#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //#include "coord.h" #include "MGList.h" #include "MPointing.h" using namespace std; class Set : public TObject { friend ifstream &operator>>(ifstream &fin, Set &set); private: Double_t fStarAz; Double_t fStarEl; Double_t fRawAz; Double_t fRawEl; Double_t fMag; public: Set(Double_t sel=0, Double_t saz=0, Double_t rel=0, Double_t raz=0) : fStarAz(saz*TMath::DegToRad()), fStarEl(sel*TMath::DegToRad()), fRawAz(raz*TMath::DegToRad()), fRawEl(rel*TMath::DegToRad()), fMag(-25) { } Double_t GetMag() const { return fMag; } Double_t GetResidual(Double_t *err=0) const { /* TVector3 v1, v2; v1.SetMagThetaPhi(1, TMath::Pi()/2-fRawEl, fRawAz); v2.SetMagThetaPhi(1, TMath::Pi()/2-fStarEl, fStarAz); return v1.Angle(v2)*TMath::RadToDeg(); */ const Double_t del = fRawEl-fStarEl; const Double_t daz = fRawAz-fStarAz; /* const Double_t dphi2 = daz/2.; const Double_t cos2 = cos(dphi2)*cos(dphi2); const Double_t sin2 = sin(dphi2)*sin(dphi2); const Double_t d = cos(del)*cos2 - cos(fRawEl+fStarEl)*sin2; */ const Double_t d = cos(del) - cos(fRawEl)*cos(fStarEl)*(1.-cos(daz)); if (err) { // Error of one pixel in the CCD const Double_t e1 = 32./3600*TMath::DegToRad() * 0.5; // Error of one SE unit const Double_t e2 = 360./16384*TMath::DegToRad() * 0.5; const Double_t e11 = sin(del)+cos(fRawEl)*sin(fStarEl)*(1-cos(daz)); const Double_t e12 = cos(fRawEl)*cos(fStarEl)*sin(daz); const Double_t e21 = -sin(del)+sin(fRawEl)*cos(fStarEl)*(1-cos(daz)); const Double_t e22 = -cos(fRawEl)*cos(fStarEl)*sin(daz); const Double_t err1 = sqrt(1-d*d); const Double_t err2 = (e11*e11 + e12*e12)*e1*e1; const Double_t err3 = (e21*e21 + e22*e22)*e2*e2; *err = sqrt(err2+err3)/err1 * TMath::RadToDeg(); } const Double_t dist = acos(d); return dist * TMath::RadToDeg(); } void operator=(Set &set) { fStarAz = set.fStarAz; fStarEl = set.fStarEl; fRawAz = set.fRawAz; fRawEl = set.fRawEl; fMag = set.fMag; } Double_t GetDEl() const { return (fRawEl-fStarEl)*TMath::RadToDeg(); } Double_t GetDZd() const { return -GetDEl(); } Double_t GetDAz() const { return (fRawAz-fStarAz)*TMath::RadToDeg(); } Double_t GetStarEl() const { return fStarEl*TMath::RadToDeg(); } Double_t GetStarZd() const { return 90.-fStarEl*TMath::RadToDeg(); } Double_t GetStarAz() const { return fStarAz*TMath::RadToDeg(); } Double_t GetRawEl() const { return fRawEl*TMath::RadToDeg(); } Double_t GetRawAz() const { return fRawAz*TMath::RadToDeg(); } Double_t GetRawZd() const { return 90.-fRawEl*TMath::RadToDeg(); } ZdAz GetStarZdAz() const { return ZdAz(TMath::Pi()/2-fStarEl, fStarAz); } AltAz GetStarAltAz() const { return AltAz(fStarEl, fStarAz); } ZdAz GetRawZdAz() const { return ZdAz(TMath::Pi()/2-fRawEl, fRawAz); } AltAz GetRawAltAz() const { return AltAz(fRawEl, fRawAz); } void AdjustEl(Double_t del) { fStarEl += del*TMath::DegToRad(); } void AdjustAz(Double_t daz) { fStarAz += daz*TMath::DegToRad(); } void Adjust(const MPointing &bend) { AltAz p = bend(GetStarAltAz()); fStarEl = p.Alt(); fStarAz = p.Az(); } void AdjustBack(const MPointing &bend) { AltAz p = bend.CorrectBack(GetRawAltAz()); fRawEl = p.Alt(); fRawAz = p.Az(); } ClassDef(Set, 0) }; ClassImp(Set); ifstream &operator>>(ifstream &fin, Set &set) { TString str; do { str.ReadLine(fin); if (!fin) return fin; } while (str[0]=='#'); Float_t v[4], mag; Int_t n = sscanf(str.Data(), "%f %f %f %f %*f %*f %*f %*f %*f %*f %f", v, v+1, v+2, v+3, &mag); if (n<4) { cout << "Read: ERROR - Not enough numbers" << endl; return fin; } set.fMag = n<5 ? -25 : mag; set.fStarAz = v[0]*TMath::DegToRad(); set.fStarEl = v[1]*TMath::DegToRad(); set.fRawAz = v[2]*TMath::DegToRad(); set.fRawEl = v[3]*TMath::DegToRad(); if (fin) { Double_t res, err; res = set.GetResidual(&err); cout << "Read: " << v[0] << " " << v[1] << " : " << v[2] << " " << v[3] << " : " << v[2]-v[0] << " " << v[3]-v[1] << " : " << res << " " << err << " " << err/res << endl; } return fin; } class MFit : public TGMainFrame { private: enum { kTbFit = 19, //MPointing::GetNumPar(), // FIXME!!! kTbLoad, kTbSave, kTbLoadStars, kTbReset, kTbResetStars }; MGList *fList; TList fOriginal; TList fCoordinates; TList fLabel; MPointing fBending; FontStruct_t fFont; void Fcn(Int_t &npar, Double_t *gin, Double_t &f, Double_t *par, Int_t iflag) { f = 0; MPointing bend; bend.SetParameters(par); // Set Parameters [deg] to MPointing for (int i=0; iGetObjectFit())->Fcn(npar, gin, f, par, iflag); } void DrawMarker(TVirtualPad *pad, Double_t r0, Double_t phi0, Double_t r1, Double_t phi1) { TView *view = pad->GetView(); if (!view) { cout << "No View!" << endl; return; } TMarker mark0; //TMarker mark1; mark0.SetMarkerStyle(kStar); //mark1.SetMarkerStyle(kStar); //mark1.SetMarkerColor(kRed); r0 /= 90; //r1 /= 90; phi0 *= TMath::DegToRad(); //phi1 *= TMath::DegToRad(); Double_t x0[3] = { r0*cos(phi0), r0*sin(phi0), 0}; //Double_t x1[3] = { r1*cos(phi1), r1*sin(phi1), 0}; Double_t y0[3], y1[3]; view->WCtoNDC(x0, y0); //view->WCtoNDC(x1, y1); mark0.DrawMarker(y0[0], y0[1]); //mark1.DrawMarker(y1[0], y1[1]); } void DrawPolLine(TVirtualPad *pad, Double_t r0, Double_t phi0, Double_t r1, Double_t phi1) { TView *view = pad->GetView(); if (!view) { cout << "No View!" << endl; return; } /* if (r0<0) { r0 = -r0; phi0 += 180; } if (r1<0) { r1 = -r1; phi1 += 180; } phi0 = fmod(phi0+360, 360); phi1 = fmod(phi1+360, 360); if (phi1-phi0<-180) phi1+=360; */ TLine line; line.SetLineWidth(2); line.SetLineColor(kBlue); Double_t p0 = phi0phi1) { Double_t d = r1; r1 = r0; r0 = d; } r0 /= 90; r1 /= 90; Double_t dr = r1-r0; Double_t dp = p1-p0; Double_t x0[3] = { r0*cos(p0*TMath::DegToRad()), r0*sin(p0*TMath::DegToRad()), 0}; for (double i=p0+10; ip1) i=p1; Double_t r = dr/dp*(i-p0)+r0; Double_t p = TMath::DegToRad()*i; Double_t x1[3] = { r*cos(p), r*sin(p), 0}; Double_t y0[3], y1[3]; view->WCtoNDC(x0, y0); view->WCtoNDC(x1, y1); line.DrawLine(y0[0], y0[1], y1[0], y1[1]); x0[0] = x1[0]; x0[1] = x1[1]; } } void DrawSet(TVirtualPad *pad, Set &set, Float_t scale=-1, Float_t angle=0) { Double_t r0 = set.GetRawZd(); Double_t phi0 = set.GetRawAz()-angle; Double_t r1 = set.GetStarZd(); Double_t phi1 = set.GetStarAz()-angle; if (r0<0) { r0 = -r0; phi0 += 180; } if (r1<0) { r1 = -r1; phi1 += 180; } phi0 = fmod(phi0+360, 360); phi1 = fmod(phi1+360, 360); if (phi1-phi0<-180) phi1+=360; if (scale<0 || scale>1000) scale = -1; if (scale>0) { Double_t d = r1-r0; r0 += scale*d; r1 -= scale*d; d = phi1-phi0; phi0 += scale*d; phi1 -= scale*d; DrawPolLine(pad, r0, phi0, r1, phi1); DrawMarker(pad, r0, phi0, r1, phi1); } else DrawMarker(pad, r1, phi1, 0 ,0); } void Fit(Double_t &before, Double_t &after, Double_t &backw) { if (fOriginal.GetSize()==0) { cout << "Sorry, no input data loaded..." << endl; return; } fCoordinates.Delete(); for (int i=0; iSetOptStat("emro"); TH1F hres1("Res1", " Residuals before correction ", fOriginal.GetSize()/3, 0, 0.3); TH1F hres2("Res2", " Residuals after correction ", fOriginal.GetSize()/3, 0, 0.3); TH1F hres3("Res3", " Residuals after backward correction ", fOriginal.GetSize()/3, 0, 0.3); hres1.SetXTitle("\\Delta [\\circ]"); hres1.SetYTitle("Counts"); hres2.SetXTitle("\\Delta [\\circ]"); hres2.SetYTitle("Counts"); hres3.SetXTitle("\\Delta [\\circ]"); hres3.SetYTitle("Counts"); TGraph gdaz; TGraph gdzd; TGraph gaz; TGraph gzd; TGraph graz; TGraph grzd; TGraph grmag; TGraph gmaz; TGraph gmzd; gdaz.SetTitle(" \\Delta Az vs. Zd "); gdzd.SetTitle(" \\Delta Zd vs. Az "); gaz.SetTitle(" \\Delta Az vs. Az "); gzd.SetTitle(" \\Delta Zd vs. Zd "); gmaz.SetTitle(" \\Delta Az vs. Mag "); gmzd.SetTitle(" \\Delta Zd vs. Mag "); graz.SetTitle(" \\Delta vs. Az "); grzd.SetTitle(" \\Delta vs. Zd "); grmag.SetTitle(" \\Delta vs. Mag "); TMinuit minuit(MPointing::GetNumPar()); //initialize TMinuit with a maximum of 5 params minuit.SetObjectFit(this); minuit.SetPrintLevel(-1); minuit.SetFCN(fcn); fBending.SetMinuitParameters(minuit, MPointing::GetNumPar()); // Init Parameters [deg] for (int i=0; iFindWidget(i); minuit.FixParameter(i); if (l->GetState()==kButtonDown) minuit.Release(i); } //minuit.Command("SHOW PARAMETERS"); //minuit.Command("SHOW LIMITS"); cout << endl; cout << "Starting fit..." << endl; cout << "For the fit an measurement error in the residual of "; cout << "0.02deg (=1SE) is assumed." << endl; cout << endl; Int_t ierflg = 0; ierflg = minuit.Migrad(); cout << "Migrad returns " << ierflg << endl; // minuit.Release(2); ierflg = minuit.Migrad(); cout << "Migrad returns " << ierflg << endl << endl; // // Get Fit Results // fBending.GetMinuitParameters(minuit); fBending.PrintMinuitParameters(minuit); //fBending.Save("bending_magic.txt"); // // Make a copy of all list entries // TList list; list.SetOwner(); for (int i=0; i180) dz -= 360; gdzd.SetPoint(i, za.Az(), set0.GetDZd()); gdaz.SetPoint(i, za.Zd(), dz); graz.SetPoint(i, za.Az(), set0.GetResidual()); grzd.SetPoint(i, za.Zd(), set0.GetResidual()); gaz.SetPoint( i, za.Az(), dz); gzd.SetPoint( i, za.Zd(), set0.GetDZd()); if (set0.GetMag()>=-20) { grmag.SetPoint(i, set0.GetMag(), set0.GetResidual()); gmaz.SetPoint( i, set0.GetMag(), dz); gmzd.SetPoint( i, set0.GetMag(), set0.GetDZd()); } } // // Check for overflows // const Stat_t ov = hres2.GetBinContent(hres2.GetNbinsX()+1); if (ov>0) cout << "WARNING: " << ov << " overflows in residuals." << endl; cout << dec << endl; cout << " Number of calls to FCN: " << minuit.fNfcn << endl; cout << "Minimum value found for FCN (Chi^2?): " << minuit.fAmin << endl; cout << " Fit-Probability(?): " << TMath::Prob(minuit.fAmin/*fOriginal.GetSize()*/, fOriginal.GetSize()-minuit.GetNumFreePars())*100 << "%" << endl; cout << " Chi^2/NDF: " << minuit.fAmin/(fOriginal.GetSize()-minuit.GetNumFreePars()) << endl; //cout << "Prob(?): " << TMath::Prob(fChisquare,ndf); // // Print all data sets for which the backward correction is // twice times worse than the residual gotten from the // bending correction itself // cout << endl; cout << "Checking backward correction (raw-->star):" << endl; for (int i=0; iFindObject("CanvGraphs"))) delete c1; if ((c1 = (TCanvas*)gROOT->FindObject("CanvResiduals"))) delete c1; const Double_t max1 = TMath::Max(gaz.GetHistogram()->GetMaximum(), gdaz.GetHistogram()->GetMaximum()); const Double_t max2 = TMath::Max(gzd.GetHistogram()->GetMaximum(), gdzd.GetHistogram()->GetMaximum()); const Double_t max3 = TMath::Max(grzd.GetHistogram()->GetMaximum(), graz.GetHistogram()->GetMaximum()); const Double_t min1 = TMath::Min(gaz.GetHistogram()->GetMinimum(), gdaz.GetHistogram()->GetMinimum()); const Double_t min2 = TMath::Min(gzd.GetHistogram()->GetMinimum(), gdzd.GetHistogram()->GetMinimum()); const Double_t min3 = TMath::Min(grzd.GetHistogram()->GetMinimum(), graz.GetHistogram()->GetMinimum()); const Double_t absmax1 = TMath::Max(max1, TMath::Abs(min1)); const Double_t absmax2 = TMath::Max(max2, TMath::Abs(min2)); const Double_t absmax3 = TMath::Max(max3, TMath::Abs(min3)); gaz.SetMaximum(absmax1); gzd.SetMaximum(absmax2); gdaz.SetMaximum(absmax1); gdzd.SetMaximum(absmax2); gmaz.SetMaximum(absmax1); gmzd.SetMaximum(absmax2); graz.SetMaximum(absmax3); grzd.SetMaximum(absmax3); grmag.SetMaximum(absmax3); gaz.SetMinimum(-absmax1); gzd.SetMinimum(-absmax2); gdaz.SetMinimum(-absmax1); gdzd.SetMinimum(-absmax2); gmaz.SetMinimum(-absmax1); gmzd.SetMinimum(-absmax2); graz.SetMinimum(0); grzd.SetMinimum(0); grmag.SetMinimum(0); c1=new TCanvas("CanvGraphs", "Graphs"); c1->Divide(3,3,1e-10,1e-10); TLine line; line.SetLineColor(kGreen); line.SetLineWidth(2); c1->cd(1); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); TGraph *g=(TGraph*)gaz.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Az [\\circ]"); g->GetHistogram()->SetYTitle("\\Delta Az [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); line.DrawLine(g->GetXaxis()->GetXmin(), -360./16384, g->GetXaxis()->GetXmax(), -360./16384); c1->cd(2); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)gdaz.