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/*
* GDI drawing functions.
*
* Copyright 1993, 1994 Alexandre Julliard
* Copyright 1997 Bertho A. Stultiens
* 1999 Huw D M Davies
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "config.h"
#include "wine/port.h"
#include <stdarg.h>
#include <string.h>
#include <stdlib.h>
#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "winerror.h"
#include "gdi_private.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL(gdi);
/***********************************************************************
* LineTo (GDI32.@)
*/
BOOL WINAPI LineTo( HDC hdc, INT x, INT y )
{
DC * dc = DC_GetDCUpdate( hdc );
BOOL ret;
if(!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_LineTo(dc, x, y);
else
ret = dc->funcs->pLineTo && dc->funcs->pLineTo(dc->physDev,x,y);
if(ret) {
dc->CursPosX = x;
dc->CursPosY = y;
}
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* MoveToEx (GDI32.@)
*/
BOOL WINAPI MoveToEx( HDC hdc, INT x, INT y, LPPOINT pt )
{
BOOL ret = TRUE;
DC * dc = DC_GetDCPtr( hdc );
if(!dc) return FALSE;
if(pt) {
pt->x = dc->CursPosX;
pt->y = dc->CursPosY;
}
dc->CursPosX = x;
dc->CursPosY = y;
if(PATH_IsPathOpen(dc->path)) ret = PATH_MoveTo(dc);
else if (dc->funcs->pMoveTo) ret = dc->funcs->pMoveTo(dc->physDev,x,y);
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* Arc (GDI32.@)
*/
BOOL WINAPI Arc( HDC hdc, INT left, INT top, INT right,
INT bottom, INT xstart, INT ystart,
INT xend, INT yend )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if(PATH_IsPathOpen(dc->path))
ret = PATH_Arc(dc, left, top, right, bottom, xstart, ystart, xend, yend,0);
else if (dc->funcs->pArc)
ret = dc->funcs->pArc(dc->physDev,left,top,right,bottom,xstart,ystart,xend,yend);
GDI_ReleaseObj( hdc );
}
return ret;
}
/***********************************************************************
* ArcTo (GDI32.@)
*/
BOOL WINAPI ArcTo( HDC hdc,
INT left, INT top,
INT right, INT bottom,
INT xstart, INT ystart,
INT xend, INT yend )
{
double width = fabs(right-left),
height = fabs(bottom-top),
xradius = width/2,
yradius = height/2,
xcenter = right > left ? left+xradius : right+xradius,
ycenter = bottom > top ? top+yradius : bottom+yradius,
angle;
BOOL result;
DC * dc = DC_GetDCUpdate( hdc );
if(!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
result = PATH_Arc(dc,left,top,right,bottom,xstart,ystart,xend,yend,-1);
else if(dc->funcs->pArcTo)
result = dc->funcs->pArcTo( dc->physDev, left, top, right, bottom,
xstart, ystart, xend, yend );
else /* We'll draw a line from the current position to the starting point of the arc, then draw the arc */
{
angle = atan2(((ystart-ycenter)/height),
((xstart-xcenter)/width));
LineTo(hdc, GDI_ROUND(xcenter+(cos(angle)*xradius)),
GDI_ROUND(ycenter+(sin(angle)*yradius)));
result = Arc(hdc, left, top, right, bottom, xstart, ystart, xend, yend);
}
if (result) {
angle = atan2(((yend-ycenter)/height),
((xend-xcenter)/width));
dc->CursPosX = GDI_ROUND(xcenter+(cos(angle)*xradius));
dc->CursPosY = GDI_ROUND(ycenter+(sin(angle)*yradius));
}
GDI_ReleaseObj( hdc );
return result;
}
/***********************************************************************
* Pie (GDI32.@)
*/
BOOL WINAPI Pie( HDC hdc, INT left, INT top,
INT right, INT bottom, INT xstart, INT ystart,
INT xend, INT yend )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_Arc(dc,left,top,right,bottom,xstart,ystart,xend,yend,2);
else if(dc->funcs->pPie)
ret = dc->funcs->pPie(dc->physDev,left,top,right,bottom,xstart,ystart,xend,yend);
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* Chord (GDI32.@)
*/
BOOL WINAPI Chord( HDC hdc, INT left, INT top,
INT right, INT bottom, INT xstart, INT ystart,
INT xend, INT yend )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_Arc(dc,left,top,right,bottom,xstart,ystart,xend,yend,1);
else if(dc->funcs->pChord)
ret = dc->funcs->pChord(dc->physDev,left,top,right,bottom,xstart,ystart,xend,yend);
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* Ellipse (GDI32.@)
*/
BOOL WINAPI Ellipse( HDC hdc, INT left, INT top,
