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modified: .gitignore

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modified:   .vscode/settings.json
	renamed:    HistPlotter.h -> Armory/HistPlotter.h
	new file:   Armory/LICENSE
	new file:   Armory/README.md
	modified:   Calibration.C
	modified:   GainMatchQQQ.C
	modified:   GainMatchSX3.C
	modified:   sx3_GainMatchfront.txt
This commit is contained in:
Vignesh Sitaraman 2025-11-17 09:33:08 -05:00
parent 7582731de4
commit 0773b9e6cc
9 changed files with 841 additions and 381 deletions
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@ -13,3 +13,9 @@ data_proton/
Analyzer_C_ACLiC_dict0713aaa966_dictContent.h Analyzer_C_ACLiC_dict0713aaa966_dictContent.h
.gitignore .gitignore
Analyzer_C_ACLiC_dict5411fecd5c_dictUmbrella.h Analyzer_C_ACLiC_dict5411fecd5c_dictUmbrella.h
gainmatch.C
gainmatch.h
MakePlotsQQQ.C
MakePlotsQQQ.h
MakePlotsSX3.C
MakePlotsSX3.h

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@ -116,7 +116,9 @@
"GainMatchSX3Front1.C": "cpp", "GainMatchSX3Front1.C": "cpp",
"Calibration.C": "cpp", "Calibration.C": "cpp",
"GainMatchQQQ.C": "cpp", "GainMatchQQQ.C": "cpp",
"UTF-8gainmatch.C": "cpp" "UTF-8gainmatch.C": "cpp",
"MakePlotsQQQ.C": "cpp",
"MakePlotsSX3.C": "cpp"
}, },
"github-enterprise.uri": "https://fsunuc.physics.fsu.edu" "github-enterprise.uri": "https://fsunuc.physics.fsu.edu"
} }

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<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<https://www.gnu.org/licenses/why-not-lgpl.html>.

6
Armory/README.md Normal file
View File

@ -0,0 +1,6 @@
# HistPlotter
- Header-only class to encapsulate CERN ROOT 1D/2D Histogram plotting and application of TCuts.
- Can specify folder hierarchy while setting up fills, currently supports only one level.
- Cuts specified using a two-column text file containing cut names, and target .root files. These .root files must contain a TCutG of name "CUTG".
- Tested for use in macros, with TSelector design pattern and compiled code.
- Idea inspired from MyFill() pattern created by github user gwm17

472
Calibration.C
View File

@ -1,3 +1,4 @@
#define Calibration_cxx #define Calibration_cxx
#include <TH2.h> #include <TH2.h>
@ -9,128 +10,29 @@
#include <fstream> #include <fstream>
#include <utility> #include <utility>
#include <algorithm> #include <algorithm>
#include <TProfile.h> #include "Armory/HistPlotter.h"
#include <TVector3.h> #include "TVector3.h"
#include "Armory/ClassSX3.h"
#include "Armory/ClassPW.h"
#include "TGraphErrors.h"
#include "Calibration.h" #include "Calibration.h"
TH2F *hQQQFVB;
HistPlotter *plotter;
int padID = 0; int padID = 0;
SX3 sx3_contr;
PW pw_contr;
PW pwinstance;
TVector3 hitPos;
// TVector3 anodeIntersection;
std::map<int, std::pair<double, double>> slopeInterceptMap;
bool HitNonZero;
bool sx3ecut;
bool qqqEcut;
TH2F *hSX3FvsB;
TH2F *hSX3FvsB_g;
TH2F *hSX3;
TH1F *hZProj;
TH2F *hsx3IndexVE;
TH2F *hsx3IndexVE_gm;
TH2F *hqqqIndexVE;
TH2F *hqqqIndexVE_gm;
TH2F *hsx3Coin;
TH2F *hqqqCoin;
TH2F *hqqqPolar;
TH1F *hsx3E_raw;
TH1F *hsx3E_calib;
TCutG *cut; TCutG *cut;
TCutG *cut1; std::map<std::tuple<int, int, int>, std::vector<std::pair<double, double>>> dataPoints;
// Gain arrays bool qqqEcut = false;
const int MAX_SX3 = 24; // Gain Arrays
const int MAX_UP = 4;
const int MAX_DOWN = 4;
const int MAX_BK = 4;
const int MAX_QQQ = 4; const int MAX_QQQ = 4;
const int MAX_RING = 16; const int MAX_RING = 16;
const int MAX_WEDGE = 16; const int MAX_WEDGE = 16;
