8 #include <tracking/trackFindingCDC/filters/facetRelation/FitFacetRelationVarSet.h>
10 #include <tracking/trackFindingCDC/fitting/FacetFitter.h>
11 #include <tracking/trackFindingCDC/fitting/CDCKarimakiFitter.h>
12 #include <tracking/trackFindingCDC/fitting/CDCObservations2D.h>
14 #include <tracking/trackFindingCDC/eventdata/hits/CDCFacet.h>
15 #include <tracking/trackFindingCDC/eventdata/hits/CDCWireHit.h>
16 #include <tracking/trackFindingCDC/eventdata/trajectories/CDCTrajectory2D.h>
18 #include <tracking/trackFindingCDC/geometry/UncertainParameterLine2D.h>
19 #include <tracking/trackFindingCDC/geometry/LineParameters.h>
20 #include <tracking/trackFindingCDC/geometry/Vector2D.h>
22 #include <tracking/trackFindingCDC/numerics/Angle.h>
25 using namespace TrackFindingCDC;
29 if (not ptrFacetRelation)
return false;
31 const CDCFacet* fromFacet = ptrFacetRelation->first;
32 const CDCFacet* toFacet = ptrFacetRelation->second;
53 var<
named(
"from_middle_cos_delta")>() = fromMiddleCos;
54 var<
named(
"to_middle_cos_delta")>() = toMiddleCos;
61 double s = fitLine->
lengthOnCurve(frontWirePos2D, backWirePos2D);
74 double s = fitLine->
lengthOnCurve(frontWirePos2D, backWirePos2D);
83 double s = fitLine->
lengthOnCurve(frontWirePos2D, backWirePos2D);
92 using namespace NLineParameterIndices;
95 if (not std::isfinite(phi0_var)) {
96 B2INFO(
"from addr " << *fromFacet);
103 if (not std::isfinite(phi0_var)) {
104 B2INFO(
"to addr " << *toFacet);
112 var<
named(
"phi0_ref_sigma")>() =
std::sqrt(fromCov(c_Phi0, c_Phi0) + toCov(c_Phi0, c_Phi0));
116 std::sqrt((toCov(c_Phi0, c_Phi0) + fromCov(c_Phi0, c_Phi0))));
130 std::fabs(relAvgPar(c_Phi0) /
std::sqrt(avgCov(c_Phi0, c_Phi0)));
131 var<
named(
"phi0_comb_diff")>() = relAvgPar(c_Phi0);
138 observations2D.
append(*fromFacet);
139 observations2D.
append(*toFacet);
147 CDCObservations2D observations2D(EFitPos::c_RecoPos, EFitVariance::c_DriftLength);
148 observations2D.
append(*fromFacet);
149 observations2D.
append(*toFacet);
158 observations2D.
append(*fromFacet);
159 observations2D.
append(*toFacet);
168 observations2D.
append(*fromFacet);
169 observations2D.
append(*toFacet);
Class representing a triple of neighboring oriented wire with additional trajectory information.
const UncertainParameterLine2D & getFitLine() const
Getter for the contained line fit information.
ParameterLine2D getStartToEndLine() const
Getter for the tangential line from the first to the third hit.
ParameterLine2D getStartToMiddleLine() const
Getter for the tangential line from the first to the second hit.
ParameterLine2D getMiddleToEndLine() const
Getter for the tangential line from the second to the third hit.
CDCTrajectory2D fit(const CDCObservations2D &observations2D) const
Fits a collection of observation drift circles.
static const CDCKarimakiFitter & getFitter()
Static getter for a general fitter instance with Karimakis method.
Class serving as a storage of observed drift circles to present to the Riemann fitter.
std::size_t append(const CDCWireHit &wireHit, ERightLeft rlInfo=ERightLeft::c_Unknown)
Appends the hit circle at wire reference position without a right left passage hypotheses.
const CDCWireHit & getStartWireHit() const
Getter for the hit wire of the first oriented wire hit.
const CDCWireHit & getEndWireHit() const
Getter for the hit wire of the third oriented wire hit.
Particle trajectory as it is seen in xy projection represented as a circle.
double getChi2() const
Getter for the chi2 value of the circle fit.
double getCurvature() const
Getter for the curvature as seen from the xy projection.
const Vector2D & getRefPos2D() const
The two dimensional reference position (z=0) of the underlying wire.
static double fit(const CDCFacet &facet, int nSteps=100)
Fits a proper line to facet and returns the chi2.
bool extract(const Relation< const CDCFacet > *ptrFacetRelation) final
Generate and assign the contained variables.
const Vector2D & support() const
Gives the support vector of the line.
const Vector2D & tangential() const
Gives the tangential vector of the line.
double lengthOnCurve(const Vector2D &from, const Vector2D &to) const
Denotes the length on the line between the two points.
A matrix implementation to be used as an interface typ through out the track finder.
Type for two related objects.
A parameter line including including an line covariance matrix which is interpreted as located in the...
double chi2() const
Getter for the chi square value of the line fit.
LineParameters lineParameters() const
Getter for the three perigee parameters in the order defined by EPerigeeParameter....
const LineCovariance & lineCovariance() const
Getter for the whole covariance matrix of the line parameters.
constexpr static int named(const char *name)
Getter for the index from the name.
Float_t & var()
Reference getter for the value of the ith variable. Static version.
A two dimensional vector which is equipped with functions for correct handeling of orientation relat...
static Vector2D average(const Vector2D &one, const Vector2D &two)
Constructs the average of two vectors.
double cosWith(const Vector2D &rhs) const
double phi() const
Gives the azimuth angle being the angle to the x axes ( range -M_PI to M_PI )
double angleWith(const Vector2D &rhs) const
The angle between this and rhs.
double sqrt(double a)
sqrt for double
Abstract base class for different kinds of events.
static double average(const double angle1, double angle2)
Combines two angluar values to the one that lies half way between them on the short arc.
static double normalised(const double angle)
Normalise an angle to lie in the range from [-pi, pi].
static double average(const LineUtil::ParameterVector &fromPar, const LineUtil::CovarianceMatrix &fromCov, const LineUtil::ParameterVector &toPar, const LineUtil::CovarianceMatrix &toCov, LineUtil::ParameterVector &avgPar, LineUtil::CovarianceMatrix &avgCov)
Calculates the weighted average between two line parameter sets with their respective covariance matr...
1.9.1