/* * Enhanced metafile functions * Copyright 1998 Douglas Ridgway * 1999 Huw D M Davies * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * NOTES: * * The enhanced format consists of the following elements: * * A header * A table of handles to GDI objects * An array of metafile records * A private palette * * * The standard format consists of a header and an array of metafile records. * */ #include "config.h" #include "wine/port.h" #include #include #include #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "winnls.h" #include "winerror.h" #include "gdi.h" #include "gdi_private.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(enhmetafile); typedef struct { GDIOBJHDR header; ENHMETAHEADER *emh; BOOL on_disk; /* true if metafile is on disk */ } ENHMETAFILEOBJ; static const struct emr_name { DWORD type; const char *name; } emr_names[] = { #define X(p) {p, #p} X(EMR_HEADER), X(EMR_POLYBEZIER), X(EMR_POLYGON), X(EMR_POLYLINE), X(EMR_POLYBEZIERTO), X(EMR_POLYLINETO), X(EMR_POLYPOLYLINE), X(EMR_POLYPOLYGON), X(EMR_SETWINDOWEXTEX), X(EMR_SETWINDOWORGEX), X(EMR_SETVIEWPORTEXTEX), X(EMR_SETVIEWPORTORGEX), X(EMR_SETBRUSHORGEX), X(EMR_EOF), X(EMR_SETPIXELV), X(EMR_SETMAPPERFLAGS), X(EMR_SETMAPMODE), X(EMR_SETBKMODE), X(EMR_SETPOLYFILLMODE), X(EMR_SETROP2), X(EMR_SETSTRETCHBLTMODE), X(EMR_SETTEXTALIGN), X(EMR_SETCOLORADJUSTMENT), X(EMR_SETTEXTCOLOR), X(EMR_SETBKCOLOR), X(EMR_OFFSETCLIPRGN), X(EMR_MOVETOEX), X(EMR_SETMETARGN), X(EMR_EXCLUDECLIPRECT), X(EMR_INTERSECTCLIPRECT), X(EMR_SCALEVIEWPORTEXTEX), X(EMR_SCALEWINDOWEXTEX), X(EMR_SAVEDC), X(EMR_RESTOREDC), X(EMR_SETWORLDTRANSFORM), X(EMR_MODIFYWORLDTRANSFORM), X(EMR_SELECTOBJECT), X(EMR_CREATEPEN), X(EMR_CREATEBRUSHINDIRECT), X(EMR_DELETEOBJECT), X(EMR_ANGLEARC), X(EMR_ELLIPSE), X(EMR_RECTANGLE), X(EMR_ROUNDRECT), X(EMR_ARC), X(EMR_CHORD), X(EMR_PIE), X(EMR_SELECTPALETTE), X(EMR_CREATEPALETTE), X(EMR_SETPALETTEENTRIES), X(EMR_RESIZEPALETTE), X(EMR_REALIZEPALETTE), X(EMR_EXTFLOODFILL), X(EMR_LINETO), X(EMR_ARCTO), X(EMR_POLYDRAW), X(EMR_SETARCDIRECTION), X(EMR_SETMITERLIMIT), X(EMR_BEGINPATH), X(EMR_ENDPATH), X(EMR_CLOSEFIGURE), X(EMR_FILLPATH), X(EMR_STROKEANDFILLPATH), X(EMR_STROKEPATH), X(EMR_FLATTENPATH), X(EMR_WIDENPATH), X(EMR_SELECTCLIPPATH), X(EMR_ABORTPATH), X(EMR_GDICOMMENT), X(EMR_FILLRGN), X(EMR_FRAMERGN), X(EMR_INVERTRGN), X(EMR_PAINTRGN), X(EMR_EXTSELECTCLIPRGN), X(EMR_BITBLT), X(EMR_STRETCHBLT), X(EMR_MASKBLT), X(EMR_PLGBLT), X(EMR_SETDIBITSTODEVICE), X(EMR_STRETCHDIBITS), X(EMR_EXTCREATEFONTINDIRECTW), X(EMR_EXTTEXTOUTA), X(EMR_EXTTEXTOUTW), X(EMR_POLYBEZIER16), X(EMR_POLYGON16), X(EMR_POLYLINE16), X(EMR_POLYBEZIERTO16), X(EMR_POLYLINETO16), X(EMR_POLYPOLYLINE16), X(EMR_POLYPOLYGON16), X(EMR_POLYDRAW16), X(EMR_CREATEMONOBRUSH), X(EMR_CREATEDIBPATTERNBRUSHPT), X(EMR_EXTCREATEPEN), X(