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// Copyright 2019-2020 CERN and copyright holders of ALICE O2.
// See https://alice-o2.web.cern.ch/copyright for details of the copyright holders.
// All rights not expressly granted are reserved.
//
// This software is distributed under the terms of the GNU General Public
// License v3 (GPL Version 3), copied verbatim in the file "COPYING".
//
// 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.
#include "Mocking.h"
#include "TestClasses.h"
#include "Framework/AnalysisTask.h"
#include "Framework/AnalysisDataModel.h"
#include <iostream>
#include <catch_amalgamated.hpp>
using namespace o2;
using namespace o2::framework;
namespace o2::aod
{
O2HASH("TestA/0");
namespace test
{
DECLARE_SOA_COLUMN(X, x, float);
DECLARE_SOA_COLUMN(Y, y, float);
DECLARE_SOA_COLUMN(Z, z, float);
DECLARE_SOA_COLUMN(Foo, foo, float);
DECLARE_SOA_COLUMN(Bar, bar, float);
DECLARE_SOA_COLUMN(EventProperty, eventProperty, float);
DECLARE_SOA_DYNAMIC_COLUMN(Sum, sum, [](float x, float y) { return x + y; });
DECLARE_SOA_EXPRESSION_COLUMN(Sqfoo, sqfoo, float, nsqrt(test::foo));
} // namespace test
DECLARE_SOA_TABLE(Foos, "AOD", "FOO",
test::Foo);
DECLARE_SOA_EXTENDED_TABLE(Fooss, Foos, "FOOS", 0, test::Sqfoo);
DECLARE_SOA_TABLE(Bars, "AOD", "BAR",
test::Bar);
DECLARE_SOA_TABLE(FooBars, "AOD", "FOOBAR",
test::Foo, test::Bar,
test::Sum<test::Foo, test::Bar>);
DECLARE_SOA_TABLE(XYZ, "AOD", "XYZ",
test::X, test::Y, test::Z);
DECLARE_SOA_TABLE(Events, "AOD", "EVENTS",
test::EventProperty);
DECLARE_SOA_TABLE(Roots, "AOD", "ROOTS", test::Foo);
namespace idx
{
DECLARE_SOA_INDEX_COLUMN(Root, root);
}
DECLARE_SOA_TABLE(B1s, "AOD", "B1", idx::RootId, test::X);
DECLARE_SOA_TABLE(B2s, "AOD", "B2", idx::RootId, test::Y);
DECLARE_SOA_TABLE(B3s, "AOD", "B3", idx::RootId, test::Z);
namespace idx
{
DECLARE_SOA_INDEX_COLUMN(B1, b1);
DECLARE_SOA_INDEX_COLUMN(B2, b2);
DECLARE_SOA_INDEX_COLUMN(B3, b3);
} // namespace idx
DECLARE_SOA_INDEX_TABLE(Bs, Roots, "BS", idx::RootId, idx::B1Id, idx::B2Id, idx::B3Id);
} // namespace o2::aod
struct ATask {
Produces<aod::FooBars> foobars;
void process(o2::aod::Track const&)
{
}
};
struct ATaskconsumer {
Spawns<aod::Fooss> foos;
Builds<aod::Bs> bs;
void init(InitContext&) {}
};
struct BTask {
void process(o2::aod::Collision const&, o2::soa::Join<o2::aod::Tracks, o2::aod::TracksExtra, o2::aod::TracksCov> const&, o2::aod::AmbiguousTracks const&, o2::aod::Calos const&, o2::aod::CaloTriggers const&)
{
}
};
struct CTask {
void process(o2::aod::Collision const&, o2::aod::Tracks const&)
{
}
};
struct DTask {
void process(o2::aod::Tracks const&)
{
}
};
struct ETask {
void process(o2::aod::FooBars::iterator const& foobar)
{
foobar.sum();
}
};
struct FTask {
expressions::Filter fooFilter = aod::test::foo > 1.;
void process(soa::Filtered<o2::aod::FooBars>::iterator const& foobar)
{
foobar.sum();
}
};
struct GTask {
void process(o2::soa::Join<o2::aod::Foos, o2::aod::Bars, o2::aod::XYZ> const& foobars)
{
for (auto foobar : foobars) {
foobar.x();
foobar.foo();
foobar.bar();
}
}
};
struct HTask {
void process(o2::soa::Join<o2::aod::Foos, o2::aod::Bars, o2::aod::XYZ>::iterator const& foobar)
{
foobar.x();
foobar.foo();
foobar.bar();
}
};
struct ITask {
expressions::Filter flt = aod::test::bar > 0.;
