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fwlite::Scanner< Collection > Class Template Reference

fwlite::Scanner<C>, a way to inspect or plots elements of a collection C by using the StringParser. More...

#include <Scanner.h>

List of all members.

Public Types

typedef fwlite::Handle
< Collection > 
HandleT
 The type of the Handle to read the Ts from the event. Needed to resolve its Type.

Public Member Functions

void addEventSelector (fwlite::EventSelector *selector)
void clearEventSelector ()
size_t count (const char *cut)
size_t countEvents ()
TH1 * draw (const char *expr, int nbins, double *xbins, const char *cut="", const char *drawopt="", const char *hname="htemp")
TH1 * draw (const char *expr, const char *cut, TString drawopt, TH1 *hist)
TH1 * draw (const char *expr, const char *cut="", TString drawopt="", const char *hname="htemp", const TH1 *htemplate=0)
TH1 * draw (const char *expr, int nbins, double xlow, double xhigh, const char *cut="", const char *drawopt="", const char *hname="htemp")
TH2 * draw2D (TString xexpr, TString yexpr, const char *cut, TString drawopt, TH2 *hist)
 Just like draw() except that it uses TH2. Note that the order is (x,y) while in ROOT it's usually (y,x)!
TH2 * draw2D (TString xexpr, TString yexpr, const char *cut="", TString drawopt="", const char *hname="htemp", TH2 *htemplate=0)
TH2 * draw2D (TString xexpr, int xbins, double xlow, double xhigh, TString yexpr, int ybins, double ylow, double yhigh, const char *cut="", const char *drawopt="", const char *hname="htemp")
 Just like draw() except that it uses TH2. Note that the order is (x,y) while in ROOT it's usually (y,x)!
TGraph * drawGraph (TString xexpr, TString yexpr, const char *cut="", TString drawopt="AP", const char *gname="htemp")
TGraph * drawGraph (TString xexpr, TString yexpr, const char *cut, TString drawopt, TGraph *graph)
TProfile * drawProf (TString xexpr, TString yexpr, const char *cut, TString drawopt, TProfile *hist)
 Just like draw() except that it uses TProfile. Note that the order is (x,y) while in ROOT it's usually (y,x)!
TProfile * drawProf (TString xexpr, TString yexpr, const char *cut="", TString drawopt="", const char *hname="htemp", TProfile *htemplate=0)
 Just like draw() except that it uses TProfile. Note that the order is (x,y) while in ROOT it's usually (y,x)!
TProfile * drawProf (TString xexpr, int bins, double xlow, double xhigh, TString yexpr, const char *cut="", const char *drawopt="", const char *hname="htemp")
 Just like draw() except that it uses TProfile. Note that the order is (x,y) while in ROOT it's usually (y,x)!
TObjArray & eventSelectors ()
RooDataSet * fillDataSet (const char *realvars, const char *boolvars, const char *cut="", const char *name="data")
void scan (const char *exprs, const char *cut="", int nmax=-1)
 Scanner (fwlite::EventBase *ev, const char *label, const char *instance="", const char *process="")
bool selectEvent (const fwlite::EventBase &ev) const
void setExpressionSeparator (TString separator)
void setIgnoreExceptions (bool ignoreThem)
void setMaxEvents (int max)
void setMaxLinesToPrint (int lines)
void setPrintFullEventId (bool printIt=true)

Private Member Functions

TH1 * getSameH1 (const char *hname)
TH2 * getSameH2 (const char *hname)
TProfile * getSameProf (const char *hname)
void htempDelete ()
bool wantMore () const

Private Attributes

fwlite::EventBaseevent_
TObjArray eventSelectors_
TString exprSep_
HandleT handle_
bool ignoreExceptions_
std::string instance_
std::string label_
int maxEvents_
int maxLinesToPrint_
edm::TypeWithDict objType
bool printFullEventId_
std::string process_

Detailed Description

template<typename Collection>
class fwlite::Scanner< Collection >

fwlite::Scanner<C>, a way to inspect or plots elements of a collection C by using the StringParser.

fwlite::Scanner<C>, a way to inspect or plots elements of a collection C by using the StringParser.

The collection can be something as easy as std::vector<T>, but also some other fancy EDM collections like RefVector, RefToBaseVector and OwnVector (and probably PtrVector, but it was not tested)

If you're using something other than std::vector, you must provide the full typename, including all optional template parameters; e.g. you can't have C = edm::RefVector<reco::MuonCollection>, but you need C = edm::RefVector<vector<reco::Muon>,reco::Muon,edm::refhelper::FindUsingAdvance<vector<reco::Muon>,reco::Muon> > In order to figure out what is the correct full name for a collection in an event, open it in ROOT/FWLite, get the branch name including the trailing ".obj" (hint: Events->GetAlias("label")) usually works), and then do Events->GetBranch("xxx.obj")->GetClassName() to get something like edm::Wrapper<X>. then X is what you want to use to create the fwlite::Scanner. Don't use typedefs, they don't work.

Definition at line 44 of file Scanner.h.


Member Typedef Documentation

template<typename Collection >
typedef fwlite::Handle<Collection> fwlite::Scanner< Collection >::HandleT

The type of the Handle to read the Ts from the event. Needed to resolve its Type.

Definition at line 47 of file Scanner.h.


Constructor & Destructor Documentation

template<typename Collection >
fwlite::Scanner< Collection >::Scanner ( fwlite::EventBase ev,
const char *  label,
const char *  instance = "",
const char *  process = "" 
) [inline]

Member Function Documentation

template<typename Collection >
void fwlite::Scanner< Collection >::addEventSelector ( fwlite::EventSelector selector) [inline]

Definition at line 567 of file Scanner.h.

