/* * Windows Device Context initialisation functions * * Copyright 1996,1997 John Harvey */ #include #include #include #include #include #include #include "wine/winbase16.h" #include "win16drv.h" #include "heap.h" #include "brush.h" #include "callback.h" #include "debugtools.h" #include "bitmap.h" #include "pen.h" DEFAULT_DEBUG_CHANNEL(win16drv) /* ### start build ### */ extern WORD CALLBACK PRTDRV_CallTo16_word_lwll (FARPROC16,LONG,WORD,LONG,LONG); extern WORD CALLBACK PRTDRV_CallTo16_word_lwlll (FARPROC16,LONG,WORD,LONG,LONG, LONG); extern WORD CALLBACK PRTDRV_CallTo16_word_llll (FARPROC16,LONG,LONG,LONG,LONG); extern WORD CALLBACK PRTDRV_CallTo16_word_lwwlllll (FARPROC16,LONG,WORD,WORD, LONG,LONG,LONG,LONG,LONG); extern LONG CALLBACK PRTDRV_CallTo16_long_lwlll (FARPROC16,LONG,WORD,LONG,LONG, LONG); extern WORD CALLBACK PRTDRV_CallTo16_word_lwwwwlwwwwllll (FARPROC16,LONG,WORD, WORD,WORD,WORD,LONG, WORD,WORD,WORD,WORD, LONG,LONG,LONG,LONG); extern LONG CALLBACK PRTDRV_CallTo16_long_lwwllwlllllw (FARPROC16,LONG,WORD, WORD,LONG,LONG,WORD, LONG,LONG,LONG,LONG, LONG,WORD); extern WORD CALLBACK PRTDRV_CallTo16_word_llwwlll (FARPROC16,LONG,LONG,WORD, WORD,LONG,LONG,LONG); extern WORD CALLBACK PRTDRV_CallTo16_word_wwlllllw (FARPROC16,WORD,WORD,LONG, LONG,LONG,LONG,LONG,WORD); extern LONG CALLBACK PRTDRV_CallTo16_long_llwll (FARPROC16,LONG,LONG,WORD,LONG, LONG); /* ### stop build ### */ #define MAX_PRINTER_DRIVERS 16 static LOADED_PRINTER_DRIVER *gapLoadedPrinterDrivers[MAX_PRINTER_DRIVERS]; static void GetPrinterDriverFunctions(HINSTANCE16 hInst, LOADED_PRINTER_DRIVER *pLPD) { #define LoadPrinterDrvFunc(A) pLPD->fn[FUNC_##A] = \ GetProcAddress16(hInst, MAKEINTRESOURCE16(ORD_##A)) LoadPrinterDrvFunc(BITBLT); LoadPrinterDrvFunc(COLORINFO); LoadPrinterDrvFunc(CONTROL); LoadPrinterDrvFunc(DISABLE); LoadPrinterDrvFunc(ENABLE); LoadPrinterDrvFunc(ENUMDFONTS); LoadPrinterDrvFunc(ENUMOBJ); LoadPrinterDrvFunc(OUTPUT); LoadPrinterDrvFunc(PIXEL); LoadPrinterDrvFunc(REALIZEOBJECT); LoadPrinterDrvFunc(STRBLT); LoadPrinterDrvFunc(SCANLR); LoadPrinterDrvFunc(DEVICEMODE); LoadPrinterDrvFunc(EXTTEXTOUT); LoadPrinterDrvFunc(GETCHARWIDTH); LoadPrinterDrvFunc(DEVICEBITMAP); LoadPrinterDrvFunc(FASTBORDER); LoadPrinterDrvFunc(SETATTRIBUTE); LoadPrinterDrvFunc(STRETCHBLT); LoadPrinterDrvFunc(STRETCHDIBITS); LoadPrinterDrvFunc(SELECTBITMAP); LoadPrinterDrvFunc(BITMAPBITS); LoadPrinterDrvFunc(EXTDEVICEMODE); LoadPrinterDrvFunc(DEVICECAPABILITIES); LoadPrinterDrvFunc(ADVANCEDSETUPDIALOG); LoadPrinterDrvFunc(DIALOGFN); LoadPrinterDrvFunc(PSEUDOEDIT); TRACE("got func CONTROL 0x%p enable 0x%p enumDfonts 0x%p realizeobject 0x%p extextout 0x%p\n", pLPD->fn[FUNC_CONTROL], pLPD->fn[FUNC_ENABLE], pLPD->fn[FUNC_ENUMDFONTS], pLPD->fn[FUNC_REALIZEOBJECT], pLPD->fn[FUNC_EXTTEXTOUT]); } static