INT right, INT bottom )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_Ellipse(dc,left,top,right,bottom);
else if (dc->funcs->pEllipse)
ret = dc->funcs->pEllipse(dc->physDev,left,top,right,bottom);
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* Rectangle (GDI32.@)
*/
BOOL WINAPI Rectangle( HDC hdc, INT left, INT top,
INT right, INT bottom )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if(PATH_IsPathOpen(dc->path))
ret = PATH_Rectangle(dc, left, top, right, bottom);
else if (dc->funcs->pRectangle)
ret = dc->funcs->pRectangle(dc->physDev,left,top,right,bottom);
GDI_ReleaseObj( hdc );
}
return ret;
}
/***********************************************************************
* RoundRect (GDI32.@)
*/
BOOL WINAPI RoundRect( HDC hdc, INT left, INT top, INT right,
INT bottom, INT ell_width, INT ell_height )
{
BOOL ret = FALSE;
DC *dc = DC_GetDCUpdate( hdc );
if (dc)
{
if(PATH_IsPathOpen(dc->path))
ret = PATH_RoundRect(dc,left,top,right,bottom,ell_width,ell_height);
else if (dc->funcs->pRoundRect)
ret = dc->funcs->pRoundRect(dc->physDev,left,top,right,bottom,ell_width,ell_height);
GDI_ReleaseObj( hdc );
}
return ret;
}
/***********************************************************************
* SetPixel (GDI32.@)
*/
COLORREF WINAPI SetPixel( HDC hdc, INT x, INT y, COLORREF color )
{
COLORREF ret = 0;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (dc->funcs->pSetPixel) ret = dc->funcs->pSetPixel(dc->physDev,x,y,color);
GDI_ReleaseObj( hdc );
}
return ret;
}
/***********************************************************************
* SetPixelV (GDI32.@)
*/
BOOL WINAPI SetPixelV( HDC hdc, INT x, INT y, COLORREF color )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (dc->funcs->pSetPixel)
{
dc->funcs->pSetPixel(dc->physDev,x,y,color);
ret = TRUE;
}
GDI_ReleaseObj( hdc );
}
return ret;
}
/***********************************************************************
* GetPixel (GDI32.@)
*/
COLORREF WINAPI GetPixel( HDC hdc, INT x, INT y )
{
COLORREF ret = CLR_INVALID;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
/* FIXME: should this be in the graphics driver? */
if (PtVisible( hdc, x, y ))
{
if (dc->funcs->pGetPixel) ret = dc->funcs->pGetPixel(dc->physDev,x,y);
}
GDI_ReleaseObj( hdc );
}
return ret;
}
/******************************************************************************
* ChoosePixelFormat [GDI32.@]
* Matches a pixel format to given format
*
* PARAMS
* hdc [I] Device context to search for best pixel match
* ppfd [I] Pixel format for which a match is sought
*
* RETURNS
* Success: Pixel format index closest to given format
* Failure: 0
*/
INT WINAPI ChoosePixelFormat( HDC hdc, const PIXELFORMATDESCRIPTOR* ppfd )
{
INT ret = 0;
DC * dc = DC_GetDCPtr( hdc );
TRACE("(%p,%p)\n",hdc,ppfd);
if (!dc) return 0;
if (!dc->funcs->pChoosePixelFormat) FIXME(" :stub\n");
else ret = dc->funcs->pChoosePixelFormat(dc->physDev,ppfd);
GDI_ReleaseObj( hdc );
return ret;
}
/******************************************************************************
* SetPixelFormat [GDI32.@]
* Sets pixel format of device context
*
* PARAMS
* hdc [I] Device context to search for best pixel match
* iPixelFormat [I] Pixel format index
* ppfd [I] Pixel format for which a match is sought
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI SetPixelFormat( HDC hdc, INT iPixelFormat,
const PIXELFORMATDESCRIPTOR *ppfd)
{
INT bRet = FALSE;
DC * dc = DC_GetDCPtr( hdc );
TRACE("(%p,%d,%p)\n",hdc,iPixelFormat,ppfd);
if (!dc) return 0;
if (!dc->funcs->pSetPixelFormat) FIXME(" :stub\n");
else bRet = dc->funcs->pSetPixelFormat(dc->physDev,iPixelFormat,ppfd);
GDI_ReleaseObj( hdc );
return bRet;
}
/******************************************************************************
* GetPixelFormat [GDI32.@]
* Gets index of pixel format of DC
*
* PARAMETERS
* hdc [I] Device context whose pixel format index is sought
*
* RETURNS
* Success: Currently selected pixel format
* Failure: 0
*/
INT WINAPI GetPixelFormat( HDC hdc )
{
INT ret = 0;
DC * dc = DC_GetDCPtr( hdc );
TRACE("(%p)\n",hdc);
if (!dc) return 0;