References fwlite::Scanner< Collection >::eventSelectors_.

{ eventSelectors_.Add(selector); }
template<typename Collection >
void fwlite::Scanner< Collection >::clearEventSelector ( ) [inline]

Definition at line 568 of file Scanner.h.

References fwlite::Scanner< Collection >::eventSelectors_.

{ eventSelectors_.Clear(); }
template<typename Collection >
size_t fwlite::Scanner< Collection >::count ( const char *  cut) [inline]

Count the number of entries that pass a given cut. See setMaxEvents() to specify how many events to loop on when counting. Events can be further selected by using addEventSelector().

Definition at line 145 of file Scanner.h.

References fwlite::EventBase::atEnd(), fwlite::Scanner< Collection >::event_, fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), helper::ScannerBase::test(), fwlite::EventBase::toBegin(), and create_public_pileup_plots::vals.

                                          {
                helper::ScannerBase scanner(objType); 
                scanner.setIgnoreExceptions(ignoreExceptions_);

                scanner.setCut(cut);

                size_t npass = 0;
                int iev = 0;
                for (event_->toBegin(); !event_->atEnd(); ++(*event_), ++iev) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        if (scanner.test(&vals[j])) npass++;
                    }
                }
                return npass;
            }
template<typename Collection >
size_t fwlite::Scanner< Collection >::countEvents ( ) [inline]

Count the number of events, taking into account setMaxEvents() and the event selectors

Definition at line 166 of file Scanner.h.

References fwlite::EventBase::atEnd(), fwlite::Scanner< Collection >::event_, fwlite::Scanner< Collection >::maxEvents_, fwlite::Scanner< Collection >::selectEvent(), and fwlite::EventBase::toBegin().

                                 {
                size_t npass = 0;
                int iev = 0;
                for (event_->toBegin(); !event_->atEnd(); ++(*event_), ++iev) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (selectEvent(*event_)) npass++;
                }
                return npass;
            }
template<typename Collection >
TH1* fwlite::Scanner< Collection >::draw ( const char *  expr,
const char *  cut = "",
TString  drawopt = "",
const char *  hname = "htemp",
const TH1 *  htemplate = 0 
) [inline]

Plot the expression 'expr' for events passing 'cut', in a histogram named 'hname'

  • If htemplate is provided it will be cloned,
  • otherwise, if "SAME" is among the draw options, it will clone "htemp" (if it's available)
  • otherwise an automatically binned histogram will be used. in the last case, gEnv->GetValue("Hist.Binning.1D.x", 100) is used for the number of bins See draw(const char *expr, const char *cut, TString drawopt, TH1 *histo) for further documentation

Definition at line 227 of file Scanner.h.

References GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::draw(), fwlite::Scanner< Collection >::getSameH1(), estimatePileup::hist, and fwlite::Scanner< Collection >::htempDelete().

                                                                                                                                            {
                TH1 *hist = 0;
                if (htemplate != 0) {
                    if ((strcmp(hname, "htemp") == 0) && (strcmp(hname,htemplate->GetName()) != 0)) htempDelete();
                    hist = (TH1*) hist->Clone(hname);
                } else if (drawopt.Contains("SAME",TString::kIgnoreCase)) { 
                    hist = getSameH1(hname);
                }

                // if in the end we found no way to make "hist"
                if (hist == 0) {
                    if (strcmp(hname, "htemp") == 0) htempDelete();
                    hist = new TH1F(hname, "", gEnv->GetValue("Hist.Binning.1D.x",100), 0, 0);
                    hist->SetBit(TH1::kCanRebin);
                }
                hist->SetTitle((strlen(cut) ? TString(expr)+"{"+cut+"}" : TString(expr)));
                hist->GetXaxis()->SetTitle(expr);
                return draw(expr, cut, drawopt, hist);
            }
template<typename Collection >
TH1* fwlite::Scanner< Collection >::draw ( const char *  expr,
const char *  cut,
TString  drawopt,
TH1 *  hist 
) [inline]

Plot the expression expr for events passing 'cut, into histogram hist. hist is *not* reset before filling it, so it will add to the existing content.

If "NORM" is specified in the draw options, the output histogram is normalized If "GOFF" is specified in the draw options, the output histogram is not drawn

See setMaxEvents() to specify how many events to loop on when plotting. Events can be further selected by using addEventSelector().

Definition at line 185 of file Scanner.h.

References helper::ScannerBase::addExpression(), fwlite::EventBase::atEnd(), dtNoiseDBValidation_cfg::cerr, fwlite::Scanner< Collection >::event_, helper::ScannerBase::fill1D(), fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, estimatePileup::hist, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), fwlite::EventBase::toBegin(), and create_public_pileup_plots::vals.

Referenced by fwlite::Scanner< Collection >::draw().

                                                                                      {
                // prep the machinery
                helper::ScannerBase scanner(objType);
                scanner.setIgnoreExceptions(ignoreExceptions_);
                if (!scanner.addExpression(expr)) return 0;
                if (strlen(cut)) scanner.setCut(cut);

                // check histo
                if (hist == 0) {
                    std::cerr << "Method draw(expr, cut, drawopt, hist) cannot be called with null 'hist'. Use the other draw methods instead." << std::endl;
                    return 0;
                }

                // fill histogram
                int iev = 0;
                for (event_->toBegin(); !event_->atEnd(); ++(*event_), ++iev) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        scanner.fill1D(&vals[j], hist);
                    }
                }

                if (drawopt.Contains("NORM",TString::kIgnoreCase) && (hist->Integral() != 0)) {
                    hist->Sumw2();
                    hist->Scale(1.0/hist->Integral());
                    // remove the "NORM" because THistPainter doesn't understand it
                    drawopt(TRegexp("[Nn][Oo][Rr][Mm]")) = "";
                }

                if (!drawopt.Contains("GOFF",TString::kIgnoreCase)) hist->Draw(drawopt);
                return hist;
            }
template<typename Collection >
TH1* fwlite::Scanner< Collection >::draw ( const char *  expr,
int  nbins,
double  xlow,
double  xhigh,
const char *  cut = "",
const char *  drawopt = "",
const char *  hname = "htemp" 
) [inline]

Make a histogram named hname with nbins from xlow to xhigh, and then call draw(). If "SAME" is passed in the draw options, complain and ignore the binning.

