149 lines
5.6 KiB
C
149 lines
5.6 KiB
C
// fit_xy_offset.C
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// ---------------------------------------------------------------------------
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// Tests the "beam/source XY offset (tilted rod)" hypothesis by fitting the
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// phi-dependence of the A1C2 vertex-z residual and the A1C0 z residual.
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//
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// z_reco - z_true = -(d/tan(theta)) * cos(phi - phi_d)
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//
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// where (d, phi_d) is the transverse source offset. So a cos(phi - phi_d)
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// modulation of the residual is the signature of an XY offset; a flat line
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// means no offset. The PHASE phi_d must be the SAME for SX3 and QQQ if the
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// offset is a real, shared source/beam displacement (the falsifiable test).
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// The AMPLITUDE scales as 1/tan(theta), so QQQ (forward) > SX3 (transverse)
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// for the same physical d.
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//
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// USAGE (run ONE source position at a time -- combining z-positions and
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// per-run offsets washes out the modulation):
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// root -l -b -q 'fit_xy_offset.C("Output_a/results_run018.root")'
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//
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// Reads the Diag_XYoffset histograms filled by TrackRecon.C:
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// Diag_{SX3,QQQ}_A1C2_vtxZ_resid_vs_phi (x=phi deg, y=vtxZ - source_vertex)
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// Diag_{SX3,QQQ}_A1C0_zresid_vs_phi (x=phi deg, y=pcz_a1c0 - pcz_ref)
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// ---------------------------------------------------------------------------
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#include <TFile.h>
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#include <TH2.h>
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#include <TProfile.h>
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#include <TF1.h>
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#include <TKey.h>
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#include <TDirectory.h>
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#include <TMath.h>
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#include <iostream>
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#include <string>
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#include <vector>
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static TH2 *findTH2(TDirectory *dir, const std::string &name)
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{
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if (TObject *o = dir->Get(name.c_str()))
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if (o->InheritsFrom(TH2::Class()))
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return static_cast<TH2 *>(o);
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TIter next(dir->GetListOfKeys());
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while (TKey *key = static_cast<TKey *>(next()))
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{
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TObject *obj = key->ReadObj();
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if (obj->InheritsFrom(TDirectory::Class()))
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{
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if (TH2 *h = findTH2(static_cast<TDirectory *>(obj), name))
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return h;
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}
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else if (obj->InheritsFrom(TH2::Class()) && name == obj->GetName())
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return static_cast<TH2 *>(obj);
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}
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return nullptr;
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}
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// Fit A + B*cos(x*pi/180 - C) to the ProfileX of a (phi, residual) TH2.
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// Returns true and reports the offset constant A, amplitude B, phase C(deg).
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static bool fitCos(TFile *f, const char *label, const std::string &hname,
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double &A, double &B, double &Cdeg)
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{
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TH2 *h2 = findTH2(f, hname);
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if (!h2)
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{
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std::cout << "[" << label << "] histogram not found: " << hname << "\n";
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return false;
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}
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TProfile *prof = h2->ProfileX((hname + "_pfx").c_str());
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if (prof->GetEntries() < 10)
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{
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std::cout << "[" << label << "] too few entries to fit (" << prof->GetEntries() << ")\n";
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return false;
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}
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// A + B*cos(phi - C), phi in radians (x stored in degrees)
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TF1 fc("fc", "[0]+[1]*cos(x*TMath::DegToRad()-[2])", -180, 180);
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fc.SetParameters(prof->GetMean(2), prof->GetRMS(2), 0.0);
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fc.SetParLimits(1, 0.0, 1e4); // amplitude >= 0
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prof->Fit(&fc, "QR");
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A = fc.GetParameter(0);
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B = fc.GetParameter(1);
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Cdeg = fc.GetParameter(2) * TMath::RadToDeg();
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// fold phase into (-180,180]
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while (Cdeg > 180.0) Cdeg -= 360.0;
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while (Cdeg <= -180.0) Cdeg += 360.0;
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double chi2ndf = (fc.GetNDF() > 0) ? fc.GetChisquare() / fc.GetNDF() : -1.0;
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std::cout << "------------------------------------------------------------\n";
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std::cout << "[" << label << "] " << hname << "\n";
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std::cout << " constant A : " << A << " mm (mean residual)\n";
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std::cout << " amplitude B : " << B << " mm +/- " << fc.GetParError(1) << "\n";
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std::cout << " phase phi_d : " << Cdeg << " deg (offset direction)\n";
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std::cout << " chi2/ndf : " << chi2ndf << "\n";
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return true;
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}
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void fit_xy_offset(const char *filename)
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{
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TFile *f = TFile::Open(filename, "READ");
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if (!f || f->IsZombie())
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{
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std::cerr << "Cannot open file: " << filename << std::endl;
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return;
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}
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std::cout << "\n================= XY-offset (rod-tilt) test =================\n";
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std::cout << "file: " << filename << "\n";
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std::cout << "Model: residual = A - (d/tan(theta))*cos(phi - phi_d)\n";
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std::cout << " -> amplitude B ~ d/tan(theta), phase phi_d = offset azimuth.\n";
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std::cout << " -> phi_d must MATCH between SX3 and QQQ for a real offset.\n";
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double A, B, Cdeg;
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double phiSX3_vtx = 0, phiQQQ_vtx = 0;
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bool okSvtx = false, okQvtx = false;
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std::cout << "\n--- A1C2 vertex-z residual (cleanest: theta-projection) ---\n";
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if ((okSvtx = fitCos(f, "SX3 vtxZ", "Diag_SX3_A1C2_vtxZ_resid_vs_phi", A, B, Cdeg)))
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phiSX3_vtx = Cdeg;
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if ((okQvtx = fitCos(f, "QQQ vtxZ", "Diag_QQQ_A1C2_vtxZ_resid_vs_phi", A, B, Cdeg)))
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phiQQQ_vtx = Cdeg;
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std::cout << "\n--- A1C0 z residual (anode-only minus A1C2 ref) ---\n";
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fitCos(f, "SX3 A1C0", "Diag_SX3_A1C0_zresid_vs_phi", A, B, Cdeg);
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fitCos(f, "QQQ A1C0", "Diag_QQQ_A1C0_zresid_vs_phi", A, B, Cdeg);
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std::cout << "\n==================== verdict ====================\n";
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if (okSvtx && okQvtx)
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{
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double dphi = phiSX3_vtx - phiQQQ_vtx;
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while (dphi > 180.0) dphi -= 360.0;
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while (dphi <= -180.0) dphi += 360.0;
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std::cout << "vertex-z phase: SX3 = " << phiSX3_vtx
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<< " deg, QQQ = " << phiQQQ_vtx << " deg\n";
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std::cout << "phase difference = " << dphi << " deg\n";
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if (TMath::Abs(dphi) < 30.0)
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std::cout << "=> phases AGREE -> consistent with a real shared XY offset"
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" (rod tilt). Offset direction ~ " << phiSX3_vtx << " deg.\n";
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else
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std::cout << "=> phases DISAGREE -> not a single shared XY offset;"
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" likely per-detector calibration instead.\n";
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}
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else
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{
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std::cout << "Could not fit both detectors -- check the run has A1C2 stats.\n";
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}
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std::cout << "=================================================\n\n";
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f->Close();
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}
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