Sweden-Number/dlls/gdi32/bitblt.c

1095 lines
39 KiB
C

/*
* GDI bit-blit operations
*
* Copyright 1993, 1994 Alexandre Julliard
*
* 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 <stdarg.h>
#include <limits.h>
#include <math.h>
#ifdef HAVE_FLOAT_H
#include <float.h>
#endif
#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "gdi_private.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL(bitblt);
static inline BOOL rop_uses_src( DWORD rop )
{
return ((rop >> 2) & 0x330000) != (rop & 0x330000);
}
BOOL intersect_vis_rectangles( struct bitblt_coords *dst, struct bitblt_coords *src )
{
RECT rect;
/* intersect the rectangles */
if ((src->width == dst->width) && (src->height == dst->height)) /* no stretching */
{
offset_rect( &src->visrect, dst->x - src->x, dst->y - src->y );
if (!intersect_rect( &rect, &src->visrect, &dst->visrect )) return FALSE;
src->visrect = dst->visrect = rect;
offset_rect( &src->visrect, src->x - dst->x, src->y - dst->y );
}
else /* stretching */
{
/* map source rectangle into destination coordinates */
rect = src->visrect;
offset_rect( &rect,
-src->x - (src->width < 0 ? 1 : 0),
-src->y - (src->height < 0 ? 1 : 0));
rect.left = rect.left * dst->width / src->width;
rect.top = rect.top * dst->height / src->height;
rect.right = rect.right * dst->width / src->width;
rect.bottom = rect.bottom * dst->height / src->height;
order_rect( &rect );
/* when the source rectangle needs to flip and it doesn't fit in the source device
area, the destination area isn't flipped. So, adjust destination coordinates */
if (src->width < 0 && dst->width > 0 &&
(src->x + src->width + 1 < src->visrect.left || src->x > src->visrect.right))
dst->x += (dst->width - rect.right) - rect.left;
else if (src->width > 0 && dst->width < 0 &&
(src->x < src->visrect.left || src->x + src->width > src->visrect.right))
dst->x -= rect.right - (dst->width - rect.left);
if (src->height < 0 && dst->height > 0 &&
(src->y + src->height + 1 < src->visrect.top || src->y > src->visrect.bottom))
dst->y += (dst->height - rect.bottom) - rect.top;
else if (src->height > 0 && dst->height < 0 &&
(src->y < src->visrect.top || src->y + src->height > src->visrect.bottom))
dst->y -= rect.bottom - (dst->height - rect.top);
offset_rect( &rect, dst->x, dst->y );
/* avoid rounding errors */
rect.left--;
rect.top--;
rect.right++;
rect.bottom++;
if (!intersect_rect( &dst->visrect, &rect, &dst->visrect )) return FALSE;
/* map destination rectangle back to source coordinates */
rect = dst->visrect;
offset_rect( &rect,
-dst->x - (dst->width < 0 ? 1 : 0),
-dst->y - (dst->height < 0 ? 1 : 0));
rect.left = src->x + rect.left * src->width / dst->width;
rect.top = src->y + rect.top * src->height / dst->height;
rect.right = src->x + rect.right * src->width / dst->width;
rect.bottom = src->y + rect.bottom * src->height / dst->height;
order_rect( &rect );
/* avoid rounding errors */
rect.left--;
rect.top--;
rect.right++;
rect.bottom++;
if (!intersect_rect( &src->visrect, &rect, &src->visrect )) return FALSE;
}
return TRUE;
}
static BOOL get_vis_rectangles( DC *dc_dst, struct bitblt_coords *dst,
DC *dc_src, struct bitblt_coords *src )
{
RECT rect;
/* get the destination visible rectangle */
rect.left = dst->log_x;
rect.top = dst->log_y;
rect.right = dst->log_x + dst->log_width;
rect.bottom = dst->log_y + dst->log_height;
lp_to_dp( dc_dst, (POINT *)&rect, 2 );
dst->x = rect.left;
dst->y = rect.top;
dst->width = rect.right - rect.left;
dst->height = rect.bottom - rect.top;
if (dst->layout & LAYOUT_RTL && dst->layout & LAYOUT_BITMAPORIENTATIONPRESERVED)
{
dst->x += dst->width;
dst->width = -dst->width;
}
get_bounding_rect( &rect, dst->x, dst->y, dst->width, dst->height );
clip_visrect( dc_dst, &dst->visrect, &rect );
/* get the source visible rectangle */
if (!src) return !is_rect_empty( &dst->visrect );
rect.left = src->log_x;
rect.top = src->log_y;
rect.right = src->log_x + src->log_width;
rect.bottom = src->log_y + src->log_height;
lp_to_dp( dc_src, (POINT *)&rect, 2 );
src->x = rect.left;
src->y = rect.top;
src->width = rect.right - rect.left;
src->height = rect.bottom - rect.top;