Definition at line 250 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::draw(), fwlite::Scanner< Collection >::getSameH1(), and fwlite::Scanner< Collection >::htempDelete().

                                                                                                                                                            {
                if (TString(drawopt).Contains("SAME",TString::kIgnoreCase)) { 
                    std::cerr << "Binning is ignored when 'SAME' is specified." << std::endl; 
                    TH1 *hsame = getSameH1(hname);
                    return draw(expr, cut, drawopt, hsame);
                }
                if (strcmp(hname, "htemp") == 0) htempDelete();
                TH1 * htemp = new TH1F(hname, expr, nbins, xlow, xhigh);
                if (strlen(cut)) htemp->SetTitle(TString(expr)+"{"+cut+"}");
                htemp->GetXaxis()->SetTitle(expr);
                return draw(expr,cut,drawopt,htemp);
            }
template<typename Collection >
TH1* fwlite::Scanner< Collection >::draw ( const char *  expr,
int  nbins,
double *  xbins,
const char *  cut = "",
const char *  drawopt = "",
const char *  hname = "htemp" 
) [inline]

Make a histogram named hname with nbins with boundaries xbins, and then call draw(). If "SAME" is passed in the draw options, complain and ignore the binning.

Definition at line 264 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::draw(), fwlite::Scanner< Collection >::getSameH1(), and fwlite::Scanner< Collection >::htempDelete().

                                                                                                                                                {
                if (TString(drawopt).Contains("SAME",TString::kIgnoreCase)) { 
                    std::cerr << "Binning is ignored when 'SAME' is specified." << std::endl; 
                    TH1 *hsame = getSameH1(hname);
                    return draw(expr, cut, drawopt, hsame);
                }
                if (strcmp(hname, "htemp") == 0) htempDelete();
                TH1 * htemp = new TH1F(hname, expr, nbins, xbins);
                if (strlen(cut)) htemp->SetTitle(TString(expr)+"{"+cut+"}");
                htemp->GetXaxis()->SetTitle(expr);
                return draw(expr,cut,drawopt,htemp);
            }
template<typename Collection >
TH2* fwlite::Scanner< Collection >::draw2D ( TString  xexpr,
TString  yexpr,
const char *  cut,
TString  drawopt,
TH2 *  hist 
) [inline]

Just like draw() except that it uses TH2. Note that the order is (x,y) while in ROOT it's usually (y,x)!

Definition at line 344 of file Scanner.h.

References helper::ScannerBase::addExpression(), fwlite::EventBase::atEnd(), dtNoiseDBValidation_cfg::cerr, fwlite::Scanner< Collection >::event_, helper::ScannerBase::fill2D(), fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, estimatePileup::hist, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), fwlite::EventBase::toBegin(), and create_public_pileup_plots::vals.

Referenced by fwlite::Scanner< Collection >::draw2D().

                                                                                                    {
                // prep the machinery
                helper::ScannerBase scanner(objType);
                scanner.setIgnoreExceptions(ignoreExceptions_);
                if (!scanner.addExpression((const char *)xexpr)) return 0;
                if (!scanner.addExpression((const char *)yexpr)) return 0;
                if (strlen(cut)) scanner.setCut(cut);

                // check histo
                if (hist == 0) {
                    std::cerr << "Method draw2D(xexpr, yexpr, cut, drawopt, hist) cannot be called with null 'hist'. Use the other draw methods instead." << std::endl;
                    return 0;
                }

                // fill histogram
                int iev = 0;
                for (event_->toBegin(), iev = 0; !event_->atEnd(); ++(*event_), ++iev) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        scanner.fill2D(&vals[j], hist);
                    }
                }

                if (!strlen(hist->GetTitle())) hist->SetTitle((strlen(cut) ? yexpr+":"+xexpr+"{"+cut+"}" : yexpr+":"+xexpr));
                if (!strlen(hist->GetXaxis()->GetTitle())) hist->GetXaxis()->SetTitle(xexpr);
                if (!strlen(hist->GetYaxis()->GetTitle())) hist->GetYaxis()->SetTitle(yexpr);
                if (!TString(drawopt).Contains("GOFF",TString::kIgnoreCase)) hist->Draw(drawopt);
                return hist;
            }
template<typename Collection >
TH2* fwlite::Scanner< Collection >::draw2D ( TString  xexpr,
TString  yexpr,
const char *  cut = "",
TString  drawopt = "",
const char *  hname = "htemp",
TH2 *  htemplate = 0 
) [inline]

Just like draw() except that it uses TH2. Note that the order is (x,y) while in ROOT it's usually (y,x)! Note that automatical binning for TH2s is more expensive, as it requires to loop on the events twice!

Definition at line 378 of file Scanner.h.

