/******************************************************************************* * DXBounds.h * *------------* * Description: * This is the header file for the bounds helper class implementation. *------------------------------------------------------------------------------- * Created By: Edward W. Connell Date: 07/22/97 * Copyright (C) 1997 Microsoft Corporation * All Rights Reserved * *------------------------------------------------------------------------------- * Revisions: * *******************************************************************************/ #ifndef DXBounds_h #pragma option push -b -a8 -pc -A- /*P_O_Push*/ #define DXBounds_h #ifndef _INC_LIMITS #include #endif #ifndef _INC_FLOAT #include #endif #ifndef __DXTrans_h__ #include #endif #ifndef DXVector_h #include #endif //=== Constants ==================================================== #define CHKTYPE() _ASSERT( eType == eBndType ) //=== Class, Enum, Struct and Union Declarations =================== //=== Enumerated Set Definitions =================================== //=== Function Type Definitions ==================================== //=== Class, Struct and Union Definitions ========================== /*** CDXBnds * */ #define CDXB_C CDXBnds #define CDXB_T ((STTYPE*)u.D) #define CDXB_O( OtherBnd ) ((STTYPE*)(OtherBnd).u.D) template class CDXBnds : public DXBNDS { public: /*--- Constructors ---*/ CDXBnds() { eType = eBndType; SetEmpty(); } CDXBnds( BOOL bInit ) { eType = eBndType; if (bInit) SetEmpty(); } CDXBnds( const DXBNDS& Other ) { eType = eBndType; Copy( Other ); } CDXBnds( const CDXB_C& Other ) { eType = eBndType; Copy( Other ); } CDXBnds( const RECT & Rect ) { eType = eBndType; SetXYRect( Rect ); } CDXBnds( TYPE Width, TYPE Height ) { eType = eBndType; SetXYSize( Width, Height ); } CDXBnds( IDXSurface *pSurface, HRESULT & hr) { _ASSERT(eBndType == DXBT_DISCRETE); eType = eBndType; hr = pSurface->GetBounds(this); } CDXBnds( IDirect3DRMMeshBuilder3 *pMesh, HRESULT & hr) { _ASSERT(eBndType == DXBT_CONTINUOUS); eType = eBndType; hr = SetToMeshBounds(pMesh); } CDXBnds( const CDXV_C& VecPoint ) { eType = eBndType; *this = VecPoint; } HRESULT InitFromSafeArray( SAFEARRAY *psa); HRESULT GetSafeArray( SAFEARRAY **ppsa ) const; void SetEmpty(); void Copy( const DXBNDS& Other ); void Copy( const CDXB_C& Other ); /*--- Type casts ---*/ operator STTYPE * () { CHKTYPE(); return CDXB_T; } operator DXDBNDS& () { CHKTYPE(); return u.D; } operator DXDBNDS64& () { CHKTYPE(); return u.LD; } operator DXCBNDS& () { CHKTYPE(); return u.C; } operator DXCBNDS64& () { CHKTYPE(); return u.LC; } //--- Access methods USTYPE Width( DXBNDID i ) const { CHKTYPE(); return (USTYPE)(CDXB_T[i].Max - CDXB_T[i].Min); } USTYPE Width() const { CHKTYPE(); return (USTYPE)(CDXB_T[DXB_X].Max - CDXB_T[DXB_X].Min); } USTYPE Height() const { CHKTYPE(); return (USTYPE)(CDXB_T[DXB_Y].Max - CDXB_T[DXB_Y].Min); } USTYPE Depth() const { CHKTYPE(); return (USTYPE)(CDXB_T[DXB_Z].Max - CDXB_T[DXB_Z].Min); } USTYPE Duration() const { CHKTYPE(); return (USTYPE)(CDXB_T[DXB_T].Max - CDXB_T[DXB_T].Min); } TYPE Left() const { CHKTYPE(); return CDXB_T[DXB_X].Min; } TYPE Right() const { CHKTYPE(); return CDXB_T[DXB_X].Max; } TYPE Top() const { CHKTYPE(); return CDXB_T[DXB_Y].Min; } TYPE Bottom() const { CHKTYPE(); return CDXB_T[DXB_Y].Max; } void SetBounds( TYPE xmin, TYPE xmax, TYPE ymin, TYPE ymax, TYPE zmin, TYPE zmax, TYPE tmin, TYPE tmax ); void SetXYRect( const RECT& xyRect); void SetXYSize( const SIZE& xySize); void SetXYSize( TYPE width, TYPE height); void SetXYPoint(const POINT& xyPoint); void Offset( TYPE x, TYPE y, TYPE z, TYPE t ); void Offset( const CDXV_C& v ); void SetPlacement(const CDXV_C& v); void SetToSize(void); void GetXYRect( RECT& xyRect ) const; void GetXYSize( SIZE& xySize ) const; void GetMinVector( CDXV_C& v ) const; void GetMaxVector( CDXV_C& v ) const; void GetSize( CDXB_C& SizeBounds ) const; CDXB_C Size( void ) const; //--- Region Functions void NormalizeBounds(); BOOL BoundsAreEmpty() const; BOOL BoundsAreNull() const; BOOL TestIntersect( const CDXB_C& Other ) const; BOOL IntersectBounds( const CDXB_C& Bounds1, const CDXB_C& Bounds2 ); BOOL IntersectBounds( const CDXB_C& OtherBounds ); void UnionBounds( const CDXB_C& Bounds1, const CDXB_C& Bounds2 ); // Additional Operations STTYPE& operator[]( int index ) const { CHKTYPE(); return CDXB_T[index]; } STTYPE& operator[]( long index ) const { CHKTYPE(); return CDXB_T[index]; } STTYPE& operator[]( USHORT index ) const { CHKTYPE(); return CDXB_T[index]; } STTYPE& operator[]( DWORD index ) const { CHKTYPE(); return CDXB_T[index]; } STTYPE& operator[]( DXBNDID index) const { CHKTYPE(); return CDXB_T[index]; } void operator=(const CDXB_C& Bounds); void operator=(const CDXV_C& v); void operator+=(const POINT& point); void operator-=(const POINT& point); void operator+=(const SIZE& size); void operator-=(const SIZE& size); void operator+=(const CDXV_C& v); void operator-=(const CDXV_C& v); void operator+=(const CDXB_C& Bounds); void operator-=(const CDXB_C& Bounds); void operator&=(const CDXB_C& Bounds); void operator|=(const CDXB_C& Bounds); BOOL operator==(const CDXB_C& Bounds) const; BOOL operator!=(const CDXB_C& Bounds) const; // Operators returning CDXDBnds values CDXB_C operator+(const POINT& point) const; CDXB_C operator-(const POINT& point) const; CDXB_C operator+(const SIZE& size) const; CDXB_C operator-(const SIZE& size) const; CDXB_C operator+(const CDXV_C& v) const; CDXB_C operator-(const CDXV_C& v) const; CDXB_C operator&(const CDXB_C& Bounds2) const; CDXB_C operator|(const CDXB_C& Bounds2) const; // // Helpers to grow bounds from their midpoints. // void Scale(TYPE