Sweden-Number/dlls/gdi32/enhmetafile.c

2961 lines
89 KiB
C

/*
* Enhanced metafile functions
* Copyright 1998 Douglas Ridgway
* 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
*
* NOTES:
*
* The enhanced format consists of the following elements:
*
* A header
* A table of handles to GDI objects
* An array of metafile records
* A private palette
*
*
* The standard format consists of a header and an array of metafile records.
*
*/
#include <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "windef.h"
#include "winbase.h"
#include "wingdi.h"
#include "winnls.h"
#include "winerror.h"
#include "gdi_private.h"
#include "wine/debug.h"
WINE_DEFAULT_DEBUG_CHANNEL(enhmetafile);
typedef struct
{
struct gdi_obj_header obj;
ENHMETAHEADER *emh;
BOOL on_disk; /* true if metafile is on disk */
} ENHMETAFILEOBJ;
static const struct emr_name {
DWORD type;
const char *name;
} emr_names[] = {
#define X(p) {p, #p}
X(EMR_HEADER),
X(EMR_POLYBEZIER),
X(EMR_POLYGON),
X(EMR_POLYLINE),
X(EMR_POLYBEZIERTO),
X(EMR_POLYLINETO),
X(EMR_POLYPOLYLINE),
X(EMR_POLYPOLYGON),
X(EMR_SETWINDOWEXTEX),
X(EMR_SETWINDOWORGEX),
X(EMR_SETVIEWPORTEXTEX),
X(EMR_SETVIEWPORTORGEX),
X(EMR_SETBRUSHORGEX),
X(EMR_EOF),
X(EMR_SETPIXELV),
X(EMR_SETMAPPERFLAGS),
X(EMR_SETMAPMODE),
X(EMR_SETBKMODE),
X(EMR_SETPOLYFILLMODE),
X(EMR_SETROP2),
X(EMR_SETSTRETCHBLTMODE),
X(EMR_SETTEXTALIGN),
X(EMR_SETCOLORADJUSTMENT),
X(EMR_SETTEXTCOLOR),
X(EMR_SETBKCOLOR),
X(EMR_OFFSETCLIPRGN),
X(EMR_MOVETOEX),
X(EMR_SETMETARGN),
X(EMR_EXCLUDECLIPRECT),
X(EMR_INTERSECTCLIPRECT),
X(EMR_SCALEVIEWPORTEXTEX),
X(EMR_SCALEWINDOWEXTEX),
X(EMR_SAVEDC),
X(EMR_RESTOREDC),
X(EMR_SETWORLDTRANSFORM),
X(EMR_MODIFYWORLDTRANSFORM),
X(EMR_SELECTOBJECT),
X(EMR_CREATEPEN),
X(EMR_CREATEBRUSHINDIRECT),
X(EMR_DELETEOBJECT),
X(EMR_ANGLEARC),
X(EMR_ELLIPSE),
X(EMR_RECTANGLE),
X(EMR_ROUNDRECT),
X(EMR_ARC),
X(EMR_CHORD),
X(EMR_PIE),
X(EMR_SELECTPALETTE),
X(EMR_CREATEPALETTE),
X(EMR_SETPALETTEENTRIES),
X(EMR_RESIZEPALETTE),
X(EMR_REALIZEPALETTE),
X(EMR_EXTFLOODFILL),
X(EMR_LINETO),
X(EMR_ARCTO),
X(EMR_POLYDRAW),
X(EMR_SETARCDIRECTION),
X(EMR_SETMITERLIMIT),
X(EMR_BEGINPATH),
X(EMR_ENDPATH),
X(EMR_CLOSEFIGURE),
X(EMR_FILLPATH),
X(EMR_STROKEANDFILLPATH),
X(EMR_STROKEPATH),
X(EMR_FLATTENPATH),
X(EMR_WIDENPATH),
X(EMR_SELECTCLIPPATH),
X(EMR_ABORTPATH),
X(EMR_GDICOMMENT),
X(EMR_FILLRGN),
X(EMR_FRAMERGN),
X(EMR_INVERTRGN),
X(EMR_PAINTRGN),
X(EMR_EXTSELECTCLIPRGN),
X(EMR_BITBLT),
X(EMR_STRETCHBLT),
X(EMR_MASKBLT),
X(EMR_PLGBLT),
X(EMR_SETDIBITSTODEVICE),
X(EMR_STRETCHDIBITS),
X(EMR_EXTCREATEFONTINDIRECTW),
X(EMR_EXTTEXTOUTA),
X(EMR_EXTTEXTOUTW),
X(EMR_POLYBEZIER16),
X(EMR_POLYGON16),
X(EMR_POLYLINE16),
X(EMR_POLYBEZIERTO16),
X(EMR_POLYLINETO16),
X(EMR_POLYPOLYLINE16),
X(EMR_POLYPOLYGON16),
X(EMR_POLYDRAW16),
X(EMR_CREATEMONOBRUSH),
X(EMR_CREATEDIBPATTERNBRUSHPT),
X(EMR_EXTCREATEPEN),
X(EMR_POLYTEXTOUTA),
X(EMR_POLYTEXTOUTW),
X(EMR_SETICMMODE),
X(EMR_CREATECOLORSPACE),
X(EMR_SETCOLORSPACE),
X(EMR_DELETECOLORSPACE),
X(EMR_GLSRECORD),
X(EMR_GLSBOUNDEDRECORD),
X(EMR_PIXELFORMAT),
X(EMR_DRAWESCAPE),
X(EMR_EXTESCAPE),
X(EMR_STARTDOC),
X(EMR_SMALLTEXTOUT),
X(EMR_FORCEUFIMAPPING),
X(EMR_NAMEDESCAPE),
X(EMR_COLORCORRECTPALETTE),
X(EMR_SETICMPROFILEA),
X(EMR_SETICMPROFILEW),
X(EMR_ALPHABLEND),
X(EMR_SETLAYOUT),
X(EMR_TRANSPARENTBLT),
X(EMR_RESERVED_117),
X(EMR_GRADIENTFILL),
X(EMR_SETLINKEDUFI),
X(EMR_SETTEXTJUSTIFICATION),
X(EMR_COLORMATCHTOTARGETW),
X(EMR_CREATECOLORSPACEW)
#undef X
};
/****************************************************************************
* get_emr_name
*/
static const char *get_emr_name(DWORD type)
{
unsigned int i;
for(i = 0; i < ARRAY_SIZE(emr_names); i++)
if(type == emr_names[i].type) return emr_names[i].name;
TRACE("Unknown record type %d\n", type);
return NULL;
}
/***********************************************************************
* is_dib_monochrome
*
* Returns whether a DIB can be converted to a monochrome DDB.
*
* A DIB can be converted if its color table contains only black and
* white. Black must be the first color in the color table.
*
* Note : If the first color in the color table is white followed by
* black, we can't convert it to a monochrome DDB with
* SetDIBits, because black and white would be inverted.
*/
static inline BOOL is_dib_monochrome( const BITMAPINFO* info )
{
if (info->bmiHeader.biBitCount != 1) return FALSE;
if (info->bmiHeader.biSize == sizeof(BITMAPCOREHEADER))
{
const RGBTRIPLE *rgb = ((const BITMAPCOREINFO *) info)->bmciColors;
/* Check if the first color is black */
if ((rgb->rgbtRed == 0) && (rgb->rgbtGreen == 0) && (rgb->rgbtBlue == 0))
{
rgb++;
/* Check if the second color is white */
return ((rgb->rgbtRed == 0xff) && (rgb->rgbtGreen == 0xff)
&& (rgb->rgbtBlue == 0xff));
}
else return FALSE;
}
else /* assume BITMAPINFOHEADER */
{
const RGBQUAD *rgb = info->bmiColors;
/* Check if the first color is black */
if ((rgb->rgbRed == 0) && (rgb->rgbGreen == 0) &&
(rgb->rgbBlue == 0) && (rgb->rgbReserved == 0))
{
rgb++;
/* Check if the second color is white */
return ((rgb->rgbRed == 0xff) && (rgb->rgbGreen == 0xff)
&& (rgb->rgbBlue == 0xff) && (rgb->rgbReserved == 0));
}
else return FALSE;
}
}
/****************************************************************************
* EMF_Create_HENHMETAFILE
*/
HENHMETAFILE EMF_Create_HENHMETAFILE(ENHMETAHEADER *emh, DWORD filesize, BOOL on_disk )
{
HENHMETAFILE hmf;
ENHMETAFILEOBJ *metaObj;
if (filesize < sizeof(*emh))
{
WARN("File too small for emf header\n");
return 0;
}
if (emh->iType != EMR_HEADER)
{
SetLastError(ERROR_INVALID_DATA);
return 0;
}
if (emh->dSignature != ENHMETA_SIGNATURE ||
(emh->nBytes & 3)) /* refuse to load unaligned EMF as Windows does */
{
WARN("Invalid emf header type 0x%08x sig 0x%08x.\n",
emh->iType, emh->dSignature);
return 0;
}
if (filesize < emh->nBytes)
{
WARN("File truncated (got %u bytes, header says %u)\n", emh->nBytes, filesize);
return 0;
}
if (!(metaObj = HeapAlloc( GetProcessHeap(), 0, sizeof(*metaObj) ))) return 0;
metaObj->emh = emh;
metaObj->on_disk = on_disk;
if (!(hmf = alloc_gdi_handle( &metaObj->obj, NTGDI_OBJ_ENHMETAFILE, NULL )))
HeapFree( GetProcessHeap(), 0, metaObj );
return hmf;
}
/****************************************************************************
* EMF_Delete_HENHMETAFILE
*/
static BOOL EMF_Delete_HENHMETAFILE( HENHMETAFILE hmf )
{
ENHMETAFILEOBJ *metaObj = free_gdi_handle( hmf );
if(!metaObj) return FALSE;
if(metaObj->on_disk)
UnmapViewOfFile( metaObj->emh );
else
HeapFree( GetProcessHeap(), 0, metaObj->emh );
HeapFree( GetProcessHeap(), 0, metaObj );
return TRUE;
}
/******************************************************************
* EMF_GetEnhMetaHeader
*
* Returns ptr to ENHMETAHEADER associated with HENHMETAFILE
*/
static ENHMETAHEADER *EMF_GetEnhMetaHeader( HENHMETAFILE hmf )
{
ENHMETAHEADER *ret = NULL;
ENHMETAFILEOBJ *metaObj = GDI_GetObjPtr( hmf, NTGDI_OBJ_ENHMETAFILE );
TRACE("hmf %p -> enhmetaObj %p\n", hmf, metaObj);
if (metaObj)
{
ret = metaObj->emh;
GDI_ReleaseObj( hmf );
}
return ret;
}
/*****************************************************************************
* EMF_GetEnhMetaFile
*
*/
static HENHMETAFILE EMF_GetEnhMetaFile( HANDLE hFile )
{
ENHMETAHEADER *emh;
HANDLE hMapping;
HENHMETAFILE hemf;
DWORD filesize;
filesize = GetFileSize( hFile, NULL );
hMapping = CreateFileMappingA( hFile, NULL, PAGE_READONLY, 0, 0, NULL );
emh = MapViewOfFile( hMapping, FILE_MAP_READ, 0, 0, filesize );
CloseHandle( hMapping );
if (!emh) return 0;
hemf = EMF_Create_HENHMETAFILE( emh, filesize, TRUE );
if (!hemf)
UnmapViewOfFile( emh );
return hemf;
}
/*****************************************************************************
* GetEnhMetaFileA (GDI32.@)
*
*
*/
HENHMETAFILE WINAPI GetEnhMetaFileA(
LPCSTR lpszMetaFile /* [in] filename of enhanced metafile */
)
{
HENHMETAFILE hmf;
HANDLE hFile;
hFile = CreateFileA(lpszMetaFile, GENERIC_READ, FILE_SHARE_READ, 0,
OPEN_EXISTING, 0, 0);
if (hFile == INVALID_HANDLE_VALUE) {
WARN("could not open %s\n", lpszMetaFile);
return 0;
}
hmf = EMF_GetEnhMetaFile( hFile );
CloseHandle( hFile );
return hmf;
}
/*****************************************************************************
* GetEnhMetaFileW (GDI32.@)
*/
HENHMETAFILE WINAPI GetEnhMetaFileW(
LPCWSTR lpszMetaFile) /* [in] filename of enhanced metafile */
{
HENHMETAFILE hmf;
HANDLE hFile;
hFile = CreateFileW(lpszMetaFile, GENERIC_READ, FILE_SHARE_READ, 0,
OPEN_EXISTING, 0, 0);
if (hFile == INVALID_HANDLE_VALUE) {
WARN("could not open %s\n", debugstr_w(lpszMetaFile));
return 0;
}
hmf = EMF_GetEnhMetaFile( hFile );
CloseHandle( hFile );
return hmf;
}
/*****************************************************************************
* GetEnhMetaFileHeader (GDI32.@)
*
* Retrieves the record containing the header for the specified
* enhanced-format metafile.
*
* RETURNS
* If buf is NULL, returns the size of buffer required.
* Otherwise, copy up to bufsize bytes of enhanced metafile header into
* buf.
*/
UINT WINAPI GetEnhMetaFileHeader(
HENHMETAFILE hmf, /* [in] enhanced metafile */
UINT bufsize, /* [in] size of buffer */
LPENHMETAHEADER buf /* [out] buffer */
)
{
LPENHMETAHEADER emh;
UINT size;
emh = EMF_GetEnhMetaHeader(hmf);
if(!emh) return FALSE;
size = emh->nSize;
if (!buf) return size;
size = min(size, bufsize);
memmove(buf, emh, size);
return size;
}
/*****************************************************************************
* GetEnhMetaFileDescriptionA (GDI32.@)
*
* See GetEnhMetaFileDescriptionW.
