#include <ALIUtils.h>
Public Member Functions | |
ALIUtils () | |
~ALIUtils () | |
Static Public Member Functions | |
static double | addPii (double val) |
static ALIdouble | AngleSigmaDimensionFactor () |
static ALIdouble | AngleValueDimensionFactor () |
static double | approxTo0 (double val) |
static ALIdouble | CalculateAngleDimensionFactorFromInt (ALIint ad) |
static ALIdouble | CalculateAngleDimensionFactorFromString (ALIstring dimstr) |
static ALIdouble | CalculateLengthDimensionFactorFromInt (ALIint ad) |
static ALIdouble | CalculateLengthDimensionFactorFromString (ALIstring dimstr) |
static std::string | changeName (const std::string &oldName, const std::string &subsstr1, const std::string &subsstr2) |
static int | checkMatrixEquations (double angleX, double angleY, double angleZ, CLHEP::HepRotation *rot) |
static double | diff2pi (double ang1, double ang2) |
static void | dump3v (const CLHEP::Hep3Vector &vec, const std::string &msg) |
static void | dumpDimensions (std::ofstream &fout) |
static void | dumprm (const CLHEP::HepRotation &rm, const std::string &msg, std::ostream &out=std::cout) |
static void | dumpVS (const std::vector< ALIstring > &wl, const std::string &msg, std::ostream &outs=std::cout) |
dumps a vector of strings with a message to outs | |
static bool | eq2ang (double ang1, double ang2) |
static bool | getBool (const ALIstring &str) |
Convert a bool to an integer, checking that it is really a bool. | |
static ALIdouble | getDimensionValue (const ALIstring &dim, const ALIstring &dimType) |
static ALIbool | getFirstTime () |
static double | getFloat (const ALIstring &str) |
Convert a string to an float, checking that it is really a number. | |
static int | getInt (const ALIstring &str) |
Convert a string to an integer, checking that it is really an integer. | |
static ALIdouble | getMaximumDeviationDerivative () |
static std::vector< double > | getRotationAnglesFromMatrix (CLHEP::HepRotation &rmLocal, double origAngleX, double origAngleY, double origAngleZ) |
static int | IsNumber (const ALIstring &str) |
static ALIdouble | LengthSigmaDimensionFactor () |
static ALIdouble | LengthValueDimensionFactor () |
static ALIdouble | OutputAngleSigmaDimensionFactor () |
static ALIdouble | OutputAngleValueDimensionFactor () |
static ALIdouble | OutputLengthSigmaDimensionFactor () |
static ALIdouble | OutputLengthValueDimensionFactor () |
static void | set_time_now (time_t now) |
static void | SetAngleDimensionFactors () |
static void | setDebugVerbosity (ALIint val) |
static void | setFirstTime (ALIbool val) |
static void | SetLengthDimensionFactors () |
static void | setMaximumDeviationDerivative (ALIdouble val) |
static void | SetOutputAngleDimensionFactors () |
static void | SetOutputLengthDimensionFactors () |
static void | setReportVerbosity (ALIint val) |
static ALIstring | subQuotes (const ALIstring &str) |
static time_t | time_now () |
static ALIdouble | val0 (ALIdouble val) |
Static Public Attributes | |
static ALIint | debug = -1 |
static ALIdouble | deg = 0.017453293 |
static ALIint | report = 1 |
Static Private Attributes | |
static ALIdouble | _AngleSigmaDimensionFactor = 1. |
static ALIdouble | _AngleValueDimensionFactor = 1. |
static ALIdouble | _LengthSigmaDimensionFactor = 1. |
static ALIdouble | _LengthValueDimensionFactor = 1. |
static ALIdouble | _OutputAngleSigmaDimensionFactor = 1. |
static ALIdouble | _OutputAngleValueDimensionFactor = 1. |
static ALIdouble | _OutputLengthSigmaDimensionFactor = 1. |
static ALIdouble | _OutputLengthValueDimensionFactor = 1. |
static time_t | _time_now |
static ALIbool | firstTime = false |
static ALIdouble | maximum_deviation_derivative = 1.E-6 |
Definition at line 23 of file ALIUtils.h.
ALIUtils::ALIUtils | ( | ) | [inline] |
Definition at line 26 of file ALIUtils.h.
{};
ALIUtils::~ALIUtils | ( | ) | [inline] |
Definition at line 27 of file ALIUtils.h.
{};
double ALIUtils::addPii | ( | double | val | ) | [static] |
Definition at line 787 of file ALIUtils.cc.
References M_PI.
Referenced by getRotationAnglesFromMatrix().
static ALIdouble ALIUtils::AngleSigmaDimensionFactor | ( | ) | [inline, static] |
Definition at line 77 of file ALIUtils.h.
References _AngleSigmaDimensionFactor.
Referenced by EntryAngle::SigmaDimensionFactor().
{ return _AngleSigmaDimensionFactor;}
static ALIdouble ALIUtils::AngleValueDimensionFactor | ( | ) | [inline, static] |
Definition at line 75 of file ALIUtils.h.
References _AngleValueDimensionFactor.
Referenced by EntryMgr::readEntryFromReportOut(), OpticalObject::transformCylindrical2Cartesian(), and EntryAngle::ValueDimensionFactor().
{ return _AngleValueDimensionFactor;}
double ALIUtils::approxTo0 | ( | double | val | ) | [static] |
Definition at line 778 of file ALIUtils.cc.
Referenced by getRotationAnglesFromMatrix().
{ double precision = 1.e-9; if( fabs(val) < precision ) val = 0; return val; }
Definition at line 298 of file ALIUtils.cc.
References CalculateAngleDimensionFactorFromString(), dtNoiseDBValidation_cfg::cerr, and cmsRelvalreport::exit.
Referenced by SetAngleDimensionFactors(), and SetOutputAngleDimensionFactors().
{ ALIdouble valsig; switch ( ad ) { case 0: //----- radians valsig = CalculateAngleDimensionFactorFromString( "rad" ); break; case 1: //----- miliradians valsig = CalculateAngleDimensionFactorFromString( "mrad" ); break; case 2: //----- microradians valsig = CalculateAngleDimensionFactorFromString( "murad" ); break; case 3: //----- degrees valsig = CalculateAngleDimensionFactorFromString( "deg" ); break; case 4: //----- grads valsig = CalculateAngleDimensionFactorFromString( "grad" ); break; default: std::cerr << "!!! UNKNOWN DIMENSION SCALING " << ad << std::endl << "VALUE MUST BE BETWEEN 0 AND 3 " << std::endl; exit(1); } // use microradinas instead of radians //- valsig *= 1000000.; return valsig; }
Definition at line 237 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, cmsRelvalreport::exit, and M_PI.
Referenced by CalculateAngleDimensionFactorFromInt(), and FittedEntriesReader::FittedEntriesReader().
{ ALIdouble valsig; if( dimstr == "rad" ) { valsig = 1.; }else if( dimstr == "mrad" ) { valsig = 1.E-3; }else if( dimstr == "murad" ) { valsig = 1.E-6; }else if( dimstr == "deg" ) { valsig = M_PI/180.; }else if( dimstr == "grad" ) { valsig = M_PI/200.; }else { std::cerr << "!!! UNKNOWN DIMENSION SCALING: " << dimstr << std::endl << "VALUE MUST BE AN ANGLE DIMENSION " << std::endl; exit(1); } return valsig; }
Definition at line 266 of file ALIUtils.cc.
References CalculateLengthDimensionFactorFromString(), dtNoiseDBValidation_cfg::cerr, and cmsRelvalreport::exit.
Referenced by SetLengthDimensionFactors(), and SetOutputLengthDimensionFactors().
