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apache / openoffice / bab44dcac0296df22024f3f10e7997de78ed4094 / . / AOO410 / main / vcl / os2 / source / gdi / salgdi2.cxx
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/**************************************************************
*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*
*************************************************************/
#include <string.h>
#include <svpm.h>
#define _SV_SALGDI2_CXX
#include <os2/salbmp.h>
#include <os2/saldata.hxx>
#ifndef _SV_SALIDS_HRC
#include <os2/salids.hrc>
#endif
#include <os2/salgdi.h>
#include <os2/salvd.h>
#include <vcl/salbtype.hxx>
#ifndef __H_FT2LIB
#include <os2/wingdi.h>
#include <ft2lib.h>
#endif
PM_BOOL bFastTransparent = FALSE;
// ---------------
// - SalGraphics -
// ---------------
bool Os2SalGraphics::supportsOperation( OutDevSupportType ) const
{
return false;
}
void Os2SalGraphics::copyBits( const SalTwoRect& rPosAry, SalGraphics* pSrcGraphics )
{
HPS hSrcPS;
POINTL thePoints[4];
long nSrcHeight;
if ( pSrcGraphics )
{
//hSrcPS = pSrcGraphics->mhPS;
//nSrcHeight = pSrcGraphics->mnHeight;
hSrcPS = static_cast<Os2SalGraphics*>(pSrcGraphics)->mhPS;
nSrcHeight = static_cast<Os2SalGraphics*>(pSrcGraphics)->mnHeight;
}
else
{
hSrcPS = mhPS;
nSrcHeight = mnHeight;
}
// lower-left corner of target
thePoints[0].x = rPosAry.mnDestX;
thePoints[0].y = TY( rPosAry.mnDestY + rPosAry.mnDestHeight - 1 );
// upper-right corner of target
thePoints[1].x = rPosAry.mnDestX + rPosAry.mnDestWidth;
thePoints[1].y = TY( rPosAry.mnDestY - 1 );
// lower-left corner of source
thePoints[2].x = rPosAry.mnSrcX;
thePoints[2].y = nSrcHeight - ( rPosAry.mnSrcY + rPosAry.mnSrcHeight );
if ( ( rPosAry.mnDestWidth != rPosAry.mnSrcWidth ) || ( rPosAry.mnDestHeight != rPosAry.mnSrcHeight ) )
{
// upper-right corner of Source
thePoints[3].x = rPosAry.mnSrcX + rPosAry.mnSrcWidth;
thePoints[3].y = nSrcHeight - rPosAry.mnSrcY + rPosAry.mnSrcHeight;
GpiBitBlt( mhPS, hSrcPS, 4, thePoints,
mbXORMode ? ROP_SRCINVERT : ROP_SRCCOPY, BBO_IGNORE );
}
else
{
GpiBitBlt( mhPS, hSrcPS, 3, thePoints,
mbXORMode ? ROP_SRCINVERT : ROP_SRCCOPY, BBO_IGNORE );
}
}
// -----------------------------------------------------------------------
void Os2SalGraphics::copyArea( long nDestX, long nDestY,
long nSrcX, long nSrcY,
long nSrcWidth, long nSrcHeight,
USHORT nFlags )
{
POINTL thePoints[3];
// lower-left corner of target
thePoints[0].x = nDestX;
thePoints[0].y = TY( nDestY + nSrcHeight - 1 );
// upper-right corner of target
thePoints[1].x = nDestX + nSrcWidth;
thePoints[1].y = TY( nDestY - 1 );
// lower-left corner of source
thePoints[2].x = nSrcX;
thePoints[2].y = TY( nSrcY + nSrcHeight - 1);
if ( (nFlags & SAL_COPYAREA_WINDOWINVALIDATE) && mbWindow )
{
// Overlap-Bereich berechnen und invalidieren
