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#ifndef _BGFX_TUPLE_B3ITUPLE_HXX
#define _BGFX_TUPLE_B3ITUPLE_HXX
#include <sal/types.h>
#include <basegfx/tuple/b3dtuple.hxx>
#include <basegfx/basegfxdllapi.h>
namespace basegfx
{
/** Base class for all Points/Vectors with three sal_Int32 values
This class provides all methods common to Point
avd Vector classes which are derived from here.
@derive Use this class to implement Points or Vectors
which are based on three sal_Int32 values
*/
class BASEGFX_DLLPUBLIC SAL_WARN_UNUSED B3ITuple
{
protected:
sal_Int32 mnX;
sal_Int32 mnY;
sal_Int32 mnZ;
public:
/** Create a 3D Tuple
The tuple is initialized to (0, 0, 0)
*/
B3ITuple()
: mnX(0),
mnY(0),
mnZ(0)
{}
/** Create a 3D Tuple
@param nX
This parameter is used to initialize the X-coordinate
of the 3D Tuple.
@param nY
This parameter is used to initialize the Y-coordinate
of the 3D Tuple.
@param nZ
This parameter is used to initialize the Z-coordinate
of the 3D Tuple.
*/
B3ITuple(sal_Int32 nX, sal_Int32 nY, sal_Int32 nZ)
: mnX(nX),
mnY(nY),
mnZ(nZ)
{}
/** Create a copy of a 3D Tuple
@param rTup
The 3D Tuple which will be copied.
*/
B3ITuple(const B3ITuple& rTup)
: mnX( rTup.mnX ),
mnY( rTup.mnY ),
mnZ( rTup.mnZ )
{}
~B3ITuple()
{}
/// get X-Coordinate of 3D Tuple
sal_Int32 getX() const
{
return mnX;
}
/// get Y-Coordinate of 3D Tuple
sal_Int32 getY() const
{
return mnY;
}
/// get Z-Coordinate of 3D Tuple
sal_Int32 getZ() const
{
return mnZ;
}
/// set X-Coordinate of 3D Tuple
void setX(sal_Int32 nX)
{
mnX = nX;
}
/// set Y-Coordinate of 3D Tuple
void setY(sal_Int32 nY)
{
mnY = nY;
}
/// set Z-Coordinate of 3D Tuple
void setZ(sal_Int32 nZ)
{
mnZ = nZ;
}
/// Array-access to 3D Tuple
const sal_Int32& operator[] (int nPos) const
{
// Here, normally two if(...)'s should be used. In the assumption that
// both sal_Int32 members can be accessed as an array a shortcut is used here.
// if(0 == nPos) return mnX; if(1 == nPos) return mnY; return mnZ;
return *((&mnX) + nPos);
}
/// Array-access to 3D Tuple
sal_Int32& operator[] (int nPos)
{
// Here, normally two if(...)'s should be used. In the assumption that
// both sal_Int32 members can be accessed as an array a shortcut is used here.
// if(0 == nPos) return mnX; if(1 == nPos) return mnY; return mnZ;
return *((&mnX) + nPos);
}
// operators
//////////////////////////////////////////////////////////////////////
B3ITuple& operator+=( const B3ITuple& rTup )
{
mnX += rTup.mnX;
mnY += rTup.mnY;
mnZ += rTup.mnZ;
return *this;
}
B3ITuple& operator-=( const B3ITuple& rTup )
{
mnX -= rTup.mnX;
mnY -= rTup.mnY;
mnZ -= rTup.mnZ;
return *this;
}
B3ITuple& operator/=( const B3ITuple& rTup )
{
mnX /= rTup.mnX;
mnY /= rTup.mnY;
mnZ /= rTup.mnZ;
return *this;
}
B3ITuple& operator*=( const B3ITuple& rTup )
{
mnX *= rTup.mnX;
mnY *= rTup.mnY;
mnZ *= rTup.mnZ;
return *this;
}
B3ITuple& operator*=(sal_Int32 t)
{
mnX *= t;
mnY *= t;
mnZ *= t;
return *this;
}
B3ITuple& operator/=(sal_Int32 t)
{
mnX /= t;
mnY /= t;
mnZ /= t;
return *this;
}
B3ITuple operator-(void) const
{
return B3ITuple(-mnX, -mnY, -mnZ);
}
