670 lines
21 KiB
C
670 lines
21 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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* WGFONT.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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#include "wingdip.h"
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MODNAME(wgfont.c);
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extern int RemoveFontResourceTracking(LPCSTR psz, UINT id);
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extern int AddFontResourceTracking(LPCSTR psz, UINT id);
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// for Quickbooks v4 & v5 OCR font support
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void LoadOCRFont(void);
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char szOCRA[] = "OCR-A";
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char szFonts[] = "\\FONTS";
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char szOCRDotTTF[] = "\\OCR-A.TTF";
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BOOL gfOCRFontLoaded = FALSE;
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// a.k.a. WOWAddFontResource
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ULONG FASTCALL WG32AddFontResource(PVDMFRAME pFrame)
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{
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ULONG ul;
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PSZ psz1;
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register PADDFONTRESOURCE16 parg16;
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GETARGPTR(pFrame, sizeof(ADDFONTRESOURCE16), parg16);
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GETPSZPTR(parg16->f1, psz1);
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// note: we will never get an hModule in the low word here.
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// the 16-bit side resolves hModules to an lpsz before calling us
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if( CURRENTPTD()->dwWOWCompatFlags & WOWCF_UNLOADNETFONTS )
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{
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ul = GETINT16(AddFontResourceTracking(psz1,(UINT)CURRENTPTD()));
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}
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else
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{
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ul = GETINT16(AddFontResourceA(psz1));
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}
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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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#define PITCH_MASK ( FIXED_PITCH | VARIABLE_PITCH )
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ULONG FASTCALL WG32CreateFont(PVDMFRAME pFrame)
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{
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ULONG ul;
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PSZ psz14;
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register PCREATEFONT16 parg16;
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INT iWidth;
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char achCapString[LF_FACESIZE];
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BYTE lfCharSet;
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BYTE lfPitchAndFamily;
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#ifdef FE_SB
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BOOL bUseAlternateFace = FALSE;
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#endif
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GETARGPTR(pFrame, sizeof(CREATEFONT16), parg16);
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GETPSZPTR(parg16->f14, psz14);
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// take careof compatiblity flags:
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// if a specific width is specified and GACF_30AVGWIDTH compatiblity
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// flag is set, scaledown the width by 7/8.
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//
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iWidth = INT32(parg16->f2);
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if (iWidth != 0 &&
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(W32GetAppCompatFlags((HAND16)NULL) & GACF_30AVGWIDTH)) {
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iWidth = (iWidth * 7) / 8;
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}
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lfCharSet = BYTE32(parg16->f9);
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lfPitchAndFamily = BYTE32(parg16->f13);
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#ifdef FE_SB
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if (psz14 && *psz14)
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#else // !FE_SB
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if (psz14)
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#endif // !FE_SB
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{
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// Capitalize the string for faster compares.
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WOW32_strncpy(achCapString, psz14, LF_FACESIZE);
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WOW32_strupr(achCapString);
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// Here we are going to implement a bunch of Win 3.1 hacks rather
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// than contaminate the 32-bit engine. These same hacks can be found
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// in WOW (in the CreateFont/CreateFontIndirect code).
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//
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// These hacks are keyed off the facename in the LOGFONT. String
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// comparisons have been unrolled for maximal performance.
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// Win 3.1 facename-based hack. Some apps, like
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// Publisher, create a "Helv" font but have the lfPitchAndFamily
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// set to specify FIXED_PITCH. To work around this, we will patch
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// the pitch field for a "Helv" font to be variable.
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if ( !WOW32_strcmp(achCapString, szHelv) )
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{
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lfPitchAndFamily |= ( (lfPitchAndFamily & ~PITCH_MASK) | VARIABLE_PITCH );
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}
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else
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{
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// Win 3.1 hack for Legacy 2.0. When a printer does not enumerate
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// a "Tms Rmn" font, the app enumerates and gets the LOGFONT for
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// "Script" and then create a font with the name "Tms Rmn" but with
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// the lfCharSet and lfPitchAndFamily taken from the LOGFONT for
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// "Script". Here we will over the lfCharSet to be ANSI_CHARSET.