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Zd [\\circ]"); g->GetHistogram()->SetYTitle("\\Delta Az [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); line.DrawLine(g->GetXaxis()->GetXmin(), -360./16384, g->GetXaxis()->GetXmax(), -360./16384); cout << "Mean dAz: " << g->GetMean(2) << " \xb1 " << g->GetRMS(2) << endl; c1->cd(3); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)gmaz.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Mag"); g->GetHistogram()->SetYTitle("\\Delta Az [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); line.DrawLine(g->GetXaxis()->GetXmin(), -360./16384, g->GetXaxis()->GetXmax(), -360./16384); c1->cd(4); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)gdzd.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Az [\\circ]"); g->GetHistogram()->SetYTitle("\\Delta Zd [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); line.DrawLine(g->GetXaxis()->GetXmin(), -360./16384, g->GetXaxis()->GetXmax(), -360./16384); cout << "Mean dZd: " << g->GetMean(2) << " \xb1 " << g->GetRMS(2) << endl; cout << endl; c1->cd(5); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)gzd.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Zd [\\circ]"); g->GetHistogram()->SetYTitle("\\Delta Zd [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); line.DrawLine(g->GetXaxis()->GetXmin(), -360./16384, g->GetXaxis()->GetXmax(), -360./16384); c1->cd(6); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)gmzd.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Mag"); g->GetHistogram()->SetYTitle("\\Delta Zd [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); line.DrawLine(g->GetXaxis()->GetXmin(), -360./16384, g->GetXaxis()->GetXmax(), -360./16384); c1->cd(7); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)graz.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Az [\\circ]"); g->GetHistogram()->SetYTitle("\\Delta [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); c1->cd(8); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)grzd.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Zd [\\circ]"); g->GetHistogram()->SetYTitle("\\Delta [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); c1->cd(9); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); g=(TGraph*)grmag.DrawClone("A*"); g->SetBit(kCanDelete); g->GetHistogram()->SetXTitle("Mag"); g->GetHistogram()->SetYTitle("\\Delta [\\circ]"); line.DrawLine(g->GetXaxis()->GetXmin(), 360./16384, g->GetXaxis()->GetXmax(), 360./16384); // // Print out the residual before and after correction in several // units // cout << fCoordinates.GetSize() << " data sets." << endl << endl; cout << "Total Spread of Residual:" << endl; cout << "-------------------------" << endl; cout << "before: " << Form("%6.4f", hres1.GetMean()) << " \xb1 " << Form("%6.4f", hres1.GetRMS()) << " deg \t"; cout << "before: " << Form("%4.1f", hres1.GetMean()*60) << " \xb1 " << Form("%.1f", hres1.GetRMS()*60) << " arcmin" << endl; cout << "after: " << Form("%6.4f", hres2.GetMean()) << " \xb1 " << Form("%6.4f", hres2.GetRMS()) << " deg \t"; cout << "after: " << Form("%4.1f", hres2.GetMean()*60) << " \xb1 " << Form("%.1f", hres2.GetRMS()*60) << " arcmin" << endl; cout << "backw: " << Form("%6.4f", hres3.GetMean()) << " \xb1 " << Form("%6.4f", hres3.GetRMS()) << " deg \t"; cout << "backw: " << Form("%4.1f", hres3.GetMean()*60) << " \xb1 " << Form("%.1f", hres3.GetRMS()*60) << " arcmin" << endl; cout << endl; cout << "before: " << Form("%4.1f", hres1.GetMean()*16348/360) << " \xb1 " << Form("%.1f", hres1.GetRMS()*16384/360) << " SE \t\t"; cout << "before: " << Form("%4.1f", hres1.GetMean()*60*60/23.4) << " \xb1 " << Form("%.1f", hres1.GetRMS()*60*60/23.4) << " pix" << endl; cout << "after: " << Form("%4.1f", hres2.GetMean()*16384/360) << " \xb1 " << Form("%.1f", hres2.GetRMS()*16384/360) << " SE \t\t"; cout << "after: " << Form("%4.1f", hres2.GetMean()*60*60/23.4) << " \xb1 " << Form("%.1f", hres2.GetRMS()*60*60/23.4) << " pix" << endl; cout << "backw: " << Form("%4.1f", hres3.GetMean()*16384/360) << " \xb1 " << Form("%.1f", hres3.GetRMS()*16384/360) << " SE \t\t"; cout << "backw: " << Form("%4.1f", hres3.GetMean()*60*60/23.4) << " \xb1 " << Form("%.1f", hres3.GetRMS()*60*60/23.4) << " pix" << endl; cout << endl; cout << endl; // ± before = hres1.GetMean()*16384/360; after = hres2.GetMean()*16384/360; backw = hres3.GetMean()*16384/360; gStyle->SetOptStat(1110); gStyle->SetStatFormat("6.2g"); c1=new TCanvas("CanvResiduals", "Residuals", 800, 800); c1->Divide(2, 2, 1e-10, 1e-10); c1->cd(2); gPad->SetBorderMode(0); hres1.SetLineColor(kRed); hres1.DrawCopy(); line.DrawLine(360./16384, 0, 360./16384, hres1.GetMaximum()); c1->cd(4); gPad->SetBorderMode(0); hres2.SetLineColor(kBlue); TH1 *h=hres2.DrawCopy(); TF1 f("mygaus", "(gaus)", 0, 1); f.SetLineColor(kMagenta/*6*/); f.SetLineWidth(1); f.SetParameter(0, h->GetBinContent(1)); f.FixParameter(1, 0); f.SetParameter(2, h->GetRMS()); h->Fit("mygaus", "QR"); hres3.SetLineColor(kCyan); hres3.SetLineStyle(kDashed); hres3.DrawCopy("same"); cout << "Gaus-Fit Sigma: " << f.GetParameter(2) << "\xb0" << endl; cout << "Fit-Probability: " << f.GetProb()*100 << "%" << endl; cout << " Chi^2/NDF: " << f.GetChisquare() << "/" << f.GetNDF() << " = " << f.GetChisquare()/f.GetNDF() << endl; line.DrawLine(360./16384, 0, 360./16384, h->GetMaximum()); c1->cd(1); gPad->SetBorderMode(0); gPad->SetTheta(90); gPad->SetPhi(90); TH2F h2res1("Res2D1", " Dataset positions on the sky ", 32, 0, 360, 10, 0, 90); h2res1.SetBit(TH1::kNoStats); h2res1.DrawCopy("surf1pol"); gPad->Modified(); gPad->Update(); for (int i=0; icd(3); gPad->SetBorderMode(0); gPad->SetTheta(90); gPad->SetPhi(90); h2res1.SetTitle(" Arb. Residuals after correction (scaled) "); h2res1.DrawCopy("surf1pol"); gPad->Modified(); gPad->Update(); // for (int i=0; i> set; // Read data from file [deg], it is stored in [rad] if (!fin) break; fOriginal.Add(new Set(set)); } cout << "Found " << fOriginal.GetSize()-size << " sets of coordinates "; cout << "(Total=" << fOriginal.GetSize() << ")" << endl; } // -------------------------------------------------------------------------- // // Opens an open dialog // TString