*/
UINT WINAPI GetEnhMetaFileDescriptionA(
HENHMETAFILE hmf, /* [in] enhanced metafile */
UINT size, /* [in] size of buf */
LPSTR buf /* [out] buffer to receive description */
)
{
LPENHMETAHEADER emh = EMF_GetEnhMetaHeader(hmf);
DWORD len;
WCHAR *descrW;
if(!emh) return FALSE;
if(emh->nDescription == 0 || emh->offDescription == 0) return 0;
descrW = (WCHAR *) ((char *) emh + emh->offDescription);
len = WideCharToMultiByte( CP_ACP, 0, descrW, emh->nDescription, NULL, 0, NULL, NULL );
if (!buf || !size ) return len;
len = min( size, len );
WideCharToMultiByte( CP_ACP, 0, descrW, emh->nDescription, buf, len, NULL, NULL );
return len;
}
/*****************************************************************************
* GetEnhMetaFileDescriptionW (GDI32.@)
*
* Copies the description string of an enhanced metafile into a buffer
* _buf_.
*
* RETURNS
* If _buf_ is NULL, returns size of _buf_ required. Otherwise, returns
* number of characters copied.
*/
UINT WINAPI GetEnhMetaFileDescriptionW(
HENHMETAFILE hmf, /* [in] enhanced metafile */
UINT size, /* [in] size of buf */
LPWSTR buf /* [out] buffer to receive description */
)
{
LPENHMETAHEADER emh = EMF_GetEnhMetaHeader(hmf);
if(!emh) return FALSE;
if(emh->nDescription == 0 || emh->offDescription == 0) return 0;
if (!buf || !size ) return emh->nDescription;
memmove(buf, (char *) emh + emh->offDescription, min(size,emh->nDescription)*sizeof(WCHAR));
return min(size, emh->nDescription);
}
/****************************************************************************
* SetEnhMetaFileBits (GDI32.@)
*
* Creates an enhanced metafile by copying _bufsize_ bytes from _buf_.
*/
HENHMETAFILE WINAPI SetEnhMetaFileBits(UINT bufsize, const BYTE *buf)
{
ENHMETAHEADER *emh = HeapAlloc( GetProcessHeap(), 0, bufsize );
HENHMETAFILE hmf;
if (!emh) return 0;
memcpy(emh, buf, bufsize);
hmf = EMF_Create_HENHMETAFILE( emh, bufsize, FALSE );
if (!hmf)
HeapFree( GetProcessHeap(), 0, emh );
return hmf;
}
/*****************************************************************************
* GetEnhMetaFileBits (GDI32.@)
*
*/
UINT WINAPI GetEnhMetaFileBits(
HENHMETAFILE hmf,
UINT bufsize,
LPBYTE buf
)
{
LPENHMETAHEADER emh = EMF_GetEnhMetaHeader( hmf );
UINT size;
if(!emh) return 0;
size = emh->nBytes;
if( buf == NULL ) return size;
size = min( size, bufsize );
memmove(buf, emh, size);
return size;
}
typedef struct EMF_dc_state
{
INT mode;
XFORM world_transform;
INT wndOrgX;
INT wndOrgY;
INT wndExtX;
INT wndExtY;
INT vportOrgX;
INT vportOrgY;
INT vportExtX;
INT vportExtY;
struct EMF_dc_state *next;
} EMF_dc_state;
typedef struct enum_emh_data
{
XFORM init_transform;
EMF_dc_state state;
INT save_level;
EMF_dc_state *saved_state;
} enum_emh_data;
#define ENUM_GET_PRIVATE_DATA(ht) \
((enum_emh_data*)(((unsigned char*)(ht))-sizeof (enum_emh_data)))
#define WIDTH(rect) ( (rect).right - (rect).left )
#define HEIGHT(rect) ( (rect).bottom - (rect).top )
#define IS_WIN9X() (GetVersion()&0x80000000)
static void EMF_Update_MF_Xform(HDC hdc, const enum_emh_data *info)
{
XFORM mapping_mode_trans, final_trans;
double scaleX, scaleY;
scaleX = (double)info->state.vportExtX / (double)info->state.wndExtX;
scaleY = (double)info->state.vportExtY / (double)info->state.wndExtY;
mapping_mode_trans.eM11 = scaleX;
mapping_mode_trans.eM12 = 0.0;
mapping_mode_trans.eM21 = 0.0;
mapping_mode_trans.eM22 = scaleY;
mapping_mode_trans.eDx = (double)info->state.vportOrgX - scaleX * (double)info->state.wndOrgX;
mapping_mode_trans.eDy = (double)info->state.vportOrgY - scaleY * (double)info->state.wndOrgY;
CombineTransform(&final_trans, &info->state.world_transform, &mapping_mode_trans);
CombineTransform(&final_trans, &final_trans, &info->init_transform);
if (!SetWorldTransform(hdc, &final_trans))
{
ERR("World transform failed!\n");
}
}
static void EMF_RestoreDC( enum_emh_data *info, INT level )
{
if (abs(level) > info->save_level || level == 0) return;
if (level < 0) level = info->save_level + level + 1;
while (info->save_level >= level)
{
EMF_dc_state *state = info->saved_state;
info->saved_state = state->next;
state->next = NULL;
if (--info->save_level < level)
info->state = *state;
HeapFree( GetProcessHeap(), 0, state );
}
}
static void EMF_SaveDC( enum_emh_data *info )
{
EMF_dc_state *state = HeapAlloc( GetProcessHeap(), 0, sizeof(*state));
if (state)
{
*state = info->state;
state->next = info->saved_state;
info->saved_state = state;
info->save_level++;
TRACE("save_level %d\n", info->save_level);
}
}
static void EMF_SetMapMode(HDC hdc, enum_emh_data *info)
{
INT horzSize = GetDeviceCaps( hdc, HORZSIZE );
INT vertSize = GetDeviceCaps( hdc, VERTSIZE );
INT horzRes = GetDeviceCaps( hdc, HORZRES );
INT vertRes = GetDeviceCaps( hdc, VERTRES );
TRACE("%d\n", info->state.mode);
switch(info->state.mode)
{
case MM_TEXT:
info->state.wndExtX = 1;
info->state.wndExtY = 1;
info->state.vportExtX = 1;
info->state.vportExtY = 1;
break;
case MM_LOMETRIC:
case MM_ISOTROPIC:
info->state.wndExtX = horzSize * 10;
info->state.wndExtY = vertSize * 10;
info->state.vportExtX = horzRes;
info->state.vportExtY = -vertRes;
break;
case MM_HIMETRIC:
info->state.wndExtX = horzSize * 100;
info->state.wndExtY = vertSize * 100;
info->state.vportExtX = horzRes;
info->state.vportExtY = -vertRes;
break;
case MM_LOENGLISH:
info->state.wndExtX = MulDiv(1000, horzSize, 254);
info->state.wndExtY = MulDiv(1000, vertSize, 254);
info->state.vportExtX = horzRes;
info->state.vportExtY = -vertRes;
break;
case MM_HIENGLISH:
info->state.wndExtX = MulDiv(10000, horzSize, 254);
info->state.wndExtY = MulDiv(10000, vertSize, 254);
info->state.vportExtX = horzRes;
info->state.vportExtY = -vertRes;
break;
case MM_TWIPS:
info->state.wndExtX = MulDiv(14400, horzSize, 254);
info->state.wndExtY = MulDiv(14400, vertSize, 254);
info->state.vportExtX = horzRes;
info->state.vportExtY = -vertRes;
break;
case MM_ANISOTROPIC:
break;
default:
return;
}
}
/***********************************************************************
* EMF_FixIsotropic
*
* Fix viewport extensions for isotropic mode.
*/
static void EMF_FixIsotropic(HDC hdc, enum_emh_data *info)
{
double xdim = fabs((double)info->state.vportExtX * GetDeviceCaps( hdc, HORZSIZE ) /
(GetDeviceCaps( hdc, HORZRES ) * info->state.wndExtX));
double ydim = fabs((double)info->state.vportExtY * GetDeviceCaps( hdc, VERTSIZE ) /
(GetDeviceCaps( hdc, VERTRES ) * info->state.wndExtY));
if (xdim > ydim)
{
INT mincx = (info->state.vportExtX >= 0) ? 1 : -1;
info->state.vportExtX = floor(info->state.vportExtX * ydim / xdim + 0.5);
if (!info->state.vportExtX) info->state.vportExtX = mincx;
}
else
{
INT mincy = (info->state.vportExtY >= 0) ? 1 : -1;
info->state.vportExtY = floor(info->state.vportExtY * xdim / ydim + 0.5);
if (!info->state.vportExtY) info->state.vportExtY = mincy;
}
}
/*****************************************************************************
* emr_produces_output
*
* Returns TRUE if the record type writes something to the dc. Used by
* PlayEnhMetaFileRecord to determine whether it needs to update the
* dc's xform when in win9x mode.
*
* FIXME: need to test which records should be here.
*/
static BOOL emr_produces_output(int type)
{
switch(type) {
case EMR_POLYBEZIER:
case EMR_POLYGON:
case EMR_POLYLINE:
case EMR_POLYBEZIERTO:
case EMR_POLYLINETO:
case EMR_POLYPOLYLINE:
case EMR_POLYPOLYGON:
case EMR_SETPIXELV:
case EMR_MOVETOEX:
case EMR_EXCLUDECLIPRECT:
case EMR_INTERSECTCLIPRECT:
case EMR_SELECTOBJECT:
case EMR_ANGLEARC:
case EMR_ELLIPSE:
case EMR_RECTANGLE:
case EMR_ROUNDRECT:
case EMR_ARC:
case EMR_CHORD:
case EMR_PIE:
case EMR_EXTFLOODFILL:
case EMR_LINETO:
case EMR_ARCTO:
case EMR_POLYDRAW:
case EMR_GDICOMMENT:
case EMR_FILLRGN:
case EMR_FRAMERGN:
case EMR_INVERTRGN:
case EMR_PAINTRGN:
case EMR_BITBLT:
case EMR_STRETCHBLT:
case EMR_MASKBLT:
case EMR_PLGBLT:
case EMR_SETDIBITSTODEVICE:
case EMR_STRETCHDIBITS:
case EMR_EXTTEXTOUTA:
case EMR_EXTTEXTOUTW:
case EMR_POLYBEZIER16:
case EMR_POLYGON16:
case EMR_POLYLINE16:
case EMR_POLYBEZIERTO16:
case EMR_POLYLINETO16:
case EMR_POLYPOLYLINE16:
case EMR_POLYPOLYGON16:
case EMR_POLYDRAW16:
case EMR_POLYTEXTOUTA:
case EMR_POLYTEXTOUTW:
case EMR_SMALLTEXTOUT:
case EMR_ALPHABLEND:
case EMR_TRANSPARENTBLT:
return TRUE;
default:
return FALSE;
}
}
/*****************************************************************************
* PlayEnhMetaFileRecord (GDI32.@)
*
* Render a single enhanced metafile record in the device context hdc.
*
* RETURNS
* TRUE (non zero) on success, FALSE on error.
* BUGS
* Many unimplemented records.
* No error handling on record play failures (ie checking return codes)
*
* NOTES
* WinNT actually updates the current world transform in this function
* whereas Win9x does not.
*/
BOOL WINAPI PlayEnhMetaFileRecord(
HDC hdc, /* [in] device context in which to render EMF record */
LPHANDLETABLE handletable, /* [in] array of handles to be used in rendering record */
const ENHMETARECORD *mr, /* [in] EMF record to render */
UINT handles /* [in] size of handle array */
)
{
int type;
RECT tmprc;
enum_emh_data *info = ENUM_GET_PRIVATE_DATA(handletable);
TRACE("hdc = %p, handletable = %p, record = %p, numHandles = %d\n",
hdc, handletable, mr, handles);
if (!mr) return FALSE;
type = mr->iType;
TRACE("record %s\n", get_emr_name(type));
switch(type)
{
case EMR_HEADER:
break;
case EMR_EOF:
break;
case EMR_GDICOMMENT:
{
const EMRGDICOMMENT *lpGdiComment = (const EMRGDICOMMENT *)mr;
/* In an enhanced metafile, there can be both public and private GDI comments */
GdiComment( hdc, lpGdiComment->cbData, lpGdiComment->Data );
break;
}
case EMR_SETMAPMODE:
{
const EMRSETMAPMODE *pSetMapMode = (const EMRSETMAPMODE *)mr;
if (info->state.mode == pSetMapMode->iMode &&
(info->state.mode == MM_ISOTROPIC || info->state.mode == MM_ANISOTROPIC))
break;
info->state.mode = pSetMapMode->iMode;
EMF_SetMapMode(hdc, info);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_SETBKMODE:
{
const EMRSETBKMODE *pSetBkMode = (const EMRSETBKMODE *)mr;
SetBkMode(hdc, pSetBkMode->iMode);
break;
}
case EMR_SETBKCOLOR:
{
const EMRSETBKCOLOR *pSetBkColor = (const EMRSETBKCOLOR *)mr;
SetBkColor(hdc, pSetBkColor->crColor);
break;
}
case EMR_SETPOLYFILLMODE:
{
const EMRSETPOLYFILLMODE *pSetPolyFillMode = (const EMRSETPOLYFILLMODE *)mr;
SetPolyFillMode(hdc, pSetPolyFillMode->iMode);
break;
}
case EMR_SETROP2:
{
const EMRSETROP2 *pSetROP2 = (const EMRSETROP2 *)mr;
SetROP2(hdc, pSetROP2->iMode);
break;
}
case EMR_SETSTRETCHBLTMODE:
{
const EMRSETSTRETCHBLTMODE *pSetStretchBltMode = (const EMRSETSTRETCHBLTMODE *)mr;
SetStretchBltMode(hdc, pSetStretchBltMode->iMode);
break;
}
case EMR_SETTEXTALIGN:
{
const EMRSETTEXTALIGN *pSetTextAlign = (const EMRSETTEXTALIGN *)mr;
SetTextAlign(hdc, pSetTextAlign->iMode);
break;
}
case EMR_SETTEXTCOLOR:
{
const EMRSETTEXTCOLOR *pSetTextColor = (const EMRSETTEXTCOLOR *)mr;
SetTextColor(hdc, pSetTextColor->crColor);
break;
}
case EMR_SAVEDC:
{
if (SaveDC( hdc ))
EMF_SaveDC( info );
break;
}
case EMR_RESTOREDC:
{
const EMRRESTOREDC *pRestoreDC = (const EMRRESTOREDC *)mr;
TRACE("EMR_RESTORE: %d\n", pRestoreDC->iRelative);
if (RestoreDC( hdc, pRestoreDC->iRelative ))
EMF_RestoreDC( info, pRestoreDC->iRelative );
break;
}
case EMR_INTERSECTCLIPRECT:
{
const EMRINTERSECTCLIPRECT *pClipRect = (const EMRINTERSECTCLIPRECT *)mr;
TRACE("EMR_INTERSECTCLIPRECT: rect %d,%d - %d, %d\n",
pClipRect->rclClip.left, pClipRect->rclClip.top,
pClipRect->rclClip.right, pClipRect->rclClip.bottom);
IntersectClipRect(hdc, pClipRect->rclClip.left, pClipRect->rclClip.top,
pClipRect->rclClip.right, pClipRect->rclClip.bottom);
break;
}
case EMR_SELECTOBJECT:
{
const EMRSELECTOBJECT *pSelectObject = (const EMRSELECTOBJECT *)mr;
if( pSelectObject->ihObject & 0x80000000 ) {
/* High order bit is set - it's a stock object
* Strip the high bit to get the index.