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if ( !WOW32_strcmp(achCapString, szTmsRmn) )
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{
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lfCharSet = ANSI_CHARSET;
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}
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else
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{
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// If the lfFaceName is "Symbol", "Zapf Dingbats", or "ZapfDingbats",
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// enforce lfCharSet to be SYMBOL_CHARSET. Some apps (like Excel) ask
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// for a "Symbol" font but have the char set set to ANSI. PowerPoint
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// has the same problem with "Zapf Dingbats".
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if ( !WOW32_strcmp(achCapString, szSymbol) ||
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!WOW32_strcmp(achCapString, szZapfDingbats) ||
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!WOW32_strcmp(achCapString, szZapf_Dingbats) )
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{
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lfCharSet = SYMBOL_CHARSET;
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}
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}
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}
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// Win3.1(Win95) hack for Mavis Beacon Teaches Typing 3.0
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// The app uses a fixed width of 34*13 for the typing screen.
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// NT returns 14 from GetTextExtent for Mavis Beacon Courier FP font (width of 14)
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// while Win95 returns 13, thus long strings won't fit in the typing screen on NT.
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// Force the width to 13.
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if ( iWidth==14 && (INT32(parg16->f1)== 20) && !WOW32_strcmp(achCapString, szMavisCourier))
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{
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iWidth = 13;
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}
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#ifdef FE_SB
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// WOWCF_FE_ICHITARO_ITALIC
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// Ichitaro asks for System Mincho because WIFE fonts aren't installed
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// we give it a proportional font which is can't handle. If we see
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// this face name we will replace it with Ms Mincho
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if (GetSystemDefaultLangID() == 0x411 &&
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CURRENTPTD()->dwWOWCompatFlagsFE & WOWCF_FE_ICHITARO_ITALIC )
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{
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if(!WOW32_strcmp(achCapString, szSystemMincho))
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{
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strcpy(achCapString, szMsMincho);
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bUseAlternateFace = TRUE;
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}
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}
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#endif // FE_SB
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}
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#ifdef FE_SB
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ul = GETHFONT16(CreateFont(INT32(parg16->f1),
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iWidth,
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INT32(parg16->f3),
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INT32(parg16->f4),
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INT32(parg16->f5),
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BYTE32(parg16->f6),
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BYTE32(parg16->f7),
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BYTE32(parg16->f8),
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lfCharSet,
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BYTE32(parg16->f10),
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BYTE32(parg16->f11),
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BYTE32(parg16->f12),
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lfPitchAndFamily,
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(bUseAlternateFace ? achCapString : psz14)
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));
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#else
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ul = GETHFONT16(CreateFont(INT32(parg16->f1),
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iWidth,
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INT32(parg16->f3),
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INT32(parg16->f4),
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INT32(parg16->f5),
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BYTE32(parg16->f6),
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BYTE32(parg16->f7),
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BYTE32(parg16->f8),
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lfCharSet,
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BYTE32(parg16->f10),
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BYTE32(parg16->f11),
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BYTE32(parg16->f12),
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lfPitchAndFamily,
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psz14));
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#endif
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FREEPSZPTR(psz14);
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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ULONG FASTCALL WG32CreateFontIndirect(PVDMFRAME pFrame)
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{
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ULONG ul;
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LOGFONT logfont;
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register PCREATEFONTINDIRECT16 parg16;
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char achCapString[LF_FACESIZE];
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GETARGPTR(pFrame, sizeof(CREATEFONTINDIRECT16), parg16);
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GETLOGFONT16(parg16->f1, &logfont);
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// Capitalize the string for faster compares.
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WOW32_strncpy(achCapString, logfont.lfFaceName, LF_FACESIZE);
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CharUpperBuff(achCapString, LF_FACESIZE);
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// Here we are going to implement a bunch of Win 3.1 hacks rather
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// than contaminate the 32-bit engine. These same hacks can be found
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// in WOW (in the CreateFont/CreateFontIndirect code).
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//
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// These hacks are keyed off the facename in the LOGFONT. String
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// comparisons have been unrolled for maximal performance.
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// Win 3.1 facename-based hack. Some apps, like
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// Publisher, create a "Helv" font but have the lfPitchAndFamily
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// set to specify FIXED_PITCH. To work around this, we will patch
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// the pitch field for a "Helv" font to be variable.
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if ( !WOW32_strcmp(achCapString, szHelv) )
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{
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logfont.lfPitchAndFamily |= ( (logfont.lfPitchAndFamily & ~PITCH_MASK) | VARIABLE_PITCH );
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#ifdef FE_SB
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//
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// FE Win 3.1 facename-based hack. Some FE apps
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// create a "Helv" font but have the lfCharSet
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// set to DBCS charset (ex. SHIFTJIS_CHARSET).