{ ALIdouble valsig; switch ( ad ) { case 0: //----- metres valsig = CalculateLengthDimensionFactorFromString( "m" ); break; case 1: //----- milimetres valsig = CalculateLengthDimensionFactorFromString( "mm" ); break; case 2: //----- micrometres valsig = CalculateLengthDimensionFactorFromString( "mum" ); break; case 3: //----- centimetres valsig = CalculateLengthDimensionFactorFromString( "cm" ); break; default: std::cerr << "!!! UNKNOWN DIMENSION SCALING " << ad << std::endl << "VALUE MUST BE BETWEEN 0 AND 3 " << std::endl; exit(1); } // use microradinas instead of radians //- valsig *= 1000000.; return valsig; }
Definition at line 196 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, and cmsRelvalreport::exit.
Referenced by CalculateLengthDimensionFactorFromInt(), and FittedEntriesReader::FittedEntriesReader().
{ ALIdouble valsig = 1.; ALIstring internalDim = "m"; if(internalDim == "m" ){ if( dimstr == "m" ) { valsig = 1.; }else if( dimstr == "mm" ) { valsig = 1.E-3; }else if( dimstr == "mum" ) { valsig = 1.E-6; }else if( dimstr == "cm" ) { valsig = 1.E-2; }else { std::cerr << "!!! UNKNOWN DIMENSION SCALING " << dimstr << std::endl << "VALUE MUST BE BETWEEN 0 AND 3 " << std::endl; exit(1); } }else if(internalDim == "mm" ){ if( dimstr == "m" ) { valsig = 1.E3; }else if( dimstr == "mm" ) { valsig = 1.; }else if( dimstr == "mum" ) { valsig = 1.E-3; }else if( dimstr == "cm" ) { valsig = 1.E+1; }else { std::cerr << "!!! UNKNOWN DIMENSION SCALING: " << dimstr << std::endl << "VALUE MUST BE A LENGTH DIMENSION " << std::endl; exit(1); } } return valsig; }
std::string ALIUtils::changeName | ( | const std::string & | oldName, |
const std::string & | subsstr1, | ||
const std::string & | subsstr2 | ||
) | [static] |
Definition at line 573 of file ALIUtils.cc.
Referenced by Measurement::copyMeas(), and Model::copyMeasurements().
{ std::string newName = oldName; int il = oldName.find( subsstr1 ); // std::cout << " il " << il << " oldname " << oldName << " " << subsstr1 << std::endl; while( il >= 0 ) { newName = newName.substr( 0, il ) + subsstr2 + newName.substr( il+subsstr1.length(), newName.length() ); // std::cout << " dnewName " << newName << " " << newName.substr( 0, il ) << " " << subsstr2 << " " << newName.substr( il+subsstr1.length(), newName.length() ) << std::endl; il = oldName.find( subsstr1, il+1 ); } return newName; }
int ALIUtils::checkMatrixEquations | ( | double | angleX, |
double | angleY, | ||
double | angleZ, | ||
CLHEP::HepRotation * | rot | ||
) | [static] |
Definition at line 799 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, funct::cos(), eq2ang(), and funct::sin().
Referenced by getRotationAnglesFromMatrix().
{ //- std::cout << " cme " << angleX << " " << angleY << " " << angleZ << std::endl; if( rot == 0 ) { rot = new CLHEP::HepRotation(); rot->rotateX( angleX ); rot->rotateY( angleY ); rot->rotateZ( angleZ ); } double sx = sin(angleX); double cx = cos(angleX); double sy = sin(angleY); double cy = cos(angleY); double sz = sin(angleZ); double cz = cos(angleZ); double rotxx = cy*cz; double rotxy = sx*sy*cz-cx*sz; double rotxz = cx*sy*cz+sx*sz; double rotyx = cy*sz; double rotyy = sx*sy*sz+cx*cz; double rotyz = cx*sy*sz-sx*cz; double rotzx = -sy; double rotzy = sx*cy; double rotzz = cx*cy; int matrixElemBad = 0; if( !eq2ang( rot->xx(), rotxx ) ) { std::cerr << " EQUATION for xx() IS BAD " << rot->xx() << " <> " << rotxx << std::endl; matrixElemBad++; } if( !eq2ang( rot->xy(), rotxy ) ) { std::cerr << " EQUATION for xy() IS BAD " << rot->xy() << " <> " << rotxy << std::endl; matrixElemBad++; } if( !eq2ang( rot->xz(), rotxz ) ) { std::cerr << " EQUATION for xz() IS BAD " << rot->xz() << " <> " << rotxz << std::endl; matrixElemBad++; } if( !eq2ang( rot->yx(), rotyx ) ) { std::cerr << " EQUATION for yx() IS BAD " << rot->yx() << " <> " << rotyx << std::endl; matrixElemBad++; } if( !eq2ang( rot->yy(), rotyy ) ) { std::cerr << " EQUATION for yy() IS BAD " << rot->yy() << " <> " << rotyy << std::endl; matrixElemBad++; } if( !eq2ang( rot->yz(), rotyz ) ) { std::cerr << " EQUATION for yz() IS BAD " << rot->yz() << " <> " << rotyz << std::endl; matrixElemBad++; } if( !eq2ang( rot->zx(), rotzx ) ) { std::cerr << " EQUATION for zx() IS BAD " << rot->zx() << " <> " << rotzx << std::endl; matrixElemBad++; } if( !eq2ang( rot->zy(), rotzy ) ) { std::cerr << " EQUATION for zy() IS BAD " << rot->zy() << " <> " << rotzy << std::endl; matrixElemBad++; } if( !eq2ang( rot->zz(), rotzz ) ) { std::cerr << " EQUATION for zz() IS BAD " << rot->zz() << " <> " << rotzz << std::endl; matrixElemBad++; } //- std::cout << " cme: matrixElemBad " << matrixElemBad << std::endl; return matrixElemBad; }
double ALIUtils::diff2pi | ( | double | ang1, |
double | ang2 | ||
) | [static] |
Definition at line 748 of file ALIUtils.cc.
References diffTreeTool::diff.
Referenced by eq2ang(), and getRotationAnglesFromMatrix().
void ALIUtils::dump3v | ( | const CLHEP::Hep3Vector & | vec, |
const std::string & | msg | ||
) | [static] |
Definition at line 61 of file ALIUtils.cc.
References gather_cfg::cout.
Referenced by ALILine::ALILine(), ALIPlane::ALIPlane(), OptOOpticalSquare::calculateFaces(), OptOSensor2D::convertPointToLocalCoordinates(), OptOCOPS::convertPointToLocalCoordinates(), OptOPinhole::defaultBehaviour(), OptOCubeSplitter::detailedDeviatesLightRay(), OptOMirror::detailedDeviatesLightRay(), OptOPlateSplitter::detailedDeviatesLightRay(), OptOModifiedRhomboidPrism::detailedDeviatesLightRay(), OpticalObject::displaceCentreGlobOriginal(), OpticalObject::displaceCentreGlobOriginalOriginal(), OpticalObject::displaceRmGlobAroundGlobal(), OpticalObject::displaceRmGlobAroundLocal(), OpticalObject::displaceRmGlobOriginal(), OpticalObject::displaceRmGlobOriginalOriginal(), LightRay::dumpData(), OpticalObjectMgr::dumpOptOs(), OpticalObject::getDispVec(), OptOCubeSplitter::getMiddlePlate(), OpticalObject::getPlate(), OptOModifiedRhomboidPrism::getRotatedPlate(), OptOCubeSplitter::getUpperPlate(), ALILine::intersect(), LightRay::intersect(), OptODistancemeter::makeMeasurement(), OptODistancemeter3dim::makeMeasurement(), OptOTiltmeter::makeMeasurement(), OptOSensor2D::makeMeasurement(), OptOCOPS::makeMeasurement(), LightRay::reflect(), LightRay::refract(), OpticalObject::SetCentreGlobFromCentreLocal(), OpticalObject::SetCentreLocalFromEntryValues(), LightRay::shiftAndDeviateWhileTraversing(), and OptOUserDefined::userDefinedBehaviour().