Point aVCLSrcPos( nSrcX, nSrcY );
Size aVCLSrcSize( nSrcWidth, nSrcHeight );
Rectangle aVCLSrcRect( aVCLSrcPos, aVCLSrcSize );
Rectangle aVCLClipRect;
SWP aSWP;
WinQueryWindowPos( mhWnd, &aSWP );
aVCLClipRect.Right() = aSWP.cx-1;
aVCLClipRect.Bottom() = aSWP.cy-1;
if ( !aVCLSrcRect.Intersection( aVCLClipRect ).IsEmpty() )
{
RECTL aSrcRect;
RECTL aTempRect;
HRGN hInvalidateRgn;
HRGN hTempRgn;
HWND hWnd;
long nRgnType;
long nVCLScrHeight = aVCLSrcRect.GetHeight();
aSrcRect.xLeft = aVCLSrcRect.Left();
aSrcRect.yBottom = TY( aVCLSrcRect.Top()+nVCLScrHeight-1 );
aSrcRect.xRight = aSrcRect.xLeft+aVCLSrcRect.GetWidth();
aSrcRect.yTop = aSrcRect.yBottom+nVCLScrHeight;
// Rechteck in Screen-Koordinaaten umrechnen
POINTL aPt;
long nScreenDX = WinQuerySysValue( HWND_DESKTOP, SV_CXSCREEN );
long nScreenDY = WinQuerySysValue( HWND_DESKTOP, SV_CYSCREEN );
aPt.x = 0;
aPt.y = 0;
WinMapWindowPoints( mhWnd, HWND_DESKTOP, &aPt, 1 );
aSrcRect.xLeft += aPt.x;
aSrcRect.yTop += aPt.y;
aSrcRect.xRight += aPt.x;
aSrcRect.yBottom += aPt.y;
hInvalidateRgn = 0;
// Bereiche ausserhalb des sichtbaren Bereiches berechnen
if ( aSrcRect.xLeft < 0 )
{
if ( !hInvalidateRgn )
hInvalidateRgn = GpiCreateRegion( mhPS, 1, &aSrcRect );
aTempRect.xLeft = -31999;
aTempRect.yBottom = 0;
aTempRect.xRight = 0;
aTempRect.yTop = 31999;
hTempRgn = GpiCreateRegion( mhPS, 1, &aTempRect );
GpiCombineRegion( mhPS, hInvalidateRgn, hInvalidateRgn, hTempRgn, CRGN_DIFF );
GpiDestroyRegion( mhPS, hTempRgn );
}
if ( aSrcRect.yBottom < 0 )
{
if ( !hInvalidateRgn )
hInvalidateRgn = GpiCreateRegion( mhPS, 1, &aSrcRect );
aTempRect.xLeft = 0;
aTempRect.yBottom = -31999;
aTempRect.xRight = 31999;
aTempRect.yTop = 0;
hTempRgn = GpiCreateRegion( mhPS, 1, &aTempRect );
GpiCombineRegion( mhPS, hInvalidateRgn, hInvalidateRgn, hTempRgn, CRGN_DIFF );
GpiDestroyRegion( mhPS, hTempRgn );
}
if ( aSrcRect.xRight > nScreenDX )
{
if ( !hInvalidateRgn )
hInvalidateRgn = GpiCreateRegion( mhPS, 1, &aSrcRect );
aTempRect.xLeft = nScreenDX;
aTempRect.yBottom = 0;
aTempRect.xRight = 31999;
aTempRect.yTop = 31999;
hTempRgn = GpiCreateRegion( mhPS, 1, &aTempRect );
GpiCombineRegion( mhPS, hInvalidateRgn, hInvalidateRgn, hTempRgn, CRGN_DIFF );
GpiDestroyRegion( mhPS, hTempRgn );
}
if ( aSrcRect.yTop > nScreenDY )
{
if ( !hInvalidateRgn )
hInvalidateRgn = GpiCreateRegion( mhPS, 1, &aSrcRect );
aTempRect.xLeft = 0;
aTempRect.yBottom = nScreenDY;
aTempRect.xRight = 31999;
aTempRect.yTop = 31999;
hTempRgn = GpiCreateRegion( mhPS, 1, &aTempRect );
GpiCombineRegion( mhPS, hInvalidateRgn, hInvalidateRgn, hTempRgn, CRGN_DIFF );
GpiDestroyRegion( mhPS, hTempRgn );
}
// Bereiche die von anderen Fenstern ueberlagert werden berechnen
// Calculate areas that are overlapped by other windows
HWND hWndParent = WinQueryWindow( mhWnd, QW_PARENT );