x, TYPE y = 1, TYPE z = 1, TYPE t = 1); void Scale(const CDXV_C& v); void Expand(TYPE x, TYPE y = 0, TYPE z = 0, TYPE t = 0); void Expand(const CDXV_C& v); // Helpers for DXSurfaces These functions only work with DISCRETE bounds HRESULT SetToSurfaceBounds(IDXSurface * pDXSurface); // Helpers for D3DRM Meshes. These functions only work with CONTINUOUS bounds. HRESULT SetToMeshBounds(IDirect3DRMMeshBuilder3 * pMesh); }; template void CDXB_C::SetEmpty() { CHKTYPE(); memset(CDXB_T, 0, sizeof(STTYPE) * 4); } /* CDXBnds::SetEmpty() */ template void CDXB_C::Copy( const CDXB_C& Other ) { CHKTYPE(); memcpy( CDXB_T, CDXB_O(Other), sizeof( STTYPE ) * 4 ); } template void CDXB_C::Copy( const DXBNDS& Other ) { CHKTYPE(); if( eBndType == Other.eType ) { memcpy( CDXB_T, CDXB_O(Other), sizeof( STTYPE ) * 4 ); } else { int i = 4; switch( Other.eType ) { case DXBT_DISCRETE: while( i-- ) { CDXB_T[i].Min = (TYPE)Other.u.D[i].Min; CDXB_T[i].Max = (TYPE)Other.u.D[i].Max; } break; case DXBT_DISCRETE64: while( i-- ) { CDXB_T[i].Min = (TYPE)Other.u.LD[i].Min; CDXB_T[i].Max = (TYPE)Other.u.LD[i].Max; } break; case DXBT_CONTINUOUS: while( i-- ) { CDXB_T[i].Min = (TYPE)Other.u.C[i].Min; CDXB_T[i].Max = (TYPE)Other.u.C[i].Max; } break; case DXBT_CONTINUOUS64: while( i-- ) { CDXB_T[i].Min = (TYPE)Other.u.LC[i].Min; CDXB_T[i].Max = (TYPE)Other.u.LC[i].Max; } break; default: _ASSERT(0); } } } /* CDXBnds::Copy constructor */ template HRESULT CDXB_C::InitFromSafeArray( SAFEARRAY *pSA ) { CHKTYPE(); HRESULT hr = S_OK; TYPE *pData; if( !pSA || ( pSA->cDims != 1 ) || ( pSA->cbElements != sizeof(TYPE) ) || ( pSA->rgsabound->lLbound != 1 ) || ( pSA->rgsabound->cElements != 8 ) ) { hr = E_INVALIDARG; } else { hr = SafeArrayAccessData(pSA, (void **)&pData); if( SUCCEEDED( hr ) ) { for( int i = 0; i < 4; ++i ) { CDXB_T[i].Min = pData[i]; CDXB_T[i].Max = pData[i+4]; } hr = SafeArrayUnaccessData( pSA ); } } return hr; } /* CDXBnds::InitFromSafeArray */ template HRESULT CDXB_C::GetSafeArray( SAFEARRAY **ppSA ) const { CHKTYPE(); HRESULT hr = S_OK; SAFEARRAY *pSA; if( !ppSA ) { hr = E_POINTER; } else { SAFEARRAYBOUND rgsabound; rgsabound.lLbound = 1; rgsabound.cElements = 8; static VARTYPE VTypes[4] = { VT_I4, VT_I8, VT_R4, VT_R8 }; pSA = SafeArrayCreate( VTypes[eBndType], 1, &rgsabound ); if( pSA == NULL ) { hr = E_OUTOFMEMORY; } else { TYPE *pData; hr = SafeArrayAccessData( pSA, (void **)&pData ); if( SUCCEEDED( hr ) ) { for( int i = 0; i < 4; ++i ) { pData[i] = CDXB_T[i].Min; pData[i+4] = CDXB_T[i].Max; } hr = SafeArrayUnaccessData( pSA ); } } if( SUCCEEDED( hr ) ) { *ppSA = pSA; } } return hr; } /* CDXBnds::GetSafeArray */ template void CDXB_C::NormalizeBounds() { CHKTYPE(); for( int i = 0; i < 4; ++i ) { if( CDXB_T[i].Max < CDXB_T[i].Min ) { TYPE Temp = CDXB_T[i].Min; CDXB_T[i].Min = CDXB_T[i].Max; CDXB_T[i].Max = Temp; } } } /* CDXBnds::NormalizeBounds */ template BOOL CDXB_C::IntersectBounds( const CDXB_C& Bounds1, const CDXB_C& Bounds2 ) { CHKTYPE(); BOOL bDoesIntersect = TRUE; for( int i = 0; i < 4; ++i ) { CDXB_T[i].Min = max( CDXB_O( Bounds1 )[i].Min, CDXB_O( Bounds2 )[i].Min ); CDXB_T[i].Max = min( CDXB_O( Bounds1 )[i].Max, CDXB_O( Bounds2 )[i].Max ); if( CDXB_T[i].Max <= CDXB_T[i].Min ) { //--- no intersection SetEmpty(); bDoesIntersect = FALSE; } } return bDoesIntersect; } /* CDXBnds::IntersectBounds */ template BOOL CDXB_C::TestIntersect( const CDXB_C& Other ) const { CHKTYPE(); BOOL bDoesIntersect = TRUE; TYPE BndMin, BndMax; for( int i = 0; i < 4; ++i ) { BndMin = max( CDXB_T[i].Min, CDXB_O( Other )[i].Min ); BndMax = min( CDXB_T[i].Max, CDXB_O( Other )[i].Max ); if( BndMax <= BndMin ) bDoesIntersect = FALSE; } return bDoesIntersect; } /* CDXBnds::TestIntersect */ template void CDXB_C::UnionBounds( const CDXB_C& Bounds1, const CDXB_C& Bounds2 ) { CHKTYPE(); // This assumes the bounds are already normalized. for( int i = 0; i < 4; ++i ) { CDXB_T[i].Min = min( CDXB_O( Bounds1 )[i].Min, CDXB_O( Bounds2 )[i].Min ); CDXB_T[i].Max = max( CDXB_O( Bounds1 )[i].Max, CDXB_O( Bounds2 )[i].Max ); } } /* CDXDBnds::UnionBounds */ template BOOL CDXB_C::IntersectBounds( const CDXB_C& OtherBounds ) { CHKTYPE(); return IntersectBounds( *this, OtherBounds ); } /* CDXBnds::IntersectBounds */ template BOOL CDXB_C::BoundsAreEmpty() const { CHKTYPE(); //--- Must exist in all dimensions for( int i = 0; i < 4; ++i ) { if( CDXB_T[i].Max <= CDXB_T[i].Min ) return TRUE; } return FALSE; } /* CDXBnds::BoundsAreEmpty */ template BOOL CDXB_C::BoundsAreNull() const { CHKTYPE(); DWORD *pTest = (DWORD *)CDXB_T; DWORD *pLimit = pTest + (sizeof(STTYPE) * 4 / sizeof(*pTest)); do { if (*pTest) return FALSE; pTest++; } while (pTest < pLimit); return TRUE; } /* CDXDBnds::BoundsAreNull */ // Additional Operations template void CDXB_C::operator=( const CDXB_C& srcBounds ) { CHKTYPE(); memcpy(CDXB_T, CDXB_O(srcBounds), sizeof(STTYPE)*4); } /* CDXDBnds::operator= */ template void CDXB_C::operator=( const CDXV_C& v ) { CHKTYPE(); for( int i = 0; i < 4; ++i ) { CDXB_T[i].Min = v[i]; CDXB_T[i].Max = v[i] + 1; } } /* CDXDBnds::operator= */ template BOOL CDXB_C::operator==( const CDXB_C& Bounds ) const { CHKTYPE(); for( ULONG i = 0; i < 4; ++i ) { if( ( CDXB_T[i].Min != CDXB_O( Bounds )[i].Min ) || ( CDXB_T[i].Max != CDXB_O( Bounds )[i].Max ) ) { return false; } } return true; } /* CDXB_C::operator== */ template BOOL CDXB_C::operator!=( const CDXB_C& Bounds ) const { CHKTYPE(); for( ULONG i = 0; i < 4; ++i ) { if( ( CDXB_T[i].Min != CDXB_O( Bounds )[i].Min ) || ( CDXB_T[i].Max != CDXB_O( Bounds )[i].Max ) ) { return true; } } return false; } /* CDXBnds::operator!