double backGain[MAX_SX3][MAX_BK] = {{0}}; double qqqGain[MAX_QQQ][MAX_RING][MAX_WEDGE] = {{{0}}};
bool backGainValid[MAX_SX3][MAX_BK] = {{false}}; bool qqqGainValid[MAX_QQQ][MAX_RING][MAX_WEDGE] = {{{false}}};
double frontGain[MAX_SX3][MAX_BK][MAX_UP][MAX_DOWN] = {{{{0}}}};
bool frontGainValid[MAX_SX3][MAX_BK][MAX_UP][MAX_DOWN] = {{{{false}}}};
double uvdslope[MAX_SX3][MAX_BK][MAX_UP][MAX_DOWN] = {{{{0}}}};
double qqqGain[MAX_QQQ][MAX_BK][MAX_UP] = {{{0}}};
bool qqqGainValid[MAX_QQQ][MAX_BK][MAX_UP] = {{{false}}};
TH1F *hSX3Spectra[MAX_SX3][MAX_BK][MAX_UP][MAX_DOWN];
TH1F *hQQQSpectra[MAX_QQQ][MAX_RING][MAX_WEDGE];
void Calibration::Begin(TTree * /*tree*/) void Calibration::Begin(TTree * /*tree*/)
{ {
TString option = GetOption(); plotter = new HistPlotter("Calib.root", "TFILE");
hSX3FvsB = new TH2F("hSX3FvsB", "SX3 Front vs Back; Front E; Back E", 400, 0, 16000, 400, 0, 16000);
hSX3FvsB_g = new TH2F("hSX3FvsB_g", "SX3 Front vs Back; Front E; Back E", 400, 0, 16000, 400, 0, 16000);
hsx3IndexVE = new TH2F("hsx3IndexVE", "SX3 index vs Energy; sx3 index ; Energy", 24 * 12, 0, 24 * 12, 400, 0, 5000);
hSX3 = new TH2F("hSX3", "SX3 Front v Back; Fronts; Backs", 8, 0, 8, 4, 0, 4);
hsx3Coin = new TH2F("hsx3Coin", "SX3 Coincident", 24 * 12, 0, 24 * 12, 24 * 12, 0, 24 * 12);
hsx3IndexVE = new TH2F("hsx3IndexVE", "SX3 index vs Energy; sx3 index ; Energy", 24 * 12, 0, 24 * 12, 400, 0, 5000);
hsx3IndexVE_gm = new TH2F("hsx3IndexVE_cal", "SX3 index vs Energy (calibrated); SX3 index ; Energy", 24 * 12, 0, 24 * 12, 400, 0, 5000);
hsx3E_raw = new TH1F("hsx3E_raw", "SX3 Back Energy (raw); Energy (arb); Counts", 4000, 0, 16000);
hsx3E_calib = new TH1F("hsx3E_calib", "SX3 Back Energy (gm); Energy (kev); Counts", 4000, 0, 16000);
hqqqIndexVE = new TH2F("hqqqIndexVE", "QQQ index vs Energy; QQQ index ; Energy", 4 * 2 * 16, 0, 4 * 2 * 16, 400, 0, 5000);
hqqqIndexVE_gm = new TH2F("hqqqIndexVE_cal", "QQQ index vs Energy (calibrated); QQQ index ; Energy", 4 * 2 * 16, 0, 4 * 2 * 16, 400, 0, 5000);
hsx3Coin = new TH2F("hsx3Coin", "SX3 Coincident", 24 * 12, 0, 24 * 12, 24 * 12, 0, 24 * 12);
hqqqCoin = new TH2F("hqqqCoin", "QQQ Coincident", 4 * 2 * 16, 0, 4 * 2 * 16, 4 * 2 * 16, 0, 4 * 2 * 16);
hqqqPolar = new TH2F("hqqqPolar", "QQQ Polar ID", 16 * 4, -TMath::Pi(), TMath::Pi(), 16, 10, 50);
sx3_contr.ConstructGeo();
pw_contr.ConstructGeo();
// ----------------------- Load Back Gains
{
std::string filename = "sx3_GainMatchback.txt";
std::ifstream infile(filename);
if (!infile.is_open())
{
std::cerr << "Error opening " << filename << "!" << std::endl;
}
else
{
int id, bk;
double gain;
while (infile >> id >> bk >> gain)
{
backGain[id][bk] = gain;
backGainValid[id][bk] = (gain > 0);
}
infile.close();
std::cout << "Loaded back gains from " << filename << std::endl;
}
}
// ----------------------- Load Front Gains
{
std::string filename = "sx3_GainMatchfront.txt";
std::ifstream infile(filename);
if (!infile.is_open())
{
std::cerr << "Error opening " << filename << "!" << std::endl;
}
else
{
int id, bk, u, d;
double gain;
while (infile >> id >> bk >> u >> d >> gain)
{
frontGain[id][bk][u][d] = gain;
frontGainValid[id][bk][u][d] = (gain > 0);
}
infile.close();
std::cout << "Loaded front gains from " << filename << std::endl;
}
}
// ----------------------- Load QQQ Gains // ----------------------- Load QQQ Gains
{ {
std::string filename = "qqq_GainMatch.txt"; std::string filename = "qqq_GainMatch.txt";
@ -152,22 +54,6 @@ void Calibration::Begin(TTree * /*tree*/)
