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//
// This application incorporates Open Design Alliance software pursuant to a license
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// This file is generated automatically.
#ifndef _IFC2X2_FINAL_IFCGENERALPROFILEPROPERTIES_AUTO_IMPL_H
#define _IFC2X2_FINAL_IFCGENERALPROFILEPROPERTIES_AUTO_IMPL_H
#include "IfcProfilePropertiesAutoImpl.h"
#include "TD_PackPush.h"
/** \details
The namespace contains schema-dependent classes, definitions and sub routines
for work with IFC2X2_FINAL express schema definitions.
*/
namespace OdIfc2x2_final {
/** \details
This is a collection of properties applicable to all linear structural members having a profile definition.
*/
class IFC2X2_FINAL_EXPORT IfcGeneralProfileProperties : public IfcProfileProperties
{
//DOM-IGNORE-BEGIN
OD_EXP_DECLARE_MEMBERS(OdIfc2x2_final::IfcGeneralProfileProperties);
//DOM-IGNORE-END
public:
//
// OdDAI early binding accessors
//
/** \details
Returns the value of PhysicalWeight attribute.
This attribute represents the weight of an imaginary steel beam per length,
as for example given by the national standards for this profile. Usually measured in [kg/m].
\returns
Returns the value of PhysicalWeight attribute.
*/
double getPhysicalWeight() const;
/** \details
Sets the value of PhysicalWeight attribute.
This attribute represents the weight of an imaginary steel beam per length,
as for example given by the national standards for this profile. Usually measured in [kg/m].
\param PhysicalWeight [in] PhysicalWeight attribute to set.
*/
void setPhysicalWeight(double PhysicalWeight);
/** \details
Returns the value of Perimeter attribute.
This attribute represents the perimeter of the profile for calculating the surface area. Usually measured in [mm].
\returns
Returns the value of Perimeter attribute.
*/
double getPerimeter() const;
/** \details
Sets the value of Perimeter attribute.
This attribute represents the perimeter of the profile for calculating the surface area. Usually measured in [mm].
\param Perimeter [in] Perimeter attribute to set.
*/
void setPerimeter(double Perimeter);
/** \details
Returns the value of MinimumPlateThickness attribute.
This attribute represents a value that is needed for stress analysis and for handling buckling problems.
It can be derived from the given profile geometry and therefore
it is only an optional feature allowing an explicit description. Usually measured in [mm].
\returns
Returns the value of MinimumPlateThickness attribute.
*/
double getMinimumPlateThickness() const;
/** \details
Sets the value of MinimumPlateThickness attribute.
This attribute represents a value that is needed for stress analysis and for handling buckling problems.
It can be derived from the given profile geometry and therefore
it is only an optional feature allowing an explicit description. Usually measured in [mm].
\param MinimumPlateThickness [in] MinimumPlateThickness attribute to set.
*/
void setMinimumPlateThickness(double MinimumPlateThickness);
/** \details
Returns the value of MaximumPlateThickness attribute.
This attribute represents the value that is needed for stress analysis and for handling buckling problems.
It can be derived from the given profile geometry and therefore
it is only an optional feature allowing an explicit description. Usually measured in [mm].
\returns
Returns the value of MaximumPlateThickness attribute.
*/
double getMaximumPlateThickness() const;
/** \details
Sets the value of MaximumPlateThickness attribute.
This attribute represents the value that is needed for stress analysis and for handling buckling problems.
It can be derived from the given profile geometry and therefore
it is only an optional feature allowing an explicit description. Usually measured in [mm].
\param MaximumPlateThickness [in] MaximumPlateThickness attribute to set.
*/
void setMaximumPlateThickness(double MaximumPlateThickness);
/** \details
Returns the value of CrossSectionArea attribute.
This attribute represents the cross-sectional area of profile. Usually measured in [mm2].
\returns
Returns the value of CrossSectionArea attribute.
*/
double getCrossSectionArea() const;
/** \details
Sets the value of CrossSectionArea attribute.
This attribute represents the cross-sectional area of profile. Usually measured in [mm2].
\param CrossSectionArea [in] CrossSectionArea attribute to set.
*/
void setCrossSectionArea(double CrossSectionArea);
public:
/** \details
Default constructor for the IfcGeneralProfileProperties class.
