This is the main feature tool to map material information from a 3D geometry onto the TrackingGeometry with its surface material description.
The process runs as such:
1) TrackingGeometry is parsed and for each Volume with ProtoVolumeMaterial a local store is initialized the identification is done hereby through the Volume::GeometryIdentifier
2) A number of N material tracks is read in, each track has : origin, direction, material steps (< position, step length, x0, l0, a, z, rho >, thichness)
for each track: volume along the origin/direction path are collected. the step are then associated to volume inside which they are. Additional step are created along the track direction.
3) Each ‘hit’ bin per event is counted and averaged at the end of the run
using StraightLinePropagator = Propagator<StraightLineStepper, Navigator>¶
VolumeMaterialMapper() = delete¶
Delete the Default constructor.
VolumeMaterialMapper(const Config &cfg, StraightLinePropagator propagator, std::unique_ptr<const Logger> slogger = getDefaultLogger("VolumeMaterialMapper", Logging::INFO))¶
Constructor with config object.
cfg – Configuration struct
propagator – The straight line propagator
slogger – The logger
State createState(const GeometryContext &gctx, const MagneticFieldContext &mctx, const TrackingGeometry &tGeometry) const¶
helper method that creates the cache for the mapping
This method takes a TrackingGeometry, finds all surfaces with material proxis and returns you a Cache object tO be used
gctx – [in] The geometry context to use
mctx – [in] The magnetic field context to use
tGeometry – [in] The geometry which should be mapped
void finalizeMaps(State &mState) const¶
Method to finalize the maps.
It calls the final run averaging and then transforms the Homogeneous material into HomogeneousVolumeMaterial and the 2D and 3D grid into a InterpolatedMaterialMap
void mapMaterialTrack(State &mState, RecordedMaterialTrack &mTrack) const¶
Process/map a single track.
the RecordedMaterialSlab of the track are assumed to be ordered from the starting position along the starting direction
mState – The current state map
mTrack – The material track to be mapped
Nested Configuration struct for the material mapper.
float mappingStep = 1.¶
Size of the step for the step extrapolation.
- float mappingStep = 1.¶
Nested State struct which is used for the mapping prococess.
inline State(const GeometryContext &gctx, const MagneticFieldContext &mctx)¶
Constructor of the Sate with contexts.
std::reference_wrapper<const GeometryContext> geoContext¶
Reference to the geometry context for the mapping.
std::map<const GeometryIdentifier, Grid2D> grid2D¶
The 2D material grid for each geometry ID.
std::map<const GeometryIdentifier, Grid3D> grid3D¶
The 3D material grid for each geometry ID.
std::map<const GeometryIdentifier, Acts::AccumulatedVolumeMaterial> homogeneousGrid¶
The recorded material per geometry ID.
std::reference_wrapper<const MagneticFieldContext> magFieldContext¶
Reference to the magnetic field context.
std::map<const GeometryIdentifier, BinUtility> materialBin¶
The binning for each geometry ID.
std::map<GeometryIdentifier, std::shared_ptr<const ISurfaceMaterial>> surfaceMaterial¶
The surface material of the input tracking geometry.
std::map<const GeometryIdentifier, std::function<Acts::Vector2(Acts::Vector3)>> transform2D¶
The recorded 2D transform associated the grid for each geometry ID.
std::map<const GeometryIdentifier, std::function<Acts::Vector3(Acts::Vector3)>> transform3D¶
The recorded 3D transform associated the material grid for each geometry ID.
std::map<GeometryIdentifier, std::unique_ptr<const IVolumeMaterial>> volumeMaterial¶
The created volume material from it.
- inline State(const GeometryContext &gctx, const MagneticFieldContext &mctx)¶
- using StraightLinePropagator = Propagator<StraightLineStepper, Navigator>¶