std::cout << "Loaded QQQ gains from " << filename << std::endl; std::cout << "Loaded QQQ gains from " << filename << std::endl;
} }
} }
for (int id = 0; id < MAX_SX3; id++)
{
for (int bk = 0; bk < MAX_BK; bk++)
{
for (int up = 0; up < MAX_UP; up++)
{
for (int dn = 0; dn < MAX_DOWN; dn++)
{
TString hname = Form("hCal_id%d_bk%d_up%d_dn%d", id, bk, up, dn);
TString htitle = Form("SX3 id%d bk%d up%d dn%d; Energy (arb); Counts", id, bk, up, dn);
hSX3Spectra[id][bk][up][dn] = new TH1F(hname, htitle, 4000, 0, 16000);
}
}
}
}
for (int det = 0; det < MAX_QQQ; det++) for (int det = 0; det < MAX_QQQ; det++)
{ {
for (int ring = 0; ring < MAX_RING; ring++) for (int ring = 0; ring < MAX_RING; ring++)
@ -176,210 +62,76 @@ void Calibration::Begin(TTree * /*tree*/)
{ {
TString hname = Form("hCal_qqq%d_ring%d_wedge%d", det, ring, wedge); TString hname = Form("hCal_qqq%d_ring%d_wedge%d", det, ring, wedge);
TString htitle = Form("QQQ det%d ring%d wedge%d; Energy (arb); Counts", det, ring, wedge); TString htitle = Form("QQQ det%d ring%d wedge%d; Energy (arb); Counts", det, ring, wedge);
hQQQSpectra[det][ring][wedge] = new TH1F(hname, htitle, 4000, 0, 16000); // hQQQSpectra[det][ring][wedge] = new TH1F(hname, htitle, 4000, 0, 16000);
} }
} }
} }
SX3 sx3_contr;
} }
Bool_t Calibration::Process(Long64_t entry) Bool_t Calibration::Process(Long64_t entry)
{ {
hitPos.Clear();
HitNonZero = false;
// Load branches
b_sx3Multi->GetEntry(entry);
b_sx3ID->GetEntry(entry);
b_sx3Ch->GetEntry(entry);
b_sx3E->GetEntry(entry);
b_sx3T->GetEntry(entry);
b_qqqMulti->GetEntry(entry); b_qqqMulti->GetEntry(entry);
b_qqqID->GetEntry(entry); b_qqqID->GetEntry(entry);
b_qqqCh->GetEntry(entry); b_qqqCh->GetEntry(entry);
b_qqqE->GetEntry(entry); b_qqqE->GetEntry(entry);
b_qqqT->GetEntry(entry); b_qqqT->GetEntry(entry);
b_pcMulti->GetEntry(entry);
b_pcID->GetEntry(entry);
sx3.CalIndex();
qqq.CalIndex(); qqq.CalIndex();
pc.CalIndex();
// ########################################################### Raw data
sx3ecut = false;
std::vector<std::pair<int, int>> ID; // first = id, 2nd = index
for (int i = 0; i < sx3.multi; i++)
{
ID.emplace_back(sx3.id[i], i);
hsx3IndexVE->Fill(sx3.index[i], sx3.e[i]);
if (sx3.e[i] > 100)
sx3ecut = true;
for (int j = i + 1; j < sx3.multi; j++)
hsx3Coin->Fill(sx3.index[i], sx3.index[j]);
}
// --- SX3 safe handling ---
if (!ID.empty())
{
std::sort(ID.begin(), ID.end(), [](auto &a, auto &b)
{ return a.first < b.first; });
std::vector<std::pair<int, int>> sx3ID;
sx3ID.push_back(ID[0]);
bool found = false;
for (size_t i = 1; i < ID.size(); i++)
{
if (ID[i].first == sx3ID.back().first)
{
sx3ID.push_back(ID[i]);
if (sx3ID.size() >= 3)
found = true;
}
else
{
if (!found)
{
sx3ID.clear();
sx3ID.push_back(ID[i]);
}
}
}
if (found)
{
int sx3ChUp = -1, sx3ChDn = -1, sx3ChBk = -1;
float sx3EUp = 0.0f, sx3EDn = 0.0f, sx3EBk = 0.0f;
for (size_t i = 0; i < sx3ID.size(); i++)
{
int index = sx3ID[i].second;
if (sx3.ch[index] < 8)
{
if ((sx3.ch[index] % 2) == 0) // even -> down
{
sx3ChDn = sx3.ch[index];
sx3EDn = sx3.e[index];
}
else // odd -> up
{
sx3ChUp = sx3.ch[index];
sx3EUp = sx3.e[index];
}
}
else
{
sx3ChBk = sx3.ch[index];
sx3EBk = sx3.e[index];
}
bool haveFrontPair = (sx3ChUp >= 0 || sx3ChDn >= 0);
bool haveBack = (sx3ChBk >= 0);
double GM_EUp = 0.0, GM_EDn = 0.0, calibEBack = 0.0;
if (haveBack)
{
// --- ALWAYS fill raw ADC for diagnostics
// (temporarily use the existing spectrum to confirm fills)
// If you don't want raw values mixed with calibrated later, create a separate _raw array.
