#undef EXPERT #undef EXPERT #include "MStarguider.h" #include // ifstream #include #include #include #include #include // temp writeout of histos #include #include #include #include #include // TGHorizontal3DLine #include #include #include "MString.h" #include "MLog.h" #include "MLogManip.h" #include "MAstro.h" #include "MString.h" #include "MCosy.h" #include "MCaos.h" // #include "MStargLeds.h" #include "MStargHistograms.h" #include "MDriveCom.h" #include "MGStarg.h" #include "MGNumStars.h" #include "MGImage.h" #include "MGCoordinates.h" #include "Camera.h" #include "PngReader.h" #include "Led.h" #include "Writer.h" #include "FilterLed.h" #include "MStarList.h" #include "CaosFilter.h" #include "StarCatalog.h" #include "MGeomCamMagic.h" #include "MAstroCamera.h" #include "MGCosy.h" ClassImp(MStarguider); using namespace std; enum { IDM_kFilter, IDM_kFindStar, IDM_kCaosFilter, IDM_kCatalog, IDM_kStarguider, IDM_kStart, IDM_kStop, IDM_kFileType, IDM_kPPM, IDM_kPNG, IDM_kOnce, IDM_kStretch, IDM_kInput, IDM_kChannel1, IDM_kChannel2, IDM_kChannel3, IDM_kContinous, IDM_kRate25ps, IDM_kRate5ps, IDM_kRate1s, IDM_kRate5s, IDM_kRate30s, IDM_kRate1m, IDM_kRate5m, IDM_kSetup, IDM_kLimMag3, IDM_kLimMag4, IDM_kLimMag5, IDM_kLimMag6, IDM_kLimMag7, IDM_kLimMag8, IDM_kLimMag9, IDM_kPixSize, IDM_kAngle, IDM_kCut, IDM_kInterpol250, IDM_kInterpol125, IDM_kInterpol50, IDM_kInterpol25, IDM_kInterpol10, IDM_kInterpol5, IDM_kInterpol2, IDM_kInterpol1, IDM_kCaosPrintRings, IDM_kCaosPrintLeds, IDM_kCaosAnalStart, IDM_kCaosAnalStop, IDM_kCaosWriteStart, IDM_kCaosWriteStop, IDM_kResetHistograms, IDM_kStargAnalysis, IDM_kStargCaosFilter, IDM_kStargFindStar, IDM_kRoqueLampAna, IDM_kStarguiderMode, IDM_kTpointMode }; Bool_t MStarguider::HandleTimer(TTimer *t) { if (IsMapped()) { fImage->DoRedraw(); fZoomImage->DoRedraw(); } if (fCosy && fCosy->GetWin()->IsMapped()) fCosy->GetWin()->GetImage()->DoRedraw(); fGStarg->Update(fPos, fD); if (fDisplay->IsEntryChecked(IDM_kStarguider)) fGNumStars->Update(fNumStarsDetected, fNumStarsCorrelated); return kTRUE; } #define kZOOM 96 XY MStarguider::GetCoordinates() const { return fPZdAz->GetCoordinates(); } void MStarguider::InitGui(Int_t channel) { fList = new MGList; fList->SetOwner(); const TGWindow *p=gClient->GetRoot(); fChannel = new TGPopupMenu(p); fChannel->AddEntry("Starfield Camera", IDM_kChannel1); fChannel->AddEntry("TPoint Camera", IDM_kChannel2); fChannel->AddEntry("Read from File", IDM_kChannel3); if (channel<0) fChannel->CheckEntry(IDM_kChannel3); else fChannel->CheckEntry(channel==0?IDM_kChannel1:IDM_kChannel2); fChannel->Associate(this); fList->Add(fChannel); fFileType = new TGPopupMenu(p); fFileType->AddEntry("PP&M", IDM_kPPM); fFileType->AddEntry("&PNG", IDM_kPNG); fFileType->CheckEntry(IDM_kPNG); fFileType->Associate(this); fList->Add(fFileType); fWriteType = new TGPopupMenu(p); fWriteType->AddEntry("&Once", IDM_kOnce); fWriteType->AddEntry("&Continous", IDM_kContinous); fWriteType->CheckEntry(IDM_kOnce); fWriteType->Associate(this); fList->Add(fWriteType); fWriteRate = new TGPopupMenu(p); fWriteRate->AddEntry("25/s", IDM_kRate25ps); fWriteRate->AddEntry("5/s", IDM_kRate5ps); fWriteRate->AddEntry("1s", IDM_kRate1s); fWriteRate->AddEntry("5s", IDM_kRate5s); fWriteRate->AddEntry("30s", IDM_kRate30s); fWriteRate->AddEntry("1min", IDM_kRate1m); fWriteRate->AddEntry("5min", IDM_kRate5m); fWriteRate->CheckEntry(IDM_kRate1m); fWriteRate->Associate(this); fList->Add(fWriteRate); fWrtRate = 25*60; fLimMag = new TGPopupMenu(p); fLimMag->AddEntry("3", IDM_kLimMag3); fLimMag->AddEntry("4", IDM_kLimMag4); fLimMag->AddEntry("5", IDM_kLimMag5); fLimMag->AddEntry("6", IDM_kLimMag6); fLimMag->AddEntry("7", IDM_kLimMag7); fLimMag->AddEntry("8", IDM_kLimMag8); fLimMag->AddEntry("9", IDM_kLimMag9); fLimMag->CheckEntry(IDM_kLimMag9); fLimMag->Associate(this); fList->Add(fLimMag); fSao->SetLimitMag(9.0); fInterpol = new TGPopupMenu(p); fInterpol->AddEntry("250", IDM_kInterpol250); fInterpol->AddEntry("125", IDM_kInterpol125); fInterpol->AddEntry("50", IDM_kInterpol50); fInterpol->AddEntry("25", IDM_kInterpol25); fInterpol->AddEntry("10", IDM_kInterpol10); fInterpol->AddEntry("5", IDM_kInterpol5); fInterpol->AddEntry("2", IDM_kInterpol2); fInterpol->AddEntry("Off", IDM_kInterpol1); fInterpol->Associate(this); fList->Add(fInterpol); TString disp=gVirtualX->DisplayName(); gLog << all << "Display: " << disp << endl; if (disp.First(':')>=0) disp=disp(0, disp.First(':')); if (disp.IsNull() || disp==(TString)"localhost") { fInterpol->CheckEntry(IDM_kInterpol5); fIntRate = 50; } else { fInterpol->CheckEntry(IDM_kInterpol125); fIntRate = 125; } fCaosPrint = new TGPopupMenu(p); fCaosPrint->AddEntry("&Leds", IDM_kCaosPrintLeds); fCaosPrint->AddEntry("&Rings", IDM_kCaosPrintRings); fCaosPrint->Associate(this); fList->Add(fCaosPrint); fCaosWrite = new TGPopupMenu(p); fCaosWrite->AddEntry("&Start", IDM_kCaosWriteStart); fCaosWrite->AddEntry("Sto&p", IDM_kCaosWriteStop); fCaosWrite->DisableEntry(IDM_kCaosWriteStop); fCaosWrite->Associate(this); fList->Add(fCaosWrite); fCaosAnalyse = new TGPopupMenu(p); fCaosAnalyse->AddEntry("S&tart Analysis", IDM_kCaosAnalStart); fCaosAnalyse->AddEntry("St&op Analysis", IDM_kCaosAnalStop); fCaosAnalyse->DisableEntry(IDM_kCaosAnalStop); fCaosAnalyse->Associate(this); fList->Add(fCaosAnalyse); fMenu = new TGMenuBar(this, 0, 0, kHorizontalFrame); fDisplay = fMenu->AddPopup("&Display"); fMode = fMenu->AddPopup("&Mode"); fWritePictures = fMenu->AddPopup("&WritePics"); fSetup = fMenu->AddPopup("&Setup"); fOperations = fMenu->AddPopup("&Operations"); fMenu->Resize(fMenu->GetDefaultSize()); AddFrame(fMenu); // // Create Menu for MStarguider Display // //fDisplay = new MMGPopupMenu(p); fDisplay->AddEntry("&Filter", IDM_kFilter); fDisplay->AddEntry("Stretch", IDM_kStretch); fDisplay->AddSeparator(); fDisplay->AddEntry("Find &Star", IDM_kFindStar); fDisplay->AddEntry("C&aos Filter", IDM_kCaosFilter); fDisplay->AddSeparator(); fDisplay->AddEntry("SAO &Catalog", IDM_kCatalog); fDisplay->AddEntry("Starguider", IDM_kStarguider); fDisplay->AddEntry("Starguider LED Filter", IDM_kStargCaosFilter); fDisplay->AddEntry("Starguider Find