LOADED_PRINTER_DRIVER *FindPrinterDriverFromName(const char *pszDriver) { LOADED_PRINTER_DRIVER *pLPD = NULL; int nDriverSlot = 0; /* Look to see if the printer driver is already loaded */ while (pLPD == NULL && nDriverSlot < MAX_PRINTER_DRIVERS) { LOADED_PRINTER_DRIVER *ptmpLPD; ptmpLPD = gapLoadedPrinterDrivers[nDriverSlot++]; if (ptmpLPD != NULL) { TRACE("Comparing %s,%s\n",ptmpLPD->szDriver,pszDriver); /* Found driver store info, exit loop */ if (strcasecmp(ptmpLPD->szDriver, pszDriver) == 0) pLPD = ptmpLPD; } } return pLPD; } static LOADED_PRINTER_DRIVER *FindPrinterDriverFromPDEVICE(SEGPTR segptrPDEVICE) { LOADED_PRINTER_DRIVER *pLPD = NULL; /* Find the printer driver associated with this PDEVICE */ /* Each of the PDEVICE structures has a PDEVICE_HEADER structure */ /* just before it */ if (segptrPDEVICE != (SEGPTR)NULL) { PDEVICE_HEADER *pPDH = (PDEVICE_HEADER *) ((char *) PTR_SEG_TO_LIN(segptrPDEVICE) - sizeof(PDEVICE_HEADER)); pLPD = pPDH->pLPD; } return pLPD; } /* * Load a printer driver, adding it self to the list of loaded drivers. */ LOADED_PRINTER_DRIVER *LoadPrinterDriver(const char *pszDriver) { HINSTANCE16 hInst; LOADED_PRINTER_DRIVER *pLPD = NULL; int nDriverSlot = 0; BOOL bSlotFound = FALSE; /* First look to see if driver is loaded */ pLPD = FindPrinterDriverFromName(pszDriver); if (pLPD != NULL) { /* Already loaded so increase usage count */ pLPD->nUsageCount++; return pLPD; } /* Not loaded so try and find an empty slot */ while (!bSlotFound && nDriverSlot < MAX_PRINTER_DRIVERS) { if (gapLoadedPrinterDrivers[nDriverSlot] == NULL) bSlotFound = TRUE; else nDriverSlot++; } if (!bSlotFound) { WARN("Too many printers drivers loaded\n"); return NULL; } { char *drvName = malloc(strlen(pszDriver)+5); strcpy(drvName, pszDriver); strcat(drvName, ".DRV"); hInst = LoadLibrary16(drvName); } if (hInst <= 32) { /* Failed to load driver */ WARN("Failed to load printer driver %s\n", pszDriver); } else { TRACE("Loaded the library\n"); /* Allocate some memory for printer driver info */ pLPD = malloc(sizeof(LOADED_PRINTER_DRIVER)); memset(pLPD, 0 , sizeof(LOADED_PRINTER_DRIVER)); pLPD->hInst = hInst; pLPD->szDriver = HEAP_strdupA(GetProcessHeap(),0,pszDriver); /* Get DS for the printer module */ pLPD->ds_reg = hInst; TRACE("DS for %s is %x\n", pszDriver, pLPD->ds_reg); /* Get address of printer driver functions */ GetPrinterDriverFunctions(hInst, pLPD); /* Set initial usage count */ pLPD->nUsageCount = 1; /* Update table of loaded printer drivers */ pLPD->nIndex = nDriverSlot; gapLoadedPrinterDrivers[nDriverSlot] = pLPD; } return pLPD; } /* * Control (ordinal 3) */ INT16 PRTDRV_Control(LPPDEVICE lpDestDev, WORD wfunction, SEGPTR lpInData, SEGPTR lpOutData) { /* wfunction == Escape code */ /* lpInData, lpOutData depend on code */ WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("%08x 0x%x %08lx %08lx\n", (unsigned int)lpDestDev, wfunction, lpInData, lpOutData); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { if (pLPD->fn[FUNC_CONTROL] == NULL) { WARN("Not supported by driver\n"); return 0; } wRet = PRTDRV_CallTo16_word_lwll( pLPD->fn[FUNC_CONTROL], (SEGPTR)lpDestDev, wfunction, lpInData, lpOutData ); } TRACE("return %x\n", wRet); return wRet; } /* * Enable (ordinal 5) */ WORD PRTDRV_Enable(LPVOID lpDevInfo, WORD wStyle, LPCSTR lpDestDevType, LPCSTR lpDeviceName, LPCSTR lpOutputFile, LPVOID lpData) { WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("%s %s\n",lpDestDevType, lpOutputFile); /* Get the printer driver info */ if (wStyle == INITPDEVICE) pLPD = FindPrinterDriverFromPDEVICE((SEGPTR)lpDevInfo); else pLPD = FindPrinterDriverFromName((char *)lpDeviceName); if (pLPD != NULL) { LONG lP5; DeviceCaps *lP1; LPSTR lP3,lP4; WORD wP2; if (!pLPD->fn[FUNC_ENABLE]) { WARN("Not supported by driver\n"); return 0; } if (wStyle == INITPDEVICE) lP1 = (DeviceCaps*)lpDevInfo;/* 16 bit segmented ptr already */ else lP1 = SEGPTR_NEW(DeviceCaps); wP2 = wStyle; /* SEGPTR_STRDUP handles NULL like a charm ... */ lP3 = SEGPTR_STRDUP(lpDestDevType); lP4 = SEGPTR_STRDUP(lpOutputFile); lP5 = (LONG)lpData; wRet = PRTDRV_CallTo16_word_lwlll(pLPD->fn[FUNC_ENABLE], (wStyle==INITPDEVICE)?(SEGPTR)lP1:SEGPTR_GET(lP1), wP2, SEGPTR_GET(lP3), SEGPTR_GET(lP4), lP5); SEGPTR_FREE(lP3); SEGPTR_FREE(lP4); /* Get the data back */ if (lP1 != 0 && wStyle != INITPDEVICE) { memcpy(lpDevInfo,lP1,sizeof(DeviceCaps)); SEGPTR_FREE(lP1); } } TRACE("return %x\n", wRet); return wRet; } /* * EnumDFonts (ordinal 6) */ WORD PRTDRV_EnumDFonts(LPPDEVICE lpDestDev, LPSTR lpFaceName, FARPROC16 lpCallbackFunc, LPVOID lpClientData) { WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("%08lx %s %p %p\n", lpDestDev, lpFaceName, lpCallbackFunc, lpClientData); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1, lP4; LPBYTE lP2; if (pLPD->fn[FUNC_ENUMDFONTS] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = (SEGPTR)lpDestDev; if(lpFaceName) lP2 = SEGPTR_STRDUP(lpFaceName); else lP2 = NULL; lP4 = (LONG)lpClientData; wRet = PRTDRV_CallTo16_word_llll( pLPD->fn[FUNC_ENUMDFONTS], lP1, SEGPTR_GET(lP2), (LONG)lpCallbackFunc,lP4); if(lpFaceName) SEGPTR_FREE(lP2); } else WARN("Failed to find device\n"); TRACE("return %x\n", wRet); return wRet; } /* * EnumObj (ordinal 7) */ BOOL16 PRTDRV_EnumObj(LPPDEVICE lpDestDev, WORD iStyle, FARPROC16 lpCallbackFunc, LPVOID lpClientData) { WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("(some params - fixme)\n"); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1, lP3, lP4; WORD