EMR_POLYTEXTOUTA), X(EMR_POLYTEXTOUTW), X(EMR_SETICMMODE), X(EMR_CREATECOLORSPACE), X(EMR_SETCOLORSPACE), X(EMR_DELETECOLORSPACE), X(EMR_GLSRECORD), X(EMR_GLSBOUNDEDRECORD), X(EMR_PIXELFORMAT), X(EMR_DRAWESCAPE), X(EMR_EXTESCAPE), X(EMR_STARTDOC), X(EMR_SMALLTEXTOUT), X(EMR_FORCEUFIMAPPING), X(EMR_NAMEDESCAPE), X(EMR_COLORCORRECTPALETTE), X(EMR_SETICMPROFILEA), X(EMR_SETICMPROFILEW), X(EMR_ALPHABLEND), X(EMR_SETLAYOUT), X(EMR_TRANSPARENTBLT), X(EMR_RESERVED_117), X(EMR_GRADIENTFILL), X(EMR_SETLINKEDUFI), X(EMR_SETTEXTJUSTIFICATION), X(EMR_COLORMATCHTOTARGETW), X(EMR_CREATECOLORSPACEW) #undef X }; /**************************************************************************** * get_emr_name */ static const char *get_emr_name(DWORD type) { int i; for(i = 0; i < sizeof(emr_names) / sizeof(emr_names[0]); i++) if(type == emr_names[i].type) return emr_names[i].name; TRACE("Unknown record type %ld\n", type); return NULL; } /**************************************************************************** * EMF_Create_HENHMETAFILE */ HENHMETAFILE EMF_Create_HENHMETAFILE(ENHMETAHEADER *emh, BOOL on_disk ) { HENHMETAFILE hmf = 0; ENHMETAFILEOBJ *metaObj = GDI_AllocObject( sizeof(ENHMETAFILEOBJ), ENHMETAFILE_MAGIC, (HGDIOBJ *)&hmf, NULL ); if (metaObj) { metaObj->emh = emh; metaObj->on_disk = on_disk; GDI_ReleaseObj( hmf ); } return hmf; } /**************************************************************************** * EMF_Delete_HENHMETAFILE */ static BOOL EMF_Delete_HENHMETAFILE( HENHMETAFILE hmf ) { ENHMETAFILEOBJ *metaObj = (ENHMETAFILEOBJ *)GDI_GetObjPtr( hmf, ENHMETAFILE_MAGIC ); if(!metaObj) return FALSE; if(metaObj->on_disk) UnmapViewOfFile( metaObj->emh ); else HeapFree( GetProcessHeap(), 0, metaObj->emh ); return GDI_FreeObject( hmf, metaObj ); } /****************************************************************** * EMF_GetEnhMetaHeader * * Returns ptr to ENHMETAHEADER associated with HENHMETAFILE */ static ENHMETAHEADER *EMF_GetEnhMetaHeader( HENHMETAFILE hmf ) { ENHMETAHEADER *ret = NULL; ENHMETAFILEOBJ *metaObj = (ENHMETAFILEOBJ *)GDI_GetObjPtr( hmf, ENHMETAFILE_MAGIC ); TRACE("hmf %p -> enhmetaObj %p\n", hmf, metaObj); if (metaObj) { ret = metaObj->emh; GDI_ReleaseObj( hmf ); } return ret; } /***************************************************************************** * EMF_GetEnhMetaFile * */ static HENHMETAFILE EMF_GetEnhMetaFile( HANDLE hFile ) { ENHMETAHEADER *emh; HANDLE hMapping; hMapping = CreateFileMappingA( hFile, NULL, PAGE_READONLY, 0, 0, NULL ); emh = MapViewOfFile( hMapping, FILE_MAP_READ, 0, 0, 0 ); CloseHandle( hMapping ); if (!emh) return 0; if (emh->iType != EMR_HEADER || emh->dSignature != ENHMETA_SIGNATURE) { WARN("Invalid emf header type 0x%08lx sig 0x%08lx.