Sweden-Number/dlls/gdi32/enhmfdrv/graphics.c

1201 lines
36 KiB
C

/*
* Enhanced MetaFile driver graphics functions
*
* Copyright 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 <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "enhmfdrv/enhmetafiledrv.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL(enhmetafile);
static const RECTL empty_bounds = { 0, 0, -1, -1 };
/* determine if we can use 16-bit points to store all the input points */
static BOOL can_use_short_points( const POINT *pts, UINT count )
{
UINT i;
for (i = 0; i < count; i++)
if (((pts[i].x + 0x8000) & ~0xffff) || ((pts[i].y + 0x8000) & ~0xffff))
return FALSE;
return TRUE;
}
/* store points in either long or short format; return a pointer to the end of the stored data */
static void *store_points( POINTL *dest, const POINT *pts, UINT count, BOOL short_points )
{
if (short_points)
{
UINT i;
POINTS *dest_short = (POINTS *)dest;
for (i = 0; i < count; i++)
{
dest_short[i].x = pts[i].x;
dest_short[i].y = pts[i].y;
}
return dest_short + count;
}
else
{
memcpy( dest, pts, count * sizeof(*dest) );
return dest + count;
}
}
/* compute the bounds of an array of points, optionally including the current position */
static void get_points_bounds( RECTL *bounds, const POINT *pts, UINT count, DC_ATTR *dc_attr )
{
UINT i;
if (dc_attr)
{
bounds->left = bounds->right = dc_attr->cur_pos.x;
bounds->top = bounds->bottom = dc_attr->cur_pos.y;
}
else if (count)
{
bounds->left = bounds->right = pts[0].x;
bounds->top = bounds->bottom = pts[0].y;
}
else *bounds = empty_bounds;
for (i = 0; i < count; i++)
{
bounds->left = min( bounds->left, pts[i].x );
bounds->right = max( bounds->right, pts[i].x );
bounds->top = min( bounds->top, pts[i].y );
bounds->bottom = max( bounds->bottom, pts[i].y );
}
}
/* helper for path stroke and fill functions */
static BOOL emfdrv_stroke_and_fill_path( PHYSDEV dev, INT type )
{
DC *dc = get_physdev_dc( dev );
EMRSTROKEANDFILLPATH emr;
struct gdi_path *path;
POINT *points;
BYTE *flags;
emr.emr.iType = type;
emr.emr.nSize = sizeof(emr);
if ((path = get_gdi_flat_path( dc, NULL )))
{
int count = get_gdi_path_data( path, &points, &flags );
get_points_bounds( &emr.rclBounds, points, count, 0 );
free_gdi_path( path );
}
else emr.rclBounds = empty_bounds;
if (!EMFDRV_WriteRecord( dev, &emr.emr )) return FALSE;
if (!path) return FALSE;
EMFDRV_UpdateBBox( dev, &emr.rclBounds );
return TRUE;
}
/**********************************************************************
* EMFDC_MoveTo
*/
BOOL EMFDC_MoveTo( DC_ATTR *dc_attr, INT x, INT y )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRMOVETOEX emr;
emr.emr.iType = EMR_MOVETOEX;
emr.emr.nSize = sizeof(emr);
emr.ptl.x = x;
emr.ptl.y = y;
return EMFDRV_WriteRecord( &emf->dev, &emr.emr );
}
/***********************************************************************
* EMFDC_LineTo
*/
BOOL EMFDC_LineTo( DC_ATTR *dc_attr, INT x, INT y )
{
EMRLINETO emr;
emr.emr.iType = EMR_LINETO;
emr.emr.nSize = sizeof(emr);
emr.ptl.x = x;
emr.ptl.y = y;
return EMFDRV_WriteRecord( dc_attr->emf, &emr.emr );
}
/***********************************************************************
* EMFDRV_LineTo
*/
BOOL CDECL EMFDRV_LineTo( PHYSDEV dev, INT x, INT y )
{
EMFDRV_PDEVICE *physDev = get_emf_physdev( dev );
DC *dc = get_physdev_dc( dev );
RECTL bounds;
POINT pt;
pt = dc->attr->cur_pos;
bounds.left = min(x, pt.x);
bounds.top = min(y, pt.y);
bounds.right = max(x, pt.x);
bounds.bottom = max(y, pt.y);
EMFDRV_UpdateBBox( &physDev->dev, &bounds );
return TRUE;
}
/***********************************************************************
* EMFDC_ArcChordPie
*/
BOOL EMFDC_ArcChordPie( DC_ATTR *dc_attr, INT left, INT top, INT right, INT bottom,
INT xstart, INT ystart, INT xend, INT yend, DWORD type )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRARC emr;
INT temp;
if (left == right || top == bottom) return FALSE;
