void IfcBSplineSurfaceWithKnots::readStepArguments( const std::vector<std::string>& args, const std::map<int,shared_ptr<IfcPPEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args<12 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcBSplineSurfaceWithKnots, expecting 12, having " << num_args << ". Object id: " << getId() << std::endl; throw IfcPPException( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>12 ){ std::cout << "Wrong parameter count for entity IfcBSplineSurfaceWithKnots, expecting 12, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
readIntValue( args[0], m_UDegree );
readIntValue( args[1], m_VDegree );
readEntityReferenceList2D( args[2], m_ControlPointsList, map );
m_SurfaceForm = IfcBSplineSurfaceForm::createObjectFromStepData( args[3] );
if( _stricmp( args[4].c_str(), ".F." ) == 0 ) { m_UClosed = LOGICAL_FALSE; }
else if( _stricmp( args[4].c_str(), ".T." ) == 0 ) { m_UClosed = LOGICAL_TRUE; }
else if( _stricmp( args[4].c_str(), ".U." ) == 0 ) { m_UClosed = LOGICAL_UNKNOWN; }
if( _stricmp( args[5].c_str(), ".F." ) == 0 ) { m_VClosed = LOGICAL_FALSE; }
else if( _stricmp( args[5].c_str(), ".T." ) == 0 ) { m_VClosed = LOGICAL_TRUE; }
else if( _stricmp( args[5].c_str(), ".U." ) == 0 ) { m_VClosed = LOGICAL_UNKNOWN; }
if( _stricmp( args[6].c_str(), ".F." ) == 0 ) { m_SelfIntersect = LOGICAL_FALSE; }
else if( _stricmp( args[6].c_str(), ".T." ) == 0 ) { m_SelfIntersect = LOGICAL_TRUE; }
else if( _stricmp( args[6].c_str(), ".U." ) == 0 ) { m_SelfIntersect = LOGICAL_UNKNOWN; }
readIntList( args[7], m_UMultiplicities );
readIntList( args[8], m_VMultiplicities );
readTypeOfRealList( args[9], m_UKnots );
readTypeOfRealList( args[10], m_VKnots );
m_KnotSpec = IfcKnotType::createObjectFromStepData( args[11] );
}
void IfcLightDistributionData::readStepArguments( const std::vector<std::wstring>& args, const map_t<int,shared_ptr<IfcPPEntity> >& map )
{
const auto num_args = args.size();
if( num_args != 3 ){ std::stringstream err; err << "Wrong parameter count for entity IfcLightDistributionData, expecting 3, having " << num_args << ". Entity ID: " << m_id << std::endl; throw IfcPPException( err.str().c_str() ); }
m_MainPlaneAngle = IfcPlaneAngleMeasure::createObjectFromSTEP( args[0] );
readTypeOfRealList( args[1], m_SecondaryPlaneAngle );
readTypeOfRealList( args[2], m_LuminousIntensity );
}
void IfcSurfaceReinforcementArea::readStepArguments( const std::vector<std::wstring>& args, const boost::unordered_map<int,shared_ptr<IfcPPEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args != 4 ){ std::stringstream err; err << "Wrong parameter count for entity IfcSurfaceReinforcementArea, expecting 4, having " << num_args << ". Entity ID: " << m_id << std::endl; throw IfcPPException( err.str().c_str() ); }
m_Name = IfcLabel::createObjectFromSTEP( args[0] );
readTypeOfRealList( args[1], m_SurfaceReinforcement1 );
readTypeOfRealList( args[2], m_SurfaceReinforcement2 );
m_ShearReinforcement = IfcRatioMeasure::createObjectFromSTEP( args[3] );
}
void IfcLightDistributionData::readStepData( std::vector<std::string>& args, const std::map<int,shared_ptr<Ifc4Entity> >& map )
{
const int num_args = (int)args.size();
if( num_args<3 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcLightDistributionData, expecting 3, having " << num_args << ". Object id: " << getId() << std::endl; throw Ifc4Exception( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>3 ){ std::cout << "Wrong parameter count for entity IfcLightDistributionData, expecting 3, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
m_MainPlaneAngle = IfcPlaneAngleMeasure::readStepData( args[0] );
readTypeOfRealList( args[1], m_SecondaryPlaneAngle );
readTypeOfRealList( args[2], m_LuminousIntensity );
}
void IfcSurfaceReinforcementArea::readStepData( std::vector<std::string>& args, const std::map<int,shared_ptr<IfcAlignmentP6Entity> >& map )
{
const int num_args = (int)args.size();