\n", emh->iType, emh->dSignature); goto err; } /* refuse to load unaligned EMF as Windows does */ if (emh->nBytes & 3) { WARN("Refusing to load unaligned EMF\n"); goto err; } return EMF_Create_HENHMETAFILE( emh, TRUE ); err: UnmapViewOfFile( emh ); return 0; } /***************************************************************************** * GetEnhMetaFileA (GDI32.@) * * */ HENHMETAFILE WINAPI GetEnhMetaFileA( LPCSTR lpszMetaFile /* [in] filename of enhanced metafile */ ) { HENHMETAFILE hmf; HANDLE hFile; hFile = CreateFileA(lpszMetaFile, GENERIC_READ, FILE_SHARE_READ, 0, OPEN_EXISTING, 0, 0); if (hFile == INVALID_HANDLE_VALUE) { WARN("could not open %s\n", lpszMetaFile); return 0; } hmf = EMF_GetEnhMetaFile( hFile ); CloseHandle( hFile ); return hmf; } /***************************************************************************** * GetEnhMetaFileW (GDI32.@) */ HENHMETAFILE WINAPI GetEnhMetaFileW( LPCWSTR lpszMetaFile) /* [in] filename of enhanced metafile */ { HENHMETAFILE hmf; HANDLE hFile; hFile = CreateFileW(lpszMetaFile, GENERIC_READ, FILE_SHARE_READ, 0, OPEN_EXISTING, 0, 0); if (hFile == INVALID_HANDLE_VALUE) { WARN("could not open %s\n", debugstr_w(lpszMetaFile)); return 0; } hmf = EMF_GetEnhMetaFile( hFile ); CloseHandle( hFile ); return hmf; } /***************************************************************************** * GetEnhMetaFileHeader (GDI32.@) * * If buf is NULL, returns the size of buffer required. * Otherwise, copy up to bufsize bytes of enhanced metafile header into * buf. */ UINT WINAPI GetEnhMetaFileHeader( HENHMETAFILE hmf, /* [in] enhanced metafile */ UINT bufsize, /* [in] size of buffer */ LPENHMETAHEADER buf /* [out] buffer */ ) { LPENHMETAHEADER emh; UINT size; emh = EMF_GetEnhMetaHeader(hmf); if(!emh) return FALSE; size = emh->nSize; if (!buf) return size; size = min(size, bufsize); memmove(buf, emh, size); return size; } /***************************************************************************** * GetEnhMetaFileDescriptionA (GDI32.@) */ UINT WINAPI GetEnhMetaFileDescriptionA( HENHMETAFILE hmf, /* [in] enhanced metafile */ UINT size, /* [in] size of buf */ LPSTR buf /* [out] buffer to receive description */ ) { LPENHMETAHEADER emh = EMF_GetEnhMetaHeader(hmf); DWORD len; WCHAR *descrW; if(!emh) return FALSE; if(emh->nDescription == 0 || emh->offDescription == 0) return 0; descrW = (WCHAR *) ((char *) emh + emh->offDescription); len = WideCharToMultiByte( CP_ACP, 0, descrW, emh->nDescription, NULL, 0, NULL, NULL ); if (!buf || !size ) return len; len = min( size, len ); WideCharToMultiByte( CP_ACP, 0, descrW, emh->nDescription, buf, len, NULL, NULL ); return len; } /***************************************************************************** * GetEnhMetaFileDescriptionW (GDI32.