hSX3Spectra[sx3ID[i].first][sx3ChBk][sx3ChUp][sx3ChDn]->Fill(sx3EUp);
// --- If gain is available, also fill calibrated energy
if (frontGainValid[sx3ID[i].first][sx3ChBk][sx3ChUp][sx3ChDn])
{
GM_EUp = frontGain[sx3ID[i].first][sx3ChBk][sx3ChUp][sx3ChDn] * sx3EUp;
if (GM_EUp > 50.0)
hSX3Spectra[sx3ID[i].first][sx3ChBk][sx3ChUp][sx3ChDn]->Fill(GM_EUp); // optional: mixes raw+calib
}
// --- If back gain is available, also fill calibrated energy
hsx3E_raw->Fill(sx3EBk);
if (backGainValid[sx3ID[i].first][sx3ChBk])
{
calibEBack = backGain[sx3ID[i].first][sx3ChBk] * sx3EBk;
if (calibEBack > 50.0)
hsx3E_calib->Fill(calibEBack); // optional: mixes raw+calib
}
// Keep the other diagnostic plots
hsx3IndexVE_gm->Fill(sx3.index[sx3ID[i].second], GM_EUp);
hSX3->Fill(sx3ChDn + 4, sx3ChBk);
hSX3->Fill(sx3ChUp, sx3ChBk);
hSX3FvsB->Fill(sx3EUp + sx3EDn, sx3EBk);
if (GM_EUp > 50.0 && sx3EBk > 50.0)
{
sx3_contr.CalSX3Pos(sx3ID[i].first, sx3ChUp, sx3ChDn, sx3ChBk, GM_EUp, sx3EDn);
hitPos = sx3_contr.GetHitPos();
HitNonZero = true;
}
}
}
}
}
// ======================= QQQ =======================
for (int i = 0; i < qqq.multi; i++) for (int i = 0; i < qqq.multi; i++)
{ {
int det = qqq.id[i];
if (qqq.e[i] > 100)
qqqEcut = true;
for (int j = 0; j < qqq.multi; j++)
{
if (j == i)
continue;
hqqqCoin->Fill(qqq.index[i], qqq.index[j]);
}
for (int j = i + 1; j < qqq.multi; j++) for (int j = i + 1; j < qqq.multi; j++)
{ {
if (qqq.e[i] > 100)
qqqEcut = true;
if (qqq.id[i] == qqq.id[j]) if (qqq.id[i] == qqq.id[j])
{ {
int chWedge = -1, chRing = -1; int chWedge = -1;
if (qqq.ch[i] < qqq.ch[j]) int chRing = -1;
float eWedgeRaw = 0.0;
float eWedge = 0.0;
float eRingRaw = 0.0;
float eRing = 0.0;
if (qqq.ch[i] < 16 && qqq.ch[j] >= 16 && qqqGainValid[qqq.id[i]][qqq.ch[i]][qqq.ch[j] - 16])
{ {
chRing = qqq.ch[j] - 16;
chWedge = qqq.ch[i]; chWedge = qqq.ch[i];
eWedgeRaw = qqq.e[i];
eWedge = qqq.e[i] * qqqGain[qqq.id[i]][qqq.ch[i]][qqq.ch[j] - 16];
printf("Wedge E: %.2f Gain: %.4f \n", eWedge, qqqGain[qqq.id[i]][qqq.ch[i]][qqq.ch[j] - 16]);
chRing = qqq.ch[j] - 16;
eRingRaw = qqq.e[j];
eRing = qqq.e[j]; //*qqqGain[qqq.id[j]][qqq.ch[j]][qqq.ch[i]-16];
}
else if (qqq.ch[j] < 16 && qqq.ch[i] >= 16 && qqqGainValid[qqq.id[j]][qqq.ch[j]][qqq.ch[i] - 16])
{
chWedge = qqq.ch[j];
eWedge = qqq.e[j] * qqqGain[qqq.id[j]][qqq.ch[j]][qqq.ch[i] - 16];
eWedgeRaw = qqq.e[j];
chRing = qqq.ch[i] - 16;
eRing = qqq.e[i] * qqqGain[qqq.id[i]][qqq.ch[i]][qqq.ch[j] - 16];
eRingRaw = qqq.e[i];
} }
else else
continue;
// hQQQFVB->Fill(eWedge, eRing);
// plotter->Fill2D(Form("hRaw_qqq%d_ring%d_wedge%d", qqq.id[i], chRing, chWedge),400,0,16000,400,0,16000, eWedgeRaw, eRingRaw,"ERaw");
plotter->Fill2D("hRawQQQ", 4000, 0, 16000, 4000, 0, 16000, eWedgeRaw, eRingRaw);
plotter->Fill2D("hGMQQQ", 4000, 0, 16000, 4000, 0, 16000, eWedge, eRing);
TString histName = Form("hQQQFVB_id%d_r%d_w%d", qqq.id[i], chRing, chWedge);
TH2F *hist2d = (TH2F *)gDirectory->Get(histName);
