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Please consider the following formatting changes to #5267 #22

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Mar 20, 2024
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Please consider the following formatting changes to #5267 #22

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288 changes: 152 additions & 136 deletions PWGUD/Core/SGSelector.h
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Original file line number Diff line number Diff line change
Expand Up @@ -20,153 +20,169 @@
#include "PWGUD/Core/UDHelpers.h"
#include "PWGUD/Core/SGCutParHolder.h"

template<typename BC>
template <typename BC>
struct SelectionResult {
int value; // The original integer return value
BC* bc; // Pointer to the BC object
BC* bc; // Pointer to the BC object
};

class SGSelector {
public:
SGSelector() : fPDG(TDatabasePDG::Instance()) {}
class SGSelector
{
public:
SGSelector() : fPDG(TDatabasePDG::Instance()) {}

template <typename CC, typename BCs, typename TCs, typename FWs>
int Print(SGCutParHolder diffCuts, CC& collision, BCs& bcRange, TCs& tracks, FWs& fwdtracks) {
LOGF(info, "Size of array %i", collision.size());
return 1;
}
template <typename CC, typename BCs, typename TCs, typename FWs>
int Print(SGCutParHolder diffCuts, CC& collision, BCs& bcRange, TCs& tracks, FWs& fwdtracks)
{
LOGF(info, "Size of array %i", collision.size());
return 1;
}

template <typename CC, typename BCs, typename BC>
SelectionResult<BC> IsSelected(SGCutParHolder diffCuts, CC& collision, BCs& bcRange, BC& oldbc) {
// LOGF(info, "Collision %f", collision.collisionTime());
// LOGF(info, "Number of close BCs: %i", bcRange.size());
SelectionResult<BC> result;
result.bc = &oldbc;
if (collision.numContrib() < diffCuts.minNTracks() || collision.numContrib() > diffCuts.maxNTracks()) {
result.value= 4;
return result;
template <typename CC, typename BCs, typename BC>
SelectionResult<BC> IsSelected(SGCutParHolder diffCuts, CC& collision, BCs& bcRange, BC& oldbc)
{
// LOGF(info, "Collision %f", collision.collisionTime());
// LOGF(info, "Number of close BCs: %i", bcRange.size());
SelectionResult<BC> result;
result.bc = &oldbc;
if (collision.numContrib() < diffCuts.minNTracks() || collision.numContrib() > diffCuts.maxNTracks()) {
result.value = 4;
return result;
}
auto newbc = oldbc;
auto newznabc = oldbc;
auto newzncbc = oldbc;
bool gA = true, gC = true;
bool gzA = true, gzC = true;
for (auto const& bc : bcRange) {
if (!udhelpers::cleanFITA(bc, diffCuts.maxFITtime(), diffCuts.FITAmpLimits())) {
if (gA)
newbc = bc;
if (!gA && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC() - oldbc.globalBC())))
newbc = bc;
gA = false;
}
if (!udhelpers::cleanFITC(bc, diffCuts.maxFITtime(), diffCuts.FITAmpLimits())) {
if (gC)
newbc = bc;
if (!gC && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC() - oldbc.globalBC())))
newbc = bc;
gC = false;
}
}
if (!gA && !gC) {
result.value = 3;
return result;
}
for (auto const& bc : bcRange) {
if (bc.has_zdc()) {
auto zdc = bc.zdc();
if (std::abs(static_cast<float>(zdc.timeZNA())) < 2 && zdc.energyCommonZNA() > 0) {
if (gzA) {
newznabc = bc;
}
if (!gzA && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newznabc.globalBC() - oldbc.globalBC()))) {
newznabc = bc;
}
gzA = false;
}
if (std::abs(static_cast<float>(zdc.timeZNC())) < 2 && zdc.energyCommonZNC() > 0) {
if (gzC) {
newzncbc = bc;
}
if (!gzC && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newzncbc.globalBC() - oldbc.globalBC()))) {
newzncbc = bc;
}
gzC = false;
}
}
}
if (gA && gC) {
if (!gzA && !gzC) {
if (std::abs(static_cast<int64_t>(newznabc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newzncbc.globalBC() - oldbc.globalBC()))) {
newzncbc = newznabc;
newbc = newznabc;
} else {
newznabc = newzncbc;
newbc = newzncbc;
}
} else if (!gzA) {
newzncbc = newznabc;
newbc = newznabc;
} else if (!gzC) {
newznabc = newzncbc;
newbc = newzncbc;
}
} else if (!gA) {
if (!gzA) {
if (newbc.globalBC() == newznabc.globalBC()) {
newzncbc = newznabc;
} else if (std::abs(static_cast<int64_t>(newznabc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC() - oldbc.globalBC()))) {
newzncbc = newznabc;
newbc = newznabc;
} else {
newzncbc = newbc;
newznabc = newbc;
}
} else {
newzncbc = newbc;
newznabc = newbc;
}
} else if (!gC) {
if (!gzC) {
if (newbc.globalBC() == newzncbc.globalBC()) {
newznabc = newzncbc;
} else if (std::abs(static_cast<int64_t>(newzncbc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC() - oldbc.globalBC()))) {
newznabc = newzncbc;
newbc = newzncbc;
} else {
newzncbc = newbc;
newznabc = newbc;
}
auto newbc = oldbc;
auto newznabc = oldbc;
auto newzncbc = oldbc;
bool gA = true, gC = true;
bool gzA = true, gzC = true;
for (auto const& bc : bcRange) {
if (!udhelpers::cleanFITA(bc, diffCuts.maxFITtime(), diffCuts.FITAmpLimits())) {
if (gA) newbc = bc;
if (!gA && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC()-oldbc.globalBC()))) newbc = bc;
gA = false;
}
if (!udhelpers::cleanFITC(bc, diffCuts.maxFITtime(), diffCuts.FITAmpLimits())) {
if (gC) newbc = bc;
if (!gC && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC()-oldbc.globalBC()))) newbc = bc;
gC = false;
}
}
if (!gA && !gC){
result.value = 3;
return result;
}
for (auto const& bc : bcRange) {
if (bc.has_zdc()) {
auto zdc = bc.zdc();
if (std::abs(static_cast<float>(zdc.timeZNA())) < 2 && zdc.energyCommonZNA() > 0){
if (gzA) {
newznabc = bc;
}
if (!gzA && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newznabc.globalBC()-oldbc.globalBC()))){
newznabc = bc;
}
gzA = false;
}
if (std::abs(static_cast<float>(zdc.timeZNC())) < 2 && zdc.energyCommonZNC() > 0){
if (gzC){
newzncbc = bc;
}
if (!gzC && std::abs(static_cast<int64_t>(bc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newzncbc.globalBC()-oldbc.globalBC()))){
newzncbc = bc;
}
gzC = false;
}
}
}
if (gA && gC){
if (!gzA && !gzC){
if (std::abs(static_cast<int64_t>(newznabc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newzncbc.globalBC()-oldbc.globalBC()))){
newzncbc = newznabc;
newbc = newznabc;
} else {
newznabc = newzncbc;
newbc = newzncbc;
}
} else if (!gzA){
newzncbc = newznabc;
newbc = newznabc;
} else if (!gzC){
newznabc = newzncbc;
newbc = newzncbc;
}
} else if (!gA){
if (!gzA){
if (newbc.globalBC() == newznabc.globalBC()) {
newzncbc = newznabc;
} else if (std::abs(static_cast<int64_t>(newznabc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC()-oldbc.globalBC()))){
newzncbc = newznabc;
newbc = newznabc;
} else {
newzncbc = newbc;
newznabc = newbc;
}
} else {
newzncbc = newbc;
newznabc = newbc;
}
} else if (!gC){
if (!gzC){
if(newbc.globalBC() == newzncbc.globalBC()){
newznabc = newzncbc;
} else if (std::abs(static_cast<int64_t>(newzncbc.globalBC() - oldbc.globalBC())) < std::abs(static_cast<int64_t>(newbc.globalBC()-oldbc.globalBC()))){
newznabc = newzncbc;
newbc = newzncbc;
} else {
newzncbc = newbc;
newznabc = newbc;
}

