#include <LightRay.h>

Public Member Functions
const CLHEP::Hep3Vector &	direction () const

void	dumpData (const ALIstring &str) const

void	intersect (const ALIPlane &plane)

void	intersect (const OpticalObject &opto)

CLHEP::Hep3Vector	IntersectWithOptOPlane (const OpticalObject *optoplane)

CLHEP::Hep3Vector	IntersectWithPlane (const CLHEP::Hep3Vector &plane_point, const CLHEP::Hep3Vector &plane_normal)

	LightRay ()

	LightRay (OpticalObject p1, OpticalObject p2)

	LightRay (CLHEP::Hep3Vector &vec1, CLHEP::Hep3Vector &vec2)

const CLHEP::Hep3Vector &	point () const

void	reflect (const ALIPlane &plane)

void	refract (const ALIPlane &plate, const ALIdouble refra_ind1, const ALIdouble refra_ind2)

void	setDirection (const CLHEP::Hep3Vector &direc)

void	setPoint (const CLHEP::Hep3Vector &point)

void	shiftAndDeviateWhileTraversing (const OpticalObject *opto, char behav)

void	shiftAndDeviateWhileTraversing (const OpticalObject *opto, ALIdouble shiftX, ALIdouble shiftY, ALIdouble shiftZ, ALIdouble deviX, ALIdouble deviY, ALIdouble deviZ)

void	startLightRay (OpticalObject *opto)

	~LightRay ()

Public Attributes
CLHEP::Hep3Vector	_direction

CLHEP::Hep3Vector	_point

Detailed Description

Definition at line 20 of file LightRay.h.

Constructor & Destructor Documentation

LightRay::LightRay ( )

Definition at line 19 of file LightRay.cc.

References _direction, and _point.

 {
   _point = CLHEP::Hep3Vector(0.,0.,0.);
   _direction = CLHEP::Hep3Vector(0.,0.,1.);
 }

LightRay::LightRay	(	OpticalObject *	p1,
		OpticalObject *	p2
	)

Definition at line 52 of file LightRay.cc.

References OpticalObject::centreGlob(), gather_cfg::cout, ALIUtils::debug, dumpData(), OpticalObject::name(), setDirection(), and setPoint().

 {
   if(ALIUtils::debug >= 7) std::cout << std::endl << "LR:CREATE LIGHTRAY FROM SOURCE" << opto2->name() << std::endl;
 
   CLHEP::Hep3Vector _ZAxis(0.,0.,1.);
   //-  LightRay* linetmp;
   //-linetmp = new LightRay;
   //---------- set direction and point
   setDirection( opto2->centreGlob() - opto1->centreGlob() );
   setPoint( opto1->centreGlob() );
 
   if(ALIUtils::debug >= 9) std::cout << "OPT" << opto1 << opto1->name() << std::endl;
   //-  std::cout << "centre glob" << &p1->aff()->centre_glob() << std::endl;
   if (ALIUtils::debug >= 9) {
     dumpData(" ");
   }
 
 }

LightRay::LightRay	(	CLHEP::Hep3Vector &	vec1,
		CLHEP::Hep3Vector &	vec2
	)

Definition at line 73 of file LightRay.cc.

References ALIUtils::debug, dir, dumpData(), setDirection(), and setPoint().

 {
   CLHEP::Hep3Vector dir = vec2 - vec1;
   dir *= 1./dir.mag();
   setDirection( dir );
   setPoint( vec1 );
   if (ALIUtils::debug >= 9) {
     dumpData(" ");
   }
 }

LightRay::~LightRay ( )

inline

Definition at line 28 of file LightRay.h.

References intersect(), reflect(), refract(), shiftAndDeviateWhileTraversing(), and startLightRay().

28 {};

Member Function Documentation

const CLHEP::Hep3Vector& LightRay::direction ( ) const

inline

Definition at line 55 of file LightRay.h.

References _direction, dumpData(), and str.

