#include <CACell.h>

Public Types
using	CAColl = std::vector< CACell >

using	CAntuple = std::vector< unsigned int >

using	CAntuplet = std::vector< unsigned int >

using	CAStatusColl = std::vector< CACellStatus >

using	Hit = RecHitsSortedInPhi::Hit

Public Member Functions
int	areAlignedRZ (float r1, float z1, float ro, float zo, const float ptmin, const float thetaCut) const

	CACell (const HitDoublets *doublets, int doubletId, const int innerHitId, const int outerHitId)

void	checkAlignmentAndAct (CAColl &allCells, CAntuple &innerCells, const float ptmin, const float region_origin_x, const float region_origin_y, const float region_origin_radius, const float thetaCut, const float phiCut, const float hardPtCut, std::vector< CACell::CAntuplet > *foundTriplets)

void	checkAlignmentAndPushTriplet (CAColl &allCells, CAntuple &innerCells, std::vector< CACell::CAntuplet > &foundTriplets, const float ptmin, const float region_origin_x, const float region_origin_y, const float region_origin_radius, const float thetaCut, const float phiCut, const float hardPtCut)

void	checkAlignmentAndTag (CAColl &allCells, CAntuple &innerCells, const float ptmin, const float region_origin_x, const float region_origin_y, const float region_origin_radius, const float thetaCut, const float phiCut, const float hardPtCut)

void	evolve (unsigned int me, CAStatusColl &allStatus)

void	findNtuplets (CAColl &allCells, std::vector< CAntuplet > &foundNtuplets, CAntuplet &tmpNtuplet, const unsigned int minHitsPerNtuplet) const

Hit const &	getInnerHit () const

float	getInnerPhi () const

float	getInnerR () const

float	getInnerX () const

float	getInnerY () const

float	getInnerZ () const

Hit const &	getOuterHit () const

float	getOuterPhi () const

float	getOuterR () const

float	getOuterX () const

float	getOuterY () const

float	getOuterZ () const

bool	haveSimilarCurvature (const CACell &otherCell, const float ptmin, const float region_origin_x, const float region_origin_y, const float region_origin_radius, const float phiCut, const float hardPtCut) const

void	tagAsOuterNeighbor (unsigned int otherCell)

Private Attributes
const int	theDoubletId

const HitDoublets *	theDoublets

const float	theInnerR

const float	theInnerZ

CAntuple	theOuterNeighbors

Detailed Description

Definition at line 35 of file CACell.h.

Member Typedef Documentation

using CACell::CAColl = std::vector<CACell>

Definition at line 40 of file CACell.h.

using CACell::CAntuple = std::vector<unsigned int>

Definition at line 38 of file CACell.h.

using CACell::CAntuplet = std::vector<unsigned int>

Definition at line 39 of file CACell.h.

using CACell::CAStatusColl = std::vector<CACellStatus>

Definition at line 41 of file CACell.h.

using CACell::Hit = RecHitsSortedInPhi::Hit

Definition at line 37 of file CACell.h.

Constructor & Destructor Documentation

CACell::CACell	(	const HitDoublets *	doublets,
		int	doubletId,
		const int	innerHitId,
		const int	outerHitId
	)

inline

Definition at line 44 of file CACell.h.

                                                                                                  :
     theDoublets(doublets), theDoubletId(doubletId)
     ,theInnerR(doublets->rv(doubletId, HitDoublets::inner)) 
     ,theInnerZ(doublets->z(doubletId, HitDoublets::inner))
   {}

Member Function Documentation

int CACell::areAlignedRZ	(	float	r1,
		float	z1,
		float	ro,
		float	zo,
		const float	ptmin,
		const float	thetaCut
	)		const

inline

Definition at line 173 of file CACell.h.

References funct::abs(), ALCARECOTkAlMinBias_cff::pMin, and mathSSE::sqrt().