} else {
newzncbc = newbc;
newznabc = newbc;
}
}
result.bc = &newbc;
//LOGF(info, "Old BC: %i, New BC: %i",oldbc.globalBC(), newbc.globalBC());
result.value = gA && gC ? 2 : (gA ? 0 : 1);
return result;
}
} else {
newzncbc = newbc;
newznabc = newbc;
}
}
result.bc = &newbc;
// LOGF(info, "Old BC: %i, New BC: %i",oldbc.globalBC(), newbc.globalBC());
result.value = gA && gC ? 2 : (gA ? 0 : 1);
return result;
}
template <typename TFwdTrack>
int FwdTrkSelector(TFwdTrack const& fwdtrack) {
if (fwdtrack.trackType() == 0 || fwdtrack.trackType() == 3) return 1;
else return 0;
int FwdTrkSelector(TFwdTrack const& fwdtrack)
{
if (fwdtrack.trackType() == 0 || fwdtrack.trackType() == 3)
return 1;
else
return 0;
}

template <typename CC>
int trueGap(CC& collision, float fv0_cut, float zdc_cut)
{
int gap = collision.gapSide();
int true_gap = gap;
if (gap == 0) {
if (collision.totalFV0AmplitudeA() > fv0_cut || collision.energyCommonZNA() > zdc_cut)
true_gap = -1;
} else if (gap == 1) {
if (collision.energyCommonZNC() > zdc_cut)
true_gap = -1;
} else if (gap == 2) {
if ((collision.totalFV0AmplitudeA() > fv0_cut || collision.energyCommonZNA() > zdc_cut) && (collision.energyCommonZNC() > zdc_cut))
true_gap = -1;
else if (collision.totalFV0AmplitudeA() > fv0_cut || collision.energyCommonZNA() > zdc_cut)
true_gap = 1;
else if (collision.energyCommonZNC() > zdc_cut)
true_gap = 0;
}
return true_gap;
}

template <typename CC>
int trueGap(CC& collision, float fv0_cut, float zdc_cut){
int gap = collision.gapSide();
int true_gap = gap;
if (gap == 0){
if (collision.totalFV0AmplitudeA() > fv0_cut || collision.energyCommonZNA() > zdc_cut) true_gap = -1;
} else if (gap == 1){
if (collision.energyCommonZNC() > zdc_cut) true_gap = -1;
} else if (gap == 2){
if ((collision.totalFV0AmplitudeA() > fv0_cut || collision.energyCommonZNA() > zdc_cut) && (collision.energyCommonZNC() > zdc_cut)) true_gap = -1;
else if (collision.totalFV0AmplitudeA() > fv0_cut || collision.energyCommonZNA() > zdc_cut) true_gap = 1;
else if (collision.energyCommonZNC() > zdc_cut) true_gap = 0;
}
return true_gap;
}
private:
TDatabasePDG* fPDG;
private:
TDatabasePDG* fPDG;
};

#endif // PWGUD_CORE_SGSELECTOR_H_

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