/* * PostScript driver Escape function * * Copyright 1998 Huw D M Davies * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "wine/wingdi16.h" #include "wine/winuser16.h" #include "wownt32.h" #include "psdrv.h" #include "wine/debug.h" #include "winspool.h" #include "heap.h" WINE_DEFAULT_DEBUG_CHANNEL(psdrv); static const char psbegindocument[] = "%%BeginDocument: Wine passthrough\n"; /********************************************************************** * ExtEscape (WINEPS.@) */ INT PSDRV_ExtEscape( PSDRV_PDEVICE *physDev, INT nEscape, INT cbInput, LPCVOID in_data, INT cbOutput, LPVOID out_data ) { switch(nEscape) { case QUERYESCSUPPORT: if(cbInput < sizeof(INT)) { WARN("cbInput < sizeof(INT) (=%d) for QUERYESCSUPPORT\n", cbInput); return 0; } else { UINT num = *(const UINT *)in_data; TRACE("QUERYESCSUPPORT for %d\n", num); switch(num) { case NEXTBAND: /*case BANDINFO:*/ case SETCOPYCOUNT: case GETTECHNOLOGY: case SETLINECAP: case SETLINEJOIN: case SETMITERLIMIT: case SETCHARSET: case EXT_DEVICE_CAPS: case SET_BOUNDS: case EPSPRINTING: case POSTSCRIPT_DATA: case PASSTHROUGH: case POSTSCRIPT_PASSTHROUGH: case POSTSCRIPT_IGNORE: case BEGIN_PATH: case CLIP_TO_PATH: case END_PATH: /*case DRAWPATTERNRECT:*/ return TRUE; default: FIXME("QUERYESCSUPPORT(%d) - not supported.\n", num); return FALSE; } } case MFCOMMENT: { FIXME("MFCOMMENT(%p, %d)\n", in_data, cbInput); return 1; } case DRAWPATTERNRECT: { DRAWPATRECT *dpr = (DRAWPATRECT*)in_data; FIXME("DRAWPATTERNRECT(pos (%ld,%ld), size %ldx%ld, style %d, pattern %x), stub!\n", dpr->ptPosition.x, dpr->ptPosition.y, dpr->ptSize.x, dpr->ptSize.y, dpr->wStyle, dpr->wPattern ); return 1; } case BANDINFO: { BANDINFOSTRUCT *ibi = (BANDINFOSTRUCT*)in_data; BANDINFOSTRUCT *obi = (BANDINFOSTRUCT*)out_data; FIXME("BANDINFO(graphics %d, text %d, rect [%ldx%ld-%ldx%ld]), stub!\n", ibi->GraphicsFlag, ibi->TextFlag, ibi->GraphicsRect.top, ibi->GraphicsRect.bottom, ibi->GraphicsRect.left, ibi->GraphicsRect.right ); memcpy (obi, ibi, sizeof(*ibi)); return 1; } case NEXTBAND: { RECT *r = out_data; if(!physDev->job.banding) { physDev->job.banding = TRUE; r->left = 0; r->top = 0; r->right = physDev->horzRes; r->bottom = physDev->vertRes; TRACE("NEXTBAND returning %ld,%ld - %ld,%ld\n", r->left, r->top, r->right, r->bottom ); return 1; } r->left = 0; r->top = 0; r->right = 0; r->bottom = 0; TRACE("NEXTBAND rect to 0,0 - 0,0\n" ); physDev->job.banding = FALSE; return EndPage( physDev->hdc ); } case SETCOPYCOUNT: { const INT *NumCopies = in_data; INT *ActualCopies = out_data; if(cbInput != sizeof(INT)) { WARN("cbInput != sizeof(INT) (=%d) for SETCOPYCOUNT\n", cbInput); return 0; } TRACE("SETCOPYCOUNT %d\n", *NumCopies); *ActualCopies = 1; return 1; } case GETTECHNOLOGY: { LPSTR p = out_data; strcpy(p, "PostScript"); *(p + strlen(p) + 1) = '\0'; /* 2 '\0's at end of string */ return 1; } case SETLINECAP: { INT newCap = *(const INT *)in_data; if(cbInput != sizeof(INT)) { WARN("cbInput != sizeof(INT) (=%d) for SETLINECAP\n", cbInput); return 0; } TRACE("SETLINECAP %d\n", newCap); return 0; } case SETLINEJOIN: { INT newJoin = *(const INT *)in_data; if(cbInput != sizeof(INT)) { WARN("cbInput != sizeof(INT) (=%d) for SETLINEJOIN\n", cbInput); return 0; } TRACE("SETLINEJOIN %d\n", newJoin); return 0; } case SETMITERLIMIT: { INT newLimit = *(const INT *)in_data; if(cbInput != sizeof(INT)) { WARN("cbInput != sizeof(INT) (=%d) for SETMITERLIMIT\n", cbInput); return 0; } TRACE("SETMITERLIMIT %d\n", newLimit); return 0; } case