@) * * Copies the description string of an enhanced metafile into a buffer * _buf_. * * If _buf_ is NULL, returns size of _buf_ required. Otherwise, returns * number of characters copied. */ UINT WINAPI GetEnhMetaFileDescriptionW( HENHMETAFILE hmf, /* [in] enhanced metafile */ UINT size, /* [in] size of buf */ LPWSTR buf /* [out] buffer to receive description */ ) { LPENHMETAHEADER emh = EMF_GetEnhMetaHeader(hmf); if(!emh) return FALSE; if(emh->nDescription == 0 || emh->offDescription == 0) return 0; if (!buf || !size ) return emh->nDescription; memmove(buf, (char *) emh + emh->offDescription, min(size,emh->nDescription)*sizeof(WCHAR)); return min(size, emh->nDescription); } /**************************************************************************** * SetEnhMetaFileBits (GDI32.@) * * Creates an enhanced metafile by copying _bufsize_ bytes from _buf_. */ HENHMETAFILE WINAPI SetEnhMetaFileBits(UINT bufsize, const BYTE *buf) { ENHMETAHEADER *emh = HeapAlloc( GetProcessHeap(), 0, bufsize ); memmove(emh, buf, bufsize); return EMF_Create_HENHMETAFILE( emh, FALSE ); } /***************************************************************************** * GetEnhMetaFileBits (GDI32.@) * */ UINT WINAPI GetEnhMetaFileBits( HENHMETAFILE hmf, UINT bufsize, LPBYTE buf ) { LPENHMETAHEADER emh = EMF_GetEnhMetaHeader( hmf ); UINT size; if(!emh) return 0; size = emh->nBytes; if( buf == NULL ) return size; size = min( size, bufsize ); memmove(buf, emh, size); return size; } typedef struct enum_emh_data { INT mode; XFORM init_transform; XFORM world_transform; INT wndOrgX; INT wndOrgY; INT wndExtX; INT wndExtY; INT vportOrgX; INT vportOrgY; INT vportExtX; INT vportExtY; } enum_emh_data; #define ENUM_GET_PRIVATE_DATA(ht) \ ((enum_emh_data*)(((unsigned char*)(ht))-sizeof (enum_emh_data))) #define WIDTH(rect) ( (rect).right - (rect).left ) #define HEIGHT(rect) ( (rect).bottom - (rect).top ) #define IS_WIN9X() (GetVersion()&0x80000000) void EMF_Update_MF_Xform(HDC hdc, enum_emh_data *info) { XFORM mapping_mode_trans, final_trans; FLOAT scaleX, scaleY; scaleX = (FLOAT)info->vportExtX / (FLOAT)info->wndExtX; scaleY = (FLOAT)info->vportExtY / (FLOAT)info->wndExtY; mapping_mode_trans.eM11 = scaleX; mapping_mode_trans.eM12 = 0.0; mapping_mode_trans.eM21 = 0.0; mapping_mode_trans.eM22 = scaleY; mapping_mode_trans.eDx = (FLOAT)info->vportOrgX - scaleX * (FLOAT)info->wndOrgX; mapping_mode_trans.eDy = (FLOAT)info->vportOrgY - scaleY * (FLOAT)info->wndOrgY; CombineTransform(&final_trans, &info->world_transform, &mapping_mode_trans); CombineTransform(&final_trans, &final_trans, &info->init_transform); if (!SetWorldTransform(hdc, &final_trans)) { ERR("World transform failed!