hWnd = WinQueryWindow( HWND_DESKTOP, QW_TOP );
aVCLSrcRect = Rectangle( aSrcRect.xLeft, aSrcRect.yBottom, aSrcRect.xRight, aSrcRect.yTop );
while ( hWnd )
{
if ( hWnd == hWndParent )
break;
if ( WinIsWindowVisible( hWnd ) )
{
WinQueryWindowPos( hWnd, &aSWP );
if ( !(aSWP.fl & SWP_MINIMIZE) )
{
aVCLClipRect = Rectangle( Point( aSWP.x, aSWP.y ), Size( aSWP.cx, aSWP.cy ) );
if ( aVCLSrcRect.IsOver( aVCLClipRect ) )
{
if ( !hInvalidateRgn )
hInvalidateRgn = GpiCreateRegion( mhPS, 1, &aSrcRect );
aTempRect.xLeft = aSWP.x;
aTempRect.yBottom = aSWP.y;
aTempRect.xRight = aTempRect.xLeft+aSWP.cx;
aTempRect.yTop = aTempRect.yBottom+aSWP.cy;
hTempRgn = GpiCreateRegion( mhPS, 1, &aTempRect );
GpiCombineRegion( mhPS, hInvalidateRgn, hInvalidateRgn, hTempRgn, CRGN_DIFF );
GpiDestroyRegion( mhPS, hTempRgn );
}
}
}
hWnd = WinQueryWindow( hWnd, QW_NEXT );
}
if ( hInvalidateRgn )
{
hTempRgn = GpiCreateRegion( mhPS, 1, &aSrcRect );
nRgnType = GpiCombineRegion( mhPS, hInvalidateRgn, hTempRgn, hInvalidateRgn, CRGN_DIFF );
GpiDestroyRegion( mhPS, hTempRgn );
if ( (nRgnType != RGN_ERROR) && (nRgnType != RGN_NULL) )
{
long nOffX = (nDestX-nSrcX);
long nOffY = (nSrcY-nDestY);
aPt.x = nOffX-aPt.x;
aPt.y = nOffY-aPt.y;
GpiOffsetRegion( mhPS, hInvalidateRgn, &aPt );
WinInvalidateRegion( mhWnd, hInvalidateRgn, TRUE );
// Hier loesen wir nur ein Update aus, wenn es der
// MainThread ist, damit es beim Bearbeiten der
// Paint-Message keinen Deadlock gibt, da der
// SolarMutex durch diesen Thread schon gelockt ist
SalData* pSalData = GetSalData();
ULONG nCurThreadId = GetCurrentThreadId();
if ( pSalData->mnAppThreadId == nCurThreadId )
WinUpdateWindow( mhWnd );
}
GpiDestroyRegion( mhPS, hInvalidateRgn );
}
}
}
GpiBitBlt( mhPS, mhPS, 3, thePoints,
ROP_SRCCOPY, BBO_IGNORE );
}
// -----------------------------------------------------------------------
void ImplDrawBitmap( HPS hPS, long nScreenHeight,
const SalTwoRect& rPosAry, const Os2SalBitmap& rSalBitmap,
PM_BOOL bPrinter, int nDrawMode )
{
if( hPS )
{
HANDLE hDrawDIB;
HBITMAP hDrawDDB = rSalBitmap.ImplGethDDB();
Os2SalBitmap* pTmpSalBmp = NULL;
PM_BOOL bPrintDDB = ( bPrinter && hDrawDDB );
PM_BOOL bDrawDDB1 = ( ( rSalBitmap.GetBitCount() == 1 ) && hDrawDDB );
if( bPrintDDB || bDrawDDB1 )
{
pTmpSalBmp = new Os2SalBitmap;
pTmpSalBmp->Create( rSalBitmap, rSalBitmap.GetBitCount() );
hDrawDIB = pTmpSalBmp->ImplGethDIB();
}
else
hDrawDIB = rSalBitmap.ImplGethDIB();
if( hDrawDIB )
{
HANDLE hSubst = rSalBitmap.ImplGethDIB1Subst();
POINTL pts[ 4 ];
BITMAPINFO2* pBI = (BITMAPINFO2*) hDrawDIB;
BITMAPINFOHEADER2* pBIH = (BITMAPINFOHEADER2*) pBI;
const long nHeight = pBIH->cy;
long nInfoSize = *(ULONG*) pBI + rSalBitmap.ImplGetDIBColorCount( hDrawDIB ) * sizeof( RGB2 );
PM_BYTE* pBits = (PM_BYTE*) pBI + nInfoSize;