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// To work around this, we will wipe out the
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// lfFaceName[0] with '\0' and let GDI picks a
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// DBCS font for us.
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//
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if (IS_ANY_DBCS_CHARSET(logfont.lfCharSet))
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logfont.lfFaceName[0]='\0';
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#endif // FE_SB
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}
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else
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{
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// Win 3.1 hack for Legacy 2.0. When a printer does not enumerate
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// a "Tms Rmn" font, the app enumerates and gets the LOGFONT for
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// "Script" and then create a font with the name "Tms Rmn" but with
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// the lfCharSet and lfPitchAndFamily taken from the LOGFONT for
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// "Script". Here we will over the lfCharSet to be ANSI_CHARSET.
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if ( !WOW32_strcmp(achCapString, szTmsRmn) )
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{
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logfont.lfCharSet = ANSI_CHARSET;
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}
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// for Quickbooks v4 & v5 OCR font support (see LoadOCRFont for details)
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else if ( !WOW32_strcmp(achCapString, szOCRA) )
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{
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// Further localize this hack to QuickBooks. Most other apps won't
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// know about this quirk in this particular font.
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if(logfont.lfCharSet == SYMBOL_CHARSET) {
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logfont.lfCharSet = DEFAULT_CHARSET;
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if(!gfOCRFontLoaded) {
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LoadOCRFont();
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}
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}
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}
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else
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{
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// If the lfFaceName is "Symbol", "Zapf Dingbats", or "ZapfDingbats",
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// enforce lfCharSet to be SYMBOL_CHARSET. Some apps (like Excel) ask
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// for a "Symbol" font but have the char set set to ANSI. PowerPoint
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// has the same problem with "Zapf Dingbats".
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if ( !WOW32_strcmp(achCapString, szSymbol) ||
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!WOW32_strcmp(achCapString, szZapfDingbats) ||
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!WOW32_strcmp(achCapString, szZapf_Dingbats) )
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{
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logfont.lfCharSet = SYMBOL_CHARSET;
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}
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#ifdef FE_SB
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// WOWCF_FE_ICHITARO_ITALIC
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// Ichitaro asks for System Mincho because WIFE fonts aren't installed
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// we give it a proportional font which is can't handle. If we see
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// this face name we will replace it with Ms Mincho
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if (GetSystemDefaultLangID() == 0x411 &&
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CURRENTPTD()->dwWOWCompatFlagsFE & WOWCF_FE_ICHITARO_ITALIC )
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{
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if(!WOW32_strcmp(achCapString, szSystemMincho))
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{
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strcpy(logfont.lfFaceName, szMsMincho);
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}
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}
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#endif // FE_SB
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}
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}
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ul = GETHFONT16(CreateFontIndirect(&logfont));
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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LPSTR lpMSSansSerif = "MS Sans Serif";
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LPSTR lpMSSerif = "MS Serif";
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LPSTR lpHelvetica = "Helvetica";
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INT W32EnumFontFunc(LPENUMLOGFONT pEnumLogFont,
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LPNEWTEXTMETRIC pNewTextMetric, INT nFontType, PFNTDATA pFntData)
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{
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INT iReturn;
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PARM16 Parm16;
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LPSTR lpFaceNameT = NULL;
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WOW32ASSERT(pFntData);
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// take care of compatibility flags:
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// ORin DEVICE_FONTTYPE bit if the fonttype is truetype and the
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// Compataibility flag GACF_CALLTTDEVICE is set.
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//
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if (nFontType & TRUETYPE_FONTTYPE) {
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if (W32GetAppCompatFlags((HAND16)NULL) & GACF_CALLTTDEVICE) {
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nFontType |= DEVICE_FONTTYPE;
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}
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}
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// take care of compatibility flags:
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// replace Ms Sans Serif with Helv and
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// replace Ms Serif with Tms Rmn
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//
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// only if the facename is NULL and the compat flag GACF_ENUMHELVNTMSRMN
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// is set.