{ // double phicyl = atan( vec.y()/vec.x() ); std::cout << msg << std::setprecision(8) << vec; std::cout << std::endl; // std::cout << " " << vec.theta()/deg << " " << vec.phi()/deg << " " << vec.perp() << " " << phicyl/deg << std::endl; // setw(10); // std::cout << msg << " x=" << std::setprecision(8) << vec.x() << " y=" << setprecision(8) <<vec.y() << " z=" << std::setprecision(8) << vec.z() << std::endl; // std::setprecision(8); }
void ALIUtils::dumpDimensions | ( | std::ofstream & | fout | ) | [static] |
Definition at line 337 of file ALIUtils.cc.
References _OutputAngleSigmaDimensionFactor, _OutputAngleValueDimensionFactor, _OutputLengthSigmaDimensionFactor, _OutputLengthValueDimensionFactor, dtNoiseDBValidation_cfg::cerr, cmsRelvalreport::exit, and M_PI.
Referenced by Fit::fitNextEvent(), and FittedEntriesManager::MakeHistos().
{ fout << "DIMENSIONS: lengths = "; ALIstring internalDim = "m"; if(_OutputLengthValueDimensionFactor == 1. ) { fout << "m"; }else if(_OutputLengthValueDimensionFactor == 1.E-3 ) { fout << "mm"; }else if(_OutputLengthValueDimensionFactor == 1.E-6 ) { fout << "mum"; }else if(_OutputLengthValueDimensionFactor == 1.E-2 ) { fout << "cm"; } else { std::cerr << " !! unknown OutputLengthValueDimensionFactor " << _OutputLengthValueDimensionFactor << std::endl; exit(1); } fout << " +- "; if(_OutputLengthSigmaDimensionFactor == 1. ) { fout << "m"; }else if(_OutputLengthSigmaDimensionFactor == 1.E-3 ) { fout << "mm"; }else if(_OutputLengthSigmaDimensionFactor == 1.E-6 ) { fout << "mum"; }else if(_OutputLengthSigmaDimensionFactor == 1.E-2 ) { fout << "cm"; } else { std::cerr << " !! unknown OutputLengthSigmaDimensionFactor " << _OutputLengthSigmaDimensionFactor << std::endl; exit(1); } fout << " angles = "; if(_OutputAngleValueDimensionFactor == 1. ) { fout << "rad"; }else if(_OutputAngleValueDimensionFactor == 1.E-3 ) { fout << "mrad"; }else if(_OutputAngleValueDimensionFactor == 1.E-6 ) { fout << "murad"; }else if(_OutputAngleValueDimensionFactor == M_PI/180. ) { fout << "deg"; }else if(_OutputAngleValueDimensionFactor == M_PI/200. ) { fout << "grad"; } else { std::cerr << " !! unknown OutputAngleValueDimensionFactor " << _OutputAngleValueDimensionFactor << std::endl; exit(1); } fout << " +- "; if(_OutputAngleSigmaDimensionFactor == 1. ) { fout << "rad"; }else if(_OutputAngleSigmaDimensionFactor == 1.E-3 ) { fout << "mrad"; }else if(_OutputAngleSigmaDimensionFactor == 1.E-6 ) { fout << "murad"; }else if(_OutputAngleSigmaDimensionFactor == M_PI/180. ) { fout << "deg"; }else if(_OutputAngleSigmaDimensionFactor == M_PI/200. ) { fout << "grad"; } else { std::cerr << " !! unknown OutputAngleSigmaDimensionFactor " << _OutputAngleSigmaDimensionFactor << std::endl; exit(1); } fout << std::endl; }
void ALIUtils::dumprm | ( | const CLHEP::HepRotation & | rm, |
const std::string & | msg, | ||
std::ostream & | out = std::cout |
||
) | [static] |
Definition at line 77 of file ALIUtils.cc.
Referenced by OpticalObject::buildRmFromEntryValuesOriginalOriginal(), OptOSensor2D::convertPointToLocalCoordinates(), OptOCOPS::convertPointToLocalCoordinates(), OpticalObject::displaceRmGlobAroundGlobal(), OpticalObject::displaceRmGlobAroundLocal(), OpticalObject::displaceRmGlobOriginal(), OpticalObject::displaceRmGlobOriginalOriginal(), OpticalObject::getDispVec(), OptOCubeSplitter::getMiddlePlate(), OpticalObject::getPlate(), OptOModifiedRhomboidPrism::getRotatedPlate(), getRotationAnglesFromMatrix(), OpticalObject::getRotationAnglesInOptOFrame(), OptOCubeSplitter::getUpperPlate(), OptOTiltmeter::makeMeasurement(), Fit::printCentreInOptOFrame(), OpticalObject::propagateGlobalRMOriginalOriginalChangeToChildren(), OpticalObject::SetCentreGlobFromCentreLocal(), OpticalObject::setGlobalRMOriginalOriginal(), OpticalObject::SetRMGlobFromRMLocal(), OpticalObject::SetRMLocalFromEntryValues(), LightRay::startLightRay(), and EntryAngleAffAngles::valueDisplaced().
void ALIUtils::dumpVS | ( | const std::vector< ALIstring > & | wl, |
const std::string & | msg, | ||
std::ostream & | outs = std::cout |
||
) | [static] |
dumps a vector of strings with a message to outs
Definition at line 501 of file ALIUtils.cc.
Referenced by OpticalObject::buildWordList(), Measurement::constructFromOA(), OpticalObject::copyData(), EntryData::fill(), Entry::fill(), DeviationSensor2D::fillData(), OpticalObject::fillExtraEntry(), FittedEntriesReader::FittedEntriesReader(), OpticalObject::getCoordinateFromOptAlignParam(), DeviationsFromFileSensor2D::readFile(), ErrorCorrelationMgr::readFromReportFile(), Model::readMeasurementsFromFile(), CocoaDaqReaderText::ReadNextEvent(), Model::readSystemDescription(), MeasurementDistancemeter::setConversionFactor(), MeasurementCOPS::setConversionFactor(), MeasurementSensor2D::setConversionFactor(), MeasurementTiltmeter::setConversionFactor(), MeasurementDistancemeter3dim::setConversionFactor(), and Measurement::setCurrentDate().
bool ALIUtils::eq2ang | ( | double | ang1, |
double | ang2 | ||
) | [static] |
Definition at line 758 of file ALIUtils.cc.
References diffTreeTool::diff, and diff2pi().
Referenced by checkMatrixEquations(), and getRotationAnglesFromMatrix().
bool ALIUtils::getBool | ( | const ALIstring & | str | ) | [static] |
Convert a bool to an integer, checking that it is really a bool.
Definition at line 453 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, and cmsRelvalreport::exit.
{ bool val; //t str = upper( str ); //----------- first check that it is a not number if( str == "ON" || str == "TRUE" ) { val = true; } else if( str == "OFF" || str == "FALSE" ) { val = false; } else { std::cerr << "!!!! EXITING: trying to get the float from a string that is not 'ON'/'OFF'/'TRUE'/'FALSE' " << str << std::endl; exit(1); } return val; }
Definition at line 515 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, M_PI, and relativeConstraints::value.
Referenced by EntryMgr::readEntryFromReportOut().
{ ALIdouble value; if( dimType == "Length" ) { if( dim == "mm" ) { value = 1.E-3; }else if( dim == "cm" ) { value = 1.E-2; }else if( dim == "m" ) { value = 1.; }else if( dim == "mum" ) { value = 1.E-6; }else if( dim == "dm" ) { value = 1.E-1; }else if( dim == "nm" ) { value = 1.E-9; }else { std::cerr << "!!!!FATAL ERROR: ALIUtils::GetDimensionValue. " << dim << " is a dimension not supported for dimension type " << dimType << std::endl; abort(); } } else if( dimType == "Angle" ) { if( dim == "rad" ) { value = 1.; }else if( dim == "mrad" ) { value = 1.E-3; }else if( dim == "murad" ) { value = 1.E-6; }else if( dim == "deg" ) { value = M_PI/180.; }else if( dim == "grad" ) { value = M_PI/200.; }else { std::cerr << "!!!!FATAL ERROR: ALIUtils::GetDimensionValue. " << dim << " is a dimension not supported for dimension type " << dimType << std::endl; abort(); } }else { std::cerr << "!!!!FATAL ERROR: ALIUtils::GetDimensionValue. " << dimType << " is a dimension type not supported " << std::endl; abort(); } return value; }
static ALIbool ALIUtils::getFirstTime | ( | ) | [inline, static] |
Definition at line 100 of file ALIUtils.h.
References firstTime.
Referenced by Measurement::calculateOriginalSimulatedValue(), MeasurementSensor2D::calculateSimulatedValue(), MeasurementCOPS::calculateSimulatedValue(), MeasurementDistancemeter3dim::calculateSimulatedValue(), MeasurementDistancemeter::calculateSimulatedValue(), MeasurementDiffEntry::calculateSimulatedValue(), Fit::PropagateErrors(), OptOUserDefined::userDefinedBehaviour(), and Fit::WriteVisualisationFiles().
{ return firstTime; }
double ALIUtils::getFloat | ( | const ALIstring & | str | ) | [static] |
Convert a string to an float, checking that it is really a number.
Definition at line 404 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, cmsRelvalreport::exit, and IsNumber().
Referenced by EntryData::fill(), DeviationSensor2D::fillData(), FittedEntriesSet::FillEntriesFromFile(), OptOSensor2D::fillExtraEntry(), FittedEntriesReader::readFittedEntriesFromFile(), ErrorCorrelationMgr::readFromReportFile(), and Model::readSystemDescription().
int ALIUtils::getInt | ( | const ALIstring & | str | ) | [static] |
Convert a string to an integer, checking that it is really an integer.
Definition at line 417 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, cmsRelvalreport::exit, and IsNumber().
Referenced by OpticalObject::createComponentOptOs(), and Model::readSystemDescription().
{ //----------- first check that it is an integer if(!IsNumber(str) ) { //----- Check that it is a number std::cerr << "!!!! EXITING: trying to get the integer from a string that is not a number " << str << std::endl; exit(1); } else { //----- Check that it is not a float, no decimal or E-n bool isFloat = 0; int ch = str.find('.'); ALIuint ii = 0; if(ch != -1 ) { for( ii = ch+1; ii < str.size(); ii++) { if( str[ii] != '0' ) isFloat = 1; } } ch = str.find('E'); if(ch != -1 ) ch = str.find('e'); if(ch != -1 ) { if(str[ch+1] == '-') isFloat = 1; } if(isFloat) { std::cerr << "!!!! EXITING: trying to get the integer from a string that is a float: " << str << std::endl; std::cerr << ii << " ii " << ch <<std::endl; exit(1); } } return int( atof( str.c_str() ) ); }
static ALIdouble ALIUtils::getMaximumDeviationDerivative | ( | ) | [inline, static] |
Definition at line 106 of file ALIUtils.h.
References maximum_deviation_derivative.
Referenced by Measurement::DerivativeRespectEntry(), and Fit::getInstance().
{ return maximum_deviation_derivative; }
std::vector< double > ALIUtils::getRotationAnglesFromMatrix | ( | CLHEP::HepRotation & | rmLocal, |
double | origAngleX, | ||
double | origAngleY, | ||
double | origAngleZ | ||
) | [static] |
Definition at line 591 of file ALIUtils.cc.
References addPii(), approxTo0(), dtNoiseDBValidation_cfg::cerr, checkMatrixEquations(), funct::cos(), gather_cfg::cout, debug, diff2pi(), dumprm(), eq2ang(), makeMuonMisalignmentScenario::rot, and funct::sin().
Referenced by CocoaAnalyzer::ReadXMLFile().
{ double pii = acos(0.)*2; std::vector<double> newang(3); double angleX = origAngleX; double angleY = origAngleY; double angleZ = origAngleZ; if( ALIUtils::debug >= 4 ) { std::cout << " angles as value entries: X= " << angleX << " Y= " << angleY << " Z " << angleZ << std::endl; } //- std::cout << name () << " vdbf " << angleX << " " << angleY << " " << angleZ << std::endl; double rotzx = approxTo0( rmLocal.zx() ); double rotzy = approxTo0( rmLocal.zy() ); double rotzz = approxTo0( rmLocal.zz() ); double rotyx = approxTo0( rmLocal.yx() ); double rotxx = approxTo0( rmLocal.xx() ); if( rotzy == 0. && rotzz == 0. ) { //check that entry is z angle newang[0] = angleX; //beware of aa <==> pii - aa if( eq2ang( rmLocal.zx(), -1. ) ) { double aa = asin( rmLocal.xy() ); if( diff2pi( angleZ, - aa + newang[0] ) < diff2pi( angleZ, - pii + aa + newang[0] ) ) { newang[2] = -aa + newang[0]; if( ALIUtils::debug >= 5 ) std::cout << " newang[0] = -aa + newang[0] " << std::endl; } else { newang[2] = -pii + aa + newang[0]; if( ALIUtils::debug >= 5 ) std::cout << " newang[0] = -pii + aa + newang[0] " << newang[0] << " " << aa << " " << newang[2] << std::endl; } } else { double aa = asin( -rmLocal.xy() ); if( diff2pi( angleZ, aa - newang[0] ) < diff2pi( angleZ, pii - aa - newang[0] ) ) { newang[2] = aa - newang[0]; if( ALIUtils::debug >= 5 ) std::cout << " newang[0] = aa - newang[2] " << std::endl; } else { newang[2] = pii - aa - newang[0]; if( ALIUtils::debug >= 5 ) std::cout << " newang[0] = pii - aa - newang[2] " << newang[0] << " " << aa << " " << newang[2] << std::endl; } } } else { newang[0] = atan( rotzy / rotzz ); newang[2] = atan( rotyx / rotxx ); } if( rotzx < -1. ) { //- std::cerr << " rotzx too small " << rotzx << " = " << rmLocal.zx() << " " << rotzx-rmLocal.zx() << std::endl; rotzx = -1.; } else if( rotzx > 1. ) { //- std::cerr << " rotzx too big " << rotzx << " = " << rmLocal.zx() << " " << rotzx-rmLocal.zx() << std::endl; rotzx = 1.; } newang[1] = -asin( rotzx ); if( ALIUtils::debug >= 5 ) std::cout << "First calculation of angles: " << std::endl << " newang[0] " << newang[0] << " " << rotzy << " " << rotzz << std::endl << " newang[1] " << newang[1] << " " << rotzx << std::endl << " newang[2] " << newang[2] << " " << rotyx << " " << rotxx << std::endl; // newang[2] = acos( rmLocal.xx() / cos( newang[1] ) ); //----- CHECK if the angles are OK (there are several