if (left > right) { temp = left; left = right; right = temp; }
if (top > bottom) { temp = top; top = bottom; bottom = temp; }
if (dc_attr->graphics_mode == GM_COMPATIBLE)
{
right--;
bottom--;
}
emr.emr.iType = type;
emr.emr.nSize = sizeof(emr);
emr.rclBox.left = left;
emr.rclBox.top = top;
emr.rclBox.right = right;
emr.rclBox.bottom = bottom;
emr.ptlStart.x = xstart;
emr.ptlStart.y = ystart;
emr.ptlEnd.x = xend;
emr.ptlEnd.y = yend;
return EMFDRV_WriteRecord( &emf->dev, &emr.emr );
}
/***********************************************************************
* EMFDRV_ArcChordPie
*/
static BOOL EMFDRV_ArcChordPie( PHYSDEV dev, INT left, INT top, INT right, INT bottom,
INT xstart, INT ystart, INT xend, INT yend, DWORD type )
{
DC *dc = get_physdev_dc( dev );
INT temp, xCentre, yCentre, i;
double angleStart, angleEnd;
double xinterStart, yinterStart, xinterEnd, yinterEnd;
EMRARC emr;
RECTL bounds;
if(left == right || top == bottom) return FALSE;
if(left > right) {temp = left; left = right; right = temp;}
if(top > bottom) {temp = top; top = bottom; bottom = temp;}
if (dc->attr->graphics_mode == GM_COMPATIBLE)
{
right--;
bottom--;
}
emr.emr.iType = type;
emr.emr.nSize = sizeof(emr);
emr.rclBox.left = left;
emr.rclBox.top = top;
emr.rclBox.right = right;
emr.rclBox.bottom = bottom;
emr.ptlStart.x = xstart;
emr.ptlStart.y = ystart;
emr.ptlEnd.x = xend;
emr.ptlEnd.y = yend;
/* Now calculate the BBox */
xCentre = (left + right + 1) / 2;
yCentre = (top + bottom + 1) / 2;
xstart -= xCentre;
ystart -= yCentre;
xend -= xCentre;
yend -= yCentre;
/* invert y co-ords to get angle anti-clockwise from x-axis */
angleStart = atan2( -(double)ystart, (double)xstart);
angleEnd = atan2( -(double)yend, (double)xend);
/* These are the intercepts of the start/end lines with the arc */
xinterStart = (right - left + 1)/2 * cos(angleStart) + xCentre;
yinterStart = -(bottom - top + 1)/2 * sin(angleStart) + yCentre;
xinterEnd = (right - left + 1)/2 * cos(angleEnd) + xCentre;
yinterEnd = -(bottom - top + 1)/2 * sin(angleEnd) + yCentre;
if(angleStart < 0) angleStart += 2 * M_PI;
if(angleEnd < 0) angleEnd += 2 * M_PI;
if(angleEnd < angleStart) angleEnd += 2 * M_PI;
bounds.left = min(xinterStart, xinterEnd);
bounds.top = min(yinterStart, yinterEnd);
bounds.right = max(xinterStart, xinterEnd);
bounds.bottom = max(yinterStart, yinterEnd);
for(i = 0; i <= 8; i++) {
if(i * M_PI / 2 < angleStart) /* loop until we're past start */
continue;
if(i * M_PI / 2 > angleEnd) /* if we're past end we're finished */
break;
/* the arc touches the rectangle at the start of quadrant i, so adjust
BBox to reflect this. */
switch(i % 4) {
case 0:
bounds.right = right;
break;
case 1:
bounds.top = top;
break;
case 2:
bounds.left = left;
break;
case 3:
bounds.bottom = bottom;
break;
}
}
/* If we're drawing a pie then make sure we include the centre */
if (type == EMR_PIE)
{
if(bounds.left > xCentre) bounds.left = xCentre;
else if(bounds.right < xCentre) bounds.right = xCentre;
if(bounds.top > yCentre) bounds.top = yCentre;
else if(bounds.bottom < yCentre) bounds.bottom = yCentre;
}
else if (type == EMR_ARCTO)
{
POINT pt;
pt = dc->attr->cur_pos;
bounds.left = min( bounds.left, pt.x );
bounds.top = min( bounds.top, pt.y );
bounds.right = max( bounds.right, pt.x );
bounds.bottom = max( bounds.bottom, pt.y );
}
EMFDRV_UpdateBBox( dev, &bounds );
return TRUE;
}
/***********************************************************************
* EMFDRV_Arc
*/
BOOL CDECL EMFDRV_Arc( PHYSDEV dev, INT left, INT top, INT right, INT bottom,
INT xstart, INT ystart, INT xend, INT yend )
{
return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart,
xend, yend, EMR_ARC );
}
/***********************************************************************
* EMFDRV_ArcTo
*/
BOOL CDECL EMFDRV_ArcTo( PHYSDEV dev, INT left, INT top, INT right, INT bottom,
