/* ======================================================================== *\ ! ! * ! * This file is part of MARS, the MAGIC Analysis and Reconstruction ! * Software. It is distributed to you in the hope that it can be a useful ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes. ! * It is distributed WITHOUT ANY WARRANTY. ! * ! * Permission to use, copy, modify and distribute this software and its ! * documentation for any purpose is hereby granted without fee, ! * provided that the above copyright notice appear in all copies and ! * that both that copyright notice and this permission notice appear ! * in supporting documentation. It is provided "as is" without express ! * or implied warranty. ! * ! ! ! Author(s): Thomas Bretz, 12/2000 ! Author(s): Harald Kornmayer, 1/2001 ! ! Copyright: MAGIC Software Development, 2000-2003 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // MCerPhotEvt // // NOTE: This container is NOT ment for I/O. Write it to a file on your own // risk! // // Class Version 2: // ---------------- // - added fLut to accelerate GetPixById a lot // // Class Version 1: // ---------------- // - first version // ///////////////////////////////////////////////////////////////////////////// #include "MCerPhotEvt.h" #include #include #include #include #include "MLog.h" #include "MLogManip.h" #include "MGeomCam.h" ClassImp(MCerPhotEvt); ClassImp(MCerPhotEvtIter); using namespace std; // -------------------------------------------------------------------------- // // Creates a MCerPhotPix object for each pixel in the event // MCerPhotEvt::MCerPhotEvt(const char *name, const char *title) : fNumPixels(0) { fName = name ? name : "MCerPhotEvt"; fTitle = title ? title : "(Number of Photon)-Event Information"; fPixels = new TClonesArray("MCerPhotPix", 0); } // -------------------------------------------------------------------------- // // This is not yet implemented like it should. // /* void MCerPhotEvt::Draw(Option_t* option) { // // FIXME!!! Here the Draw function of the CamDisplay // should be called to add the CamDisplay to the Pad. // The drawing should be done in MCamDisplay::Paint // // MGeomCam *geom = fType ? new MGeomCamMagic : new MGeomCamCT1; // MCamDisplay *disp = new MCamDisplay(geom); // delete geom; // disp->DrawPhotNum(this); } */ // -------------------------------------------------------------------------- // // reset counter and delete netries in list. // void MCerPhotEvt::Reset() { fNumPixels = 0; fMaxIndex = 0; fLut.Set(0); // fPixels->Delete(); } void MCerPhotEvt::FixSize() { fLut.Set(fMaxIndex); if (fPixels->GetEntriesFast() == (Int_t)fNumPixels) return; fPixels->ExpandCreateFast(fNumPixels); } // -------------------------------------------------------------------------- // // Dump the cerenkov photon event to *fLog // void MCerPhotEvt::Print(Option_t *) const { const Int_t entries = fPixels->GetEntries(); *fLog << GetDescriptor() << dec << endl; *fLog << " Number of Pixels: " << fNumPixels << "(" << entries << ")" << endl; for (Int_t i=0; iIsPixelUsed() : kFALSE; } // -------------------------------------------------------------------------- // // Checks if in the pixel list is an entry with pixel id // Bool_t MCerPhotEvt::IsPixelCore(Int_t id) const { const MCerPhotPix *pix = GetPixById(id); return pix ? pix->IsPixelCore() : kFALSE; } // -------------------------------------------------------------------------- // // get the minimum number of photons of all valid pixels in the list // If you specify a geometry the number of photons is weighted with the // area of the pixel // Float_t MCerPhotEvt::GetNumPhotonsMin(const MGeomCam *geom) const { if (fNumPixels <= 0) return -5.; const UInt_t n = geom->GetNumPixels(); Float_t minval = FLT_MAX; for (UInt_t i=0; i=n) continue; Float_t testval = pix.GetNumPhotons(); if (geom) testval *= geom->GetPixRatio(id); if (testval < minval) minval = testval; } return minval; } // -------------------------------------------------------------------------- // // get the maximum number of photons of all valid pixels in the list // If you specify a geometry the number of photons is weighted with the // area of the pixel // Float_t MCerPhotEvt::GetNumPhotonsMax(const MGeomCam *geom) const { if (fNumPixels <= 0) return 50.; const UInt_t n = geom->GetNumPixels(); Float_t maxval = -FLT_MAX; for (UInt_t i=0; i=n) continue; Float_t testval = pix.GetNumPhotons(); if (geom) testval *= geom->GetPixRatio(id); if (testval > maxval) maxval = testval; } return maxval; } // -------------------------------------------------------------------------- // // get the minimum ratio of photons/error // Float_t MCerPhotEvt::GetRatioMin(const MGeomCam *geom) const { if (fNumPixels <= 0) return -5.; Float_t minval = FLT_MAX; for (UInt_t i=0; iGetPixRatio(pix.GetPixId())); if (testval < minval) minval = testval; } return minval; } // -------------------------------------------------------------------------- // // get the maximum ratio of photons/error // Float_t MCerPhotEvt::GetRatioMax(const MGeomCam *geom) const { if (fNumPixels <= 0) return -5.; Float_t maxval = -FLT_MAX; for (UInt_t i=0; iGetPixRatio(pix.GetPixId())); if (testval > maxval) maxval = testval; } return maxval; } // -------------------------------------------------------------------------- // // get the minimum of error // If you specify a geometry the number of photons is weighted with the // area of the pixel // Float_t MCerPhotEvt::GetErrorPhotMin(const MGeomCam *geom) const { if (fNumPixels <= 0) return 50.; Float_t minval = FLT_MAX; for (UInt_t i=0; iGetPixRatio(pix.GetPixId()); if (testval < minval) minval = testval; } return minval; } // -------------------------------------------------------------------------- // // get the maximum ratio of photons/error // If you specify a geometry the number of photons is weighted with the // area of the pixel // Float_t MCerPhotEvt::GetErrorPhotMax(const MGeomCam *geom) const { if (fNumPixels <= 0) return 50.; Float_t maxval = -FLT_MAX; for (UInt_t i=0; iGetPixRatio(pix.GetPixId()); if (testval > maxval) maxval = testval; } return maxval; } void MCerPhotEvt::RemoveUnusedPixels() { TIter Next(fPixels); MCerPhotPix *pix = NULL; while ((pix=(MCerPhotPix*)Next())) if (!pix->IsPixelUsed()) fPixels->Remove(pix); fPixels->Compress(); fNumPixels=fPixels->GetEntriesFast(); } // -------------------------------------------------------------------------- // // Return a pointer to the pixel with the requested idx. NULL if it doesn't // exist. The Look-up-table fLut is used. If its size is zero (according // to Rene this will happen if an old class object is loaded) we still // try to search in the array. // MCerPhotPix *MCerPhotEvt::GetPixById(Int_t idx) const { if (idx<0) return 0; if (fLut.GetSize()>0) { if (idx>=fLut.GetSize()) return 0; return fLut[idx]<0 ? 0 : (MCerPhotPix*)(fPixels->UncheckedAt(fLut[idx])); } TIter Next(fPixels); MCerPhotPix *pix = NULL; while ((pix=(MCerPhotPix*)Next())) if (pix->GetPixId()==idx) return pix; return NULL; } MCerPhotPix *MCerPhotEvt::AddPixel(Int_t idx, Float_t nph, Float_t er) { // // If this is too slow or takes to much space we might use // MGeomApply and an InitSize member function instead. // if (idx>=fLut.GetSize()) { const Int_t n = fLut.GetSize(); fLut.Set(idx*2+1); //idx+1 is slower than idx*2+1 for (int i=n; ifMaxIndex) fMaxIndex=(UInt_t)idx; return new ((*fPixels)[fNumPixels++]) MCerPhotPix(idx, nph, er); } // -------------------------------------------------------------------------- // // Returns, depending on the type flag: // // 0: Number of Photons*PixRatio // 1: Error*sqrt(PixRatio) // 2: Cleaning level = Num Photons*sqrt(PixRatio)/Error // 3: Number of Photons // 4: Error // Bool_t MCerPhotEvt::GetPixelContent(Double_t &val, Int_t idx, const MGeomCam &cam, Int_t type) const { MCerPhotPix *pix = GetPixById(idx); if (!pix || !pix->IsPixelUsed()) return kFALSE; const Double_t ratio = cam.GetPixRatio(idx); switch (type) { case 1: val = pix->GetErrorPhot()*TMath::Sqrt(ratio); return kTRUE; case 2: if (pix->GetErrorPhot()<=0) return kFALSE; val = pix->GetNumPhotons()*TMath::Sqrt(ratio)/pix->GetErrorPhot(); return kTRUE; case 3: val = pix->GetNumPhotons(); break; case 4: val = pix->GetErrorPhot(); break; default: val = pix->GetNumPhotons()*ratio; return kTRUE; } return kTRUE; } void MCerPhotEvt::DrawPixelContent(Int_t num) const { *fLog << warn << "MCerPhotEvt::DrawPixelContent - not available." << endl; } TObject *MCerPhotEvtIter::Next() { if (!fUsedOnly) return TObjArrayIter::Next(); MCerPhotPix *pix; while ((pix = (MCerPhotPix*)TObjArrayIter::Next())) if (pix->IsPixelUsed()) return pix; return pix; }