pts[0].x = rPosAry.mnDestX;
pts[0].y = nScreenHeight - rPosAry.mnDestY - rPosAry.mnDestHeight;
pts[1].x = rPosAry.mnDestX + rPosAry.mnDestWidth - 1;
pts[1].y = nScreenHeight - rPosAry.mnDestY - 1;
pts[2].x = rPosAry.mnSrcX;
pts[2].y = nHeight - ( rPosAry.mnSrcY + rPosAry.mnSrcHeight );
pts[3].x = rPosAry.mnSrcX + rPosAry.mnSrcWidth;
pts[3].y = nHeight - rPosAry.mnSrcY;
// if we've got a 1Bit DIB, we create a 4Bit substitute
if( ( pBIH->cBitCount == 1 ) && !hSubst )
{
// create 4Bit substitute
hSubst = Os2SalBitmap::ImplCreateDIB4FromDIB1( hDrawDIB );
// replace substitute only, if it is no temporary SalBitmap
if( !( bPrintDDB || bDrawDDB1 ) )
( (Os2SalBitmap&) rSalBitmap ).ImplReplacehDIB1Subst( hSubst );
}
if( hSubst )
{
pBI = (BITMAPINFO2*) hSubst;
pBIH = (BITMAPINFOHEADER2*) pBI;
nInfoSize = *(ULONG*) pBI + rSalBitmap.ImplGetDIBColorCount( hSubst ) * sizeof( RGB2 );
pBits = (PM_BYTE*) pBI + nInfoSize;
}
if( bPrinter )
{
PM_BYTE* pDummy;
// expand 8Bit-DIB's to 24Bit-DIB's, because some printer drivers
// have problems to print these DIB's (strange)
if( pBIH->cBitCount == 8 && pBIH->ulCompression == BCA_UNCOMP )
{
const long nWidth = pBIH->cx;
const long nHeight = pBIH->cy;
const long nWidthAl8 = AlignedWidth4Bytes( nWidth * 8 );
const long nWidthAl24 = AlignedWidth4Bytes( nWidth * 24 );
const long nNewImageSize = nHeight * nWidthAl24;
BITMAPINFOHEADER2* pNewInfo;
pDummy = new PM_BYTE[ sizeof( BITMAPINFO2 ) + nNewImageSize ];
memset( pDummy, 0, sizeof( BITMAPINFO2 ) );
pNewInfo = (BITMAPINFOHEADER2*) pDummy;
pNewInfo->cbFix = sizeof( BITMAPINFOHEADER2 );
pNewInfo->cx = nWidth;
pNewInfo->cy = nHeight;
pNewInfo->cPlanes = 1;
pNewInfo->cBitCount = 24;
pNewInfo->ulCompression = BCA_UNCOMP;
pNewInfo->cbImage = nNewImageSize;
PM_BYTE* pBitsSrc = (PM_BYTE*) pBIH + nInfoSize;
PM_BYTE* pBitsDst = pDummy + sizeof( BITMAPINFO2 );
for( long nY = 0UL; nY < nHeight; nY++ )
{
PM_BYTE* pSrcLine = pBitsSrc + nY * nWidthAl8;
PM_BYTE* pDstLine = pBitsDst + nY * nWidthAl24;
for( long nX = 0UL; nX < nWidth; nX++ )
{
const RGB2& rQuad = pBI->argbColor[ *pSrcLine++ ];
*pDstLine++ = rQuad.bBlue;
*pDstLine++ = rQuad.bGreen;
*pDstLine++ = rQuad.bRed;
}
}
nInfoSize = sizeof( BITMAPINFO2 );
}
else
{
const long nImageSize = ( pBIH->cbImage ? pBIH->cbImage : ( pBIH->cy * AlignedWidth4Bytes( pBIH->cx * pBIH->cBitCount ) ) );
const long nTotalSize = nInfoSize + nImageSize;
pDummy = new PM_BYTE[ nTotalSize ];
memcpy( pDummy, pBI, nTotalSize );
}
GpiDrawBits( hPS, pDummy + nInfoSize, (BITMAPINFO2*) pDummy, 4L, pts, nDrawMode, BBO_IGNORE );
delete[] pDummy;
}
else
GpiDrawBits( hPS, pBits, pBI, 4L, pts, nDrawMode, BBO_IGNORE );
}
else if( hDrawDDB && !bPrintDDB )
{
POINTL pts[ 4 ];
pts[0].x = rPosAry.mnDestX;
pts[0].y = nScreenHeight - rPosAry.mnDestY - rPosAry.mnDestHeight;
