611 lines
16 KiB
C
611 lines
16 KiB
C
/*++
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*
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* WOW v1.0
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*
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* Copyright (c) 1991, Microsoft Corporation
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*
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* WGMETA.C
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* WOW32 16-bit GDI API support
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*
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* History:
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* Created 07-Mar-1991 by Jeff Parsons (jeffpar)
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--*/
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#include "precomp.h"
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#pragma hdrstop
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MODNAME(wgmeta.c);
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typedef METAHEADER UNALIGNED *PMETAHEADER16;
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// WARNING: This function may cause 16-bit memory to move
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VOID CopyMetaFile16FromHMF32(HAND16 hMF16, HMETAFILE hMF32)
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{
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UINT cbMF32, cbMF16;
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VPVOID vp;
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PBYTE pMF16;
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if((vp = GlobalLock16(hMF16, &cbMF16)) && hMF32) {
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GETMISCPTR(vp, pMF16);
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cbMF32 = GetMetaFileBitsEx(hMF32, 0, NULL);
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// Verify these are the same size within the 16-bit kernel memory
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// allocation granularity
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WOW32WARNMSGF((abs(cbMF16 - cbMF32) < 32),
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("WOW32: Size MF16 = %lu MF32 = %lu\n", cbMF16, cbMF32));
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// copy the bits from the 32-bit metafile to the 16-bit metafile memory
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cbMF32 = GetMetaFileBitsEx(hMF32, min(cbMF16, cbMF32), pMF16);
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GlobalUnlock16(hMF16);
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FLUSHVDMPTR(vp, cbMF32, pMF16);
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FREEMISCPTR(pMF16);
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}
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}
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// WARNING: This function may cause 16-bit memory to move
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HAND16 WinMetaFileFromHMF(HMETAFILE hmf, BOOL fFreeOriginal)
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{
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UINT cbMetaData;
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VPVOID vpMetaData;
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PBYTE pMetaData;
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HAND16 h16;
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/*
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* Under Windows Metafiles were merely Global Handle to memory
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* so we have to mimick that behavior because some apps "operate"
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* on metafile handles directly. (WinWord and PowerPoint to
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* GlobalSize and GlobalAlloc to size and create metafiles)
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*/
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cbMetaData = GetMetaFileBitsEx(hmf, 0, NULL);
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if (!cbMetaData)
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return((HAND16)NULL);
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/*
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* Win 3.1 allocates extra space in MetaFile and OLE2 checks for this.
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* METAHEADER is defined to be the same size as the 16-bit structure.
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*/
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cbMetaData += sizeof(METAHEADER);
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vpMetaData = GlobalAllocLock16(GMEM_MOVEABLE | GMEM_DDESHARE, cbMetaData, &h16);
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if (!vpMetaData)
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return((HAND16)NULL);
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GETOPTPTR(vpMetaData, 0, pMetaData);
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if (GetMetaFileBitsEx(hmf, cbMetaData, pMetaData)) {
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GlobalUnlock16(h16);
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} else {
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GlobalUnlockFree16(vpMetaData);
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return((HAND16)NULL);
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}
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if (fFreeOriginal)
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DeleteMetaFile(hmf);
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return(h16);
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}
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HMETAFILE HMFFromWinMetaFile(HAND16 h16, BOOL fFreeOriginal)
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{
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INT cb;
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VPVOID vp;
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HMETAFILE hmf = (HMETAFILE)0;
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PMETAHEADER16 pMFH16;
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vp = GlobalLock16(h16, &cb);
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if (vp) {
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GETMISCPTR(vp, pMFH16);
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hmf = SetMetaFileBitsEx(cb, (LPBYTE)pMFH16);
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if (fFreeOriginal)
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GlobalUnlockFree16(vp);
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else
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GlobalUnlock16(h16);
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FREEMISCPTR(pMFH16);
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}
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return(hmf);
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}
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ULONG FASTCALL WG32CloseMetaFile(PVDMFRAME pFrame)
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{