if (src->layout & LAYOUT_RTL && src->layout & LAYOUT_BITMAPORIENTATIONPRESERVED)
{
src->x += src->width;
src->width = -src->width;
}
get_bounding_rect( &rect, src->x, src->y, src->width, src->height );
if (!clip_device_rect( dc_src, &src->visrect, &rect )) return FALSE;
if (is_rect_empty( &dst->visrect )) return FALSE;
return intersect_vis_rectangles( dst, src );
}
void CDECL free_heap_bits( struct gdi_image_bits *bits )
{
HeapFree( GetProcessHeap(), 0, bits->ptr );
}
DWORD convert_bits( const BITMAPINFO *src_info, struct bitblt_coords *src,
BITMAPINFO *dst_info, struct gdi_image_bits *bits )
{
void *ptr;
DWORD err;
BOOL top_down = dst_info->bmiHeader.biHeight < 0;
dst_info->bmiHeader.biWidth = src->visrect.right - src->visrect.left;
dst_info->bmiHeader.biHeight = src->visrect.bottom - src->visrect.top;
dst_info->bmiHeader.biSizeImage = get_dib_image_size( dst_info );
if (top_down) dst_info->bmiHeader.biHeight = -dst_info->bmiHeader.biHeight;
if (!(ptr = HeapAlloc( GetProcessHeap(), 0, dst_info->bmiHeader.biSizeImage )))
return ERROR_OUTOFMEMORY;
err = convert_bitmapinfo( src_info, bits->ptr, src, dst_info, ptr );
if (bits->free) bits->free( bits );
bits->ptr = ptr;
bits->is_copy = TRUE;
bits->free = free_heap_bits;
return err;
}
DWORD stretch_bits( const BITMAPINFO *src_info, struct bitblt_coords *src,
BITMAPINFO *dst_info, struct bitblt_coords *dst,
struct gdi_image_bits *bits, int mode )
{
void *ptr;
DWORD err;
dst_info->bmiHeader.biWidth = dst->visrect.right - dst->visrect.left;
dst_info->bmiHeader.biHeight = dst->visrect.bottom - dst->visrect.top;
dst_info->bmiHeader.biSizeImage = get_dib_image_size( dst_info );
if (src_info->bmiHeader.biHeight < 0) dst_info->bmiHeader.biHeight = -dst_info->bmiHeader.biHeight;
if (!(ptr = HeapAlloc( GetProcessHeap(), 0, dst_info->bmiHeader.biSizeImage )))
return ERROR_OUTOFMEMORY;
err = stretch_bitmapinfo( src_info, bits->ptr, src, dst_info, ptr, dst, mode );
if (bits->free) bits->free( bits );
bits->ptr = ptr;
bits->is_copy = TRUE;
bits->free = free_heap_bits;
return err;
}
static DWORD blend_bits( const BITMAPINFO *src_info, const struct gdi_image_bits *src_bits,
struct bitblt_coords *src, BITMAPINFO *dst_info,
struct gdi_image_bits *dst_bits, struct bitblt_coords *dst, BLENDFUNCTION blend )
{
if (!dst_bits->is_copy)
{
int size = dst_info->bmiHeader.biSizeImage;
void *ptr = HeapAlloc( GetProcessHeap(), 0, size );
if (!ptr) return ERROR_OUTOFMEMORY;
memcpy( ptr, dst_bits->ptr, size );
if (dst_bits->free) dst_bits->free( dst_bits );
dst_bits->ptr = ptr;
dst_bits->is_copy = TRUE;
dst_bits->free = free_heap_bits;
}
return blend_bitmapinfo( src_info, src_bits->ptr, src, dst_info, dst_bits->ptr, dst, blend );
}
static RGBQUAD get_dc_rgb_color( DC *dc, int color_table_size, COLORREF color )
{
RGBQUAD ret = { 0, 0, 0, 0 };
if (color & (1 << 24)) /* PALETTEINDEX */
{
PALETTEENTRY pal;
if (!GetPaletteEntries( dc->hPalette, LOWORD(color), 1, &pal ))
GetPaletteEntries( dc->hPalette, 0, 1, &pal );
ret.rgbRed = pal.peRed;
ret.rgbGreen = pal.peGreen;
ret.rgbBlue = pal.peBlue;
return ret;
}
if (color >> 16 == 0x10ff) /* DIBINDEX */
{
if (color_table_size)
{
if (LOWORD(color) >= color_table_size) color = 0x10ff0000; /* fallback to index 0 */
*(DWORD *)&ret = color;
}
return ret;
}
ret.rgbRed = GetRValue( color );
ret.rgbGreen = GetGValue( color );
ret.rgbBlue = GetBValue( color );
return ret;
}
/* helper to retrieve either both colors or only the background color for monochrome blits */
void get_mono_dc_colors( DC *dc, int color_table_size, BITMAPINFO *info, int count )
{
info->bmiColors[count - 1] = get_dc_rgb_color( dc, color_table_size, dc->backgroundColor );
if (count > 1) info->bmiColors[0] = get_dc_rgb_color( dc, color_table_size, dc->textColor );
info->bmiHeader.biClrUsed = count;
}
/***********************************************************************
* null driver fallback implementations
*/
BOOL CDECL nulldrv_StretchBlt( PHYSDEV dst_dev, struct bitblt_coords *dst,
PHYSDEV src_dev, struct bitblt_coords *src, DWORD rop )
{
DC *dc_src = get_physdev_dc( src_dev ), *dc_dst = get_nulldrv_dc( dst_dev );