References helper::ScannerBase::addExpression(), fwlite::EventBase::atEnd(), GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::draw2D(), helper::ScannerBase::eval(), fwlite::Scanner< Collection >::event_, fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::getSameH2(), fwlite::Scanner< Collection >::handle_, estimatePileup::hist, fwlite::Scanner< Collection >::htempDelete(), fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), helper::ScannerBase::test(), fwlite::EventBase::toBegin(), create_public_pileup_plots::vals, x, SiStripMonitorClusterAlca_cfi::xmax, SiStripMonitorClusterAlca_cfi::xmin, detailsBasic3DVector::y, SiStripMonitorClusterAlca_cfi::ymax, and SiStripMonitorClusterAlca_cfi::ymin.

                                                                                                                                                    {
                TH2 *hist = 0;
                if (htemplate != 0) {
                    if ((strcmp(hname, "htemp") == 0) && (strcmp(hname,htemplate->GetName()) != 0)) htempDelete();
                    hist = (TH2*) hist->Clone(hname);
                } else if (drawopt.Contains("SAME",TString::kIgnoreCase)) { 
                    hist = getSameH2(hname);
                }

                // if in the end we found no way to make "hist"
                if (hist == 0) {
                    // prep the machinery
                    helper::ScannerBase scanner(objType);
                    scanner.setIgnoreExceptions(ignoreExceptions_);
                    if (!scanner.addExpression((const char *)xexpr)) return 0;
                    if (!scanner.addExpression((const char *)yexpr)) return 0;
                    if (strlen(cut)) scanner.setCut(cut);

                    if (strcmp(hname, "htemp") == 0) htempDelete();
                    // ok this is much more a hack than for the 1D case
                    double xmin = 0, xmax = -1, ymin = 0, ymax = -1; int iev;
                    for (event_->toBegin(), iev = 0; !event_->atEnd(); ++(*event_), ++iev) {
                        if (maxEvents_ > -1 && iev > maxEvents_) break;
                        if (!selectEvent(*event_)) continue;
                        handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                        const Collection & vals = *handle_;
                        for (size_t j = 0, n = vals.size(); j < n; ++j) {
                            if (!scanner.test(&vals[j])) continue;
                            double x = scanner.eval(&vals[j],0);
                            double y = scanner.eval(&vals[j],1);
                            if ((xmax == -1) || (x >= xmax)) xmax = x;
                            if ((xmin ==  0) || (x <= xmin)) xmin = x;
                            if ((ymax == -1) || (y >= ymax)) ymax = y;
                            if ((ymin ==  0) || (y <= ymin)) ymin = y;
                        }
                    }
                    hist = new TH2F(hname, "",
                            gEnv->GetValue("Hist.Binning.2D.x",20), xmin, xmax,
                            gEnv->GetValue("Hist.Binning.2D.y",20), ymin, ymax);
                }
                return draw2D(xexpr, yexpr, cut, drawopt, hist);
            }
template<typename Collection >
TH2* fwlite::Scanner< Collection >::draw2D ( TString  xexpr,
int  xbins,
double  xlow,
double  xhigh,
TString  yexpr,
int  ybins,
double  ylow,
double  yhigh,
const char *  cut = "",
const char *  drawopt = "",
const char *  hname = "htemp" 
) [inline]

Just like draw() except that it uses TH2. Note that the order is (x,y) while in ROOT it's usually (y,x)!

Definition at line 422 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::draw2D(), fwlite::Scanner< Collection >::getSameH2(), and fwlite::Scanner< Collection >::htempDelete().

                                                                                                    {
                if (TString(drawopt).Contains("SAME",TString::kIgnoreCase)) { 
                    std::cerr << "Binning is ignored when 'SAME' is specified." << std::endl; 
                    TH2 *hsame = getSameH2(hname);
                    return draw2D(xexpr, yexpr, cut, drawopt, hsame);
                }
                if (strcmp(hname, "htemp") == 0) htempDelete();
                TH2 * htemp = new TH2F("htemp", "", xbins, xlow, xhigh, ybins,ylow,yhigh);
                return draw2D(xexpr,yexpr,cut,drawopt,htemp);
            }
template<typename Collection >
TGraph* fwlite::Scanner< Collection >::drawGraph ( TString  xexpr,
TString  yexpr,
const char *  cut,
TString  drawopt,
TGraph *  graph 
) [inline]

Draw a scatter plot of x vs y for events passing the cut.

Definition at line 436 of file Scanner.h.

References helper::ScannerBase::addExpression(), fwlite::EventBase::atEnd(), fwlite::Scanner< Collection >::event_, helper::ScannerBase::fillGraph(), fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), fwlite::EventBase::toBegin(), and create_public_pileup_plots::vals.

Referenced by fwlite::Scanner< Collection >::drawGraph().

                                                                                                              {
                // prep the machinery
                helper::ScannerBase scanner(objType);
                scanner.setIgnoreExceptions(ignoreExceptions_);
                if (!scanner.addExpression((const char *)xexpr)) return 0;
                if (!scanner.addExpression((const char *)yexpr)) return 0;
                if (strlen(cut)) scanner.setCut(cut);

                // make graph, if needed
                if (graph == 0) {
                    graph = new TGraph();
                    graph->SetNameTitle("htemp", (strlen(cut) ? yexpr+":"+xexpr+"{"+cut+"}" : yexpr+":"+xexpr)); 
                }

                // fill graph
                int iev = 0;
                for (event_->toBegin(); !event_->atEnd(); ++(*event_), ++iev) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        scanner.fillGraph(&vals[j], graph);
                    }
                }

                if (!strlen(graph->GetTitle())) graph->SetTitle((strlen(cut) ? yexpr+":"+xexpr+"{"+cut+"}" : yexpr+":"+xexpr));
                if (!strlen(graph->GetXaxis()->GetTitle())) graph->GetXaxis()->SetTitle(xexpr);
                if (!strlen(graph->GetYaxis()->GetTitle())) graph->GetYaxis()->SetTitle(yexpr);
                if (!TString(drawopt).Contains("GOFF",TString::kIgnoreCase)) graph->Draw(drawopt);
                return graph;
            }
template<typename Collection >
TGraph* fwlite::Scanner< Collection >::drawGraph ( TString  xexpr,
TString  yexpr,
const char *  cut = "",
TString  drawopt = "AP",
const char *  gname = "htemp" 
) [inline]

Draw a scatter plot of x vs y for events passing the cut.