void process(o2::aod::Collision const&, o2::soa::Filtered<o2::soa::Join<o2::aod::Foos, o2::aod::Bars, o2::aod::XYZ>> const& foobars)
{
for (auto foobar : foobars) {
foobar.x();
foobar.foo();
foobar.bar();
}
}
};
struct JTask {
Configurable<o2::test::SimplePODClass> cfg{"someConfigurable", {}, "Some Configurable Object"};
void process(o2::aod::Collision const&)
{
REQUIRE(cfg->x == 1);
}
};
struct TestCCDBObject {
int SomeObject;
};
struct KTask {
struct : public ConfigurableGroup {
std::string prefix = "foo";
Configurable<int> anInt{"someConfigurable", {}, "Some Configurable Object"};
Configurable<int> anotherInt{"someOtherConfigurable", {}, "Some Configurable Object"};
} foo;
Configurable<int> anThirdInt{"someThirdConfigurable", {}, "Some Configurable Object"};
struct : public ConditionGroup {
Condition<TestCCDBObject> test{"path"};
} conditions;
std::unique_ptr<int> someInt;
std::shared_ptr<int> someSharedInt;
};
struct LTask {
SliceCache cache;
Preslice<aod::Tracks> perCol = aod::track::collisionId;
PresliceOptional<aod::Tracks> perPart = aod::mctracklabel::mcParticleId;
PresliceUnsorted<aod::McCollisionLabels> perMcCol = aod::mccollisionlabel::mcCollisionId;
PresliceUnsortedOptional<aod::Collisions> perMcColopt = aod::mccollisionlabel::mcCollisionId;
void process(aod::McCollision const&, soa::SmallGroups<soa::Join<aod::Collisions, aod::McCollisionLabels>> const&) {}
};
struct MTask {
SliceCache cache;
struct : public PresliceGroup {
Preslice<aod::Tracks> perCol = aod::track::collisionId;
PresliceOptional<aod::Tracks> perPart = aod::mctracklabel::mcParticleId;
PresliceUnsorted<aod::McCollisionLabels> perMcCol = aod::mccollisionlabel::mcCollisionId;
PresliceUnsortedOptional<aod::Collisions> perMcColopt = aod::mccollisionlabel::mcCollisionId;
} foo;
void process(aod::McCollision const&, soa::SmallGroups<soa::Join<aod::Collisions, aod::McCollisionLabels>> const&) {}
};
TEST_CASE("AdaptorCompilation")
{
auto cfgc = makeEmptyConfigContext();
REQUIRE(brace_constructible_size<ATask>() == 1);
auto task1ng = adaptAnalysisTask<ATask>(*cfgc, TaskName{"test1"});
REQUIRE(task1ng.inputs.size() == 2);
REQUIRE(task1ng.outputs.size() == 1);
REQUIRE(task1ng.inputs[1].binding == std::string("TracksExtension"));
REQUIRE(task1ng.inputs[0].binding == std::string("Tracks"));
REQUIRE(task1ng.outputs[0].binding.value == std::string("FooBars"));
auto task1ngc = adaptAnalysisTask<ATaskconsumer>(*cfgc);
REQUIRE(task1ngc.inputs.size() == 5);
REQUIRE(task1ngc.inputs[0].binding == "Foos");
REQUIRE(task1ngc.inputs[1].binding == "Roots");
REQUIRE(task1ngc.inputs[2].binding == "B1s");
REQUIRE(task1ngc.inputs[3].binding == "B2s");
REQUIRE(task1ngc.inputs[4].binding == "B3s");
auto task2 = adaptAnalysisTask<BTask>(*cfgc, TaskName{"test2"});
REQUIRE(task2.inputs.size() == 10);
REQUIRE(task2.inputs[2].binding == "TracksExtension");
REQUIRE(task2.inputs[1].binding == "Tracks");
REQUIRE(task2.inputs[4].binding == "TracksExtra_002Extension");
REQUIRE(task2.inputs[3].binding == "TracksExtra");
REQUIRE(task2.inputs[6].binding == "TracksCovExtension");
REQUIRE(task2.inputs[5].binding == "TracksCov");
REQUIRE(task2.inputs[7].binding == "AmbiguousTracks");
REQUIRE(task2.inputs[8].binding == "Calos");
REQUIRE(task2.inputs[9].binding == "CaloTriggers");
REQUIRE(task2.inputs[0].binding == "Collisions_001");
auto task3 = adaptAnalysisTask<CTask>(*cfgc, TaskName{"test3"});
