000+nmod;
  TmModule * mod = smoduleMap[key];
  if(mod!=0){
     mod->text=s;
  }
  else std::cout << "**************************error in SvgModuleMap **************";
} 

void TrackerMap::setTitle ( std::string  s )

inline

Definition at line 127 of file TrackerMap.h.

References getAutomaticRange(), hpstanc_transforms::max, min(), alignCSCRings::s, setRange(), and title.

Referenced by SiStripTrackerMapCreator::create(), SiStripTrackerMapCreator::createForOffline(), Vispa.Gui.PortWidget.PortWidget::setName(), and Vispa.Views.LineDecayView.LineDecayContainer::setPxlObject().

{title=s;};

void TrackerMap::showPalette ( bool  printflag1 )

inline

Definition at line 126 of file TrackerMap.h.

References printflag.

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

{printflag=printflag1;}; 

double TrackerMap::xdpixel ( double  x )

inline

Definition at line 236 of file TrackerMap.h.

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

Referenced by drawModule().

                           {
    double res;
    if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*xsize);
    else res= ((x-xmin)/(xmax-xmin)*xsize)+ix;
    return res;
  }

double TrackerMap::xdpixelc ( double  x )

inline

Definition at line 256 of file TrackerMap.h.

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

Referenced by drawApvPair().

                            {
    double res;
    if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*XFEDCSIZE);
    else res= ((x-xmin)/(xmax-xmin)*XFEDCSIZE)+ix;
    return res;
  }

double TrackerMap::xdpixelfec ( double  x )

inline

Definition at line 270 of file TrackerMap.h.

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

Referenced by drawCcu().

                              {
    double res;
    if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*xsize);
    else res= ((x-xmin)/(xmax-xmin)*xsize)+ix;
    return res;
  }

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().

                              {
    double res;
    if(saveAsSingleLayer)res= ((x-xmin)/(xmax-xmin)*XPSURSIZE);
    else res= ((x-xmin)/(xmax-xmin)*XPSURSIZE)+ix;
    return res;
  }

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().

                           {
    double res=0;
    double y1;
    y1 = (y-ymin)/(ymax-ymin);
    if(nlay>30)
       {
        if(nlay <34) res= 2*ysize - (y1*2*ysize);
        if(nlay==34) res= 2.4*ysize - (y1*2.4*ysize);
        if(nlay>34) res= 2.5*ysize - (y1*2.5*ysize);  
        }
    else res= xsize - (y1*xsize);
    if(!saveAsSingleLayer) res=res+iy;
    return res;
  }

double TrackerMap::ydpixelc ( double  y )

inline

Definition at line 262 of file TrackerMap.h.

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

Referenced by drawApvPair().

                            {
    double res;
    double y1;
    y1 = (y-ymin)/(ymax-ymin);
     if(saveAsSingleLayer)res= YFEDCSIZE - (y1*YFEDCSIZE);
     else res= YFEDCSIZE - (y1*YFEDCSIZE)+iy;
    return res;
  }

double TrackerMap::ydpixelfec ( double  y )

inline

Definition at line 276 of file TrackerMap.h.

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

Referenced by drawCcu().

                              {
    double res;
    double y1;
    y1 = (y-ymin)/(ymax-ymin);
     if(saveAsSingleLayer)res= 2*ysize - (y1*2*ysize);
     else res= 2*ysize - (y1*2*ysize)+iy;
    return res;
  }

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().

                               {
    double res;
    double y1;
    y1 = (y-ymin)/(ymax-ymin);
     if(saveAsSingleLayer)res=YPSURSIZE - (y1*YPSURSIZE);
     else res= YPSURSIZE - (y1*YPSURSIZE)+iy;
    return res;
  }

Member Data Documentation

bool TrackerMap::addPixelFlag

private

Definition at line 508 of file TrackerMap.h.

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

SvgApvPair TrackerMap::apvMap

Definition at line 145 of file TrackerMap.h.

Referenced by fill_current_val_fed_channel(), fill_fed_channel(), fillc_fed_channel(), module(), printall(), printonline(), save_as_fedtrackermap(), TrackerMap(), and ~TrackerMap().