Definition at line 470 of file Scanner.h.

References GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::drawGraph(), and fwlite::Scanner< Collection >::htempDelete().

                                                                                                                                        {
                if (strcmp(gname, "htemp") == 0) htempDelete();
                TGraph *graph =  new TGraph();
                graph->SetNameTitle(gname, (strlen(cut) ? yexpr+":"+xexpr+"{"+cut+"}" : yexpr+":"+xexpr)); 
                return drawGraph(xexpr,yexpr,cut,drawopt,graph);
            }
template<typename Collection >
TProfile* fwlite::Scanner< Collection >::drawProf ( TString  xexpr,
TString  yexpr,
const char *  cut,
TString  drawopt,
TProfile *  hist 
) [inline]

Just like draw() except that it uses TProfile. Note that the order is (x,y) while in ROOT it's usually (y,x)!

Definition at line 279 of file Scanner.h.

References helper::ScannerBase::addExpression(), fwlite::EventBase::atEnd(), dtNoiseDBValidation_cfg::cerr, fwlite::Scanner< Collection >::event_, helper::ScannerBase::fillProf(), fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, estimatePileup::hist, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), fwlite::EventBase::toBegin(), and create_public_pileup_plots::vals.

Referenced by fwlite::Scanner< Collection >::drawProf().

                                                                                                                {
                // prep the machinery
                helper::ScannerBase scanner(objType);
                scanner.setIgnoreExceptions(ignoreExceptions_);
                if (!scanner.addExpression(xexpr.Data())) return 0;
                if (!scanner.addExpression(yexpr.Data())) return 0;
                if (strlen(cut)) scanner.setCut(cut);

                // check histo
                if (hist == 0) {
                    std::cerr << "Method drawProf(xexpr, yexpr, cut, drawopt, hist) cannot be called with null 'hist'. Use the other draw methods instead." << std::endl;
                    return 0;
                }

                // fill histogram
                int iev = 0;
                for (event_->toBegin(); !event_->atEnd(); ++(*event_), ++iev) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        scanner.fillProf(&vals[j], hist);
                    }
                }

                if (!strlen(hist->GetTitle())) hist->SetTitle((strlen(cut) ? yexpr+":"+xexpr+"{"+cut+"}" : yexpr+":"+xexpr));
                if (!strlen(hist->GetXaxis()->GetTitle())) hist->GetXaxis()->SetTitle(xexpr);
                if (!strlen(hist->GetYaxis()->GetTitle())) hist->GetYaxis()->SetTitle(yexpr);
                if (!TString(drawopt).Contains("GOFF",TString::kIgnoreCase)) hist->Draw(drawopt);
                return hist;
            }
template<typename Collection >
TProfile* fwlite::Scanner< Collection >::drawProf ( TString  xexpr,
TString  yexpr,
const char *  cut = "",
TString  drawopt = "",
const char *  hname = "htemp",
TProfile *  htemplate = 0 
) [inline]

Just like draw() except that it uses TProfile. Note that the order is (x,y) while in ROOT it's usually (y,x)!

Definition at line 312 of file Scanner.h.

References GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::drawProf(), fwlite::Scanner< Collection >::getSameProf(), estimatePileup::hist, and fwlite::Scanner< Collection >::htempDelete().

                                                                                                                                                                {
                TProfile *hist = 0;
                if (htemplate != 0) {
                    if ((strcmp(hname, "htemp") == 0) && (strcmp(hname,htemplate->GetName() )!= 0)) htempDelete();
                    hist = (TProfile*) hist->Clone(hname);
                } else if (drawopt.Contains("SAME",TString::kIgnoreCase)) { 
                    hist = getSameProf(hname);
                }

                // if in the end we found no way to make "hist"
                if (hist == 0) {
                    if (strcmp(hname, "htemp") == 0) htempDelete();
                    hist = new TProfile(hname, "", gEnv->GetValue("Hist.Binning.1D.x",100), 0., 0.);
                    hist->SetBit(TProfile::kCanRebin);
                }
                return drawProf(xexpr, yexpr, cut, drawopt, hist);
            }
template<typename Collection >
TProfile* fwlite::Scanner< Collection >::drawProf ( TString  xexpr,
int  bins,
double  xlow,
double  xhigh,
TString  yexpr,
const char *  cut = "",
const char *  drawopt = "",
const char *  hname = "htemp" 
) [inline]

Just like draw() except that it uses TProfile. Note that the order is (x,y) while in ROOT it's usually (y,x)!

Definition at line 331 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, GOODCOLL_filter_cfg::cut, fwlite::Scanner< Collection >::drawProf(), fwlite::Scanner< Collection >::getSameProf(), and fwlite::Scanner< Collection >::htempDelete().