Referenced by OptOMirror::detailedDeviatesLightRay(), intersect(), OptOSensor2D::makeMeasurement(), refract(), and OptOUserDefined::userDefinedBehaviour().

                                           {
       return _direction;
   } 

void LightRay::dumpData ( const ALIstring & str ) const

Definition at line 382 of file LightRay.cc.

References _direction, _point, gather_cfg::cout, and ALIUtils::dump3v().

 {
   std::cout << str << std::endl;
   ALIUtils::dump3v( _point, "$$ LightRay point: ");
   ALIUtils::dump3v( _direction, "$$ LightRay direction: ");
   /*
   CLHEP::Hep3Vector dirn = _direction;
   dirn.rotateZ( -23.72876*3.1415926/180.);
   ALIUtils::dump3v( dirn, "$$ LightRay direction: ");
   */
 }

void LightRay::intersect ( const ALIPlane & plane )

Definition at line 101 of file LightRay.cc.

References _direction, _point, funct::abs(), MessageLogger_cfi::cerr, gather_cfg::cout, ALIUtils::debug, direction(), ALIUtils::dump3v(), cmsRelvalreport::exit, ALIPlane::normal(), and ALIPlane::point().

Referenced by OptOMirror::detailedDeviatesLightRay(), OptOSensor2D::detailedTraversesLightRay(), OptOModifiedRhomboidPrism::fastDeviatesLightRay(), OptOOpticalSquare::fastDeviatesLightRay(), OptOCubeSplitter::fastTraversesLightRay(), OptOModifiedRhomboidPrism::fastTraversesLightRay(), OptOOpticalSquare::fastTraversesLightRay(), OptOSensor2D::fastTraversesLightRay(), OptOCOPS::fastTraversesLightRay(), OptOPlateSplitter::fastTraversesLightRay(), OptOMirror::fastTraversesLightRay(), intersect(), OptOSensor2D::makeMeasurement(), OptOCOPS::makeMeasurement(), reflect(), refract(), OptOUserDefined::userDefinedBehaviour(), and ~LightRay().

 {
   if(ALIUtils::debug >= 4) std::cout << "% LR INTERSECT WITH PLANE" << std::endl;
   if(ALIUtils::debug >= 4) {
     ALIUtils::dump3v( plane.point(), "plane point");
     ALIUtils::dump3v( plane.normal(), "plane normal");
     //-    dumpData(" ");
   }
 
   //---------- Check that they intersect
   if( std::abs( plane.normal()*direction() ) < 1.E-10 ) {
     std::cerr << " !!!! INTERSECTION NOT POSSIBLE: LightRay is perpendicular to plane " << std::endl;
     std::cerr << " plane.normal()*direction() = " << plane.normal()*direction() << std::endl;
     ALIUtils::dump3v( direction(), "LightRay direction ");
     ALIUtils::dump3v( plane.normal(), "plane normal ");
     exit(1);
   }
 
   //---------- Get intersection point between LightRay and plane
   CLHEP::Hep3Vector vtemp = plane.point() - _point;
   if(ALIUtils::debug >= 5) ALIUtils::dump3v( vtemp, "n_r = point  - point_plane");
   ALIdouble dtemp = _direction * plane.normal();
   if(ALIUtils::debug >= 5) std::cout << " lightray* plate normal" << dtemp << std::endl;
   if ( dtemp != 0. ) {
       dtemp = (vtemp * plane.normal()) / dtemp;
       if(ALIUtils::debug >= 5)  std::cout << " n_r*plate normal" << dtemp << std::endl;
   } else {
       std::cerr << "!!! LightRay: Intersect With Plane: plane and light ray parallel: no intersection" << std::endl;
   }
   vtemp = _direction * dtemp;
   if(ALIUtils::debug >= 5) ALIUtils::dump3v( vtemp, "n_r scaled");
   CLHEP::Hep3Vector inters = vtemp + _point;
   if(ALIUtils::debug >= 3) ALIUtils::dump3v( inters, "INTERSECTION point ");
 
   _point = inters;
 }

void LightRay::intersect ( const OpticalObject & opto )

Definition at line 87 of file LightRay.cc.