wP2; if (pLPD->fn[FUNC_ENUMOBJ] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = (SEGPTR)lpDestDev; wP2 = iStyle; /* * Need to pass addres of function conversion function that will switch back to 32 bit code if necessary */ lP3 = (LONG)lpCallbackFunc; lP4 = (LONG)lpClientData; wRet = PRTDRV_CallTo16_word_lwll( pLPD->fn[FUNC_ENUMOBJ], lP1, wP2, lP3, lP4 ); } else WARN("Failed to find device\n"); TRACE("return %x\n", wRet); return wRet; } /* * Output (ordinal 8) */ WORD PRTDRV_Output(LPPDEVICE lpDestDev, WORD wStyle, WORD wCount, POINT16 *points, LPLOGPEN16 lpPen, LPLOGBRUSH16 lpBrush, SEGPTR lpDrawMode, HRGN hClipRgn) { WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("PRTDRV_OUTPUT %d\n", wStyle ); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1, lP5, lP6, lP7; LPPOINT16 lP4; LPRECT16 lP8; WORD wP2, wP3; int nSize; if (pLPD->fn[FUNC_OUTPUT] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = lpDestDev; wP2 = wStyle; wP3 = wCount; nSize = sizeof(POINT16) * wCount; lP4 = (LPPOINT16 )SEGPTR_ALLOC(nSize); memcpy(lP4,points,nSize); lP5 = SEGPTR_GET( lpPen ); lP6 = SEGPTR_GET( lpBrush ); lP7 = lpDrawMode; if (hClipRgn) { DWORD size; RGNDATA *clip; size = GetRegionData( hClipRgn, 0, NULL ); clip = HeapAlloc( GetProcessHeap(), 0, size ); if(!clip) { WARN("Can't alloc clip array in PRTDRV_Output\n"); return FALSE; } GetRegionData( hClipRgn, size, clip ); if( clip->rdh.nCount == 0 ) { wRet = PRTDRV_CallTo16_word_lwwlllll(pLPD->fn[FUNC_OUTPUT], lP1, wP2, wP3, SEGPTR_GET(lP4), lP5, lP6, lP7, (SEGPTR) NULL); } else { RECT *pRect; lP8 = SEGPTR_NEW(RECT16); for(pRect = (RECT *)clip->Buffer; pRect < (RECT *)clip->Buffer + clip->rdh.nCount; pRect++) { CONV_RECT32TO16( pRect, lP8 ); TRACE("rect = %d,%d - %d,%d\n", lP8->left, lP8->top, lP8->right, lP8->bottom ); wRet = PRTDRV_CallTo16_word_lwwlllll(pLPD->fn[FUNC_OUTPUT], lP1, wP2, wP3, SEGPTR_GET(lP4), lP5, lP6, lP7, SEGPTR_GET(lP8)); } SEGPTR_FREE(lP8); } HeapFree( GetProcessHeap(), 0, clip ); } else { wRet = PRTDRV_CallTo16_word_lwwlllll(pLPD->fn[FUNC_OUTPUT], lP1, wP2, wP3, SEGPTR_GET(lP4), lP5, lP6, lP7, (SEGPTR) NULL); } SEGPTR_FREE(lP4); } TRACE("PRTDRV_Output return %d\n", wRet); return wRet; } /* * RealizeObject (ordinal 10) */ DWORD PRTDRV_RealizeObject(LPPDEVICE lpDestDev, WORD wStyle, LPVOID lpInObj, LPVOID lpOutObj, SEGPTR lpTextXForm) { WORD dwRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("%08lx %04x %p %p %08lx\n", lpDestDev, wStyle, lpInObj, lpOutObj, lpTextXForm); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1, lP3, lP4, lP5; WORD wP2; LPBYTE lpBuf = NULL; unsigned int nSize; if (pLPD->fn[FUNC_REALIZEOBJECT] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = lpDestDev; wP2 = wStyle; switch ((INT16)wStyle) { case DRVOBJ_BRUSH: nSize = sizeof (LOGBRUSH16); break; case DRVOBJ_FONT: nSize = sizeof(LOGFONT16); break; case DRVOBJ_PEN: nSize = sizeof(LOGPEN16); break; case -DRVOBJ_BRUSH: case -DRVOBJ_FONT: case -DRVOBJ_PEN: nSize = -1; break; case DRVOBJ_PBITMAP: default: WARN("Object type %d not supported\n", wStyle); nSize = 0; } if(nSize != -1) { lpBuf = SEGPTR_ALLOC(nSize); memcpy(lpBuf, lpInObj, nSize); lP3 = SEGPTR_GET(lpBuf); } else lP3 = SEGPTR_GET( lpInObj ); lP4 = SEGPTR_GET( lpOutObj ); lP5 = lpTextXForm; TRACE("Calling Realize %08lx %04x %08lx %08lx %08lx\n", lP1, wP2, lP3, lP4, lP5); dwRet = PRTDRV_CallTo16_long_lwlll(pLPD->fn[FUNC_REALIZEOBJECT], lP1, wP2, lP3, lP4, lP5); if(lpBuf) SEGPTR_FREE(lpBuf); } TRACE("return %x\n", dwRet); return dwRet; } /* * StretchBlt (ordinal 27) */ DWORD PRTDRV_StretchBlt(LPPDEVICE lpDestDev, WORD wDestX, WORD wDestY, WORD wDestXext, WORD wDestYext, LPPDEVICE lpSrcDev, WORD wSrcX, WORD wSrcY, WORD wSrcXext, WORD wSrcYext, DWORD Rop3, LPLOGBRUSH16 lpBrush, SEGPTR lpDrawMode, RECT16 *lpClipRect) { WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("(lots of params - fixme)\n"); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1,lP6, lP11, lP12, lP13; LPRECT16 lP14; WORD wP2, wP3, wP4, wP5, wP7, wP8, wP9, wP10; if (pLPD->fn[FUNC_STRETCHBLT] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = lpDestDev; wP2 = wDestX; wP3 = wDestY; wP4 = wDestXext; wP5 = wDestYext; lP6 = lpSrcDev; wP7 = wSrcX; wP8 = wSrcY; wP9 = wSrcXext; wP10 = wSrcYext; lP11 = Rop3; lP12 = SEGPTR_GET( lpBrush ); lP13 = lpDrawMode; if (lpClipRect != NULL) { lP14 = SEGPTR_NEW(RECT16); memcpy(lP14,lpClipRect,sizeof(RECT16)); } else lP14 = 0L; wRet = PRTDRV_CallTo16_word_lwwwwlwwwwllll(pLPD->fn[FUNC_STRETCHBLT], lP1, wP2, wP3, wP4, wP5, lP6, wP7, wP8, wP9, wP10, lP11, lP12, lP13, SEGPTR_GET(lP14)); SEGPTR_FREE(lP14); TRACE("Called StretchBlt ret %d\n",wRet); } return wRet; } DWORD PRTDRV_ExtTextOut(LPPDEVICE lpDestDev, WORD wDestXOrg, WORD wDestYOrg, RECT16 *lpClipRect, LPCSTR lpString, WORD wCount, LPFONTINFO16 lpFontInfo, SEGPTR lpDrawMode, SEGPTR lpTextXForm, SHORT *lpCharWidths, RECT16 * lpOpaqueRect, WORD wOptions) { DWORD dwRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("(lots of params - fixme)\n"); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1, lP7, lP8, lP9, lP10; LPSTR lP5; LPRECT16 lP4,lP11; WORD wP2, wP3, wP12; INT16 iP6; unsigned int nSize = -1; if (pLPD->fn[FUNC_EXTTEXTOUT] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = lpDestDev; wP2 = wDestXOrg; wP3 = wDestYOrg; if (lpClipRect != NULL) { lP4 = SEGPTR_NEW(RECT16); TRACE("Adding lpClipRect\n"); memcpy(lP4,lpClipRect,sizeof(RECT16)); } else lP4 = 0L; if (lpString != NULL) { nSize = strlen(lpString); if (nSize>abs(wCount)) nSize = abs(wCount); lP5 = SEGPTR_ALLOC(nSize+1); TRACE("Adding lpString (nSize is %d)\n",nSize); memcpy(lP5,lpString,nSize); *((char *)lP5 + nSize) = '\0'; } else lP5 = 0L; iP6 = wCount; /* This should be realized by the driver, so in 16bit data area */ lP7 = SEGPTR_GET( lpFontInfo ); lP8 = lpDrawMode; lP9 = lpTextXForm; if (lpCharWidths != NULL) FIXME("Char widths not supported\n"); lP10 = 0; if (lpOpaqueRect != NULL) { lP11 = SEGPTR_NEW(RECT16); TRACE("Adding lpOpaqueRect\n"); memcpy(lP11,lpOpaqueRect,sizeof(RECT16)); } else lP11 = 0L; wP12 = wOptions; TRACE("Calling ExtTextOut 0x%lx 0x%x 0x%x %p\n", lP1, wP2, wP3, lP4); TRACE("%*s 0x%x 0x%lx 0x%lx\n", nSize,lP5, iP6, lP7, lP8); TRACE("0x%lx 0x%lx %p 0x%x\n", lP9, lP10, lP11, wP12); dwRet = PRTDRV_CallTo16_long_lwwllwlllllw(pLPD->fn[FUNC_EXTTEXTOUT], lP1, wP2, wP3, SEGPTR_GET(lP4), SEGPTR_GET(lP5), iP6, lP7, lP8, lP9, lP10, SEGPTR_GET(lP11), wP12); } TRACE("return %lx\n", dwRet); return dwRet; } int WINAPI dmEnumDFonts16(LPPDEVICE lpDestDev, LPSTR lpFaceName, FARPROC16 lpCallbackFunc, LPVOID lpClientData) { /* Windows 3.1 just returns 1 */ return 1; } int WINAPI dmRealizeObject16(LPPDEVICE lpDestDev, INT16 wStyle, LPSTR lpInObj, LPSTR lpOutObj, SEGPTR lpTextXForm) { FIXME("(lpDestDev=%08x,wStyle=%04x,lpInObj=%08x,lpOutObj=%08x,lpTextXForm=%08x): stub\n", (UINT)lpDestDev, wStyle, (UINT)lpInObj, (UINT)lpOutObj, (UINT)lpTextXForm); if (wStyle < 0) { /* Free extra memory of given object's structure */ switch ( -wStyle ) { case DRVOBJ_PEN: { /* LPLOGPEN16 DeletePen = (LPLOGPEN16)lpInObj; */ TRACE("DRVOBJ_PEN_delete\n"); break; } case DRVOBJ_BRUSH: { TRACE("DRVOBJ_BRUSH_delete\n"); break; } case DRVOBJ_FONT: { /* LPTEXTXFORM16 TextXForm = (LPTEXTXFORM16)lpTextXForm; */ TRACE("DRVOBJ_FONT_delete\n"); break; } case DRVOBJ_PBITMAP: TRACE("DRVOBJ_PBITMAP_delete\n"); break; } } else { /* Realize given object */ switch (wStyle) { case DRVOBJ_PEN: { LPLOGPEN16 InPen = (LPLOGPEN16)lpInObj; TRACE("DRVOBJ_PEN\n"); if (lpOutObj) { if (InPen->lopnStyle == PS_NULL) { *(DWORD *)lpOutObj = 0; *(WORD *)(lpOutObj+4) = InPen->lopnStyle; } else if ((InPen->lopnWidth.x > 1) || (InPen->lopnStyle > PS_NULL) ) { *(DWORD *)lpOutObj = InPen->lopnColor; *(WORD *)(lpOutObj+4) = 0; } else { *(DWORD *)lpOutObj = InPen->lopnColor & 0xffff0000; *(WORD *)(lpOutObj+4) = InPen->lopnStyle; } } return sizeof(LOGPEN16); } case DRVOBJ_BRUSH: { LPLOGBRUSH16 InBrush = (LPLOGBRUSH16)lpInObj; LPLOGBRUSH16 OutBrush = (LPLOGBRUSH16)lpOutObj; /* LPPOINT16 Point = (LPPOINT16)lpTextXForm; */ TRACE("DRVOBJ_BRUSH\n"); if (!lpOutObj) return sizeof(LOGBRUSH16); else { OutBrush->lbStyle = InBrush->lbStyle; OutBrush->lbColor = InBrush->lbColor; OutBrush->lbHatch = InBrush->lbHatch; if (InBrush->lbStyle == BS_SOLID) return 0x8002; /* FIXME: diff mono-color */ else return 0x8000; } } case DRVOBJ_FONT: { /* LPTEXTXFORM16 TextXForm = (LPTEXTXFORM16)lpTextXForm; */ TRACE("DRVOBJ_FONT\n"); return 0;/* DISPLAY.DRV doesn't realize fonts */ } case DRVOBJ_PBITMAP: TRACE("DRVOBJ_PBITMAP\n"); return 0; /* create memory bitmap */ } } return 1; } WORD PRTDRV_GetCharWidth(LPPDEVICE lpDestDev, LPINT lpBuffer, WORD wFirstChar, WORD wLastChar, LPFONTINFO16 lpFontInfo, SEGPTR lpDrawMode, SEGPTR lpTextXForm ) { WORD wRet = 0; LOADED_PRINTER_DRIVER *pLPD = NULL; TRACE("(lots of params - fixme)\n"); if ((pLPD = FindPrinterDriverFromPDEVICE(lpDestDev)) != NULL) { LONG lP1, lP5, lP6, lP7; LPWORD lP2; WORD wP3, wP4, i; if (pLPD->fn[FUNC_GETCHARWIDTH] == NULL) { WARN("Not supported by driver\n"); return 0; } lP1 = lpDestDev; lP2 = SEGPTR_ALLOC( (wLastChar - wFirstChar + 1) * sizeof(WORD) ); wP3 = wFirstChar; wP4 = wLastChar; lP5 = SEGPTR_GET( lpFontInfo ); lP6 = lpDrawMode; lP7 = lpTextXForm; wRet = PRTDRV_CallTo16_word_llwwlll(pLPD->fn[FUNC_GETCHARWIDTH], lP1, SEGPTR_GET(lP2), wP3, wP4, lP5, lP6, lP7 ); for(i = 0; i <= wLastChar - wFirstChar; i++) lpBuffer[i] = (INT) lP2[i]; SEGPTR_FREE(lP2); } return wRet; } /************************************************************** * * WIN16DRV_ExtDeviceMode */ INT WIN16DRV_ExtDeviceMode(LPSTR lpszDriver, HWND hwnd, LPDEVMODEA lpdmOutput, LPSTR lpszDevice, LPSTR lpszPort, LPDEVMODEA lpdmInput, LPSTR lpszProfile, DWORD dwMode) { LOADED_PRINTER_DRIVER *pLPD = LoadPrinterDriver(lpszDriver); LPDEVMODEA lpSegOut = NULL, lpSegIn = NULL; LPSTR lpSegDevice, lpSegPort, lpSegProfile; INT16 wRet; WORD wOutSize = 0, wInSize = 0; if(!pLPD) return -1; if(pLPD->fn[FUNC_EXTDEVICEMODE] == NULL) { WARN("No EXTDEVICEMODE\n"); return -1; } lpSegDevice = SEGPTR_STRDUP(lpszDevice); lpSegPort = SEGPTR_STRDUP(lpszPort); lpSegProfile = SEGPTR_STRDUP(lpszProfile); if(lpdmOutput) { /* We don't know how big this will be so we call the driver's ExtDeviceMode to find out */ wOutSize = PRTDRV_CallTo16_word_wwlllllw( pLPD->fn[FUNC_EXTDEVICEMODE], hwnd, pLPD->hInst, 0, SEGPTR_GET(lpSegDevice), SEGPTR_GET(lpSegPort), 0, SEGPTR_GET(lpSegProfile), 0 ); lpSegOut = SEGPTR_ALLOC(wOutSize); } if(lpdmInput) { /* This time we get the information from the fields */ wInSize = lpdmInput->dmSize + lpdmInput->dmDriverExtra; lpSegIn = SEGPTR_ALLOC(wInSize); memcpy(lpSegIn, lpdmInput, wInSize); } wRet = PRTDRV_CallTo16_word_wwlllllw( pLPD->fn[FUNC_EXTDEVICEMODE], hwnd, pLPD->hInst, SEGPTR_GET(lpSegOut), SEGPTR_GET(lpSegDevice), SEGPTR_GET(lpSegPort), SEGPTR_GET(lpSegIn), SEGPTR_GET(lpSegProfile), dwMode ); if(lpSegOut) { memcpy(lpdmOutput, lpSegOut, wOutSize); SEGPTR_FREE(lpSegOut); } if(lpSegIn) { SEGPTR_FREE(lpSegIn); } SEGPTR_FREE(lpSegDevice); SEGPTR_FREE(lpSegPort); SEGPTR_FREE(lpSegProfile); return