* See MSDN article Q142319
*/
SelectObject( hdc, GetStockObject( pSelectObject->ihObject &
0x7fffffff ) );
} else {
/* High order bit wasn't set - not a stock object
*/
SelectObject( hdc,
(handletable->objectHandle)[pSelectObject->ihObject] );
}
break;
}
case EMR_DELETEOBJECT:
{
const EMRDELETEOBJECT *pDeleteObject = (const EMRDELETEOBJECT *)mr;
DeleteObject( (handletable->objectHandle)[pDeleteObject->ihObject]);
(handletable->objectHandle)[pDeleteObject->ihObject] = 0;
break;
}
case EMR_SETWINDOWORGEX:
{
const EMRSETWINDOWORGEX *pSetWindowOrgEx = (const EMRSETWINDOWORGEX *)mr;
info->state.wndOrgX = pSetWindowOrgEx->ptlOrigin.x;
info->state.wndOrgY = pSetWindowOrgEx->ptlOrigin.y;
TRACE("SetWindowOrgEx: %d,%d\n", info->state.wndOrgX, info->state.wndOrgY);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_SETWINDOWEXTEX:
{
const EMRSETWINDOWEXTEX *pSetWindowExtEx = (const EMRSETWINDOWEXTEX *)mr;
if (info->state.mode != MM_ISOTROPIC && info->state.mode != MM_ANISOTROPIC)
break;
info->state.wndExtX = pSetWindowExtEx->szlExtent.cx;
info->state.wndExtY = pSetWindowExtEx->szlExtent.cy;
if (info->state.mode == MM_ISOTROPIC)
EMF_FixIsotropic(hdc, info);
TRACE("SetWindowExtEx: %d,%d\n",info->state.wndExtX, info->state.wndExtY);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_SETVIEWPORTORGEX:
{
const EMRSETVIEWPORTORGEX *pSetViewportOrgEx = (const EMRSETVIEWPORTORGEX *)mr;
info->state.vportOrgX = pSetViewportOrgEx->ptlOrigin.x;
info->state.vportOrgY = pSetViewportOrgEx->ptlOrigin.y;
TRACE("SetViewportOrgEx: %d,%d\n", info->state.vportOrgX, info->state.vportOrgY);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_SETVIEWPORTEXTEX:
{
const EMRSETVIEWPORTEXTEX *pSetViewportExtEx = (const EMRSETVIEWPORTEXTEX *)mr;
if (info->state.mode != MM_ISOTROPIC && info->state.mode != MM_ANISOTROPIC)
break;
info->state.vportExtX = pSetViewportExtEx->szlExtent.cx;
info->state.vportExtY = pSetViewportExtEx->szlExtent.cy;
if (info->state.mode == MM_ISOTROPIC)
EMF_FixIsotropic(hdc, info);
TRACE("SetViewportExtEx: %d,%d\n", info->state.vportExtX, info->state.vportExtY);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_CREATEPEN:
{
const EMRCREATEPEN *pCreatePen = (const EMRCREATEPEN *)mr;
(handletable->objectHandle)[pCreatePen->ihPen] =
CreatePenIndirect(&pCreatePen->lopn);
break;
}
case EMR_EXTCREATEPEN:
{
const EMREXTCREATEPEN *pPen = (const EMREXTCREATEPEN *)mr;
LOGBRUSH lb;
lb.lbStyle = pPen->elp.elpBrushStyle;
lb.lbColor = pPen->elp.elpColor;
lb.lbHatch = pPen->elp.elpHatch;
if(pPen->offBmi || pPen->offBits)
FIXME("EMR_EXTCREATEPEN: Need to copy brush bitmap\n");
(handletable->objectHandle)[pPen->ihPen] =
ExtCreatePen(pPen->elp.elpPenStyle, pPen->elp.elpWidth, &lb,
pPen->elp.elpNumEntries, pPen->elp.elpNumEntries ? pPen->elp.elpStyleEntry : NULL);
break;
}
case EMR_CREATEBRUSHINDIRECT:
{
const EMRCREATEBRUSHINDIRECT *pBrush = (const EMRCREATEBRUSHINDIRECT *)mr;
LOGBRUSH brush;
brush.lbStyle = pBrush->lb.lbStyle;
brush.lbColor = pBrush->lb.lbColor;
brush.lbHatch = pBrush->lb.lbHatch;
(handletable->objectHandle)[pBrush->ihBrush] = CreateBrushIndirect(&brush);
break;
}
case EMR_EXTCREATEFONTINDIRECTW:
{
const EMREXTCREATEFONTINDIRECTW *pFont = (const EMREXTCREATEFONTINDIRECTW *)mr;
(handletable->objectHandle)[pFont->ihFont] =
CreateFontIndirectW(&pFont->elfw.elfLogFont);
break;
}
case EMR_MOVETOEX:
{
const EMRMOVETOEX *pMoveToEx = (const EMRMOVETOEX *)mr;
MoveToEx(hdc, pMoveToEx->ptl.x, pMoveToEx->ptl.y, NULL);
break;
}
case EMR_LINETO:
{
const EMRLINETO *pLineTo = (const EMRLINETO *)mr;
LineTo(hdc, pLineTo->ptl.x, pLineTo->ptl.y);
break;
}
case EMR_RECTANGLE:
{
const EMRRECTANGLE *pRect = (const EMRRECTANGLE *)mr;
Rectangle(hdc, pRect->rclBox.left, pRect->rclBox.top,
pRect->rclBox.right, pRect->rclBox.bottom);
break;
}
case EMR_ELLIPSE:
{
const EMRELLIPSE *pEllipse = (const EMRELLIPSE *)mr;
Ellipse(hdc, pEllipse->rclBox.left, pEllipse->rclBox.top,
pEllipse->rclBox.right, pEllipse->rclBox.bottom);
break;
}
case EMR_POLYGON16:
{
const EMRPOLYGON16 *pPoly = (const EMRPOLYGON16 *)mr;
/* Shouldn't use Polygon16 since pPoly->cpts is DWORD */
POINT *pts = HeapAlloc( GetProcessHeap(), 0,
pPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPoly->cpts; i++)
{
pts[i].x = pPoly->apts[i].x;
pts[i].y = pPoly->apts[i].y;
}
Polygon(hdc, pts, pPoly->cpts);
HeapFree( GetProcessHeap(), 0, pts );
break;
}
case EMR_POLYLINE16:
{
const EMRPOLYLINE16 *pPoly = (const EMRPOLYLINE16 *)mr;
/* Shouldn't use Polyline16 since pPoly->cpts is DWORD */
POINT *pts = HeapAlloc( GetProcessHeap(), 0,
pPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPoly->cpts; i++)
{
pts[i].x = pPoly->apts[i].x;
pts[i].y = pPoly->apts[i].y;
}
Polyline(hdc, pts, pPoly->cpts);
HeapFree( GetProcessHeap(), 0, pts );
break;
}
case EMR_POLYLINETO16:
{
const EMRPOLYLINETO16 *pPoly = (const EMRPOLYLINETO16 *)mr;
/* Shouldn't use PolylineTo16 since pPoly->cpts is DWORD */
POINT *pts = HeapAlloc( GetProcessHeap(), 0,
pPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPoly->cpts; i++)
{
pts[i].x = pPoly->apts[i].x;
pts[i].y = pPoly->apts[i].y;
}
PolylineTo(hdc, pts, pPoly->cpts);
HeapFree( GetProcessHeap(), 0, pts );
break;
}
case EMR_POLYBEZIER16:
{
const EMRPOLYBEZIER16 *pPoly = (const EMRPOLYBEZIER16 *)mr;
/* Shouldn't use PolyBezier16 since pPoly->cpts is DWORD */
POINT *pts = HeapAlloc( GetProcessHeap(), 0,
pPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPoly->cpts; i++)
{
pts[i].x = pPoly->apts[i].x;
pts[i].y = pPoly->apts[i].y;
}
PolyBezier(hdc, pts, pPoly->cpts);
HeapFree( GetProcessHeap(), 0, pts );
break;
}
case EMR_POLYBEZIERTO16:
{
const EMRPOLYBEZIERTO16 *pPoly = (const EMRPOLYBEZIERTO16 *)mr;
/* Shouldn't use PolyBezierTo16 since pPoly->cpts is DWORD */
POINT *pts = HeapAlloc( GetProcessHeap(), 0,
pPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPoly->cpts; i++)
{
pts[i].x = pPoly->apts[i].x;
pts[i].y = pPoly->apts[i].y;
}
PolyBezierTo(hdc, pts, pPoly->cpts);
HeapFree( GetProcessHeap(), 0, pts );
break;
}
case EMR_POLYPOLYGON16:
{
const EMRPOLYPOLYGON16 *pPolyPoly = (const EMRPOLYPOLYGON16 *)mr;
/* NB POINTS array doesn't start at pPolyPoly->apts it's actually
pPolyPoly->aPolyCounts + pPolyPoly->nPolys */
const POINTS *pts = (const POINTS *)(pPolyPoly->aPolyCounts + pPolyPoly->nPolys);
POINT *pt = HeapAlloc( GetProcessHeap(), 0, pPolyPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPolyPoly->cpts; i++)
{
pt[i].x = pts[i].x;
pt[i].y = pts[i].y;
}
PolyPolygon(hdc, pt, (const INT*)pPolyPoly->aPolyCounts, pPolyPoly->nPolys);
HeapFree( GetProcessHeap(), 0, pt );
break;
}
case EMR_POLYPOLYLINE16:
{
const EMRPOLYPOLYLINE16 *pPolyPoly = (const EMRPOLYPOLYLINE16 *)mr;
/* NB POINTS array doesn't start at pPolyPoly->apts it's actually
pPolyPoly->aPolyCounts + pPolyPoly->nPolys */
const POINTS *pts = (const POINTS *)(pPolyPoly->aPolyCounts + pPolyPoly->nPolys);
POINT *pt = HeapAlloc( GetProcessHeap(), 0, pPolyPoly->cpts * sizeof(POINT) );
DWORD i;
for(i = 0; i < pPolyPoly->cpts; i++)
{
pt[i].x = pts[i].x;
pt[i].y = pts[i].y;
}
PolyPolyline(hdc, pt, pPolyPoly->aPolyCounts, pPolyPoly->nPolys);
HeapFree( GetProcessHeap(), 0, pt );
break;
}
case EMR_POLYDRAW16:
{
const EMRPOLYDRAW16 *pPolyDraw16 = (const EMRPOLYDRAW16 *)mr;
const POINTS *ptl = pPolyDraw16->apts;
POINT *pts = HeapAlloc(GetProcessHeap(), 0, pPolyDraw16->cpts * sizeof(POINT));
DWORD i;
/* NB abTypes array doesn't start at pPolyDraw16->abTypes. It's actually
pPolyDraw16->apts + pPolyDraw16->cpts. */
const BYTE *types = (BYTE*)(pPolyDraw16->apts + pPolyDraw16->cpts);
if (!pts)
break;
for (i = 0; i < pPolyDraw16->cpts; ++i)
{
pts[i].x = ptl[i].x;
pts[i].y = ptl[i].y;
}
PolyDraw(hdc, pts, types, pPolyDraw16->cpts);
HeapFree(GetProcessHeap(), 0, pts);
break;
}
case EMR_STRETCHDIBITS:
{
const EMRSTRETCHDIBITS *pStretchDIBits = (const EMRSTRETCHDIBITS *)mr;
StretchDIBits(hdc,
pStretchDIBits->xDest,
pStretchDIBits->yDest,
pStretchDIBits->cxDest,
pStretchDIBits->cyDest,
pStretchDIBits->xSrc,
pStretchDIBits->ySrc,
pStretchDIBits->cxSrc,
pStretchDIBits->cySrc,
(const BYTE *)mr + pStretchDIBits->offBitsSrc,
(const BITMAPINFO *)((const BYTE *)mr + pStretchDIBits->offBmiSrc),
pStretchDIBits->iUsageSrc,
pStretchDIBits->dwRop);
break;
}
case EMR_EXTTEXTOUTA:
{
const EMREXTTEXTOUTA *pExtTextOutA = (const EMREXTTEXTOUTA *)mr;
RECT rc;
const INT *dx = NULL;
int old_mode;
rc.left = pExtTextOutA->emrtext.rcl.left;
rc.top = pExtTextOutA->emrtext.rcl.top;
rc.right = pExtTextOutA->emrtext.rcl.right;
rc.bottom = pExtTextOutA->emrtext.rcl.bottom;
TRACE("EMR_EXTTEXTOUTA: x,y = %d, %d. rect = %s. flags %08x\n",
pExtTextOutA->emrtext.ptlReference.x, pExtTextOutA->emrtext.ptlReference.y,
wine_dbgstr_rect(&rc), pExtTextOutA->emrtext.fOptions);
old_mode = SetGraphicsMode(hdc, pExtTextOutA->iGraphicsMode);
/* Reselect the font back into the dc so that the transformation
gets updated. */
SelectObject(hdc, GetCurrentObject(hdc, OBJ_FONT));
/* Linux version of pstoedit produces EMFs with offDx set to 0.