if (!hist2d)
{ {
chRing = qqq.ch[i]; hist2d = new TH2F(histName, Form("QQQ Det%d R%d W%d;Wedge E;Ring E", qqq.id[i], chRing, chWedge), 400, 0, 16000, 400, 0, 16000);
chWedge = qqq.ch[j] - 16;
} }
double Ecal = qqq.e[i]; hist2d->Fill(eWedge, eRing);
if (det >= 0 && det < MAX_QQQ && if (cut && cut->IsInside(eWedge, eRing))
chRing >= 0 && chRing < MAX_RING &&
chWedge >= 0 && chWedge < MAX_WEDGE)
{ {
// ALWAYS fill raw energy for diagnostics // Accumulate data for gain matching
hQQQSpectra[det][chRing][chWedge]->Fill(qqq.e[i]); dataPoints[{qqq.id[i], chRing, chWedge}].emplace_back(eWedge, eRing);
// If calibrated gain is present, also fill calibrated energy
if (qqqGainValid[det][chRing][chWedge])
{
double Ecal = qqq.e[i] * qqqGain[det][chRing][chWedge];
hQQQSpectra[det][chRing][chWedge]->Fill(Ecal); // optional: mixes raw+calib
}
}
hqqqIndexVE_gm->Fill(qqq.index[i], Ecal);
hqqqIndexVE->Fill(qqq.index[i], qqq.e[i]);
double theta = -TMath::Pi() / 2 + 2 * TMath::Pi() / 16 / 4. * (qqq.id[i] * 16 + chWedge + 0.5);
double rho = 50. + 40. / 16. * (chRing + 0.5);
hqqqPolar->Fill(theta, rho);
if (!HitNonZero)
{
double x = rho * TMath::Cos(theta);
double y = rho * TMath::Sin(theta);
hitPos.SetXYZ(x, y, 23 + 75 + 30);
HitNonZero = true;
} }
} }
} }
@ -387,77 +139,83 @@ Bool_t Calibration::Process(Long64_t entry)
return kTRUE; return kTRUE;
} }
void Calibration::Terminate() void Calibration::Terminate()
{ {
const double AM241_ALPHA = 5486.0; // keV const int MAX_DET = 4;
const int MAX_RING = 16;
const int MAX_WEDGE = 16;
// ----------------------- Summary Plots const double AM241_PEAK = 5485.56; // keV
TH2F *hSX3Summary = new TH2F("hSX3Summary", "SX3 Channel Means;Channel Index;Mean (ADC)", double calibArray[MAX_DET][MAX_RING][MAX_WEDGE] = {{{0}}};
MAX_SX3 * MAX_BK * MAX_UP * MAX_DOWN, 0, MAX_SX3 * MAX_BK * MAX_UP * MAX_DOWN, bool calibValid[MAX_DET][MAX_RING][MAX_WEDGE] = {{{false}}};
200, 0, 10000);
TH2F *hQQQSummary = new TH2F("hQQQSummary", "QQQ Channel Means;Channel Index;Mean (ADC)", std::ofstream outFile("qqq_Calib.txt");
MAX_QQQ * MAX_RING * MAX_WEDGE, 0, MAX_QQQ * MAX_RING * MAX_WEDGE, if (!outFile.is_open())
200, 0, 10000);
// ----------------------- SX3 Calibration (quick check with mean)
for (int id = 0; id < MAX_SX3; id++)
{ {
for (int bk = 0; bk < MAX_BK; bk++) std::cerr << "Error opening output file!" << std::endl;
return;
}
for (const auto &kv : dataPoints)
{
auto [id, ring, wedge] = kv.first;
const auto &pts = kv.second;
if (pts.size() < 5)
continue;
std::vector<double> wE, rE;
for (const auto &pr : pts)
{ {
for (int up = 0; up < MAX_UP; up++) wE.push_back(pr.first);
rE.push_back(pr.second);
}
TGraph g(wE.size(), wE.data(), rE.data());
TF1 f("f", "[0]*x", 0, 16000);
g.Fit(&f, "QNR");
calibArray[id][ring][wedge] = f.GetParameter(0);
calibValid[id][ring][wedge] = true;
}
for (int id = 0; id < MAX_DET; ++id)
{
for (int ring = 0; ring < MAX_RING; ++ring)
{