= */ template CDXB_C CDXB_C::operator&( const CDXB_C& Bounds2 ) const { CHKTYPE(); CDXB_C Result; Result.IntersectBounds( *this, Bounds2 ); return Result; } /* CDXBnds::operator& */ template CDXB_C CDXB_C::operator|( const CDXB_C& Bounds2 ) const { CHKTYPE(); CDXB_C Result; Result.UnionBounds( *this, Bounds2 ); return Result; } /* CDXBnds::operator| */ template void CDXB_C::GetMinVector( CDXV_C& v ) const { CHKTYPE(); for( int i = 0; i < 4; ++i ) { v[i] = CDXB_T[i].Min; } } /* CDXBnds::GetMinVector */ template void CDXB_C::GetMaxVector( CDXV_C& v ) const { CHKTYPE(); for( int i = 0; i < 4; ++i ) { v[i] = CDXB_T[i].Max; } } /* CDXBnds::GetMaxVector */ template void CDXB_C::GetSize( CDXB_C& SizeBounds ) const { CHKTYPE(); SizeBounds.SetEmpty(); SizeBounds[DXB_X].Max = CDXB_T[DXB_X].Max - CDXB_T[DXB_X].Min; SizeBounds[DXB_Y].Max = CDXB_T[DXB_Y].Max - CDXB_T[DXB_Y].Min; SizeBounds[DXB_Z].Max = CDXB_T[DXB_Z].Max - CDXB_T[DXB_Z].Min; SizeBounds[DXB_T].Max = CDXB_T[DXB_T].Max - CDXB_T[DXB_T].Min; } /* CDXBnds::GetSize */ template CDXB_C CDXB_C::Size( void ) const { CHKTYPE(); CDXB_C Size; Size[DXB_X].Max = CDXB_T[DXB_X].Max - CDXB_T[DXB_X].Min; Size[DXB_Y].Max = CDXB_T[DXB_Y].Max - CDXB_T[DXB_Y].Min; Size[DXB_Z].Max = CDXB_T[DXB_Z].Max - CDXB_T[DXB_Z].Min; Size[DXB_T].Max = CDXB_T[DXB_T].Max - CDXB_T[DXB_T].Min; return Size; } /* CDXBnds::Size */ // Operations template void CDXB_C::SetBounds( TYPE xmin, TYPE xmax, TYPE ymin, TYPE ymax, TYPE zmin, TYPE zmax, TYPE tmin, TYPE tmax ) { CHKTYPE(); CDXB_T[DXB_X].Min = xmin; CDXB_T[DXB_X].Max = xmax; CDXB_T[DXB_Y].Min = ymin; CDXB_T[DXB_Y].Max = ymax; CDXB_T[DXB_Z].Min = zmin; CDXB_T[DXB_Z].Max = zmax; CDXB_T[DXB_T].Min = tmin; CDXB_T[DXB_T].Max = tmax; } /* CDXBnds::SetBounds */ template void CDXB_C::SetXYRect( const RECT& xyRect ) { CHKTYPE(); SetEmpty(); CDXB_T[DXB_X].Min = (TYPE)xyRect.left; CDXB_T[DXB_X].Max = (TYPE)xyRect.right; CDXB_T[DXB_Y].Min = (TYPE)xyRect.top; CDXB_T[DXB_Y].Max = (TYPE)xyRect.bottom; CDXB_T[DXB_Z].Max = 1; CDXB_T[DXB_T].Max = (TYPE)LONG_MAX; } /* CDXBnds::SetXYRect */ template void CDXB_C::GetXYRect( RECT& xyRect ) const { CHKTYPE(); xyRect.left = CDXB_T[DXB_X].Min; xyRect.right = CDXB_T[DXB_X].Max; xyRect.top = CDXB_T[DXB_Y].Min; xyRect.bottom = CDXB_T[DXB_Y].Max; } /* CDXBnds::GetXYRect */ template void CDXB_C::GetXYSize( SIZE& xySize ) const { CHKTYPE(); xySize.cx = CDXB_T[DXB_X].Max - CDXB_T[DXB_X].Min; xySize.cy = CDXB_T[DXB_Y].Max - CDXB_T[DXB_Y].Min; } /* CDXBnds::GetXYSize */ template void CDXB_C::SetXYSize( const SIZE& xySize ) { CHKTYPE(); SetEmpty(); CDXB_T[DXB_X].Max = (TYPE)xySize.cx; CDXB_T[DXB_Y].Max = (TYPE)xySize.cy; CDXB_T[DXB_Z].Max = (TYPE)1; CDXB_T[DXB_T].Max = (TYPE)LONG_MAX; } /* CDXBnds::SetXYSize */ template void CDXB_C::SetXYSize( TYPE width, TYPE height ) { CHKTYPE(); SetEmpty(); CDXB_T[DXB_X].Max = (TYPE)width; CDXB_T[DXB_Y].Max = (TYPE)height; CDXB_T[DXB_Z].Max = (TYPE)1; CDXB_T[DXB_T].Max = (TYPE)LONG_MAX; } /* CDXBnds::SetXYSize */ template void CDXB_C::SetXYPoint( const POINT& xyPoint ) { CHKTYPE(); SetEmpty(); CDXB_T[DXB_X].Min = (TYPE)xyPoint.x; CDXB_T[DXB_X].Max = (TYPE)xyPoint.x + 1; CDXB_T[DXB_Y].Min = (TYPE)xyPoint.y; CDXB_T[DXB_Y].Max = (TYPE)xyPoint.y + 1; CDXB_T[DXB_Z].Max = (TYPE)1; CDXB_T[DXB_T].Max = (TYPE)LONG_MAX; } /* CDXDBnds::SetRect */ template void CDXB_C::Offset( TYPE x, TYPE y, TYPE z, TYPE t ) { CHKTYPE(); CDXB_T[DXB_X].Min += x; CDXB_T[DXB_X].Max += x; // BUGBUG -- What about infinite? CDXB_T[DXB_Y].Min += y; CDXB_T[DXB_Y].Max += y; CDXB_T[DXB_Z].Min += z; CDXB_T[DXB_Z].Max += z; CDXB_T[DXB_T].Min += t; CDXB_T[DXB_T].Max += t; } /* CDXBnds::Offset */ template void CDXB_C::SetToSize(void) { CHKTYPE(); for( int i = 0; i < 4; ++i ) { CDXB_T[i].Max -= CDXB_T[i].Min; CDXB_T[i].Min = 0; } } template void CDXB_C::SetPlacement(const CDXV_C & v) { CHKTYPE(); for( int i = 0; i < 4; ++i ) { CDXB_T[i].Max += (CDXV_O( v )[i] - CDXB_T[i].Min); CDXB_T[i].Min = CDXV_O( v )[i]; } } /* CDXBnds::Offset */ template void CDXB_C::Offset( const CDXV_C& v ) { CHKTYPE(); for( int i = 0; i < 4; ++i ) { CDXB_T[i].Min += v[i]; CDXB_T[i].Max += v[i]; } } /* CDXBnds::Offset */ template void CDXB_C::operator+=(const POINT &point) { CHKTYPE(); CDXB_T[DXB_X].Min += (TYPE)point.x; CDXB_T[DXB_X].Max += (TYPE)point.x; CDXB_T[DXB_Y].Min += (TYPE)point.y; CDXB_T[DXB_Y].Max += (TYPE)point.y; } /* CDXBnds::operator+= */ template void CDXB_C::operator-=(const POINT &point) { CHKTYPE(); CDXB_T[DXB_X].Min -= (TYPE)point.x; CDXB_T[DXB_X].Max -= (TYPE)point.x; CDXB_T[DXB_Y].Min -= (TYPE)point.y; CDXB_T[DXB_Y].Max -= (TYPE)point.y; } /* CDXBnds::operator-= */ template void CDXB_C::operator+=(const SIZE &size) { CHKTYPE(); CDXB_T[DXB_X].Min += (TYPE)size.cx; CDXB_T[DXB_X].Max += (TYPE)size.cx; CDXB_T[DXB_Y].Min += (TYPE)size.cy; CDXB_T[DXB_Y].Max += (TYPE)size.cy; } /* CDXBnds::operator+= */ template void CDXB_C::operator-=(const SIZE &size) { CHKTYPE(); CDXB_T[DXB_X].Min -= (TYPE)size.cx; CDXB_T[DXB_X].Max -= (TYPE)size.cx; CDXB_T[DXB_Y].Min -= (TYPE)size.cy; CDXB_T[DXB_Y].Max -= (TYPE)size.cy; } /* CDXBnds::operator-= */ template void CDXB_C::operator+=(const CDXV_C& v) { CHKTYPE(); CDXB_T[DXB_X].Min += CDXV_O( v )[DXB_X]; CDXB_T[DXB_X].Max += CDXV_O( v )[DXB_X]; CDXB_T[DXB_Y].Min += CDXV_O( v )[DXB_Y]; CDXB_T[DXB_Y].Max += CDXV_O( v )[DXB_Y]; CDXB_T[DXB_Z].Min += CDXV_O( v )[DXB_Z]; CDXB_T[DXB_Z].Max += CDXV_O( v )[DXB_Z]; CDXB_T[DXB_T].Min += CDXV_O( v )[DXB_T]; CDXB_T[DXB_T].Max += CDXV_O( v )[DXB_T]; } /* CDXBnds::operator+= */ template void CDXB_C::operator-=(const CDXV_C& v) { CHKTYPE(); CDXB_T[DXB_X].Min -= CDXV_O( v )[DXB_X]; CDXB_T[DXB_X].Max -= CDXV_O( v )[DXB_X]; CDXB_T[DXB_Y].Min -= CDXV_O( v )[DXB_Y]; CDXB_T[DXB_Y].Max -= CDXV_O( v )[DXB_Y]; CDXB_T[DXB_Z].Min -= CDXV_O( v )[DXB_Z]; CDXB_T[DXB_Z].Max -= CDXV_O( v )[DXB_Z]; CDXB_T[DXB_T].Min -= CDXV_O( v )[DXB_T]; CDXB_T[DXB_T].Max -= CDXV_O( v )[DXB_T]; } /* CDXBnds::operator-= */ template void CDXB_C::operator+=( const CDXB_C& Bounds ) { CHKTYPE(); CDXB_T[DXB_X].Min += CDXB_O( Bounds )[DXB_X].Min; CDXB_T[DXB_X].Max += CDXB_O( Bounds )[DXB_X].Max; CDXB_T[DXB_Y].Min += CDXB_O( Bounds )[DXB_Y].Min; CDXB_T[DXB_Y].Max += CDXB_O( Bounds )[DXB_Y].Max; CDXB_T[DXB_Z].Min += CDXB_O( Bounds )[DXB_Z].Min; CDXB_T[DXB_Z].Max += CDXB_O( Bounds )[DXB_Z].Max; CDXB_T[DXB_T].Min += CDXB_O( Bounds )[DXB_T].Min; CDXB_T[DXB_T].Max += CDXB_O( Bounds )[DXB_T].Max; } /* CDXBnds::operator+= */ template void CDXB_C::operator-=( const CDXB_C& Bounds ) { CHKTYPE(); CDXB_T[DXB_X].Min -= CDXB_O( Bounds )[DXB_X].Min; CDXB_T[DXB_X].Max -= CDXB_O( Bounds )[DXB_X].Max; CDXB_T[DXB_Y].Min -= CDXB_O( Bounds )[DXB_Y].Min; CDXB_T[DXB_Y].Max -= CDXB_O( Bounds )[DXB_Y].Max; CDXB_T[DXB_Z].Min -= CDXB_O( Bounds )[DXB_Z].Min; CDXB_T[DXB_Z].Max -= CDXB_O( Bounds )[DXB_Z].Max; CDXB_T[DXB_T].Min -= CDXB_O( Bounds )[DXB_T].Min; CDXB_T[DXB_T].Max -= CDXB_O( Bounds )[DXB_T].Max; } /* CDXB_C::operator-= */ template void CDXB_C::operator&=( const CDXB_C& Bounds ) { CHKTYPE(); for( int i = 0; i < 4; ++i ) { CDXB_T[i].Min = max( CDXB_T[i].Min, CDXB_O( Bounds )[i].Min ); CDXB_T[i].Max = min( CDXB_T[i].Max, CDXB_O( Bounds )[i].Max ); } } /* CDXB_C::operator&= */ template void CDXB_C::operator|=( const CDXB_C& Bounds ) { CHKTYPE(); for( long i = 0; i < 4; ++i ) { CDXB_T[i].Min = min( CDXB_T[i].Min, CDXB_O( Bounds )[i].Min ); CDXB_T[i].Max = max( CDXB_T[i].Max, CDXB_O( Bounds )[i].Max ); } } /* CDXB_C::operator|= */ // operators returning CDXDBnds values template CDXB_C CDXB_C::operator+(const POINT &point) const { CHKTYPE(); CDXB_C Result( *this ); CDXB_O( Result )[DXB_X].Min += point.x; CDXB_O( Result )[DXB_X].Max += point.x; CDXB_O( Result )[DXB_Y].Min += point.y; CDXB_O( Result )[DXB_Y].Max += point.y; return Result; } /* CDXBnds::operator+ */ template CDXB_C CDXB_C::operator-(const POINT &point) const { CHKTYPE(); CDXB_C Result( *this ); CDXB_O( Result )[DXB_X].Min -= point.x; CDXB_O( Result )[DXB_X].Max -= point.x; CDXB_O( Result )[DXB_Y].Min -= point.y; CDXB_O( Result )[DXB_Y].Max -= point.y; return Result; } /* CDXBnds::operator- */ template CDXB_C CDXB_C::operator+(const SIZE &size) const { CHKTYPE(); CDXB_C Result( *this ); CDXB_O( Result )[DXB_X].Min += size.cx; CDXB_O( Result )[DXB_X].Max += size.cx; CDXB_O( Result )[DXB_Y].Min += size.cy; CDXB_O( Result )[DXB_Y].Max += size.cy; return Result; } /* CDXBnds::operator+ */ template CDXB_C CDXB_C::operator-( const SIZE &size ) const { CHKTYPE(); CDXB_C Result( *this ); CDXB_O( Result )[DXB_X].Min -= size.cx; CDXB_O( Result )[DXB_X].Max -= size.cx; CDXB_O( Result )[DXB_Y].Min -= size.cy; CDXB_O( Result )[DXB_Y].Max -= size.cy; return Result; } /* CDXB_C::operator- */ template CDXB_C CDXB_C::operator+(const CDXV_C& v) const { CHKTYPE(); CDXB_C Result( *this ); CDXB_O( Result )[DXB_X].Min += CDXV_O( v )[DXB_X]; CDXB_O( Result )[DXB_X].Max += CDXV_O( v )[DXB_X]; CDXB_O( Result )[DXB_Y].Min += CDXV_O( v )[DXB_Y]; CDXB_O( Result )[DXB_Y].Max += CDXV_O( v )[DXB_Y]; CDXB_O( Result )[DXB_Z].Min += CDXV_O( v )[DXB_Z]; CDXB_O( Result )[DXB_Z].Max += CDXV_O( v )[DXB_Z]; CDXB_O( Result )[DXB_T].Min += CDXV_O( v )[DXB_T]; CDXB_O( Result )[DXB_T].Max += CDXV_O( v )[DXB_T]; return Result; } /* CDXBnds::operator+ */ template CDXB_C CDXB_C::operator-(const CDXV_C& v) const { CHKTYPE(); CDXB_C Result( *this ); CDXB_O( Result )[DXB_X].Min -= CDXV_O( v )[DXB_X]; CDXB_O( Result )[DXB_X].Max -= CDXV_O( v )[DXB_X]; CDXB_O( Result )[DXB_Y].Min -= CDXV_O( v )[DXB_Y]; CDXB_O( Result )[DXB_Y].Max -= CDXV_O( v )[DXB_Y]; CDXB_O( Result )[DXB_Z].Min -= CDXV_O( v )[DXB_Z]; CDXB_O( Result )[DXB_Z].Max -= CDXV_O( v )[DXB_Z]; CDXB_O( Result )[DXB_T].Min -= CDXV_O( v )[DXB_T]; CDXB_O( Result )[DXB_T].Max -= CDXV_O( v )[DXB_T]; return Result; } /* CDXBnds::operator- */ template HRESULT CDXB_C::SetToSurfaceBounds(IDXSurface * pDXSurface) { #if (eBndType != DXBT_DISCRETE) #error SetToSurfacBounds requires a continuous bounds. #endif CHKTYPE(); return pDXSurface->GetBounds( this ); } template HRESULT CDXB_C::SetToMeshBounds(IDirect3DRMMeshBuilder3 * pMesh) { #if (eBndType != DXBT_CONTINUOUS) #error SetToMeshBounds requires a continuous bounds. #endif CHKTYPE(); D3DRMBOX Box; HRESULT hr = pMesh->GetBox(&Box); u.C[DXB_X].Min = Box.min.x; u.C[DXB_X].Max = Box.max.x; u.C[DXB_Y].Min = Box.min.y; u.C[DXB_Y].Max = Box.max.y; u.C[DXB_Z].Min = Box.min.z; u.C[DXB_Z].Max = Box.max.z; u.C[DXB_T].Min = 0; u.C[DXB_T].Max = 1.; return hr; } template void CDXB_C::Scale(const CDXV_C& v) { CHKTYPE(); for(long i = 0; i < 4; ++i ) { TYPE mid = (CDXB_T[i].Min + CDXB_T[i].Max) / 2; TYPE scale = CDXV_O(v)[i] * (CDXB_T[i].Max - mid); CDXB_T[i].Min = mid - scale; CDXB_T[i].Max = mid + scale; } } template void CDXB_C::Scale(TYPE x, TYPE y, TYPE z, TYPE t) { Scale(CDXV_C(x, y, z, t)); } template void CDXB_C::Expand(const CDXV_C& v) { CHKTYPE(); for(long i = 0; i < 4; ++i ) { TYPE scale = CDXV_O(v)[i] / 2; CDXB_T[i].Min -= scale; CDXB_T[i].Max += scale; } } template void CDXB_C::Expand(TYPE x, TYPE y, TYPE z, TYPE t) { Expand(CDXV_C(x, y, z, t)); } //--- typedef CDXBnds CDXDBnds; typedef CDXBnds CDXDBnds64; typedef CDXBnds CDXCBnds; typedef CDXBnds CDXCBnds64; //=== Macro Definitions ============================================ //=== Global Data Declarations ===================================== //=== Function Prototypes ========================================== #pragma option pop /*P_O_Pop*/ #endif /* This must be the last line in the file */