*/
IfcGeneralProfileProperties();
/** \details
Reads object's data from the specified filer.
\param rdFiler [in] Pointer to a filer from which to read the data.
\returns
A value of OdResult type that contains the result of the method execution.
*/
virtual OdResult inFields(OdDAI::OdSpfFilerBase* rdFiler) override;
/** \details
Writes object's data the the specified filer.
\param wrFiler [in] Pointer to a filer to which to write the data.
\returns
A value of OdResult type that contains the result of the method execution.
*/
virtual OdResult outFields(OdDAI::OdSpfFilerBase* wrFiler) override;
/** \details
Returns a type of a class instance.
\returns
Pointer to the OdDAI::Entity type that determines an entity definition within a schema.
*/
virtual OdDAI::Entity* getInstanceType() const override;
/** \details
Returns an attribute value for the specified attribute name.
\param attrName [in] Name of an attribute to query.
\returns
OdRxValue object that represents a generic variant type value.
*/
virtual OdRxValue getAttr(const char * attrName) const override;
/** \details
Resets a value for the specified attribute.
\param explicitAttrName [in] Explicit name of the attribute to reset.
*/
virtual void unsetAttr(const char * explicitAttrName) override;
/** \details
Checks whether the specified attribute is set.
\param explicitAttrName [in] Explicit name of the attribute to test.
\returns
true if the specified attribute is set, false otherwise.
*/
virtual bool testAttr(const char * explicitAttrName) const override;
/** \details
Sets the specified attribute with a given value.
\param explicitAttrName [in] Explicit name of the attribute to set.
\param val [in] Value to set.
\returns
true if the value is successfully set for the specified attribute, false otherwise.
*/
virtual bool putAttr(const char * explicitAttrName, const OdRxValue &val) override;
/** \details
Checks whether the specified instance is the object derived from or belongs to this class.
\param entityType [in] Entity to check.
\returns
true if the specified instance is the object derived from or belongs to this class, false otherwise.
*/
virtual bool isKindOf(OdIfc::OdIfcEntityType entityType) const override;
/** \details
Returns the type of this entity.
\returns
A value of the OdIfc::OdIfcEntityType type that represents type of this entity.
*/
virtual OdIfc::OdIfcEntityType type() const override;
/** \details
Returns an attribute value for the specified attribute definition.
\param attrDef [in] Attribute definition to query.
\returns
OdRxValue object that represents a generic variant type value.
*/
virtual OdRxValue getAttr(const OdIfc::OdIfcAttribute attrDef) const override;
/** \details
Resets a value for the specified attribute.
\param explicitAttrDef [in] Explicit definition that represents an attribute to reset.
*/
virtual void unsetAttr(const OdIfc::OdIfcAttribute explicitAttrDef) override;
/** \details
Checks whether the specified attribute is set.
\param explicitAttrDef [in] Attribute definition to test.
\returns
true if the specified attribute is set, false otherwise.
*/
virtual bool testAttr(const OdIfc::OdIfcAttribute explicitAttrDef) const override;
/** \details
Sets the specified attribute with a given value.
\param explicitAttrDef [in] Explicit attribute definition to set.
\param val [in] Value to set.
\returns
true if the value is successfully set for the specified attribute, false otherwise.
*/
virtual bool putAttr(const OdIfc::OdIfcAttribute explicitAttrDef, const OdRxValue &val) override;
protected:
// Fields declaration:
double m_PhysicalWeight; // IfcMassPerLengthMeasure [optional]
IfcPositiveLengthMeasure m_Perimeter; // IfcPositiveLengthMeasure [optional]
IfcPositiveLengthMeasure m_MinimumPlateThickness; // IfcPositiveLengthMeasure [optional]
IfcPositiveLengthMeasure m_MaximumPlateThickness; // IfcPositiveLengthMeasure [optional]
double m_CrossSectionArea; // IfcAreaMeasure [optional]
};
/** \details
A data type that represents a smart pointer to a IfcGeneralProfileProperties object.
*/
typedef OdSmartPtr IfcGeneralProfilePropertiesPtr;
} // namespace
#include "TD_PackPop.h"
#endif // _IFC2X2_FINAL_IFCGENERALPROFILEPROPERTIES_AUTO_IMPL_H