for (int wedge = 0; wedge < MAX_WEDGE; ++wedge)
{ {
for (int dn = 0; dn < MAX_DOWN; dn++) if (calibValid[id][ring][wedge])
{ {
TH1F *hSpec = hSX3Spectra[id][bk][up][dn]; outFile << id << " " << wedge << " " << ring << " " << calibArray[id][ring][wedge] << std::endl;
if (!hSpec || hSpec->GetEntries() < 200) printf("Gain match Det%d Ring%d Wedge%d → %.4f \n", id, ring, wedge, calibArray[id][ring][wedge]);
continue;
double mean = hSpec->GetMean();
int sx3Index = (((id * MAX_BK + bk) * MAX_UP + up) * MAX_DOWN + dn);
hSX3Summary->Fill(sx3Index, mean);
std::cout << Form("SX3 id%d bk%d up%d dn%d → mean %.1f",
id, bk, up, dn, mean)
<< std::endl;
} }
} }
} }
} }
// ----------------------- QQQ Calibration (quick check with mean) outFile.close();
for (int det = 0; det < MAX_QQQ; det++) std::cout << "Gain matching complete." << std::endl;
// === Plot all gain-matched QQQ points together with a 2D histogram ===
TH2F *hAll = new TH2F("hAll", "All QQQ Gain-Matched;Corrected Wedge E;Ring E",
800, 0, 16000, 800, 0, 16000);
// Fill the combined TH2F with corrected data
for (auto &kv : dataPoints)
{ {
for (int ring = 0; ring < MAX_RING; ring++) int id, ring, wedge;
std::tie(id, ring, wedge) = kv.first;
if (!calibValid[id][ring][wedge])
continue;
auto &pts = kv.second;
for (auto &pr : pts)
{ {
for (int wedge = 0; wedge < MAX_WEDGE; wedge++) double corrWedge = pr.first * calibArray[id][ring][wedge];
{ double corrRing = pr.second * calibArray[id][ring][wedge];
TH1F *hSpec = hQQQSpectra[det][ring][wedge]; printf("here: WedgeE: %.2f RingE: %.2f \n", corrWedge, corrRing);
if (!hSpec || hSpec->GetEntries() < 200) hAll->Fill(corrWedge, corrRing);
continue; plotter->Fill2D("hAll", 800, 0, 16000, 800, 0, 16000, corrWedge, corrRing); // Create the histogram in the plotter
double mean = hSpec->GetMean();
int qqqIndex = ((det * MAX_RING + ring) * MAX_WEDGE + wedge);
hQQQSummary->Fill(qqqIndex, mean);
std::cout << Form("QQQ det%d ring%d wedge%d → mean %.1f",
det, ring, wedge, mean)
<< std::endl;
}
} }
} }
plotter->FlushToDisk();
// ----------------------- Draw Summary
TCanvas *cSum = new TCanvas("cSum", "Calibration Summary (Means)", 1200, 600);
cSum->Divide(2, 1);
cSum->cd(1);
hSX3Summary->Draw("COLZ");
cSum->cd(2);
hQQQSummary->Draw("COLZ");
cSum->Update();
} }

4
GainMatchQQQ.C
View File

@ -25,7 +25,7 @@ void GainMatchQQQ::Begin(TTree * /*tree*/)
{ {
TString option = GetOption(); TString option = GetOption();
hQQQFVB = new TH2F("hQQQFVB", "QQQ Front vs Back; Front E; Back E", 400, 0, 16000, 400, 0, 16000); hQQQFVB = new TH2F("hQQQFVB", "QQQ Front vs Back; Front E; Back E", 800, 0, 16000, 800, 0, 16000);
// Load the TCutG object // Load the TCutG object
@ -160,7 +160,7 @@ void GainMatchQQQ::Terminate()
// === Plot all gain-matched QQQ points together with a 2D histogram === // === Plot all gain-matched QQQ points together with a 2D histogram ===
