int main(int n, char **p)
{
Step::RefPtr<ifc2x3::ExpressDataSet> eds ;
try
{
std::cout << "Creating ExpressDataSet" << std::endl;
eds = new ifc2x3::ExpressDataSet;
}
catch (const std::exception& e)
{
TEST_FAILURE((std::string("Exception : ") + e.what()).c_str());
}
TEST_VALIDITY(eds);
Step::RefPtr<ifc2x3::IfcSIUnit> SIUnit = eds->createIfcSIUnit();
TEST_VALIDITY(SIUnit);
//TEST_ASSERT(SIUnit->getDimensions()==0);
Step::RefPtr<ifc2x3::IfcDimensionalExponents> DimensionalExponents = eds->createIfcDimensionalExponents();
DimensionalExponents->setLengthExponent(1);
DimensionalExponents->setMassExponent(1);
DimensionalExponents->setTimeExponent(1);
DimensionalExponents->setElectricCurrentExponent(1);
DimensionalExponents->setThermodynamicTemperatureExponent(1);
DimensionalExponents->setAmountOfSubstanceExponent(1);
DimensionalExponents->setLuminousIntensityExponent(1);
SIUnit->setDimensions(DimensionalExponents);
Step::RefPtr<ifc2x3::IfcDimensionalExponents> ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
/*
IfcUnitEnum_UNSET,
IfcUnitEnum_ABSORBEDDOSEUNIT,
IfcUnitEnum_AMOUNTOFSUBSTANCEUNIT,
IfcUnitEnum_AREAUNIT,
IfcUnitEnum_DOSEEQUIVALENTUNIT,
IfcUnitEnum_ELECTRICCAPACITANCEUNIT,
IfcUnitEnum_ELECTRICCHARGEUNIT,
IfcUnitEnum_ELECTRICCONDUCTANCEUNIT,
IfcUnitEnum_ELECTRICCURRENTUNIT,
IfcUnitEnum_ELECTRICRESISTANCEUNIT,
IfcUnitEnum_ELECTRICVOLTAGEUNIT,
IfcUnitEnum_ENERGYUNIT,
IfcUnitEnum_FORCEUNIT,
IfcUnitEnum_FREQUENCYUNIT,
IfcUnitEnum_ILLUMINANCEUNIT,
IfcUnitEnum_INDUCTANCEUNIT,
IfcUnitEnum_LENGTHUNIT,
IfcUnitEnum_LUMINOUSFLUXUNIT,
IfcUnitEnum_LUMINOUSINTENSITYUNIT,
IfcUnitEnum_MAGNETICFLUXDENSITYUNIT,
IfcUnitEnum_MAGNETICFLUXUNIT,
IfcUnitEnum_MASSUNIT,
IfcUnitEnum_PLANEANGLEUNIT,
IfcUnitEnum_POWERUNIT,
IfcUnitEnum_PRESSUREUNIT,
IfcUnitEnum_RADIOACTIVITYUNIT,
IfcUnitEnum_SOLIDANGLEUNIT,
IfcUnitEnum_THERMODYNAMICTEMPERATUREUNIT,
IfcUnitEnum_TIMEUNIT,
IfcUnitEnum_VOLUMEUNIT,
IfcUnitEnum_USERDEFINED,
*/
SIUnit->setUnitType(ifc2x3::IfcUnitEnum_ABSORBEDDOSEUNIT);
/*
IfcSIPrefix_UNSET,
IfcSIPrefix_EXA,
IfcSIPrefix_PETA,
IfcSIPrefix_TERA,
IfcSIPrefix_GIGA,
IfcSIPrefix_MEGA,
IfcSIPrefix_KILO,
IfcSIPrefix_HECTO,
IfcSIPrefix_DECA,
IfcSIPrefix_DECI,
IfcSIPrefix_CENTI,
IfcSIPrefix_MILLI,
IfcSIPrefix_MICRO,
IfcSIPrefix_NANO,
IfcSIPrefix_PICO,
IfcSIPrefix_FEMTO,
IfcSIPrefix_ATTO,
*/
SIUnit->setPrefix(ifc2x3::IfcSIPrefix_EXA);
/*
IfcSIUnitName_UNSET,
IfcSIUnitName_AMPERE,
IfcSIUnitName_BECQUEREL,
IfcSIUnitName_CANDELA,
IfcSIUnitName_COULOMB,
IfcSIUnitName_CUBIC_METRE,
IfcSIUnitName_DEGREE_CELSIUS,
IfcSIUnitName_FARAD,
IfcSIUnitName_GRAM,
IfcSIUnitName_GRAY,
IfcSIUnitName_HENRY,
IfcSIUnitName_HERTZ,
IfcSIUnitName_JOULE,
IfcSIUnitName_KELVIN,
IfcSIUnitName_LUMEN,
IfcSIUnitName_LUX,
IfcSIUnitName_METRE,
IfcSIUnitName_MOLE,
IfcSIUnitName_NEWTON,
IfcSIUnitName_OHM,
IfcSIUnitName_PASCAL,
IfcSIUnitName_RADIAN,
IfcSIUnitName_SECOND,
IfcSIUnitName_SIEMENS,
IfcSIUnitName_SIEVERT,
IfcSIUnitName_SQUARE_METRE,
IfcSIUnitName_STERADIAN,
IfcSIUnitName_TESLA,
IfcSIUnitName_VOLT,
IfcSIUnitName_WATT,
IfcSIUnitName_WEBER,*/
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_METRE");
SIUnit->setName(ifc2x3::IfcSIUnitName_METRE);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_SQUARE_METRE");
SIUnit->setName(ifc2x3::IfcSIUnitName_SQUARE_METRE);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_CUBIC_METRE");
SIUnit->setName(ifc2x3::IfcSIUnitName_CUBIC_METRE);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==3);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_GRAM");
SIUnit->setName(ifc2x3::IfcSIUnitName_GRAM);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_SECOND");
SIUnit->setName(ifc2x3::IfcSIUnitName_SECOND);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_AMPERE");
SIUnit->setName(ifc2x3::IfcSIUnitName_AMPERE);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_KELVIN");
SIUnit->setName(ifc2x3::IfcSIUnitName_KELVIN);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_MOLE");
SIUnit->setName(ifc2x3::IfcSIUnitName_MOLE);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_CANDELA");
SIUnit->setName(ifc2x3::IfcSIUnitName_CANDELA);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==1);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_RADIAN");