if (!dc->funcs->pGetPixelFormat) FIXME(" :stub\n");
else ret = dc->funcs->pGetPixelFormat(dc->physDev);
GDI_ReleaseObj( hdc );
return ret;
}
/******************************************************************************
* DescribePixelFormat [GDI32.@]
* Gets info about pixel format from DC
*
* PARAMS
* hdc [I] Device context
* iPixelFormat [I] Pixel format selector
* nBytes [I] Size of buffer
* ppfd [O] Pointer to structure to receive pixel format data
*
* RETURNS
* Success: Maximum pixel format index of the device context
* Failure: 0
*/
INT WINAPI DescribePixelFormat( HDC hdc, INT iPixelFormat, UINT nBytes,
LPPIXELFORMATDESCRIPTOR ppfd )
{
INT ret = 0;
DC * dc = DC_GetDCPtr( hdc );
TRACE("(%p,%d,%d,%p): stub\n",hdc,iPixelFormat,nBytes,ppfd);
if (!dc) return 0;
if (!dc->funcs->pDescribePixelFormat)
{
FIXME(" :stub\n");
ppfd->nSize = nBytes;
ppfd->nVersion = 1;
ret = 3;
}
else ret = dc->funcs->pDescribePixelFormat(dc->physDev,iPixelFormat,nBytes,ppfd);
GDI_ReleaseObj( hdc );
return ret;
}
/******************************************************************************
* SwapBuffers [GDI32.@]
* Exchanges front and back buffers of window
*
* PARAMS
* hdc [I] Device context whose buffers get swapped
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI SwapBuffers( HDC hdc )
{
INT bRet = FALSE;
DC * dc = DC_GetDCPtr( hdc );
TRACE("(%p)\n",hdc);
if (!dc) return TRUE;
if (!dc->funcs->pSwapBuffers)
{
FIXME(" :stub\n");
bRet = TRUE;
}
else bRet = dc->funcs->pSwapBuffers(dc->physDev);
GDI_ReleaseObj( hdc );
return bRet;
}
/***********************************************************************
* PaintRgn (GDI32.@)
*/
BOOL WINAPI PaintRgn( HDC hdc, HRGN hrgn )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (dc->funcs->pPaintRgn) ret = dc->funcs->pPaintRgn(dc->physDev,hrgn);
GDI_ReleaseObj( hdc );
}
return ret;
}
/***********************************************************************
* FillRgn (GDI32.@)
*/
BOOL WINAPI FillRgn( HDC hdc, HRGN hrgn, HBRUSH hbrush )
{
BOOL retval = FALSE;
HBRUSH prevBrush;
DC * dc = DC_GetDCUpdate( hdc );
if (!dc) return FALSE;
if(dc->funcs->pFillRgn)
retval = dc->funcs->pFillRgn(dc->physDev, hrgn, hbrush);
else if ((prevBrush = SelectObject( hdc, hbrush )))
{
retval = PaintRgn( hdc, hrgn );
SelectObject( hdc, prevBrush );
}
GDI_ReleaseObj( hdc );
return retval;
}
/***********************************************************************
* FrameRgn (GDI32.@)
*/
BOOL WINAPI FrameRgn( HDC hdc, HRGN hrgn, HBRUSH hbrush,
INT nWidth, INT nHeight )
{
BOOL ret = FALSE;
DC *dc = DC_GetDCUpdate( hdc );
if (!dc) return FALSE;
if(dc->funcs->pFrameRgn)
ret = dc->funcs->pFrameRgn( dc->physDev, hrgn, hbrush, nWidth, nHeight );
else
{
HRGN tmp = CreateRectRgn( 0, 0, 0, 0 );
if (tmp)
{
if (REGION_FrameRgn( tmp, hrgn, nWidth, nHeight ))
{
FillRgn( hdc, tmp, hbrush );
ret = TRUE;
}
DeleteObject( tmp );
}
}
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* InvertRgn (GDI32.@)
*/
BOOL WINAPI InvertRgn( HDC hdc, HRGN hrgn )
{
HBRUSH prevBrush;
INT prevROP;
BOOL retval;
DC *dc = DC_GetDCUpdate( hdc );
if (!dc) return FALSE;
if(dc->funcs->pInvertRgn)
retval = dc->funcs->pInvertRgn( dc->physDev, hrgn );
else
{
prevBrush = SelectObject( hdc, GetStockObject(BLACK_BRUSH) );
prevROP = SetROP2( hdc, R2_NOT );
retval = PaintRgn( hdc, hrgn );
SelectObject( hdc, prevBrush );
SetROP2( hdc, prevROP );
}
GDI_ReleaseObj( hdc );
return retval;
}
/**********************************************************************
* Polyline (GDI32.@)
*/
BOOL WINAPI Polyline( HDC hdc, const POINT* pt, INT count )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (PATH_IsPathOpen(dc->path)) ret = PATH_Polyline(dc, pt, count);
else if (dc->funcs->pPolyline) ret = dc->funcs->pPolyline(dc->physDev,pt,count);
GDI_ReleaseObj( hdc );
}
return ret;
}
/**********************************************************************
* PolylineTo (GDI32.@)
*/
BOOL WINAPI PolylineTo( HDC hdc, const POINT* pt, DWORD cCount )
{
DC * dc = DC_GetDCUpdate( hdc );
BOOL ret = FALSE;