Star", IDM_kStargFindStar); fDisplay->AddSeparator(); if (channel>=0) fDisplay->AddPopup("&Input", fChannel); fDisplay->DisableEntry(IDM_kStargFindStar); fDisplay->CheckEntry(IDM_kStretch); fDisplay->Associate(this); fMode->AddEntry("Starguider", IDM_kStarguiderMode); fMode->AddEntry("Tpoint", IDM_kTpointMode); fMode->Associate(this); fWritePictures->AddEntry("&Start", IDM_kStart); fWritePictures->AddEntry("Sto&p", IDM_kStop); fWritePictures->AddSeparator(); fWritePictures->AddPopup("File &Type", fFileType); fWritePictures->AddPopup("&Write Type", fWriteType); fWritePictures->AddPopup("Write &Rate", fWriteRate); fWritePictures->DisableEntry(IDM_kStop); fWritePictures->Associate(this); fSetup->AddPopup("Lim. &Magnitude", fLimMag); fSetup->AddPopup("Disp. &Interpolation", fInterpol); fSetup->Associate(this); fOperations->AddEntry("Roque Lamp Analysis", IDM_kRoqueLampAna); fOperations->AddEntry("Starguider Analysis", IDM_kStargAnalysis); fOperations->DisableEntry(IDM_kStargAnalysis); fOperations->Associate(this); fCaOs = new TGPopupMenu(p); fCaOs->AddPopup("&Write", fCaosWrite); fCaOs->AddPopup("&Print", fCaosPrint); fCaOs->AddPopup("&Analyse", fCaosAnalyse); fCaOs->Associate(this); fList->Add(fCaOs); fGStarg = new MGStarg(this, 235); fGStarg->DrawText("0.75'", "1.50'", "3.00'", "Mispointing [min]"); fGStarg->DrawHexagon(); fGStarg->Move(530,596+5); fList->Add(fGStarg); //RA,Dec for catalog fCRaDec = new MGCoordinates(this, kETypeRaDec); fCRaDec->Move(4, fMenu->GetDefaultHeight()+584); AddFrame(fCRaDec); //telescope position fCZdAz = new MGCoordinates(this, kETypeZdAz, 2); fCZdAz->Move(240+12+28, fMenu->GetDefaultHeight()+597); AddFrame(fCZdAz); //starguider position fPZdAz = new MGCoordinates(this, kETypeZdAz, 2); fPZdAz->Move(240+12+28, fMenu->GetDefaultHeight()+640); AddFrame(fPZdAz); //mispointing fDZdAz = new MGCoordinates(this, kETypeZdAz, 2); fDZdAz->Move(240+12+28, fMenu->GetDefaultHeight()+683); AddFrame(fDZdAz); fSZdAz = new MGCoordinates(this, kETypeZdAz, 2); fSZdAz->Move(240+12+28, fMenu->GetDefaultHeight()+795); AddFrame(fSZdAz); fGNumStars = new MGNumStars(this, 235); fGNumStars->DrawText("Number of stars"); fGNumStars->Move(278, fMenu->GetDefaultHeight()+713); fList->Add(fGNumStars); fTPoint = new TGTextButton(this, "TPoint"); fTPoint->Move(4, fMenu->GetDefaultHeight()+785); fTPoint->AllowStayDown(kTRUE); AddFrame(fTPoint); fStargTPoint = new TGTextButton(this, "StargTPoint"); fStargTPoint->Move(170, fMenu->GetDefaultHeight()+785); fStargTPoint->AllowStayDown(kTRUE); AddFrame(fStargTPoint); fFps = new TGLabel(this, "---fps"); fFps->SetTextJustify(kTextRight); fFps->Move(650-495, fMenu->GetDefaultHeight()+714+23); AddFrame(fFps); fPosZoom = new TGLabel(this, "(----, ----) ----.--d/----.--d"); fPosZoom->SetTextJustify(kTextLeft); fPosZoom->Move(4, fMenu->GetDefaultHeight()+765); AddFrame(fPosZoom); fSkyBright = new TGLabel(this, "Sky Brightness: --- "); fSkyBright->SetTextJustify(kTextLeft); fSkyBright->Move(4, fMenu->GetDefaultHeight()+785); AddFrame(fSkyBright); TGLabel *l = new TGLabel(this, "deg"); l->SetTextJustify(kTextLeft); l->Move(606-412, fMenu->GetDefaultHeight()+669); AddFrame(l); l = new TGLabel(this, "arcsec/pix"); l->SetTextJustify(kTextLeft); l->Move(606-412, fMenu->GetDefaultHeight()+692); AddFrame(l); l = new TGLabel(this, "sigma"); l->SetTextJustify(kTextLeft); l->Move(606-412, fMenu->GetDefaultHeight()+715); AddFrame(l); fCZdAzText = new TGLabel(this, "Zd/Az telescope pointing at"); fCZdAzText->SetTextJustify(kTextLeft); fCZdAzText->Move(240+12+20+7, fMenu->GetDefaultHeight()+584-5); AddFrame(fCZdAzText); fPZdAzText = new TGLabel(this, "Zd/Az starguider pointing at"); fPZdAzText->SetTextJustify(kTextLeft); fPZdAzText->Move(240+12+20+7, fMenu->GetDefaultHeight()+630+20-5-23); AddFrame(fPZdAzText); fDZdAzText = new TGLabel(this, "Zd/Az mispointing"); fDZdAzText->SetTextJustify(kTextLeft); fDZdAzText->Move(240+12+20+7, fMenu->GetDefaultHeight()+676+2*20-5-46); AddFrame(fDZdAzText); #ifdef EXPERT l = new TGLabel(this, "Mispointing/FindStar (Experts Only!)"); l->SetTextJustify(kTextLeft); l->Move(240+12+20, fMenu->GetDefaultHeight()+722+3*20-5); AddFrame(l); #endif // Set input box for rotation angle const Double_t angle = -0.2; fSao->SetRotationAngle(angle); TString txt; txt += angle; fAngle = new TGTextEntry(this, txt, IDM_kAngle); fAngle->SetAlignment(kTextCenterX); fAngle->Move(547-410, fMenu->GetDefaultHeight()+667); AddFrame(fAngle); // Set input box for pixel size const Double_t pixsize = 48.9; // used to be 23.4 fSao->SetPixSize(pixsize); txt = ""; txt += pixsize; fPixSize = new TGTextEntry(this, txt, IDM_kPixSize); fPixSize->SetAlignment(kTextCenterX); fPixSize->Move(547-410, fMenu->GetDefaultHeight()+690); AddFrame(fPixSize); // Set input box for cleaning cut const Double_t cut = 3.0; txt = ""; txt += cut; fCut = new TGTextEntry(this, txt, IDM_kCut); fCut->SetAlignment(kTextCenterX); fCut->Move(547-410, fMenu->GetDefaultHeight()+713); AddFrame(fCut); // TGHorizontal3DLine *fLineSep = new TGHorizontal3DLine(this); // AddFrame(fLineSep, new TGLayoutHints (kLHintsNormal | kLHintsExpandX)); // fList->Add(fLineSep); // // Create Image Display // fZoomImage = new MGImage(this, kZOOM, kZOOM); // fZoomImage->Move(768-kZOOM-2, 700-kZOOM-2); fZoomImage->Move(4, 700-kZOOM-2+85); AddFrame(fZoomImage); fImage = new MGImage(this, 768, 576); fImage->Move(0, fMenu->GetDefaultHeight()); AddFrame(fImage); const Int_t w = 768; const Int_t h = 840; SetWMSizeHints(w, h, w, h, 1, 1); // set the smallest and biggest size of the Main frame // // Make everything visible // SetWindowName("MStarguider Main Window"); SetIconName("MStarguider"); MapSubwindows(); fTPoint->UnmapWindow(); fStargTPoint->UnmapWindow(); fGStarg->UnmapWindow(); fGNumStars->UnmapWindow(); fCRaDec->UnmapWindow(); fCZdAz->UnmapWindow(); fCZdAzText->UnmapWindow(); fPZdAz->UnmapWindow(); fPZdAzText->UnmapWindow(); fDZdAz->UnmapWindow(); fDZdAzText->UnmapWindow(); fSZdAz->UnmapWindow(); fSkyBright->UnmapWindow(); MapWindow(); //IconifyWindow(); //------------------------------------------------------------ // XY xy(3.819444, 24.05333); // fCRaDec->SetCoordinates(xy); // fRaDec->Set(xy.X()*360/24, xy.Y()); //------------------------------------------------------------ } MStarguider::MStarguider(MObservatory::LocationName_t obs, Int_t channel) : TGMainFrame(gClient->GetRoot(), 768, 840), fNumStarsDetected(0), fNumStarsCorrelated(0), fCosy(NULL), fOutTp(0), fOutStargTp(0), fOutRq(0), fDx((768-kZOOM)/2), fDy((512-kZOOM)/2), fStatus(MDriveCom::kStandby) { gLog << warn << " #### FIXME: Make MCaos Thread safe!" << endl; // This means that all objects added with AddFrame are deleted // automatically, including all LayoutHints. SetCleanup(); fAmcSocket = new TSocket("amc", 7307); fSao = new StarCatalog(obs); fRaDec = new RaDec(180, 40); // fStargLeds = new MStargLeds; // fStargLeds->ReadResources(); fCaos = new MCaos; fCaos->ReadResources(); fCaos->SetRadii(237.9, 239.9); fStargCaos = new MCaos; fStargCaos->ReadResources("stargleds.txt"); fStargCaos->SetMinNumberRings(3); fStargCaos->SetRadii(158,164); fStargHistograms = new MStargHistograms(); InitGui(channel); fTimer=new TTimer(this, 1000/25); // 40ms fTimer->TurnOn(); fTime.Now(); fTimeFromTp.Set(1970,1,1); fAltAzOffsetFromTp = AltAz(-1000,-1000); gVirtualX->GrabButton(fId, kButton2, 0, 0, 0, 0, kTRUE); if (channel<0) fGetter = new PngReader(*this); else fGetter = new Camera(*this, channel); } MStarguider::~MStarguider() { fGetter->ExitLoop(); delete fGetter; gVirtualX->GrabButton(fId, kButton2, 0, 0, 0, 0, kFALSE); fTimer->TurnOff(); delete fTimer; delete fList; delete fCaos; delete fStargCaos; // delete fStargLeds; delete fStargHistograms; delete fSao; delete fRaDec; if (fOutTp) delete fOutTp; if (fOutStargTp) delete fOutStargTp; if (fOutRq) delete fOutRq; delete fAmcSocket; gLog << inf2 << "Camera Display destroyed." << endl; } bool MStarguider::SendAmcTrigger(const char *msg) { if (!fAmcSocket->IsValid()) return false; TString txt("TRIGGER "); txt += msg; const Int_t len = fAmcSocket->SendRaw(txt.Data(), txt.Length()); if (len<0) { gLog << err << "ERROR - Sending Trigger to Amc" << endl; return false; } if (len!=txt.Length()) { gLog << err << "Send wrong number (" << len << ") of Bytes to Amc." << endl; return false; } return true; } void MStarguider::Layout() { // Resize(GetDefaultSize()); } void MStarguider::CloseWindow() { gLog << inf2 << "EventDisplay::CloseWindow: Exit Application Loop." << endl; //fClient.ExitLoop(); // cout << "FIXME: ExitLoop not called!!!!!!" << endl; fGetter->ExitLoop(); gSystem->ExitLoop(); } void MStarguider::SwitchOff(TGPopupMenu *p, UInt_t id) { p->UnCheckEntry(id); p->DisableEntry(id); } void MStarguider::SetChannel() { if (fChannel->IsEntryChecked(IDM_kChannel3)) { if (dynamic_cast(fGetter)==0) { delete fGetter; fGetter=new PngReader(*this); } } else { const Int_t ch = fChannel->IsEntryChecked(IDM_kChannel1) ? 0 : 1; if (dynamic_cast(fGetter)==0) { delete fGetter; fGetter = new Camera(*this, ch); } else fGetter->SetChannel(ch); } } void MStarguider::Toggle(TGPopupMenu *p, UInt_t id) { if (p->IsEntryChecked(id)) p->UnCheckEntry(id); else p->CheckEntry(id); } void MStarguider::ToggleStargAnalysis() { if (fOperations->IsEntryChecked(IDM_kStargAnalysis)) fStargHistograms->OpenFile(); else fStargHistograms->CloseFile(); } void MStarguider::ToggleFindStar() { if (fDisplay->IsEntryChecked(IDM_kFindStar) && fCosy) fTPoint->MapWindow(); else { fTPoint->UnmapWindow(); fTPoint->SetDown(kFALSE); } } void MStarguider::ToggleStarguider() { if (fDisplay->IsEntryChecked(IDM_kStarguider)) { fLastBright = 0xff; fChannel->EnableEntry(IDM_kChannel1); fDisplay->DisableEntry(IDM_kFindStar); fDisplay->DisableEntry(IDM_kCaosFilter); fOperations->EnableEntry(IDM_kStargAnalysis); fStargTPoint->MapWindow(); fPZdAz->MapWindow(); fDZdAz->MapWindow(); fSkyBright->MapWindow(); for (int i=IDM_kLimMag3; i<=IDM_kLimMag9; i++) fLimMag->UnCheckEntry(i); fLimMag->CheckEntry(IDM_kLimMag9); fSao->SetLimitMag(9.0); for (int i=IDM_kInterpol250; i<=IDM_kInterpol1; i++) fInterpol->UnCheckEntry(i); fInterpol->CheckEntry(IDM_kInterpol125); fIntRate = 125; //catalog fDisplay->CheckEntry(IDM_kCatalog); fCRaDec->MapWindow(); fCZdAz->MapWindow(); fCZdAzText->MapWindow(); fPZdAz->MapWindow(); fPZdAzText->MapWindow(); fDZdAz->MapWindow(); fDZdAzText->MapWindow(); fGStarg->MapWindow(); fGNumStars->MapWindow(); SwitchOff(fChannel, IDM_kChannel2); fChannel->CheckEntry(IDM_kChannel1); } else { fStatus = MDriveCom::kStandby; fStargTPoint->UnmapWindow(); fStargTPoint->SetDown(kFALSE); fPZdAz->UnmapWindow(); fPZdAzText->UnmapWindow(); fDZdAz->UnmapWindow(); fDZdAzText->UnmapWindow(); fSkyBright->UnmapWindow(); //catalog fCRaDec->UnmapWindow(); fCZdAz->UnmapWindow(); fCZdAzText->UnmapWindow(); fDisplay->UnCheckEntry(IDM_kCatalog); fGStarg->UnmapWindow(); fGNumStars->UnmapWindow(); fChannel->EnableEntry(IDM_kChannel2); fDisplay->EnableEntry(IDM_kFindStar); fDisplay->EnableEntry(IDM_kCaosFilter); fOperations->DisableEntry(IDM_kStargAnalysis); } SetChannel(); //gSystem->Unlink("tracking_error.txt"); } void MStarguider::ToggleCaosFilter() { if (fDisplay->IsEntryChecked(IDM_kCaosFilter)) { if (!fMode->IsEntryChecked(IDM_kStarguiderMode) && !fMode->IsEntryChecked(IDM_kTpointMode)) fMenu->AddPopup("&CaOs", fCaOs, NULL); SwitchOff(fDisplay, IDM_kStarguider); SwitchOff(fDisplay, IDM_kStargCaosFilter); fDisplay->DisableEntry(IDM_kStargFindStar); } else { fCaosWrite->UnCheckEntry(IDM_kCaosPrintLeds); fCaosWrite->UnCheckEntry(IDM_kCaosPrintRings); if (fCaosAnalyse->IsEntryEnabled(IDM_kCaosAnalStop)) { fCaosAnalyse->DisableEntry(IDM_kCaosAnalStop); fCaosAnalyse->EnableEntry(IDM_kCaosAnalStart); fCaos->DeleteHistograms(); } if (fCaosWrite->IsEntryEnabled(IDM_kCaosWriteStop)) { fCaosWrite->DisableEntry(IDM_kCaosWriteStop); fCaosWrite->EnableEntry(IDM_kCaosWriteStart); fCaos->CloseFile(); } fMenu->RemovePopup("CaOs"); fDisplay->EnableEntry(IDM_kStargCaosFilter); fDisplay->EnableEntry(IDM_kStarguider); } fMenu->Resize(fMenu->GetDefaultSize()); MapSubwindows(); // maps everything, but we don't want that fTPoint->UnmapWindow(); fStargTPoint->UnmapWindow(); fGStarg->UnmapWindow(); fGNumStars->UnmapWindow(); fCRaDec->UnmapWindow(); fCZdAz->UnmapWindow(); fCZdAzText->UnmapWindow(); fPZdAz->UnmapWindow(); fPZdAzText->UnmapWindow(); fDZdAz->UnmapWindow(); fDZdAzText->UnmapWindow(); fSZdAz->UnmapWindow(); fSkyBright->UnmapWindow(); MapWindow(); } Bool_t