* These files can be enumerated and played under Win98 just
* fine, but at least Win2k chokes on them.
*/
if (pExtTextOutA->emrtext.offDx)
dx = (const INT *)((const BYTE *)mr + pExtTextOutA->emrtext.offDx);
ExtTextOutA(hdc, pExtTextOutA->emrtext.ptlReference.x, pExtTextOutA->emrtext.ptlReference.y,
pExtTextOutA->emrtext.fOptions, &rc,
(LPCSTR)((const BYTE *)mr + pExtTextOutA->emrtext.offString), pExtTextOutA->emrtext.nChars,
dx);
SetGraphicsMode(hdc, old_mode);
break;
}
case EMR_EXTTEXTOUTW:
{
const EMREXTTEXTOUTW *pExtTextOutW = (const EMREXTTEXTOUTW *)mr;
RECT rc;
const INT *dx = NULL;
int old_mode;
rc.left = pExtTextOutW->emrtext.rcl.left;
rc.top = pExtTextOutW->emrtext.rcl.top;
rc.right = pExtTextOutW->emrtext.rcl.right;
rc.bottom = pExtTextOutW->emrtext.rcl.bottom;
TRACE("EMR_EXTTEXTOUTW: x,y = %d, %d. rect = %s. flags %08x\n",
pExtTextOutW->emrtext.ptlReference.x, pExtTextOutW->emrtext.ptlReference.y,
wine_dbgstr_rect(&rc), pExtTextOutW->emrtext.fOptions);
old_mode = SetGraphicsMode(hdc, pExtTextOutW->iGraphicsMode);
/* Reselect the font back into the dc so that the transformation
gets updated. */
SelectObject(hdc, GetCurrentObject(hdc, OBJ_FONT));
/* Linux version of pstoedit produces EMFs with offDx set to 0.
* These files can be enumerated and played under Win98 just
* fine, but at least Win2k chokes on them.
*/
if (pExtTextOutW->emrtext.offDx)
dx = (const INT *)((const BYTE *)mr + pExtTextOutW->emrtext.offDx);
ExtTextOutW(hdc, pExtTextOutW->emrtext.ptlReference.x, pExtTextOutW->emrtext.ptlReference.y,
pExtTextOutW->emrtext.fOptions, &rc,
(LPCWSTR)((const BYTE *)mr + pExtTextOutW->emrtext.offString), pExtTextOutW->emrtext.nChars,
dx);
SetGraphicsMode(hdc, old_mode);
break;
}
case EMR_CREATEPALETTE:
{
const EMRCREATEPALETTE *lpCreatePal = (const EMRCREATEPALETTE *)mr;
(handletable->objectHandle)[ lpCreatePal->ihPal ] =
CreatePalette( &lpCreatePal->lgpl );
break;
}
case EMR_SELECTPALETTE:
{
const EMRSELECTPALETTE *lpSelectPal = (const EMRSELECTPALETTE *)mr;
if( lpSelectPal->ihPal & 0x80000000 ) {
SelectPalette( hdc, GetStockObject(lpSelectPal->ihPal & 0x7fffffff), TRUE);
} else {
SelectPalette( hdc, (handletable->objectHandle)[lpSelectPal->ihPal], TRUE);
}
break;
}
case EMR_REALIZEPALETTE:
{
RealizePalette( hdc );
break;
}
case EMR_EXTSELECTCLIPRGN:
{
const EMREXTSELECTCLIPRGN *lpRgn = (const EMREXTSELECTCLIPRGN *)mr;
HRGN hRgn = 0;
if (mr->nSize >= sizeof(*lpRgn) + sizeof(RGNDATAHEADER))
hRgn = ExtCreateRegion( &info->init_transform, 0, (const RGNDATA *)lpRgn->RgnData );
ExtSelectClipRgn(hdc, hRgn, (INT)(lpRgn->iMode));
/* ExtSelectClipRgn created a copy of the region */
DeleteObject(hRgn);
break;
}
case EMR_SETMETARGN:
{
SetMetaRgn( hdc );
break;
}
case EMR_SETWORLDTRANSFORM:
{
const EMRSETWORLDTRANSFORM *lpXfrm = (const EMRSETWORLDTRANSFORM *)mr;
info->state.world_transform = lpXfrm->xform;
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_POLYBEZIER:
{
const EMRPOLYBEZIER *lpPolyBez = (const EMRPOLYBEZIER *)mr;
PolyBezier(hdc, (const POINT*)lpPolyBez->aptl, (UINT)lpPolyBez->cptl);
break;
}
case EMR_POLYGON:
{
const EMRPOLYGON *lpPoly = (const EMRPOLYGON *)mr;
Polygon( hdc, (const POINT*)lpPoly->aptl, (UINT)lpPoly->cptl );
break;
}
case EMR_POLYLINE:
{
const EMRPOLYLINE *lpPolyLine = (const EMRPOLYLINE *)mr;
Polyline(hdc, (const POINT*)lpPolyLine->aptl, (UINT)lpPolyLine->cptl);
break;
}
case EMR_POLYBEZIERTO:
{
const EMRPOLYBEZIERTO *lpPolyBezierTo = (const EMRPOLYBEZIERTO *)mr;
PolyBezierTo( hdc, (const POINT*)lpPolyBezierTo->aptl,
(UINT)lpPolyBezierTo->cptl );
break;
}
case EMR_POLYLINETO:
{
const EMRPOLYLINETO *lpPolyLineTo = (const EMRPOLYLINETO *)mr;
PolylineTo( hdc, (const POINT*)lpPolyLineTo->aptl,
(UINT)lpPolyLineTo->cptl );
break;
}
case EMR_POLYPOLYLINE:
{
const EMRPOLYPOLYLINE *pPolyPolyline = (const EMRPOLYPOLYLINE *)mr;
/* NB Points at pPolyPolyline->aPolyCounts + pPolyPolyline->nPolys */
PolyPolyline(hdc, (const POINT*)(pPolyPolyline->aPolyCounts +
pPolyPolyline->nPolys),
pPolyPolyline->aPolyCounts,
pPolyPolyline->nPolys );
break;
}
case EMR_POLYPOLYGON:
{
const EMRPOLYPOLYGON *pPolyPolygon = (const EMRPOLYPOLYGON *)mr;
/* NB Points at pPolyPolygon->aPolyCounts + pPolyPolygon->nPolys */
PolyPolygon(hdc, (const POINT*)(pPolyPolygon->aPolyCounts +
pPolyPolygon->nPolys),
(const INT*)pPolyPolygon->aPolyCounts, pPolyPolygon->nPolys );
break;
}
case EMR_SETBRUSHORGEX:
{
const EMRSETBRUSHORGEX *lpSetBrushOrgEx = (const EMRSETBRUSHORGEX *)mr;
SetBrushOrgEx( hdc,
(INT)lpSetBrushOrgEx->ptlOrigin.x,
(INT)lpSetBrushOrgEx->ptlOrigin.y,
NULL );
break;
}
case EMR_SETPIXELV:
{
const EMRSETPIXELV *lpSetPixelV = (const EMRSETPIXELV *)mr;
SetPixelV( hdc,
(INT)lpSetPixelV->ptlPixel.x,
(INT)lpSetPixelV->ptlPixel.y,
lpSetPixelV->crColor );
break;
}
case EMR_SETMAPPERFLAGS:
{
const EMRSETMAPPERFLAGS *lpSetMapperFlags = (const EMRSETMAPPERFLAGS *)mr;
SetMapperFlags( hdc, lpSetMapperFlags->dwFlags );
break;
}
case EMR_SETCOLORADJUSTMENT:
{
const EMRSETCOLORADJUSTMENT *lpSetColorAdjust = (const EMRSETCOLORADJUSTMENT *)mr;
SetColorAdjustment( hdc, &lpSetColorAdjust->ColorAdjustment );
break;
}
case EMR_OFFSETCLIPRGN:
{
const EMROFFSETCLIPRGN *lpOffsetClipRgn = (const EMROFFSETCLIPRGN *)mr;
OffsetClipRgn( hdc,
(INT)lpOffsetClipRgn->ptlOffset.x,
(INT)lpOffsetClipRgn->ptlOffset.y );
FIXME("OffsetClipRgn\n");
break;
}
case EMR_EXCLUDECLIPRECT:
{
const EMREXCLUDECLIPRECT *lpExcludeClipRect = (const EMREXCLUDECLIPRECT *)mr;
ExcludeClipRect( hdc,
lpExcludeClipRect->rclClip.left,
lpExcludeClipRect->rclClip.top,
lpExcludeClipRect->rclClip.right,
lpExcludeClipRect->rclClip.bottom );
FIXME("ExcludeClipRect\n");
break;
}
case EMR_SCALEVIEWPORTEXTEX:
{
const EMRSCALEVIEWPORTEXTEX *lpScaleViewportExtEx = (const EMRSCALEVIEWPORTEXTEX *)mr;
if ((info->state.mode != MM_ISOTROPIC) && (info->state.mode != MM_ANISOTROPIC))
break;
if (!lpScaleViewportExtEx->xNum || !lpScaleViewportExtEx->xDenom ||
!lpScaleViewportExtEx->yNum || !lpScaleViewportExtEx->yDenom)
break;
info->state.vportExtX = MulDiv(info->state.vportExtX, lpScaleViewportExtEx->xNum,
lpScaleViewportExtEx->xDenom);
info->state.vportExtY = MulDiv(info->state.vportExtY, lpScaleViewportExtEx->yNum,
lpScaleViewportExtEx->yDenom);
if (info->state.vportExtX == 0) info->state.vportExtX = 1;
if (info->state.vportExtY == 0) info->state.vportExtY = 1;
if (info->state.mode == MM_ISOTROPIC)
EMF_FixIsotropic(hdc, info);
TRACE("EMRSCALEVIEWPORTEXTEX %d/%d %d/%d\n",
lpScaleViewportExtEx->xNum,lpScaleViewportExtEx->xDenom,
lpScaleViewportExtEx->yNum,lpScaleViewportExtEx->yDenom);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_SCALEWINDOWEXTEX:
{
const EMRSCALEWINDOWEXTEX *lpScaleWindowExtEx = (const EMRSCALEWINDOWEXTEX *)mr;
if ((info->state.mode != MM_ISOTROPIC) && (info->state.mode != MM_ANISOTROPIC))
break;
if (!lpScaleWindowExtEx->xNum || !lpScaleWindowExtEx->xDenom ||
!lpScaleWindowExtEx->yNum || !lpScaleWindowExtEx->yDenom)
break;
info->state.wndExtX = MulDiv(info->state.wndExtX, lpScaleWindowExtEx->xNum,
lpScaleWindowExtEx->xDenom);
info->state.wndExtY = MulDiv(info->state.wndExtY, lpScaleWindowExtEx->yNum,
lpScaleWindowExtEx->yDenom);
if (info->state.wndExtX == 0) info->state.wndExtX = 1;
if (info->state.wndExtY == 0) info->state.wndExtY = 1;
if (info->state.mode == MM_ISOTROPIC)
EMF_FixIsotropic(hdc, info);
TRACE("EMRSCALEWINDOWEXTEX %d/%d %d/%d\n",
lpScaleWindowExtEx->xNum,lpScaleWindowExtEx->xDenom,
lpScaleWindowExtEx->yNum,lpScaleWindowExtEx->yDenom);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
}
case EMR_MODIFYWORLDTRANSFORM:
{
const EMRMODIFYWORLDTRANSFORM *lpModifyWorldTrans = (const EMRMODIFYWORLDTRANSFORM *)mr;
switch(lpModifyWorldTrans->iMode) {
case MWT_IDENTITY:
info->state.world_transform.eM11 = info->state.world_transform.eM22 = 1;
info->state.world_transform.eM12 = info->state.world_transform.eM21 = 0;
info->state.world_transform.eDx = info->state.world_transform.eDy = 0;
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
case MWT_LEFTMULTIPLY:
CombineTransform(&info->state.world_transform, &lpModifyWorldTrans->xform,
&info->state.world_transform);
if (!IS_WIN9X())
ModifyWorldTransform(hdc, &lpModifyWorldTrans->xform, MWT_LEFTMULTIPLY);
break;
case MWT_RIGHTMULTIPLY:
CombineTransform(&info->state.world_transform, &info->state.world_transform,
&lpModifyWorldTrans->xform);
if (!IS_WIN9X())
EMF_Update_MF_Xform(hdc, info);
break;
default:
FIXME("Unknown imode %d\n", lpModifyWorldTrans->iMode);
break;
}
break;
}
case EMR_ANGLEARC:
{
const EMRANGLEARC *lpAngleArc = (const EMRANGLEARC *)mr;
AngleArc( hdc,
(INT)lpAngleArc->ptlCenter.x, (INT)lpAngleArc->ptlCenter.y,
lpAngleArc->nRadius, lpAngleArc->eStartAngle,
lpAngleArc->eSweepAngle );
break;
}
case EMR_ROUNDRECT:
{
const EMRROUNDRECT *lpRoundRect = (const EMRROUNDRECT *)mr;
RoundRect( hdc,
lpRoundRect->rclBox.left,
lpRoundRect->rclBox.top,
lpRoundRect->rclBox.right,
lpRoundRect->rclBox.bottom,
lpRoundRect->szlCorner.cx,
lpRoundRect->szlCorner.cy );
break;
}
case EMR_ARC:
{
const EMRARC *lpArc = (const EMRARC *)mr;
Arc( hdc,
(INT)lpArc->rclBox.left,
(INT)lpArc->rclBox.top,