OpenDialog(EFileDialogMode mode=kFDOpen) { static const char *gOpenTypes[] = { "TPoint files", "*.txt", "All files", "*", NULL, NULL }; static TString dir("."); TGFileInfo fi; // fFileName and fIniDir deleted in ~TGFileInfo fi.fFileTypes = (const char**)gOpenTypes; fi.fIniDir = StrDup(dir); new TGFileDialog(fClient->GetRoot(), this, mode, &fi); if (!fi.fFilename) return 0; dir = fi.fIniDir; return fi.fFilename; } Bool_t ProcessMessage(Long_t msg, Long_t mp1, Long_t mp2) { // cout << "Msg: " << hex << GET_MSG(msg) << endl; // cout << "SubMsg: " << hex << GET_SUBMSG(msg) << dec << endl; switch (GET_MSG(msg)) { case kC_COMMAND: switch (GET_SUBMSG(msg)) { case kCM_BUTTON: switch (mp1) { case kTbFit: { Double_t before=0; Double_t after=0; Double_t backw=0; Fit(before, after, backw); DisplayBending(); DisplayResult(before, after, backw); } return kTRUE; case kTbLoad: fBending.Load(OpenDialog()); DisplayBending(); return kTRUE; case kTbSave: fBending.Save(OpenDialog(kFDSave)); return kTRUE; case kTbLoadStars: LoadStars(OpenDialog()); DisplayData(); return kTRUE; case kTbReset: fBending.Clear(); DisplayBending(); return kTRUE; case kTbResetStars: fOriginal.Delete(); DisplayData(); return kTRUE; } return kTRUE; } return kTRUE; } return kTRUE; } void AddTextButton(TGCompositeFrame *f, TString txt, Int_t id=-1, TGLayoutHints *h=0) { TGButton *but = new TGTextButton(f, txt, id); but->Associate(this); f->AddFrame(but, h); fList->Add(but); } void AddCheckButton(TGCompositeFrame *f, TString txt, Int_t id=-1, TGLayoutHints *h=0) { TGButton *but = new TGCheckButton(f, txt, id); but->Associate(this); f->AddFrame(but, h); fList->Add(but); } TGLabel *AddLabel(TGCompositeFrame *f, TString txt, TGLayoutHints *h=0) { TGLabel *l = new TGLabel(f, txt/*, TGLabel::GetDefaultGC()(), fFont*/); f->AddFrame(l, h); fList->Add(l); fLabel.Add(l); return l; } void DisplayBending() { TArrayD par, err; fBending.GetParameters(par); fBending.GetError(err); TGLabel *l; for (int i=0; iSetText(Form("%.4f\xb0", par[i])); l = (TGLabel*)fLabel.At(MPointing::GetNumPar()+i); l->SetText(Form("\xb1 %8.4f\xb0", err[i])); } } void DisplayData() { TGLabel *l = (TGLabel*)fLabel.At(3*MPointing::GetNumPar()); l->SetText(Form("%d data sets loaded.", fOriginal.GetSize())); } void DisplayResult(Double_t before, Double_t after, Double_t backw) { TGLabel *l1 = (TGLabel*)fLabel.At(3*MPointing::GetNumPar()+1); l1->SetText(Form("Before: %.1f +- %.1f SE", before, 0)); TGLabel *l2 = (TGLabel*)fLabel.At(3*MPointing::GetNumPar()+2); l2->SetText(Form("After: %.1f +- %.1f SE", after, 0)); TGLabel *l3 = (TGLabel*)fLabel.At(3*MPointing::GetNumPar()+3); l3->SetText(Form("Backw: %.1f +- %.1f SE", backw, 0)); } public: ~MFit() { if (fFont) gVirtualX->DeleteFont(fFont); } MFit() : TGMainFrame(gClient->GetRoot(), 750, 370, kHorizontalFrame) { fCoordinates.SetOwner(); fOriginal.SetOwner(); fList = new MGList; fList->SetOwner(); fFont = gVirtualX->LoadQueryFont("7x13bold"); TGLayoutHints *hints0 = new TGLayoutHints(kLHintsExpandY, 7, 