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

Definition at line 152 of file TrackerMap.h.

Referenced by fill_fec_channel(), fillc_fec_channel(), printall(), printonline(), save_as_fectrackermap(), TrackerMap(), and ~TrackerMap().

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]

Definition at line 480 of file TrackerMap.h.

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

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

Definition at line 143 of file TrackerMap.h.

Referenced by build(), fill(), fill_all_blank(), fill_current_val(), fillc(), fillc_all_blank(), reset(), setText(), and TrackerMap().

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

Definition at line 491 of file TrackerMap.h.

Referenced by defcwindow(), deffecwindow(), defpsuwindow(), defwindow(), init(), xdpixel(), xdpixelc(), xdpixelfec(), and xdpixelpsu().

int TrackerMap::iy

protected

Definition at line 491 of file TrackerMap.h.

Referenced by defcwindow(), deffecwindow(), defpsuwindow(), defwindow(), init(), ydpixel(), ydpixelc(), ydpixelfec(), and ydpixelpsu().

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

Definition at line 500 of file TrackerMap.h.

Referenced by drawPalette(), getcolor(), init(), print(), printlayers(), save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), and save_as_psutrackermap().

float TrackerMap::minvalue

protected

Definition at line 500 of file TrackerMap.h.

Referenced by drawPalette(), getcolor(), init(), print(), printlayers(), save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), and save_as_psutrackermap().

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

Definition at line 489 of file TrackerMap.h.

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

int TrackerMap::ntotRing[43]

Definition at line 479 of file TrackerMap.h.

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

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

Definition at line 159 of file TrackerMap.h.

Referenced by Vispa.Gui.SimpleDraggableTreeWidget.SimpleDraggableTreeWidget::__init__(), drawApvPair(), drawCcu(), drawHV2(), drawHV3(), drawModule(), drawPalette(), drawPsu(), getysize(), init(), and setPalette().

bool TrackerMap::posrel

protected

Definition at line 492 of file TrackerMap.h.

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

bool TrackerMap::printflag

Definition at line 160 of file TrackerMap.h.

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

bool TrackerMap::psetAvailable

Definition at line 173 of file TrackerMap.h.

Referenced by TrackerMap().

MapPsu TrackerMap::psuMap

Definition at line 156 of file TrackerMap.h.

Referenced by fill_hv_channel2(), fill_hv_channel3(), fill_lv_channel(), fillc_hv_channel2(), fillc_hv_channel3(), fillc_lv_channel(), printall(), printonline(), save_as_HVtrackermap(), save_as_psutrackermap(), TrackerMap(), and ~TrackerMap().

PsuModule TrackerMap::psuModuleMap

Definition at line 158 of file TrackerMap.h.

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

bool TrackerMap::saveAsSingleLayer

private

Definition at line 507 of file TrackerMap.h.

Referenced by printlayers(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), save_as_psutrackermap(), TrackerMap(), xdpixel(), xdpixelc(), xdpixelfec(), xdpixelpsu(), ydpixel(), ydpixelc(), ydpixelfec(), and ydpixelpsu().

std::ofstream* TrackerMap::savefile

protected

Definition at line 495 of file TrackerMap.h.

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

bool TrackerMap::saveGeoTrackerMap

Definition at line 162 of file TrackerMap.h.

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

bool TrackerMap::saveWebInterface

Definition at line 161 of file TrackerMap.h.

Referenced by printall(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), save_as_psutrackermap(), and TrackerMap().

SvgFed TrackerMap::slotMap

Definition at line 150 of file TrackerMap.h.

Referenced by save_as_fedtrackermap(), and TrackerMap().

SmoduleMap TrackerMap::smoduleMap

Definition at line 141 of file TrackerMap.h.

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

std::ofstream* TrackerMap::svgfile

protected

Definition at line 494 of file TrackerMap.h.

Referenced by print().

bool TrackerMap::temporary_file

protected

Definition at line 502 of file TrackerMap.h.