MStarguider::ProcessMessage(Long_t msg, Long_t mp1, Long_t mp2) { switch (GET_MSG(msg)) { case kC_TEXTENTRY: if (GET_SUBMSG(msg)==kTE_ENTER) switch (mp1) { case IDM_kPixSize: { const Float_t pixsize = atof(fPixSize->GetText()); gLog << all << "Pixel Size changed to " << pixsize << "\"/pix" << endl; fSao->SetPixSize(pixsize); return kTRUE; } case IDM_kAngle: { const Float_t angle = atof(fAngle->GetText()); gLog << all << "Rotation Angle changed to " << angle << "deg" << endl; fSao->SetRotationAngle(angle); return kTRUE; } case IDM_kCut: { const Float_t cut = atof(fCut->GetText()); gLog << all << "Starguider cleaning level changed to " << cut << " sigma." << endl; return kTRUE; } } return kTRUE; case kC_COMMAND: switch (GET_SUBMSG(msg)) { case kCM_MENU: switch (mp1) { case IDM_kCatalog: Toggle(fDisplay, IDM_kCatalog); if (fDisplay->IsEntryChecked(IDM_kCatalog)) { fCRaDec->MapWindow(); fCZdAz->MapWindow(); fCZdAzText->MapWindow(); } else { fCRaDec->UnmapWindow(); fCZdAz->UnmapWindow(); fCZdAzText->UnmapWindow(); } return kTRUE; case IDM_kRoqueLampAna: Toggle(fOperations, IDM_kRoqueLampAna); if (fOperations->IsEntryChecked(IDM_kRoqueLampAna)) fDisplay->CheckEntry(IDM_kStargCaosFilter); else fDisplay->UnCheckEntry(IDM_kStargCaosFilter); return kTRUE; case IDM_kStargFindStar: Toggle(fDisplay, IDM_kStargFindStar); if (fDisplay->IsEntryChecked(IDM_kStargFindStar)) fSZdAz->MapWindow(); else fSZdAz->UnmapWindow(); return kTRUE; case IDM_kStarguider: Toggle(fDisplay, IDM_kStarguider); ToggleStarguider(); return kTRUE; case IDM_kStargAnalysis: Toggle(fOperations, IDM_kStargAnalysis); ToggleStargAnalysis(); return kTRUE; case IDM_kStarguiderMode: Toggle(fMode, IDM_kStarguiderMode); if (fMode->IsEntryChecked(IDM_kStarguiderMode)) { //uncheck not needed items //general fDisplay->UnCheckEntry(IDM_kStargFindStar); SwitchOff(fDisplay, IDM_kFilter); SwitchOff(fChannel, IDM_kChannel3); SwitchOff(fOperations, IDM_kRoqueLampAna); SwitchOff(fOperations, IDM_kStargAnalysis); //tpoint SwitchOff(fDisplay, IDM_kFindStar); ToggleFindStar(); SwitchOff(fDisplay, IDM_kCaosFilter); ToggleCaosFilter(); fMode->UnCheckEntry(IDM_kTpointMode); //enable starguider items fDisplay->EnableEntry(IDM_kStargCaosFilter); fDisplay->EnableEntry(IDM_kStarguider); fDisplay->EnableEntry(IDM_kCatalog); //check needed items fDisplay->CheckEntry(IDM_kStretch); fDisplay->CheckEntry(IDM_kStargCaosFilter); fDisplay->CheckEntry(IDM_kStarguider); ToggleStarguider(); } else { //uncheck //starguider items fDisplay->UnCheckEntry(IDM_kStargCaosFilter); fDisplay->UnCheckEntry(IDM_kStarguider); ToggleStarguider(); //general fDisplay->UnCheckEntry(IDM_kCatalog); fDisplay->EnableEntry(IDM_kFilter); fDisplay->EnableEntry(IDM_kCaosFilter); fDisplay->EnableEntry(IDM_kFindStar); fChannel->EnableEntry(IDM_kChannel3); fOperations->EnableEntry(IDM_kRoqueLampAna); } return kTRUE; case IDM_kTpointMode: Toggle(fMode, IDM_kTpointMode); if (fMode->IsEntryChecked(IDM_kTpointMode)) { //unchecking not needed items //general fDisplay->UnCheckEntry(IDM_kStargFindStar); SwitchOff(fDisplay, IDM_kFilter); SwitchOff(fChannel, IDM_kChannel3); SwitchOff(fOperations, IDM_kRoqueLampAna); //from starguider SwitchOff(fDisplay, IDM_kStargCaosFilter); SwitchOff(fDisplay, IDM_kCatalog); SwitchOff(fDisplay, IDM_kStarguider); ToggleStarguider(); fMode->UnCheckEntry(IDM_kStarguiderMode); SwitchOff(fOperations, IDM_kStargAnalysis); ToggleStargAnalysis(); //switch camera SwitchOff(fChannel, IDM_kChannel1); fChannel->CheckEntry(IDM_kChannel2); SetChannel(); //checking needed items fDisplay->CheckEntry(IDM_kStretch); fDisplay->CheckEntry(IDM_kCaosFilter); ToggleCaosFilter(); fDisplay->CheckEntry(IDM_kFindStar); ToggleFindStar(); } else { //enable //starguider items fDisplay->EnableEntry(IDM_kStargCaosFilter); fDisplay->EnableEntry(IDM_kCatalog); fDisplay->EnableEntry(IDM_kStarguider); fOperations->EnableEntry(IDM_kStargAnalysis); //general fDisplay->EnableEntry(IDM_kFilter); fChannel->EnableEntry(IDM_kChannel1); fChannel->EnableEntry(IDM_kChannel3); fOperations->EnableEntry(IDM_kRoqueLampAna); //tpoint fDisplay->UnCheckEntry(IDM_kCaosFilter); ToggleCaosFilter(); fDisplay->UnCheckEntry(IDM_kFindStar); ToggleFindStar(); } return kTRUE; case IDM_kFilter: Toggle(fDisplay, IDM_kFilter); return kTRUE; case IDM_kFindStar: Toggle(fDisplay, IDM_kFindStar); ToggleFindStar(); return kTRUE; case IDM_kStretch: Toggle(fDisplay, IDM_kStretch); return kTRUE; case IDM_kCaosFilter: Toggle(fDisplay, IDM_kCaosFilter); ToggleCaosFilter(); return kTRUE; case IDM_kStargCaosFilter: Toggle(fDisplay, IDM_kStargCaosFilter); if (fDisplay->IsEntryChecked(IDM_kStargCaosFilter)) { fDisplay->EnableEntry(IDM_kStargFindStar); SwitchOff(fDisplay, IDM_kCaosFilter); SwitchOff(fDisplay, IDM_kFindStar); SwitchOff(fDisplay, IDM_kFilter); } else { fDisplay->EnableEntry(IDM_kFilter); fDisplay->EnableEntry(IDM_kFindStar); fDisplay->EnableEntry(IDM_kCaosFilter); fDisplay->DisableEntry(IDM_kStargFindStar); } return kTRUE; case IDM_kCaosPrintLeds: case IDM_kCaosPrintRings: Toggle(fCaosPrint, mp1); return kTRUE; case IDM_kCaosAnalStart: fCaosAnalyse->DisableEntry(IDM_kCaosAnalStart); fCaosAnalyse->EnableEntry(IDM_kCaosAnalStop); fCaos->InitHistograms(); return kTRUE; case IDM_kCaosAnalStop: fCaosAnalyse->DisableEntry(IDM_kCaosAnalStop); fCaosAnalyse->EnableEntry(IDM_kCaosAnalStart); fCaos->ShowHistograms(); fCaos->DeleteHistograms(); return kTRUE; case IDM_kCaosWriteStart: fCaosWrite->DisableEntry(IDM_kCaosWriteStart); fCaosWrite->EnableEntry(IDM_kCaosWriteStop); fCaos->OpenFile(); return kTRUE; case IDM_kCaosWriteStop: fCaosWrite->DisableEntry(IDM_kCaosWriteStop); fCaosWrite->EnableEntry(IDM_kCaosWriteStart); fCaos->CloseFile(); return kTRUE; case IDM_kStart: fWritePictures->DisableEntry(IDM_kStart); fWritePictures->EnableEntry(IDM_kStop); return kTRUE; case IDM_kStop: fWritePictures->DisableEntry(IDM_kStop); fWritePictures->EnableEntry(IDM_kStart); return kTRUE; case IDM_kPNG: fFileType->CheckEntry(IDM_kPNG); fFileType->UnCheckEntry(IDM_kPPM); return kTRUE; case IDM_kPPM: fFileType->CheckEntry(IDM_kPPM); fFileType->UnCheckEntry(IDM_kPNG); return kTRUE; case IDM_kOnce: fWriteType->CheckEntry(IDM_kOnce); fWriteType->UnCheckEntry(IDM_kContinous); return kTRUE; case IDM_kContinous: fWriteType->CheckEntry(IDM_kContinous); fWriteType->UnCheckEntry(IDM_kOnce); return kTRUE; case IDM_kRate25ps: case IDM_kRate5ps: case IDM_kRate1s: case IDM_kRate5s: case IDM_kRate30s: case IDM_kRate1m: case IDM_kRate5m: for (int i=IDM_kRate25ps; i<=IDM_kRate5m; i++) if (mp1==i) fWriteRate->CheckEntry(i); else fWriteRate->UnCheckEntry(i); switch (mp1) { case IDM_kRate25ps: fWrtRate = 1; return kTRUE; case IDM_kRate5ps: fWrtRate = 5; return kTRUE; case IDM_kRate1s: fWrtRate = 25; return kTRUE; case IDM_kRate5s: fWrtRate = 5*25; return kTRUE; case IDM_kRate30s: fWrtRate = 30*25; return kTRUE; case IDM_kRate1m: fWrtRate = 60*25; return kTRUE; case IDM_kRate5m: fWrtRate = 5*60*25; return kTRUE; } return kTRUE; case IDM_kChannel1: case IDM_kChannel2: { const Int_t ch0 = fChannel->IsEntryChecked(IDM_kChannel1) ? 0 : 1; const Int_t ch1 = mp1==IDM_kChannel1 ? 0 : 1; if (ch0==ch1) return kTRUE; fChannel->CheckEntry (ch1==0?IDM_kChannel1:IDM_kChannel2); fChannel->UnCheckEntry(ch1==1?IDM_kChannel1:IDM_kChannel2); SetChannel(); } return kTRUE; case IDM_kInterpol250: case IDM_kInterpol125: case IDM_kInterpol50: case IDM_kInterpol25: case IDM_kInterpol10: case IDM_kInterpol5: case IDM_kInterpol2: case IDM_kInterpol1: for (int i=IDM_kInterpol250; i<=IDM_kInterpol1; i++) if (mp1==i) fInterpol->CheckEntry(i); else fInterpol->UnCheckEntry(i); switch (mp1) { case IDM_kInterpol1: fIntRate = 1; return kTRUE; case IDM_kInterpol2: fIntRate = 2; return kTRUE; case IDM_kInterpol5: fIntRate = 5; return kTRUE; case IDM_kInterpol10: fIntRate = 10; return kTRUE; case IDM_kInterpol25: fIntRate = 25; return kTRUE; case IDM_kInterpol50: fIntRate = 50; return kTRUE; case IDM_kInterpol125: fIntRate = 125; return kTRUE; case IDM_kInterpol250: fIntRate = 250; return kTRUE; } return kTRUE; case IDM_kLimMag3: case IDM_kLimMag4: case IDM_kLimMag5: case IDM_kLimMag6: case IDM_kLimMag7: case IDM_kLimMag8: case IDM_kLimMag9: for (int i=IDM_kLimMag3; i<=IDM_kLimMag9; i++) if (mp1==i) fLimMag->CheckEntry(i); else fLimMag->UnCheckEntry(i); fSao->SetLimitMag(mp1-IDM_kLimMag3+3); return kTRUE; } break; } break; } return kTRUE; } void MStarguider::SetPointingPosition(RaDec rd) { rd.Ra(rd.Ra()*24/360); fCRaDec->SetCoordinates(rd); } ZdAz MStarguider::TrackingError(TArrayF &x, TArrayF &y, TArrayF &mag, Int_t &num) const { num = -1; // Width of the final 2D gaussian const Double_t width = 0.8; // The binning is made 1.7 sigma (which, in the 1D case, gives the // highest significance of a gaussian signal) (1bin equiv 3x3 sigma) const Double_t max = 50; const Int_t n = TMath::Nint(2*max/(1.77*1.7*width)); //1.77=sqrt(pi) comes from pir=bin // Fill a histogram with the dx/dy values from the file TH2F hist("Hist", "dX/dY", n, -max, max, n, -max, max); // hist.SetDirectory(0); // // Search for matching Magnitudes // //for (int i=0; i48-15 && mag[i]<48+15) // h.Fill(x[i], y[i]); //} // fill dx and dy into histogram for (int i=0; iSetRange(bx-1, bx+1); // 3x3bins ~8x8pix ~9x9sigma hist.GetYaxis()->SetRange(by-1, by+1); // 3x3bins ~8x8pix ~9x9sigma // Check whether this region contains events num = TMath::Nint(hist.Integral()); if (num<1) return ZdAz(); // Get Mean for the given axis range Double_t mx = hist.GetMean(1); Double_t my = hist.GetMean(2); const Int_t max1 = TMath::Nint(hist.GetBinContent(bx, by)); // Check if the maximum is unique Int_t bx2, by2, bz2; hist.GetXaxis()->SetRange(-1, 9999); hist.GetYaxis()->SetRange(-1, 9999); hist.SetBinContent(bx, by, 0); hist.GetMaximumBin(bx2, by2, bz2); const Int_t max2 = TMath::Nint(hist.GetBinContent(bx2, by2)); if (max1==max2 && TMath::Abs(bx2-bx)+TMath::Abs(by2-by)>1) return ZdAz(); // loop again over the file and fill the histogram again. // to get closer to the correct value Double_t sumx = 0; Double_t sumy = 0; num = 0; for (int i=0; iwidth*3.4) continue; sumx += x[i]; sumy += y[i]; num++; } if (num<1) return ZdAz(); // calc MeanX and MeanY mx = sumx/num; my = sumy/num; // loop again to fill the mispointing corrected histograms // and fill another histogram to check the quality of the calculated // mispointing. sumx = 0; sumy = 0; num = 0; for (int i=0; iwidth*1.7) continue; sumx += x[i]; sumy += y[i]; num++; } if (num<1) return ZdAz(); // FIXME!!!!!!!!!!!! // Mispointing mx = sumx/num; my = sumy/num; #ifdef EXPERT cout << "Offset-XY: " << mx << " +- " << my << endl; #endif AltAz pos0 = fSao->CalcAltAzFromPix(768/2, 576/2)*kRad2Deg; AltAz pos1 = fSao->CalcAltAzFromPix(768/2+mx, 576/2+my)*kRad2Deg; /* ofstream fout1("pointingpos.txt"); fout1 << setprecision(10) << fSao->GetMjd()-52000 << " "; if (fCosy) fout1 << fCosy->GetPointingPos() << " "; fout1 << -pos1.Alt() << " " << pos1.Az() << endl; */ pos1 -= pos0; /* ofstream fout2("tracking_error.txt", ios::app); fout2 << setprecision(10) << fSao->GetMjd()-52000 << " "; if (fCosy) fout2 << fCosy->GetPointingPos() << " "; fout2 << -pos1.Alt() << " " << pos1.Az() << endl; */ return ZdAz(-pos1.Alt(), pos1.Az()); } Int_t MStarguider::CalcTrackingError(Leds &leds, MStarList &stars, ZdAz &d, MTime &t, double &bright, Int_t &num) { num = leds.GetEntries(); //cout << "Num: " << num << endl; if (num < 3) //was 1 { gLog << warn << "Sorry, less than 3 detected spot in FOV!" << endl; if (fStargTPoint->IsDown()) fStargTPoint->SetDown(kFALSE); return 0; } //cout << "Cat: " << stars.GetRealEntries() << endl; if (stars.GetRealEntries() < 3) { gLog << warn << "Sorry, less than 3 stars in FOV!" << endl; if (fStargTPoint->IsDown()) fStargTPoint->SetDown(kFALSE); return 0; } stars.Sort(); // Sort by magnitude #ifdef EXPERT TString str = "data/tracking_"; str += fSao->GetMjd(); str += ".txt"; ofstream fout(str); #endif TArrayF x, y, mag; // FIXME: Is predefined value 3 a good idea? Int_t cnt=0; MStar *star; MStarListIter NextStar(&stars); while ((star=NextStar()) && cntGetX()-(768-star->GetX()), spot->GetY()-star->GetY()); const Int_t idx = x.GetSize(); x.Set(idx+1); y.Set(idx+1); mag.Set(idx+1); x.AddAt(dpos.X(), idx); y.AddAt(dpos.Y(), idx); mag.AddAt(log(spot->GetMag())/star->GetMag(), idx); #ifdef