INT xstart, INT ystart, INT xend, INT yend )
{
return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart,
xend, yend, EMR_ARCTO );
}
/***********************************************************************
* EMFDRV_Pie
*/
BOOL CDECL EMFDRV_Pie( PHYSDEV dev, INT left, INT top, INT right, INT bottom,
INT xstart, INT ystart, INT xend, INT yend )
{
return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart,
xend, yend, EMR_PIE );
}
/***********************************************************************
* EMFDRV_Chord
*/
BOOL CDECL EMFDRV_Chord( PHYSDEV dev, INT left, INT top, INT right, INT bottom,
INT xstart, INT ystart, INT xend, INT yend )
{
return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart,
xend, yend, EMR_CHORD );
}
/***********************************************************************
* EMFDC_AngleArc
*/
BOOL EMFDC_AngleArc( DC_ATTR *dc_attr, INT x, INT y, DWORD radius, FLOAT start, FLOAT sweep )
{
EMRANGLEARC emr;
emr.emr.iType = EMR_ANGLEARC;
emr.emr.nSize = sizeof( emr );
emr.ptlCenter.x = x;
emr.ptlCenter.y = y;
emr.nRadius = radius;
emr.eStartAngle = start;
emr.eSweepAngle = sweep;
return EMFDRV_WriteRecord( dc_attr->emf, &emr.emr );
}
/***********************************************************************
* EMFDC_Ellipse
*/
BOOL EMFDC_Ellipse( DC_ATTR *dc_attr, INT left, INT top, INT right, INT bottom )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRELLIPSE emr;
if (left == right || top == bottom) return FALSE;
emr.emr.iType = EMR_ELLIPSE;
emr.emr.nSize = sizeof(emr);
emr.rclBox.left = min( left, right );
emr.rclBox.top = min( top, bottom );
emr.rclBox.right = max( left, right );
emr.rclBox.bottom = max( top, bottom );
if (dc_attr->graphics_mode == GM_COMPATIBLE)
{
emr.rclBox.right--;
emr.rclBox.bottom--;
}
return EMFDRV_WriteRecord( &emf->dev, &emr.emr );
}
/***********************************************************************
* EMFDRV_Ellipse
*/
BOOL CDECL EMFDRV_Ellipse( PHYSDEV dev, INT left, INT top, INT right, INT bottom )
{
DC *dc = get_physdev_dc( dev );
RECTL bounds;
if (left == right || top == bottom) return FALSE;
bounds.left = min( left, right );
bounds.top = min( top, bottom );
bounds.right = max( left, right );
bounds.bottom = max( top, bottom );
if (dc->attr->graphics_mode == GM_COMPATIBLE)
{
bounds.right--;
bounds.bottom--;
}
EMFDRV_UpdateBBox( dev, &bounds );
return TRUE;
}
/***********************************************************************
* EMFDC_Rectangle
*/
BOOL EMFDC_Rectangle( DC_ATTR *dc_attr, INT left, INT top, INT right, INT bottom )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRRECTANGLE emr;
if(left == right || top == bottom) return FALSE;
emr.emr.iType = EMR_RECTANGLE;
emr.emr.nSize = sizeof(emr);
emr.rclBox.left = min( left, right );
emr.rclBox.top = min( top, bottom );
emr.rclBox.right = max( left, right );
emr.rclBox.bottom = max( top, bottom );
if (dc_attr->graphics_mode == GM_COMPATIBLE)
{
emr.rclBox.right--;
emr.rclBox.bottom--;
}
return EMFDRV_WriteRecord( &emf->dev, &emr.emr );
}
/***********************************************************************
* EMFDC_Rectangle
*/
BOOL EMFDRV_Rectangle( PHYSDEV dev, INT left, INT top, INT right, INT bottom )
{
DC *dc = get_physdev_dc( dev );
RECTL bounds;
if (left == right || top == bottom) return FALSE;
bounds.left = min( left, right );
bounds.top = min( top, bottom );
bounds.right = max( left, right );
bounds.bottom = max( top, bottom );
if (dc->attr->graphics_mode == GM_COMPATIBLE)
{
bounds.right--;
bounds.bottom--;
}
EMFDRV_UpdateBBox( dev, &bounds );
return TRUE;
}
/***********************************************************************
* EMFDC_RoundRect
*/
BOOL EMFDC_RoundRect( DC_ATTR *dc_attr, INT left, INT top, INT right,
INT bottom, INT ell_width, INT ell_height )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRROUNDRECT emr;