   {
     float radius_diff = std::abs(r1 - ro);
     float distance_13_squared = radius_diff*radius_diff + (z1 - zo)*(z1 - zo);
     
     float pMin = ptmin*std::sqrt(distance_13_squared); //this needs to be divided by radius_diff later
     
     float tan_12_13_half_mul_distance_13_squared = fabs(z1 * (getInnerR() - ro) + getInnerZ() * (ro - r1) + zo * (r1 - getInnerR())) ;
     return tan_12_13_half_mul_distance_13_squared * pMin <= thetaCut * distance_13_squared * radius_diff;
   }

void CACell::checkAlignmentAndAct	(	CAColl &	allCells,
		CAntuple &	innerCells,
		const float	ptmin,
		const float	region_origin_x,
		const float	region_origin_y,
		const float	region_origin_radius,
		const float	thetaCut,
		const float	phiCut,
		const float	hardPtCut,
		std::vector< CACell::CAntuplet > *	foundTriplets
	)

inline

Definition at line 119 of file CACell.h.

References constexpr, mps_fire::i, heppy_loop::loop, convertSQLiteXML::ok, and diffTwoXMLs::r1.

                                                                                                        {
     int ncells = innerCells.size();
     int constexpr VSIZE = 16;
     int ok[VSIZE];
     float r1[VSIZE];
     float z1[VSIZE];
     auto ro = getOuterR();
     auto zo = getOuterZ();
     unsigned int cellId = this - &allCells.front();
     auto loop = [&](int i, int vs) {
       for (int j=0;j<vs; ++j) {
     auto koc = innerCells[i+j];
     auto & oc =  allCells[koc];
     r1[j] = oc.getInnerR();
     z1[j] = oc.getInnerZ();
       }
       // this vectorize!
       for (int j=0;j<vs; ++j) ok[j] = areAlignedRZ(r1[j], z1[j], ro, zo, ptmin, thetaCut);
       for (int j=0;j<vs; ++j) {
     auto koc = innerCells[i+j];
     auto & oc =  allCells[koc]; 
     if (ok[j]&&haveSimilarCurvature(oc,ptmin, region_origin_x, region_origin_y,
                     region_origin_radius, phiCut, hardPtCut)) {
       if (foundTriplets) foundTriplets->emplace_back(CACell::CAntuplet{koc,cellId});
       else {
         oc.tagAsOuterNeighbor(cellId);
       }
     }
       }
     };
     auto lim = VSIZE*(ncells/VSIZE);
     for (int i=0; i<lim; i+=VSIZE) loop(i, VSIZE); 
     loop(lim, ncells-lim);
     
   }

void CACell::checkAlignmentAndPushTriplet	(	CAColl &	allCells,
		CAntuple &	innerCells,
		std::vector< CACell::CAntuplet > &	foundTriplets,
		const float	ptmin,
		const float	region_origin_x,
		const float	region_origin_y,
		const float	region_origin_radius,
		const float	thetaCut,
		const float	phiCut,
		const float	hardPtCut
	)

inline

Definition at line 164 of file CACell.h.

                                            {
     checkAlignmentAndAct(allCells, innerCells, ptmin, region_origin_x, region_origin_y, region_origin_radius, thetaCut,
              phiCut, hardPtCut, &foundTriplets);
   }

void CACell::checkAlignmentAndTag	(	CAColl &	allCells,
		CAntuple &	innerCells,
		const float	ptmin,
		const float	region_origin_x,
		const float	region_origin_y,
		const float	region_origin_radius,
		const float	thetaCut,
		const float	phiCut,
		const float	hardPtCut
	)

inline

Definition at line 157 of file CACell.h.

                                                            {
     checkAlignmentAndAct(allCells, innerCells, ptmin, region_origin_x, region_origin_y, region_origin_radius, thetaCut,
              phiCut, hardPtCut, nullptr);
     
   }

void CACell::evolve	(	unsigned int	me,
		CAStatusColl &	allStatus
	)

inline

Definition at line 101 of file CACell.h.

References CACellStatus::getCAState().