EXPERT if (fout) { fout << spot->GetX() << " " << spot->GetY() << " " << -2.5*log(spot->GetMag()) << " " << star->GetX() << " " << star->GetY() << " " << star->GetMag() << " "; fout << x[idx] << " " << y[idx] << " " << mag[idx] << endl; } #endif } cnt++; } Int_t numcor = 0; d = TrackingError(x, y, mag, numcor); if (numcor<1) return 0; //cout << "Cor: " << numcor << endl; fDZdAz->SetCoordinates(d); // // Calculated offsets // #ifdef EXPERT // round= floor(x+.5) cout << "Offset-ZdAz: " << d.Zd()*60 << "' / " << d.Az()*60 << "'" << endl; cout << "Offset-ZdAz: " << d.Zd()/360*16384 << " / " << d.Az()/360*16384 << " (SE) " << endl; #endif // // Current Pointing position // ZdAz cpos = fSao->GetZdAz()-d; fPZdAz->SetCoordinates(cpos); // Check StargTPoint data set request if (!fStargTPoint->IsDown()) return numcor; fStargTPoint->SetDown(kFALSE); // If no file open: open new file if (!fOutStargTp) { // open tpoint file const TString name = MCosy::GetFileName("tpoint", "starg", "txt"); gLog << all << "TPoint-Starg File ********* " << name << " ********** " << endl; fOutStargTp = new ofstream(name); *fOutStargTp << "Magic Model STARGTPOINT data file" << endl; *fOutStargTp << ": ALTAZ" << endl; *fOutStargTp << "49 48 0 "; *fOutStargTp << t << endl; } // Get tracking coordinates const XY xy = fCRaDec->GetCoordinates(); const RaDec rd(xy.X()*TMath::DegToRad()*15, xy.Y()*TMath::DegToRad()); // From the star position in the camera we calculate the Alt/Az // position we are currently tracking (real pointing position) fSao->SetMjd(t.GetMjd()); AltAz za0 = fSao->CalcAltAz(rd)*kRad2Deg; //correction with offset from last tpoint measurement za0 -= fAltAzOffsetFromTp; MTime t2 = fTimeFromTp; //if the difference between the tpoint and the starguider tpoint //is too big, the starguider tpoint is not stored cout << " mjd difference: " << t.GetMjd()-t2.GetMjd() << endl; // cout << "t: " << setprecision(11) << t.GetMjd() << endl; // cout << "t2: " << setprecision(11) << t2.GetMjd() << endl; if ((t.GetMjd()-t2.GetMjd())>0.001) //1min20sec { cout << " time difference between tpoint and starguider-tpoint > 1 min *" << t.GetMjd()-t2.GetMjd() << "s) " << endl; cout << " => starguider tpoint hasn't been stored. " << endl; cout << " Please repeat whole procedure. " << endl; return numcor; } // Write real pointing position cout << " Alt/Az: " << za0.Alt() << "° " << za0.Az() << "°" << endl; *fOutStargTp << setprecision(7) << za0.Az() << " " << za0.Alt() << " "; // Write system pointing position cout << " SE-Pos: " << 90-cpos.Zd() << "° " << cpos.Az() << "°" << endl; *fOutStargTp << fmod(cpos.Az()+360, 360) << " " << 90-cpos.Zd(); *fOutStargTp << " " << xy.X() << " " << xy.Y(); *fOutStargTp << " " << d.Zd() << " " << d.Az(); *fOutStargTp << " " << setprecision(11) << t.GetMjd(); *fOutStargTp << " " << num; *fOutStargTp << " " << bright; *fOutStargTp << endl; fTimeFromTp.Set(1970,1,1); return numcor; } XY MStarguider::FindRoqueLamp(FilterLed &f, FilterLed &f2, Ring &CameraCenter, MTime &t, Double_t cut, Int_t box, XY SearchCenter) { // Set search Paremeters (FIXME: Get them from user input!) f.SetCut(cut); // 3.5 f.SetBox(box); // 70 // Try to find Led in this area Leds leds; f.FindStar(leds, (Int_t)SearchCenter.X(), (Int_t)SearchCenter.Y(), true); // Check whether star found Led *star = (Led*)leds.At(0); if (!star || leds.GetEntries()<1) return XY(.0,.0); // cout << "Found Roque Lamp @ " << flush; star->Print(); f.MarkPoint(star->GetX(), star->GetY(), 500); // cout << "RoquePos: " << star->GetX() << "," << star->GetY() << endl; XY roquepos(star->GetX(), star->GetY()); XY relroquepos(roquepos.X()-CameraCenter.GetX(), roquepos.Y()-CameraCenter.GetY()); // If no file open: open new Roque Lamp file if (!fOutRq) { const TString name = MCosy::GetFileName("tpoint", "roquelamp", "txt"); cout << "Starg_RoqueLamp File ********* " << name << " ********** " << endl; fOutRq = new ofstream(name); *fOutRq << "# Magic Roque Lamp file " << t << endl; } return relroquepos; } ZdAz MStarguider::FindStar(FilterLed &f, FilterLed &f2, Ring ¢er, MTime &t, Double_t cut, Int_t box, Double_t scalefactor = 1.0) { // Set search Paremeters (FIXME: Get them from user input!) f.SetCut(cut); // 3.5 f.SetBox(box); // 70 // Try to find Led in this area Leds leds; f.FindStar(leds, (Int_t)center.GetX(), (Int_t)center.GetY(), true); if (leds.GetEntries()<0) return ZdAz(0, 0); // Check whether star found Led *star = (Led*)leds.At(0); if (!star) { if (fTPoint->IsDown()) { fTPoint->SetDown(kFALSE); gLog << warn << "No star found. Couldn't take a tpoint." << endl; } return ZdAz(.0,.0); } cout << "Found star @ " << flush; star->Print(); f2.MarkPoint(star->GetX(), star->GetY(), 2<<2); // Initialize Star Catalog on th camera plane MGeomCamMagic geom; MAstroCamera ac; ac.SetGeom(geom); ac.SetRadiusFOV(3); ac.SetObservatory(*fSao); ac.SetTime(t); // Get tracking coordinates const XY xy = fCRaDec->GetCoordinates(); const RaDec rd(xy.X()*TMath::DegToRad()*15, xy.Y()*TMath::DegToRad()); ac.SetRaDec(rd.Ra(), rd.Dec()); // Adapt coordinate system (GUIs and humans are counting Y in different directions) Double_t x = star->GetX()-center.GetX(); Double_t y = center.GetY()-star->GetY(); #ifdef EXPERT cout << "STAR-Offset: " << MTime(-1) << " dx=" << x << "pix dy=" << y << "pix" << endl; #endif // MAKE SURE THAT THIS VALUE CAN BE SETUP // (Scalefactor describes the difference between the tpoint (=1) // and the starguider (!