wRet; } /************************************************************** * * WIN16DRV_DeviceCapabilities * * This is a bit of a pain since we don't know the size of lpszOutput we have * call the driver twice. */ DWORD WIN16DRV_DeviceCapabilities(LPSTR lpszDriver, LPCSTR lpszDevice, LPCSTR lpszPort, WORD fwCapability, LPSTR lpszOutput, LPDEVMODEA lpDevMode) { LOADED_PRINTER_DRIVER *pLPD = LoadPrinterDriver(lpszDriver); LPVOID lpSegdm = NULL, lpSegOut = NULL; LPSTR lpSegDevice, lpSegPort; DWORD dwRet; INT OutputSize; TRACE("%s,%s,%s,%d,%p,%p\n", lpszDriver, lpszDevice, lpszPort, fwCapability, lpszOutput, lpDevMode); if(!pLPD) return -1; if(pLPD->fn[FUNC_DEVICECAPABILITIES] == NULL) { WARN("No DEVICECAPABILITES\n"); return -1; } lpSegDevice = SEGPTR_STRDUP(lpszDevice); lpSegPort = SEGPTR_STRDUP(lpszPort); if(lpDevMode) { lpSegdm = SEGPTR_ALLOC(lpDevMode->dmSize + lpDevMode->dmDriverExtra); memcpy(lpSegdm, lpDevMode, lpDevMode->dmSize + lpDevMode->dmDriverExtra); } dwRet = PRTDRV_CallTo16_long_llwll( pLPD->fn[FUNC_DEVICECAPABILITIES], SEGPTR_GET(lpSegDevice), SEGPTR_GET(lpSegPort), fwCapability, 0, SEGPTR_GET(lpSegdm) ); if(dwRet == -1) return -1; switch(fwCapability) { case DC_BINADJUST: case DC_COLLATE: case DC_COLORDEVICE: case DC_COPIES: case DC_DRIVER: case DC_DUPLEX: case DC_EMF_COMPLIANT: case DC_EXTRA: case DC_FIELDS: case DC_MANUFACTURER: case DC_MAXEXTENT: case DC_MINEXTENT: case DC_MODEL: case DC_ORIENTATION: case DC_PRINTERMEM: case DC_PRINTRATEUNIT: case DC_SIZE: case DC_TRUETYPE: case DC_VERSION: OutputSize = 0; break; case DC_BINNAMES: OutputSize = 24 * dwRet; break; case DC_BINS: case DC_PAPERS: OutputSize = sizeof(WORD) * dwRet; break; case DC_DATATYPE_PRODUCED: OutputSize = dwRet; FIXME("%ld DataTypes supported. Don't know how long to make buffer!\n", dwRet); break; case DC_ENUMRESOLUTIONS: OutputSize = 2 * sizeof(LONG) * dwRet; break; case DC_FILEDEPENDENCIES: case DC_MEDIAREADY: case DC_PAPERNAMES: OutputSize = 64 * dwRet; break; case DC_NUP: OutputSize = sizeof(DWORD) * dwRet; break; case DC_PAPERSIZE: OutputSize = sizeof(POINT16) * dwRet; break; case DC_PERSONALITY: OutputSize = 32 * dwRet; break; default: FIXME("Unsupported capability %d\n", fwCapability); OutputSize = 0; break; } if(OutputSize && lpszOutput) { lpSegOut = SEGPTR_ALLOC(OutputSize); dwRet = PRTDRV_CallTo16_long_llwll( pLPD->fn[FUNC_DEVICECAPABILITIES], SEGPTR_GET(lpSegDevice), SEGPTR_GET(lpSegPort), fwCapability, SEGPTR_GET(lpSegOut), SEGPTR_GET(lpSegdm) ); memcpy(lpszOutput, lpSegOut, OutputSize); SEGPTR_FREE(lpSegOut); } if(lpSegdm) { memcpy(lpDevMode, lpSegdm, lpDevMode->dmSize + lpDevMode->dmDriverExtra); SEGPTR_FREE(lpSegdm); } SEGPTR_FREE(lpSegDevice); SEGPTR_FREE(lpSegPort); return dwRet; }