char src_buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
char dst_buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
BITMAPINFO *src_info = (BITMAPINFO *)src_buffer;
BITMAPINFO *dst_info = (BITMAPINFO *)dst_buffer;
DWORD err;
struct gdi_image_bits bits;
src_dev = GET_DC_PHYSDEV( dc_src, pGetImage );
if (src_dev->funcs->pGetImage( src_dev, src_info, &bits, src ))
return FALSE;
dst_dev = GET_DC_PHYSDEV( dc_dst, pPutImage );
copy_bitmapinfo( dst_info, src_info );
err = dst_dev->funcs->pPutImage( dst_dev, 0, dst_info, &bits, src, dst, rop );
if (err == ERROR_BAD_FORMAT)
{
DWORD dst_colors = dst_info->bmiHeader.biClrUsed;
/* 1-bpp source without a color table uses the destination DC colors */
if (src_info->bmiHeader.biBitCount == 1 && !src_info->bmiHeader.biClrUsed)
get_mono_dc_colors( dc_dst, dst_info->bmiHeader.biClrUsed, src_info, 2 );
/* 1-bpp destination without a color table requires a fake 1-entry table
* that contains only the background color */
if (dst_info->bmiHeader.biBitCount == 1 && !dst_colors)
get_mono_dc_colors( dc_src, src_info->bmiHeader.biClrUsed, dst_info, 1 );
if (!(err = convert_bits( src_info, src, dst_info, &bits )))
{
/* get rid of the fake destination table */
dst_info->bmiHeader.biClrUsed = dst_colors;
err = dst_dev->funcs->pPutImage( dst_dev, 0, dst_info, &bits, src, dst, rop );
}
}
if (err == ERROR_TRANSFORM_NOT_SUPPORTED &&
((src->width != dst->width) || (src->height != dst->height)))
{
copy_bitmapinfo( src_info, dst_info );
err = stretch_bits( src_info, src, dst_info, dst, &bits, dc_dst->stretchBltMode );
if (!err) err = dst_dev->funcs->pPutImage( dst_dev, 0, dst_info, &bits, src, dst, rop );
}
if (bits.free) bits.free( &bits );
return !err;
}
BOOL CDECL nulldrv_AlphaBlend( PHYSDEV dst_dev, struct bitblt_coords *dst,
PHYSDEV src_dev, struct bitblt_coords *src, BLENDFUNCTION func )
{
DC *dc_src = get_physdev_dc( src_dev ), *dc_dst = get_nulldrv_dc( dst_dev );
char src_buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
char dst_buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
BITMAPINFO *src_info = (BITMAPINFO *)src_buffer;
BITMAPINFO *dst_info = (BITMAPINFO *)dst_buffer;
DWORD err;
struct gdi_image_bits bits;
src_dev = GET_DC_PHYSDEV( dc_src, pGetImage );
err = src_dev->funcs->pGetImage( src_dev, src_info, &bits, src );
if (err) goto done;
dst_dev = GET_DC_PHYSDEV( dc_dst, pBlendImage );
copy_bitmapinfo( dst_info, src_info );
err = dst_dev->funcs->pBlendImage( dst_dev, dst_info, &bits, src, dst, func );
if (err == ERROR_BAD_FORMAT)
{
err = convert_bits( src_info, src, dst_info, &bits );
if (!err) err = dst_dev->funcs->pBlendImage( dst_dev, dst_info, &bits, src, dst, func );
}
if (err == ERROR_TRANSFORM_NOT_SUPPORTED &&
((src->width != dst->width) || (src->height != dst->height)))
{
copy_bitmapinfo( src_info, dst_info );
err = stretch_bits( src_info, src, dst_info, dst, &bits, COLORONCOLOR );
if (!err) err = dst_dev->funcs->pBlendImage( dst_dev, dst_info, &bits, src, dst, func );
}
if (bits.free) bits.free( &bits );
done:
if (err) SetLastError( err );
return !err;
}
DWORD CDECL nulldrv_BlendImage( PHYSDEV dev, BITMAPINFO *info, const struct gdi_image_bits *bits,
struct bitblt_coords *src, struct bitblt_coords *dst, BLENDFUNCTION blend )
{
char buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
BITMAPINFO *dst_info = (BITMAPINFO *)buffer;
struct gdi_image_bits dst_bits;
struct bitblt_coords orig_dst;
DWORD *masks = (DWORD *)info->bmiColors;
DC *dc = get_nulldrv_dc( dev );
DWORD err;
if (info->bmiHeader.biPlanes != 1) goto update_format;
if (info->bmiHeader.biBitCount != 32) goto update_format;
if (info->bmiHeader.biCompression == BI_BITFIELDS)
{
if (blend.AlphaFormat & AC_SRC_ALPHA) return ERROR_INVALID_PARAMETER;
if (masks[0] != 0xff0000 || masks[1] != 0x00ff00 || masks[2] != 0x0000ff)
goto update_format;
}
if (!bits) return ERROR_SUCCESS;
if ((src->width != dst->width) || (src->height != dst->height)) return ERROR_TRANSFORM_NOT_SUPPORTED;
dev = GET_DC_PHYSDEV( dc, pGetImage );
orig_dst = *dst;
err = dev->funcs->pGetImage( dev, dst_info, &dst_bits, dst );