\n"); } } void EMF_SetMapMode(HDC hdc, enum_emh_data *info) { INT horzSize = GetDeviceCaps( hdc, HORZSIZE ); INT vertSize = GetDeviceCaps( hdc, VERTSIZE ); INT horzRes = GetDeviceCaps( hdc, HORZRES ); INT vertRes = GetDeviceCaps( hdc, VERTRES ); TRACE("%d\n",info->mode); switch(info->mode) { case MM_TEXT: info->wndExtX = 1; info->wndExtY = 1; info->vportExtX = 1; info->vportExtY = 1; break; case MM_LOMETRIC: case MM_ISOTROPIC: info->wndExtX = horzSize * 10; info->wndExtY = vertSize * 10; info->vportExtX = horzRes; info->vportExtY = -vertRes; break; case MM_HIMETRIC: info->wndExtX = horzSize * 100; info->wndExtY = vertSize * 100; info->vportExtX = horzRes; info->vportExtY = -vertRes; break; case MM_LOENGLISH: info->wndExtX = MulDiv(1000, horzSize, 254); info->wndExtY = MulDiv(1000, vertSize, 254); info->vportExtX = horzRes; info->vportExtY = -vertRes; break; case MM_HIENGLISH: info->wndExtX = MulDiv(10000, horzSize, 254); info->wndExtY = MulDiv(10000, vertSize, 254); info->vportExtX = horzRes; info->vportExtY = -vertRes; break; case MM_TWIPS: info->wndExtX = MulDiv(14400, horzSize, 254); info->wndExtY = MulDiv(14400, vertSize, 254); info->vportExtX = horzRes; info->vportExtY = -vertRes; break; case MM_ANISOTROPIC: break; default: return; } } /***************************************************************************** * emr_produces_output * * Returns TRUE if the record type writes something to the dc. Used by * PlayEnhMetaFileRecord to determine whether it needs to update the * dc's xform when in win9x mode. * * FIXME: need to test which records should be here. */ static BOOL emr_produces_output(int type) { switch(type) { case EMR_POLYBEZIER: case EMR_POLYGON: case EMR_POLYLINE: case EMR_POLYBEZIERTO: case EMR_POLYLINETO: case EMR_POLYPOLYLINE: case EMR_POLYPOLYGON: case EMR_SETPIXELV: case EMR_MOVETOEX: case EMR_EXCLUDECLIPRECT: case EMR_INTERSECTCLIPRECT: case EMR_SELECTOBJECT: case EMR_ANGLEARC: case EMR_ELLIPSE: case EMR_RECTANGLE: case EMR_ROUNDRECT: case EMR_ARC: case EMR_CHORD: case EMR_PIE: case EMR_EXTFLOODFILL: case EMR_LINETO: case EMR_ARCTO: case EMR_POLYDRAW: case EMR_FILLRGN: case EMR_FRAMERGN: case EMR_INVERTRGN: case EMR_PAINTRGN: case EMR_BITBLT: case EMR_STRETCHBLT: case EMR_MASKBLT: case EMR_PLGBLT: case EMR_SETDIBITSTODEVICE: case EMR_STRETCHDIBITS: case EMR_EXTTEXTOUTA: case EMR_EXTTEXTOUTW: case EMR_POLYBEZIER16: case EMR_POLYGON16: case EMR_POLYLINE16: case EMR_POLYBEZIERTO16: case EMR_POLYLINETO16: case EMR_POLYPOLYLINE16: case EMR_POLYPOLYGON16: case EMR_POLYDRAW16: case EMR_POLYTEXTOUTA: case EMR_POLYTEXTOUTW: case EMR_SMALLTEXTOUT: case EMR_TRANSPARENTBLT: return TRUE; default: return FALSE; } } /***************************************************************************** * PlayEnhMetaFileRecord (GDI32.