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if (pFntData->vpFaceName == (VPVOID)NULL) {
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if (W32GetAppCompatFlags((HAND16)NULL) & GACF_ENUMHELVNTMSRMN) {
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if (!WOW32_strcmp(pEnumLogFont->elfLogFont.lfFaceName, lpMSSansSerif)) {
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strcpy(pEnumLogFont->elfLogFont.lfFaceName, "Helv");
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lpFaceNameT = lpMSSansSerif;
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}
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else if (!WOW32_strcmp(pEnumLogFont->elfLogFont.lfFaceName, lpHelvetica)) {
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strcpy(pEnumLogFont->elfLogFont.lfFaceName, "Helv");
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lpFaceNameT = lpMSSansSerif;
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}
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else if (!WOW32_strcmp(pEnumLogFont->elfLogFont.lfFaceName, lpMSSerif)) {
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strcpy(pEnumLogFont->elfLogFont.lfFaceName, "Tms Rmn");
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lpFaceNameT = lpMSSerif;
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}
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}
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}
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CallAgain:
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// be sure allocation size matches stackfree16() size below
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pFntData->vpLogFont = stackalloc16(sizeof(ENUMLOGFONT16)+sizeof(NEWTEXTMETRIC16));
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pFntData->vpTextMetric = (VPVOID)((LPSTR)pFntData->vpLogFont + sizeof(ENUMLOGFONT16));
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PUTENUMLOGFONT16(pFntData->vpLogFont, pEnumLogFont);
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PUTNEWTEXTMETRIC16(pFntData->vpTextMetric, pNewTextMetric);
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STOREDWORD(Parm16.EnumFontProc.vpLogFont, pFntData->vpLogFont);
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STOREDWORD(Parm16.EnumFontProc.vpTextMetric, pFntData->vpTextMetric);
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STOREDWORD(Parm16.EnumFontProc.vpData,pFntData->dwUserFntParam);
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Parm16.EnumFontProc.nFontType = (SHORT)nFontType;
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CallBack16(RET_ENUMFONTPROC, &Parm16, pFntData->vpfnEnumFntProc, (PVPVOID)&iReturn);
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if(pFntData->vpLogFont) {
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stackfree16(pFntData->vpLogFont,
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(sizeof(ENUMLOGFONT16) + sizeof(NEWTEXTMETRIC16)));
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}
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if (((SHORT)iReturn) && lpFaceNameT) {
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// if the callback returned true, now call with the actual facename
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// Just to be sure, we again copy all the data for callback. This will
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// take care of any apps which modify the passed in structures.
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strcpy(pEnumLogFont->elfLogFont.lfFaceName, lpFaceNameT);
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lpFaceNameT = (LPSTR)NULL;
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goto CallAgain;
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}
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return (SHORT)iReturn;
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}
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ULONG W32EnumFontHandler( PVDMFRAME pFrame, BOOL fEnumFontFamilies )
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{
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ULONG ul = 0;
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PSZ psz2;
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FNTDATA FntData;
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register PENUMFONTS16 parg16;
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GETARGPTR(pFrame, sizeof(ENUMFONTS16), parg16);
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GETPSZPTR(parg16->f2, psz2);
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FntData.vpfnEnumFntProc = DWORD32(parg16->f3);
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FntData.dwUserFntParam = DWORD32(parg16->f4);
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FntData.vpFaceName = DWORD32(parg16->f2);
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if ( fEnumFontFamilies ) {
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ul = GETINT16(EnumFontFamilies(HDC32(parg16->f1),
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psz2,
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(FONTENUMPROC)W32EnumFontFunc,
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(LPARAM)&FntData));
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} else {
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ul = GETINT16(EnumFonts(HDC32(parg16->f1),
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psz2,
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(FONTENUMPROC)W32EnumFontFunc,
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(LPARAM)&FntData));
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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 WG32EnumFonts(PVDMFRAME pFrame)
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{
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return( W32EnumFontHandler( pFrame, FALSE ) );
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}
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ULONG FASTCALL WG32GetAspectRatioFilter(PVDMFRAME pFrame)
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{
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ULONG ul = 0;
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SIZE size2;
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register PGETASPECTRATIOFILTER16 parg16;
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GETARGPTR(pFrame, sizeof(GETASPECTRATIOFILTER16), parg16);
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if (GETDWORD16(GetAspectRatioFilterEx(HDC32(parg16->f1), &size2))) {
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ul = (WORD)size2.cx | (size2.cy << 16);
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}
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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ULONG FASTCALL WG32GetCharWidth(PVDMFRAME pFrame)
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{
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ULONG ul = 0L;
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INT ci;
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PINT pi4;
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register PGETCHARWIDTH16 parg16;
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INT BufferT[256];
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GETARGPTR(pFrame, sizeof(GETCHARWIDTH16), parg16);
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ci = WORD32(parg16->wLastChar) - WORD32(parg16->wFirstChar) + 1;
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pi4 = STACKORHEAPALLOC(ci * sizeof(INT), sizeof(BufferT), BufferT);
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if (pi4) {
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ULONG ulLast = WORD32(parg16->wLastChar);
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|
#ifdef FE_SB
|
|
/*
|
|
* If ulLast sets DBCS code (0x82xx), then below code is illigal.