if( num_args<4 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcSurfaceReinforcementArea, expecting 4, having " << num_args << ". Object id: " << getId() << std::endl; throw IfcAlignmentP6Exception( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>4 ){ std::cout << "Wrong parameter count for entity IfcSurfaceReinforcementArea, expecting 4, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
m_Name = IfcLabel::readStepData( args[0] );
readTypeOfRealList( args[1], m_SurfaceReinforcement1 );
readTypeOfRealList( args[2], m_SurfaceReinforcement2 );
m_ShearReinforcement = IfcRatioMeasure::readStepData( args[3] );
}
void IfcRationalBSplineCurveWithKnots::readStepArguments( const std::vector<std::wstring>& args, const std::map<int,shared_ptr<BuildingEntity> >& map )
{
const size_t num_args = args.size();
if( num_args != 9 ){ std::stringstream err; err << "Wrong parameter count for entity IfcRationalBSplineCurveWithKnots, expecting 9, having " << num_args << ". Entity ID: " << m_entity_id << std::endl; throw BuildingException( err.str().c_str() ); }
m_Degree = IfcInteger::createObjectFromSTEP( args[0], map );
readEntityReferenceList( args[1], m_ControlPointsList, map );
m_CurveForm = IfcBSplineCurveForm::createObjectFromSTEP( args[2], map );
m_ClosedCurve = IfcLogical::createObjectFromSTEP( args[3], map );
m_SelfIntersect = IfcLogical::createObjectFromSTEP( args[4], map );
readTypeOfIntegerList( args[5], m_KnotMultiplicities );
readTypeOfRealList( args[6], m_Knots );
m_KnotSpec = IfcKnotType::createObjectFromSTEP( args[7], map );
readTypeOfRealList( args[8], m_WeightsData );
}
void IfcBSplineCurveWithKnots::readStepArguments( const std::vector<std::wstring>& args, const boost::unordered_map<int,shared_ptr<IfcPPEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args != 8 ) {
std::stringstream err;
err << "Wrong parameter count for entity IfcBSplineCurveWithKnots, expecting 8, having " << num_args << ". Entity ID: " << m_id << std::endl;
throw IfcPPException( err.str().c_str() );
}
readIntValue( args[0], m_Degree );
readEntityReferenceList( args[1], m_ControlPointsList, map );
m_CurveForm = IfcBSplineCurveForm::createObjectFromSTEP( args[2] );
if( boost::iequals( args[3], L".F." ) ) {
m_ClosedCurve = LOGICAL_FALSE;
}
else if( boost::iequals( args[3], L".T." ) ) {
m_ClosedCurve = LOGICAL_TRUE;
}
else if( boost::iequals( args[3], L".U." ) ) {
m_ClosedCurve = LOGICAL_UNKNOWN;
}
if( boost::iequals( args[4], L".F." ) ) {
m_SelfIntersect = LOGICAL_FALSE;
}
else if( boost::iequals( args[4], L".T." ) ) {
m_SelfIntersect = LOGICAL_TRUE;
}
else if( boost::iequals( args[4], L".U." ) ) {
m_SelfIntersect = LOGICAL_UNKNOWN;
}
readIntList( args[5], m_KnotMultiplicities );
readTypeOfRealList( args[6], m_Knots );
m_KnotSpec = IfcKnotType::createObjectFromSTEP( args[7] );
}
void IfcCartesianPoint::readStepData( std::vector<std::string>& args, const std::map<int,shared_ptr<IfcAlignmentP6Entity> >& map )
{
const int num_args = (int)args.size();
if( num_args<1 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcCartesianPoint, expecting 1, having " << num_args << ". Object id: " << getId() << std::endl; throw IfcAlignmentP6Exception( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>1 ){ std::cout << "Wrong parameter count for entity IfcCartesianPoint, expecting 1, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
readTypeOfRealList( args[0], m_Coordinates );
}
void IfcCartesianPoint::readStepArguments( const std::vector<std::wstring>& args, const boost::unordered_map<int,shared_ptr<IfcPPEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args != 1 ) {
std::stringstream err;
err << "Wrong parameter count for entity IfcCartesianPoint, expecting 1, having " << num_args << ". Entity ID: " << m_id << std::endl;
throw IfcPPException( err.str().c_str() );
}
readTypeOfRealList( args[0], m_Coordinates );
}
void IfcRationalBSplineSurfaceWithKnots::readStepData( std::vector<std::string>& args, const std::map<int,shared_ptr<IfcRoadEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args<13 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcRationalBSplineSurfaceWithKnots, expecting 13, having " << num_args << ". Object id: " << getId() << std::endl; throw IfcRoadException( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>13 ){ std::cout << "Wrong parameter count for entity IfcRationalBSplineSurfaceWithKnots, expecting 13, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
readIntValue( args[0], m_UDegree );
readIntValue( args[1], m_VDegree );
readEntityReferenceList2D( args[2], m_ControlPointsList, map );
m_SurfaceForm = IfcBSplineSurfaceForm::readStepData( args[3] );
m_UClosed = IfcLogical::readStepData( args[4] );
m_VClosed = IfcLogical::readStepData( args[5] );
m_SelfIntersect = IfcLogical::readStepData( args[6] );
readIntList( args[7], m_UMultiplicities );
readIntList( args[8], m_VMultiplicities );
readTypeOfRealList( args[9], m_UKnots );
readTypeOfRealList( args[10], m_VKnots );
m_KnotSpec = IfcKnotType::readStepData( args[11] );
readTypeOfRealList2D( args[12], m_WeightsData );
}
void IfcMaterialLayerWithOffsets::readStepArguments( const std::vector<std::wstring>& args, const std::map<int,shared_ptr<BuildingEntity> >& map )
{
const size_t num_args = args.size();
if( num_args != 9 ){ std::stringstream err; err << "Wrong parameter count for entity IfcMaterialLayerWithOffsets, expecting 9, having " << num_args << ". Entity ID: " << m_entity_id << std::endl; throw BuildingException( err.str().c_str() ); }
readEntityReference( args[0], m_Material, map );
m_LayerThickness = IfcNonNegativeLengthMeasure::createObjectFromSTEP( args[1], map );
m_IsVentilated = IfcLogical::createObjectFromSTEP( args[2], map );
m_Name = IfcLabel::createObjectFromSTEP( args[3], map );
m_Description = IfcText::createObjectFromSTEP( args[4], map );
m_Category = IfcLabel::createObjectFromSTEP( args[5], map );
m_Priority = IfcInteger::createObjectFromSTEP( args[6], map );
m_OffsetDirection = IfcLayerSetDirectionEnum::createObjectFromSTEP( args[7], map );
readTypeOfRealList( args[8], m_OffsetValues );
}
void IfcMaterialProfileWithOffsets::readStepData( std::vector<std::string>& args, const std::map<int,shared_ptr<IfcBridgeEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args<7 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcMaterialProfileWithOffsets, expecting 7, having " << num_args << ". Object id: " << getId() << std::endl; throw IfcBridgeException( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>7 ){ std::cout << "Wrong parameter count for entity IfcMaterialProfileWithOffsets, expecting 7, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
m_Name = IfcLabel::readStepData( args[0] );
m_Description = IfcText::readStepData( args[1] );
readEntityReference( args[2], m_Material, map );
readEntityReference( args[3], m_Profile, map );
m_Priority = IfcNormalisedRatioMeasure::readStepData( args[4] );
m_Category = IfcLabel::readStepData( args[5] );
readTypeOfRealList( args[6], m_OffsetValues );
}
void IfcStructuralLoadCase::readStepData( std::vector<std::string>& args, const std::map<int,shared_ptr<IfcRoadEntity> >& map )
{
const int num_args = (int)args.size();
if( num_args<11 ){ std::stringstream strserr; strserr << "Wrong parameter count for entity IfcStructuralLoadCase, expecting 11, having " << num_args << ". Object id: " << getId() << std::endl; throw IfcRoadException( strserr.str().c_str() ); }
#ifdef _DEBUG
if( num_args>11 ){ std::cout << "Wrong parameter count for entity IfcStructuralLoadCase, expecting 11, having " << num_args << ". Object id: " << getId() << std::endl; }
#endif
m_GlobalId = IfcGloballyUniqueId::readStepData( args[0] );
readEntityReference( args[1], m_OwnerHistory, map );
m_Name = IfcLabel::readStepData( args[2] );
m_Description = IfcText::readStepData( args[3] );
m_ObjectType = IfcLabel::readStepData( args[4] );
m_PredefinedType = IfcLoadGroupTypeEnum::readStepData( args[5] );
m_ActionType = IfcActionTypeEnum::readStepData( args[6] );
m_ActionSource = IfcActionSourceTypeEnum::readStepData( args[7] );
m_Coefficient = IfcRatioMeasure::readStepData( args[8] );
m_Purpose = IfcLabel::readStepData( args[9] );
readTypeOfRealList( args[10], m_SelfWeightCoefficients );
}