References OpticalObject::centreGlob(), gather_cfg::cout, ALIUtils::debug, intersect(), and OpticalObject::rmGlob().

 {
   if(ALIUtils::debug >= 3) std::cout << "% LR INTERSECT WITH OPTO" << std::endl;
   CLHEP::Hep3Vector ZAxis(0.,0.,1.);
   const CLHEP::HepRotation& rmt = opto.rmGlob();
   ZAxis = rmt*ZAxis;
   ALIPlane optoPlane(opto.centreGlob(), ZAxis);
   intersect( optoPlane );
 }

CLHEP::Hep3Vector LightRay::IntersectWithOptOPlane ( const OpticalObject * optoplane )

Referenced by setPoint().

CLHEP::Hep3Vector LightRay::IntersectWithPlane	(	const CLHEP::Hep3Vector &	plane_point,
		const CLHEP::Hep3Vector &	plane_normal
	)

Referenced by setPoint().

const CLHEP::Hep3Vector& LightRay::point ( ) const

inline

Definition at line 52 of file LightRay.h.

References _point.

Referenced by MeasurementSensor2D::calculateSimulatedValue(), MeasurementDistancemeter::calculateSimulatedValue(), MeasurementDistancemeter3dim::calculateSimulatedValue(), MeasurementCOPS::calculateSimulatedValue(), OptOPinhole::defaultBehaviour(), OptOMirror::detailedDeviatesLightRay(), OptOSensor2D::detailedTraversesLightRay(), OptOSensor2D::fastTraversesLightRay(), OptOCOPS::fastTraversesLightRay(), OptOSensor2D::makeMeasurement(), OptOCOPS::makeMeasurement(), setPoint(), and OptOUserDefined::userDefinedBehaviour().

                                       {
       return _point;
   } 

void LightRay::reflect ( const ALIPlane & plane )

Definition at line 142 of file LightRay.cc.

References _direction, gather_cfg::cout, ALIUtils::debug, ALIUtils::dump3v(), dumpData(), intersect(), and ALIPlane::normal().

Referenced by OptOPlateSplitter::detailedDeviatesLightRay(), OptOCubeSplitter::detailedDeviatesLightRay(), OptOModifiedRhomboidPrism::detailedDeviatesLightRay(), OptOOpticalSquare::detailedDeviatesLightRay(), OptOCubeSplitter::fastDeviatesLightRay(), OptOOpticalSquare::fastDeviatesLightRay(), OptOPlateSplitter::fastDeviatesLightRay(), OptOMirror::fastDeviatesLightRay(), and ~LightRay().

 {
   intersect(plane);
   if( ALIUtils::debug >= 4 ) std::cout << "% LR: REFLECT IN PLANE " << std::endl;
   ALIdouble cosang = -(plane.normal() * _direction) /
            plane.normal().mag() / _direction.mag();
   if(ALIUtils::debug >= 5) {
     std::cout << " cosang = " << cosang << std::endl;
     ALIUtils::dump3v( plane.normal(), " plane normal");
   }
   _direction += plane.normal()*2*cosang;
   if( ALIUtils::debug >= 5 ) dumpData("LightRay after reflection: ");
 
 }

void LightRay::refract	(	const ALIPlane &	plate,
		const ALIdouble	refra_ind1,
		const ALIdouble	refra_ind2
	)

Definition at line 163 of file LightRay.cc.

References funct::abs(), MessageLogger_cfi::cerr, gather_cfg::cout, ALIUtils::debug, direction(), ALIUtils::dump3v(), dumpData(), cmsRelvalreport::exit, intersect(), ALIPlane::normal(), setDirection(), and mathSSE::sqrt().