if (left == right || top == bottom) return FALSE;
emr.emr.iType = EMR_ROUNDRECT;
emr.emr.nSize = sizeof(emr);
emr.rclBox.left = min( left, right );
emr.rclBox.top = min( top, bottom );
emr.rclBox.right = max( left, right );
emr.rclBox.bottom = max( top, bottom );
emr.szlCorner.cx = ell_width;
emr.szlCorner.cy = ell_height;
if (dc_attr->graphics_mode == GM_COMPATIBLE)
{
emr.rclBox.right--;
emr.rclBox.bottom--;
}
return EMFDRV_WriteRecord( &emf->dev, &emr.emr );
}
/***********************************************************************
* EMFDRV_RoundRect
*/
BOOL CDECL EMFDRV_RoundRect( PHYSDEV dev, INT left, INT top, INT right,
INT bottom, INT ell_width, INT ell_height )
{
DC *dc = get_physdev_dc( dev );
RECTL bounds;
if (left == right || top == bottom) return FALSE;
bounds.left = min( left, right );
bounds.top = min( top, bottom );
bounds.right = max( left, right );
bounds.bottom = max( top, bottom );
if (dc->attr->graphics_mode == GM_COMPATIBLE)
{
bounds.right--;
bounds.bottom--;
}
EMFDRV_UpdateBBox( dev, &bounds );
return TRUE;
}
/***********************************************************************
* EMFDC_SetPixel
*/
BOOL EMFDC_SetPixel( DC_ATTR *dc_attr, INT x, INT y, COLORREF color )
{
EMRSETPIXELV emr;
emr.emr.iType = EMR_SETPIXELV;
emr.emr.nSize = sizeof(emr);
emr.ptlPixel.x = x;
emr.ptlPixel.y = y;
emr.crColor = color;
return EMFDRV_WriteRecord( dc_attr->emf, &emr.emr );
}
/***********************************************************************
* EMFDRV_SetPixel
*/
COLORREF CDECL EMFDRV_SetPixel( PHYSDEV dev, INT x, INT y, COLORREF color )
{
RECTL bounds;
bounds.left = bounds.right = x;
bounds.top = bounds.bottom = y;
EMFDRV_UpdateBBox( dev, &bounds );
return CLR_INVALID;
}
/**********************************************************************
* EMFDRV_Polylinegon
*
* Helper for EMFDRV_Poly{line|gon}
*/
static BOOL EMFDC_Polylinegon( DC_ATTR *dc_attr, const POINT *points, INT count, DWORD type )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRPOLYLINE *emr;
DWORD size;
BOOL ret, use_small_emr = can_use_short_points( points, count );
size = use_small_emr ? offsetof( EMRPOLYLINE16, apts[count] ) : offsetof( EMRPOLYLINE, aptl[count] );
emr = HeapAlloc( GetProcessHeap(), 0, size );
emr->emr.iType = use_small_emr ? type + EMR_POLYLINE16 - EMR_POLYLINE : type;
emr->emr.nSize = size;
emr->cptl = count;
store_points( emr->aptl, points, count, use_small_emr );
if (!emf->path)
get_points_bounds( &emr->rclBounds, points, count,
(type == EMR_POLYBEZIERTO || type == EMR_POLYLINETO) ? dc_attr : 0 );
else
emr->rclBounds = empty_bounds;
ret = EMFDRV_WriteRecord( &emf->dev, &emr->emr );
if (ret && !emf->path)
EMFDRV_UpdateBBox( &emf->dev, &emr->rclBounds );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/**********************************************************************
* EMFDC_Polyline
*/
BOOL EMFDC_Polyline( DC_ATTR *dc_attr, const POINT *points, INT count )
{
return EMFDC_Polylinegon( dc_attr, points, count, EMR_POLYLINE );
}
/**********************************************************************
* EMFDC_PolylineTo
*/
BOOL EMFDC_PolylineTo( DC_ATTR *dc_attr, const POINT *points, INT count )
{
return EMFDC_Polylinegon( dc_attr, points, count, EMR_POLYLINETO );
}
/**********************************************************************
* EMFDRV_PolylineTo
*/
BOOL CDECL EMFDRV_PolylineTo( PHYSDEV dev, const POINT* pt, INT count )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_Polygon
*/
BOOL EMFDC_Polygon( DC_ATTR *dc_attr, const POINT *pt, INT count )
{
if(count < 2) return FALSE;
return EMFDC_Polylinegon( dc_attr, pt, count, EMR_POLYGON );
}
/**********************************************************************
* EMFDC_PolyBezier
*/
BOOL EMFDC_PolyBezier( DC_ATTR *dc_attr, const POINT *pts, DWORD count )
{
return EMFDC_Polylinegon( dc_attr, pts, count, EMR_POLYBEZIER );