(INT)lpArc->rclBox.right,
(INT)lpArc->rclBox.bottom,
(INT)lpArc->ptlStart.x,
(INT)lpArc->ptlStart.y,
(INT)lpArc->ptlEnd.x,
(INT)lpArc->ptlEnd.y );
break;
}
case EMR_CHORD:
{
const EMRCHORD *lpChord = (const EMRCHORD *)mr;
Chord( hdc,
(INT)lpChord->rclBox.left,
(INT)lpChord->rclBox.top,
(INT)lpChord->rclBox.right,
(INT)lpChord->rclBox.bottom,
(INT)lpChord->ptlStart.x,
(INT)lpChord->ptlStart.y,
(INT)lpChord->ptlEnd.x,
(INT)lpChord->ptlEnd.y );
break;
}
case EMR_PIE:
{
const EMRPIE *lpPie = (const EMRPIE *)mr;
Pie( hdc,
(INT)lpPie->rclBox.left,
(INT)lpPie->rclBox.top,
(INT)lpPie->rclBox.right,
(INT)lpPie->rclBox.bottom,
(INT)lpPie->ptlStart.x,
(INT)lpPie->ptlStart.y,
(INT)lpPie->ptlEnd.x,
(INT)lpPie->ptlEnd.y );
break;
}
case EMR_ARCTO:
{
const EMRARC *lpArcTo = (const EMRARC *)mr;
ArcTo( hdc,
(INT)lpArcTo->rclBox.left,
(INT)lpArcTo->rclBox.top,
(INT)lpArcTo->rclBox.right,
(INT)lpArcTo->rclBox.bottom,
(INT)lpArcTo->ptlStart.x,
(INT)lpArcTo->ptlStart.y,
(INT)lpArcTo->ptlEnd.x,
(INT)lpArcTo->ptlEnd.y );
break;
}
case EMR_EXTFLOODFILL:
{
const EMREXTFLOODFILL *lpExtFloodFill = (const EMREXTFLOODFILL *)mr;
ExtFloodFill( hdc,
(INT)lpExtFloodFill->ptlStart.x,
(INT)lpExtFloodFill->ptlStart.y,
lpExtFloodFill->crColor,
(UINT)lpExtFloodFill->iMode );
break;
}
case EMR_POLYDRAW:
{
const EMRPOLYDRAW *lpPolyDraw = (const EMRPOLYDRAW *)mr;
/* NB abTypes array doesn't start at lpPolyDraw->abTypes. It's actually
lpPolyDraw->aptl + lpPolyDraw->cptl. */
PolyDraw( hdc,
(const POINT*)lpPolyDraw->aptl,
(BYTE*)(lpPolyDraw->aptl + lpPolyDraw->cptl),
(INT)lpPolyDraw->cptl );
break;
}
case EMR_SETARCDIRECTION:
{
const EMRSETARCDIRECTION *lpSetArcDirection = (const EMRSETARCDIRECTION *)mr;
SetArcDirection( hdc, (INT)lpSetArcDirection->iArcDirection );
break;
}
case EMR_SETMITERLIMIT:
{
const EMRSETMITERLIMIT *lpSetMiterLimit = (const EMRSETMITERLIMIT *)mr;
SetMiterLimit( hdc, lpSetMiterLimit->eMiterLimit, NULL );
break;
}
case EMR_BEGINPATH:
{
BeginPath( hdc );
break;
}
case EMR_ENDPATH:
{
EndPath( hdc );
break;
}
case EMR_CLOSEFIGURE:
{
CloseFigure( hdc );
break;
}
case EMR_FILLPATH:
{
/*const EMRFILLPATH lpFillPath = (const EMRFILLPATH *)mr;*/
FillPath( hdc );
break;
}
case EMR_STROKEANDFILLPATH:
{
/*const EMRSTROKEANDFILLPATH lpStrokeAndFillPath = (const EMRSTROKEANDFILLPATH *)mr;*/
StrokeAndFillPath( hdc );
break;
}
case EMR_STROKEPATH:
{
/*const EMRSTROKEPATH lpStrokePath = (const EMRSTROKEPATH *)mr;*/
StrokePath( hdc );
break;
}
case EMR_FLATTENPATH:
{
FlattenPath( hdc );
break;
}
case EMR_WIDENPATH:
{
WidenPath( hdc );
break;
}
case EMR_SELECTCLIPPATH:
{
const EMRSELECTCLIPPATH *lpSelectClipPath = (const EMRSELECTCLIPPATH *)mr;
SelectClipPath( hdc, (INT)lpSelectClipPath->iMode );
break;
}
case EMR_ABORTPATH:
{
AbortPath( hdc );
break;
}
case EMR_CREATECOLORSPACE:
{
PEMRCREATECOLORSPACE lpCreateColorSpace = (PEMRCREATECOLORSPACE)mr;
(handletable->objectHandle)[lpCreateColorSpace->ihCS] =
CreateColorSpaceA( &lpCreateColorSpace->lcs );
break;
}
case EMR_SETCOLORSPACE:
{
const EMRSETCOLORSPACE *lpSetColorSpace = (const EMRSETCOLORSPACE *)mr;
SetColorSpace( hdc,
(handletable->objectHandle)[lpSetColorSpace->ihCS] );
break;
}
case EMR_DELETECOLORSPACE:
{
const EMRDELETECOLORSPACE *lpDeleteColorSpace = (const EMRDELETECOLORSPACE *)mr;
DeleteColorSpace( (handletable->objectHandle)[lpDeleteColorSpace->ihCS] );
break;
}
case EMR_SETICMMODE:
{
const EMRSETICMMODE *lpSetICMMode = (const EMRSETICMMODE *)mr;
SetICMMode( hdc, (INT)lpSetICMMode->iMode );
break;
}
case EMR_PIXELFORMAT:
{
INT iPixelFormat;
const EMRPIXELFORMAT *lpPixelFormat = (const EMRPIXELFORMAT *)mr;
iPixelFormat = ChoosePixelFormat( hdc, &lpPixelFormat->pfd );
SetPixelFormat( hdc, iPixelFormat, &lpPixelFormat->pfd );
break;
}
case EMR_SETPALETTEENTRIES:
{
const EMRSETPALETTEENTRIES *lpSetPaletteEntries = (const EMRSETPALETTEENTRIES *)mr;
SetPaletteEntries( (handletable->objectHandle)[lpSetPaletteEntries->ihPal],
(UINT)lpSetPaletteEntries->iStart,
(UINT)lpSetPaletteEntries->cEntries,
lpSetPaletteEntries->aPalEntries );
break;
}
case EMR_RESIZEPALETTE:
{
const EMRRESIZEPALETTE *lpResizePalette = (const EMRRESIZEPALETTE *)mr;
ResizePalette( (handletable->objectHandle)[lpResizePalette->ihPal],
(UINT)lpResizePalette->cEntries );
break;
}
case EMR_CREATEDIBPATTERNBRUSHPT:
{
const EMRCREATEDIBPATTERNBRUSHPT *lpCreate = (const EMRCREATEDIBPATTERNBRUSHPT *)mr;
LPVOID lpPackedStruct;
/* Check that offsets and data are contained within the record
* (including checking for wrap-arounds).
*/
if ( lpCreate->offBmi + lpCreate->cbBmi > mr->nSize
|| lpCreate->offBits + lpCreate->cbBits > mr->nSize
|| lpCreate->offBmi + lpCreate->cbBmi < lpCreate->offBmi
|| lpCreate->offBits + lpCreate->cbBits < lpCreate->offBits )
{
ERR("Invalid EMR_CREATEDIBPATTERNBRUSHPT record\n");
break;
}
/* This is a BITMAPINFO struct followed directly by bitmap bits */
lpPackedStruct = HeapAlloc( GetProcessHeap(), 0,
lpCreate->cbBmi + lpCreate->cbBits );
if(!lpPackedStruct)
{
SetLastError(ERROR_NOT_ENOUGH_MEMORY);
break;
}
/* Now pack this structure */
memcpy( lpPackedStruct,
((const BYTE *)lpCreate) + lpCreate->offBmi,
lpCreate->cbBmi );
memcpy( ((BYTE*)lpPackedStruct) + lpCreate->cbBmi,
((const BYTE *)lpCreate) + lpCreate->offBits,
lpCreate->cbBits );
(handletable->objectHandle)[lpCreate->ihBrush] =
CreateDIBPatternBrushPt( lpPackedStruct,
(UINT)lpCreate->iUsage );
HeapFree(GetProcessHeap(), 0, lpPackedStruct);
break;
}
case EMR_CREATEMONOBRUSH:
{
const EMRCREATEMONOBRUSH *pCreateMonoBrush = (const EMRCREATEMONOBRUSH *)mr;
const BITMAPINFO *pbi = (const BITMAPINFO *)((const BYTE *)mr + pCreateMonoBrush->offBmi);
HBITMAP hBmp;
/* Need to check if the bitmap is monochrome, and if the
two colors are really black and white */
if (pCreateMonoBrush->iUsage == DIB_PAL_MONO)
{
BITMAP bm;
/* Undocumented iUsage indicates a mono bitmap with no palette table,
* aligned to 32 rather than 16 bits.
*/
bm.bmType = 0;
bm.bmWidth = pbi->bmiHeader.biWidth;
bm.bmHeight = abs(pbi->bmiHeader.biHeight);
bm.bmWidthBytes = 4 * ((pbi->bmiHeader.biWidth + 31) / 32);
bm.bmPlanes = pbi->bmiHeader.biPlanes;
bm.bmBitsPixel = pbi->bmiHeader.biBitCount;
bm.bmBits = (BYTE *)mr + pCreateMonoBrush->offBits;
hBmp = CreateBitmapIndirect(&bm);
}
else if (is_dib_monochrome(pbi))
{
/* Top-down DIBs have a negative height */
LONG height = pbi->bmiHeader.biHeight;
hBmp = CreateBitmap(pbi->bmiHeader.biWidth, abs(height), 1, 1, NULL);
SetDIBits(hdc, hBmp, 0, pbi->bmiHeader.biHeight,
(const BYTE *)mr + pCreateMonoBrush->offBits, pbi, pCreateMonoBrush->iUsage);
}
else
{
hBmp = CreateDIBitmap(hdc, (const BITMAPINFOHEADER *)pbi, CBM_INIT,
(const BYTE *)mr + pCreateMonoBrush->offBits, pbi, pCreateMonoBrush->iUsage);
}
(handletable->objectHandle)[pCreateMonoBrush->ihBrush] = CreatePatternBrush(hBmp);
/* CreatePatternBrush created a copy of the bitmap */
DeleteObject(hBmp);
break;
}
case EMR_BITBLT:
{
const EMRBITBLT *pBitBlt = (const EMRBITBLT *)mr;
if(pBitBlt->offBmiSrc == 0) { /* Record is a PatBlt */
PatBlt(hdc, pBitBlt->xDest, pBitBlt->yDest, pBitBlt->cxDest, pBitBlt->cyDest,
pBitBlt->dwRop);
} else { /* BitBlt */
HDC hdcSrc = CreateCompatibleDC(hdc);
HBRUSH hBrush, hBrushOld;
HBITMAP hBmp = 0, hBmpOld = 0;
const BITMAPINFO *pbi = (const BITMAPINFO *)((const BYTE *)mr + pBitBlt->offBmiSrc);
SetGraphicsMode(hdcSrc, GM_ADVANCED);
SetWorldTransform(hdcSrc, &pBitBlt->xformSrc);
hBrush = CreateSolidBrush(pBitBlt->crBkColorSrc);
hBrushOld = SelectObject(hdcSrc, hBrush);
PatBlt(hdcSrc, pBitBlt->rclBounds.left, pBitBlt->rclBounds.top,
pBitBlt->rclBounds.right - pBitBlt->rclBounds.left,
pBitBlt->rclBounds.bottom - pBitBlt->rclBounds.top, PATCOPY);
SelectObject(hdcSrc, hBrushOld);
DeleteObject(hBrush);
hBmp = CreateDIBitmap(hdc, (const BITMAPINFOHEADER *)pbi, CBM_INIT,
(const BYTE *)mr + pBitBlt->offBitsSrc, pbi, pBitBlt->iUsageSrc);
hBmpOld = SelectObject(hdcSrc, hBmp);
BitBlt(hdc, pBitBlt->xDest, pBitBlt->yDest, pBitBlt->cxDest, pBitBlt->cyDest,
hdcSrc, pBitBlt->xSrc, pBitBlt->ySrc, pBitBlt->dwRop);
SelectObject(hdcSrc, hBmpOld);
DeleteObject(hBmp);
DeleteDC(hdcSrc);
}
break;
}
case EMR_STRETCHBLT:
{
const EMRSTRETCHBLT *pStretchBlt = (const EMRSTRETCHBLT *)mr;
TRACE("EMR_STRETCHBLT: %d, %d %dx%d -> %d, %d %dx%d. rop %08x offBitsSrc %d\n",
pStretchBlt->xSrc, pStretchBlt->ySrc, pStretchBlt->cxSrc, pStretchBlt->cySrc,
pStretchBlt->xDest, pStretchBlt->yDest, pStretchBlt->cxDest, pStretchBlt->cyDest,
pStretchBlt->dwRop, pStretchBlt->offBitsSrc);
if(pStretchBlt->offBmiSrc == 0) { /* Record is a PatBlt */
PatBlt(hdc, pStretchBlt->xDest, pStretchBlt->yDest, pStretchBlt->cxDest, pStretchBlt->cyDest,
pStretchBlt->dwRop);
} else { /* StretchBlt */
HDC hdcSrc = CreateCompatibleDC(hdc);
HBRUSH hBrush, hBrushOld;
HBITMAP hBmp = 0, hBmpOld = 0;
const BITMAPINFO *pbi = (const BITMAPINFO *)((const BYTE *)mr + pStretchBlt->offBmiSrc);
SetGraphicsMode(hdcSrc, GM_ADVANCED);
SetWorldTransform(hdcSrc, &pStretchBlt->xformSrc);
hBrush = CreateSolidBrush(pStretchBlt->crBkColorSrc);
hBrushOld = SelectObject(hdcSrc, hBrush);
PatBlt(hdcSrc, pStretchBlt->rclBounds.left, pStretchBlt->rclBounds.top,