if (err) return err;
dev = GET_DC_PHYSDEV( dc, pPutImage );
err = blend_bits( info, bits, src, dst_info, &dst_bits, dst, blend );
if (!err) err = dev->funcs->pPutImage( dev, 0, dst_info, &dst_bits, dst, &orig_dst, SRCCOPY );
if (dst_bits.free) dst_bits.free( &dst_bits );
return err;
update_format:
if (blend.AlphaFormat & AC_SRC_ALPHA) /* source alpha requires A8R8G8B8 format */
return ERROR_INVALID_PARAMETER;
info->bmiHeader.biPlanes = 1;
info->bmiHeader.biBitCount = 32;
info->bmiHeader.biCompression = BI_BITFIELDS;
info->bmiHeader.biClrUsed = 0;
masks[0] = 0xff0000;
masks[1] = 0x00ff00;
masks[2] = 0x0000ff;
return ERROR_BAD_FORMAT;
}
BOOL CDECL nulldrv_GradientFill( PHYSDEV dev, TRIVERTEX *vert_array, ULONG nvert,
void * grad_array, ULONG ngrad, ULONG mode )
{
DC *dc = get_nulldrv_dc( dev );
char buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
BITMAPINFO *info = (BITMAPINFO *)buffer;
struct bitblt_coords src, dst;
struct gdi_image_bits bits;
unsigned int i;
POINT *pts;
BOOL ret = FALSE;
DWORD err;
HRGN rgn;
if (!(pts = HeapAlloc( GetProcessHeap(), 0, nvert * sizeof(*pts) ))) return FALSE;
for (i = 0; i < nvert; i++)
{
pts[i].x = vert_array[i].x;
pts[i].y = vert_array[i].y;
}
lp_to_dp( dc, pts, nvert );
/* compute bounding rect of all the rectangles/triangles */
reset_bounds( &dst.visrect );
for (i = 0; i < ngrad * (mode == GRADIENT_FILL_TRIANGLE ? 3 : 2); i++)
{
ULONG v = ((ULONG *)grad_array)[i];
dst.visrect.left = min( dst.visrect.left, pts[v].x );
dst.visrect.top = min( dst.visrect.top, pts[v].y );
dst.visrect.right = max( dst.visrect.right, pts[v].x );
dst.visrect.bottom = max( dst.visrect.bottom, pts[v].y );
}
dst.x = dst.visrect.left;
dst.y = dst.visrect.top;
dst.width = dst.visrect.right - dst.visrect.left;
dst.height = dst.visrect.bottom - dst.visrect.top;
if (!clip_visrect( dc, &dst.visrect, &dst.visrect )) goto done;
/* query the bitmap format */
info->bmiHeader.biSize = sizeof(info->bmiHeader);
info->bmiHeader.biPlanes = 1;
info->bmiHeader.biBitCount = 0;
info->bmiHeader.biCompression = BI_RGB;
info->bmiHeader.biXPelsPerMeter = 0;
info->bmiHeader.biYPelsPerMeter = 0;
info->bmiHeader.biClrUsed = 0;
info->bmiHeader.biClrImportant = 0;
info->bmiHeader.biWidth = dst.visrect.right - dst.visrect.left;
info->bmiHeader.biHeight = dst.visrect.bottom - dst.visrect.top;
info->bmiHeader.biSizeImage = 0;
dev = GET_DC_PHYSDEV( dc, pPutImage );
err = dev->funcs->pPutImage( dev, 0, info, NULL, NULL, NULL, 0 );
if (err && err != ERROR_BAD_FORMAT) goto done;
info->bmiHeader.biSizeImage = get_dib_image_size( info );
if (!(bits.ptr = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, info->bmiHeader.biSizeImage )))
goto done;
bits.is_copy = TRUE;
bits.free = free_heap_bits;
/* make src and points relative to the bitmap */
src = dst;
src.x -= dst.visrect.left;
src.y -= dst.visrect.top;
offset_rect( &src.visrect, -dst.visrect.left, -dst.visrect.top );
for (i = 0; i < nvert; i++)
{
pts[i].x -= dst.visrect.left;
pts[i].y -= dst.visrect.top;
}
rgn = CreateRectRgn( 0, 0, 0, 0 );
gradient_bitmapinfo( info, bits.ptr, vert_array, nvert, grad_array, ngrad, mode, pts, rgn );
OffsetRgn( rgn, dst.visrect.left, dst.visrect.top );
ret = !dev->funcs->pPutImage( dev, rgn, info, &bits, &src, &dst, SRCCOPY );
if (bits.free) bits.free( &bits );
DeleteObject( rgn );
done:
HeapFree( GetProcessHeap(), 0, pts );
return ret;
}
COLORREF CDECL nulldrv_GetPixel( PHYSDEV dev, INT x, INT y )
{
DC *dc = get_nulldrv_dc( dev );
char buffer[FIELD_OFFSET( BITMAPINFO, bmiColors[256] )];
BITMAPINFO *info = (BITMAPINFO *)buffer;
struct bitblt_coords src;
struct gdi_image_bits bits;
COLORREF ret;
src.visrect.left = x;
src.visrect.top = y;
lp_to_dp( dc, (POINT *)&src.visrect, 1 );
src.visrect.right = src.visrect.left + 1;
src.visrect.bottom = src.visrect.top + 1;
src.x = src.visrect.left;
src.y = src.visrect.top;
src.width = src.height = 1;
if (!clip_visrect( dc, &src.visrect, &src.visrect )) return CLR_INVALID;
dev = GET_DC_PHYSDEV( dc, pGetImage );
if (dev->funcs->pGetImage( dev, info, &bits, &src )) return CLR_INVALID;
