TGeo plugin connects a geometry described with the
ROOT::Geom module with Acts. This is done by parsing the ROOT geometry and selecting
TGeoNode objects that represent chosen geometrical objects.
Acts detector elements are represented by surfaces with dedicated shapes, hence a conversion of the volume based
TGeoNode description into
Acts::Surface objects needs to take place.
An example use of the
TGeo plugin can be found in the
Parsing the ROOT Geometry¶
Once a geometry is imported in ROOT, it can be accessed via the
Acts::TGeoLayerBuilder, which implements an
Acts::ILayerBuilder, relies on the fact that this
gGeoManager is accessible, if it points to
nullptr, obviously no conversion is done.
Acts::TGeoLayerBuilder can be configured to search within given parsing ranges for
TGeoNode objects to be converted into
Acts::Surface objects. A vector of search strings can be used for situations where multiple sensor types are used or additional objects are bound to be described.
Acts::TGeoParser struct is then used to select the nodes from the ROOT geometry.
Conversion of TGeoShapes to Acts::Surfaces¶
An automatic translation of
TGeoShape objects into corresponding
Acts::Surface objects with appropriate bound descriptions is done by the
There is some limited freedom in re-defining the orientation of the coordinate system between ROOT and Acts which can be used to adapt local coordinate definitions on the converted objects.
This is indicated by the
const std::string& axes argument of the converter.
- The nomenclature/convention is the following:
the resulting local cartesian coordinate system must by right-handed: this is guaranteed by the fact that the third local axis is constructed as a cross product of the first two local axis
defining the new local axes with respect to the
TGeodefinition is done by naming the new axes in order, e.g. an unchanged coordinate system has the tag
XY*, as the third axis is defined by the first two ones
flipping the direction of a axis is done by lower capital, e.g.
yZ*redefines the negative y-axis of the
TGeoMatrixas the (obvisouly) positive x-axis of the
Acts::Transform3and redefines the positive z-axis of the
TGeoMatrixas corresponding y-axis of the
In case a translation request is malformed, a
std::exception is thrown, indicating the problem.
Examples of supported
TGeoShape transformations to
Acts::Surface objects can be found in the
Tests/UnitTests/Plugins/TGeo unit test suite, a summary of the output can be seen below.
Additionally, an option exists to split surfaces after the transformation
has taken place by adding a splitter implementation to the
Acts::TGeoLayerBuilder, like the
Acts::TGeoCylinderDiscSplitter. This can be useful to describe e.g. a cylindrical detector with tangential planar surfaces.