}
/**********************************************************************
* EMFDC_PolyBezierTo
*/
BOOL EMFDC_PolyBezierTo( DC_ATTR *dc_attr, const POINT *pts, DWORD count )
{
return EMFDC_Polylinegon( dc_attr, pts, count, EMR_POLYBEZIERTO );
}
/**********************************************************************
* EMFDRV_PolyBezier
*/
BOOL CDECL EMFDRV_PolyBezier( PHYSDEV dev, const POINT *pts, DWORD count )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDRV_PolyBezierTo
*/
BOOL CDECL EMFDRV_PolyBezierTo( PHYSDEV dev, const POINT *pts, DWORD count )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_PolyPolylinegon
*
* Helper for EMFDRV_PolyPoly{line|gon}
*/
static BOOL EMFDC_PolyPolylinegon( EMFDRV_PDEVICE *emf, const POINT *pt, const INT *counts,
UINT polys, DWORD type)
{
EMRPOLYPOLYLINE *emr;
DWORD cptl = 0, poly, size;
BOOL ret, use_small_emr, bounds_valid = TRUE;
for(poly = 0; poly < polys; poly++) {
cptl += counts[poly];
if(counts[poly] < 2) bounds_valid = FALSE;
}
if(!cptl) bounds_valid = FALSE;
use_small_emr = can_use_short_points( pt, cptl );
size = FIELD_OFFSET(EMRPOLYPOLYLINE, aPolyCounts[polys]);
if(use_small_emr)
size += cptl * sizeof(POINTS);
else
size += cptl * sizeof(POINTL);
emr = HeapAlloc( GetProcessHeap(), 0, size );
emr->emr.iType = type;
if(use_small_emr) emr->emr.iType += EMR_POLYPOLYLINE16 - EMR_POLYPOLYLINE;
emr->emr.nSize = size;
if(bounds_valid && !emf->path)
get_points_bounds( &emr->rclBounds, pt, cptl, 0 );
else
emr->rclBounds = empty_bounds;
emr->nPolys = polys;
emr->cptl = cptl;
if(polys)
{
memcpy( emr->aPolyCounts, counts, polys * sizeof(DWORD) );
store_points( (POINTL *)(emr->aPolyCounts + polys), pt, cptl, use_small_emr );
}
ret = EMFDRV_WriteRecord( &emf->dev, &emr->emr );
if(ret && !bounds_valid)
{
ret = FALSE;
SetLastError( ERROR_INVALID_PARAMETER );
}
if(ret && !emf->path)
EMFDRV_UpdateBBox( &emf->dev, &emr->rclBounds );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/**********************************************************************
* EMFDC_PolyPolyline
*/
BOOL EMFDC_PolyPolyline( DC_ATTR *dc_attr, const POINT *pt, const DWORD *counts, DWORD polys)
{
return EMFDC_PolyPolylinegon( dc_attr->emf, pt, (const INT *)counts, polys, EMR_POLYPOLYLINE );
}
/**********************************************************************
* EMFDRV_PolyPoline
*/
BOOL CDECL EMFDRV_PolyPolyline( PHYSDEV dev, const POINT *pt, const DWORD* counts, UINT polys )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_PolyPolygon
*/
BOOL EMFDC_PolyPolygon( DC_ATTR *dc_attr, const POINT *pt, const INT *counts, UINT polys )
{
return EMFDC_PolyPolylinegon( dc_attr->emf, pt, counts, polys, EMR_POLYPOLYGON );
}
/**********************************************************************
* EMFDRV_PolyPolygon
*/
BOOL CDECL EMFDRV_PolyPolygon( PHYSDEV dev, const POINT* pt, const INT* counts, UINT polys )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_PolyDraw
*/
BOOL EMFDC_PolyDraw( DC_ATTR *dc_attr, const POINT *pts, const BYTE *types, DWORD count )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRPOLYDRAW *emr;
BOOL ret;
BYTE *types_dest;
BOOL use_small_emr = can_use_short_points( pts, count );
DWORD size;
size = use_small_emr ? offsetof( EMRPOLYDRAW16, apts[count] ) : offsetof( EMRPOLYDRAW, aptl[count] );
size += (count + 3) & ~3;
if (!(emr = HeapAlloc( GetProcessHeap(), 0, size ))) return FALSE;
emr->emr.iType = use_small_emr ? EMR_POLYDRAW16 : EMR_POLYDRAW;
emr->emr.nSize = size;
emr->cptl = count;
types_dest = store_points( emr->aptl, pts, count, use_small_emr );
memcpy( types_dest, types, count );
if (count & 3) memset( types_dest + count, 0, 4 - (count & 3) );
if (!emf->path)
get_points_bounds( &emr->rclBounds, pts, count, 0 );
else
emr->rclBounds = empty_bounds;
ret = EMFDRV_WriteRecord( &emf->dev, &emr->emr );