@) * * Render a single enhanced metafile record in the device context hdc. * * RETURNS * TRUE (non zero) on success, FALSE on error. * BUGS * Many unimplemented records. * No error handling on record play failures (ie checking return codes) * * NOTES * WinNT actually updates the current world transform in this function * whereas Win9x does not. */ BOOL WINAPI PlayEnhMetaFileRecord( HDC hdc, /* [in] device context in which to render EMF record */ LPHANDLETABLE handletable, /* [in] array of handles to be used in rendering record */ const ENHMETARECORD *mr, /* [in] EMF record to render */ UINT handles /* [in] size of handle array */ ) { int type; RECT tmprc; enum_emh_data *info = ENUM_GET_PRIVATE_DATA(handletable); TRACE("hdc = %p, handletable = %p, record = %p, numHandles = %d\n", hdc, handletable, mr, handles); if (!mr) return FALSE; type = mr->iType; /* In Win9x mode we update the xform if the record will produce output */ if ( IS_WIN9X() && emr_produces_output(type) ) EMF_Update_MF_Xform(hdc, info); TRACE("record %s\n", get_emr_name(type)); switch(type) { case EMR_HEADER: break; case EMR_EOF: break; case EMR_GDICOMMENT: { PEMRGDICOMMENT lpGdiComment = (PEMRGDICOMMENT)mr; /* In an enhanced metafile, there can be both public and private GDI comments */ GdiComment( hdc, lpGdiComment->cbData, lpGdiComment->Data ); break; } case EMR_SETMAPMODE: { PEMRSETMAPMODE pSetMapMode = (PEMRSETMAPMODE) mr; if(info->mode == pSetMapMode->iMode && (info->mode == MM_ISOTROPIC || info->mode == MM_ANISOTROPIC)) break; info->mode = pSetMapMode->iMode; EMF_SetMapMode(hdc, info); break; } case EMR_SETBKMODE: { PEMRSETBKMODE pSetBkMode = (PEMRSETBKMODE) mr; SetBkMode(hdc, pSetBkMode->iMode); break; } case EMR_SETBKCOLOR: { PEMRSETBKCOLOR pSetBkColor = (PEMRSETBKCOLOR) mr; SetBkColor(hdc, pSetBkColor->crColor); break; } case EMR_SETPOLYFILLMODE: { PEMRSETPOLYFILLMODE pSetPolyFillMode = (PEMRSETPOLYFILLMODE) mr; SetPolyFillMode(hdc, pSetPolyFillMode->iMode); break; } case EMR_SETROP2: { PEMRSETROP2 pSetROP2 = (PEMRSETROP2) mr; SetROP2(hdc, pSetROP2->iMode); break; } case EMR_SETSTRETCHBLTMODE: { PEMRSETSTRETCHBLTMODE pSetStretchBltMode = (PEMRSETSTRETCHBLTMODE) mr; SetStretchBltMode(hdc, pSetStretchBltMode->iMode); break; } case EMR_SETTEXTALIGN: { PEMRSETTEXTALIGN pSetTextAlign = (PEMRSETTEXTALIGN) mr; SetTextAlign(hdc, pSetTextAlign->iMode); break; } case EMR_SETTEXTCOLOR: { PEMRSETTEXTCOLOR pSetTextColor = (PEMRSETTEXTCOLOR) mr; SetTextColor(hdc, pSetTextColor->crColor); break; } case EMR_SAVEDC: { SaveDC(hdc); break; } case EMR_RESTOREDC: { PEMRRESTOREDC pRestoreDC = (PEMRRESTOREDC) mr; TRACE("EMR_RESTORE: %ld\n", pRestoreDC->iRelative); RestoreDC(hdc, pRestoreDC->iRelative); break; } case EMR_INTERSECTCLIPRECT: { PEMRINTERSECTCLIPRECT pClipRect = (PEMRINTERSECTCLIPRECT) mr; TRACE("EMR_INTERSECTCLIPRECT: rect %ld,%ld - %ld, %ld\n", pClipRect->rclClip.left, pClipRect->rclClip.top, pClipRect->rclClip.right, pClipRect->rclClip.bottom); IntersectClipRect(hdc, pClipRect->rclClip.left, pClipRect->rclClip.top, pClipRect->rclClip.right, pClipRect->rclClip.bottom); break; } case