SIUnit->setName(ifc2x3::IfcSIUnitName_RADIAN);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_STERADIAN");
SIUnit->setName(ifc2x3::IfcSIUnitName_STERADIAN);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_HERTZ");
SIUnit->setName(ifc2x3::IfcSIUnitName_HERTZ);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_NEWTON");
SIUnit->setName(ifc2x3::IfcSIUnitName_NEWTON);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_PASCAL");
SIUnit->setName(ifc2x3::IfcSIUnitName_PASCAL);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_JOULE");
SIUnit->setName(ifc2x3::IfcSIUnitName_JOULE);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_WATT");
SIUnit->setName(ifc2x3::IfcSIUnitName_WATT);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-3);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_COULOMB");
SIUnit->setName(ifc2x3::IfcSIUnitName_COULOMB);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_VOLT");
SIUnit->setName(ifc2x3::IfcSIUnitName_VOLT);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-3);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_FARAD");
SIUnit->setName(ifc2x3::IfcSIUnitName_FARAD);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==4);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_OHM");
SIUnit->setName(ifc2x3::IfcSIUnitName_OHM);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-3);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_SIEMENS");
SIUnit->setName(ifc2x3::IfcSIUnitName_SIEMENS);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==3);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_WEBER");
SIUnit->setName(ifc2x3::IfcSIUnitName_WEBER);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_TESLA");
SIUnit->setName(ifc2x3::IfcSIUnitName_TESLA);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_HENRY");
SIUnit->setName(ifc2x3::IfcSIUnitName_HENRY);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_DEGREE_CELSIUS");
SIUnit->setName(ifc2x3::IfcSIUnitName_DEGREE_CELSIUS);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==1);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_LUMEN");
SIUnit->setName(ifc2x3::IfcSIUnitName_LUMEN);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==1);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_LUX");
SIUnit->setName(ifc2x3::IfcSIUnitName_LUX);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==1);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_BECQUEREL");
SIUnit->setName(ifc2x3::IfcSIUnitName_BECQUEREL);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-1);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_GRAY");
SIUnit->setName(ifc2x3::IfcSIUnitName_GRAY);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
////////////////////////////////////////////////////////////////////////////////////////////////////////
LOG_DEBUG("IfcSIUnitName_SIEVERT");
SIUnit->setName(ifc2x3::IfcSIUnitName_SIEVERT);
ResultDimensionalExponents = SIUnit->getDimensions();
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==2);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==-2);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
std::cout << std::endl << "Failure : " << failure_results << " Success : " << success_results << std::endl;
return failure_results;
}
int main(int n, char **p)
{
Step::RefPtr<ifc2x3::ExpressDataSet> eds ;
try
{
std::cout << "Creating ExpressDataSet" << std::endl;
eds = new ifc2x3::ExpressDataSet;
}
catch (const std::exception& e)
{
TEST_FAILURE((std::string("Exception : ") + e.what()).c_str());
}
TEST_VALIDITY(eds);
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
Step::RefPtr<ifc2x3::IfcDerivedUnit> DerivedUnit = eds->createIfcDerivedUnit();
TEST_VALIDITY(DerivedUnit);
Step::RefPtr<ifc2x3::IfcDimensionalExponents> ResultDimensionalExponents = DerivedUnit->getDimensions();
TEST_VALIDITY(ResultDimensionalExponents);
LOG_DEBUG("ResultDimensionalExponents->getLengthExponent() = " << ResultDimensionalExponents->getLengthExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==0);
LOG_DEBUG("ResultDimensionalExponents->getMassExponent() = " << ResultDimensionalExponents->getMassExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==0);
LOG_DEBUG("ResultDimensionalExponents->getTimeExponent() = " << ResultDimensionalExponents->getTimeExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==0);
LOG_DEBUG("ResultDimensionalExponents->getElectricCurrentExponent() = " << ResultDimensionalExponents->getElectricCurrentExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==0);
LOG_DEBUG("ResultDimensionalExponents->getThermodynamicTemperatureExponent() = " << ResultDimensionalExponents->getThermodynamicTemperatureExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==0);
LOG_DEBUG("ResultDimensionalExponents->getAmountOfSubstanceExponent() = " << ResultDimensionalExponents->getAmountOfSubstanceExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==0);
LOG_DEBUG("ResultDimensionalExponents->getLuminousIntensityExponent() = " << ResultDimensionalExponents->getLuminousIntensityExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==0);
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
Step::RefPtr<ifc2x3::IfcDerivedUnitElement> DerivedUnitElement1 = eds->createIfcDerivedUnitElement();
Step::RefPtr<ifc2x3::IfcNamedUnit> ContextDependentUnit1 = eds->createIfcContextDependentUnit();
Step::RefPtr<ifc2x3::IfcDimensionalExponents> DimensionalExponents1 = eds->createIfcDimensionalExponents();
DimensionalExponents1->setLengthExponent(1);
DimensionalExponents1->setMassExponent(1);
DimensionalExponents1->setTimeExponent(1);
DimensionalExponents1->setElectricCurrentExponent(1);
DimensionalExponents1->setThermodynamicTemperatureExponent(1);
DimensionalExponents1->setAmountOfSubstanceExponent(1);
DimensionalExponents1->setLuminousIntensityExponent(1);
ContextDependentUnit1->setDimensions(DimensionalExponents1);
DerivedUnitElement1->setUnit(ContextDependentUnit1);
DerivedUnitElement1->setExponent(1);
Step::RefPtr<ifc2x3::IfcDerivedUnitElement> DerivedUnitElement2 = eds->createIfcDerivedUnitElement();
Step::RefPtr<ifc2x3::IfcNamedUnit> ContextDependentUnit2 = eds->createIfcContextDependentUnit();
Step::RefPtr<ifc2x3::IfcDimensionalExponents> DimensionalExponents2 = eds->createIfcDimensionalExponents();
DimensionalExponents2->setLengthExponent(2);
DimensionalExponents2->setMassExponent(2);
DimensionalExponents2->setTimeExponent(2);
DimensionalExponents2->setElectricCurrentExponent(2);
DimensionalExponents2->setThermodynamicTemperatureExponent(2);
DimensionalExponents2->setAmountOfSubstanceExponent(2);
DimensionalExponents2->setLuminousIntensityExponent(2);
ContextDependentUnit2->setDimensions(DimensionalExponents2);
DerivedUnitElement2->setUnit(ContextDependentUnit2);
DerivedUnitElement2->setExponent(2);
Step::RefPtr<ifc2x3::IfcDerivedUnitElement> DerivedUnitElement3 = eds->createIfcDerivedUnitElement();
Step::RefPtr<ifc2x3::IfcNamedUnit> ContextDependentUnit3 = eds->createIfcContextDependentUnit();
Step::RefPtr<ifc2x3::IfcDimensionalExponents> DimensionalExponents3 = eds->createIfcDimensionalExponents();
DimensionalExponents3->setLengthExponent(3);
DimensionalExponents3->setMassExponent(3);
DimensionalExponents3->setTimeExponent(3);
DimensionalExponents3->setElectricCurrentExponent(3);
DimensionalExponents3->setThermodynamicTemperatureExponent(3);
DimensionalExponents3->setAmountOfSubstanceExponent(3);
DimensionalExponents3->setLuminousIntensityExponent(3);
ContextDependentUnit3->setDimensions(DimensionalExponents3);
DerivedUnitElement3->setUnit(ContextDependentUnit3);
DerivedUnitElement3->setExponent(3);
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
ifc2x3::Set_IfcDerivedUnitElement_1_n SetDerivedUnitElement;
SetDerivedUnitElement.insert(DerivedUnitElement1);
DerivedUnit->setElements(SetDerivedUnitElement);
ResultDimensionalExponents = DerivedUnit->getDimensions();
LOG_DEBUG("ResultDimensionalExponents->getLengthExponent() = " << ResultDimensionalExponents->getLengthExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==1);
LOG_DEBUG("ResultDimensionalExponents->getMassExponent() = " << ResultDimensionalExponents->getMassExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==1);
LOG_DEBUG("ResultDimensionalExponents->getTimeExponent() = " << ResultDimensionalExponents->getTimeExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==1);
LOG_DEBUG("ResultDimensionalExponents->getElectricCurrentExponent() = " << ResultDimensionalExponents->getElectricCurrentExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==1);
LOG_DEBUG("ResultDimensionalExponents->getThermodynamicTemperatureExponent() = " << ResultDimensionalExponents->getThermodynamicTemperatureExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==1);
LOG_DEBUG("ResultDimensionalExponents->getAmountOfSubstanceExponent() = " << ResultDimensionalExponents->getAmountOfSubstanceExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==1);
LOG_DEBUG("ResultDimensionalExponents->getLuminousIntensityExponent() = " << ResultDimensionalExponents->getLuminousIntensityExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==1);
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
SetDerivedUnitElement.insert(DerivedUnitElement2);
DerivedUnit->setElements(SetDerivedUnitElement);
ResultDimensionalExponents = DerivedUnit->getDimensions();
LOG_DEBUG("ResultDimensionalExponents->getLengthExponent() = " << ResultDimensionalExponents->getLengthExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==5);
LOG_DEBUG("ResultDimensionalExponents->getMassExponent() = " << ResultDimensionalExponents->getMassExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==5);
LOG_DEBUG("ResultDimensionalExponents->getTimeExponent() = " << ResultDimensionalExponents->getTimeExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==5);
LOG_DEBUG("ResultDimensionalExponents->getElectricCurrentExponent() = " << ResultDimensionalExponents->getElectricCurrentExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==5);
LOG_DEBUG("ResultDimensionalExponents->getThermodynamicTemperatureExponent() = " << ResultDimensionalExponents->getThermodynamicTemperatureExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==5);
LOG_DEBUG("ResultDimensionalExponents->getAmountOfSubstanceExponent() = " << ResultDimensionalExponents->getAmountOfSubstanceExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==5);
LOG_DEBUG("ResultDimensionalExponents->getLuminousIntensityExponent() = " << ResultDimensionalExponents->getLuminousIntensityExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==5);
/////////////////////////////////////////////////////////////////////////////////////////////////////////////
SetDerivedUnitElement.insert(DerivedUnitElement3);
DerivedUnit->setElements(SetDerivedUnitElement);
ResultDimensionalExponents = DerivedUnit->getDimensions();
LOG_DEBUG("ResultDimensionalExponents->getLengthExponent() = " << ResultDimensionalExponents->getLengthExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLengthExponent()==14);
LOG_DEBUG("ResultDimensionalExponents->getMassExponent() = " << ResultDimensionalExponents->getMassExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getMassExponent()==14);
LOG_DEBUG("ResultDimensionalExponents->getTimeExponent() = " << ResultDimensionalExponents->getTimeExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getTimeExponent()==14);
LOG_DEBUG("ResultDimensionalExponents->getElectricCurrentExponent() = " << ResultDimensionalExponents->getElectricCurrentExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getElectricCurrentExponent()==14);
LOG_DEBUG("ResultDimensionalExponents->getThermodynamicTemperatureExponent() = " << ResultDimensionalExponents->getThermodynamicTemperatureExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getThermodynamicTemperatureExponent()==14);
LOG_DEBUG("ResultDimensionalExponents->getAmountOfSubstanceExponent() = " << ResultDimensionalExponents->getAmountOfSubstanceExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getAmountOfSubstanceExponent()==14);
LOG_DEBUG("ResultDimensionalExponents->getLuminousIntensityExponent() = " << ResultDimensionalExponents->getLuminousIntensityExponent() << std::endl);
TEST_ASSERT(ResultDimensionalExponents->getLuminousIntensityExponent()==14);
///////////////////////////////////////////////////////////////////////////////////////////////////////////////
std::cout << std::endl << "Failure : " << failure_results << " Success : " << success_results << std::endl;
return failure_results;
}