|
|
*/
|
|
if (ulLast > 0xff && !(IsDBCSLeadByte(HIBYTE(ulLast))))
|
|
#else // !FE_SB
|
|
if (ulLast > 0xff)
|
|
#endif // !FE_SB
|
|
ulLast = 0xff;
|
|
|
|
ul = GETBOOL16(GetCharWidth(HDC32(parg16->hDC),
|
|
WORD32(parg16->wFirstChar),
|
|
ulLast,
|
|
pi4));
|
|
|
|
PUTINTARRAY16(parg16->lpIntBuffer, ci, pi4);
|
|
STACKORHEAPFREE(pi4, BufferT);
|
|
|
|
}
|
|
|
|
FREEARGPTR(parg16);
|
|
|
|
RETURN(ul);
|
|
}
|
|
|
|
|
|
// a.k.a. WOWRemoveFontResource
|
|
ULONG FASTCALL WG32RemoveFontResource(PVDMFRAME pFrame)
|
|
{
|
|
ULONG ul;
|
|
PSZ psz1;
|
|
register PREMOVEFONTRESOURCE16 parg16;
|
|
|
|
GETARGPTR(pFrame, sizeof(REMOVEFONTRESOURCE16), parg16);
|
|
|
|
GETPSZPTR(parg16->f1, psz1);
|
|
|
|
// note: we will never get an hModule in the low word here.
|
|
// the 16-bit side resolves hModules to an lpsz before calling us
|
|
|
|
|
|
if( CURRENTPTD()->dwWOWCompatFlags & WOWCF_UNLOADNETFONTS )
|
|
{
|
|
ul = GETBOOL16(RemoveFontResourceTracking(psz1,(UINT)CURRENTPTD()));
|
|
}
|
|
else
|
|
{
|
|
ul = GETBOOL16(RemoveFontResource(psz1));
|
|
}
|
|
|
|
FREEPSZPTR(psz1);
|
|
|
|
FREEARGPTR(parg16);
|
|
|
|
RETURN(ul);
|
|
}
|
|
|
|
|
|
/* WG32GetCurLogFont
|
|
*
|
|
* This thunk implements the undocumented Win3.0 and Win3.1 API
|
|
* GetCurLogFont (GDI.411). Symantec QA4.0 uses it.
|
|
*
|
|
* HFONT GetCurLogFont (HDC)
|
|
* HDC hDC; // Device Context
|
|
*
|
|
* This function returns the current Logical font selected for the
|
|
* specified device context.
|
|
*
|
|
* To implement this undocumented API we will use the NT undocumented API
|
|
* GetHFONT.
|
|
*
|
|
* SudeepB 08-Mar-1996
|
|
*
|
|
*/
|
|
|
|
extern HFONT APIENTRY GetHFONT (HDC hdc);
|
|
|
|
ULONG FASTCALL WG32GetCurLogFont(PVDMFRAME pFrame)
|
|
{
|
|
|
|
ULONG ul;
|
|
register PGETCURLOGFONT16 parg16;
|
|
|
|
GETARGPTR(pFrame, sizeof(GETCURLOGFONT16), parg16);
|
|
|
|
ul = GETHFONT16 (GetHFONT(HDC32 (parg16->hDC)));
|
|
|
|
FREEARGPTR(parg16);
|
|
|
|
return (ul);
|
|
}
|
|
|
|
|
|
|
|
//
|
|
// This allows Quickbooks v4 & v5 to use their OCR-A.TTF font right after they
|
|
// install. At the end of installation on both versions, you are asked if you
|
|
// want to "restart" windows. If you click OK it logs you off of NT5, but does
|
|
// *not* reboot the system -- which the app is counting on to cause the OCR-A
|
|
// font to be loaded. The result on W2K is that whenever the app uses the OCR-A
|
|
// font, it will get mapped to wingdings instead.