if (ret && !emf->path) EMFDRV_UpdateBBox( &emf->dev, &emr->rclBounds );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/**********************************************************************
* EMFDRV_PolyDraw
*/
BOOL CDECL EMFDRV_PolyDraw( PHYSDEV dev, const POINT *pts, const BYTE *types, DWORD count )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_ExtFloodFill
*/
BOOL EMFDC_ExtFloodFill( DC_ATTR *dc_attr, INT x, INT y, COLORREF color, UINT fill_type )
{
EMREXTFLOODFILL emr;
emr.emr.iType = EMR_EXTFLOODFILL;
emr.emr.nSize = sizeof(emr);
emr.ptlStart.x = x;
emr.ptlStart.y = y;
emr.crColor = color;
emr.iMode = fill_type;
return EMFDRV_WriteRecord( dc_attr->emf, &emr.emr );
}
/*********************************************************************
* EMFDC_FillRgn
*/
BOOL EMFDC_FillRgn( DC_ATTR *dc_attr, HRGN hrgn, HBRUSH hbrush )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRFILLRGN *emr;
DWORD size, rgnsize, index;
BOOL ret;
index = EMFDRV_CreateBrushIndirect( &emf->dev, hbrush );
if(!index) return FALSE;
rgnsize = NtGdiGetRegionData( hrgn, 0, NULL );
size = rgnsize + offsetof(EMRFILLRGN,RgnData);
emr = HeapAlloc( GetProcessHeap(), 0, size );
NtGdiGetRegionData( hrgn, rgnsize, (RGNDATA *)&emr->RgnData );
emr->emr.iType = EMR_FILLRGN;
emr->emr.nSize = size;
emr->rclBounds.left = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.left;
emr->rclBounds.top = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.top;
emr->rclBounds.right = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.right - 1;
emr->rclBounds.bottom = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.bottom - 1;
emr->cbRgnData = rgnsize;
emr->ihBrush = index;
ret = EMFDRV_WriteRecord( &emf->dev, &emr->emr );
if(ret)
EMFDRV_UpdateBBox( &emf->dev, &emr->rclBounds );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/*********************************************************************
* EMFDRV_FillRgn
*/
BOOL CDECL EMFDRV_FillRgn( PHYSDEV dev, HRGN hrgn, HBRUSH hbrush )
{
/* FIXME: update bounding rect */
return TRUE;
}
/*********************************************************************
* EMFDC_FrameRgn
*/
BOOL EMFDC_FrameRgn( DC_ATTR *dc_attr, HRGN hrgn, HBRUSH hbrush, INT width, INT height )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMRFRAMERGN *emr;
DWORD size, rgnsize, index;
BOOL ret;
index = EMFDRV_CreateBrushIndirect( &emf->dev, hbrush );
if(!index) return FALSE;
rgnsize = NtGdiGetRegionData( hrgn, 0, NULL );
size = rgnsize + offsetof(EMRFRAMERGN,RgnData);
emr = HeapAlloc( GetProcessHeap(), 0, size );
NtGdiGetRegionData( hrgn, rgnsize, (RGNDATA *)&emr->RgnData );
emr->emr.iType = EMR_FRAMERGN;
emr->emr.nSize = size;
emr->rclBounds.left = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.left;
emr->rclBounds.top = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.top;
emr->rclBounds.right = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.right - 1;
emr->rclBounds.bottom = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.bottom - 1;
emr->cbRgnData = rgnsize;
emr->ihBrush = index;
emr->szlStroke.cx = width;
emr->szlStroke.cy = height;
ret = EMFDRV_WriteRecord( &emf->dev, &emr->emr );
if(ret)
EMFDRV_UpdateBBox( &emf->dev, &emr->rclBounds );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/*********************************************************************
* EMFDRV_FrameRgn
*/
BOOL CDECL EMFDRV_FrameRgn( PHYSDEV dev, HRGN hrgn, HBRUSH hbrush, INT width, INT height )
{
/* FIXME: update bounding rect */
return TRUE;
}
/*********************************************************************
* EMF_PaintInvertRgn
*
* Helper for EMFDRV_{Paint|Invert}Rgn
*/
static BOOL EMF_PaintInvertRgn( PHYSDEV dev, HRGN hrgn, DWORD iType )
{
EMRINVERTRGN *emr;
DWORD size, rgnsize;
BOOL ret;
rgnsize = NtGdiGetRegionData( hrgn, 0, NULL );
size = rgnsize + offsetof(EMRINVERTRGN,RgnData);