TH2F *hAll = new TH2F("hAll", "All QQQ Gain-Matched;Corrected Wedge E;Ring E", TH2F *hAll = new TH2F("hAll", "All QQQ Gain-Matched;Corrected Wedge E;Ring E",
400, 0, 16000, 400, 0, 16000); 800, 0, 16000, 800, 0, 16000);
// Fill the combined TH2F with corrected data // Fill the combined TH2F with corrected data
for (auto &kv : dataPoints) for (auto &kv : dataPoints)

36
GainMatchSX3.C
View File

@ -39,13 +39,12 @@ const int MAX_BK = 4;
double frontGainUp[MAX_DET][MAX_BK][MAX_UP][MAX_DOWN] = {{{{0}}}}; double frontGainUp[MAX_DET][MAX_BK][MAX_UP][MAX_DOWN] = {{{{0}}}};
double frontGainDown[MAX_DET][MAX_BK][MAX_UP][MAX_DOWN] = {{{{0}}}}; double frontGainDown[MAX_DET][MAX_BK][MAX_UP][MAX_DOWN] = {{{{0}}}};
bool frontGainValid[MAX_DET][MAX_BK][MAX_UP][MAX_DOWN] = {{{{false}}}}; bool frontGainValid[MAX_DET][MAX_BK][MAX_UP][MAX_DOWN] = {{{{false}}}};
TCanvas c("canvas","canvas", 800, 600); TCanvas c("canvas", "canvas", 800, 600);
// ==== Configuration Flags ==== // ==== Configuration Flags ====
const bool interactiveMode = true; // If true: show canvas + wait for user const bool interactiveMode = true; // If true: show canvas + wait for user
const bool verboseFit = true; // If true: print fit summary and chi² const bool verboseFit = true; // If true: print fit summary and chi²
const bool drawCanvases = true; // If false: canvases won't be drawn at all const bool drawCanvases = true; // If false: canvases won't be drawn at all
// HistPlotter plotter("SX3GainMatchBack.root"); // HistPlotter plotter("SX3GainMatchBack.root");
@ -91,8 +90,8 @@ void GainMatchSX3::Begin(TTree * /*tree*/)
// plotter.ReadCuts("cuts.txt"); // plotter.ReadCuts("cuts.txt");
std::string filename = "sx3_GainMatchfront0.txt"; std::string filename = "sx3_GainMatchfront.txt";
//std::string filename = "sx3_GainMatchfront.txt"; // std::string filename = "sx3_GainMatchfront.txt";
std::ifstream infile(filename); std::ifstream infile(filename);
if (!infile.is_open()) if (!infile.is_open())
@ -102,12 +101,19 @@ void GainMatchSX3::Begin(TTree * /*tree*/)
} }
int id, bk, u, d; int id, bk, u, d;
double gainup,gaindown; double gainup, gaindown;
while (infile >> id >> bk >> u >> d >> gainup >> gaindown) while (infile >> id >> bk >> u >> d >> gainup >> gaindown)
{ {
frontGainUp[id][bk][u][d] = gainup; frontGainUp[id][bk][u][d] = gainup;
frontGainDown[id][bk][u][d] = gaindown; frontGainDown[id][bk][u][d] = gaindown;
frontGainValid[id][bk][u][d] = true; frontGainValid[id][bk][u][d] = true;
if(frontGainValid[id][bk][u][d]) {
// std::cout << "Loaded front gain for Det" << id << " Bk" << bk << " U" << u << " D" << d
// << ": Up=" << gainup << ", Down=" << gaindown << std::endl;
}
else {
std::cout << "No valid front gain for Det" << id << " Bk" << bk << " U" << u << " D" << d << std::endl;
}
} }
} }
@ -212,8 +218,7 @@ Bool_t GainMatchSX3::Process(Long64_t entry)
sx3EBk = sx3.e[index]; sx3EBk = sx3.e[index];
} }
} }
sx3EUp*=frontGainUp[sx3ID[i].first][sx3ChBk][sx3ChUp / 2][sx3ChDn / 2];