ret = get_pixel_bitmapinfo( info, bits.ptr, &src );
if (bits.free) bits.free( &bits );
return ret;
}
/***********************************************************************
* PatBlt (GDI32.@)
*/
BOOL WINAPI PatBlt( HDC hdc, INT left, INT top, INT width, INT height, DWORD rop)
{
DC * dc;
BOOL ret = FALSE;
if (rop_uses_src( rop )) return FALSE;
if ((dc = get_dc_ptr( hdc )))
{
struct bitblt_coords dst;
update_dc( dc );
dst.log_x = left;
dst.log_y = top;
dst.log_width = width;
dst.log_height = height;
dst.layout = dc->layout;
if (rop & NOMIRRORBITMAP)
{
dst.layout |= LAYOUT_BITMAPORIENTATIONPRESERVED;
rop &= ~NOMIRRORBITMAP;
}
ret = !get_vis_rectangles( dc, &dst, NULL, NULL );
TRACE("dst %p log=%d,%d %dx%d phys=%d,%d %dx%d vis=%s rop=%06x\n",
hdc, dst.log_x, dst.log_y, dst.log_width, dst.log_height,
dst.x, dst.y, dst.width, dst.height, wine_dbgstr_rect(&dst.visrect), rop );
if (!ret)
{
PHYSDEV physdev = GET_DC_PHYSDEV( dc, pPatBlt );
ret = physdev->funcs->pPatBlt( physdev, &dst, rop );
}
release_dc_ptr( dc );
}
return ret;
}
/***********************************************************************
* BitBlt (GDI32.@)
*/
BOOL WINAPI DECLSPEC_HOTPATCH BitBlt( HDC hdcDst, INT xDst, INT yDst, INT width,
INT height, HDC hdcSrc, INT xSrc, INT ySrc, DWORD rop )
{
if (!rop_uses_src( rop )) return PatBlt( hdcDst, xDst, yDst, width, height, rop );
else return StretchBlt( hdcDst, xDst, yDst, width, height,
hdcSrc, xSrc, ySrc, width, height, rop );
}
/***********************************************************************
* StretchBlt (GDI32.@)
*/
BOOL WINAPI StretchBlt( HDC hdcDst, INT xDst, INT yDst, INT widthDst, INT heightDst,
HDC hdcSrc, INT xSrc, INT ySrc, INT widthSrc, INT heightSrc, DWORD rop )
{
BOOL ret = FALSE;
DC *dcDst, *dcSrc;
if (!rop_uses_src( rop )) return PatBlt( hdcDst, xDst, yDst, widthDst, heightDst, rop );
if (!(dcDst = get_dc_ptr( hdcDst ))) return FALSE;
if ((dcSrc = get_dc_ptr( hdcSrc )))
{
struct bitblt_coords src, dst;
update_dc( dcSrc );
update_dc( dcDst );
src.log_x = xSrc;
src.log_y = ySrc;
src.log_width = widthSrc;
src.log_height = heightSrc;
src.layout = dcSrc->layout;
dst.log_x = xDst;
dst.log_y = yDst;
dst.log_width = widthDst;
dst.log_height = heightDst;
dst.layout = dcDst->layout;
if (rop & NOMIRRORBITMAP)
{
src.layout |= LAYOUT_BITMAPORIENTATIONPRESERVED;
dst.layout |= LAYOUT_BITMAPORIENTATIONPRESERVED;
rop &= ~NOMIRRORBITMAP;
}
ret = !get_vis_rectangles( dcDst, &dst, dcSrc, &src );
TRACE("src %p log=%d,%d %dx%d phys=%d,%d %dx%d vis=%s dst %p log=%d,%d %dx%d phys=%d,%d %dx%d vis=%s rop=%06x\n",
hdcSrc, src.log_x, src.log_y, src.log_width, src.log_height,
src.x, src.y, src.width, src.height, wine_dbgstr_rect(&src.visrect),
hdcDst, dst.log_x, dst.log_y, dst.log_width, dst.log_height,
dst.x, dst.y, dst.width, dst.height, wine_dbgstr_rect(&dst.visrect), rop );
if (!ret)
{
PHYSDEV src_dev = GET_DC_PHYSDEV( dcSrc, pStretchBlt );
PHYSDEV dst_dev = GET_DC_PHYSDEV( dcDst, pStretchBlt );
ret = dst_dev->funcs->pStretchBlt( dst_dev, &dst, src_dev, &src, rop );
}
release_dc_ptr( dcSrc );
}
release_dc_ptr( dcDst );
return ret;
}
#define FRGND_ROP3(ROP4) ((ROP4) & 0x00FFFFFF)
#define BKGND_ROP3(ROP4) (ROP3Table[((ROP4)>>24) & 0xFF])
/***********************************************************************
* MaskBlt [GDI32.@]
*/
BOOL WINAPI MaskBlt(HDC hdcDest, INT nXDest, INT nYDest,
INT nWidth, INT nHeight, HDC hdcSrc,
INT nXSrc, INT nYSrc, HBITMAP hbmMask,
INT xMask, INT yMask, DWORD dwRop)
{
HBITMAP hBitmap1, hOldBitmap1, hBitmap2, hOldBitmap2;
HDC hDC1, hDC2;
HBRUSH hbrMask, hbrDst, hbrTmp;
static const DWORD ROP3Table[256] =
{
0x00000042, 0x00010289,
0x00020C89, 0x000300AA,
0x00040C88, 0x000500A9,
0x00060865, 0x000702C5,
0x00080F08, 0x00090245,
0x000A0329, 0x000B0B2A,
0x000C0324, 0x000D0B25,
0x000E08A5, 0x000F0001,
0x00100C85, 0x001100A6,
0x00120868, 0x001302C8,
0x00140869, 0x001502C9,
0x00165CCA, 0x00171D54,
0x00180D59, 0x00191CC8,
0x001A06C5, 0x001B0768,
0x001C06CA, 0x001D0766,
0x001E01A5, 0x001F0385,
0x00200F09, 0x00210248,
0x00220326, 0x00230B24,
0x00240D55, 0x00251CC5,
0x002606C8, 0x00271868,