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HMETAFILE hmf;
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ULONG ulRet = 0;
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HAND16 hdc16;
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HANDLE hdc32;
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register PCLOSEMETAFILE16 parg16;
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GETARGPTR(pFrame, sizeof(CLOSEMETAFILE16), parg16);
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hdc16 = (HAND16)parg16->f1;
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hdc32 = HDC32(hdc16);
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hmf = CloseMetaFile(hdc32);
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// update our GDI handle mapping table
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DeleteWOWGdiHandle(hdc32, hdc16);
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if (hmf)
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ulRet = (ULONG)WinMetaFileFromHMF(hmf, TRUE);
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// WARNING: 16-bit memory may have moved - invalidate flat pointers now
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FREEVDMPTR(pFrame);
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FREEARGPTR(parg16);
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RETURN(ulRet);
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}
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ULONG FASTCALL WG32CopyMetaFile(PVDMFRAME pFrame)
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{
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ULONG ul;
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PSZ psz2;
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HMETAFILE hmfNew;
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HMETAFILE hmf;
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register PCOPYMETAFILE16 parg16;
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GETARGPTR(pFrame, sizeof(COPYMETAFILE16), parg16);
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GETPSZPTR(parg16->f2, psz2);
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if (psz2) {
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hmf = HMFFromWinMetaFile(parg16->f1, FALSE);
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hmfNew = CopyMetaFile(hmf, psz2);
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DeleteMetaFile(hmf);
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ul = (ULONG)WinMetaFileFromHMF(hmfNew, TRUE);
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// WARNING: 16-bit memory may have moved - invalidate flat pointers now
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FREEVDMPTR(pFrame);
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FREEARGPTR(parg16);
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FREEPSZPTR(psz2);
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} else {
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UINT cb;
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VPVOID vp, vpNew;
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PBYTE pMF, pMFNew;
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HAND16 h16New, h16;
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h16 = (HAND16)parg16->f1;
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ul = (ULONG) NULL;
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vp = GlobalLock16(h16, &cb);
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if (vp) {
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/*
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* Windows app such as WinWord uses GlobalSize to determine
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* the size of the metafile. However, this size can be larger
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* than the true size of a metafile. We have to make sure that
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* both source and destination sizes are identical so that
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* WinWord doesn't crash.
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*/
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vpNew = GlobalAllocLock16(GMEM_MOVEABLE | GMEM_DDESHARE, cb, &h16New);
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// 16-bit memory may have moved - invalidate flat pointers now
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FREEVDMPTR(pFrame);
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FREEARGPTR(parg16);
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FREEPSZPTR(psz2);
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if (vpNew) {
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GETMISCPTR(vp, pMF);
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GETOPTPTR(vpNew, 0, pMFNew);
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RtlCopyMemory(pMFNew, pMF, cb);
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GlobalUnlock16(h16New);
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FLUSHVDMPTR(vpNew, cb, pMFNew);
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FREEOPTPTR(pMFNew);
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ul = h16New;
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}
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GlobalUnlock16(h16);
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FREEMISCPTR(pMF);
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}
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}
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FREEPSZPTR(psz2);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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ULONG FASTCALL WG32CreateMetaFile(PVDMFRAME pFrame)
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{
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ULONG ul;
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PSZ psz1;
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register PCREATEMETAFILE16 parg16;
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GETARGPTR(pFrame, sizeof(CREATEMETAFILE16), parg16);
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GETPSZPTR(parg16->f1, psz1);
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ul = GETHDC16(CreateMetaFile(psz1));
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FREEPSZPTR(psz1);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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//
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// This routine does what the 16-bit parameter validation layer would
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// normally do for metafile handles, but since it is currently disabled,
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// we'll do it here to fix WordPerfect that relies on it. Once true
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// win31-style parameter validation has been re-enabled for metafile
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// handles, all code within the ifndefs here and in WG32DeleteMetaFile
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// can be removed.