=1) camera // Convert from Pixel to millimeter (1pix=2.6mm) x *= (2.58427 * scalefactor); y *= (2.58427 * scalefactor); // Correct for abberation. x /= 1.0713; y /= 1.0713; // Convert offset from camera plane into local ccordinates Double_t dzd, daz; ac.GetDiffZdAz(x, y, dzd, daz); #ifdef EXPERT cout << "STAR-Offset: " << MTime(-1) << " dZd=" << dzd << "d dAz=" << daz << "d" << endl; #endif ZdAz zdaz(dzd,daz); // Check TPoint data set request if (!fTPoint->IsDown()) return zdaz; fTPoint->SetDown(kFALSE); // If no file open: open new file if (!fOutTp) { // // open tpoint file // const TString name = MCosy::GetFileName("tpoint", "tpoint", "txt"); cout << "TPoint-Starg File ********* " << name << " ********** " << endl; fOutTp = new ofstream(name); *fOutTp << "Magic Model TPOINT data file" << endl; *fOutTp << ": ALTAZ" << endl; *fOutTp << "49 48 0 "; *fOutTp << t << endl; // temp(°C) pressure(mB) height(m) humidity(1) wavelength(microm) troplapserate(K/m) } // Output Ra/Dec the drive system thinks that it is currently tracking cout << "TPoint Star: " << xy.X() << "h " << xy.Y() << "°" << endl; // From the star position in the camera we calculate the Alt/Az // position we are currently tracking (real pointing position) fSao->SetMjd(t.GetMjd()); AltAz za0 = fSao->CalcAltAz(rd)*kRad2Deg; //ZdAz za0 = fSao->GetZdAz(); za0 -= AltAz(-dzd, daz); fAltAzOffsetFromTp = AltAz(-dzd, daz); fTimeFromTp=t; // From the Shaftencoders we get the current 'pointing' position // as it is seen by the drive system (system pointing position) // FIXME???? const ZdAz za1 = fCosy->GetSePos()*TMath::TwoPi(); // Write real pointing position cout << " Alt/Az: " << za0.Alt() << "° " << za0.Az() << "°" << endl; *fOutTp << setprecision(7) << za0.Az() << " " << za0.Alt() << " "; // Write system pointing position cout << " SE-Pos: " << 90-za1.Zd() << "° " << za1.Az() << "°" << endl; *fOutTp << fmod(za1.Az()+360, 360) << " " << 90-za1.Zd(); *fOutTp << " " << xy.X() << " " << xy.Y(); *fOutTp << " " << -dzd << " " << -daz; *fOutTp << " " << setprecision(11) << t.GetMjd(); *fOutTp << " " << setprecision(4) << center.GetMag(); *fOutTp << " " << star->GetMag(); *fOutTp << endl; MLog &outrep = *fCosy->GetOutRep(); if (outrep.Lock("MStarguider::FindStar")) { outrep << "FINDSTAR-REPORT 00 " << MTime(-1) << " " << setprecision(7); outrep << 90-za0.Alt() << " " << za0.Az() << " "; outrep << za1.Zd() << " " << za1.Az() << " "; outrep << xy.X() << " " << xy.Y() << " "; outrep << -dzd << " " << -daz << " "; outrep << star->GetX() << " " << star->GetY() << " "; outrep << center.GetX() << " " << center.GetY() << " "; outrep << x*1.0713/2.58427 << " " << y*1.0713/2.58427 << " " << star->GetMag(); outrep << setprecision(11) << t.GetMjd() << endl; outrep.UnLock("MStarguider::FindStar"); } return zdaz; } bool MStarguider::Interpolate(const unsigned long n, byte *img) const { if (fIntRate<=1) return true; static unsigned short myimg[768*576]; unsigned short *f = myimg; byte *i = img; byte *e = img+768*576; while (i1) { const TString txt = MString::Format("%dfps", (int)((n-n0)/d+.5)); fFps->SetText(txt); fTime = t; n0 = n; } if (!Interpolate(n, img)) return; byte cimg[768*576]; memset(cimg, 0, 768*576); FilterLed f(img, 768, 576, 2.5); // 2.5 FilterLed f2(cimg, 768, 576); // former color 0xb0 if (fDisplay->IsEntryChecked(IDM_kStretch)) f.Stretch(); if (!fWritePictures->IsEntryEnabled(IDM_kStart) && (!(n%fWrtRate) || fWriteType->IsEntryChecked(IDM_kOnce))) { if (fFileType->IsEntryChecked(IDM_kPNG)) Writer::Png("pix/file", img, tm, fCRaDec->GetCoordinates()); if (fFileType->IsEntryChecked(IDM_kPPM)) Writer::Ppm("pix/file", img, tm, fCRaDec->GetCoordinates()); if (fWriteType->IsEntryChecked(IDM_kOnce)) ProcessMessage(MK_MSG(kC_COMMAND, kCM_MENU), IDM_kStop, 0); } // Visual Filter, whole FOV if (fDisplay->IsEntryChecked(IDM_kFilter)) f.Execute(); // Find Center of Camera for Caos and Tpoints Ring center(768/2, 576/2); if (fDisplay->IsEntryChecked(IDM_kCaosFilter)) { const bool printl = fCaosPrint->IsEntryChecked(IDM_kCaosPrintLeds); const bool printr = fCaosPrint->IsEntryChecked(IDM_kCaosPrintRings); ZdAz pos; if (fCosy) pos = fCosy->GetPointingPos(); center = fCaos->Run(img, printl, printr, pos, t, 19, 3.0); cout << "Caos Filter Camera center position: " << center.GetX() << " " << center.GetY() << " (R=" << center.GetR() << ")" << endl; } // Find Star at Center---for Tpoint Procedure if (fDisplay->IsEntryChecked(IDM_kFindStar) && center.GetX()>0 && center.GetY()>0) { // SCALE FACTOR ASSUMED TO BE 70 FindStar(f, f2, center, t, 3/*3.5*/, 70); SendAmcTrigger("TPoint"); } byte zimg[kZOOM*kZOOM]; for (int y=0; yDrawImg(zimg); if (fCosy) { byte simg[(768/2-1)*(576/2-1)]; for (int y=0; y<576/2-1; y++) for (int x=0; x<768/2-1; x++) simg[x+y*(768/2-1)] = ((unsigned int)img[2*x+2*y*768]+img[2*x+2*y*768+1]+img[2*x+2*(y+1)*768]+img[2*x+2*(y+1)*768+1])/4; fCosy->GetWin()->GetImage()->DrawImg(simg); } // Find Center of Camera in Starfield Camera picture Ring sgcenter(53.2, 293.6); // Center of camera in SG picture [px] //ZdAz sgcenterzdaz(0, 0); // Center of camera in SG picture [deg] // // (0,0)_deg is at (53.2, 293.6)_px ZdAz star(0, 0); // Star on curtain in [deg] if (fDisplay->IsEntryChecked(IDM_kStargCaosFilter)) { ZdAz pos; if (fCosy) pos = fCosy->GetPointingPos(); sgcenter = fStargCaos->Run(img, kFALSE, kFALSE, pos, t, 19, 3.0); // [px] //const Float_t pixsize = atof(fPixSize->GetText()); // [arcsec/px] // BE CAREFULL: This transformation is WRONG. It is just // a transformation of units, but this implies, that the // coordiante axis in both units look the same. This is // wrong exspecially near the zenith were az-lines are highly // curved around the zenith! //sgcenterzdaz.Zd((sgcenter.GetY()-293.6) * pixsize /3600 ); //sgcenterzdaz.Az((sgcenter.GetX()-53.2) * pixsize /3600 ); #ifdef EXPERT cout << "- LEDs imply offset of Zd=" << sgcenter.GetX()-53.2 << "pix Az=" << sgcenter.GetY()-293.6<< "pix" << endl; #endif if (fDisplay->IsEntryChecked(IDM_kStargFindStar) && sgcenter.GetX()>0 && sgcenter.GetY()>0) { star = FindStar(f, f2, sgcenter, t, 4.5, 30, 267/161.9); // [deg] #ifdef EXPERT cout << "- Star is found to be off Zd=" << star.Zd()*60 << "' Az=" << star.Az()*60 << "'" << endl; #endif fSZdAz->SetCoordinates(star); // Mispointing found from Camera SendAmcTrigger("Starguider"); } } // Find Roque Lamp if (fOperations->IsEntryChecked(IDM_kRoqueLampAna)) { Double_t imageclean = 1.5; Int_t boxradius = 60; //Double_t scalefactor = 1; XY searchcenter(768/2-1,576/2+25); XY roquelamp = FindRoqueLamp(f, f2, sgcenter, t, imageclean, boxradius, searchcenter); if (fOutRq) { ZdAz pos = fCosy->GetPointingPos(); *fOutRq << "RoqueLampDirect: " << MTime(-1) << " " << pos.Zd() << " " << pos.Az() << " " << roquelamp.X() << " " << roquelamp.Y() << endl; } cout << "Starguider Camera Center: " << sgcenter.GetX() << "," << sgcenter.GetY() << endl; cout << ">=>=>=> Roque Lamp found at: >=>=>=> (" << roquelamp.X() << "," << roquelamp.Y() << ") <=<=<=<" << endl; } // Find Spot on Camera Center in Starguider camera if (fOperations->IsEntryChecked(IDM_kRoqueLampAna)) { XY cameraspot(0,0); Double_t imageclean = 5; Int_t boxradius = 60; //Double_t scalefactor = 1; // XY searchcenter(sgcenter.GetX(),sgcenter.GetY()); XY searchcenter(60.,290.); cameraspot = FindRoqueLamp(f, f2, sgcenter, t, imageclean, boxradius, searchcenter); if (fOutRq) { ZdAz pos = fCosy->GetPointingPos(); *fOutRq << "RoqueLampReflected: " << MTime(-1) << " " << pos.Zd() << " " << pos.Az() << " " << cameraspot.X() << " " << cameraspot.Y() << endl; } cout << ">>>>> Spot on Magic camera found at: >>>>> (" << cameraspot.X() << "," << cameraspot.Y() << ") <<<<<" << endl; f2.DrawCircle(sgcenter, 5.0, 0x0fa); f2.DrawCircle(sgcenter, 115.0, 0x0fa); } // we calculate the offset given by the three ETH Leds visible to // the guide camera // This is an (inferior, obsolete) alternative to the StarCaosFilter // Led offset; // if (fDisplay->IsEntryChecked(IDM_kStargLEDFilter)) // fStargLeds->Run(img,offset); // Position corresponding to the camera center (53.2, 293.6) //Ring skycenter(392, 318); // MStarList spots; // we obtain a list of stars in the FOV from the SAO catalog if (fDisplay->IsEntryChecked(IDM_kCatalog)) { MTime time(*tm); XY xy = fCRaDec->GetCoordinates(); //[h, deg] fRaDec->Set(xy.X()*360/24, xy.Y()); //[deg,deg] UpdatePosZoom(); // Always call SetMjd first! fSao->SetPointing(time.GetMjd(), *fRaDec); fCZdAz->SetCoordinates(fSao->GetZdAz()); MStarList stars; fSao->SetBox(230); // Region of interest around center // very careful: If center of camera cannot be determined // sgcenter jumps to (0,0) //Please never change this offsets!!! // 53.2 and 293.6 are the "preliminary" camera center // -9 and 28.5 are the offsets of the pointing position in the sky const Bool_t centerisvalid = sgcenter.GetX()>0 && sgcenter.GetY()>0; // if (centerisvalid) // skycenter.SetXY(sgcenter.GetX() - 53.2, // sgcenter.GetY() - 293.6); // we obtain stars in the effective star FOV and draw them. // coordinates are video frame coords. // We determine the ideal starfield using camera sagging info // from the LEDs const XY off(sgcenter.GetX()- 53.2-9, sgcenter.GetY()-293.6+28.5); fSao->CalcStars(stars, 530, 292, TMath::FloorNint(off.X()), TMath::FloorNint(off.Y())); fSao->DrawStars(stars, cimg); // Position around which the circles are drawn. const Ring skycenter(768/2-off.X(), 576/2+off.Y()); // There are two corrections to the mispointing // - Sagging of the camera as measured with the LEDs // - Star not ideally centered on MAGIC Camera // Next we evaluate the offset given by the LEDs. This we obtain // in Zd/Az and add it to the tracking error. if (fDisplay->IsEntryChecked(IDM_kStarguider)) { const Float_t cut = atof(fCut->GetText()); Leds spots; f.SetBox(230); f.SetCut(cut); double bright; f.ExecuteAndMark(spots, 530, 292, bright); ULong_t color; gClient->GetColorByName("Green", color); if (bright> 60) gClient->GetColorByName("Yellow", color); if (bright> 85) gClient->GetColorByName("Orange", color); if (bright> 95) gClient->GetColorByName("Red", color); fSkyBright->SetBackgroundColor(color); const MString txt = MString::Format("Sky Brightness: %.1f", bright); fSkyBright->SetText(txt); const Bool_t brightnessisvalid = bright<1.75*fLastBright && bright>30 && bright<110; fLastBright = bright; Int_t numstars = 0; const Int_t rc = CalcTrackingError(spots, stars, fD, t, bright, numstars); const Bool_t monitoring = brightnessisvalid && centerisvalid && fNumStarsCorrelated>2; fStatus = monitoring ? MDriveCom::kMonitoring : MDriveCom::kError; if (fCosy) fPos = fCosy->GetPointingPos(); if (fOperations->IsEntryChecked(IDM_kStargAnalysis)) fStargHistograms->Fill(spots, stars, fD, fSao->GetZdAz(), sgcenter, /*sgcenterzdaz,*/ star, bright, fPos, t); fNumStarsDetected = numstars; fNumStarsCorrelated = rc; if (fCosy) { MDriveCom *com = fCosy->GetDriveCom(); if (com) com->SendStargReport(fStatus, fD, fSao->GetZdAz(), sgcenter, numstars, rc, bright, time.GetMjd(), 0, 0); // Report } } //kStarguider if (centerisvalid && fNumStarsCorrelated>2) { f2.DrawCircle(skycenter, 2.0, 0x0a); const Double_t ap = fSao->GetPixSize()/3600; //[deg/pix] f2.DrawCircle(skycenter, 0.10/ap, 0x0a); //0.1deg f2.DrawHexagon(skycenter, 2.06/ap, 0x0a); f2.DrawHexagon(skycenter, 3.50/ap, 0x0a); } } //CalcStars // Draw Circles around center of Camera if (fDisplay->IsEntryChecked(IDM_kCaosFilter) && center.GetX()>0 && center.GetY()>0) { f2.DrawCircle(center, 0x0a); f2.DrawCircle(center, 7.0, fDisplay->IsEntryChecked(IDM_kFindStar)?3:0xb0); f2.DrawCircle(center, 115.0, 0x0a); f2.DrawCircle(center, 230.0, 0x0a); f2.DrawCircle(center, 245.0, 0x0a); } if (fDisplay->IsEntryChecked(IDM_kStargCaosFilter) && sgcenter.GetX()>0 && sgcenter.GetY()>0) { f2.DrawCircle(sgcenter, 0x0a); f2.DrawCircle(sgcenter, 5.0, fDisplay->IsEntryChecked(IDM_kFindStar)?3:0xb0); } if (fDisplay->IsEntryChecked(IDM_kCaosFilter) || fDisplay->IsEntryChecked(IDM_kCatalog) || fDisplay->IsEntryChecked(IDM_kFindStar) || fOperations->IsEntryChecked(IDM_kRoqueLampAna)) fImage->DrawColImg(img, cimg); else fImage->DrawImg(img); } void MStarguider::UpdatePosZoom() { MString txt; if (fDisplay->IsEntryChecked(IDM_kCatalog)) { // FIXME: Necessary? fSao->Now(); AltAz aa = fSao->CalcAltAzFromPix(fDx, fDy)*kRad2Deg; if (aa.Az()<0) aa.Az(aa.Az()+360); txt.Form("(%d, %d) %.1fd/%.1fd", fDx, fDy, -aa.Alt(), aa.Az()-180); } else txt.Form("(%d, %d)", fDx, fDy); fPosZoom->SetText(txt); } Bool_t MStarguider::HandleDoubleClick(Event_t *event) { const Int_t w = fImage->GetWidth(); const Int_t h = fImage->GetHeight(); const Int_t x = fImage->GetX(); const Int_t y = fImage->GetY(); if (!(event->fX>x && event->fXfY>y && event->fYfX-x; Int_t dy = event->fY-y; if (dx766-kZOOM/4) dx=766-kZOOM/4; if (dy>574-kZOOM/4) dy=574-kZOOM/4; fDx = dx; fDy = dy; UpdatePosZoom(); return kTRUE; } void MStarguider::Print(TString &str, Double_t deg) const { Char_t sgn; UShort_t d, m, s; MAstro::Deg2Dms(deg, sgn, d, m, s); str += MString::Format("%c %03d %02d %03d ", sgn, d, m, s); }