0x00280369, 0x002916CA,
0x002A0CC9, 0x002B1D58,
0x002C0784, 0x002D060A,
0x002E064A, 0x002F0E2A,
0x0030032A, 0x00310B28,
0x00320688, 0x00330008,
0x003406C4, 0x00351864,
0x003601A8, 0x00370388,
0x0038078A, 0x00390604,
0x003A0644, 0x003B0E24,
0x003C004A, 0x003D18A4,
0x003E1B24, 0x003F00EA,
0x00400F0A, 0x00410249,
0x00420D5D, 0x00431CC4,
0x00440328, 0x00450B29,
0x004606C6, 0x0047076A,
0x00480368, 0x004916C5,
0x004A0789, 0x004B0605,
0x004C0CC8, 0x004D1954,
0x004E0645, 0x004F0E25,
0x00500325, 0x00510B26,
0x005206C9, 0x00530764,
0x005408A9, 0x00550009,
0x005601A9, 0x00570389,
0x00580785, 0x00590609,
0x005A0049, 0x005B18A9,
0x005C0649, 0x005D0E29,
0x005E1B29, 0x005F00E9,
0x00600365, 0x006116C6,
0x00620786, 0x00630608,
0x00640788, 0x00650606,
0x00660046, 0x006718A8,
0x006858A6, 0x00690145,
0x006A01E9, 0x006B178A,
0x006C01E8, 0x006D1785,
0x006E1E28, 0x006F0C65,
0x00700CC5, 0x00711D5C,
0x00720648, 0x00730E28,
0x00740646, 0x00750E26,
0x00761B28, 0x007700E6,
0x007801E5, 0x00791786,
0x007A1E29, 0x007B0C68,
0x007C1E24, 0x007D0C69,
0x007E0955, 0x007F03C9,
0x008003E9, 0x00810975,
0x00820C49, 0x00831E04,
0x00840C48, 0x00851E05,
0x008617A6, 0x008701C5,
0x008800C6, 0x00891B08,
0x008A0E06, 0x008B0666,
0x008C0E08, 0x008D0668,
0x008E1D7C, 0x008F0CE5,
0x00900C45, 0x00911E08,
0x009217A9, 0x009301C4,
0x009417AA, 0x009501C9,
0x00960169, 0x0097588A,
0x00981888, 0x00990066,
0x009A0709, 0x009B07A8,
0x009C0704, 0x009D07A6,
0x009E16E6, 0x009F0345,
0x00A000C9, 0x00A11B05,
0x00A20E09, 0x00A30669,
0x00A41885, 0x00A50065,
0x00A60706, 0x00A707A5,
0x00A803A9, 0x00A90189,
0x00AA0029, 0x00AB0889,
0x00AC0744, 0x00AD06E9,
0x00AE0B06, 0x00AF0229,
0x00B00E05, 0x00B10665,
0x00B21974, 0x00B30CE8,
0x00B4070A, 0x00B507A9,
0x00B616E9, 0x00B70348,
0x00B8074A, 0x00B906E6,
0x00BA0B09, 0x00BB0226,
0x00BC1CE4, 0x00BD0D7D,
0x00BE0269, 0x00BF08C9,
0x00C000CA, 0x00C11B04,
0x00C21884, 0x00C3006A,
0x00C40E04, 0x00C50664,
0x00C60708, 0x00C707AA,
0x00C803A8, 0x00C90184,
0x00CA0749, 0x00CB06E4,
0x00CC0020, 0x00CD0888,
0x00CE0B08, 0x00CF0224,
0x00D00E0A, 0x00D1066A,
0x00D20705, 0x00D307A4,
0x00D41D78, 0x00D50CE9,
0x00D616EA, 0x00D70349,
0x00D80745, 0x00D906E8,
0x00DA1CE9, 0x00DB0D75,
0x00DC0B04, 0x00DD0228,
0x00DE0268, 0x00DF08C8,
0x00E003A5, 0x00E10185,
0x00E20746, 0x00E306EA,
0x00E40748, 0x00E506E5,
0x00E61CE8, 0x00E70D79,
0x00E81D74, 0x00E95CE6,
0x00EA02E9, 0x00EB0849,
0x00EC02E8, 0x00ED0848,
0x00EE0086, 0x00EF0A08,
0x00F00021, 0x00F10885,
0x00F20B05, 0x00F3022A,
0x00F40B0A, 0x00F50225,
0x00F60265, 0x00F708C5,
0x00F802E5, 0x00F90845,
0x00FA0089, 0x00FB0A09,
0x00FC008A, 0x00FD0A0A,
0x00FE02A9, 0x00FF0062,
};
if (!hbmMask)
return BitBlt(hdcDest, nXDest, nYDest, nWidth, nHeight, hdcSrc, nXSrc, nYSrc, FRGND_ROP3(dwRop));
hbrMask = CreatePatternBrush(hbmMask);
hbrDst = SelectObject(hdcDest, GetStockObject(NULL_BRUSH));
/* make bitmap */
hDC1 = CreateCompatibleDC(hdcDest);
hBitmap1 = CreateCompatibleBitmap(hdcDest, nWidth, nHeight);
hOldBitmap1 = SelectObject(hDC1, hBitmap1);
/* draw using bkgnd rop */
BitBlt(hDC1, 0, 0, nWidth, nHeight, hdcDest, nXDest, nYDest, SRCCOPY);
hbrTmp = SelectObject(hDC1, hbrDst);
BitBlt(hDC1, 0, 0, nWidth, nHeight, hdcSrc, nXSrc, nYSrc, BKGND_ROP3(dwRop));
SelectObject(hDC1, hbrTmp);
/* make bitmap */
hDC2 = CreateCompatibleDC(hdcDest);
hBitmap2 = CreateCompatibleBitmap(hdcDest, nWidth, nHeight);
hOldBitmap2 = SelectObject(hDC2, hBitmap2);
/* draw using foregnd rop */
BitBlt(hDC2, 0, 0, nWidth, nHeight, hdcDest, nXDest, nYDest, SRCCOPY);
hbrTmp = SelectObject(hDC2, hbrDst);
BitBlt(hDC2, 0, 0, nWidth, nHeight, hdcSrc, nXSrc, nYSrc, FRGND_ROP3(dwRop));
/* combine both using the mask as a pattern brush */
SelectObject(hDC2, hbrMask);
SetBrushOrgEx(hDC2, -xMask, -yMask, NULL);
BitBlt(hDC2, 0, 0, nWidth, nHeight, hDC1, 0, 0, 0xac0744 ); /* (D & P) | (S & ~P) */
SelectObject(hDC2, hbrTmp);
/* blit to dst */
BitBlt(hdcDest, nXDest, nYDest, nWidth, nHeight, hDC2, 0, 0, SRCCOPY);
/* restore all objects */
SelectObject(hdcDest, hbrDst);
SelectObject(hDC1, hOldBitmap1);
SelectObject(hDC2, hOldBitmap2);
/* delete all temp objects */
DeleteObject(hBitmap1);
DeleteObject(hBitmap2);