pts[1].x = rPosAry.mnDestX + rPosAry.mnDestWidth - 1;
pts[1].y = nScreenHeight - rPosAry.mnDestY - 1;
pts[2].x = rPosAry.mnSrcX;
pts[2].y = rSalBitmap.GetSize().Height() - ( rPosAry.mnSrcY + rPosAry.mnSrcHeight );
pts[3].x = rPosAry.mnSrcX + rPosAry.mnSrcWidth;
pts[3].y = rSalBitmap.GetSize().Height() - rPosAry.mnSrcY;
GpiWCBitBlt( hPS, hDrawDDB, 4L, pts, nDrawMode, BBO_IGNORE );
/*
HPS hDrawPS = ImplGetCachedPS( CACHED_HPS_DRAW, hDrawDDB );
Ft2BitBlt( hPS, hDrawPS, 4, pts, nDrawMode, BBO_IGNORE );
ImplReleaseCachedPS( CACHED_HPS_DRAW );
*/
}
if( bPrintDDB || bDrawDDB1 )
delete pTmpSalBmp;
}
}
// -----------------------------------------------------------------------
void Os2SalGraphics::drawBitmap( const SalTwoRect& rPosAry, const SalBitmap& rSalBitmap )
{
ImplDrawBitmap( mhPS, mnHeight,
rPosAry, static_cast<const Os2SalBitmap&>(rSalBitmap),
mbPrinter,
mbXORMode ? ROP_SRCINVERT : ROP_SRCCOPY );
}
// -----------------------------------------------------------------------
void Os2SalGraphics::drawBitmap( const SalTwoRect& rPosAry,
const SalBitmap& rSalBitmap,
SalColor nTransparentColor )
{
DBG_ASSERT( !mbPrinter, "No transparency print possible!" );
//const Os2SalBitmap& rSalBitmap = static_cast<const Os2SalBitmap&>(rSSalBitmap);
// an FM: kann erst einmal unberuecksichtigt bleiben
drawBitmap( rPosAry, rSalBitmap );
}
// -----------------------------------------------------------------------
void Os2SalGraphics::drawBitmap( const SalTwoRect& rPosAry,
const SalBitmap& rSSalBitmap,
const SalBitmap& rSTransparentBitmap )
{
DBG_ASSERT( !mbPrinter, "No transparency print possible!" );
const Os2SalBitmap& rSalBitmap = static_cast<const Os2SalBitmap&>(rSSalBitmap);
const Os2SalBitmap& rTransparentBitmap = static_cast<const Os2SalBitmap&>(rSTransparentBitmap);
if( bFastTransparent )
{
ImplDrawBitmap( mhPS, mnHeight, rPosAry, rTransparentBitmap, FALSE, ROP_SRCAND );
ImplDrawBitmap( mhPS, mnHeight, rPosAry, rSalBitmap, FALSE, ROP_SRCPAINT );
}
else
{
SalTwoRect aPosAry = rPosAry;
int nDstX = (int) aPosAry.mnDestX;
int nDstY = (int) aPosAry.mnDestY;
int nDstWidth = (int) aPosAry.mnDestWidth;
int nDstHeight = (int) aPosAry.mnDestHeight;
HAB hAB = GetSalData()->mhAB;
HPS hPS = mhPS;
DEVOPENSTRUC aDevOpenStruc = { NULL, (PSZ)"DISPLAY", NULL, NULL, NULL, NULL, NULL, NULL, NULL };
SIZEL aSizeL = { nDstWidth, nDstHeight };
POINTL aPtL[ 3 ];
HDC hMemDC = DevOpenDC( hAB, OD_MEMORY, (PSZ)"*", 5L, (PDEVOPENDATA)&aDevOpenStruc, 0 );
HPS hMemPS = Ft2CreatePS( hAB, hMemDC, &aSizeL, GPIT_MICRO | GPIA_ASSOC | PU_PELS );
HBITMAP hMemBitmap = ImplCreateVirDevBitmap( hMemDC, hMemPS, nDstWidth, nDstHeight, 0 );
HBITMAP hMemOld = (HBITMAP) Ft2SetBitmap( hMemPS, hMemBitmap );
HDC hMaskDC = DevOpenDC( hAB, OD_MEMORY, (PSZ)"*", 5L, (PDEVOPENDATA)&aDevOpenStruc, 0 );