Referenced by drawApvPair(), drawCcu(), drawHV2(), drawHV3(), drawModule(), drawPalette(), drawPsu(), init(), print(), printall(), printonline(), save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), and save_as_psutrackermap().

std::string TrackerMap::title

Definition at line 170 of file TrackerMap.h.

Referenced by Vispa.Views.LineDecayView.LineDecayContainer::autolayout(), Vispa.Views.LineDecayView.LineDecayContainer::autolayoutThreadFinished(), python.rootplot.root2matplotlib.HistStack::bar(), python.rootplot.root2matplotlib.HistStack::bar3d(), python.rootplot.root2matplotlib.HistStack::barcluster(), python.rootplot.root2matplotlib.HistStack::barh(), python.rootplot.root2matplotlib.HistStack::barstack(), Vispa.Views.LineDecayView.LineDecayContainer::childFinishedAutolayouting(), python.rootplot.root2matplotlib.HistStack::errorbar(), python.rootplot.root2matplotlib.HistStack::errorbarh(), Formatter.SimpleHTMLFormatter::headers(), python.rootplot.root2matplotlib.HistStack::histstack(), Vispa.Gui.PortWidget.PortWidget::name(), print(), printall(), printonline(), save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), save_as_psutrackermap(), setTitle(), python.rootplot.root2matplotlib.Hist::show_titles(), python.rootplot.utilities.Hist::TGraph(), python.rootplot.utilities.Hist::TH1F(), python.rootplot.utilities.Hist2D::TH2F(), python.rootplot.root2matplotlib.Hist2D::TH2F(), and TrackerMap().

bool TrackerMap::tkMapLog

Definition at line 167 of file TrackerMap.h.

Referenced by drawPalette(), getAutomaticRange(), getcolor(), printall(), save(), save_as_fectrackermap(), save_as_fedtrackermap(), save_as_HVtrackermap(), save_as_psutrackermap(), setRange(), and TrackerMap().

std::vector<TColor*> TrackerMap::vc

Definition at line 138 of file TrackerMap.h.

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

double TrackerMap::xmax

protected

Definition at line 490 of file TrackerMap.h.

Referenced by svgfig.XAxis::__repr__(), defcwindow(), deffecwindow(), defpsuwindow(), defwindow(), xdpixel(), xdpixelc(), xdpixelfec(), and xdpixelpsu().

double TrackerMap::xmin

protected

Definition at line 490 of file TrackerMap.h.

Referenced by svgfig.XAxis::__repr__(), svgfig.Axes::__repr__(), svgfig.HGrid::__repr__(), svgfig.Grid::__repr__(), defcwindow(), deffecwindow(), defpsuwindow(), defwindow(), svgfig.Axes::SVG(), xdpixel(), xdpixelc(), xdpixelfec(), and xdpixelpsu().

int TrackerMap::xsize

protected

Definition at line 491 of file TrackerMap.h.

Referenced by deffecwindow(), defwindow(), find_layer(), getxsize(), TrackerMap(), xdpixel(), xdpixelfec(), and ydpixel().

double TrackerMap::ymax

protected

Definition at line 490 of file TrackerMap.h.

Referenced by svgfig.YAxis::__repr__(), defcwindow(), deffecwindow(), defpsuwindow(), defwindow(), ydpixel(), ydpixelc(), ydpixelfec(), and ydpixelpsu().

double TrackerMap::ymin

protected

Definition at line 490 of file TrackerMap.h.

Referenced by svgfig.YAxis::__repr__(), svgfig.Axes::__repr__(), svgfig.VGrid::__repr__(), svgfig.Grid::__repr__(), defcwindow(), deffecwindow(), defpsuwindow(), defwindow(), plotting.PlotTextBox::Draw(), svgfig.Axes::SVG(), ydpixel(), ydpixelc(), ydpixelfec(), and ydpixelpsu().

int TrackerMap::ysize

protected

Definition at line 491 of file TrackerMap.h.

Referenced by deffecwindow(), defwindow(), find_layer(), getysize(), TrackerMap(), ydpixel(), and ydpixelfec().