if(!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_PolylineTo(dc, pt, cCount);
else if(dc->funcs->pPolylineTo)
ret = dc->funcs->pPolylineTo(dc->physDev, pt, cCount);
else { /* do it using Polyline */
POINT *pts = HeapAlloc( GetProcessHeap(), 0,
sizeof(POINT) * (cCount + 1) );
if (pts)
{
pts[0].x = dc->CursPosX;
pts[0].y = dc->CursPosY;
memcpy( pts + 1, pt, sizeof(POINT) * cCount );
ret = Polyline( hdc, pts, cCount + 1 );
HeapFree( GetProcessHeap(), 0, pts );
}
}
if(ret) {
dc->CursPosX = pt[cCount-1].x;
dc->CursPosY = pt[cCount-1].y;
}
GDI_ReleaseObj( hdc );
return ret;
}
/**********************************************************************
* Polygon (GDI32.@)
*/
BOOL WINAPI Polygon( HDC hdc, const POINT* pt, INT count )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (PATH_IsPathOpen(dc->path)) ret = PATH_Polygon(dc, pt, count);
else if (dc->funcs->pPolygon) ret = dc->funcs->pPolygon(dc->physDev,pt,count);
GDI_ReleaseObj( hdc );
}
return ret;
}
/**********************************************************************
* PolyPolygon (GDI32.@)
*/
BOOL WINAPI PolyPolygon( HDC hdc, const POINT* pt, const INT* counts,
UINT polygons )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (PATH_IsPathOpen(dc->path)) ret = PATH_PolyPolygon(dc, pt, counts, polygons);
else if (dc->funcs->pPolyPolygon) ret = dc->funcs->pPolyPolygon(dc->physDev,pt,counts,polygons);
GDI_ReleaseObj( hdc );
}
return ret;
}
/**********************************************************************
* PolyPolyline (GDI32.@)
*/
BOOL WINAPI PolyPolyline( HDC hdc, const POINT* pt, const DWORD* counts,
DWORD polylines )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (PATH_IsPathOpen(dc->path)) ret = PATH_PolyPolyline(dc, pt, counts, polylines);
else if (dc->funcs->pPolyPolyline) ret = dc->funcs->pPolyPolyline(dc->physDev,pt,counts,polylines);
GDI_ReleaseObj( hdc );
}
return ret;
}
/**********************************************************************
* ExtFloodFill (GDI32.@)
*/
BOOL WINAPI ExtFloodFill( HDC hdc, INT x, INT y, COLORREF color,
UINT fillType )
{
BOOL ret = FALSE;
DC * dc = DC_GetDCUpdate( hdc );
if (dc)
{
if (dc->funcs->pExtFloodFill) ret = dc->funcs->pExtFloodFill(dc->physDev,x,y,color,fillType);
GDI_ReleaseObj( hdc );
}
return ret;
}
/**********************************************************************
* FloodFill (GDI32.@)
*/
BOOL WINAPI FloodFill( HDC hdc, INT x, INT y, COLORREF color )
{
return ExtFloodFill( hdc, x, y, color, FLOODFILLBORDER );
}
/******************************************************************************
* PolyBezier [GDI32.@]
* Draws one or more Bezier curves
*
* PARAMS
* hDc [I] Handle to device context
* lppt [I] Pointer to endpoints and control points
* cPoints [I] Count of endpoints and control points
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI PolyBezier( HDC hdc, const POINT* lppt, DWORD cPoints )
{
BOOL ret = FALSE;
DC * dc;
/* cPoints must be 3 * n + 1 (where n>=1) */
if (cPoints == 1 || (cPoints % 3) != 1) return FALSE;
dc = DC_GetDCUpdate( hdc );
if(!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_PolyBezier(dc, lppt, cPoints);
else if (dc->funcs->pPolyBezier)
ret = dc->funcs->pPolyBezier(dc->physDev, lppt, cPoints);
else /* We'll convert it into line segments and draw them using Polyline */
{
POINT *Pts;
INT nOut;
if ((Pts = GDI_Bezier( lppt, cPoints, &nOut )))
{
TRACE("Pts = %p, no = %d\n", Pts, nOut);
ret = Polyline( dc->hSelf, Pts, nOut );
HeapFree( GetProcessHeap(), 0, Pts );
}
}
GDI_ReleaseObj( hdc );
return ret;
}
/******************************************************************************
* PolyBezierTo [GDI32.@]
* Draws one or more Bezier curves
*
* PARAMS
* hDc [I] Handle to device context
* lppt [I] Pointer to endpoints and control points
* cPoints [I] Count of endpoints and control points
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI PolyBezierTo( HDC hdc, const POINT* lppt, DWORD cPoints )
{
DC * dc;
BOOL ret;
/* cbPoints must be 3 * n (where n>=1) */
if (!cPoints || (cPoints % 3) != 0) return FALSE;
dc = DC_GetDCUpdate( hdc );
if(!dc) return FALSE;