                                                                                                                                                                                {
                if (TString(drawopt).Contains("SAME",TString::kIgnoreCase)) { 
                    std::cerr << "Binning is ignored when 'SAME' is specified." << std::endl; 
                    TProfile *hsame = getSameProf(hname);
                    return drawProf(xexpr, yexpr, cut, drawopt, hsame);
                }
                if (strcmp(hname, "htemp") == 0) htempDelete();
                TProfile * htemp = new TProfile(hname, "", bins, xlow, xhigh);
                return drawProf(xexpr,yexpr,cut,drawopt,htemp);
            }
template<typename Collection >
TObjArray& fwlite::Scanner< Collection >::eventSelectors ( ) [inline]

Definition at line 569 of file Scanner.h.

References fwlite::Scanner< Collection >::eventSelectors_.

{ return eventSelectors_; }
template<typename Collection >
RooDataSet* fwlite::Scanner< Collection >::fillDataSet ( const char *  realvars,
const char *  boolvars,
const char *  cut = "",
const char *  name = "data" 
) [inline]

Fill a RooDataSet.

  • Real variables are defined just like in the scan() command; a list separated by ":" (see also setExpressionSeparator());
  • Boolean variables are defined just like cuts, and are created as RooCategory with two states: pass(1) and fail(0). For each variable, the name is taken from the expression itself, or can be specified manuall by using the notation "@name=expr" Note: the dataset contains one entry per item, irrespectively of how entries are distributed among events.

Definition at line 485 of file Scanner.h.

References helper::ScannerBase::addExpression(), helper::ScannerBase::addExtraCut(), fwlite::EventBase::atEnd(), dtNoiseDBValidation_cfg::cerr, GOODCOLL_filter_cfg::cut, helper::ScannerBase::eval(), fwlite::Scanner< Collection >::event_, fwlite::Scanner< Collection >::exprSep_, fwlite::Handle< T >::failedToGet(), fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, i, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, fwlite::Scanner< Collection >::maxEvents_, n, mergeVDriftHistosByStation::name, fwlite::Scanner< Collection >::objType, fwlite::Scanner< Collection >::process_, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), AlCaHLTBitMon_QueryRunRegistry::string, helper::ScannerBase::test(), fwlite::EventBase::toBegin(), and create_public_pileup_plots::vals.

                                                                                                                             {
                helper::ScannerBase scanner(objType); 
                scanner.setIgnoreExceptions(ignoreExceptions_);

                RooArgList vars;
                TObjArray  *exprArray = TString(realvars).Tokenize(exprSep_);
                TObjArray  *catArray  = TString(boolvars).Tokenize(exprSep_);
                int nreals = exprArray->GetEntries();
                int nbools  = catArray->GetEntries();
                for (int i = 0; i < nreals; ++i) {
                    TString str = ((TObjString *)(*exprArray)[i])->GetString();
                    std::string lb = str.Data();
                    std::string ex = str.Data();
                    if ((ex[0] == '@') && (ex.find('=') != std::string::npos)) {
                        lb = lb.substr(1,ex.find('=')-1); 
                        ex = ex.substr(ex.find('=')+1);    
                    }
                    if (!scanner.addExpression(ex.c_str())) {
                        std::cerr << "Filed to define real variable '" << lb << "', expr = '" << ex << "'" << std::endl;
                        return 0;
                    }
                    // FIXME: I have to leave it dangling on the HEAP otherwise ROOT segfaults...
                    RooRealVar *var = new RooRealVar(lb.c_str(),lb.c_str(), 0.0);
                    vars.add(*var);
                }
                for (int i = 0; i < nbools; ++i) {
                    TString str = ((TObjString *)(*catArray)[i])->GetString();
                    std::string lb = str.Data();
                    std::string ex = str.Data();
                    if ((ex[0] == '@') && (ex.find('=') != std::string::npos)) {
                        lb = lb.substr(1,ex.find('=')-1); 
                        ex = ex.substr(ex.find('=')+1);    
                    }
                    if (!scanner.addExtraCut(ex.c_str())) {
                        std::cerr << "Filed to define bool variable '" << lb << "', cut = '" << ex << "'" << std::endl;
                        return 0;
                    }
                    RooCategory *cat = new RooCategory(lb.c_str(), lb.c_str());
                    cat->defineType("fail",0);
                    cat->defineType("pass",1);
                    vars.add(*cat);
                }

                RooDataSet *ds = new RooDataSet(name, name, vars);

                if (strlen(cut)) scanner.setCut(cut);
                int iev = 0;
                for (event_->toBegin(); !event_->atEnd(); ++iev, ++(*event_)) {
                    if (maxEvents_ > -1 && iev > maxEvents_) break;
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    if (handle_.failedToGet()) {
                        if (ignoreExceptions_) continue;
                    } 
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        if (!scanner.test(&vals[j])) continue;
                        for (int i = 0; i < nreals; ++i) {
                            RooRealVar *var = (RooRealVar *)vars.at(i);
                            var->setVal(scanner.eval(&vals[j], i));
                        }
                        for (int i = 0; i < nbools; ++i) {
                            RooCategory *cat = (RooCategory*) vars.at(i+nreals);
                            cat->setIndex(int(scanner.test(&vals[j], i+1))); // 0 is the event selection cut
                        }
                        ds->add(vars);
                    }
                }
    
                delete exprArray;
                delete catArray;

                return ds;
            }
template<typename Collection >
TH1* fwlite::Scanner< Collection >::getSameH1 ( const char *  hname) [inline, private]

Get whatever histogram makes sense for a plot passing "SAME" in drawOpt, and call it hname Currently it won't work if the histogram of which we want to be "SAME" is not called "htemp"

Definition at line 612 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, and estimatePileup::hist.

Referenced by fwlite::Scanner< Collection >::draw().