REQUIRE(task3.inputs.size() == 3);
REQUIRE(task3.inputs[0].binding == "Collisions_001");
REQUIRE(task3.inputs[1].binding == "Tracks");
REQUIRE(task3.inputs[2].binding == "TracksExtension");
auto task4 = adaptAnalysisTask<DTask>(*cfgc, TaskName{"test4"});
REQUIRE(task4.inputs.size() == 2);
REQUIRE(task4.inputs[0].binding == "Tracks");
REQUIRE(task4.inputs[1].binding == "TracksExtension");
auto task5 = adaptAnalysisTask<ETask>(*cfgc, TaskName{"test5"});
REQUIRE(task5.inputs.size() == 1);
REQUIRE(task5.inputs[0].binding == "FooBars");
auto task6ng = adaptAnalysisTask<FTask>(*cfgc, TaskName{"test6"});
REQUIRE(task6ng.inputs.size() == 1);
REQUIRE(task6ng.inputs[0].binding == "FooBars");
auto task7ng = adaptAnalysisTask<GTask>(*cfgc, TaskName{"test7"});
REQUIRE(task7ng.inputs.size() == 3);
REQUIRE(task7ng.inputs[0].binding == "Foos");
REQUIRE(task7ng.inputs[1].binding == "Bars");
REQUIRE(task7ng.inputs[2].binding == "XYZ");
auto task8ng = adaptAnalysisTask<HTask>(*cfgc, TaskName{"test8"});
REQUIRE(task8ng.inputs.size() == 3);
auto task9ng = adaptAnalysisTask<ITask>(*cfgc, TaskName{"test9"});
REQUIRE(task9ng.inputs.size() == 4);
auto task10 = adaptAnalysisTask<JTask>(*cfgc, TaskName{"test10"});
REQUIRE(task10.inputs.size() == 1);
auto task11 = adaptAnalysisTask<KTask>(*cfgc, TaskName{"test11"});
REQUIRE(task11.options.size() == 3);
REQUIRE(task11.inputs.size() == 1);
auto task12 = adaptAnalysisTask<LTask>(*cfgc, TaskName{"test12"});
REQUIRE(task12.inputs.size() == 3);
auto task13 = adaptAnalysisTask<MTask>(*cfgc, TaskName{"test13"});
REQUIRE(task13.inputs.size() == 3);
}
TEST_CASE("TestPartitionIteration")
{
TableBuilder builderA;
auto rowWriterA = builderA.persist<float, float>({"fX", "fY"});
rowWriterA(0, 0.0f, 8.0f);
rowWriterA(0, 1.0f, 9.0f);
rowWriterA(0, 2.0f, 10.0f);
rowWriterA(0, 3.0f, 11.0f);
rowWriterA(0, 4.0f, 12.0f);
rowWriterA(0, 5.0f, 13.0f);
rowWriterA(0, 6.0f, 14.0f);
rowWriterA(0, 7.0f, 15.0f);
auto tableA = builderA.finalize();
REQUIRE(tableA->num_rows() == 8);
using TestA = soa::InPlaceTable<"TestA/0"_h, o2::soa::Index<>, aod::test::X, aod::test::Y>;
using FilteredTest = o2::soa::Filtered<TestA>;
using PartitionTest = Partition<TestA>;
using PartitionFilteredTest = Partition<o2::soa::Filtered<TestA>>;
using PartitionNestedFilteredTest = Partition<o2::soa::Filtered<o2::soa::Filtered<TestA>>>;
using namespace o2::framework;
TestA testA{tableA};
PartitionTest p1 = aod::test::x < 4.0f;
p1.bindTable(testA);
REQUIRE(4 == p1.size());
REQUIRE(p1.begin() != p1.end());
auto i = 0;
for (auto& p : p1) {
REQUIRE(i == p.x());
REQUIRE(i + 8 == p.y());
REQUIRE(i == p.index());
i++;
}
REQUIRE(i == 4);
expressions::Filter f1 = aod::test::x < 4.0f;
auto selection = expressions::createSelection(testA.asArrowTable(), f1);
FilteredTest filtered{{testA.asArrowTable()}, o2::soa::selectionToVector(selection)};
PartitionFilteredTest p2 = aod::test::y > 9.0f;
p2.bindTable(filtered);
REQUIRE(2 == p2.size());
i = 0;
for (auto& p : p2) {
REQUIRE(i + 2 == p.x());
REQUIRE(i + 10 == p.y());
REQUIRE(i + 2 == p.index());
i++;
}
REQUIRE(i == 2);
PartitionNestedFilteredTest p3 = aod::test::x < 3.0f;
p3.bindTable(*(p2.mFiltered));
REQUIRE(1 == p3.size());
i = 0;
for (auto& p : p3) {
REQUIRE(i + 2 == p.x());
REQUIRE(i + 10 == p.y());
REQUIRE(i + 2 == p.index());
i++;
}
REQUIRE(i == 1);
}