DeleteObject(hbrMask);
DeleteDC(hDC1);
DeleteDC(hDC2);
return TRUE;
}
/******************************************************************************
* GdiTransparentBlt [GDI32.@]
*/
BOOL WINAPI GdiTransparentBlt( HDC hdcDest, int xDest, int yDest, int widthDest, int heightDest,
HDC hdcSrc, int xSrc, int ySrc, int widthSrc, int heightSrc,
UINT crTransparent )
{
BOOL ret = FALSE;
HDC hdcWork;
HBITMAP bmpWork;
HGDIOBJ oldWork;
HDC hdcMask = NULL;
HBITMAP bmpMask = NULL;
HBITMAP oldMask = NULL;
COLORREF oldBackground;
COLORREF oldForeground;
int oldStretchMode;
DIBSECTION dib;
if(widthDest < 0 || heightDest < 0 || widthSrc < 0 || heightSrc < 0) {
TRACE("Cannot mirror\n");
return FALSE;
}
oldBackground = SetBkColor(hdcDest, RGB(255,255,255));
oldForeground = SetTextColor(hdcDest, RGB(0,0,0));
/* Stretch bitmap */
oldStretchMode = GetStretchBltMode(hdcSrc);
if(oldStretchMode == BLACKONWHITE || oldStretchMode == WHITEONBLACK)
SetStretchBltMode(hdcSrc, COLORONCOLOR);
hdcWork = CreateCompatibleDC(hdcDest);
if ((GetObjectType( hdcDest ) != OBJ_MEMDC ||
GetObjectW( GetCurrentObject( hdcDest, OBJ_BITMAP ), sizeof(dib), &dib ) == sizeof(BITMAP)) &&
GetDeviceCaps( hdcDest, BITSPIXEL ) == 32)
{
/* screen DCs or DDBs are not supposed to have an alpha channel, so use a 24-bpp bitmap as copy */
BITMAPINFO info;
info.bmiHeader.biSize = sizeof(info.bmiHeader);
info.bmiHeader.biWidth = widthDest;
info.bmiHeader.biHeight = heightDest;
info.bmiHeader.biPlanes = 1;
info.bmiHeader.biBitCount = 24;
info.bmiHeader.biCompression = BI_RGB;
bmpWork = CreateDIBSection( 0, &info, DIB_RGB_COLORS, NULL, NULL, 0 );
}
else bmpWork = CreateCompatibleBitmap(hdcDest, widthDest, heightDest);
oldWork = SelectObject(hdcWork, bmpWork);
if(!StretchBlt(hdcWork, 0, 0, widthDest, heightDest, hdcSrc, xSrc, ySrc, widthSrc, heightSrc, SRCCOPY)) {
TRACE("Failed to stretch\n");
goto error;
}
SetBkColor(hdcWork, crTransparent);
/* Create mask */
hdcMask = CreateCompatibleDC(hdcDest);
bmpMask = CreateCompatibleBitmap(hdcMask, widthDest, heightDest);
oldMask = SelectObject(hdcMask, bmpMask);
if(!BitBlt(hdcMask, 0, 0, widthDest, heightDest, hdcWork, 0, 0, SRCCOPY)) {
TRACE("Failed to create mask\n");
goto error;
}
/* Replace transparent color with black */
SetBkColor(hdcWork, RGB(0,0,0));
SetTextColor(hdcWork, RGB(255,255,255));
if(!BitBlt(hdcWork, 0, 0, widthDest, heightDest, hdcMask, 0, 0, SRCAND)) {
TRACE("Failed to mask out background\n");
goto error;
}
/* Replace non-transparent area on destination with black */
if(!BitBlt(hdcDest, xDest, yDest, widthDest, heightDest, hdcMask, 0, 0, SRCAND)) {
TRACE("Failed to clear destination area\n");
goto error;
}
/* Draw the image */
if(!BitBlt(hdcDest, xDest, yDest, widthDest, heightDest, hdcWork, 0, 0, SRCPAINT)) {
TRACE("Failed to paint image\n");
goto error;
}
ret = TRUE;
error:
SetStretchBltMode(hdcSrc, oldStretchMode);
SetBkColor(hdcDest, oldBackground);
SetTextColor(hdcDest, oldForeground);
if(hdcWork) {
SelectObject(hdcWork, oldWork);
DeleteDC(hdcWork);
}
if(bmpWork) DeleteObject(bmpWork);
if(hdcMask) {
SelectObject(hdcMask, oldMask);
DeleteDC(hdcMask);
}
if(bmpMask) DeleteObject(bmpMask);
return ret;
}
/******************************************************************************
* GdiAlphaBlend [GDI32.@]
*/
BOOL WINAPI GdiAlphaBlend(HDC hdcDst, int xDst, int yDst, int widthDst, int heightDst,
HDC hdcSrc, int xSrc, int ySrc, int widthSrc, int heightSrc,
BLENDFUNCTION blendFunction)
{
BOOL ret = FALSE;
DC *dcDst, *dcSrc;
dcSrc = get_dc_ptr( hdcSrc );
if (!dcSrc) return FALSE;
if ((dcDst = get_dc_ptr( hdcDst )))
{
struct bitblt_coords src, dst;
update_dc( dcSrc );
update_dc( dcDst );
src.log_x = xSrc;
src.log_y = ySrc;
src.log_width = widthSrc;
src.log_height = heightSrc;
src.layout = dcSrc->layout;
dst.log_x = xDst;
dst.log_y = yDst;
dst.log_width = widthDst;
dst.log_height = heightDst;
dst.layout = dcDst->layout;
ret = !get_vis_rectangles( dcDst, &dst, dcSrc, &src );
TRACE("src %p log=%d,%d %dx%d phys=%d,%d %dx%d vis=%s dst %p log=%d,%d %dx%d phys=%d,%d %dx%d vis=%s blend=%02x/%02x/%02x/%02x\n",