emr = HeapAlloc( GetProcessHeap(), 0, size );
NtGdiGetRegionData( hrgn, rgnsize, (RGNDATA *)&emr->RgnData );
emr->emr.iType = iType;
emr->emr.nSize = size;
emr->rclBounds.left = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.left;
emr->rclBounds.top = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.top;
emr->rclBounds.right = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.right - 1;
emr->rclBounds.bottom = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.bottom - 1;
emr->cbRgnData = rgnsize;
ret = EMFDRV_WriteRecord( dev, &emr->emr );
if(ret)
EMFDRV_UpdateBBox( dev, &emr->rclBounds );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/**********************************************************************
* EMFDC_PaintRgn
*/
BOOL EMFDC_PaintRgn( DC_ATTR *dc_attr, HRGN hrgn )
{
return EMF_PaintInvertRgn( dc_attr->emf, hrgn, EMR_PAINTRGN );
}
/**********************************************************************
* EMF_InvertRgn
*/
BOOL EMFDC_InvertRgn( DC_ATTR *dc_attr, HRGN hrgn )
{
return EMF_PaintInvertRgn( dc_attr->emf, hrgn, EMR_INVERTRGN );
}
/*********************************************************************
* EMFDRV_InvertRgn
*/
BOOL CDECL EMFDRV_InvertRgn( PHYSDEV dev, HRGN hrgn )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDRV_ExtTextOut
*/
BOOL CDECL EMFDRV_ExtTextOut( PHYSDEV dev, INT x, INT y, UINT flags, const RECT *lprect,
LPCWSTR str, UINT count, const INT *lpDx )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_ExtTextOut
*/
BOOL EMFDC_ExtTextOut( DC_ATTR *dc_attr, INT x, INT y, UINT flags, const RECT *lprect,
const WCHAR *str, UINT count, const INT *lpDx )
{
EMFDRV_PDEVICE *emf = dc_attr->emf;
EMREXTTEXTOUTW *pemr;
DWORD nSize;
BOOL ret;
int textHeight = 0;
int textWidth = 0;
const UINT textAlign = dc_attr->text_align;
const INT graphicsMode = dc_attr->graphics_mode;
FLOAT exScale, eyScale;
nSize = sizeof(*pemr) + ((count+1) & ~1) * sizeof(WCHAR) + count * sizeof(INT);
TRACE("%s %s count %d nSize = %d\n", debugstr_wn(str, count),
wine_dbgstr_rect(lprect), count, nSize);
pemr = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, nSize);
if (graphicsMode == GM_COMPATIBLE)
{
const INT horzSize = GetDeviceCaps( emf->dev.hdc, HORZSIZE );
const INT horzRes = GetDeviceCaps( emf->dev.hdc, HORZRES );
const INT vertSize = GetDeviceCaps( emf->dev.hdc, VERTSIZE );
const INT vertRes = GetDeviceCaps( emf->dev.hdc, VERTRES );
SIZE wndext, vportext;
GetViewportExtEx( emf->dev.hdc, &vportext );
GetWindowExtEx( emf->dev.hdc, &wndext );
exScale = 100.0 * ((FLOAT)horzSize / (FLOAT)horzRes) /
((FLOAT)wndext.cx / (FLOAT)vportext.cx);
eyScale = 100.0 * ((FLOAT)vertSize / (FLOAT)vertRes) /
((FLOAT)wndext.cy / (FLOAT)vportext.cy);
}
else
{
exScale = 0.0;
eyScale = 0.0;
}
pemr->emr.iType = EMR_EXTTEXTOUTW;
pemr->emr.nSize = nSize;
pemr->iGraphicsMode = graphicsMode;
pemr->exScale = exScale;
pemr->eyScale = eyScale;
pemr->emrtext.ptlReference.x = x;
pemr->emrtext.ptlReference.y = y;
pemr->emrtext.nChars = count;
pemr->emrtext.offString = sizeof(*pemr);
memcpy((char*)pemr + pemr->emrtext.offString, str, count * sizeof(WCHAR));
pemr->emrtext.fOptions = flags;
if(!lprect) {
pemr->emrtext.rcl.left = pemr->emrtext.rcl.top = 0;
pemr->emrtext.rcl.right = pemr->emrtext.rcl.bottom = -1;
} else {
pemr->emrtext.rcl.left = lprect->left;
pemr->emrtext.rcl.top = lprect->top;
pemr->emrtext.rcl.right = lprect->right;
pemr->emrtext.rcl.bottom = lprect->bottom;
}
pemr->emrtext.offDx = pemr->emrtext.offString + ((count+1) & ~1) * sizeof(WCHAR);
if(lpDx) {
UINT i;
SIZE strSize;
memcpy((char*)pemr + pemr->emrtext.offDx, lpDx, count * sizeof(INT));
for (i = 0; i < count; i++) {
textWidth += lpDx[i];
}
if (GetTextExtentPoint32W( emf->dev.hdc, str, count, &strSize ))
textHeight = strSize.cy;
}
else {
UINT i;
INT *dx = (INT *)((char*)pemr + pemr->emrtext.offDx);
SIZE charSize;