sx3EDn*=frontGainDown[sx3ID[i].first][sx3ChBk][sx3ChUp / 2][sx3ChDn / 2];
} }
// Only if we found all three channels do we proceed // Only if we found all three channels do we proceed
if (sx3ChUp >= 0 && sx3ChDn >= 0 && sx3ChBk >= 0) if (sx3ChUp >= 0 && sx3ChDn >= 0 && sx3ChBk >= 0)
@ -222,6 +227,17 @@ Bool_t GainMatchSX3::Process(Long64_t entry)
hSX3->Fill(sx3ChDn + 4, sx3ChBk); hSX3->Fill(sx3ChDn + 4, sx3ChBk);
hSX3->Fill(sx3ChUp, sx3ChBk); hSX3->Fill(sx3ChUp, sx3ChBk);
hSX3FvsB->Fill(sx3EUp + sx3EDn, sx3EBk); hSX3FvsB->Fill(sx3EUp + sx3EDn, sx3EBk);
if (frontGainValid[sx3ID[0].first][sx3ChBk][sx3ChUp / 2][sx3ChDn / 2])
{
sx3EUp *= frontGainUp[sx3ID[0].first][sx3ChBk][sx3ChUp / 2][sx3ChDn / 2];
sx3EDn *= frontGainDown[sx3ID[0].first][sx3ChBk][sx3ChUp / 2][sx3ChDn / 2];
}
else
{
// printf("No front gain for Det%d Bk%d U%d D%d\n", sx3ID[0].first, sx3ChBk, sx3ChUp / 2, sx3ChDn / 2);
sx3EUp = sx3EDn = 0.;
}
// plotter.Fill2D("hSX3F", 400, 0, 16000, 400, 0, 16000, sx3EUp + sx3EDn, sx3EBk); // plotter.Fill2D("hSX3F", 400, 0, 16000, 400, 0, 16000, sx3EUp + sx3EDn, sx3EBk);
// Pick detector ID from one of the correlated hits (all same detector) // Pick detector ID from one of the correlated hits (all same detector)
@ -254,7 +270,6 @@ Bool_t GainMatchSX3::Process(Long64_t entry)
hist2d->Fill(sx3EUp + sx3EDn, sx3EBk); hist2d->Fill(sx3EUp + sx3EDn, sx3EBk);
hist2d1->Fill((sx3EUp - sx3EDn) / (sx3EUp + sx3EDn), sx3EBk); hist2d1->Fill((sx3EUp - sx3EDn) / (sx3EUp + sx3EDn), sx3EBk);
} }
} }
} }
@ -268,7 +283,7 @@ void GainMatchSX3::Terminate()
double backSlope[MAX_DET][MAX_BK] = {{0}}; double backSlope[MAX_DET][MAX_BK] = {{0}};
bool backSlopeValid[MAX_DET][MAX_BK] = {{false}}; bool backSlopeValid[MAX_DET][MAX_BK] = {{false}};
std::ofstream outFile("sx3_BackGains1.txt"); std::ofstream outFile("sx3_BackGains0.txt");
if (!outFile.is_open()) if (!outFile.is_open())
{ {
std::cerr << "Error opening sx3_BackGains.txt for writing!" << std::endl; std::cerr << "Error opening sx3_BackGains.txt for writing!" << std::endl;
@ -377,7 +392,6 @@ void GainMatchSX3::Terminate()
TH2F *hAsymUnorm = new TH2F("hAsymUnorm", "Up vs Dn;Up E;Dn E", TH2F *hAsymUnorm = new TH2F("hAsymUnorm", "Up vs Dn;Up E;Dn E",
800, 0.0, 4000.0, 800, 0.0, 4000.0); 800, 0.0, 4000.0, 800, 0.0, 4000.0);
// Fill histograms using corrected back energies // Fill histograms using corrected back energies
for (const auto &kv : dataPoints) for (const auto &kv : dataPoints)
{ {

16
sx3_GainMatchfront.txt
View File

@ -1,8 +1,8 @@
3 0 1 1 -0.852399 0.881228 3 0 1 1 0.852399 0.881228
3 0 2 2 -0.813845 0.975967 3 0 2 2 0.813845 0.975967
3 0 3 3 -0.859643 0.863715 3 0 3 3 0.859643 0.863715
3 1 1 1 -0.76728 0.942438 3 1 1 1 0.76728 0.942438
3 1 2 2 -0.780302 0.929008 3 1 2 2 0.780302 0.929008
3 2 2 2 -0.729082 1.02005 3 2 2 2 0.729082 1.02005
3 3 2 2 -0.759098 1.05376 3 3 2 2 0.759098 1.05376
3 3 3 3 -0.821183 0.952335 3 3 3 3 0.821183 0.952335