SETCHARSET: /* Undocumented escape used by winword6. Switches between ANSI and a special charset. If *lpInData == 1 we require that 0x91 is quoteleft 0x92 is quoteright 0x93 is quotedblleft 0x94 is quotedblright 0x95 is bullet 0x96 is endash 0x97 is emdash 0xa0 is non break space - yeah right. If *lpInData == 0 we get ANSI. Since there's nothing else there, let's just make these the default anyway and see what happens... */ return 1; case EXT_DEVICE_CAPS: { UINT cap = *(const UINT *)in_data; if(cbInput != sizeof(UINT)) { WARN("cbInput != sizeof(UINT) (=%d) for EXT_DEVICE_CAPS\n", cbInput); return 0; } TRACE("EXT_DEVICE_CAPS %d\n", cap); return 0; } case SET_BOUNDS: { const RECT *r = in_data; if(cbInput != sizeof(RECT)) { WARN("cbInput != sizeof(RECT) (=%d) for SET_BOUNDS\n", cbInput); return 0; } TRACE("SET_BOUNDS (%ld,%ld) - (%ld,%ld)\n", r->left, r->top, r->right, r->bottom); return 0; } case EPSPRINTING: { UINT epsprint = *(const UINT*)in_data; /* FIXME: In this mode we do not need to send page intros and page * ends according to the doc. But I just ignore that detail * for now. */ TRACE("EPS Printing support %sable.\n",epsprint?"en":"dis"); return 1; } case POSTSCRIPT_DATA: case PASSTHROUGH: case POSTSCRIPT_PASSTHROUGH: { /* Write directly to spool file, bypassing normal PS driver * processing that is done along with writing PostScript code * to the spool. * We have a WORD before the data counting the size, but * cbInput is just this +2. * However Photoshop 7 has a bug that sets cbInput to 2 less than the * length of the string, rather than 2 more. So we'll use the WORD at * in_data[0] instead. */ if(!physDev->job.in_passthrough) { WriteSpool16(physDev->job.hJob, (LPSTR)psbegindocument, sizeof(psbegindocument)-1); physDev->job.in_passthrough = TRUE; } return WriteSpool16(physDev->job.hJob,((char*)in_data)+2,*(const WORD*)in_data); } case POSTSCRIPT_IGNORE: { BOOL ret = physDev->job.quiet; TRACE("POSTSCRIPT_IGNORE %d\n", *(const short*)in_data); physDev->job.quiet = *(const short*)in_data; return ret; } case GETSETPRINTORIENT: { /* If lpInData is present, it is a 20 byte structure, first 32 * bit LONG value is the orientation. if lpInData is NULL, it * returns the current orientation. */ FIXME("GETSETPRINTORIENT not implemented (data %p)!\n",in_data); return 1; } case BEGIN_PATH: TRACE("BEGIN_PATH\n"); if(physDev->pathdepth) FIXME("Nested paths not yet handled\n"); return ++physDev->pathdepth; case END_PATH: { const struct PATH_INFO *info = (const struct PATH_INFO*)in_data; TRACE("END_PATH\n"); if(!physDev->pathdepth) { ERR("END_PATH called without a BEIGN_PATH\n"); return -1; } TRACE("RenderMode = %d, FillMode = %d, BkMode = %d\n", info->RenderMode, info->FillMode, info->BkMode); switch(info->RenderMode) { case RENDERMODE_NO_DISPLAY: PSDRV_WriteClosePath(physDev); /* not sure if this is necessary, but it can't hurt */ break; case RENDERMODE_OPEN: case RENDERMODE_CLOSED: default: FIXME("END_PATH: RenderMode %d, not yet supported\n", info->RenderMode); break; } return --physDev->pathdepth; } case CLIP_TO_PATH: { WORD mode = *(const WORD*)in_data; switch(mode) { case CLIP_SAVE: TRACE("CLIP_TO_PATH: CLIP_SAVE\n"); PSDRV_WriteGSave(physDev); return 1; case CLIP_RESTORE: TRACE("CLIP_TO_PATH: CLIP_RESTORE\n"); PSDRV_WriteGRestore(physDev); return 1; case CLIP_INCLUSIVE: TRACE("CLIP_TO_PATH: CLIP_INCLUSIVE\n"); /* FIXME to clip or eoclip ? (see PATH_INFO.FillMode) */ PSDRV_WriteClip(physDev); PSDRV_WriteNewPath(physDev); return 1; case CLIP_EXCLUSIVE: FIXME("CLIP_EXCLUSIVE: not implemented\n"); return 0; default: FIXME("Unknown CLIP_TO_PATH mode %d\n", mode); return 0; } } default: FIXME("Unimplemented code 0x%x\n", nEscape); return 0; } } /************************************************************************ * PSDRV_StartPage */ INT PSDRV_StartPage( PSDRV_PDEVICE *physDev ) { if(!physDev->job.OutOfPage) { FIXME("Already started a page?