5, 5, 6); TGLayoutHints *hints1 = new TGLayoutHints(kLHintsExpandX|kLHintsExpandY, 5, 7, 5, 6); TGLayoutHints *hints2 = new TGLayoutHints(kLHintsCenterX|kLHintsCenterY, 5, 5, 5, 5); fList->Add(hints0); fList->Add(hints1); fList->Add(hints2); TGGroupFrame *grp1 = new TGGroupFrame(this, "Control", kVerticalFrame); AddFrame(grp1, hints0); fList->Add(grp1); TGGroupFrame *grp2 = new TGGroupFrame(this, "Parameters", kHorizontalFrame); AddFrame(grp2, hints1); fList->Add(grp2); TGLayoutHints *hints4 = new TGLayoutHints(kLHintsExpandX, 5, 5, 5); TGLayoutHints *hints5 = new TGLayoutHints(kLHintsExpandX, 5, 5, 15); AddTextButton(grp1, "Load Pointing Model", kTbLoad, hints5); AddTextButton(grp1, "Save Pointing Model", kTbSave, hints4); AddTextButton(grp1, "Fit Parameters", kTbFit, hints5); AddTextButton(grp1, "Reset Parameters", kTbReset, hints4); AddTextButton(grp1, "Load Stars", kTbLoadStars, hints5); AddTextButton(grp1, "Reset Stars", kTbResetStars, hints4); fList->Add(hints4); fList->Add(hints5); TGHorizontalFrame *comp = new TGHorizontalFrame(grp2, 1, 1); grp2->AddFrame(comp); fList->Add(comp); TGLayoutHints *hints3 = new TGLayoutHints(kLHintsLeft|kLHintsTop, 0, 20, 5, 0); fList->Add(hints3); TGLabel *l; TGVerticalFrame *vframe = new TGVerticalFrame(comp, 1, 1); comp->AddFrame(vframe, hints3); fList->Add(vframe); for (int i=0; iAddFrame(vframe, hints3); fList->Add(vframe); l = new TGLabel(vframe, "+000.0000"); l->SetTextJustify(kTextRight); fList->Add(l); fLabel.Add(l); TGButton *but = (TGButton*)fList->FindWidget(0); TGLayoutHints *h = new TGLayoutHints(kLHintsCenterY, 0, 0, but->GetHeight()-l->GetHeight()); fList->Add(h); vframe->AddFrame(l,h); for (int i=1; iSetTextJustify(kTextRight); vframe = new TGVerticalFrame(comp, 1, 1); comp->AddFrame(vframe, hints3); fList->Add(vframe); for (int i=0; iSetTextJustify(kTextRight); vframe = new TGVerticalFrame(comp, 1, 1); comp->AddFrame(vframe, hints3); fList->Add(vframe); for (int i=0; iAddFrame(l, hints5); fList->Add(l); fLabel.Add(l); l = new TGLabel(grp1, ""); l->SetTextJustify(kTextLeft); grp1->AddFrame(l, hints5); fList->Add(l); fLabel.Add(l); l = new TGLabel(grp1, ""); l->SetTextJustify(kTextLeft); grp1->AddFrame(l, hints5); fList->Add(l); fLabel.Add(l); l = new TGLabel(grp1, ""); l->SetTextJustify(kTextLeft); grp1->AddFrame(l, hints5); fList->Add(l); fLabel.Add(l); ((TGCheckButton*)fList->FindWidget(0))->SetState(kButtonDown); ((TGCheckButton*)fList->FindWidget(1))->SetState(kButtonDown); ((TGCheckButton*)fList->FindWidget(6))->SetState(kButtonDown); ((TGCheckButton*)fList->FindWidget(10))->SetState(kButtonDown); ((TGCheckButton*)fList->FindWidget(12))->SetState(kButtonDown); ((TGCheckButton*)fList->FindWidget(17))->SetState(kButtonDown); SetWindowName("TPoint Fitting Window"); SetIconName("TPoint++"); Layout(); MapSubwindows(); MapWindow(); DisplayBending(); DisplayData(); } ClassDef(MFit, 0) }; ClassImp(MFit); void gui() { gErrorIgnoreLevel = kError; new MFit; // TF1 f1("f1", "[0]/cos((90-x)*3.1415/180)", 0, 90) }