pStretchBlt->rclBounds.right - pStretchBlt->rclBounds.left,
pStretchBlt->rclBounds.bottom - pStretchBlt->rclBounds.top, PATCOPY);
SelectObject(hdcSrc, hBrushOld);
DeleteObject(hBrush);
hBmp = CreateDIBitmap(hdc, (const BITMAPINFOHEADER *)pbi, CBM_INIT,
(const BYTE *)mr + pStretchBlt->offBitsSrc, pbi, pStretchBlt->iUsageSrc);
hBmpOld = SelectObject(hdcSrc, hBmp);
StretchBlt(hdc, pStretchBlt->xDest, pStretchBlt->yDest, pStretchBlt->cxDest, pStretchBlt->cyDest,
hdcSrc, pStretchBlt->xSrc, pStretchBlt->ySrc, pStretchBlt->cxSrc, pStretchBlt->cySrc,
pStretchBlt->dwRop);
SelectObject(hdcSrc, hBmpOld);
DeleteObject(hBmp);
DeleteDC(hdcSrc);
}
break;
}
case EMR_ALPHABLEND:
{
const EMRALPHABLEND *pAlphaBlend = (const EMRALPHABLEND *)mr;
TRACE("EMR_ALPHABLEND: %d, %d %dx%d -> %d, %d %dx%d. blendfn %08x offBitsSrc %d\n",
pAlphaBlend->xSrc, pAlphaBlend->ySrc, pAlphaBlend->cxSrc, pAlphaBlend->cySrc,
pAlphaBlend->xDest, pAlphaBlend->yDest, pAlphaBlend->cxDest, pAlphaBlend->cyDest,
pAlphaBlend->dwRop, pAlphaBlend->offBitsSrc);
if(pAlphaBlend->offBmiSrc == 0) {
FIXME("EMR_ALPHABLEND: offBmiSrc == 0\n");
} else {
HDC hdcSrc = CreateCompatibleDC(hdc);
HBITMAP hBmp = 0, hBmpOld = 0;
const BITMAPINFO *pbi = (const BITMAPINFO *)((const BYTE *)mr + pAlphaBlend->offBmiSrc);
void *bits;
SetGraphicsMode(hdcSrc, GM_ADVANCED);
SetWorldTransform(hdcSrc, &pAlphaBlend->xformSrc);
hBmp = CreateDIBSection(hdc, pbi, pAlphaBlend->iUsageSrc, &bits, NULL, 0);
memcpy(bits, (const BYTE *)mr + pAlphaBlend->offBitsSrc, pAlphaBlend->cbBitsSrc);
hBmpOld = SelectObject(hdcSrc, hBmp);
GdiAlphaBlend(hdc, pAlphaBlend->xDest, pAlphaBlend->yDest, pAlphaBlend->cxDest, pAlphaBlend->cyDest,
hdcSrc, pAlphaBlend->xSrc, pAlphaBlend->ySrc, pAlphaBlend->cxSrc, pAlphaBlend->cySrc,
*(BLENDFUNCTION *)&pAlphaBlend->dwRop);
SelectObject(hdcSrc, hBmpOld);
DeleteObject(hBmp);
DeleteDC(hdcSrc);
}
break;
}
case EMR_MASKBLT:
{
const EMRMASKBLT *pMaskBlt = (const EMRMASKBLT *)mr;
HDC hdcSrc = CreateCompatibleDC(hdc);
HBRUSH hBrush, hBrushOld;
HBITMAP hBmp, hBmpOld, hBmpMask;
const BITMAPINFO *pbi;
SetGraphicsMode(hdcSrc, GM_ADVANCED);
SetWorldTransform(hdcSrc, &pMaskBlt->xformSrc);
hBrush = CreateSolidBrush(pMaskBlt->crBkColorSrc);
hBrushOld = SelectObject(hdcSrc, hBrush);
PatBlt(hdcSrc, pMaskBlt->rclBounds.left, pMaskBlt->rclBounds.top,
pMaskBlt->rclBounds.right - pMaskBlt->rclBounds.left,
pMaskBlt->rclBounds.bottom - pMaskBlt->rclBounds.top, PATCOPY);
SelectObject(hdcSrc, hBrushOld);
DeleteObject(hBrush);
pbi = (const BITMAPINFO *)((const BYTE *)mr + pMaskBlt->offBmiMask);
hBmpMask = CreateBitmap(pbi->bmiHeader.biWidth, pbi->bmiHeader.biHeight,
1, 1, NULL);
SetDIBits(hdc, hBmpMask, 0, pbi->bmiHeader.biHeight,
(const BYTE *)mr + pMaskBlt->offBitsMask, pbi, pMaskBlt->iUsageMask);
pbi = (const BITMAPINFO *)((const BYTE *)mr + pMaskBlt->offBmiSrc);
hBmp = CreateDIBitmap(hdc, (const BITMAPINFOHEADER *)pbi, CBM_INIT,
(const BYTE *)mr + pMaskBlt->offBitsSrc, pbi, pMaskBlt->iUsageSrc);
hBmpOld = SelectObject(hdcSrc, hBmp);
MaskBlt(hdc,
pMaskBlt->xDest,
pMaskBlt->yDest,
pMaskBlt->cxDest,
pMaskBlt->cyDest,
hdcSrc,
pMaskBlt->xSrc,
pMaskBlt->ySrc,
hBmpMask,
pMaskBlt->xMask,
pMaskBlt->yMask,
pMaskBlt->dwRop);
SelectObject(hdcSrc, hBmpOld);
DeleteObject(hBmp);
DeleteObject(hBmpMask);
DeleteDC(hdcSrc);
break;
}
case EMR_PLGBLT:
{
const EMRPLGBLT *pPlgBlt = (const EMRPLGBLT *)mr;
HDC hdcSrc = CreateCompatibleDC(hdc);
HBRUSH hBrush, hBrushOld;
HBITMAP hBmp, hBmpOld, hBmpMask;
const BITMAPINFO *pbi;
POINT pts[3];
SetGraphicsMode(hdcSrc, GM_ADVANCED);
SetWorldTransform(hdcSrc, &pPlgBlt->xformSrc);
pts[0].x = pPlgBlt->aptlDest[0].x; pts[0].y = pPlgBlt->aptlDest[0].y;
pts[1].x = pPlgBlt->aptlDest[1].x; pts[1].y = pPlgBlt->aptlDest[1].y;
pts[2].x = pPlgBlt->aptlDest[2].x; pts[2].y = pPlgBlt->aptlDest[2].y;
hBrush = CreateSolidBrush(pPlgBlt->crBkColorSrc);
hBrushOld = SelectObject(hdcSrc, hBrush);
PatBlt(hdcSrc, pPlgBlt->rclBounds.left, pPlgBlt->rclBounds.top,
pPlgBlt->rclBounds.right - pPlgBlt->rclBounds.left,
pPlgBlt->rclBounds.bottom - pPlgBlt->rclBounds.top, PATCOPY);
SelectObject(hdcSrc, hBrushOld);
DeleteObject(hBrush);
pbi = (const BITMAPINFO *)((const BYTE *)mr + pPlgBlt->offBmiMask);
hBmpMask = CreateBitmap(pbi->bmiHeader.biWidth, pbi->bmiHeader.biHeight,
1, 1, NULL);
SetDIBits(hdc, hBmpMask, 0, pbi->bmiHeader.biHeight,
(const BYTE *)mr + pPlgBlt->offBitsMask, pbi, pPlgBlt->iUsageMask);
pbi = (const BITMAPINFO *)((const BYTE *)mr + pPlgBlt->offBmiSrc);
hBmp = CreateDIBitmap(hdc, (const BITMAPINFOHEADER *)pbi, CBM_INIT,
(const BYTE *)mr + pPlgBlt->offBitsSrc, pbi, pPlgBlt->iUsageSrc);
hBmpOld = SelectObject(hdcSrc, hBmp);
PlgBlt(hdc,
pts,
hdcSrc,
pPlgBlt->xSrc,
pPlgBlt->ySrc,
pPlgBlt->cxSrc,
pPlgBlt->cySrc,
hBmpMask,
pPlgBlt->xMask,
pPlgBlt->yMask);
SelectObject(hdcSrc, hBmpOld);
DeleteObject(hBmp);
DeleteObject(hBmpMask);
DeleteDC(hdcSrc);
break;
}
case EMR_SETDIBITSTODEVICE:
{
const EMRSETDIBITSTODEVICE *pSetDIBitsToDevice = (const EMRSETDIBITSTODEVICE *)mr;
SetDIBitsToDevice(hdc,
pSetDIBitsToDevice->xDest,
pSetDIBitsToDevice->yDest,
pSetDIBitsToDevice->cxSrc,
pSetDIBitsToDevice->cySrc,
pSetDIBitsToDevice->xSrc,
pSetDIBitsToDevice->ySrc,
pSetDIBitsToDevice->iStartScan,
pSetDIBitsToDevice->cScans,
(const BYTE *)mr + pSetDIBitsToDevice->offBitsSrc,
(const BITMAPINFO *)((const BYTE *)mr + pSetDIBitsToDevice->offBmiSrc),
pSetDIBitsToDevice->iUsageSrc);
break;
}
case EMR_POLYTEXTOUTA:
{
const EMRPOLYTEXTOUTA *pPolyTextOutA = (const EMRPOLYTEXTOUTA *)mr;
POLYTEXTA *polytextA = HeapAlloc(GetProcessHeap(), 0, pPolyTextOutA->cStrings * sizeof(POLYTEXTA));
LONG i;
XFORM xform, xformOld;
int gModeOld;
gModeOld = SetGraphicsMode(hdc, pPolyTextOutA->iGraphicsMode);
GetWorldTransform(hdc, &xformOld);
xform.eM11 = pPolyTextOutA->exScale;
xform.eM12 = 0.0;
xform.eM21 = 0.0;
xform.eM22 = pPolyTextOutA->eyScale;
xform.eDx = 0.0;
xform.eDy = 0.0;
SetWorldTransform(hdc, &xform);
/* Set up POLYTEXTA structures */
for(i = 0; i < pPolyTextOutA->cStrings; i++)
{
polytextA[i].x = pPolyTextOutA->aemrtext[i].ptlReference.x;
polytextA[i].y = pPolyTextOutA->aemrtext[i].ptlReference.y;
polytextA[i].n = pPolyTextOutA->aemrtext[i].nChars;
polytextA[i].lpstr = (LPCSTR)((const BYTE *)mr + pPolyTextOutA->aemrtext[i].offString);
polytextA[i].uiFlags = pPolyTextOutA->aemrtext[i].fOptions;
polytextA[i].rcl.left = pPolyTextOutA->aemrtext[i].rcl.left;
polytextA[i].rcl.right = pPolyTextOutA->aemrtext[i].rcl.right;
polytextA[i].rcl.top = pPolyTextOutA->aemrtext[i].rcl.top;
polytextA[i].rcl.bottom = pPolyTextOutA->aemrtext[i].rcl.bottom;
polytextA[i].pdx = (int *)((BYTE *)mr + pPolyTextOutA->aemrtext[i].offDx);
}
PolyTextOutA(hdc, polytextA, pPolyTextOutA->cStrings);
HeapFree(GetProcessHeap(), 0, polytextA);
SetWorldTransform(hdc, &xformOld);
SetGraphicsMode(hdc, gModeOld);
break;
}
case EMR_POLYTEXTOUTW:
{
const EMRPOLYTEXTOUTW *pPolyTextOutW = (const EMRPOLYTEXTOUTW *)mr;
POLYTEXTW *polytextW = HeapAlloc(GetProcessHeap(), 0, pPolyTextOutW->cStrings * sizeof(POLYTEXTW));
LONG i;
XFORM xform, xformOld;
int gModeOld;
gModeOld = SetGraphicsMode(hdc, pPolyTextOutW->iGraphicsMode);
GetWorldTransform(hdc, &xformOld);
xform.eM11 = pPolyTextOutW->exScale;
xform.eM12 = 0.0;
xform.eM21 = 0.0;
xform.eM22 = pPolyTextOutW->eyScale;
xform.eDx = 0.0;
xform.eDy = 0.0;
SetWorldTransform(hdc, &xform);
/* Set up POLYTEXTW structures */
for(i = 0; i < pPolyTextOutW->cStrings; i++)
{
polytextW[i].x = pPolyTextOutW->aemrtext[i].ptlReference.x;
polytextW[i].y = pPolyTextOutW->aemrtext[i].ptlReference.y;
polytextW[i].n = pPolyTextOutW->aemrtext[i].nChars;
polytextW[i].lpstr = (LPCWSTR)((const BYTE *)mr + pPolyTextOutW->aemrtext[i].offString);
polytextW[i].uiFlags = pPolyTextOutW->aemrtext[i].fOptions;
polytextW[i].rcl.left = pPolyTextOutW->aemrtext[i].rcl.left;
polytextW[i].rcl.right = pPolyTextOutW->aemrtext[i].rcl.right;
polytextW[i].rcl.top = pPolyTextOutW->aemrtext[i].rcl.top;
polytextW[i].rcl.bottom = pPolyTextOutW->aemrtext[i].rcl.bottom;
polytextW[i].pdx = (int *)((BYTE *)mr + pPolyTextOutW->aemrtext[i].offDx);
}
PolyTextOutW(hdc, polytextW, pPolyTextOutW->cStrings);
HeapFree(GetProcessHeap(), 0, polytextW);
SetWorldTransform(hdc, &xformOld);
SetGraphicsMode(hdc, gModeOld);
break;
}
case EMR_FILLRGN:
{
const EMRFILLRGN *pFillRgn = (const EMRFILLRGN *)mr;
HRGN hRgn = ExtCreateRegion(NULL, pFillRgn->cbRgnData, (const RGNDATA *)pFillRgn->RgnData);
FillRgn(hdc,
hRgn,
(handletable->objectHandle)[pFillRgn->ihBrush]);
DeleteObject(hRgn);
break;
}
case EMR_FRAMERGN:
{
const EMRFRAMERGN *pFrameRgn = (const EMRFRAMERGN *)mr;
HRGN hRgn = ExtCreateRegion(NULL, pFrameRgn->cbRgnData, (const RGNDATA *)pFrameRgn->RgnData);
FrameRgn(hdc,
hRgn,
(handletable->objectHandle)[pFrameRgn->ihBrush],
pFrameRgn->szlStroke.cx,
pFrameRgn->szlStroke.cy);
DeleteObject(hRgn);
break;
}
case EMR_INVERTRGN:
{
const EMRINVERTRGN *pInvertRgn = (const EMRINVERTRGN *)mr;
HRGN hRgn = ExtCreateRegion(NULL, pInvertRgn->cbRgnData, (const RGNDATA *)pInvertRgn->RgnData);
InvertRgn(hdc, hRgn);
DeleteObject(hRgn);
break;
}
case EMR_PAINTRGN:
{