Referenced by OptOCubeSplitter::detailedDeviatesLightRay(), OptOModifiedRhomboidPrism::detailedDeviatesLightRay(), OptOOpticalSquare::detailedDeviatesLightRay(), OptOPlateSplitter::detailedTraversesLightRay(), OptOCubeSplitter::detailedTraversesLightRay(), OptOOpticalSquare::detailedTraversesLightRay(), OptOModifiedRhomboidPrism::detailedTraversesLightRay(), OptOSensor2D::detailedTraversesLightRay(), OptOMirror::detailedTraversesLightRay(), and ~LightRay().

 {
   if(ALIUtils::debug >= 5) {
     std::cout << "% LR REFRACT: " <<  "refra_ind1 = " << refra_ind1 << " refra_ind2 = " << refra_ind2 <<std::endl;
     std::cout << "@ First intersect with plate plane " << std::endl;
   }
 
   intersect( plate );
 
   //---------- First plane: formed by plate normal and lightray, but get two ortonormal std::vectors in this plane (one of it plate normal)
   CLHEP::Hep3Vector Axis1 = plate.normal().cross( direction() );
   //----- Check lightray is not parallel to plate normal
   if( Axis1.mag() < 1.E-6 ) {
     if(ALIUtils::debug >= 3) {
       std::cout << " light ray normal to plane, no refraction " << std::endl;
     }
     if (ALIUtils::debug >= 2) {
       dumpData("LightRay after refraction: ");
     }
 
     return;
   }
 
   if(ALIUtils::debug >= 5) {
     ALIUtils::dump3v( Axis1,  " axis 1 temp ");
   }
   Axis1 = Axis1.cross( plate.normal() );
   Axis1 *= 1./Axis1.mag();
   //----- Project lightray on this plane
   if(ALIUtils::debug >= 4) {
     ALIUtils::dump3v( plate.normal(),  " plate normal ");
     ALIUtils::dump3v( Axis1,  " axis 1 ");
   }
 
   //----- Angle between LightRay and plate_normal before traversing
   ALIdouble cosang = -(plate.normal() * direction()) /
                      plate.normal().mag() / direction().mag();
   ALIdouble sinang = sqrt( 1. - cosang*cosang );
 
   //----- Angle between LightRay projection and plate normal after traversing (refracted)
   ALIdouble sinangp = sinang * refra_ind1 / refra_ind2;
   if( std::abs(sinangp) > 1. ) {
     std::cerr << " !!!EXITING LightRay::refract: incidence ray on plane too close to face, refraction will not allow entering " << std::endl;
     ALIUtils::dump3v( plate.normal(), " plate normal ");
     ALIUtils::dump3v( direction(), " light ray direction ");
     std::cout << " refraction index first medium " << refra_ind1  << " refraction index second medium " << refra_ind2 << std::endl;
     exit(1);
   }
 
   if(ALIUtils::debug >= 4) {
     std::cout << "LightRay refract on plane 1: sin(ang) before = " << sinang
      << " sinang after " << sinangp << std::endl;
   }
   ALIdouble cosangp = sqrt( 1. - sinangp*sinangp );
   //----- Change Lightray direction in this plane
   //--- Get sign of projections in plate normal and axis1
   ALIdouble signN = direction()*plate.normal();
   signN /= std::abs(signN);
   ALIdouble sign1 = direction()*Axis1;
   sign1 /= std::abs(sign1);
   if(ALIUtils::debug >= 4) {
     dumpData("LightRay refract: direction before plate");
     std::cout << " sign projection on plate normal " << signN << " sign projection on Axis1 " << sign1 << std::endl;
   }
   setDirection( signN * cosangp * plate.normal() + sign1 * sinangp * Axis1);
   //-  std::cout << " " << signN  << " " << cosangp  << " " << plate.normal() << " " << sign1  << " " << sinangp   << " " << Axis1 << std::endl;
 
   if(ALIUtils::debug >= 3) {
     dumpData("LightRay refract: direction after plate");
   }
 
 }

void LightRay::setDirection ( const CLHEP::Hep3Vector & direc )

inline

Definition at line 61 of file LightRay.h.

References _direction.

Referenced by OptOPinhole::defaultBehaviour(), OptOMirror::detailedDeviatesLightRay(), LightRay(), refract(), startLightRay(), and OptOUserDefined::userDefinedBehaviour().