bool operator==( const B3ITuple& rTup ) const
{
return this == &rTup || (rTup.mnX == mnX && rTup.mnY == mnY && rTup.mnZ == mnZ);
}
bool operator!=( const B3ITuple& rTup ) const
{
return !(*this == rTup);
}
B3ITuple& operator=( const B3ITuple& rTup )
{
mnX = rTup.mnX;
mnY = rTup.mnY;
mnZ = rTup.mnZ;
return *this;
}
};
// external operators
//////////////////////////////////////////////////////////////////////////
inline B3ITuple minimum(const B3ITuple& rTupA, const B3ITuple& rTupB)
{
B3ITuple aMin(
(rTupB.getX() < rTupA.getX()) ? rTupB.getX() : rTupA.getX(),
(rTupB.getY() < rTupA.getY()) ? rTupB.getY() : rTupA.getY(),
(rTupB.getZ() < rTupA.getZ()) ? rTupB.getZ() : rTupA.getZ());
return aMin;
}
inline B3ITuple maximum(const B3ITuple& rTupA, const B3ITuple& rTupB)
{
B3ITuple aMax(
(rTupB.getX() > rTupA.getX()) ? rTupB.getX() : rTupA.getX(),
(rTupB.getY() > rTupA.getY()) ? rTupB.getY() : rTupA.getY(),
(rTupB.getZ() > rTupA.getZ()) ? rTupB.getZ() : rTupA.getZ());
return aMax;
}
inline B3ITuple absolute(const B3ITuple& rTup)
{
B3ITuple aAbs(
(0 > rTup.getX()) ? -rTup.getX() : rTup.getX(),
(0 > rTup.getY()) ? -rTup.getY() : rTup.getY(),
(0 > rTup.getZ()) ? -rTup.getZ() : rTup.getZ());
return aAbs;
}
inline B3DTuple interpolate(const B3ITuple& rOld1, const B3ITuple& rOld2, double t)
{
B3DTuple aInt(
((rOld2.getX() - rOld1.getX()) * t) + rOld1.getX(),
((rOld2.getY() - rOld1.getY()) * t) + rOld1.getY(),
((rOld2.getZ() - rOld1.getZ()) * t) + rOld1.getZ());
return aInt;
}
inline B3DTuple average(const B3ITuple& rOld1, const B3ITuple& rOld2)
{
B3DTuple aAvg(
(rOld1.getX() + rOld2.getX()) * 0.5,
(rOld1.getY() + rOld2.getY()) * 0.5,
(rOld1.getZ() + rOld2.getZ()) * 0.5);
return aAvg;
}
inline B3DTuple average(const B3ITuple& rOld1, const B3ITuple& rOld2, const B3ITuple& rOld3)
{
B3DTuple aAvg(
(rOld1.getX() + rOld2.getX() + rOld3.getX()) * (1.0 / 3.0),
(rOld1.getY() + rOld2.getY() + rOld3.getY()) * (1.0 / 3.0),
(rOld1.getZ() + rOld2.getZ() + rOld3.getZ()) * (1.0 / 3.0));
return aAvg;
}
inline B3ITuple operator+(const B3ITuple& rTupA, const B3ITuple& rTupB)
{
B3ITuple aSum(rTupA);
aSum += rTupB;
return aSum;
}
inline B3ITuple operator-(const B3ITuple& rTupA, const B3ITuple& rTupB)
{
B3ITuple aSub(rTupA);
aSub -= rTupB;
return aSub;
}
inline B3ITuple operator/(const B3ITuple& rTupA, const B3ITuple& rTupB)
{
B3ITuple aDiv(rTupA);
aDiv /= rTupB;
return aDiv;
}
inline B3ITuple operator*(const B3ITuple& rTupA, const B3ITuple& rTupB)
{
B3ITuple aMul(rTupA);
aMul *= rTupB;
return aMul;
}
inline B3ITuple operator*(const B3ITuple& rTup, sal_Int32 t)
{
B3ITuple aNew(rTup);
aNew *= t;
return aNew;
}
inline B3ITuple operator*(sal_Int32 t, const B3ITuple& rTup)
{
B3ITuple aNew(rTup);
aNew *= t;
return aNew;
}
inline B3ITuple operator/(const B3ITuple& rTup, sal_Int32 t)
{
B3ITuple aNew(rTup);
aNew /= t;
return aNew;
}
inline B3ITuple operator/(sal_Int32 t, const B3ITuple& rTup)
{
B3ITuple aNew(t, t, t);
B3ITuple aTmp(rTup);
aNew /= aTmp;
return aNew;
}
} // end of namespace basegfx
#endif /* _BGFX_TUPLE_B3ITUPLE_HXX */
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