                                                         {
     
     allStatus[me].hasSameStateNeighbors = 0;
     auto mystate = allStatus[me].theCAState;
     
     for (auto oc : theOuterNeighbors ) {
       
       if (allStatus[oc].getCAState() == mystate) {
     
     allStatus[me].hasSameStateNeighbors = 1;
     
     break;
       }
     }
     
   }

void CACell::findNtuplets	(	CAColl &	allCells,
		std::vector< CAntuplet > &	foundNtuplets,
		CAntuplet &	tmpNtuplet,
		const unsigned int	minHitsPerNtuplet
	)		const

inline

Definition at line 263 of file CACell.h.

References mps_fire::i.

                                                                                                                                               {
     
     // the building process for a track ends if:
     // it has no outer neighbor
     // it has no compatible neighbor
     // the ntuplets is then saved if the number of hits it contains is greater than a threshold
     
     if (tmpNtuplet.size() == minHitsPerNtuplet - 1)
       {
     foundNtuplets.push_back(tmpNtuplet);
       }
     else
       {
     unsigned int numberOfOuterNeighbors = theOuterNeighbors.size();
     for (unsigned int i = 0; i < numberOfOuterNeighbors; ++i) {
       tmpNtuplet.push_back((theOuterNeighbors[i]));
       allCells[theOuterNeighbors[i]].findNtuplets(allCells,foundNtuplets, tmpNtuplet, minHitsPerNtuplet);
       tmpNtuplet.pop_back();
     }
       }
     
   }

Hit const& CACell::getInnerHit ( ) const

inline

Definition at line 52 of file CACell.h.

References HitDoublets::inner.

                                   {
     return theDoublets->hit(theDoubletId, HitDoublets::inner);
   }

float CACell::getInnerPhi ( ) const

inline

Definition at line 93 of file CACell.h.

References HitDoublets::inner.

                             {
     return theDoublets->phi(theDoubletId, HitDoublets::inner);
   }

float CACell::getInnerR ( ) const

inline

Definition at line 85 of file CACell.h.

                           {
     return theInnerR;
   }

float CACell::getInnerX ( ) const

inline

Definition at line 61 of file CACell.h.

References HitDoublets::inner.

Referenced by haveSimilarCurvature().

                           {
     return theDoublets->x(theDoubletId, HitDoublets::inner);
   }

float CACell::getInnerY ( ) const

inline

Definition at line 69 of file CACell.h.

References HitDoublets::inner.

Referenced by haveSimilarCurvature().

                           {
     return theDoublets->y(theDoubletId, HitDoublets::inner);
   }

float CACell::getInnerZ ( ) const

inline

Definition at line 77 of file CACell.h.

                           {
     return theInnerZ;
   }

Hit const& CACell::getOuterHit ( ) const

inline

Definition at line 56 of file CACell.h.

References HitDoublets::outer.

                                   {
     return theDoublets->hit(theDoubletId, HitDoublets::outer);
   }

float CACell::getOuterPhi ( ) const

inline

Definition at line 97 of file CACell.h.

References HitDoublets::outer.

                             {
     return theDoublets->phi(theDoubletId, HitDoublets::outer);
   }

float CACell::getOuterR ( ) const

inline

Definition at line 89 of file CACell.h.

References HitDoublets::outer.

                           {
     return theDoublets->rv(theDoubletId, HitDoublets::outer);
   }

float CACell::getOuterX ( ) const

inline

Definition at line 65 of file CACell.h.

References HitDoublets::outer.

                           {
     return theDoublets->x(theDoubletId, HitDoublets::outer);
   }

float CACell::getOuterY ( ) const

inline

Definition at line 73 of file CACell.h.

References HitDoublets::outer.

                           {
     return theDoublets->y(theDoubletId, HitDoublets::outer);
   }

float CACell::getOuterZ ( ) const

inline

Definition at line 81 of file CACell.h.

References HitDoublets::outer.

                           {
     return theDoublets->z(theDoubletId, HitDoublets::outer);
   }

bool CACell::haveSimilarCurvature	(	const CACell &	otherCell,
		const float	ptmin,
		const float	region_origin_x,
		const float	region_origin_y,
		const float	region_origin_radius,
		const float	phiCut,
		const float	hardPtCut
	)		const

inline

Definition at line 191 of file CACell.h.