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//
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#ifndef PARAMETER_VALIDATION_16_RE_ENABLED
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#define MEMORYMETAFILE 1
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#define DISKMETAFILE 2
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#define HEADERSIZE (sizeof(METAHEADER)/sizeof(WORD))
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#define METAVERSION 0x0300
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#define METAVERSION100 0x0100
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BOOL IsValidMetaFile16(PMETAHEADER16 lpMetaData)
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{
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BOOL sts = FALSE;
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sts = (lpMetaData->mtType == MEMORYMETAFILE ||
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lpMetaData->mtType == DISKMETAFILE) &&
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(lpMetaData->mtHeaderSize == HEADERSIZE) &&
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((lpMetaData->mtVersion ==METAVERSION) ||
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(lpMetaData->mtVersion ==METAVERSION100)) ;
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return sts;
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}
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#endif
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ULONG FASTCALL WG32DeleteMetaFile(PVDMFRAME pFrame)
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{
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ULONG ul = FALSE;
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VPVOID vp;
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#ifndef PARAMETER_VALIDATION_16_RE_ENABLED
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PMETAHEADER16 lpMetaData;
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#endif
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register PDELETEMETAFILE16 parg16;
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GETARGPTR(pFrame, sizeof(DELETEMETAFILE16), parg16);
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if (vp = GlobalLock16(parg16->f1,NULL)) {
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#ifdef PARAMETER_VALIDATION_16_RE_ENABLED
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GlobalUnlockFree16(vp);
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ul = TRUE;
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#else
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GETVDMPTR(vp, 1, lpMetaData);
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if (IsValidMetaFile16(lpMetaData)) {
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GlobalUnlockFree16(vp);
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ul = TRUE;
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}
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FREEVDMPTR(lpMetaData);
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#endif
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}
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// If this metafile was in DDE conversation, then DDE cleanup code
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// needs to free its 32 bit counter part. So give DDE clean up
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// code a chance.
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// ChandanC
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W32DdeFreeHandle16 (parg16->f1);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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INT WG32EnumMetaFileCallBack(HDC hdc, LPHANDLETABLE lpht, LPMETARECORD lpMR, LONG nObj, PMETADATA pMetaData )
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{
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INT iReturn;
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DWORD nWords;
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// update object table if we have one
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if (pMetaData->parmemp.vpHandleTable)
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PUTHANDLETABLE16(pMetaData->parmemp.vpHandleTable, nObj, lpht);
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// update MetaRecord
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// don't trash the heap with a bogus record, halt the enumeration
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nWords = lpMR->rdSize;
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if (nWords > pMetaData->mtMaxRecordSize) {
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LOGDEBUG(0,("WOW:bad metafile record during enumeration\n"));
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WOW32ASSERT(FALSE); // contact barryb
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return 0; // all done
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}
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putstr16(pMetaData->parmemp.vpMetaRecord, (LPSZ)lpMR, nWords*sizeof(WORD));
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CallBack16(RET_ENUMMETAFILEPROC, (PPARM16)&pMetaData->parmemp, pMetaData->vpfnEnumMetaFileProc, (PVPVOID)&iReturn);
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// update the metarec in case the app altered it (Approach does)
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getstr16(pMetaData->parmemp.vpMetaRecord, (LPSZ)lpMR, nWords*sizeof(WORD));
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// update object table if we have one
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if (pMetaData->parmemp.vpHandleTable)
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GETHANDLETABLE16(pMetaData->parmemp.vpHandleTable,nObj,lpht);
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return (SHORT)iReturn;
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hdc; // quiet the compilier; we already know the DC
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}
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ULONG FASTCALL WG32EnumMetaFile(PVDMFRAME pFrame)
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{
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ULONG ul = 0;
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register PENUMMETAFILE16 parg16;
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METADATA metadata;
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VPVOID vpMetaFile = (VPVOID) NULL;
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PBYTE pMetaFile;
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HMETAFILE hmf = (HMETAFILE) 0;
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HAND16 hMetaFile16;
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HDC hDC = 0;
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HDC hDC2 = 0;
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GETARGPTR(pFrame, sizeof(ENUMMETAFILE16), parg16);
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hMetaFile16 = parg16->f2;
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metadata.vpfnEnumMetaFileProc = DWORD32(parg16->f3);
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metadata.parmemp.vpData = (VPVOID)DWORD32(parg16->f4);
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metadata.parmemp.vpMetaRecord = (VPVOID) NULL;
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metadata.parmemp.vpHandleTable = (VPVOID) NULL;
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metadata.parmemp.hdc = parg16->f1;
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// WinWord never calls SetMetaFileBits; they peeked and know that
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// a metafile is really a GlobalHandle in Windows so we have
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// to look for that case.
