Class Ifc4x1::IfcMapConversion

Nested Relationships

This class is a nested type of Struct Ifc4x1.

Inheritance Relationships

Base Type

Class Documentation

class Ifc4x1::IfcMapConversion : public Ifc4x1::IfcCoordinateOperation

The map conversion deals with transforming the local engineering coordinate system, often called world coordinate system, into the coordinate reference system of the underlying map.

NOTE The IfcMapConversion does not handle the projection of a map from the geodetic coordinate reference system.

The map conversion allows to convert the local origin of the local engineering coordinate system to its place within a map (easting, northing, orthogonal height) and to rotate the x-axis of the local engineering coordinate system within the horizontal (easting/westing) plane of the map.

NOTE The z axis of the local engineering coordinate system is always parallel to the z axis of the map coordinate system.

The scale factor can be used when the length unit for the 3 axes of the map coordinate system are not identical with the length unit established for this project (seeIfcProject.UnitsInContext), if omitted, the scale factor 1.0 is assumed.

HISTORY New entity in IFC2x4.

Public Types

typedef IfcTemplatedEntityList<IfcMapConversion> list

Public Functions

double Eastings() const

Specifies the location along the easting of the coordinate system of the target map coordinate reference system. NOTE for right-handed Cartesian coordinate systems this would establish the location along the x axis

void setEastings(double v)
double Northings() const

Specifies the location along the northing of the coordinate system of the target map coordinate reference system. NOTE for right-handed Cartesian coordinate systems this would establish the location along the y axis

void setNorthings(double v)
double OrthogonalHeight() const

Orthogonal height relativ to the vertical datum specified. NOTE for right-handed Cartesian coordinate systems this would establish the location along the z axis

void setOrthogonalHeight(double v)
bool hasXAxisAbscissa() const

Whether the optional attribute XAxisAbscissa is defined for this IfcMapConversion.

double XAxisAbscissa() const

Specifies the value along the easing axis of the end point of a vector indicating the position of the local x axis of the engineering coordinate reference system. NOTE for right-handed Cartesian coordinate systems this would establish the location along the x axis NOTE together with the XAxisOrdinate it provides the direction of the local x axis within the horizontal plane of the map coordinate system

void setXAxisAbscissa(double v)
bool hasXAxisOrdinate() const

Whether the optional attribute XAxisOrdinate is defined for this IfcMapConversion.

double XAxisOrdinate() const

Specifies the value along the northing axis of the end point of a vector indicating the position of the local x axis of the engineering coordinate reference system. NOTE for right-handed Cartesian coordinate systems this would establish the location along the y axis NOTE together with the XAxisAbscissa it provides the direction of the local x axis within the horizontal plane of the map coordinate system

void setXAxisOrdinate(double v)
bool hasScale() const

Whether the optional attribute Scale is defined for this IfcMapConversion.

double Scale() const

Scale to be used, when the units of the CRS are not identical to the units of the engineering coordinate system. If omited, the value of 1.0 is assumed.

void setScale(double v)
const IfcParse::entity &declaration() const
IfcMapConversion(IfcEntityInstanceData *e)
IfcMapConversion(::Ifc4x1::IfcCoordinateReferenceSystemSelect *v1_SourceCRS, ::Ifc4x1::IfcCoordinateReferenceSystem *v2_TargetCRS, double v3_Eastings, double v4_Northings, double v5_OrthogonalHeight, boost::optional<double> v6_XAxisAbscissa, boost::optional<double> v7_XAxisOrdinate, boost::optional<double> v8_Scale)

Public Static Functions

const IfcParse::entity &Class()