const EMRPAINTRGN *pPaintRgn = (const EMRPAINTRGN *)mr;
HRGN hRgn = ExtCreateRegion(NULL, pPaintRgn->cbRgnData, (const RGNDATA *)pPaintRgn->RgnData);
PaintRgn(hdc, hRgn);
DeleteObject(hRgn);
break;
}
case EMR_SETTEXTJUSTIFICATION:
{
const EMRSETTEXTJUSTIFICATION *pSetTextJust = (const EMRSETTEXTJUSTIFICATION *)mr;
SetTextJustification(hdc, pSetTextJust->nBreakExtra, pSetTextJust->nBreakCount);
break;
}
case EMR_SETLAYOUT:
{
const EMRSETLAYOUT *pSetLayout = (const EMRSETLAYOUT *)mr;
SetLayout(hdc, pSetLayout->iMode);
break;
}
case EMR_GRADIENTFILL:
{
EMRGRADIENTFILL *grad = (EMRGRADIENTFILL *)mr;
GdiGradientFill( hdc, grad->Ver, grad->nVer, grad->Ver + grad->nVer,
grad->nTri, grad->ulMode );
break;
}
case EMR_GLSRECORD:
case EMR_GLSBOUNDEDRECORD:
case EMR_DRAWESCAPE:
case EMR_EXTESCAPE:
case EMR_STARTDOC:
case EMR_SMALLTEXTOUT:
case EMR_FORCEUFIMAPPING:
case EMR_NAMEDESCAPE:
case EMR_COLORCORRECTPALETTE:
case EMR_SETICMPROFILEA:
case EMR_SETICMPROFILEW:
case EMR_TRANSPARENTBLT:
case EMR_SETLINKEDUFI:
case EMR_COLORMATCHTOTARGETW:
case EMR_CREATECOLORSPACEW:
default:
/* From docs: If PlayEnhMetaFileRecord doesn't recognize a
record then ignore and return TRUE. */
FIXME("type %d is unimplemented\n", type);
break;
}
tmprc.left = tmprc.top = 0;
tmprc.right = tmprc.bottom = 1000;
LPtoDP(hdc, (POINT*)&tmprc, 2);
TRACE("L:0,0 - 1000,1000 -> D:%s\n", wine_dbgstr_rect(&tmprc));
return TRUE;
}
/*****************************************************************************
*
* EnumEnhMetaFile (GDI32.@)
*
* Walk an enhanced metafile, calling a user-specified function _EnhMetaFunc_
* for each
* record. Returns when either every record has been used or
* when _EnhMetaFunc_ returns FALSE.
*
*
* RETURNS
* TRUE if every record is used, FALSE if any invocation of _EnhMetaFunc_
* returns FALSE.
*
* BUGS
* Ignores rect.
*
* NOTES
* This function behaves differently in Win9x and WinNT.
*
* In WinNT, the DC's world transform is updated as the EMF changes
* the Window/Viewport Extent and Origin or its world transform.
* The actual Window/Viewport Extent and Origin are left untouched.
*
* In Win9x, the DC is left untouched, and PlayEnhMetaFileRecord
* updates the scaling itself but only just before a record that
* writes anything to the DC.
*
* I'm not sure where the data (enum_emh_data) is stored in either
* version. For this implementation, it is stored before the handle
* table, but it could be stored in the DC, in the EMF handle or in
* TLS.
* MJM 5 Oct 2002
*/
BOOL WINAPI EnumEnhMetaFile(
HDC hdc, /* [in] device context to pass to _EnhMetaFunc_ */
HENHMETAFILE hmf, /* [in] EMF to walk */
ENHMFENUMPROC callback, /* [in] callback function */
LPVOID data, /* [in] optional data for callback function */
const RECT *lpRect /* [in] bounding rectangle for rendered metafile */
)
{
BOOL ret;
ENHMETAHEADER *emh;
ENHMETARECORD *emr;
DWORD offset;
UINT i;
HANDLETABLE *ht;
INT savedMode = 0;
XFORM savedXform;
HPEN hPen = NULL;
HBRUSH hBrush = NULL;
HFONT hFont = NULL;
HRGN hRgn = NULL;
enum_emh_data *info;
SIZE vp_size, win_size;
POINT vp_org, win_org;
INT mapMode = MM_TEXT, old_align = 0, old_rop2 = 0, old_arcdir = 0, old_polyfill = 0, old_stretchblt = 0;
COLORREF old_text_color = 0, old_bk_color = 0;
if(!lpRect && hdc)
{
SetLastError(ERROR_INVALID_PARAMETER);
return FALSE;
}
emh = EMF_GetEnhMetaHeader(hmf);
if(!emh) {
SetLastError(ERROR_INVALID_HANDLE);
return FALSE;
}
info = HeapAlloc( GetProcessHeap(), 0,
sizeof (enum_emh_data) + sizeof(HANDLETABLE) * emh->nHandles );
if(!info)
{
SetLastError(ERROR_NOT_ENOUGH_MEMORY);
return FALSE;
}
info->state.mode = MM_TEXT;
info->state.wndOrgX = 0;
info->state.wndOrgY = 0;
info->state.wndExtX = 1;
info->state.wndExtY = 1;
info->state.vportOrgX = 0;
info->state.vportOrgY = 0;
info->state.vportExtX = 1;
info->state.vportExtY = 1;
info->state.world_transform.eM11 = info->state.world_transform.eM22 = 1;
info->state.world_transform.eM12 = info->state.world_transform.eM21 = 0;
info->state.world_transform.eDx = info->state.world_transform.eDy = 0;
info->state.next = NULL;
info->save_level = 0;
info->saved_state = NULL;
ht = (HANDLETABLE*) &info[1];
ht->objectHandle[0] = hmf;
for(i = 1; i < emh->nHandles; i++)
ht->objectHandle[i] = NULL;
if(hdc)
{
savedMode = SetGraphicsMode(hdc, GM_ADVANCED);
GetWorldTransform(hdc, &savedXform);
GetViewportExtEx(hdc, &vp_size);
GetWindowExtEx(hdc, &win_size);
GetViewportOrgEx(hdc, &vp_org);
GetWindowOrgEx(hdc, &win_org);
mapMode = GetMapMode(hdc);
/* save DC */
hPen = GetCurrentObject(hdc, OBJ_PEN);
hBrush = GetCurrentObject(hdc, OBJ_BRUSH);
hFont = GetCurrentObject(hdc, OBJ_FONT);
hRgn = NtGdiCreateRectRgn(0, 0, 0, 0);
if (!GetClipRgn(hdc, hRgn))
{
DeleteObject(hRgn);
hRgn = 0;
}
old_text_color = SetTextColor(hdc, RGB(0,0,0));
old_bk_color = SetBkColor(hdc, RGB(0xff, 0xff, 0xff));
old_align = SetTextAlign(hdc, 0);
old_rop2 = SetROP2(hdc, R2_COPYPEN);
old_arcdir = SetArcDirection(hdc, AD_COUNTERCLOCKWISE);
old_polyfill = SetPolyFillMode(hdc, ALTERNATE);
old_stretchblt = SetStretchBltMode(hdc, BLACKONWHITE);
if ( IS_WIN9X() )
{
/* Win95 leaves the vp/win ext/org info alone */
info->init_transform.eM11 = 1.0;
info->init_transform.eM12 = 0.0;
info->init_transform.eM21 = 0.0;
info->init_transform.eM22 = 1.0;
info->init_transform.eDx = 0.0;
info->init_transform.eDy = 0.0;
}
else
{
/* WinNT combines the vp/win ext/org info into a transform */
double xscale, yscale;
xscale = (double)vp_size.cx / (double)win_size.cx;
yscale = (double)vp_size.cy / (double)win_size.cy;
info->init_transform.eM11 = xscale;
info->init_transform.eM12 = 0.0;
info->init_transform.eM21 = 0.0;
info->init_transform.eM22 = yscale;
info->init_transform.eDx = (double)vp_org.x - xscale * (double)win_org.x;
info->init_transform.eDy = (double)vp_org.y - yscale * (double)win_org.y;
CombineTransform(&info->init_transform, &savedXform, &info->init_transform);
}
if ( lpRect && WIDTH(emh->rclFrame) && HEIGHT(emh->rclFrame) )
{
double xSrcPixSize, ySrcPixSize, xscale, yscale;
XFORM xform;
TRACE("rect: %s. rclFrame: (%d,%d)-(%d,%d)\n", wine_dbgstr_rect(lpRect),
emh->rclFrame.left, emh->rclFrame.top, emh->rclFrame.right,
emh->rclFrame.bottom);
xSrcPixSize = (double) emh->szlMillimeters.cx / emh->szlDevice.cx;
ySrcPixSize = (double) emh->szlMillimeters.cy / emh->szlDevice.cy;
xscale = (double) WIDTH(*lpRect) * 100.0 /
WIDTH(emh->rclFrame) * xSrcPixSize;
yscale = (double) HEIGHT(*lpRect) * 100.0 /
HEIGHT(emh->rclFrame) * ySrcPixSize;
TRACE("xscale = %f, yscale = %f\n", xscale, yscale);
xform.eM11 = xscale;
xform.eM12 = 0;
xform.eM21 = 0;
xform.eM22 = yscale;
xform.eDx = (double) lpRect->left - (double) WIDTH(*lpRect) / WIDTH(emh->rclFrame) * emh->rclFrame.left;
xform.eDy = (double) lpRect->top - (double) HEIGHT(*lpRect) / HEIGHT(emh->rclFrame) * emh->rclFrame.top;
CombineTransform(&info->init_transform, &xform, &info->init_transform);
}
/* WinNT resets the current vp/win org/ext */
if ( !IS_WIN9X() )
{
SetMapMode(hdc, MM_TEXT);
SetWindowOrgEx(hdc, 0, 0, NULL);
SetViewportOrgEx(hdc, 0, 0, NULL);
EMF_Update_MF_Xform(hdc, info);
}
}
ret = TRUE;
offset = 0;
while(ret && offset < emh->nBytes)
{
emr = (ENHMETARECORD *)((char *)emh + offset);
if (offset + 8 > emh->nBytes ||
offset > offset + emr->nSize ||
offset + emr->nSize > emh->nBytes)
{
WARN("record truncated\n");
break;
}
/* In Win9x mode we update the xform if the record will produce output */
if (hdc && IS_WIN9X() && emr_produces_output(emr->iType))
EMF_Update_MF_Xform(hdc, info);
TRACE("Calling EnumFunc with record %s, size %d\n", get_emr_name(emr->iType), emr->nSize);
ret = (*callback)(hdc, ht, emr, emh->nHandles, (LPARAM)data);
offset += emr->nSize;
}
if (hdc)
{
SetStretchBltMode(hdc, old_stretchblt);
SetPolyFillMode(hdc, old_polyfill);
SetArcDirection(hdc, old_arcdir);
SetROP2(hdc, old_rop2);
SetTextAlign(hdc, old_align);
SetBkColor(hdc, old_bk_color);
SetTextColor(hdc, old_text_color);
/* restore DC */
SelectObject(hdc, hBrush);
SelectObject(hdc, hPen);
SelectObject(hdc, hFont);
ExtSelectClipRgn(hdc, hRgn, RGN_COPY);
DeleteObject(hRgn);
SetWorldTransform(hdc, &savedXform);
if (savedMode)
SetGraphicsMode(hdc, savedMode);
SetMapMode(hdc, mapMode);
SetWindowOrgEx(hdc, win_org.x, win_org.y, NULL);
SetWindowExtEx(hdc, win_size.cx, win_size.cy, NULL);
SetViewportOrgEx(hdc, vp_org.x, vp_org.y, NULL);
SetViewportExtEx(hdc, vp_size.cx, vp_size.cy, NULL);
}
for(i = 1; i < emh->nHandles; i++) /* Don't delete element 0 (hmf) */
if( (ht->objectHandle)[i] )
DeleteObject( (ht->objectHandle)[i] );
while (info->saved_state)
{
EMF_dc_state *state = info->saved_state;
info->saved_state = info->saved_state->next;
HeapFree( GetProcessHeap(), 0, state );
}
HeapFree( GetProcessHeap(), 0, info );
return ret;
}
static INT CALLBACK EMF_PlayEnhMetaFileCallback(HDC hdc, HANDLETABLE *ht,
const ENHMETARECORD *emr,
INT handles, LPARAM data)
{
return PlayEnhMetaFileRecord(hdc, ht, emr, handles);
}
/**************************************************************************
* PlayEnhMetaFile (GDI32.@)
*
* Renders an enhanced metafile into a specified rectangle *lpRect
* in device context hdc.