HPS hMaskPS = Ft2CreatePS( hAB, hMaskDC, &aSizeL, GPIT_MICRO | GPIA_ASSOC | PU_PELS );
HBITMAP hMaskBitmap = ImplCreateVirDevBitmap( hMaskDC, hMaskPS, nDstWidth, nDstHeight, 0 );
HBITMAP hMaskOld = (HBITMAP) Ft2SetBitmap( hMaskPS, hMaskBitmap );
/*
HPS hMemPS = ImplGetCachedPS( CACHED_HPS_1, 0 );
HPS hMaskPS = ImplGetCachedPS( CACHED_HPS_2, 0 );
*/
aPosAry.mnDestX = aPosAry.mnDestY = 0L;
aPtL[ 0 ].x = 0;
aPtL[ 0 ].y = 0;
aPtL[ 1 ].x = nDstWidth;
aPtL[ 1 ].y = nDstHeight;
aPtL[ 2 ].x = nDstX;
aPtL[ 2 ].y = TY( nDstY + nDstHeight - 1 );
GpiBitBlt( hMemPS, hPS, 3, aPtL, ROP_SRCCOPY, BBO_IGNORE );
ImplDrawBitmap( hMaskPS, nDstHeight, aPosAry, rTransparentBitmap, FALSE, ROP_SRCCOPY );
aPtL[ 2 ].x = 0;
aPtL[ 2 ].y = 0;
GpiBitBlt( hMemPS, hMaskPS, 3, aPtL, ROP_SRCAND, BBO_IGNORE );
ImplDrawBitmap( hMaskPS, nDstHeight, aPosAry, rSalBitmap, FALSE, ROP_SRCERASE );
GpiBitBlt( hMemPS, hMaskPS, 3, aPtL, ROP_SRCPAINT, BBO_IGNORE );
aPtL[ 0 ].x = nDstX;
aPtL[ 0 ].y = TY( nDstY + nDstHeight - 1 );
aPtL[ 1 ].x = nDstX + nDstWidth;
aPtL[ 1 ].y = TY( nDstY - 1 );
GpiBitBlt( hPS, hMemPS, 3, aPtL, ROP_SRCCOPY, BBO_IGNORE );
Ft2SetBitmap( hMaskPS, hMaskOld );
Ft2DestroyPS( hMaskPS );
DevCloseDC( hMaskDC );
GpiDeleteBitmap( hMaskBitmap );
Ft2SetBitmap( hMemPS, hMemOld );
Ft2DestroyPS( hMemPS );
DevCloseDC( hMemDC );
GpiDeleteBitmap( hMemBitmap );
/*
ImplReleaseCachedPS( CACHED_HPS_1 );
ImplReleaseCachedPS( CACHED_HPS_2 );
*/
}
}
// -----------------------------------------------------------------------
bool Os2SalGraphics::drawAlphaBitmap( const SalTwoRect& rTR,
const SalBitmap& rSrcBitmap,
const SalBitmap& rAlphaBmp )
{
// TODO(P3) implement alpha blending
return false;
}
// -----------------------------------------------------------------------
bool Os2SalGraphics::drawTransformedBitmap(
const basegfx::B2DPoint& rNull,
const basegfx::B2DPoint& rX,
const basegfx::B2DPoint& rY,
const SalBitmap& rSourceBitmap,
const SalBitmap* pAlphaBitmap)
{
// here direct support for transformed bitmaps can be impemented
(void)rNull; (void)rX; (void)rY; (void)rSourceBitmap; (void)pAlphaBitmap;
return false;
}
// -----------------------------------------------------------------------
bool Os2SalGraphics::drawAlphaRect( long nX, long nY, long nWidth,
long nHeight, sal_uInt8 nTransparency )
{
// TODO(P3) implement alpha blending
return false;
}
// -----------------------------------------------------------------------
void Os2SalGraphics::drawMask( const SalTwoRect& rPosAry,
const SalBitmap& rSSalBitmap,
SalColor nMaskColor )
{
DBG_ASSERT( !mbPrinter, "No transparency print possible!" );
const Os2SalBitmap& rSalBitmap = static_cast<const Os2SalBitmap&>(rSSalBitmap);
SalTwoRect aPosAry = rPosAry;
HPS hPS = mhPS;
IMAGEBUNDLE aBundle, aOldBundle;
AREABUNDLE aAreaBundle, aOldAreaBundle;
const ULONG nColor = MAKE_SALCOLOR( SALCOLOR_RED( nMaskColor ),
