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; }