// Copyright FreeHEP, 2005. #include #include #include #include "cheprep/DefaultHepRepPoint.h" using namespace std; using namespace HEPREP; /** * @author Mark Donszelmann * @version $Id: DefaultHepRepPoint.cc 66373 2012-12-18 09:41:34Z gcosmo $ */ namespace cheprep { DefaultHepRepPoint::DefaultHepRepPoint(HepRepInstance* inst, double xx, double yy, double zz) : DefaultHepRepAttribute(), instance(inst), x(xx), y(yy), z(zz) { if (instance == NULL) { cerr << "HepRepPoints cannot be created without a HepRepInstance." << endl; } else { instance->addPoint(this); } } DefaultHepRepPoint::~DefaultHepRepPoint() { } HepRepInstance* DefaultHepRepPoint::getInstance() { return instance; } HepRepAttValue* DefaultHepRepPoint::getAttValue(string lowerCaseName) { HepRepAttValue* value = getAttValueFromNode(lowerCaseName); return (value != NULL) ? value : instance->getAttValue(lowerCaseName); } HepRepPoint* DefaultHepRepPoint::copy(HepRepInstance* inst) { return new DefaultHepRepPoint(inst, x, y, z); } double DefaultHepRepPoint::getX() { return x; } double DefaultHepRepPoint::getY() { return y; } double DefaultHepRepPoint::getZ() { return z; } vector* DefaultHepRepPoint::getXYZ(vector* xyz) { (*xyz)[0] = x; (*xyz)[1] = y; (*xyz)[2] = z; return xyz; } double DefaultHepRepPoint::getRho() { return sqrt(x*x + y*y); } double DefaultHepRepPoint::getPhi() { return atan2(y, x); } double DefaultHepRepPoint::getTheta() { return atan2(getRho(), z); } double DefaultHepRepPoint::getR() { double r = getRho(); return sqrt(r*r + z*z); } double DefaultHepRepPoint::getEta() { double ct = cos(getTheta()); return -0.5*log((1.-ct)/(1.+ct)); } double DefaultHepRepPoint::getX(double xVertex, double, double) { return x - xVertex; } double DefaultHepRepPoint::getY(double, double yVertex, double) { return y - yVertex; } double DefaultHepRepPoint::getZ(double, double, double zVertex) { return z - zVertex; } double DefaultHepRepPoint::getRho(double xVertex, double yVertex, double zVertex) { double dx = getX(xVertex, yVertex, zVertex); double dy = getY(xVertex, yVertex, zVertex); return sqrt(dx*dx + dy*dy); } double DefaultHepRepPoint::getPhi(double xVertex, double yVertex, double zVertex) { return atan2(getY(xVertex, yVertex, zVertex), getX(xVertex, yVertex, zVertex)); } double DefaultHepRepPoint::getTheta(double xVertex, double yVertex, double zVertex) { return atan2(getRho(xVertex, yVertex, zVertex), getZ(xVertex, yVertex, zVertex)); } double DefaultHepRepPoint::getR(double xVertex, double yVertex, double zVertex) { double dr = getRho(xVertex, yVertex, zVertex); double dz = getZ(xVertex, yVertex, zVertex); return sqrt(dr*dr + dz*dz); } double DefaultHepRepPoint::getEta(double xVertex, double yVertex, double zVertex) { double ct = cos(getTheta(xVertex, yVertex, zVertex)); return -0.5*log((1.-ct)/(1.+ct)); } } // cheprep