symmetries) //--- Check if the predictions with the angles obtained match the values of the rotation matrix (they may differ for exampole by a sign or more in complicated formulas) double rotnewxx = cos( newang[1] ) * cos( newang[2] ); double rotnewzz = cos( newang[0] ) * cos( newang[1] ); double rotnewxy = sin( newang[0] ) * sin( newang[1] ) * cos( newang[2] ) - cos( newang[0] )* sin( newang[2] ); double rotnewxz = cos( newang[0] ) * sin( newang[1] ) * cos( newang[2] ) + sin( newang[0] )* sin( newang[2] ); double rotnewyy = sin( newang[0] ) * sin( newang[1] ) * sin( newang[2] ) + cos( newang[0] )* cos( newang[2] ); double rotnewyz = cos( newang[0] ) * sin( newang[1] ) * sin( newang[2] ) - sin( newang[0] )* cos( newang[2] ); bool eqxx = eq2ang( rotnewxx, rmLocal.xx() ); bool eqzz = eq2ang( rotnewzz, rmLocal.zz() ); bool eqxy = eq2ang( rotnewxy, rmLocal.xy() ); bool eqxz = eq2ang( rotnewxz, rmLocal.xz() ); bool eqyy = eq2ang( rotnewyy, rmLocal.yy() ); bool eqyz = eq2ang( rotnewyz, rmLocal.yz() ); //--- Check if one of the tree angles should be changed if( ALIUtils::debug >= 5 ) { std::cout << " pred rm.xx " << rotnewxx << " =? " << rmLocal.xx() << " pred rm.zz " << rotnewzz << " =? " << rmLocal.zz() << std::endl; std::cout << " eqxx " << eqxx << " eqzz " << eqzz << std::endl; //- std::cout << " rotnewxx " << rotnewxx << " = " << rmLocal.xx() << " " << fabs( rotnewxx - rmLocal.xx() ) << " " <<(fabs( rotnewxx - rmLocal.xx() ) < 0.0001) << std::endl; } if( eqxx & !eqzz ) { newang[0] = pii + newang[0]; if( ALIUtils::debug >= 5 ) std::cout << " change newang[0] " << newang[0] << std::endl; } else if( !eqxx & !eqzz ) { newang[1] = pii - newang[1]; if( ALIUtils::debug >= 5 ) std::cout << " change newang[1] " << newang[1] << std::endl; } else if( !eqxx & eqzz ) { newang[2] = pii + newang[2]; if( ALIUtils::debug >= 5 ) std::cout << " change newang[2] " << newang[2] << std::endl; } //--- Check if the 3 angles should be changed (previous check is invariant to the 3 changing) if( ALIUtils::debug >= 5 ) { std::cout << " pred rm.xy " << rotnewxy << " =? " << rmLocal.xy() << " pred rm.xz " << rotnewxz << " =? " << rmLocal.xz() << " pred rm.yy " << rotnewyy << " =? " << rmLocal.yy() << " pred rm.yz " << rotnewyz << " =? " << rmLocal.yz() << std::endl; std::cout << " eqxy " << eqxy << " eqxz " << eqxz << " eqyy " << eqyy << " eqyz " << eqyz << std::endl; } if( !eqxy || !eqxz || !eqyy || !eqyz ) { // check also cases where one of the above 'eq' is OK because it is = 0 if( ALIUtils::debug >= 5 ) std::cout << " change the 3 newang " << std::endl; newang[0] = addPii( newang[0] ); newang[1] = pii - newang[1]; newang[2] = addPii( newang[2] ); double rotnewxy = -sin( newang[0] ) * sin( newang[1] ) * cos( newang[2] ) - cos( newang[0] )* sin( newang[2] ); double rotnewxz = -cos( newang[0] ) * sin( newang[1] ) * cos( newang[2] ) - sin( newang[0] )* sin( newang[2] ); if( ALIUtils::debug >= 5 ) std::cout << " rotnewxy " << rotnewxy << " = " << rmLocal.xy() << " rotnewxz " << rotnewxz << " = " << rmLocal.xz() << std::endl; } if( diff2pi(angleX, newang[0] ) + diff2pi(angleY, newang[1] ) +diff2pi(angleZ, newang[2] ) > diff2pi(angleX, pii+newang[0] ) + diff2pi(angleY, pii-newang[1] ) + diff2pi(angleZ, pii+newang[2] ) ){ // check also cases where one of the above 'eq' is OK because it is = 0 if( ALIUtils::debug >= 5 ) std::cout << " change the 3 newang " << std::endl; newang[0] = addPii( newang[0] ); newang[1] = pii - newang[1]; newang[2] = addPii( newang[2] ); double rotnewxy = -sin( newang[0] ) * sin( newang[1] ) * cos( newang[2] ) - cos( newang[0] )* sin( newang[2] ); double rotnewxz = -cos( newang[0] ) * sin( newang[1] ) * cos( newang[2] ) - sin( newang[0] )* sin( newang[2] ); if( ALIUtils::debug >= 5 ) std::cout << " rotnewxy " << rotnewxy << " = " << rmLocal.xy() << " rotnewxz " << rotnewxz << " = " << rmLocal.xz() << std::endl; } for (int ii=0; ii<3; ii++) { newang[ii] = approxTo0( newang[ii] ); } // double rotnewyx = cos( newang[1] ) * sin( newang[2] ); if( checkMatrixEquations( newang[0], newang[1], newang[2], &rmLocal ) != 0 ){ std::cerr << " wrong rotation matrix " << newang[0] << " " << newang[1] << " " << newang[2] << std::endl; ALIUtils::dumprm( rmLocal, " matrix is " ); } if( ALIUtils::debug >= 5 ) { std::cout << "Final angles: newang[0] " << newang[0] << " newang[1] " << newang[1] << " newang[2] " << newang[2] << std::endl; CLHEP::HepRotation rot; rot.rotateX( newang[0] ); ALIUtils::dumprm( rot, " new rot after X "); rot.rotateY( newang[1] ); ALIUtils::dumprm( rot, " new rot after Y "); rot.rotateZ( newang[2] ); ALIUtils::dumprm( rot, " new rot "); ALIUtils::dumprm( rmLocal, " rmLocal " ); //- ALIUtils::dumprm( theRmGlobOriginal, " theRmGlobOriginal " ); } //- std::cout << " before return newang[0] " << newang[0] << " newang[1] " << newang[1] << " newang[2] " << newang[2] << std::endl; return newang; }
int ALIUtils::IsNumber | ( | const ALIstring & | str | ) | [static] |
Definition at line 34 of file ALIUtils.cc.
Referenced by Measurement::fillData(), Entry::fillFromInputFileSigma(), Entry::fillFromInputFileValue(), getFloat(), getInt(), ParameterMgr::getVal(), Model::readSystemDescription(), MeasurementDistancemeter::setConversionFactor(), MeasurementCOPS::setConversionFactor(), MeasurementSensor2D::setConversionFactor(), MeasurementTiltmeter::setConversionFactor(), and MeasurementDistancemeter3dim::setConversionFactor().
{ int isnum = 1; int numE = 0; for(ALIuint ii=0; ii<str.length(); ii++){ if(!isdigit(str[ii]) && str[ii]!='.' && str[ii]!='-' && str[ii]!='+') { //--- check for E(xponential) if(str[ii] == 'E' || str[ii] == 'e' ) { if(numE != 0 || ii == str.length()-1) { isnum = 0; break; } numE++; } else { isnum = 0; break; } } } return isnum; }
static ALIdouble ALIUtils::LengthSigmaDimensionFactor | ( | ) | [inline, static] |
Definition at line 73 of file ALIUtils.h.
References _LengthSigmaDimensionFactor.
Referenced by EntryLength::SigmaDimensionFactor(), and Measurement::sigmaDimensionFactor().
{ return _LengthSigmaDimensionFactor;}
static ALIdouble ALIUtils::LengthValueDimensionFactor | ( | ) | [inline, static] |
Definition at line 71 of file ALIUtils.h.
References _LengthValueDimensionFactor.
Referenced by OptOSensor2D::fastTraversesLightRay(), EntryMgr::readEntryFromReportOut(), OpticalObject::transformCylindrical2Cartesian(), EntryLength::ValueDimensionFactor(), and Measurement::valueDimensionFactor().
{ return _LengthValueDimensionFactor;}
static ALIdouble ALIUtils::OutputAngleSigmaDimensionFactor | ( | ) | [inline, static] |
Definition at line 85 of file ALIUtils.h.
References _OutputAngleSigmaDimensionFactor.
Referenced by EntryAngle::OutputSigmaDimensionFactor().
{ return _OutputAngleSigmaDimensionFactor;}
static ALIdouble ALIUtils::OutputAngleValueDimensionFactor | ( | ) | [inline, static] |
Definition at line 83 of file ALIUtils.h.
References _OutputAngleValueDimensionFactor.
Referenced by EntryAngle::OutputValueDimensionFactor().
{ return _OutputAngleValueDimensionFactor;}
static ALIdouble ALIUtils::OutputLengthSigmaDimensionFactor | ( | ) | [inline, static] |
Definition at line 81 of file ALIUtils.h.
References _OutputLengthSigmaDimensionFactor.
Referenced by EntryLength::OutputSigmaDimensionFactor().
{ return _OutputLengthSigmaDimensionFactor;}
static ALIdouble ALIUtils::OutputLengthValueDimensionFactor | ( | ) | [inline, static] |
Definition at line 79 of file ALIUtils.h.
References _OutputLengthValueDimensionFactor.
Referenced by EntryLength::OutputValueDimensionFactor().
{ return _OutputLengthValueDimensionFactor;}
static void ALIUtils::set_time_now | ( | time_t | now | ) | [inline, static] |
Definition at line 47 of file ALIUtils.h.
References _time_now, and cmsPerfSuiteHarvest::now.
Referenced by Fit::getFitQuality(), Fit::multiplyMatrices(), and Fit::PropagateErrors().
void ALIUtils::SetAngleDimensionFactors | ( | ) | [static] |
Definition at line 116 of file ALIUtils.cc.
References _AngleSigmaDimensionFactor, _AngleValueDimensionFactor, CalculateAngleDimensionFactorFromInt(), gather_cfg::cout, debug, GlobalOptionMgr::getInstance(), and GlobalOptionMgr::GlobalOptions().
Referenced by Model::readSystemDescription().
{ //--------------------- if it doesn exist, GlobalOptions is 0 //---------- Calculate factors to convert to radians GlobalOptionMgr* gomgr = GlobalOptionMgr::getInstance(); ALIint ad = ALIint(gomgr->GlobalOptions()[ ALIstring("angle_value_dimension") ]); _AngleValueDimensionFactor = CalculateAngleDimensionFactorFromInt(ad); ad = ALIint(gomgr->GlobalOptions()[ ALIstring("angle_error_dimension" ) ]); _AngleSigmaDimensionFactor = CalculateAngleDimensionFactorFromInt(ad); //---------- Change factor to convert to error dimensions // _AngleValueDimensionFactor /= _AngleSigmaDimensionFactor; //_AngleSigmaDimensionFactor = 1; if(ALIUtils::debug >= 6) std::cout << _AngleValueDimensionFactor << "Set Angle DimensionFactors" << _AngleSigmaDimensionFactor << std::endl; }
static void ALIUtils::setDebugVerbosity | ( | ALIint | val | ) | [inline, static] |
Definition at line 41 of file ALIUtils.h.
References debug.
Referenced by CocoaAnalyzer::analyze(), and GlobalOptionMgr::setGlobalOption().
{ debug = val; }
static void ALIUtils::setFirstTime | ( | ALIbool | val | ) | [inline, static] |
Definition at line 103 of file ALIUtils.h.
References firstTime.
Referenced by Fit::PropagateErrors(), and Fit::startFit().
{ firstTime = val; }
void ALIUtils::SetLengthDimensionFactors | ( | ) | [static] |
Definition at line 91 of file ALIUtils.cc.
References _LengthSigmaDimensionFactor, _LengthValueDimensionFactor, CalculateLengthDimensionFactorFromInt(), gather_cfg::cout, debug, GlobalOptionMgr::getGlobalOption(), GlobalOptionMgr::getInstance(), and GlobalOptionMgr::GlobalOptions().
Referenced by Model::readSystemDescription().
{ //---------------------------------------- if it doesn exist, GlobalOptions is 0 //---------- Calculate factors to convert to meters GlobalOptionMgr* gomgr = GlobalOptionMgr::getInstance(); ALIint ad = ALIint(gomgr->getGlobalOption("length_value_dimension")); _LengthValueDimensionFactor = CalculateLengthDimensionFactorFromInt( ad ); ad = ALIint(gomgr->GlobalOptions()[ ALIstring("length_error_dimension" ) ]); _LengthSigmaDimensionFactor = CalculateLengthDimensionFactorFromInt( ad ); //---------- Change factor to convert to error dimensions // _LengthValueDimensionFactor /= _LengthSigmaDimensionFactor; //_LengthSigmaDimensionFactor = 1; if(ALIUtils::debug >= 6) std::cout << _LengthValueDimensionFactor << " Set Length DimensionFactors " << _LengthSigmaDimensionFactor << std::endl; }
static void ALIUtils::setMaximumDeviationDerivative | ( | ALIdouble | val | ) | [inline, static] |
Definition at line 108 of file ALIUtils.h.
References maximum_deviation_derivative.
Referenced by Fit::getInstance().
{ maximum_deviation_derivative = val; }
void ALIUtils::SetOutputAngleDimensionFactors | ( | ) | [static] |
Definition at line 169 of file ALIUtils.cc.
References _OutputAngleSigmaDimensionFactor, _OutputAngleValueDimensionFactor, CalculateAngleDimensionFactorFromInt(), gather_cfg::cout, debug, GlobalOptionMgr::getInstance(), and GlobalOptionMgr::GlobalOptions().
Referenced by Model::readSystemDescription().
{ //--------------------- if it doesn exist, GlobalOptions is 0 //---------- Calculate factors to convert to radians GlobalOptionMgr* gomgr = GlobalOptionMgr::getInstance(); ALIint ad = ALIint(gomgr->GlobalOptions()[ ALIstring("output_angle_value_dimension") ]); if( ad == 0 ) ad = ALIint(gomgr->GlobalOptions()[ ALIstring("angle_value_dimension") ]); _OutputAngleValueDimensionFactor = CalculateAngleDimensionFactorFromInt(ad); ad = ALIint(gomgr->GlobalOptions()[ ALIstring("output_angle_error_dimension") ]); if( ad == 0) ad = ALIint(gomgr->GlobalOptions()[ ALIstring("angle_error_dimension") ]); _OutputAngleSigmaDimensionFactor = CalculateAngleDimensionFactorFromInt(ad); //---------- Change factor to convert to error dimensions // _AngleValueDimensionFactor /= _AngleSigmaDimensionFactor; //_AngleSigmaDimensionFactor = 1; if(ALIUtils::debug >= 9) std::cout << _OutputAngleValueDimensionFactor << "Output Angle Dimension Factors" << _OutputAngleSigmaDimensionFactor << std::endl; }
void ALIUtils::SetOutputLengthDimensionFactors | ( | ) | [static] |
Definition at line 141 of file ALIUtils.cc.
References _OutputLengthSigmaDimensionFactor, _OutputLengthValueDimensionFactor, CalculateLengthDimensionFactorFromInt(), gather_cfg::cout, debug, GlobalOptionMgr::getInstance(), and GlobalOptionMgr::GlobalOptions().
Referenced by Model::readSystemDescription().