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hmf = HMFFromWinMetaFile(hMetaFile16, FALSE);
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if (!hmf)
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goto EMF_Exit;
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// Get the metafile bits so we can get max record size and number of objects
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vpMetaFile = GlobalLock16(hMetaFile16, NULL);
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FREEARGPTR(parg16); // memory may have moved
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FREEVDMPTR(pFrame);
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if (!vpMetaFile)
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goto EMF_Exit;
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GETOPTPTR(vpMetaFile, 0, pMetaFile);
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if (!pMetaFile)
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goto EMF_Exit;
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metadata.parmemp.nObjects = ((PMETAHEADER16)pMetaFile)->mtNoObjects;
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metadata.mtMaxRecordSize = ((PMETAHEADER16)pMetaFile)->mtMaxRecord;
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if (metadata.parmemp.nObjects)
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{
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PBYTE pHT;
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DWORD cb = ((PMETAHEADER16)pMetaFile)->mtNoObjects*sizeof(HAND16);
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metadata.parmemp.vpHandleTable =
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GlobalAllocLock16(GMEM_MOVEABLE, cb, NULL);
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FREEOPTPTR(pMetaFile); // memory may have moved
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FREEARGPTR(parg16);
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FREEVDMPTR(pFrame);
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if (!metadata.parmemp.vpHandleTable)
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goto EMF_Exit;
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GETOPTPTR(metadata.parmemp.vpHandleTable, 0, pHT);
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RtlZeroMemory(pHT, cb);
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}
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metadata.parmemp.vpMetaRecord = GlobalAllocLock16(GMEM_MOVEABLE, metadata.mtMaxRecordSize*sizeof(WORD), NULL);
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FREEOPTPTR(pMetaFile); // memory may have moved
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FREEARGPTR(parg16);
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FREEVDMPTR(pFrame);
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if (!metadata.parmemp.vpMetaRecord)
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goto EMF_Exit;
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hDC = HDC32(metadata.parmemp.hdc);
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// Corel Draw passes a NULL hDC, we'll create a dummy to keep GDI32 happy.
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if (CURRENTPTD()->dwWOWCompatFlags & WOWCF_GETDUMMYDC) {
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if (hDC == 0) {
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hDC = CreateMetaFile(NULL);
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hDC2 = hDC;
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}
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}
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// When processing metafile, access2.0 faults while receiving
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// WM_DEVMODECHANGE so we block that particular message when
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// in EnumMetaFile
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if ( CURRENTPTD()->dwWOWCompatFlagsEx & WOWCFEX_EATDEVMODEMSG) {
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CURRENTPTD()->dwFlags |= TDF_EATDEVMODEMSG;
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}
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ul = GETBOOL16(EnumMetaFile(hDC,
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hmf,
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(MFENUMPROC)WG32EnumMetaFileCallBack,
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((LPARAM)(LPVOID)&metadata)));
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CURRENTPTD()->dwFlags &= ~TDF_EATDEVMODEMSG;
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// 16-bit memory may have moved - nothing to do as no flat ptrs exist now
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// copy the 32-bit metafile back to 16-bit land (the app may have altered
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// some of the metarecs in its MetaRecCallBackFunc -- Approach does)
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CopyMetaFile16FromHMF32(hMetaFile16, hmf);
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// Cleanup the dummy hDC created for Corel Draw 5.0.