                                                    {
        _direction = direc;
   } 

void LightRay::setPoint ( const CLHEP::Hep3Vector & point )

inline

Definition at line 64 of file LightRay.h.

References _point, IntersectWithOptOPlane(), IntersectWithPlane(), and point().

Referenced by OptOPinhole::defaultBehaviour(), OptOSensor2D::detailedTraversesLightRay(), OptOSensor2D::fastTraversesLightRay(), OptOCOPS::fastTraversesLightRay(), LightRay(), startLightRay(), and OptOUserDefined::userDefinedBehaviour().

                                                {
        _point = point;
   } 

void LightRay::shiftAndDeviateWhileTraversing	(	const OpticalObject *	opto,
		char	behav
	)

Definition at line 241 of file LightRay.cc.

References gather_cfg::cout, ALIUtils::debug, and OpticalObject::findExtraEntryValue().

Referenced by OptOCubeSplitter::fastDeviatesLightRay(), OptOOpticalSquare::fastDeviatesLightRay(), OptOModifiedRhomboidPrism::fastDeviatesLightRay(), OptOPlateSplitter::fastDeviatesLightRay(), OptOMirror::fastDeviatesLightRay(), OptOOpticalSquare::fastTraversesLightRay(), OptOModifiedRhomboidPrism::fastTraversesLightRay(), OptOCubeSplitter::fastTraversesLightRay(), OptOSensor2D::fastTraversesLightRay(), OptOPlateSplitter::fastTraversesLightRay(), OptOMirror::fastTraversesLightRay(), and ~LightRay().

 {
   ALIstring ename("devi X");
   ename[4] = behav;
   ename[5] = 'X';
   ALIdouble deviX = opto->findExtraEntryValue(ename);
   ename[5] = 'Y';
   ALIdouble deviY = opto->findExtraEntryValue(ename);
   ename[5] = 'Z';
   ALIdouble deviZ = opto->findExtraEntryValue(ename);
 
   ename = "shift X";
   ename[5] = behav;
   ename[6] = 'X';
   ALIdouble shiftX = opto->findExtraEntryValue(ename);
   ename[6] = 'Y';
   ALIdouble shiftY = opto->findExtraEntryValue(ename);
   ename[6] = 'Z';
   ALIdouble shiftZ = opto->findExtraEntryValue(ename);
 
   if(ALIUtils::debug >= 3) {
     //-    std::cout << " shift X " << shiftX << " shiftY " << shiftY << " shiftZ " << shiftZ << std::endl;
     //-    std::cout << " deviX " << deviX << " deviY " << deviY << " deviZ " << deviZ << std::endl;
     std::cout << " shift X " << shiftX << " shift Y " << shiftY << std::endl;
     std::cout << " devi X " << deviX << " devi Y " << deviY << std::endl;
   }
 
   shiftAndDeviateWhileTraversing( opto, shiftX, shiftY, shiftZ, deviX, deviY, deviZ );
   //  shiftAndDeviateWhileTraversing( shiftX, shiftY, deviX, deviY );
 }

void LightRay::shiftAndDeviateWhileTraversing	(	const OpticalObject *	opto,
		ALIdouble	shiftX,
		ALIdouble	shiftY,
		ALIdouble	shiftZ,
		ALIdouble	deviX,
		ALIdouble	deviY,
		ALIdouble	deviZ
	)

Definition at line 273 of file LightRay.cc.

References _direction, _point, gather_cfg::cout, ALIUtils::debug, ALIUtils::dump3v(), and OpticalObject::rmGlob().