hdcSrc, src.log_x, src.log_y, src.log_width, src.log_height,
src.x, src.y, src.width, src.height, wine_dbgstr_rect(&src.visrect),
hdcDst, dst.log_x, dst.log_y, dst.log_width, dst.log_height,
dst.x, dst.y, dst.width, dst.height, wine_dbgstr_rect(&dst.visrect),
blendFunction.BlendOp, blendFunction.BlendFlags,
blendFunction.SourceConstantAlpha, blendFunction.AlphaFormat );
if (src.x < 0 || src.y < 0 || src.width < 0 || src.height < 0 ||
src.log_width < 0 || src.log_height < 0 ||
(!is_rect_empty( &dcSrc->device_rect ) &&
(src.width > dcSrc->device_rect.right - dcSrc->vis_rect.left - src.x ||
src.height > dcSrc->device_rect.bottom - dcSrc->vis_rect.top - src.y)))
{
WARN( "Invalid src coords: (%d,%d), size %dx%d\n", src.x, src.y, src.width, src.height );
SetLastError( ERROR_INVALID_PARAMETER );
ret = FALSE;
}
else if (dst.log_width < 0 || dst.log_height < 0)
{
WARN( "Invalid dst coords: (%d,%d), size %dx%d\n",
dst.log_x, dst.log_y, dst.log_width, dst.log_height );
SetLastError( ERROR_INVALID_PARAMETER );
ret = FALSE;
}
else if (dcSrc == dcDst && src.x + src.width > dst.x && src.x < dst.x + dst.width &&
src.y + src.height > dst.y && src.y < dst.y + dst.height)
{
WARN( "Overlapping coords: (%d,%d), %dx%d and (%d,%d), %dx%d\n",
src.x, src.y, src.width, src.height, dst.x, dst.y, dst.width, dst.height );
SetLastError( ERROR_INVALID_PARAMETER );
ret = FALSE;
}
else if (!ret)
{
PHYSDEV src_dev = GET_DC_PHYSDEV( dcSrc, pAlphaBlend );
PHYSDEV dst_dev = GET_DC_PHYSDEV( dcDst, pAlphaBlend );
ret = dst_dev->funcs->pAlphaBlend( dst_dev, &dst, src_dev, &src, blendFunction );
}
release_dc_ptr( dcDst );
}
release_dc_ptr( dcSrc );
return ret;
}
/*********************************************************************
* PlgBlt [GDI32.@]
*
*/
BOOL WINAPI PlgBlt( HDC hdcDest, const POINT *lpPoint,
HDC hdcSrc, INT nXSrc, INT nYSrc, INT nWidth,
INT nHeight, HBITMAP hbmMask, INT xMask, INT yMask)
{
int oldgMode;
/* parallelogram coords */
POINT plg[3];
/* rect coords */
POINT rect[3];
XFORM xf;
XFORM SrcXf;
XFORM oldDestXf;
double det;
/* save actual mode, set GM_ADVANCED */
oldgMode = SetGraphicsMode(hdcDest,GM_ADVANCED);
if (oldgMode == 0)
return FALSE;
memcpy(plg,lpPoint,sizeof(POINT)*3);
rect[0].x = nXSrc;
rect[0].y = nYSrc;
rect[1].x = nXSrc + nWidth;
rect[1].y = nYSrc;
rect[2].x = nXSrc;
rect[2].y = nYSrc + nHeight;
/* calc XFORM matrix to transform hdcDest -> hdcSrc (parallelogram to rectangle) */
/* determinant */
det = rect[1].x*(rect[2].y - rect[0].y) - rect[2].x*(rect[1].y - rect[0].y) - rect[0].x*(rect[2].y - rect[1].y);
if (fabs(det) < 1e-5)
{
SetGraphicsMode(hdcDest,oldgMode);
return FALSE;
}
TRACE("hdcSrc=%p %d,%d,%dx%d -> hdcDest=%p %d,%d,%d,%d,%d,%d\n",
hdcSrc, nXSrc, nYSrc, nWidth, nHeight, hdcDest, plg[0].x, plg[0].y, plg[1].x, plg[1].y, plg[2].x, plg[2].y);
/* X components */
xf.eM11 = (plg[1].x*(rect[2].y - rect[0].y) - plg[2].x*(rect[1].y - rect[0].y) - plg[0].x*(rect[2].y - rect[1].y)) / det;
xf.eM21 = (rect[1].x*(plg[2].x - plg[0].x) - rect[2].x*(plg[1].x - plg[0].x) - rect[0].x*(plg[2].x - plg[1].x)) / det;
xf.eDx = (rect[0].x*(rect[1].y*plg[2].x - rect[2].y*plg[1].x) -
rect[1].x*(rect[0].y*plg[2].x - rect[2].y*plg[0].x) +
rect[2].x*(rect[0].y*plg[1].x - rect[1].y*plg[0].x)
) / det;
/* Y components */
xf.eM12 = (plg[1].y*(rect[2].y - rect[0].y) - plg[2].y*(rect[1].y - rect[0].y) - plg[0].y*(rect[2].y - rect[1].y)) / det;
xf.eM22 = (rect[1].x*(plg[2].y - plg[0].y) - rect[2].x*(plg[1].y - plg[0].y) - rect[0].x*(plg[2].y - plg[1].y)) / det;
xf.eDy = (rect[0].x*(rect[1].y*plg[2].y - rect[2].y*plg[1].y) -
rect[1].x*(rect[0].y*plg[2].y - rect[2].y*plg[0].y) +
rect[2].x*(rect[0].y*plg[1].y - rect[1].y*plg[0].y)
) / det;
GetWorldTransform(hdcSrc,&SrcXf);
CombineTransform(&xf,&xf,&SrcXf);
/* save actual dest transform */
GetWorldTransform(hdcDest,&oldDestXf);
SetWorldTransform(hdcDest,&xf);
/* now destination and source DCs use same coords */
MaskBlt(hdcDest,nXSrc,nYSrc,nWidth,nHeight,
hdcSrc, nXSrc,nYSrc,
hbmMask,xMask,yMask,
SRCCOPY);
/* restore dest DC */
SetWorldTransform(hdcDest,&oldDestXf);
SetGraphicsMode(hdcDest,oldgMode);
return TRUE;
}