References funct::abs(), MillePedeFileConverter_cfg::e, f, getInnerX(), getInnerY(), PFRecoTauDiscriminationByIsolation_cfi::offset, TCMET_cfi::radius, mathSSE::sqrt(), globals_cff::x1, and globals_cff::x2.

   {
     
     
     auto x1 = otherCell.getInnerX();
     auto y1 = otherCell.getInnerY();
     
     auto x2 = getInnerX();
     auto y2 = getInnerY();
     
     auto x3 = getOuterX();
     auto y3 = getOuterY();
     
     float distance_13_squared = (x1 - x3)*(x1 - x3) + (y1 - y3)*(y1 - y3);
     float tan_12_13_half_mul_distance_13_squared = std::abs(y1 * (x2 - x3) + y2 * (x3 - x1) + y3 * (x1 - x2)) ;
     // high pt : just straight
     if(tan_12_13_half_mul_distance_13_squared * ptmin <= 1.0e-4f*distance_13_squared)
       {
     
     float distance_3_beamspot_squared = (x3-region_origin_x) * (x3-region_origin_x) + (y3-region_origin_y) * (y3-region_origin_y);
     
     float dot_bs3_13 = ((x1 - x3)*( region_origin_x - x3) + (y1 - y3) * (region_origin_y-y3));
     float proj_bs3_on_13_squared = dot_bs3_13*dot_bs3_13/distance_13_squared;
     
     float distance_13_beamspot_squared  = distance_3_beamspot_squared -  proj_bs3_on_13_squared;
     
     return distance_13_beamspot_squared < (region_origin_radius+phiCut)*(region_origin_radius+phiCut);
       }
     
     //87 cm/GeV = 1/(3.8T * 0.3)
     
     //take less than radius given by the hardPtCut and reject everything below
     float minRadius = hardPtCut*87.f;  // FIXME move out and use real MagField
     
     auto det = (x1 - x2) * (y2 - y3) - (x2 - x3) * (y1 - y2);
     
     
     auto offset = x2 * x2 + y2*y2;
     
     auto bc = (x1 * x1 + y1 * y1 - offset)*0.5f;
     
     auto cd = (offset - x3 * x3 - y3 * y3)*0.5f;
     
     
     
     auto idet = 1.f / det;
     
     auto x_center = (bc * (y2 - y3) - cd * (y1 - y2)) * idet;
     auto y_center = (cd * (x1 - x2) - bc * (x2 - x3)) * idet;
     
     auto radius = std::sqrt((x2 - x_center)*(x2 - x_center) + (y2 - y_center)*(y2 - y_center));
     
     if(radius < minRadius)  return false;  // hard cut on pt
     
     auto centers_distance_squared = (x_center - region_origin_x)*(x_center - region_origin_x) + (y_center - region_origin_y)*(y_center - region_origin_y);
     auto region_origin_radius_plus_tolerance = region_origin_radius + phiCut;
     auto minimumOfIntersectionRange = (radius - region_origin_radius_plus_tolerance)*(radius - region_origin_radius_plus_tolerance);
     
     if (centers_distance_squared >= minimumOfIntersectionRange) {
       auto maximumOfIntersectionRange = (radius + region_origin_radius_plus_tolerance)*(radius + region_origin_radius_plus_tolerance);
       return centers_distance_squared <= maximumOfIntersectionRange;
     } 
     
     return false;
     
   }

void CACell::tagAsOuterNeighbor ( unsigned int otherCell )

inline

Definition at line 185 of file CACell.h.

   {
     theOuterNeighbors.push_back(otherCell);
   }

Member Data Documentation

const int CACell::theDoubletId

private

Definition at line 292 of file CACell.h.

const HitDoublets* CACell::theDoublets

private

Definition at line 291 of file CACell.h.

const float CACell::theInnerR

private

Definition at line 294 of file CACell.h.

const float CACell::theInnerZ

private

Definition at line 295 of file CACell.h.

CAntuple CACell::theOuterNeighbors

private

Definition at line 289 of file CACell.h.

Public Types

Public Member Functions

Private Attributes

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation