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::IfcElementarySurface> BasisSurface = eds->createIfcPlane(); TEST_VALIDITY(BasisSurface); TEST_ASSERT(BasisSurface->getDim()==0); Step::RefPtr<ifc2x3::IfcDirection> axis = eds->createIfcDirection(); axis->getDirectionRatios().push_back(1); axis->getDirectionRatios().push_back(0); axis->getDirectionRatios().push_back(0); Step::RefPtr<ifc2x3::IfcDirection> RefDirection = eds->createIfcDirection(); RefDirection->getDirectionRatios().push_back(1); RefDirection->getDirectionRatios().push_back(1); RefDirection->getDirectionRatios().push_back(0); Step::RefPtr<ifc2x3::IfcCartesianPoint> Location = eds->createIfcCartesianPoint(); ifc2x3::List_IfcLengthMeasure_1_3 Coordinates; Coordinates.push_back(0); Coordinates.push_back(0); Coordinates.push_back(0); Location->setCoordinates(Coordinates); Step::RefPtr<ifc2x3::IfcAxis2Placement3D> Pos = eds->createIfcAxis2Placement3D(); Pos->setAxis(axis); Pos->setRefDirection(RefDirection); Pos->setLocation(Location); BasisSurface->setPosition(Pos); TEST_ASSERT(BasisSurface->getDim()==3); /////////////////////////////////////////////////////////////////////////////////////////////////////////////// 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); /////////////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with a IfcBoundedCurve" << std::endl); Step::RefPtr<ifc2x3::IfcBSplineCurve> BSpline = eds->createIfcBezierCurve(); TEST_VALIDITY(BSpline); TEST_ASSERT(BSpline->getDim()==0); ifc2x3::Array_IfcCartesianPoint_0_255 ControlPoint = BSpline->getControlPoints(); Step::Integer IndexOnControlPoints = BSpline->getUpperIndexOnControlPoints(); TEST_ASSERT(ControlPoint.size()==256); TEST_ASSERT(IndexOnControlPoints==0); ifc2x3::List_IfcLengthMeasure_1_3 Coordinates1; Coordinates1.push_back(1); Coordinates1.push_back(1); Coordinates1.push_back(0); Step::RefPtr< ifc2x3::IfcCartesianPoint > Point1 = eds->createIfcCartesianPoint(); Point1->setCoordinates(Coordinates1); ifc2x3::List_IfcCartesianPoint_2_n ListOfIfcCartesianPoint; ListOfIfcCartesianPoint.push_back(Point1); BSpline->setControlPointsList(ListOfIfcCartesianPoint); LOG_DEBUG("BSpline->getDim() = " << BSpline->getDim() << std::endl); TEST_ASSERT(BSpline->getDim()==3); /////////////////////////////////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with a IfcConic" << std::endl); Step::RefPtr<ifc2x3::IfcConic> Circle = eds->createIfcCircle(); TEST_VALIDITY(Circle); TEST_ASSERT(Circle->getDim()==0); ifc2x3::List_IfcLengthMeasure_1_3 CoordinatesAxis22D; CoordinatesAxis22D.push_back(0); CoordinatesAxis22D.push_back(0); Step::RefPtr< ifc2x3::IfcCartesianPoint > Location1 = eds->createIfcCartesianPoint(); Location1->setCoordinates(CoordinatesAxis22D); Step::RefPtr<ifc2x3::IfcDirection> RefDirection1 = eds->createIfcDirection(); RefDirection1->getDirectionRatios().push_back(1.0); RefDirection1->getDirectionRatios().push_back(1.0); Step::RefPtr< ifc2x3::IfcAxis2Placement > Axis2Placement1 = new ifc2x3::IfcAxis2Placement(); Step::RefPtr< ifc2x3::IfcAxis2Placement2D > Axis2Placement2D1 = eds->createIfcAxis2Placement2D(); Axis2Placement2D1->setLocation(Location1); Axis2Placement2D1->setRefDirection(RefDirection1); Axis2Placement1->setIfcAxis2Placement2D(Axis2Placement2D1.get()); Circle->setPosition(Axis2Placement1); TEST_ASSERT(Circle->getDim()==2); ifc2x3::List_IfcLengthMeasure_1_3 CoordinatesAxis23D; CoordinatesAxis23D.push_back(0); CoordinatesAxis23D.push_back(0); CoordinatesAxis23D.push_back(0); Step::RefPtr< ifc2x3::IfcCartesianPoint > Location2 = eds->createIfcCartesianPoint(); Location2->setCoordinates(CoordinatesAxis23D); Step::RefPtr<ifc2x3::IfcDirection> RefDirection2 = eds->createIfcDirection(); RefDirection2->getDirectionRatios().push_back(1.0); RefDirection2->getDirectionRatios().push_back(1.0); RefDirection2->getDirectionRatios().push_back(1.0); Step::RefPtr< ifc2x3::IfcAxis2Placement > Axis2Placement2 = new ifc2x3::IfcAxis2Placement(); Step::RefPtr< ifc2x3::IfcAxis2Placement3D > Axis2Placement3D1 = eds->createIfcAxis2Placement3D(); Axis2Placement3D1->setLocation(Location2); Axis2Placement3D1->setRefDirection(RefDirection2); Axis2Placement2->setIfcAxis2Placement3D(Axis2Placement3D1.get()); Circle->setPosition(Axis2Placement2); TEST_ASSERT(Circle->getDim()==3); Step::RefPtr<ifc2x3::IfcConic> Ellipse = eds->createIfcEllipse(); TEST_VALIDITY(Ellipse); TEST_ASSERT(Ellipse->getDim()==0); ifc2x3::List_IfcLengthMeasure_1_3 CoordinatesAxis22D1; CoordinatesAxis22D1.push_back(0); CoordinatesAxis22D1.push_back(0); Step::RefPtr< ifc2x3::IfcCartesianPoint > Location3 = eds->createIfcCartesianPoint(); Location3->setCoordinates(CoordinatesAxis22D1); Step::RefPtr<ifc2x3::IfcDirection> RefDirection3 = eds->createIfcDirection(); RefDirection3->getDirectionRatios().push_back(1.0); RefDirection3->getDirectionRatios().push_back(1.0); Step::RefPtr< ifc2x3::IfcAxis2Placement > Axis2Placement3 = new ifc2x3::IfcAxis2Placement(); Step::RefPtr< ifc2x3::IfcAxis2Placement2D > Axis2Placement2D2 = eds->createIfcAxis2Placement2D(); Axis2Placement2D2->setLocation(Location3); Axis2Placement2D2->setRefDirection(RefDirection3); Axis2Placement3->setIfcAxis2Placement2D(Axis2Placement2D2.get()); Ellipse->setPosition(Axis2Placement3); TEST_ASSERT(Ellipse->getDim()==2); ifc2x3::List_IfcLengthMeasure_1_3 CoordinatesAxis23D1; CoordinatesAxis23D1.push_back(0); CoordinatesAxis23D1.push_back(0); CoordinatesAxis23D1.push_back(0); Step::RefPtr< ifc2x3::IfcCartesianPoint > Location4 = eds->createIfcCartesianPoint(); Location4->setCoordinates(CoordinatesAxis23D1); Step::RefPtr<ifc2x3::IfcDirection> RefDirection4 = eds->createIfcDirection(); RefDirection4->getDirectionRatios().push_back(1.0); RefDirection4->getDirectionRatios().push_back(1.0); RefDirection4->getDirectionRatios().push_back(1.0); Step::RefPtr< ifc2x3::IfcAxis2Placement > Axis2Placement4 = new ifc2x3::IfcAxis2Placement(); Step::RefPtr< ifc2x3::IfcAxis2Placement3D > Axis2Placement3D2 = eds->createIfcAxis2Placement3D(); Axis2Placement3D2->setLocation(Location4); Axis2Placement3D2->setRefDirection(RefDirection2); Axis2Placement4->setIfcAxis2Placement3D(Axis2Placement3D2.get()); Ellipse->setPosition(Axis2Placement4); TEST_ASSERT(Ellipse->getDim()==3); /////////////////////////////////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with a IfcLine" << std::endl); Step::RefPtr<ifc2x3::IfcLine> Line = eds->createIfcLine(); TEST_VALIDITY(Line); TEST_ASSERT(Line->getDim()==0); Step::RefPtr< ifc2x3::IfcCartesianPoint > CartesianPoint1 = eds->createIfcCartesianPoint(); ifc2x3::List_IfcLengthMeasure_1_3 LPoint1; #ifdef STEP_CHECK_RANGE try { #endif LPoint1.push_back(0.0); LPoint1.push_back(0.0); #ifdef STEP_CHECK_RANGE } catch(std::out_of_range e) { TEST_FAILURE((std::string("Exception : ") + e.what()).c_str()); } #endif CartesianPoint1->setCoordinates(LPoint1); Line->setPnt(CartesianPoint1); TEST_ASSERT(Line->getDim()==2); Step::RefPtr< ifc2x3::IfcCartesianPoint > CartesianPoint2 = eds->createIfcCartesianPoint(); ifc2x3::List_IfcLengthMeasure_1_3 LPoint2; #ifdef STEP_CHECK_RANGE try { #endif LPoint2.push_back(0.0); LPoint2.push_back(0.0); LPoint2.push_back(0.0); #ifdef STEP_CHECK_RANGE } catch(std::out_of_range e) { TEST_FAILURE((std::string("Exception : ") + e.what()).c_str()); } #endif CartesianPoint2->setCoordinates(LPoint2); Line->setPnt(CartesianPoint2); TEST_ASSERT(Line->getDim()==3); /////////////////////////////////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with a IfcOffsetCurve2D" << std::endl); Step::RefPtr<ifc2x3::IfcOffsetCurve2D> OffsetCurve2D = eds->createIfcOffsetCurve2D(); TEST_VALIDITY(OffsetCurve2D); TEST_ASSERT(OffsetCurve2D->getDim()==2); /////////////////////////////////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with a IfcOffsetCurve3D" << std::endl); Step::RefPtr<ifc2x3::IfcOffsetCurve3D> OffsetCurve3D = eds->createIfcOffsetCurve3D(); TEST_VALIDITY(OffsetCurve3D); TEST_ASSERT(OffsetCurve3D->getDim()==3); /////////////////////////////////////////////////////////////////////////////////////////////////////////////// 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::IfcRectangularTrimmedSurface> RectangularTrimmedSurface = eds->createIfcRectangularTrimmedSurface(); TEST_VALIDITY(RectangularTrimmedSurface); LOG_DEBUG("RectangularTrimmedSurface->getDim() = "<<RectangularTrimmedSurface->getDim()<<std::endl); TEST_ASSERT(RectangularTrimmedSurface->getDim()==0); ///////////////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with CurveBoundedPlane2D"<< std::endl); Step::RefPtr<ifc2x3::IfcCurveBoundedPlane> CurveBoundedPlane1 = eds->createIfcCurveBoundedPlane(); TEST_VALIDITY(CurveBoundedPlane1); Step::RefPtr<ifc2x3::IfcPlane> BasisSurface1 = eds->createIfcPlane(); TEST_VALIDITY(BasisSurface1); Step::RefPtr<ifc2x3::IfcDirection> axis1 = eds->createIfcDirection(); axis1->getDirectionRatios().push_back(1); axis1->getDirectionRatios().push_back(0); Step::RefPtr<ifc2x3::IfcDirection> RefDirection1 = eds->createIfcDirection(); RefDirection1->getDirectionRatios().push_back(1); RefDirection1->getDirectionRatios().push_back(1); Step::RefPtr<ifc2x3::IfcCartesianPoint> Location1 = eds->createIfcCartesianPoint(); ifc2x3::List_IfcLengthMeasure_1_3 Coordinates1; Coordinates1.push_back(0); Coordinates1.push_back(0); Location1->setCoordinates(Coordinates1); Step::RefPtr<ifc2x3::IfcAxis2Placement3D> Pos1 = eds->createIfcAxis2Placement3D(); Pos1->setAxis(axis1); Pos1->setRefDirection(RefDirection1); Pos1->setLocation(Location1); BasisSurface1->setPosition(Pos1); CurveBoundedPlane1->setBasisSurface(BasisSurface1); ////////////////////////////////////////////////////////////////////////////////////// RectangularTrimmedSurface->setBasisSurface(CurveBoundedPlane1); RectangularTrimmedSurface->setU1(1.5); RectangularTrimmedSurface->setV1(2.5); RectangularTrimmedSurface->setU2(3.5); RectangularTrimmedSurface->setV1(4.5); RectangularTrimmedSurface->setUsense(Step::BTrue); RectangularTrimmedSurface->setVsense(Step::BTrue); LOG_DEBUG("RectangularTrimmedSurface->getDim() = "<<RectangularTrimmedSurface->getDim()<<std::endl); TEST_ASSERT(RectangularTrimmedSurface->getDim()==2); /////////////////////////////////////////////////////////////////////////////////////////// LOG_DEBUG("Test with CurveBoundedPlane3D"<< std::endl); Step::RefPtr<ifc2x3::IfcCurveBoundedPlane> CurveBoundedPlane2 = eds->createIfcCurveBoundedPlane(); TEST_VALIDITY(CurveBoundedPlane2); Step::RefPtr<ifc2x3::IfcPlane> BasisSurface2 = eds->createIfcPlane(); TEST_VALIDITY(BasisSurface2); Step::RefPtr<ifc2x3::IfcDirection> axis2 = eds->createIfcDirection(); axis2->getDirectionRatios().push_back(1); axis2->getDirectionRatios().push_back(0); axis2->getDirectionRatios().push_back(0); Step::RefPtr<ifc2x3::IfcDirection> RefDirection2 = eds->createIfcDirection(); RefDirection2->getDirectionRatios().push_back(1); RefDirection2->getDirectionRatios().push_back(1); RefDirection2->getDirectionRatios().push_back(1); Step::RefPtr<ifc2x3::IfcCartesianPoint> Location2 = eds->createIfcCartesianPoint(); ifc2x3::List_IfcLengthMeasure_1_3 Coordinates2; Coordinates2.push_back(0); Coordinates2.push_back(0); Coordinates2.push_back(0); Location2->setCoordinates(Coordinates2); Step::RefPtr<ifc2x3::IfcAxis2Placement3D> Pos2 = eds->createIfcAxis2Placement3D(); Pos2->setAxis(axis2); Pos2->setRefDirection(RefDirection2); Pos2->setLocation(Location2); BasisSurface2->setPosition(Pos2); CurveBoundedPlane2->setBasisSurface(BasisSurface2); ////////////////////////////////////////////////////////////////////////////////////// RectangularTrimmedSurface->setBasisSurface(CurveBoundedPlane2); RectangularTrimmedSurface->setU1(1.5); RectangularTrimmedSurface->setV1(2.5); RectangularTrimmedSurface->setU2(3.5); RectangularTrimmedSurface->setV1(4.5); RectangularTrimmedSurface->setUsense(Step::BTrue); RectangularTrimmedSurface->setVsense(Step::BTrue); LOG_DEBUG("RectangularTrimmedSurface->getDim() = "<<RectangularTrimmedSurface->getDim()<<std::endl); TEST_ASSERT(RectangularTrimmedSurface->getDim()==3); std::cout << std::endl << "Failure : " << failure_results << " Success : " << success_results << std::endl; return failure_results; }