 {
 
   //----- Get local opto X, Y and Z axis
   CLHEP::Hep3Vector XAxis(1.,0.,0.);
   CLHEP::Hep3Vector YAxis(0.,1.,0.);
   CLHEP::Hep3Vector ZAxis(0.,0.,1.);
   const CLHEP::HepRotation& rmt = opto->rmGlob();
   XAxis = rmt*XAxis;
   YAxis = rmt*YAxis;
   ZAxis = rmt*ZAxis;
 
   if (ALIUtils::debug >= 5) {
     ALIUtils::dump3v( XAxis, "X axis of opto");
     ALIUtils::dump3v( YAxis, "Y axis of opto");
     ALIUtils::dump3v( ZAxis, "Z axis of opto");
   }
 
   //---------- Shift
   CLHEP::Hep3Vector pointold = _point;
   _point += shiftX*XAxis;
   _point += shiftY*YAxis;
   _point += shiftZ*ZAxis;
   if(_point != pointold && ALIUtils::debug >= 3 ) {
     ALIUtils::dump3v( _point-pointold, "CHANGE point");
   }
 
   //---------- Deviate
   CLHEP::Hep3Vector direcold = _direction;
   if( ALIUtils::debug >= 5) {
     ALIUtils::dump3v( XAxis, "XAxis");
     ALIUtils::dump3v( YAxis, "YAxis");
     ALIUtils::dump3v( ZAxis, "ZAxis");
     ALIUtils::dump3v( _direction, "LightRay direction");
   }
 
   _direction.rotate(deviX, XAxis);
   if(_direction != direcold && ALIUtils::debug >= 3) {
     std::cout << " deviX " << deviX << std::endl;
     ALIUtils::dump3v( _direction-direcold, "CHANGE direction");
   }
   _direction.rotate(deviY, YAxis);
   if(_direction != direcold && ALIUtils::debug >= 3) {
     std::cout << " deviY " << deviY << std::endl;
     ALIUtils::dump3v( _direction-direcold, "CHANGE direction");
   }
   _direction.rotate(deviZ, ZAxis);
   if(_direction != direcold && ALIUtils::debug >= 3) {
     std::cout << " deviZ " << deviZ << std::endl;
     ALIUtils::dump3v( _direction-direcold, "CHANGE direction");
   }
 
   if(_direction != direcold && ALIUtils::debug >= 3) {
     ALIUtils::dump3v( _direction-direcold, "CHANGE direction");
   }
 
 }

void LightRay::startLightRay ( OpticalObject * opto )

Definition at line 28 of file LightRay.cc.

References OpticalObject::centreGlob(), gather_cfg::cout, ALIUtils::debug, dumpData(), ALIUtils::dumprm(), OpticalObject::name(), OpticalObject::rmGlob(), setDirection(), setPoint(), and OpticalObject::type().

Referenced by OptOLaser::defaultBehaviour(), OptOXLaser::defaultBehaviour(), OptOSource::defaultBehaviour(), FittedEntriesManager::GetDifferentBetweenLasers(), and ~LightRay().

 {
   if(ALIUtils::debug >= 3) std::cout << std::endl << "LR: CREATE LIGHTRAY " << opto->name() << " OptO type is " << opto->type() << std::endl;
 
   //---------- Get Z axis of opto
   CLHEP::Hep3Vector ZAxis(0.,0.,1.);
   const CLHEP::HepRotation& rmt = opto->rmGlob();
   ZAxis = rmt * ZAxis;
 
   //---------- By convention, direction of LightRay = opto_ZAxis
   setDirection( ZAxis );
   setPoint( opto->centreGlob() );
 
  if (ALIUtils::debug >= 3) {
     dumpData(" LightRay at creation ");
   }
   if (ALIUtils::debug >= 5) {
     ALIUtils::dumprm( rmt, "laser Rotation matrix");
   }
 
 }

Member Data Documentation

CLHEP::Hep3Vector LightRay::_direction

Definition at line 78 of file LightRay.h.

Referenced by direction(), dumpData(), intersect(), LightRay(), reflect(), setDirection(), and shiftAndDeviateWhileTraversing().

CLHEP::Hep3Vector LightRay::_point

Definition at line 79 of file LightRay.h.

Referenced by dumpData(), intersect(), LightRay(), point(), setPoint(), and shiftAndDeviateWhileTraversing().

Public Member Functions

Public Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation