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eventMixing.cxx
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// Copyright CERN and copyright holders of ALICE O2. This software is
// distributed under the terms of the GNU General Public License v3 (GPL
// Version 3), copied verbatim in the file "COPYING".
//
// See http://alice-o2.web.cern.ch/license for full licensing information.
//
// In applying this license CERN does not waive the privileges and immunities
// granted to it by virtue of its status as an Intergovernmental Organization
// or submit itself to any jurisdiction.
///
/// \brief Example task for event mixing.
/// \author
/// \since
#include "Framework/runDataProcessing.h"
#include "Framework/AnalysisTask.h"
#include "Framework/ASoAHelpers.h"
namespace o2::aod
{
namespace hash
{
DECLARE_SOA_COLUMN(Bin, bin, int);
} // namespace hash
DECLARE_SOA_TABLE(Hashes, "AOD", "HASH", hash::Bin);
using Hash = Hashes::iterator;
} // namespace o2::aod
using namespace o2;
using namespace o2::framework;
using namespace o2::framework::expressions;
using namespace o2::soa;
struct HashTask {
std::vector<float> xBins{-0.060f, -0.620f, -0.064f, 0.066f, 0.068f, 0.070f, 0.072f};
std::vector<float> yBins{-0.300f, -0.301f, -0.320f, 0.330f, 0.340f, 0.350f, 0.360f};
Produces<aod::Hashes> hashes;
// Calculate hash for an element based on 2 properties and their bins.
int getHash(std::vector<float> const& xBins, std::vector<float> const& yBins, float colX, float colY)
{
if (colX < xBins[0] || colY < yBins[0]) {
return -1;
}
for (int i = 1; i < xBins.size(); i++) {
if (colX < xBins[i]) {
for (int j = 1; j < yBins.size(); j++) {
if (colY < yBins[j]) {
return i + j * (xBins.size() + 1);
}
}
return -1;
}
}
return -1;
}
void process(aod::Collisions const& collisions)
{
for (auto& collision : collisions) {
int hash = getHash(xBins, yBins, collision.posX(), collision.posY());
LOGF(info, "Collision: %d (%f, %f, %f) hash: %d", collision.index(), collision.posX(), collision.posY(), collision.posZ(), hash);
hashes(hash);
}
}
};
// Version 1: Using categorised combinations
struct MixedEventsTracks {
o2::framework::expressions::Filter trackFilter = (aod::track::x > -0.8f) && (aod::track::x < 0.8f) && (aod::track::y > 1.0f);
void process(aod::Hashes const& hashes, aod::Collisions& collisions, soa::Filtered<aod::Tracks>& tracks)
{
LOGF(info, "Input data Hashes %d, Collisions %d, filtered Tracks %d ", hashes.size(), collisions.size(), tracks.size());
// grouping of tracks according to collision
collisions.bindExternalIndices(&tracks);
auto tracksTuple = std::make_tuple(tracks);
AnalysisDataProcessorBuilder::GroupSlicer slicer(collisions, tracksTuple);
// Strictly upper categorised collisions
for (auto& [c1, c2] : selfCombinations("fBin", 5, -1, join(hashes, collisions), join(hashes, collisions))) {
LOGF(info, "Collisions bin: %d pair: %d (%f, %f, %f), %d (%f, %f, %f)", c1.bin(), c1.index(), c1.posX(), c1.posY(), c1.posZ(), c2.index(), c2.posX(), c2.posY(), c2.posZ());
auto it1 = slicer.begin();
auto it2 = slicer.begin();
for (auto& slice : slicer) {
if (slice.groupingElement().index() == c1.index()) {
it1 = slice;
break;
}
}
for (auto& slice : slicer) {
if (slice.groupingElement().index() == c2.index()) {
it2 = slice;
break;
}
}
auto tracks1 = std::get<soa::Filtered<aod::Tracks>>(it1.associatedTables());
tracks1.bindExternalIndices(&collisions);
auto tracks2 = std::get<soa::Filtered<aod::Tracks>>(it2.associatedTables());
tracks2.bindExternalIndices(&collisions);
for (auto& [t1, t2] : combinations(CombinationsFullIndexPolicy(tracks1, tracks2))) {
LOGF(info, "Mixed event tracks pair: (%d, %d) from events (%d, %d)", t1.index(), t2.index(), c1.index(), c2.index());
}
}
}
};
struct MixedEventsPartitionedTracks {
Filter trackFilter = (aod::track::x > -0.8f) && (aod::track::x < 0.8f) && (aod::track::y > 1.0f);
using myTracks = soa::Filtered<aod::Tracks>;
Configurable<float> philow{"phiLow", 1.0f, "lowest phi"};
Configurable<float> phiup{"phiUp", 2.0f, "highest phi"};
void process(aod::Hashes const& hashes, aod::Collisions& collisions, myTracks& tracks)
{
collisions.bindExternalIndices(&tracks);
auto tracksTuple = std::make_tuple(tracks);
AnalysisDataProcessorBuilder::GroupSlicer slicer(collisions, tracksTuple);
// Strictly upper categorised collisions
for (auto& [c1, c2] : selfCombinations("fBin", 5, -1, join(hashes, collisions), join(hashes, collisions))) {
//LOGF(info, "Collisions bin: %d pair: %d (%f, %f, %f), %d (%f, %f, %f)", c1.bin(), c1.index(), c1.posX(), c1.posY(), c1.posZ(), c2.index(), c2.posX(), c2.posY(), c2.posZ());
auto it1 = slicer.begin();
auto it2 = slicer.begin();
for (auto& slice : slicer) {
if (slice.groupingElement().index() == c1.index()) {
it1 = slice;
break;
}
}
for (auto& slice : slicer) {
if (slice.groupingElement().index() == c2.index()) {
it2 = slice;
break;
}
}
auto tracks1 = std::get<myTracks>(it1.associatedTables());
tracks1.bindExternalIndices(&collisions);
auto tracks2 = std::get<myTracks>(it2.associatedTables());
tracks2.bindExternalIndices(&collisions);
Partition<myTracks> leftPhi1 = aod::track::phiraw < philow;
leftPhi1.bindTable(tracks1);
Partition<myTracks> leftPhi2 = aod::track::phiraw < philow;
leftPhi2.bindTable(tracks2);
Partition<myTracks> rightPhi1 = aod::track::phiraw >= phiup;
rightPhi1.bindTable(tracks1);
Partition<myTracks> rightPhi2 = aod::track::phiraw >= phiup;
rightPhi2.bindTable(tracks2);
for (auto& [t1, t2] : combinations(CombinationsFullIndexPolicy(leftPhi1, leftPhi2))) {
if (t1.phiraw() >= (float)philow || t2.phiraw() >= (float)philow) {
LOGF(info, "WRONG Mixed event left tracks pair: (%d, %d) from events (%d, %d), phi: (%.3f. %.3f) < %.3f", t1.index(), t2.index(), c1.index(), c2.index(), t1.phiraw(), t2.phiraw(), philow);
}
}
for (auto& [t1, t2] : combinations(CombinationsFullIndexPolicy(rightPhi1, rightPhi2))) {
if (t1.phiraw() < (float)phiup || t2.phiraw() < (float)phiup) {
LOGF(info, "WRONG Mixed event right tracks pair: (%d, %d) from events (%d, %d), phi: (%.3f. %.3f) >= %.3f", t1.index(), t2.index(), c1.index(), c2.index(), t1.phiraw(), t2.phiraw(), phiup);
}
}
}
}
};
// Version 2: Filtering instead of combinations
// Possible only after filters & grouping upgrades
// struct CollisionsFilteringTask {
// Alternatively: filter/partition directly on collisions
// expressions::Filter aod::hash::bin{0} == aod::hash::bin{1};
// Currently multiple grouping and grouping by Joins is not possible
// void process(soa::Filtered<soa::Join<aod::Hashes, aod::Collisions>>::iterator const& hashedCol1, aod::Tracks const& tracks1,
// soa::Filtered<soa::Join<aod::Hashes, aod::Collisions>>::iterator const& hashedCol2, aod::Tracks const& tracks2)
//{
// for (auto& [t1, t2] : combinations(CombinationsFullIndexPolicy(tracks1, tracks2))) {
// LOGF(info, "Mixed event tracks pair: (%d, %d) from events (%d, %d)", t1.index(), t2.index(), hashedCol1.index(), hashedCol2.index());
// }
//}
// };
// What we would like to have
struct MixedEventsTask {
void process(aod::Collision const& col1, aod::Tracks const& tracks1, aod::Collision const& col2, aod::Tracks const& tracks2)
{
for (auto& [t1, t2] : combinations(CombinationsFullIndexPolicy(tracks1, tracks2))) {
LOGF(info, "Mixed event tracks pair: (%d, %d) from events (%d, %d)", t1.index(), t2.index(), col1.index(), col2.index());
}
}
};
WorkflowSpec defineDataProcessing(ConfigContext const& cfgc)
{
return WorkflowSpec{
adaptAnalysisTask<HashTask>(cfgc),
adaptAnalysisTask<MixedEventsTracks>(cfgc),
adaptAnalysisTask<MixedEventsPartitionedTracks>(cfgc),
};
}