                                              {
                if (gDirectory && gDirectory->Get("htemp") != 0 && 
                        gDirectory->Get("htemp")->IsA()->InheritsFrom(TH1::Class())) {
                    TH1 *hist = (TH1*) ((TH1*) gDirectory->Get("htemp"))->Clone(hname);
                    hist->Reset();
                    hist->SetLineColor(kBlack);
                    hist->SetMarkerColor(kBlack);
                    return hist;
                } else {
                    std::cerr << "There is no 'htemp' histogram from which to 'SAME'." << std::endl;
                    return 0;
                }
            }
template<typename Collection >
TH2* fwlite::Scanner< Collection >::getSameH2 ( const char *  hname) [inline, private]

Get whatever histogram makes sense for a plot passing "SAME" in drawOpt, and call it hname Currently it won't work if the histogram of which we want to be "SAME" is not called "htemp"

Definition at line 628 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, and estimatePileup::hist.

Referenced by fwlite::Scanner< Collection >::draw2D().

                                              {
                if (gDirectory && gDirectory->Get("htemp") != 0 && 
                        gDirectory->Get("htemp")->IsA()->InheritsFrom(TH2::Class())) {
                    TH2 *hist = (TH2*) ((TH2*) gDirectory->Get("htemp"))->Clone(hname);
                    hist->Reset();
                    hist->SetLineColor(kBlack);
                    hist->SetMarkerColor(kBlack);
                    return hist;
                } else {
                    std::cerr << "There is no 'htemp' histogram from which to 'SAME'." << std::endl;
                    return 0;
                }
            }
template<typename Collection >
TProfile* fwlite::Scanner< Collection >::getSameProf ( const char *  hname) [inline, private]

Get whatever histogram makes sense for a plot passing "SAME" in drawOpt, and call it hname Currently it won't work if the histogram of which we want to be "SAME" is not called "htemp"

Definition at line 644 of file Scanner.h.

References dtNoiseDBValidation_cfg::cerr, and estimatePileup::hist.

Referenced by fwlite::Scanner< Collection >::drawProf().

                                                     {
                if (gDirectory && gDirectory->Get("htemp") != 0 && 
                        gDirectory->Get("htemp")->IsA()->InheritsFrom(TProfile::Class())) {
                    TProfile *hist = (TProfile*) ((TProfile*) gDirectory->Get("htemp"))->Clone(hname);
                    hist->Reset();
                    hist->SetLineColor(kBlack);
                    hist->SetMarkerColor(kBlack);
                    return hist;
                } else {
                    std::cerr << "There is no 'htemp' histogram from which to 'SAME'." << std::endl;
                    return 0;
                }
            }
template<typename Collection >
void fwlite::Scanner< Collection >::htempDelete ( ) [inline, private]

Definition at line 603 of file Scanner.h.

References getGTfromDQMFile::obj.

Referenced by fwlite::Scanner< Collection >::draw(), fwlite::Scanner< Collection >::draw2D(), fwlite::Scanner< Collection >::drawGraph(), and fwlite::Scanner< Collection >::drawProf().

                               {
                if (gDirectory) {
                    TObject *obj = gDirectory->Get("htemp");
                    if (obj) obj->Delete();
                }
            }
template<typename Collection >
void fwlite::Scanner< Collection >::scan ( const char *  exprs,
const char *  cut = "",
int  nmax = -1 
) [inline]

Scan the first nmax entries of the event and print out the values of some expressions.

The cut is applied to the individual entries. To set Event-wide cuts, use addEventSelector().

The different expressions are separated by ":", unless changed using setExpressionSeparator. The title of each column is the text of the expression, unless one specifies it differently by using the notation "@label=expression"

Each row is prefixed by the event id (Run/LS/Event on Data, entry number within the file for MC) and by the index of the object within the collection. The behaviour can be changed through the setPrintFullEventId() method.

The printing will pause by default every 50 lines (see setMaxLinesToPrint() to change this) Scanning will stop after nmax events.

Definition at line 77 of file Scanner.h.

References helper::ScannerBase::addExpression(), fwlite::EventBase::atEnd(), gather_cfg::cout, GOODCOLL_filter_cfg::cut, event(), fwlite::Scanner< Collection >::event_, edm::EventBase::eventAuxiliary(), fwlite::Scanner< Collection >::exprSep_, fwlite::Handle< T >::failedToGet(), fwlite::Handle< T >::getByLabel(), fwlite::Scanner< Collection >::handle_, i, fwlite::Scanner< Collection >::ignoreExceptions_, fwlite::Scanner< Collection >::instance_, j, fwlite::Scanner< Collection >::label_, geometryCSVtoXML::line, fwlite::Scanner< Collection >::maxLinesToPrint_, n, fwlite::Scanner< Collection >::objType, helper::ScannerBase::print(), fwlite::Scanner< Collection >::printFullEventId_, fwlite::Scanner< Collection >::process_, DTTTrigCorrFirst::run, fwlite::Scanner< Collection >::selectEvent(), helper::ScannerBase::setCut(), helper::ScannerBase::setIgnoreExceptions(), AlCaHLTBitMon_QueryRunRegistry::string, helper::ScannerBase::test(), fwlite::EventBase::toBegin(), create_public_pileup_plots::vals, and fwlite::Scanner< Collection >::wantMore().