if(PATH_IsPathOpen(dc->path))
ret = PATH_PolyBezierTo(dc, lppt, cPoints);
else if(dc->funcs->pPolyBezierTo)
ret = dc->funcs->pPolyBezierTo(dc->physDev, lppt, cPoints);
else { /* We'll do it using PolyBezier */
POINT *pt;
pt = HeapAlloc( GetProcessHeap(), 0, sizeof(POINT) * (cPoints + 1) );
if(!pt) return FALSE;
pt[0].x = dc->CursPosX;
pt[0].y = dc->CursPosY;
memcpy(pt + 1, lppt, sizeof(POINT) * cPoints);
ret = PolyBezier(dc->hSelf, pt, cPoints+1);
HeapFree( GetProcessHeap(), 0, pt );
}
if(ret) {
dc->CursPosX = lppt[cPoints-1].x;
dc->CursPosY = lppt[cPoints-1].y;
}
GDI_ReleaseObj( hdc );
return ret;
}
/***********************************************************************
* AngleArc (GDI32.@)
*/
BOOL WINAPI AngleArc(HDC hdc, INT x, INT y, DWORD dwRadius, FLOAT eStartAngle, FLOAT eSweepAngle)
{
INT x1,y1,x2,y2, arcdir;
BOOL result;
DC *dc;
if( (signed int)dwRadius < 0 )
return FALSE;
dc = DC_GetDCUpdate( hdc );
if(!dc) return FALSE;
/* Calculate the end point */
x2 = x + cos((eStartAngle+eSweepAngle)*M_PI/180) * dwRadius;
y2 = y - sin((eStartAngle+eSweepAngle)*M_PI/180) * dwRadius;
if(!PATH_IsPathOpen(dc->path) && dc->funcs->pAngleArc)
result = dc->funcs->pAngleArc( dc->physDev, x, y, dwRadius, eStartAngle, eSweepAngle );
else { /* do it using ArcTo */
x1 = x + cos(eStartAngle*M_PI/180) * dwRadius;
y1 = y - sin(eStartAngle*M_PI/180) * dwRadius;
arcdir = SetArcDirection( hdc, eSweepAngle >= 0 ? AD_COUNTERCLOCKWISE : AD_CLOCKWISE);
result = ArcTo( hdc, x-dwRadius, y-dwRadius, x+dwRadius, y+dwRadius,
x1, y1, x2, y2 );
SetArcDirection( hdc, arcdir );
}
if (result) {
dc->CursPosX = x2;
dc->CursPosY = y2;
}
GDI_ReleaseObj( hdc );
return result;
}
/***********************************************************************
* PolyDraw (GDI32.@)
*/
BOOL WINAPI PolyDraw(HDC hdc, const POINT *lppt, const BYTE *lpbTypes,
DWORD cCount)
{
DC *dc;
BOOL result = FALSE;
POINT lastmove;
unsigned int i;
dc = DC_GetDCUpdate( hdc );
if(!dc) return FALSE;
if(dc->funcs->pPolyDraw)
{
result = dc->funcs->pPolyDraw( dc->physDev, lppt, lpbTypes, cCount );
goto end;
}
/* check for each bezierto if there are two more points */
for( i = 0; i < cCount; i++ )
if( lpbTypes[i] != PT_MOVETO &&
lpbTypes[i] & PT_BEZIERTO )
{
if( cCount < i+3 )
goto end;
else
i += 2;
}
/* if no moveto occurs, we will close the figure here */
lastmove.x = dc->CursPosX;
lastmove.y = dc->CursPosY;
/* now let's draw */
for( i = 0; i < cCount; i++ )
{
if( lpbTypes[i] == PT_MOVETO )
{
MoveToEx( hdc, lppt[i].x, lppt[i].y, NULL );
lastmove.x = dc->CursPosX;
lastmove.y = dc->CursPosY;
}
else if( lpbTypes[i] & PT_LINETO )
LineTo( hdc, lppt[i].x, lppt[i].y );
else if( lpbTypes[i] & PT_BEZIERTO )
{
PolyBezierTo( hdc, &lppt[i], 3 );
i += 2;
}
else
goto end;
if( lpbTypes[i] & PT_CLOSEFIGURE )
{
if( PATH_IsPathOpen( dc->path ) )
CloseFigure( hdc );
else
LineTo( hdc, lastmove.x, lastmove.y );
}
}
result = TRUE;
end:
GDI_ReleaseObj( hdc );
return result;
}
/**********************************************************************
* LineDDA (GDI32.@)
*/
BOOL WINAPI LineDDA(INT nXStart, INT nYStart, INT nXEnd, INT nYEnd,
LINEDDAPROC callback, LPARAM lParam )
{
INT xadd = 1, yadd = 1;
INT err,erradd;
INT cnt;
INT dx = nXEnd - nXStart;
INT dy = nYEnd - nYStart;
if (dx < 0)
{
dx = -dx;
xadd = -1;
}
if (dy < 0)
{
dy = -dy;
yadd = -1;
}
if (dx > dy) /* line is "more horizontal" */
{
err = 2*dy - dx; erradd = 2*dy - 2*dx;
for(cnt = 0;cnt <= dx; cnt++)
{
callback(nXStart,nYStart,lParam);
if (err > 0)
{
nYStart += yadd;
err += erradd;
}
else err += 2*dy;
nXStart += xadd;
}
}
else /* line is "more vertical" */
{
err = 2*dx - dy; erradd = 2*dx - 2*dy;
for(cnt = 0;cnt <= dy; cnt++)
{
callback(nXStart,nYStart,lParam);
if (err > 0)
{
nXStart += xadd;
err += erradd;
}
else err += 2*dx;
nYStart += yadd;
}
}
return TRUE;
}
/******************************************************************
*
* *Very* simple bezier drawing code,
*
* It uses a recursive algorithm to divide the curve in a series
* of straight line segements. Not ideal but for me sufficient.
