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ExtrapolatorTests.cpp File Reference
#include <boost/test/data/test_case.hpp>
#include <boost/test/tools/output_test_stream.hpp>
#include <boost/test/unit_test.hpp>
#include "Acts/Definitions/Algebra.hpp"
#include "Acts/Definitions/Direction.hpp"
#include "Acts/Definitions/TrackParametrization.hpp"
#include "Acts/Definitions/Units.hpp"
#include "Acts/EventData/GenericCurvilinearTrackParameters.hpp"
#include "Acts/EventData/TrackParameters.hpp"
#include "Acts/Geometry/GeometryContext.hpp"
#include "Acts/MagneticField/ConstantBField.hpp"
#include "Acts/MagneticField/MagneticFieldContext.hpp"
#include "Acts/Propagator/ActionList.hpp"
#include "Acts/Propagator/EigenStepper.hpp"
#include "Acts/Propagator/MaterialInteractor.hpp"
#include "Acts/Propagator/Navigator.hpp"
#include "Acts/Propagator/Propagator.hpp"
#include "Acts/Propagator/StandardAborters.hpp"
#include "Acts/Propagator/SurfaceCollector.hpp"
#include "Acts/Surfaces/Surface.hpp"
#include "Acts/Tests/CommonHelpers/CylindricalTrackingGeometry.hpp"
#include "Acts/Tests/CommonHelpers/FloatComparisons.hpp"
#include "Acts/Utilities/Result.hpp"
#include <algorithm>
#include <array>
#include <cmath>
#include <map>
#include <memory>
#include <optional>
#include <random>
#include <tuple>
#include <utility>
#include <vector>
+ Include dependency graph for ExtrapolatorTests.cpp:

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Classes

struct  Acts::Test::PlaneSelector
 

Namespaces

namespace  Acts
 Acts includes to create all necessary definitions.
 
namespace  Acts::Test
 

Typedefs

using Acts::Test::path_limit = PathLimitReached
 
using Acts::Test::BFieldType = ConstantBField
 
using Acts::Test::EigenStepperType = EigenStepper<>
 
using Acts::Test::EigenPropagatorType = Propagator< EigenStepperType, Navigator >
 

Functions

CylindricalTrackingGeometry Acts::Test::cGeometry (tgContext)
 
Navigator Acts::Test::navigator ({tGeometry})
 
EigenStepperType Acts::Test::estepper (bField)
 
EigenPropagatorType Acts::Test::epropagator (std::move(estepper), std::move(navigator))
 
 Acts::Test::BOOST_DATA_TEST_CASE (test_extrapolation_, bdata::random((bdata::seed=0, bdata::distribution=std::uniform_real_distribution<>(0.4_GeV, 10_GeV)))^bdata::random((bdata::seed=1, bdata::distribution=std::uniform_real_distribution<>(-M_PI, M_PI)))^bdata::random((bdata::seed=2, bdata::distribution=std::uniform_real_distribution<>(1.0, M_PI-1.0)))^bdata::random((bdata::seed=3, bdata::distribution=std::uniform_int_distribution<>(0, 1)))^bdata::random((bdata::seed=4, bdata::distribution=std::uniform_int_distribution<>(0, 100)))^bdata::xrange(ntests), pT, phi, theta, charge, time, index)
 
 Acts::Test::BOOST_DATA_TEST_CASE (test_surface_collection_, bdata::random((bdata::seed=10, bdata::distribution=std::uniform_real_distribution<>(0.4_GeV, 10_GeV)))^bdata::random((bdata::seed=11, bdata::distribution=std::uniform_real_distribution<>(-M_PI, M_PI)))^bdata::random((bdata::seed=12, bdata::distribution=std::uniform_real_distribution<>(1.0, M_PI-1.0)))^bdata::random((bdata::seed=13, bdata::distribution=std::uniform_int_distribution<>(0, 1)))^bdata::random((bdata::seed=14, bdata::distribution=std::uniform_int_distribution<>(0, 100)))^bdata::xrange(ntests), pT, phi, theta, charge, time, index)
 
 Acts::Test::BOOST_DATA_TEST_CASE (test_material_interactor_, bdata::random((bdata::seed=20, bdata::distribution=std::uniform_real_distribution<>(0.4_GeV, 10_GeV)))^bdata::random((bdata::seed=21, bdata::distribution=std::uniform_real_distribution<>(-M_PI, M_PI)))^bdata::random((bdata::seed=22, bdata::distribution=std::uniform_real_distribution<>(1.0, M_PI-1.0)))^bdata::random((bdata::seed=23, bdata::distribution=std::uniform_int_distribution<>(0, 1)))^bdata::random((bdata::seed=24, bdata::distribution=std::uniform_int_distribution<>(0, 100)))^bdata::xrange(ntests), pT, phi, theta, charge, time, index)
 
 Acts::Test::BOOST_DATA_TEST_CASE (loop_protection_test, bdata::random((bdata::seed=20, bdata::distribution=std::uniform_real_distribution<>(0.1_GeV, 0.5_GeV)))^bdata::random((bdata::seed=21, bdata::distribution=std::uniform_real_distribution<>(-M_PI, M_PI)))^bdata::random((bdata::seed=22, bdata::distribution=std::uniform_real_distribution<>(1.0, M_PI-1.0)))^bdata::random((bdata::seed=23, bdata::distribution=std::uniform_int_distribution<>(0, 1)))^bdata::random((bdata::seed=24, bdata::distribution=std::uniform_int_distribution<>(0, 100)))^bdata::xrange(ntests), pT, phi, theta, charge, time, index)
 

Variables

std::vector< std::unique_ptr
< const Surface > > 
Acts::Test::stepState