for (i = 0; i < count; i++) {
if (GetTextExtentPoint32W( emf->dev.hdc, str + i, 1, &charSize )) {
dx[i] = charSize.cx;
textWidth += charSize.cx;
textHeight = max(textHeight, charSize.cy);
}
}
}
if (emf->path)
{
pemr->rclBounds.left = pemr->rclBounds.top = 0;
pemr->rclBounds.right = pemr->rclBounds.bottom = -1;
goto no_bounds;
}
/* FIXME: handle font escapement */
switch (textAlign & (TA_LEFT | TA_RIGHT | TA_CENTER)) {
case TA_CENTER: {
pemr->rclBounds.left = x - (textWidth / 2) - 1;
pemr->rclBounds.right = x + (textWidth / 2) + 1;
break;
}
case TA_RIGHT: {
pemr->rclBounds.left = x - textWidth - 1;
pemr->rclBounds.right = x;
break;
}
default: { /* TA_LEFT */
pemr->rclBounds.left = x;
pemr->rclBounds.right = x + textWidth + 1;
}
}
switch (textAlign & (TA_TOP | TA_BOTTOM | TA_BASELINE)) {
case TA_BASELINE: {
TEXTMETRICW tm;
if (!GetTextMetricsW( emf->dev.hdc, &tm ))
tm.tmDescent = 0;
/* Play safe here... it's better to have a bounding box */
/* that is too big than too small. */
pemr->rclBounds.top = y - textHeight - 1;
pemr->rclBounds.bottom = y + tm.tmDescent + 1;
break;
}
case TA_BOTTOM: {
pemr->rclBounds.top = y - textHeight - 1;
pemr->rclBounds.bottom = y;
break;
}
default: { /* TA_TOP */
pemr->rclBounds.top = y;
pemr->rclBounds.bottom = y + textHeight + 1;
}
}
EMFDRV_UpdateBBox( &emf->dev, &pemr->rclBounds );
no_bounds:
ret = EMFDRV_WriteRecord( &emf->dev, &pemr->emr );
HeapFree( GetProcessHeap(), 0, pemr );
return ret;
}
/**********************************************************************
* EMFDRV_GradientFill
*/
BOOL CDECL EMFDRV_GradientFill( PHYSDEV dev, TRIVERTEX *vert_array, ULONG nvert,
void *grad_array, ULONG ngrad, ULONG mode )
{
/* FIXME: update bounding rect */
return TRUE;
}
/**********************************************************************
* EMFDC_GradientFill
*/
BOOL EMFDC_GradientFill( DC_ATTR *dc_attr, TRIVERTEX *vert_array, ULONG nvert,
void *grad_array, ULONG ngrad, ULONG mode )
{
EMRGRADIENTFILL *emr;
ULONG i, pt, size, num_pts = ngrad * (mode == GRADIENT_FILL_TRIANGLE ? 3 : 2);
const ULONG *pts = (const ULONG *)grad_array;
BOOL ret;
size = FIELD_OFFSET(EMRGRADIENTFILL, Ver[nvert]) + num_pts * sizeof(pts[0]);
emr = HeapAlloc( GetProcessHeap(), 0, size );
if (!emr) return FALSE;
for (i = 0; i < num_pts; i++)
{
pt = pts[i];
if (i == 0)
{
emr->rclBounds.left = emr->rclBounds.right = vert_array[pt].x;
emr->rclBounds.top = emr->rclBounds.bottom = vert_array[pt].y;
}
else
{
if (vert_array[pt].x < emr->rclBounds.left)
emr->rclBounds.left = vert_array[pt].x;
else if (vert_array[pt].x > emr->rclBounds.right)
emr->rclBounds.right = vert_array[pt].x;
if (vert_array[pt].y < emr->rclBounds.top)
emr->rclBounds.top = vert_array[pt].y;
else if (vert_array[pt].y > emr->rclBounds.bottom)
emr->rclBounds.bottom = vert_array[pt].y;
}
}
emr->rclBounds.right--;
emr->rclBounds.bottom--;
emr->emr.iType = EMR_GRADIENTFILL;
emr->emr.nSize = size;
emr->nVer = nvert;
emr->nTri = ngrad;
emr->ulMode = mode;
memcpy( emr->Ver, vert_array, nvert * sizeof(vert_array[0]) );
memcpy( emr->Ver + nvert, pts, num_pts * sizeof(pts[0]) );
EMFDRV_UpdateBBox( dc_attr->emf, &emr->rclBounds );
ret = EMFDRV_WriteRecord( dc_attr->emf, &emr->emr );
HeapFree( GetProcessHeap(), 0, emr );
return ret;
}
/**********************************************************************
* EMFDRV_FillPath
*/
BOOL CDECL EMFDRV_FillPath( PHYSDEV dev )
{
return emfdrv_stroke_and_fill_path( dev, EMR_FILLPATH );
}
/**********************************************************************
* EMFDRV_StrokeAndFillPath
*/
BOOL CDECL EMFDRV_StrokeAndFillPath( PHYSDEV dev )
{
return emfdrv_stroke_and_fill_path( dev, EMR_STROKEANDFILLPATH );
}
/**********************************************************************
* EMFDRV_StrokePath
*/
BOOL CDECL EMFDRV_StrokePath( PHYSDEV dev )
{
return emfdrv_stroke_and_fill_path( dev, EMR_STROKEPATH );
}