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#ifndef __com_sun_star_geometry_XMapping2D_idl__
#define __com_sun_star_geometry_XMapping2D_idl__

#ifndef __com_sun_star_uno_XInterface_idl__
#include <com/sun/star/uno/XInterface.idl>
#endif
#ifndef __com_sun_star_geometry_RealPoint2D_idl__
#include <com/sun/star/geometry/RealPoint2D.idl>
#endif

module com {  module sun {  module star {  module geometry {

/** Interface defining an arbitrary bijective mapping from R^2 to R^2.<p>

    This interface provides methods to define an arbitrary bijective
    mapping from R^2 to R^2, i.e. from the two-dimensional space of
    real numbers onto itself, as is representable by the
    <type>double</type> floating point type. The mapping must be
    bijective, i.e. map a pair of real numbers to exactly one other
    pair of real numbers an vice versa, to facilitate a working
    inverse. Bijectiveness also implies completeness, i.e. for every
    pair of real numbers there must be another pair that is mapped
    upon them.<p>

    @since OpenOffice 2.0
 */
published interface XMapping2D : ::com::sun::star::uno::XInterface
{
    /** Forward 2D mapping function
     */
    RealPoint2D     map( [in] RealPoint2D aPoint );

    //-------------------------------------------------------------------------

    /** Inverse 2D mapping function.<p>

        The following invariant must hold:
        <code>map(mapInverse(p))=p</code>. This effectively rules out
        non-bijective mappings.<p>
     */
    RealPoint2D     mapInverse( [in] RealPoint2D aPoint );
};

}; }; }; };

#endif