                                                                          {
                helper::ScannerBase scanner(objType); 
                scanner.setIgnoreExceptions(ignoreExceptions_);

                TObjArray  *exprArray = TString(exprs).Tokenize(exprSep_);
                int rowline = 0;
                if (printFullEventId_) {
                    printf(" : %9s : %4s : %9s : %3s", "RUN", "LUMI", "EVENT", "#IT");
                    rowline += 3*4+9+4+9+3-1; // -1 as first char remain blank
                } else {
                    printf(" : %5s : %3s", "EVENT", "#IT");
                    rowline += 3+6+3+3-1;  // -1 as first char remain blank
                }
                for (int i = 0; i < exprArray->GetEntries(); ++i) {
                    TString str = ((TObjString *)(*exprArray)[i])->GetString();
                    std::string lb = str.Data();
                    std::string ex = str.Data();
                    if ((ex[0] == '@') && (ex.find('=') != std::string::npos)) {
                        lb = lb.substr(1,ex.find('=')-1); 
                        ex = ex.substr(ex.find('=')+1);    
                    }
                    scanner.addExpression(ex.c_str());
                    printf(" : %8s", (lb.size()>8 ? lb.substr(lb.size()-8) : lb).c_str()); // the rightmost part is usually the more interesting one
                    rowline += 3+8;
                }
                std::cout << " :" << std::endl;
                rowline += 2;
                delete exprArray;

                TString rule('-', rowline);
                std::cout << " " << rule << " " << std::endl;

                if (strlen(cut)) scanner.setCut(cut);

                int iev = 0, line = 0;
                for (event_->toBegin(); (iev != nmax) && !event_->atEnd(); ++iev, ++(*event_)) {
                    if (!selectEvent(*event_)) continue;
                    handle_.getByLabel(*event_, label_.c_str(), instance_.c_str(), process_.c_str());
                    if (handle_.failedToGet()) {
                        if (ignoreExceptions_) continue;
                    } 
                    const Collection & vals = *handle_;
                    for (size_t j = 0, n = vals.size(); j < n; ++j) {
                        if (!scanner.test(&vals[j])) continue;
                        if (printFullEventId_) {
                            const edm::EventAuxiliary &id = event_->eventAuxiliary();
                            printf(" : %9d : %4d : %9d : %3lu", id.run(), id.luminosityBlock(), id.event(), (unsigned long)j);
                        } else {
                            printf(" : %5d : %3lu", iev, (unsigned long)j);
                        }
                        scanner.print(&vals[j]);
                        std::cout << " :" << std::endl;
                        if (++line == maxLinesToPrint_) {
                            line = 0;
                            if (!wantMore()) { 
                                iev = nmax-1; // this is to exit the outer loop
                                break;        // and this to exit the inner one
                             }
                        }
                    }
                }
                std::cout << std::endl;
            }
template<typename Collection >
bool fwlite::Scanner< Collection >::selectEvent ( const fwlite::EventBase ev) const [inline]
template<typename Collection >
void fwlite::Scanner< Collection >::setExpressionSeparator ( TString  separator) [inline]

Definition at line 563 of file Scanner.h.

References fwlite::Scanner< Collection >::exprSep_.

{ exprSep_ = separator; }
template<typename Collection >
void fwlite::Scanner< Collection >::setIgnoreExceptions ( bool  ignoreThem) [inline]

Definition at line 564 of file Scanner.h.

References fwlite::Scanner< Collection >::ignoreExceptions_.

{ ignoreExceptions_ = ignoreThem; }
template<typename Collection >
void fwlite::Scanner< Collection >::setMaxEvents ( int  max) [inline]

Definition at line 577 of file Scanner.h.

References max(), and fwlite::Scanner< Collection >::maxEvents_.

{ maxEvents_ = max; }
template<typename Collection >
void fwlite::Scanner< Collection >::setMaxLinesToPrint ( int  lines) [inline]

Definition at line 565 of file Scanner.h.

References fwlite::Scanner< Collection >::maxLinesToPrint_.

{ maxLinesToPrint_ = (lines > 0 ? lines : 2147483647); }
template<typename Collection >
void fwlite::Scanner< Collection >::setPrintFullEventId ( bool  printIt = true) [inline]

Definition at line 562 of file Scanner.h.

References fwlite::Scanner< Collection >::printFullEventId_.

{ printFullEventId_ = printIt; }
template<typename Collection >
bool fwlite::Scanner< Collection >::wantMore ( ) const [inline, private]

Definition at line 592 of file Scanner.h.

References submit::answer.

Referenced by fwlite::Scanner< Collection >::scan().

                                  {
                // ask if user wants more
                fprintf(stderr,"Type <CR> to continue or q to quit ==> ");
                // read first char
                int readch = getchar(), answer = readch;
                // poll out remaining chars from buffer
                while (readch != '\n' && readch != EOF) readch = getchar();
                // check first char
                return !(answer == 'q' || answer == 'Q');
            }

Member Data Documentation

template<typename Collection >
fwlite::EventBase* fwlite::Scanner< Collection >::event_ [private]
template<typename Collection >
TObjArray fwlite::Scanner< Collection >::eventSelectors_ [private]
template<typename Collection >
TString fwlite::Scanner< Collection >::exprSep_ [private]
template<typename Collection >
HandleT fwlite::Scanner< Collection >::handle_ [private]
template<typename Collection >
bool fwlite::Scanner< Collection >::ignoreExceptions_ [private]
template<typename Collection >
std::string fwlite::Scanner< Collection >::instance_ [private]
template<typename Collection >
std::string fwlite::Scanner< Collection >::label_ [private]
template<typename Collection >
int fwlite::Scanner< Collection >::maxEvents_ [private]
template<typename Collection >
int fwlite::Scanner< Collection >::maxLinesToPrint_ [private]
template<typename Collection >
edm::TypeWithDict fwlite::Scanner< Collection >::objType [private]
template<typename Collection >
bool fwlite::Scanner< Collection >::printFullEventId_ [private]
template<typename Collection >
std::string fwlite::Scanner< Collection >::process_ [private]