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if (CURRENTPTD()->dwWOWCompatFlags & WOWCF_GETDUMMYDC) {
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if (hDC2 != 0) {
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DeleteMetaFile(CloseMetaFile(hDC2));
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}
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}
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EMF_Exit:
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if (vpMetaFile)
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GlobalUnlock16(hMetaFile16);
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if (hmf)
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DeleteMetaFile(hmf);
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if (metadata.parmemp.vpHandleTable)
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GlobalUnlockFree16(metadata.parmemp.vpHandleTable);
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if (metadata.parmemp.vpMetaRecord)
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GlobalUnlockFree16(metadata.parmemp.vpMetaRecord);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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ULONG FASTCALL WG32GetMetaFile(PVDMFRAME pFrame)
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{
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ULONG ul;
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PSZ psz1;
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HMETAFILE hmf;
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register PGETMETAFILE16 parg16;
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GETARGPTR(pFrame, sizeof(GETMETAFILE16), parg16);
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GETPSZPTR(parg16->f1, psz1);
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hmf = GetMetaFile(psz1);
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if (hmf)
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ul = WinMetaFileFromHMF(hmf, TRUE);
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else
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ul = 0;
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FREEPSZPTR(psz1);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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ULONG FASTCALL WG32PlayMetaFile(PVDMFRAME pFrame)
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{
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ULONG ul;
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HMETAFILE hmf;
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register PPLAYMETAFILE16 parg16;
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GETARGPTR(pFrame, sizeof(PLAYMETAFILE16), parg16);
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hmf = HMFFromWinMetaFile(parg16->f2, FALSE);
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ul = GETBOOL16(PlayMetaFile(HDC32(parg16->f1), hmf));
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if (hmf)
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DeleteMetaFile(hmf);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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ULONG FASTCALL WG32PlayMetaFileRecord(PVDMFRAME pFrame)
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{
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ULONG ul = FALSE;
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LPHANDLETABLE pHT = NULL;
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PBYTE pMetaData;
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PMETARECORD pMetaRec;
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HANDLE hDeleteObject32 = NULL;
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HAND16 hDeleteObject16 = 0;
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WORD wHandles;
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VPHANDLETABLE16 vpHT;
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register PPLAYMETAFILERECORD16 parg16;
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GETARGPTR(pFrame, sizeof(PLAYMETAFILERECORD16), parg16);
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wHandles = parg16->f4;
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vpHT = parg16->f2;
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if (wHandles && vpHT) {
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ALLOCHANDLETABLE16(wHandles, pHT);
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if (!pHT)
|
|
goto PMFR_Exit;
|
|
|
|
GETHANDLETABLE16(vpHT, wHandles, pHT);
|
|
}
|
|
GETOPTPTR(parg16->f3, 0, pMetaData);
|
|
|
|
// If the record is a DeleteObject record, save the index into the metafile
|
|
// handle table.
|
|
pMetaRec = (PMETARECORD)pMetaData;
|
|
if(pMetaRec) {
|
|
if(pMetaRec->rdFunction == META_DELETEOBJECT) {
|
|
hDeleteObject32 = pHT->objectHandle[pMetaRec->rdParm[0]];
|
|
hDeleteObject16 = GDI16(hDeleteObject32);
|
|
}
|
|
}
|
|
|
|
ul = (ULONG) PlayMetaFileRecord(HDC32(parg16->f1),
|
|
pHT,
|
|
(LPMETARECORD)pMetaData,
|
|
(UINT)wHandles);
|
|
|
|
if (wHandles && vpHT) {
|
|
|
|
// This will cause any handles that were created implicitly by the call
|
|
// PlayMetaFileRecord() & added to the metafile handle table (pHT) to be
|
|
// added to our GDI handle mapping table.
|
|
PUTHANDLETABLE16(vpHT, wHandles, pHT);
|
|
|
|
FREEHANDLETABLE16(pHT);
|
|
}
|
|
|
|
// Remove the handle associated with this DeleteObject record from the GDI
|
|
// handle mapping table.
|
|
if(hDeleteObject16) {
|
|
DeleteWOWGdiHandle((HANDLE)hDeleteObject32, hDeleteObject16);
|
|
}
|
|
|
|
PMFR_Exit:
|
|
FREEARGPTR(parg16);
|
|
RETURN(ul);
|
|
}
|
|
|
|
#if 0 // implemented in gdi.exe
|
|
|
|
ULONG FASTCALL WG32GetMetaFileBits(PVDMFRAME pFrame)
|
|
{
|
|
ULONG ul = 0;
|
|
register PGETMETAFILEBITS16 parg16;
|
|
|
|
GETARGPTR(pFrame, sizeof(GETMETAFILEBITS16), parg16);
|
|
|
|
if (GlobalLock16(parg16->f1,NULL))
|
|
{
|
|
GlobalUnlock16(parg16->f1);
|
|
ul = parg16->f1;
|
|
}
|
|
|
|
FREEARGPTR(parg16);
|
|
RETURN(ul);
|
|
}
|
|
|
|
ULONG FASTCALL WG32SetMetaFileBits(PVDMFRAME pFrame)
|
|
{
|
|
ULONG ul;
|
|
register PSETMETAFILEBITS16 parg16;
|
|
|
|
GETARGPTR(pFrame, sizeof(SETMETAFILEBITS16), parg16);
|
|
|
|
ul = parg16->f1;
|
|
|
|
FREEARGPTR(parg16);
|
|
RETURN(ul);
|
|
}
|
|
|
|
#endif
|