*
* RETURNS
* Success: TRUE
* Failure: FALSE
*/
BOOL WINAPI PlayEnhMetaFile(
HDC hdc, /* [in] DC to render into */
HENHMETAFILE hmf, /* [in] metafile to render */
const RECT *lpRect /* [in] rectangle to place metafile inside */
)
{
return EnumEnhMetaFile(hdc, hmf, EMF_PlayEnhMetaFileCallback, NULL,
lpRect);
}
/*****************************************************************************
* DeleteEnhMetaFile (GDI32.@)
*
* Deletes an enhanced metafile and frees the associated storage.
*/
BOOL WINAPI DeleteEnhMetaFile(HENHMETAFILE hmf)
{
return EMF_Delete_HENHMETAFILE( hmf );
}
/*****************************************************************************
* CopyEnhMetaFileA (GDI32.@)
*
* Duplicate an enhanced metafile.
*
*
*/
HENHMETAFILE WINAPI CopyEnhMetaFileA(
HENHMETAFILE hmfSrc,
LPCSTR file)
{
ENHMETAHEADER *emrSrc = EMF_GetEnhMetaHeader( hmfSrc ), *emrDst;
HENHMETAFILE hmfDst;
if(!emrSrc) return FALSE;
if (!file) {
emrDst = HeapAlloc( GetProcessHeap(), 0, emrSrc->nBytes );
memcpy( emrDst, emrSrc, emrSrc->nBytes );
hmfDst = EMF_Create_HENHMETAFILE( emrDst, emrSrc->nBytes, FALSE );
if (!hmfDst)
HeapFree( GetProcessHeap(), 0, emrDst );
} else {
HANDLE hFile;
DWORD w;
hFile = CreateFileA( file, GENERIC_WRITE | GENERIC_READ, 0,
NULL, CREATE_ALWAYS, 0, 0);
WriteFile( hFile, emrSrc, emrSrc->nBytes, &w, NULL);
CloseHandle( hFile );
/* Reopen file for reading only, so that apps can share
read access to the file while hmf is still valid */
hFile = CreateFileA( file, GENERIC_READ, FILE_SHARE_READ,
NULL, OPEN_EXISTING, 0, 0);
if(hFile == INVALID_HANDLE_VALUE) {
ERR("Can't reopen emf for reading\n");
return 0;
}
hmfDst = EMF_GetEnhMetaFile( hFile );
CloseHandle( hFile );
}
return hmfDst;
}
/*****************************************************************************
* CopyEnhMetaFileW (GDI32.@)
*
* See CopyEnhMetaFileA.
*
*
*/
HENHMETAFILE WINAPI CopyEnhMetaFileW(
HENHMETAFILE hmfSrc,
LPCWSTR file)
{
ENHMETAHEADER *emrSrc = EMF_GetEnhMetaHeader( hmfSrc ), *emrDst;
HENHMETAFILE hmfDst;
if(!emrSrc) return FALSE;
if (!file) {
emrDst = HeapAlloc( GetProcessHeap(), 0, emrSrc->nBytes );
memcpy( emrDst, emrSrc, emrSrc->nBytes );
hmfDst = EMF_Create_HENHMETAFILE( emrDst, emrSrc->nBytes, FALSE );
if (!hmfDst)
HeapFree( GetProcessHeap(), 0, emrDst );
} else {
HANDLE hFile;
DWORD w;
hFile = CreateFileW( file, GENERIC_WRITE | GENERIC_READ, 0,
NULL, CREATE_ALWAYS, 0, 0);
WriteFile( hFile, emrSrc, emrSrc->nBytes, &w, NULL);
CloseHandle( hFile );
/* Reopen file for reading only, so that apps can share
read access to the file while hmf is still valid */
hFile = CreateFileW( file, GENERIC_READ, FILE_SHARE_READ,
NULL, OPEN_EXISTING, 0, 0);
if(hFile == INVALID_HANDLE_VALUE) {
ERR("Can't reopen emf for reading\n");
return 0;
}
hmfDst = EMF_GetEnhMetaFile( hFile );
CloseHandle( hFile );
}
return hmfDst;
}
/* Struct to be used to be passed in the LPVOID parameter for cbEnhPaletteCopy */
typedef struct tagEMF_PaletteCopy
{
UINT cEntries;
LPPALETTEENTRY lpPe;
} EMF_PaletteCopy;
/***************************************************************
* Find the EMR_EOF record and then use it to find the
* palette entries for this enhanced metafile.
* The lpData is actually a pointer to an EMF_PaletteCopy struct
* which contains the max number of elements to copy and where
* to copy them to.
*
* NOTE: To be used by GetEnhMetaFilePaletteEntries only!
*/
static INT CALLBACK cbEnhPaletteCopy( HDC a,
HANDLETABLE *b,
const ENHMETARECORD *lpEMR,
INT c,
LPARAM lpData )
{
if ( lpEMR->iType == EMR_EOF )
{
const EMREOF *lpEof = (const EMREOF *)lpEMR;
EMF_PaletteCopy* info = (EMF_PaletteCopy*)lpData;
DWORD dwNumPalToCopy = min( lpEof->nPalEntries, info->cEntries );
TRACE( "copying 0x%08x palettes\n", dwNumPalToCopy );
memcpy( info->lpPe, (LPCSTR)lpEof + lpEof->offPalEntries,
sizeof( *(info->lpPe) ) * dwNumPalToCopy );
/* Update the passed data as a return code */
info->lpPe = NULL; /* Palettes were copied! */
info->cEntries = dwNumPalToCopy;
return FALSE; /* That's all we need */
}
return TRUE;
}
/*****************************************************************************
* GetEnhMetaFilePaletteEntries (GDI32.@)
*
* Copy the palette and report size
*
* BUGS: Error codes (SetLastError) are not set on failures
*/
UINT WINAPI GetEnhMetaFilePaletteEntries( HENHMETAFILE hEmf,
UINT cEntries,
LPPALETTEENTRY lpPe )
{
ENHMETAHEADER* enhHeader = EMF_GetEnhMetaHeader( hEmf );
EMF_PaletteCopy infoForCallBack;
TRACE( "(%p,%d,%p)\n", hEmf, cEntries, lpPe );
if (!enhHeader) return 0;
/* First check if there are any palettes associated with
this metafile. */
if ( enhHeader->nPalEntries == 0 ) return 0;
/* Is the user requesting the number of palettes? */
if ( lpPe == NULL ) return enhHeader->nPalEntries;
/* Copy cEntries worth of PALETTEENTRY structs into the buffer */
infoForCallBack.cEntries = cEntries;
infoForCallBack.lpPe = lpPe;
if ( !EnumEnhMetaFile( 0, hEmf, cbEnhPaletteCopy,
&infoForCallBack, 0 ) )
return GDI_ERROR;
/* Verify that the callback executed correctly */
if ( infoForCallBack.lpPe != NULL )
{
/* Callback proc had error! */
ERR( "cbEnhPaletteCopy didn't execute correctly\n" );
return GDI_ERROR;
}
return infoForCallBack.cEntries;
}
/******************************************************************
* extract_emf_from_comment
*
* If the WMF was created by GetWinMetaFileBits, then extract the
* original EMF that is stored in MFCOMMENT chunks.
*/
static HENHMETAFILE extract_emf_from_comment( const BYTE *buf, UINT mf_size )
{
METAHEADER *mh = (METAHEADER *)buf;
METARECORD *mr;
emf_in_wmf_comment *chunk;
WORD checksum = 0;
DWORD size = 0, remaining, chunks;
BYTE *emf_bits = NULL, *ptr;
UINT offset;
HENHMETAFILE emf = NULL;
if (mf_size < sizeof(*mh)) return NULL;
for (offset = mh->mtHeaderSize * 2; offset < mf_size; offset += (mr->rdSize * 2))
{
mr = (METARECORD *)((char *)mh + offset);
chunk = (emf_in_wmf_comment *)(mr->rdParm + 2);
if (mr->rdFunction != META_ESCAPE || mr->rdParm[0] != MFCOMMENT) goto done;
if (chunk->magic != WMFC_MAGIC) goto done;
if (!emf_bits)
{
size = remaining = chunk->emf_size;
chunks = chunk->num_chunks;
emf_bits = ptr = HeapAlloc( GetProcessHeap(), 0, size );
if (!emf_bits) goto done;
}
if (chunk->chunk_size > remaining) goto done;
remaining -= chunk->chunk_size;
if (chunk->remaining_size != remaining) goto done;
memcpy( ptr, chunk->emf_data, chunk->chunk_size );
ptr += chunk->chunk_size;
if (--chunks == 0) break;
}
for (offset = 0; offset < mf_size / 2; offset++)
checksum += *((WORD *)buf + offset);
if (checksum) goto done;
emf = SetEnhMetaFileBits( size, emf_bits );
done:
HeapFree( GetProcessHeap(), 0, emf_bits );
return emf;
}
typedef struct wmf_in_emf_comment
{
DWORD ident;
DWORD iComment;
DWORD nVersion;
DWORD nChecksum;
DWORD fFlags;
DWORD cbWinMetaFile;
} wmf_in_emf_comment;
/******************************************************************
* SetWinMetaFileBits (GDI32.@)
*
* Translate from old style to new style.
*
*/
HENHMETAFILE WINAPI SetWinMetaFileBits(UINT cbBuffer, const BYTE *lpbBuffer, HDC hdcRef,
const METAFILEPICT *lpmfp)
{
HMETAFILE hmf = NULL;
HENHMETAFILE ret = NULL;
HDC hdc = NULL, hdcdisp = NULL;
RECT rc, *prcFrame = NULL;
LONG mm, xExt, yExt;
INT horzsize, vertsize, horzres, vertres;
TRACE("(%d, %p, %p, %p)\n", cbBuffer, lpbBuffer, hdcRef, lpmfp);
hmf = SetMetaFileBitsEx(cbBuffer, lpbBuffer);
if(!hmf)
{
WARN("SetMetaFileBitsEx failed\n");
return NULL;
}
ret = extract_emf_from_comment( lpbBuffer, cbBuffer );
if (ret) return ret;
if(!hdcRef)
hdcRef = hdcdisp = CreateDCW(L"DISPLAY", NULL, NULL, NULL);
if (lpmfp)
{
TRACE("mm = %d %dx%d\n", lpmfp->mm, lpmfp->xExt, lpmfp->yExt);
mm = lpmfp->mm;
xExt = lpmfp->xExt;
yExt = lpmfp->yExt;
}
else
{
TRACE("lpmfp == NULL\n");
/* Use the whole device surface */
mm = MM_ANISOTROPIC;
xExt = 0;
yExt = 0;
}
if (mm == MM_ISOTROPIC || mm == MM_ANISOTROPIC)
{
if (xExt < 0 || yExt < 0)
{
/* Use the whole device surface */
xExt = 0;
yExt = 0;
}
/* Use the x and y extents as the frame box */
if (xExt && yExt)
{
rc.left = rc.top = 0;
rc.right = xExt;
rc.bottom = yExt;
prcFrame = &rc;
}
}
if(!(hdc = CreateEnhMetaFileW(hdcRef, NULL, prcFrame, NULL)))
{
ERR("CreateEnhMetaFile failed\n");
goto end;
}
/*
* Write the original METAFILE into the enhanced metafile.
* It is encapsulated in a GDICOMMENT_WINDOWS_METAFILE record.
*/
if (mm != MM_TEXT)
{
wmf_in_emf_comment *mfcomment;
UINT mfcomment_size;
mfcomment_size = sizeof (*mfcomment) + cbBuffer;
mfcomment = HeapAlloc(GetProcessHeap(), 0, mfcomment_size);
if (mfcomment)
{
mfcomment->ident = GDICOMMENT_IDENTIFIER;
mfcomment->iComment = GDICOMMENT_WINDOWS_METAFILE;
mfcomment->nVersion = 0x00000300;
mfcomment->nChecksum = 0; /* FIXME */
mfcomment->fFlags = 0;
mfcomment->cbWinMetaFile = cbBuffer;
memcpy(&mfcomment[1], lpbBuffer, cbBuffer);
GdiComment(hdc, mfcomment_size, (BYTE*) mfcomment);
HeapFree(GetProcessHeap(), 0, mfcomment);
}
SetMapMode(hdc, mm);
}
horzsize = GetDeviceCaps(hdcRef, HORZSIZE);
vertsize = GetDeviceCaps(hdcRef, VERTSIZE);
horzres = GetDeviceCaps(hdcRef, HORZRES);
vertres = GetDeviceCaps(hdcRef, VERTRES);
if (!xExt || !yExt)
{
/* Use the whole device surface */
xExt = horzres;
yExt = vertres;
}
else
{
xExt = MulDiv(xExt, horzres, 100 * horzsize);
yExt = MulDiv(yExt, vertres, 100 * vertsize);
}
/* set the initial viewport:window ratio as 1:1 */
SetViewportExtEx(hdc, xExt, yExt, NULL);
SetWindowExtEx(hdc, xExt, yExt, NULL);
PlayMetaFile(hdc, hmf);
ret = CloseEnhMetaFile(hdc);
end:
if (hdcdisp) DeleteDC(hdcdisp);
DeleteMetaFile(hmf);
return ret;
}