SALCOLOR_GREEN( nMaskColor ),
SALCOLOR_BLUE( nMaskColor ) );
GpiQueryAttrs( hPS, PRIM_IMAGE, IBB_COLOR | IBB_BACK_COLOR, &aOldBundle );
aBundle.lColor = MAKE_SALCOLOR( 0, 0, 0 );
aBundle.lBackColor = MAKE_SALCOLOR( 0xFF, 0xFF, 0xFF );
Ft2SetAttrs( hPS, PRIM_IMAGE, IBB_COLOR | IBB_BACK_COLOR, 0, &aBundle );
GpiQueryAttrs( hPS, PRIM_AREA, ABB_COLOR | ABB_BACK_COLOR | ABB_SYMBOL |
ABB_MIX_MODE | ABB_BACK_MIX_MODE, &aOldAreaBundle );
aAreaBundle.lColor = nColor;
aAreaBundle.lBackColor = nColor;
aAreaBundle.usSymbol = PATSYM_SOLID;
aAreaBundle.usMixMode = FM_OVERPAINT;
aAreaBundle.usBackMixMode = BM_OVERPAINT;
Ft2SetAttrs( hPS, PRIM_AREA, ABB_COLOR | ABB_BACK_COLOR | ABB_SYMBOL |
ABB_MIX_MODE | ABB_BACK_MIX_MODE, 0, &aAreaBundle );
ImplDrawBitmap( hPS, mnHeight, aPosAry, rSalBitmap, FALSE, 0x00B8L );
Ft2SetAttrs( hPS, PRIM_IMAGE, IBB_COLOR | IBB_BACK_COLOR, 0, &aOldBundle );
Ft2SetAttrs( hPS, PRIM_AREA, ABB_COLOR | ABB_BACK_COLOR | ABB_SYMBOL |
ABB_MIX_MODE | ABB_BACK_MIX_MODE, 0, &aOldAreaBundle );
}
// -----------------------------------------------------------------------
SalBitmap* Os2SalGraphics::getBitmap( long nX, long nY, long nDX, long nDY )
{
HAB hAB = GetSalData()->mhAB;
SIZEL size = { nDX, nDY };
Os2SalBitmap* pSalBitmap = NULL;
// create device context (at this time allways display compatible)
DEVOPENSTRUC aDevOpenStruc = { NULL, (PSZ)"DISPLAY", NULL, NULL, NULL, NULL, NULL, NULL, NULL };
HDC hMemDC = DevOpenDC( hAB, OD_MEMORY, (PSZ)"*", 5L, (PDEVOPENDATA)&aDevOpenStruc, 0 );
HPS hMemPS = Ft2CreatePS( hAB, hMemDC, &size, GPIT_MICRO | GPIA_ASSOC | PU_PELS );
HBITMAP hMemBmp = ImplCreateVirDevBitmap( hMemDC, hMemPS, nDX, nDY, 0 );
HBITMAP hMemOld = Ft2SetBitmap( hMemPS, hMemBmp );
// creation successfull?
if( hMemDC && hMemPS && hMemBmp )
{
POINTL thePoints[ 3 ];
// lower-left corner of target
thePoints[ 0 ].x = 0;
thePoints[ 0 ].y = 0;
// upper-right corner of target
thePoints[ 1 ].x = nDX;
thePoints[ 1 ].y = nDY;
// lower-left corner of source
thePoints[ 2 ].x = nX;
thePoints[ 2 ].y = TY( nY + nDY - 1 );
long lHits = GpiBitBlt( hMemPS, mhPS, 3, thePoints,
mbXORMode ? ROP_SRCINVERT : ROP_SRCCOPY, BBO_IGNORE );
if( hMemPS )
{
Ft2SetBitmap( hMemPS, hMemOld );
Ft2DestroyPS( hMemPS );
}
if( hMemDC )
DevCloseDC( hMemDC );
if( lHits == GPI_OK )
{
pSalBitmap = new Os2SalBitmap;
if( !pSalBitmap->Create( hMemBmp, FALSE, FALSE ) )
{
delete pSalBitmap;
pSalBitmap = NULL;
}
}
}
if( !pSalBitmap )
GpiDeleteBitmap( hMemBmp );
// return pointer to SAL-Bitmap
return pSalBitmap;
}
// -----------------------------------------------------------------------
SalColor Os2SalGraphics::getPixel( long nX, long nY )
{
POINTL aPt = { nX, TY( nY ) };
LONG nColor = Ft2QueryPel( mhPS, &aPt );