* If you are in need for something better look for some incremental
* algorithm.
*
* 7 July 1998 Rein Klazes
*/
/*
* some macro definitions for bezier drawing
*
* to avoid truncation errors the coordinates are
* shifted upwards. When used in drawing they are
* shifted down again, including correct rounding
* and avoiding floating point arithmetic
* 4 bits should allow 27 bits coordinates which I saw
* somewhere in the win32 doc's
*
*/
#define BEZIERSHIFTBITS 4
#define BEZIERSHIFTUP(x) ((x)<<BEZIERSHIFTBITS)
#define BEZIERPIXEL BEZIERSHIFTUP(1)
#define BEZIERSHIFTDOWN(x) (((x)+(1<<(BEZIERSHIFTBITS-1)))>>BEZIERSHIFTBITS)
/* maximum depth of recursion */
#define BEZIERMAXDEPTH 8
/* size of array to store points on */
/* enough for one curve */
#define BEZIER_INITBUFSIZE (150)
/* calculate Bezier average, in this case the middle
* correctly rounded...
* */
#define BEZIERMIDDLE(Mid, P1, P2) \
(Mid).x=((P1).x+(P2).x + 1)/2;\
(Mid).y=((P1).y+(P2).y + 1)/2;
/**********************************************************
* BezierCheck helper function to check
* that recursion can be terminated
* Points[0] and Points[3] are begin and endpoint
* Points[1] and Points[2] are control points
* level is the recursion depth
* returns true if the recusion can be terminated
*/
static BOOL BezierCheck( int level, POINT *Points)
{
INT dx, dy;
dx=Points[3].x-Points[0].x;
dy=Points[3].y-Points[0].y;
if(abs(dy)<=abs(dx)){/* shallow line */
/* check that control points are between begin and end */
if(Points[1].x < Points[0].x){
if(Points[1].x < Points[3].x)
return FALSE;
}else
if(Points[1].x > Points[3].x)
return FALSE;
if(Points[2].x < Points[0].x){
if(Points[2].x < Points[3].x)
return FALSE;
}else
if(Points[2].x > Points[3].x)
return FALSE;
dx=BEZIERSHIFTDOWN(dx);
if(!dx) return TRUE;
if(abs(Points[1].y-Points[0].y-(dy/dx)*
BEZIERSHIFTDOWN(Points[1].x-Points[0].x)) > BEZIERPIXEL ||
abs(Points[2].y-Points[0].y-(dy/dx)*
BEZIERSHIFTDOWN(Points[2].x-Points[0].x)) > BEZIERPIXEL )
return FALSE;
else
return TRUE;
}else{ /* steep line */
/* check that control points are between begin and end */
if(Points[1].y < Points[0].y){
if(Points[1].y < Points[3].y)
return FALSE;
}else
if(Points[1].y > Points[3].y)
return FALSE;
if(Points[2].y < Points[0].y){
if(Points[2].y < Points[3].y)
return FALSE;
}else
if(Points[2].y > Points[3].y)
return FALSE;
dy=BEZIERSHIFTDOWN(dy);
if(!dy) return TRUE;
if(abs(Points[1].x-Points[0].x-(dx/dy)*
BEZIERSHIFTDOWN(Points[1].y-Points[0].y)) > BEZIERPIXEL ||
abs(Points[2].x-Points[0].x-(dx/dy)*
BEZIERSHIFTDOWN(Points[2].y-Points[0].y)) > BEZIERPIXEL )
return FALSE;
else
return TRUE;
}
}
/* Helper for GDI_Bezier.