\n"); return 1; } if(physDev->job.PageNo++ == 0) { if(!PSDRV_WriteHeader( physDev, physDev->job.DocName )) return 0; } if(!PSDRV_WriteNewPage( physDev )) return 0; physDev->job.OutOfPage = FALSE; return 1; } /************************************************************************ * PSDRV_EndPage */ INT PSDRV_EndPage( PSDRV_PDEVICE *physDev ) { if(physDev->job.OutOfPage) { FIXME("Already ended a page?\n"); return 1; } if(!PSDRV_WriteEndPage( physDev )) return 0; PSDRV_EmptyDownloadList(physDev, FALSE); physDev->job.OutOfPage = TRUE; return 1; } /************************************************************************ * PSDRV_StartDocA */ INT PSDRV_StartDocA( PSDRV_PDEVICE *physDev, const DOCINFOA *doc ) { LPCSTR output = "LPT1:"; BYTE buf[300]; HANDLE hprn = INVALID_HANDLE_VALUE; PRINTER_INFO_5A *pi5 = (PRINTER_INFO_5A*)buf; DWORD needed; if(physDev->job.hJob) { FIXME("hJob != 0. Now what?\n"); return 0; } if(doc->lpszOutput) output = doc->lpszOutput; else if(physDev->job.output) output = physDev->job.output; else { if(OpenPrinterA(physDev->pi->FriendlyName, &hprn, NULL) && GetPrinterA(hprn, 5, buf, sizeof(buf), &needed)) { output = pi5->pPortName; } if(hprn != INVALID_HANDLE_VALUE) ClosePrinter(hprn); } physDev->job.hJob = OpenJob16(output, doc->lpszDocName, HDC_16(physDev->hdc) ); if(!physDev->job.hJob) { WARN("OpenJob failed\n"); return 0; } physDev->job.banding = FALSE; physDev->job.OutOfPage = TRUE; physDev->job.PageNo = 0; physDev->job.quiet = FALSE; physDev->job.in_passthrough = FALSE; physDev->job.had_passthrough_rect = FALSE; if(doc->lpszDocName) { physDev->job.DocName = HeapAlloc(GetProcessHeap(), 0, strlen(doc->lpszDocName)+1); strcpy(physDev->job.DocName, doc->lpszDocName); } else physDev->job.DocName = NULL; return physDev->job.hJob; } /************************************************************************ * PSDRV_StartDoc */ INT PSDRV_StartDoc( PSDRV_PDEVICE *physDev, const DOCINFOW *doc ) { DOCINFOA docA; INT ret; docA.cbSize = doc->cbSize; docA.lpszDocName = doc->lpszDocName ? HEAP_strdupWtoA( GetProcessHeap(), 0, doc->lpszDocName ) : NULL; docA.lpszOutput = doc->lpszOutput ? HEAP_strdupWtoA( GetProcessHeap(), 0, doc->lpszOutput ) : NULL; docA.lpszDatatype = doc->lpszDatatype ? HEAP_strdupWtoA( GetProcessHeap(), 0, doc->lpszDatatype ) : NULL; docA.fwType = doc->fwType; ret = PSDRV_StartDocA(physDev, &docA); HeapFree( GetProcessHeap(), 0, (LPSTR)docA.lpszDocName ); HeapFree( GetProcessHeap(), 0, (LPSTR)docA.lpszOutput ); HeapFree( GetProcessHeap(), 0, (LPSTR)docA.lpszDatatype ); return ret; } /************************************************************************ * PSDRV_EndDoc */ INT PSDRV_EndDoc( PSDRV_PDEVICE *physDev ) { INT ret = 1; if(!physDev->job.hJob) { FIXME("hJob == 0. Now what?\n"); return 0; } if(!physDev->job.OutOfPage) { WARN("Somebody forgot an EndPage\n"); PSDRV_EndPage( physDev ); } PSDRV_WriteFooter( physDev ); if( CloseJob16( physDev->job.hJob ) == SP_ERROR ) { WARN("CloseJob error\n"); ret = 0; } physDev->job.hJob = 0; HeapFree(GetProcessHeap(), 0, physDev->job.DocName); physDev->job.DocName = NULL; return ret; }