return MAKE_SALCOLOR( (PM_BYTE) ( nColor >> 16 ), (PM_BYTE) ( nColor >> 8 ), (PM_BYTE) nColor );
}
// -----------------------------------------------------------------------
void Os2SalGraphics::invert( long nX, long nY, long nWidth, long nHeight, SalInvert nFlags )
{
if( nFlags & SAL_INVERT_TRACKFRAME )
{
// save old vylues
LINEBUNDLE oldLb;
LINEBUNDLE lb;
GpiQueryAttrs( mhPS, PRIM_LINE, LBB_MIX_MODE | LBB_TYPE | LBB_COLOR, &oldLb );
// set linetype to short dash
lb.lColor = MAKE_SALCOLOR( 255, 255, 255 );
lb.usMixMode = FM_XOR;
lb.usType = LINETYPE_ALTERNATE;
Ft2SetAttrs( mhPS, PRIM_LINE, LBB_MIX_MODE | LBB_TYPE | LBB_COLOR, 0, &lb );
// draw inverted box
POINTL aPt;
aPt.x = nX;
aPt.y = TY( nY );
Ft2Move( mhPS, &aPt );
aPt.x = nX + nWidth - 1;
aPt.y = TY( nY + nHeight - 1 );
Ft2Box( mhPS, DRO_OUTLINE, &aPt, 0, 0 );
// restore old values
Ft2SetAttrs( mhPS, PRIM_LINE, LBB_MIX_MODE | LBB_TYPE | LBB_COLOR, 0, &oldLb );
}
else
{
// save old values
AREABUNDLE oldAb;
AREABUNDLE ab;
GpiQueryAttrs( mhPS, PRIM_AREA, ABB_COLOR | ABB_MIX_MODE | ABB_SYMBOL, &oldAb );
// set fill color to black
ab.lColor = MAKE_SALCOLOR( 255, 255, 255 );
ab.usMixMode = FM_XOR;
ab.usSymbol = (nFlags & SAL_INVERT_50) ? PATSYM_DENSE5 : PATSYM_SOLID;
Ft2SetAttrs( mhPS, PRIM_AREA, ABB_COLOR | ABB_MIX_MODE | ABB_SYMBOL, 0, &ab );
// draw inverted box
POINTL aPt;
aPt.x = nX;
aPt.y = TY( nY );
Ft2Move( mhPS, &aPt );
aPt.x = nX + nWidth - 1;
aPt.y = TY( nY + nHeight - 1 );
Ft2Box( mhPS, DRO_FILL, &aPt, 0, 0 );
// restore old values
Ft2SetAttrs( mhPS, PRIM_AREA, ABB_COLOR | ABB_MIX_MODE | ABB_SYMBOL, 0, &oldAb );
}
}
// -----------------------------------------------------------------------
void Os2SalGraphics::invert( sal_uInt32 nPoints, const SalPoint* pPtAry, SalInvert nFlags )
{
if( nFlags & SAL_INVERT_TRACKFRAME )
{
// save old vylues
LINEBUNDLE oldLb;
LINEBUNDLE lb;
GpiQueryAttrs( mhPS, PRIM_LINE, LBB_MIX_MODE | LBB_TYPE | LBB_COLOR, &oldLb );
// set linetype to short dash
lb.lColor = MAKE_SALCOLOR( 255, 255, 255 );
lb.usMixMode = FM_XOR;
lb.usType = LINETYPE_ALTERNATE;
Ft2SetAttrs( mhPS, PRIM_LINE, LBB_MIX_MODE | LBB_TYPE | LBB_COLOR, 0, &lb );
// Draw Polyline
drawPolyLine( nPoints, pPtAry );
// restore old values
Ft2SetAttrs( mhPS, PRIM_LINE, LBB_MIX_MODE | LBB_TYPE | LBB_COLOR, 0, &oldLb );
}
else
{
// save old values
AREABUNDLE oldAb;
AREABUNDLE ab;
GpiQueryAttrs( mhPS, PRIM_AREA, ABB_COLOR | ABB_MIX_MODE | ABB_SYMBOL, &oldAb );
// set fill color to black
ab.lColor = MAKE_SALCOLOR( 255, 255, 255 );
ab.usMixMode = FM_XOR;
ab.usSymbol = (nFlags & SAL_INVERT_50) ? PATSYM_DENSE5 : PATSYM_SOLID;
Ft2SetAttrs( mhPS, PRIM_AREA, ABB_COLOR | ABB_MIX_MODE | ABB_SYMBOL, 0, &ab );
// Draw Polyline
drawPolygon( nPoints, pPtAry );
// restore old values
Ft2SetAttrs( mhPS, PRIM_AREA, ABB_COLOR | ABB_MIX_MODE | ABB_SYMBOL, 0, &oldAb );
}
}