|
|
//
|
|
// This is further complicated by the fact that the font file OCR-A.TTF doesn't
|
|
// specify the charset in the header. On Win3.1, Win95, & pre-NT5, unspecified
|
|
// charset's got mapped to the SYMBOL_CHARSET - therefore, Quickbooks specifies
|
|
// SYMBOL_CHARSET in its LOGFONT struct to accomodate this. (OCR-A apparently
|
|
// is licenced from Monotype Typography, Ltd. which presumably is why Intuit
|
|
// didn't fix the header issue in the font file).
|
|
//
|
|
// This changed on Win98 and W2K, unspecified charset's now get mapped to the
|
|
// DEFAULT_CHARSET. This was done so these fonts will always map to a default
|
|
// localized font that will always be readable. Hence, the hack where we change
|
|
// the charset from SYMBOL_CHARSET to DEFAULT_CHARSET in the LOGFONT struct.
|
|
//
|
|
// On v4, the install program copies OCR-A.FOT & OCR-A.TTF to the SYSTEM dir.
|
|
// Once you "restart" (not reboot) the system & log back on, the OCR-A font is
|
|
// added to the registry (as OCR-A.FOT) but the font files are still in the
|
|
// SYSTEM dir. Rebooting causes the fonts files to be moved to the FONTS dir,
|
|
// the registry entry is changed to OCR-A.TTF. (done by the "Font Sweeper")
|
|
//
|
|
// On v5, the install program copies the .ttf & .fot files to the FONTS dir
|
|
// but again, counts on the reboot to cause the fonts to be loaded. It puts
|
|
// correct registry entry (OCR-A.TTF) in the registry fonts section.
|
|
//
|
|
// The result of all this is:
|
|
// For either version of the app, without the charset hack, you will always get
|
|
// a wingding font instead of OCR-A. With the charset hack, you will get a
|
|
// readable font, such as Arial, until you reboot -- after which you will get
|
|
// OCR-A for v5 but Arial for v4. With this function (in conjunction with the
|
|
// charset hack) both version will always get OCR-A with or without rebooting.
|
|
//
|
|
// This function explicitly loads the OCR-A from the font files located in
|
|
// either the FONTS dir or the SYSTEM dir.
|
|
//
|
|
void LoadOCRFont(void)
|
|
{
|
|
char szFontPath[MAX_PATH];
|
|
DWORD dw;
|
|
int cb;
|
|
|
|
// get equivalent of "c:\windows" for this system
|
|
dw = GetWindowsDirectory(szFontPath, MAX_PATH);
|
|
|
|
// we're going to add a maximum of 18 chars "\SYSTEM\OCR-A.TTF"
|
|
if(dw && ((MAX_PATH - 18) > dw)) {
|
|
|
|
// build "c:\windows\FONTS\OCR-A.TTF" (QuickBooks v5)
|
|
strcat(szFontPath, szFonts);
|
|
strcat(szFontPath, szOCRDotTTF);
|
|
|
|
// If font file doesn't exist in FONTS dir, this must be QuickBooks v4
|
|
// The FR_PRIVATE flag means that the font will be unloaded when the vdm
|
|
// process goes away. The FR_NO_ENUM flag means that this instance of
|
|
// the font can't be enumerated by other processes (it might go away
|
|
// while the other processes are trying to use it).
|
|
cb = AddFontResourceEx(szFontPath, FR_PRIVATE | FR_NOT_ENUM, NULL);
|
|
if(!cb) {
|
|
|
|
// reset path to "c:\windows"
|
|
szFontPath[dw] = '\0';
|
|
|
|
// build "c:\windows\SYSTEM\OCR-A.TTF"
|
|
strcat(szFontPath, szSystem);
|
|
strcat(szFontPath, szOCRDotTTF);
|
|
|
|
cb = AddFontResourceEx(szFontPath, FR_PRIVATE | FR_NOT_ENUM, NULL);
|
|
|
|
// if it wasn't loaded from the SYSTEM dir either, punt
|
|
}
|
|
|
|
if(cb) {
|
|
|
|
// specify that the font is already loaded for the life of this VDM
|
|
gfOCRFontLoaded = TRUE;
|
|
}
|
|
}
|
|
}
|