{ //---------------------------------------- if it doesn exist, GlobalOptions is 0 //---------- Calculate factors to convert to meters GlobalOptionMgr* gomgr = GlobalOptionMgr::getInstance(); ALIint ad = ALIint(gomgr->GlobalOptions()[ ALIstring("output_length_value_dimension") ]); if( ad == 0 ) ad = ALIint(gomgr->GlobalOptions()[ ALIstring("length_value_dimension") ]); _OutputLengthValueDimensionFactor = CalculateLengthDimensionFactorFromInt( ad ); ad = ALIint(gomgr->GlobalOptions()[ ALIstring("output_length_error_dimension" ) ]); if( ad == 0 ) ad = ALIint(gomgr->GlobalOptions()[ ALIstring("length_error_dimension" ) ]); _OutputLengthSigmaDimensionFactor = CalculateLengthDimensionFactorFromInt( ad ); //---------- Change factor to convert to error dimensions // _LengthValueDimensionFactor /= _LengthSigmaDimensionFactor; //_LengthSigmaDimensionFactor = 1; if(ALIUtils::debug >= 6) std::cout << _OutputLengthValueDimensionFactor << "Output Length Dimension Factors" << _OutputLengthSigmaDimensionFactor << std::endl; }
static void ALIUtils::setReportVerbosity | ( | ALIint | val | ) | [inline, static] |
Definition at line 38 of file ALIUtils.h.
References report.
Referenced by GlobalOptionMgr::setGlobalOption().
{ report = val; }
Definition at line 472 of file ALIUtils.cc.
References dtNoiseDBValidation_cfg::cerr, and cmsRelvalreport::exit.
{ //---------- Take out leading and trailing '"' if( str.find('"') != 0 || str.rfind('"') != str.length()-1 ) { std::cerr << "!!!EXITING trying to substract quotes from a word that has no quotes " << str << std::endl; exit(1); } // str = str.strip(ALIstring::both, '\"'); //---------- Take out leading and trallling '"' ALIstring strt = str.substr(1,str.size()-2); //- std::cout << " subquotes " << str << std::endl; //---------- Look for leading spaces while( strt[0] == ' ' ) { strt = strt.substr(1,strt.size()-1); } //---------- Look for trailing spaces while( strt[strt.size()-1] == ' ' ) { strt = strt.substr(0,strt.size()-1); } return strt; }
static time_t ALIUtils::time_now | ( | ) | [inline, static] |
Definition at line 44 of file ALIUtils.h.
References _time_now.
Referenced by Fit::getFitQuality(), Fit::multiplyMatrices(), and Fit::PropagateErrors().
{ return _time_now; }
Definition at line 88 of file ALIUtils.h.
{ //-std::cout << val << " val " << ( (val <= 1.E-9) ? 0. : val) << std::endl; // return (abs(val) <= 1.E-9) ? 0. : val; } if( fabs(val) <= 1.E-9) { return 0.; }else { return val; }; }
ALIdouble ALIUtils::_AngleSigmaDimensionFactor = 1. [static, private] |
Definition at line 123 of file ALIUtils.h.
Referenced by AngleSigmaDimensionFactor(), and SetAngleDimensionFactors().
ALIdouble ALIUtils::_AngleValueDimensionFactor = 1. [static, private] |
Definition at line 122 of file ALIUtils.h.
Referenced by AngleValueDimensionFactor(), and SetAngleDimensionFactors().
ALIdouble ALIUtils::_LengthSigmaDimensionFactor = 1. [static, private] |
Definition at line 121 of file ALIUtils.h.
Referenced by LengthSigmaDimensionFactor(), and SetLengthDimensionFactors().
ALIdouble ALIUtils::_LengthValueDimensionFactor = 1. [static, private] |
Definition at line 120 of file ALIUtils.h.
Referenced by LengthValueDimensionFactor(), and SetLengthDimensionFactors().
ALIdouble ALIUtils::_OutputAngleSigmaDimensionFactor = 1. [static, private] |
Definition at line 127 of file ALIUtils.h.
Referenced by dumpDimensions(), OutputAngleSigmaDimensionFactor(), and SetOutputAngleDimensionFactors().
ALIdouble ALIUtils::_OutputAngleValueDimensionFactor = 1. [static, private] |
Definition at line 126 of file ALIUtils.h.
Referenced by dumpDimensions(), OutputAngleValueDimensionFactor(), and SetOutputAngleDimensionFactors().
ALIdouble ALIUtils::_OutputLengthSigmaDimensionFactor = 1. [static, private] |
Definition at line 125 of file ALIUtils.h.
Referenced by dumpDimensions(), OutputLengthSigmaDimensionFactor(), and SetOutputLengthDimensionFactors().
ALIdouble ALIUtils::_OutputLengthValueDimensionFactor = 1. [static, private] |
Definition at line 124 of file ALIUtils.h.
Referenced by dumpDimensions(), OutputLengthValueDimensionFactor(), and SetOutputLengthDimensionFactors().
time_t ALIUtils::_time_now [static, private] |
Definition at line 128 of file ALIUtils.h.
Referenced by set_time_now(), and time_now().
ALIint ALIUtils::debug = -1 [static] |
Definition at line 35 of file ALIUtils.h.
Referenced by Measurement::addAffectingEntriesFromOptO(), Fit::addDaMatrixToEntries(), Entry::addFittedDisplacementToValue(), ParameterMgr::addParameter(), ParameterMgr::addRandomFlatParameter(), ParameterMgr::addRandomGaussParameter(), ALILine::ALILine(), ALIPlane::ALIPlane(), CocoaDBMgr::BuildAlignments(), Model::BuildMeasurementsFromOA(), CocoaDaqReaderRoot::BuildMeasurementsFromOptAlign(), CocoaDBMgr::BuildOpticalAlignments(), Measurement::buildOptOList(), OpticalObject::buildRmFromEntryValuesOriginalOriginal(), OpticalObject::buildWordList(), OptOOpticalSquare::calculateFaces(), OpticalObject::calculateLocalRotationAxisInGlobal(), Measurement::calculateOriginalSimulatedValue(), Fit::calculateSimulatedMeasurementsWithOriginalValues(), MeasurementTiltmeter::calculateSimulatedValue(), MeasurementSensor2D::calculateSimulatedValue(), MeasurementDistancemeter3dim::calculateSimulatedValue(), MeasurementCOPS::calculateSimulatedValue(), MeasurementDistancemeter::calculateSimulatedValue(), MeasurementDiffEntry::calculateSimulatedValue(), Fit::CheckIfFitPossible(), Fit::CheckIfMeasIsProportionalToAnother(), Model::CMSLinkDeleteOptOs(), CocoaDaqReaderRoot::CocoaDaqReaderRoot(), CocoaDaqReaderText::CocoaDaqReaderText(), OpticalObject::construct(), Measurement::construct(), Measurement::constructFromOA(), OpticalObject::constructFromOptAligInfo(), OptOSensor2D::convertPointToLocalCoordinates(), OptOCOPS::convertPointToLocalCoordinates(), OpticalObject::copyData(), Measurement::copyMeas(), CocoaAnalyzer::CorrectOaParam(), CocoaAnalyzer::CorrectOptAlignments(), MeasurementCOPS::correctValueAndSigma(), MeasurementDistancemeter::correctValueAndSigma(), MeasurementDistancemeter3dim::correctValueAndSigma(), MeasurementSensor2D::correctValueAndSigma(), MeasurementTiltmeter::correctValueAndSigma(), OpticalObject::createComponentOptOs(), OpticalObject::createComponentOptOsFromOptAlignInfo(), Model::createCopyComponentList(), FittedEntriesManager::createFileName(), Fit::CreateMatrices(), OpticalObject::createNewOptO(), OptOXLaser::defaultBehaviour(), OptOLaser::defaultBehaviour(), OptOPinhole::defaultBehaviour(), OptOCOPS::defaultBehaviour(), OptOSource::defaultBehaviour(), Model::deleteOptO(), Measurement::DerivativeRespectEntry(), OptOOpticalSquare::detailedDeviatesLightRay(), OptOCubeSplitter::detailedDeviatesLightRay(), OptOMirror::detailedDeviatesLightRay(), OptOPlateSplitter::detailedDeviatesLightRay(), OptOModifiedRhomboidPrism::detailedDeviatesLightRay(), OptOModifiedRhomboidPrism::detailedTraversesLightRay(), OptOCubeSplitter::detailedTraversesLightRay(), OptOPlateSplitter::detailedTraversesLightRay(), OptOSensor2D::detailedTraversesLightRay(), OptOMirror::detailedTraversesLightRay(), OptOOpticalSquare::detailedTraversesLightRay(), EntryLengthAffCentre::displace(), Entry::displace(), OpticalObject::displaceCentreGlob(), OpticalObject::displaceCentreGlobOriginal(), OpticalObject::displaceCentreGlobOriginalOriginal(), EntryLengthAffCentre::displaceOriginal(), Entry::displaceOriginal(), Entry::displaceOriginalOriginal(), EntryAngleAffAngles::displaceOriginalOriginal(), EntryLengthAffCentre::displaceOriginalOriginal(), OpticalObject::displaceRmGlobAroundGlobal(), OpticalObject::displaceRmGlobAroundLocal(), OpticalObject::displaceRmGlobOriginal(), OpticalObject::displaceRmGlobOriginalOriginal(), Measurement::DumpBadOrderOptOs(), CocoaDBMgr::DumpCocoaResults(), FittedEntriesManager::dumpEntriesSubstraction(), Fit::dumpEntryAfterFit(), Fit::dumpEntryCorrelations(), Fit::dumpFittedValues(), MatrixMeschach::EliminateColumns(), MatrixMeschach::EliminateLines(), Entry::Entry(), OptOOpticalSquare::fastDeviatesLightRay(), OptOCubeSplitter::fastDeviatesLightRay(), OptOModifiedRhomboidPrism::fastDeviatesLightRay(), OptOPlateSplitter::fastDeviatesLightRay(), OptOMirror::fastDeviatesLightRay(), OptOPlateSplitter::fastTraversesLightRay(), OptOMirror::fastTraversesLightRay(), OptOCubeSplitter::fastTraversesLightRay(), OptOCOPS::fastTraversesLightRay(), OptOModifiedRhomboidPrism::fastTraversesLightRay(), OptOSensor2D::fastTraversesLightRay(), OptOOpticalSquare::fastTraversesLightRay(), EntryData::fill(), Entry::fill(), Model::fillCopyComponentList(), Measurement::fillData(), FittedEntriesSet::FillEntriesAveragingSets(), OpticalObject::fillExtraEntry(), OptOSensor2D::fillExtraEntry(), Entry::fillFromInputFileQuality(), Entry::fillFromInputFileSigma(), Entry::fillFromInputFileValue(), Entry::fillFromReportOutFileValue(), Fit::FillMatricesWithCalibratedParameters(), Fit::FillMatricesWithMeasurements(), EntryMgr::findEntryByLongName(), OpticalObject::findExtraEntryValue(), CocoaAnalyzer::FindOpticalAlignInfoXML(), Fit::fitNextEvent(), Fit::fitParameters(), FittedEntry::FittedEntry(), CocoaDBMgr::GetAlignInfoErrorFromOptO(), CocoaDBMgr::GetAlignInfoFromOptO(), Model::getComponentOptOs(), OpticalObject::getCoordinateFromOptAlignParam(), FittedEntriesManager::GetDifferentBetweenLasers(), OpticalObject::getDispVec(), Model::getEntryByName(), Fit::getEntryValue(), Fit::getFitQuality(), GlobalOptionMgr::getGlobalOption(), GlobalOptionMgr::getGlobalOptionValue(), Fit::getInstance(), OptOCOPS::getMeasFromInters(), OptOCubeSplitter::getMiddlePlate(), Model::getOptOByName(), OpticalObject::getPlate(), OptOModifiedRhomboidPrism::getRotatedPlate(), getRotationAnglesFromMatrix(), OpticalObject::getRotationAnglesFromMatrix(), OpticalObject::getRotationAnglesInOptOFrame(), Fit::GetSChi2(), OptOCubeSplitter::getUpperPlate(), ALILine::intersect(), LightRay::intersect(), MatrixMeschach::inverse(), LightRay::LightRay(), FittedEntriesManager::MakeHistos(), OptODistancemeter::makeMeasurement(), OptODistancemeter3dim::makeMeasurement(), OptOTiltmeter::makeMeasurement(), OptOSensor2D::makeMeasurement(), OptOCOPS::makeMeasurement(), Fit::multiplyMatrices(), Model::nextOptOToCopy(), operator+(), MatrixMeschach::operator=(), OpticalObject::OpticalObject(), Measurement::postConstruct(), Fit::printCentreInOptOFrame(), Fit::PrintChi2(), Fit::PropagateErrors(), CocoaAnalyzer::ReadCalibrationDB(), OpticalObject::readCoordinates(), EntryMgr::readEntryFromReportOut(), CocoaDaqReaderRoot::ReadEvent(), DeviationsFromFileSensor2D::readFile(), FittedEntriesReader::readFittedEntriesFromFile(), ErrorCorrelationMgr::readFromReportFile(), Model::readMeasurementsFromFile(), CocoaDaqReaderText::ReadNextEvent(), Model::readSystemDescription(), CocoaAnalyzer::ReadXMLFile(), Fit::redoMatrices(), LightRay::reflect(), LightRay::refract(), OpticalObject::rotateItAroundGlobal(), CocoaAnalyzer::RunCocoa(), SetAngleDimensionFactors(), OpticalObject::SetCentreGlobFromCentreLocal(), OpticalObject::SetCentreLocalFromEntryValues(), MatrixMeschach::SetCorrelation(), Fit::setCorrelationsInWMatrix(), setDebugVerbosity(), Fit::setFittableEntries(), GlobalOptionMgr::setGlobalOption(), OpticalObject::setGlobalRMOriginalOriginal(), SetLengthDimensionFactors(), FittedEntriesSet::SetOptOEntries(), OpticalObject::setOriginalEntryValues(), SetOutputAngleDimensionFactors(), SetOutputLengthDimensionFactors(), OpticalObject::SetRMGlobFromRMLocal(), OpticalObject::SetRMLocalFromEntryValues(), Model::SetValueDisplacementsFromReportOut(), LightRay::shiftAndDeviateWhileTraversing(), Fit::startFit(), LightRay::startLightRay(), Measurement::Substitute2p(), FittedEntriesReader::substitutePointBySlash(), Fit::substractLastDisplacementToEntries(), OpticalObject::transformCylindrical2Cartesian(), OptOUserDefined::userDefinedBehaviour(), Entry::valueDisplaced(), EntryLengthAffCentre::valueDisplaced(), EntryAngleAffAngles::valueDisplaced(), and Fit::WriteVisualisationFiles().
ALIdouble ALIUtils::deg = 0.017453293 [static] |
Definition at line 36 of file ALIUtils.h.
Referenced by OptOModifiedRhomboidPrism::getRotatedPlate().
ALIbool ALIUtils::firstTime = false [static, private] |
Definition at line 130 of file ALIUtils.h.
Referenced by getFirstTime(), and setFirstTime().
ALIdouble ALIUtils::maximum_deviation_derivative = 1.E-6 [static, private] |
Definition at line 132 of file ALIUtils.h.
Referenced by getMaximumDeviationDerivative(), and setMaximumDeviationDerivative().
ALIint ALIUtils::report = 1 [static] |
Definition at line 34 of file ALIUtils.h.
Referenced by Fit::dumpEntryAfterFit(), Fit::fitNextEvent(), Fit::getFitQuality(), Fit::PrintChi2(), CocoaAnalyzer::RunCocoa(), and setReportVerbosity().