* Just handles one Bezier, so Points should point to four POINTs
*/
static void GDI_InternalBezier( POINT *Points, POINT **PtsOut, INT *dwOut,
INT *nPtsOut, INT level )
{
if(*nPtsOut == *dwOut) {
*dwOut *= 2;
*PtsOut = HeapReAlloc( GetProcessHeap(), 0, *PtsOut,
*dwOut * sizeof(POINT) );
}
if(!level || BezierCheck(level, Points)) {
if(*nPtsOut == 0) {
(*PtsOut)[0].x = BEZIERSHIFTDOWN(Points[0].x);
(*PtsOut)[0].y = BEZIERSHIFTDOWN(Points[0].y);
*nPtsOut = 1;
}
(*PtsOut)[*nPtsOut].x = BEZIERSHIFTDOWN(Points[3].x);
(*PtsOut)[*nPtsOut].y = BEZIERSHIFTDOWN(Points[3].y);
(*nPtsOut) ++;
} else {
POINT Points2[4]; /* for the second recursive call */
Points2[3]=Points[3];
BEZIERMIDDLE(Points2[2], Points[2], Points[3]);
BEZIERMIDDLE(Points2[0], Points[1], Points[2]);
BEZIERMIDDLE(Points2[1],Points2[0],Points2[2]);
BEZIERMIDDLE(Points[1], Points[0], Points[1]);
BEZIERMIDDLE(Points[2], Points[1], Points2[0]);
BEZIERMIDDLE(Points[3], Points[2], Points2[1]);
Points2[0]=Points[3];
/* do the two halves */
GDI_InternalBezier(Points, PtsOut, dwOut, nPtsOut, level-1);
GDI_InternalBezier(Points2, PtsOut, dwOut, nPtsOut, level-1);
}
}
/***********************************************************************
* GDI_Bezier [INTERNAL]
* Calculate line segments that approximate -what microsoft calls- a bezier
* curve.
* The routine recursively divides the curve in two parts until a straight
* line can be drawn
*
* PARAMS
*
* Points [I] Ptr to count POINTs which are the end and control points
* of the set of Bezier curves to flatten.
* count [I] Number of Points. Must be 3n+1.
* nPtsOut [O] Will contain no of points that have been produced (i.e. no. of
* lines+1).
*
* RETURNS
*
* Ptr to an array of POINTs that contain the lines that approximinate the
* Beziers. The array is allocated on the process heap and it is the caller's
* responsibility to HeapFree it. [this is not a particularly nice interface
* but since we can't know in advance how many points will generate, the
* alternative would be to call the function twice, once to determine the size
* and a second time to do the work - I decided this was too much of a pain].
*/
POINT *GDI_Bezier( const POINT *Points, INT count, INT *nPtsOut )
{
POINT *out;
INT Bezier, dwOut = BEZIER_INITBUFSIZE, i;
if (count == 1 || (count - 1) % 3 != 0) {
ERR("Invalid no. of points %d\n", count);
return NULL;
}
*nPtsOut = 0;
out = HeapAlloc( GetProcessHeap(), 0, dwOut * sizeof(POINT));
for(Bezier = 0; Bezier < (count-1)/3; Bezier++) {
POINT ptBuf[4];
memcpy(ptBuf, Points + Bezier * 3, sizeof(POINT) * 4);
for(i = 0; i < 4; i++) {
ptBuf[i].x = BEZIERSHIFTUP(ptBuf[i].x);
ptBuf[i].y = BEZIERSHIFTUP(ptBuf[i].y);
}
GDI_InternalBezier( ptBuf, &out, &dwOut, nPtsOut, BEZIERMAXDEPTH );
}
TRACE("Produced %d points\n", *nPtsOut);
return out;
}
/******************************************************************************
* GdiGradientFill (GDI32.@)
*
* FIXME: we don't support the Alpha channel properly
*/
BOOL WINAPI GdiGradientFill( HDC hdc, TRIVERTEX *vert_array, ULONG nvert,
void * grad_array, ULONG ngrad, ULONG mode )
{
unsigned int i;
TRACE("vert_array:0x%08lx nvert:%d grad_array:0x%08lx ngrad:%d\n",
(long)vert_array, nvert, (long)grad_array, ngrad);
switch(mode)
{
case GRADIENT_FILL_RECT_H:
for(i = 0; i < ngrad; i++)
{
GRADIENT_RECT *rect = ((GRADIENT_RECT *)grad_array) + i;
TRIVERTEX *v1 = vert_array + rect->UpperLeft;
TRIVERTEX *v2 = vert_array + rect->LowerRight;
int y1 = v1->y < v2->y ? v1->y : v2->y;
int y2 = v2->y > v1->y ? v2->y : v1->y;
int x, dx;
if (v1->x > v2->x)
{
TRIVERTEX *t = v2;
v2 = v1;
v1 = t;
}
dx = v2->x - v1->x;
for (x = 0; x < dx; x++)
{
POINT pts[2];
HPEN hPen, hOldPen;
hPen = CreatePen( PS_SOLID, 1, RGB(
(v1->Red * (dx - x) + v2->Red * x) / dx >> 8,
(v1->Green * (dx - x) + v2->Green * x) / dx >> 8,
(v1->Blue * (dx - x) + v2->Blue * x) / dx >> 8));
hOldPen = SelectObject( hdc, hPen );
pts[0].x = v1->x + x;
pts[0].y = y1;
pts[1].x = v1->x + x;
pts[1].y = y2;
Polyline( hdc, &pts[0], 2 );
DeleteObject( SelectObject(hdc, hOldPen ) );
}
}
break;
case GRADIENT_FILL_RECT_V:
for(i = 0; i < ngrad; i++)
{
GRADIENT_RECT *rect = ((GRADIENT_RECT *)grad_array) + i;
TRIVERTEX *v1 = vert_array + rect->UpperLeft;
TRIVERTEX *v2 = vert_array + rect->LowerRight;
int x1 = v1->x < v2->x ? v1->x : v2->x;
int x2 = v2->x > v1->x ? v2->x : v1->x;
int y, dy;
if (v1->y > v2->y)
{
TRIVERTEX *t = v2;
v2 = v1;
v1 = t;
}
dy = v2->y - v1->y;
for (y = 0; y < dy; y++)
{
POINT pts[2];
HPEN hPen, hOldPen;
hPen = CreatePen( PS_SOLID, 1, RGB(
(v1->Red * (dy - y) + v2->Red * y) / dy >> 8,
(v1->Green * (dy - y) + v2->Green * y) / dy >> 8,
(v1->Blue * (dy - y) + v2->Blue * y) / dy >> 8));
hOldPen = SelectObject( hdc, hPen );
pts[0].x = x1;
pts[0].y = v1->y + y;
pts[1].x = x2;
pts[1].y = v1->y + y;
Polyline( hdc, &pts[0], 2 );
DeleteObject( SelectObject(hdc, hOldPen ) );
}
}
break;
case GRADIENT_FILL_TRIANGLE:
for (i = 0; i < ngrad; i++)
{
GRADIENT_TRIANGLE *tri = ((GRADIENT_TRIANGLE *)grad_array) + i;
TRIVERTEX *v1 = vert_array + tri->Vertex1;
TRIVERTEX *v2 = vert_array + tri->Vertex2;
TRIVERTEX *v3 = vert_array + tri->Vertex3;
int y, dy;
if (v1->y > v2->y)
{ TRIVERTEX *t = v1; v1 = v2; v2 = t; }
if (v2->y > v3->y)
{
TRIVERTEX *t = v2; v2 = v3; v3 = t;
if (v1->y > v2->y)
{ t = v1; v1 = v2; v2 = t; }
}
/* v1->y <= v2->y <= v3->y */
dy = v3->y - v1->y;
for (y = 0; y < dy; y++)
{
/* v1->y <= y < v3->y */
TRIVERTEX *v = y < (v2->y - v1->y) ? v1 : v3;
/* (v->y <= y < v2->y) || (v2->y <= y < v->y) */
int dy2 = v2->y - v->y;
int y2 = y + v1->y - v->y;
int x1 = (v3->x * y + v1->x * (dy - y )) / dy;
int x2 = (v2->x * y2 + v-> x * (dy2 - y2)) / dy2;
int r1 = (v3->Red * y + v1->Red * (dy - y )) / dy;
int r2 = (v2->Red * y2 + v-> Red * (dy2 - y2)) / dy2;
int g1 = (v3->Green * y + v1->Green * (dy - y )) / dy;
int g2 = (v2->Green * y2 + v-> Green * (dy2 - y2)) / dy2;
int b1 = (v3->Blue * y + v1->Blue * (dy - y )) / dy;
int b2 = (v2->Blue * y2 + v-> Blue * (dy2 - y2)) / dy2;
int x;
if (x1 < x2)
{
int dx = x2 - x1;
for (x = 0; x < dx; x++)
SetPixel (hdc, x + x1, y + v1->y, RGB(
(r1 * (dx - x) + r2 * x) / dx >> 8,
(g1 * (dx - x) + g2 * x) / dx >> 8,
(b1 * (dx - x) + b2 * x) / dx >> 8));
}
else
{
int dx = x1 - x2;
for (x = 0; x < dx; x++)
SetPixel (hdc, x + x2, y + v1->y, RGB(
(r2 * (dx - x) + r1 * x) / dx >> 8,
(g2 * (dx - x) + g1 * x) / dx >> 8,
(b2 * (dx - x) + b1 * x) / dx >> 8));
}
}
}
break;
default:
return FALSE;
}
return TRUE;
}
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