EMR_SELECTOBJECT: { PEMRSELECTOBJECT pSelectObject = (PEMRSELECTOBJECT) mr; if( pSelectObject->ihObject & 0x80000000 ) { /* High order bit is set - it's a stock object * Strip the high bit to get the index. * See MSDN article Q142319 */ SelectObject( hdc, GetStockObject( pSelectObject->ihObject & 0x7fffffff ) ); } else { /* High order bit wasn't set - not a stock object */ SelectObject( hdc, (handletable->objectHandle)[pSelectObject->ihObject] ); } break; } case EMR_DELETEOBJECT: { PEMRDELETEOBJECT pDeleteObject = (PEMRDELETEOBJECT) mr; DeleteObject( (handletable->objectHandle)[pDeleteObject->ihObject]); (handletable->objectHandle)[pDeleteObject->ihObject] = 0; break; } case EMR_SETWINDOWORGEX: { PEMRSETWINDOWORGEX pSetWindowOrgEx = (PEMRSETWINDOWORGEX) mr; info->wndOrgX = pSetWindowOrgEx->ptlOrigin.x; info->wndOrgY = pSetWindowOrgEx->ptlOrigin.y; TRACE("SetWindowOrgEx: %d,%d\n",info->wndOrgX,info->wndOrgY); break; } case EMR_SETWINDOWEXTEX: { PEMRSETWINDOWEXTEX pSetWindowExtEx = (PEMRSETWINDOWEXTEX) mr; if(info->mode != MM_ISOTROPIC && info->mode != MM_ANISOTROPIC) break; info->wndExtX = pSetWindowExtEx->szlExtent.cx; info->wndExtY = pSetWindowExtEx->szlExtent.cy; TRACE("SetWindowExtEx: %d,%d\n",info->wndExtX,info->wndExtY); break; } case EMR_SETVIEWPORTORGEX: { PEMRSETVIEWPORTORGEX pSetViewportOrgEx = (PEMRSETVIEWPORTORGEX) mr; enum_emh_data *info = ENUM_GET_PRIVATE_DATA(handletable); info->vportOrgX = pSetViewportOrgEx->ptlOrigin.x; info->vportOrgY = pSetViewportOrgEx->ptlOrigin.y; TRACE("SetViewportOrgEx: %d,%d\n",info->vportOrgX,info->vportOrgY); break; } case EMR_SETVIEWPORTEXTEX: { PEMRSETVIEWPORTEXTEX pSetViewportExtEx = (PEMRSETVIEWPORTEXTEX) mr; enum_emh_data *info = ENUM_GET_PRIVATE_DATA(handletable); if(info->mode != MM_ISOTROPIC && info->mode != MM_ANISOTROPIC) break; info->vportExtX = pSetViewportExtEx->szlExtent.cx; info->vportExtY = pSetViewportExtEx->szlExtent.cy; TRACE("SetViewportExtEx: %d,%d\n",info->vportExtX,info->vportExtY); break; } case EMR_CREATEPEN: { PEMRCREATEPEN pCreatePen = (PEMRCREATEPEN) mr; (handletable->objectHandle)[pCreatePen->ihPen] = CreatePenIndirect(&pCreatePen->lopn); break; } case EMR_EXTCREATEPEN: { PEMREXTCREATEPEN pPen = (PEMREXTCREATEPEN) mr; LOGBRUSH lb; lb.lbStyle = pPen->elp.elpBrushStyle; lb.lbColor = pPen->elp.elpColor; lb.lbHatch = pPen->elp.elpHatch; if(pPen->offBmi || pPen->offBits) FIXME("EMR_EXTCREATEPEN: Need to copy brush bitmap\n"); (handletable->objectHandle)[pPen->ihPen] = ExtCreatePen(pPen->elp.elpPenStyle, pPen->elp.elpWidth, &lb, pPen->elp.elpNumEntries, pPen->elp.elpStyleEntry); break; } case EMR_CREATEBRUSHINDIRECT: { PEMRCREATEBRUSHINDIRECT pBrush = (PEMRCREATEBRUSHINDIRECT) mr; (handletable->objectHandle)[pBrush->ihBrush] = CreateBrushIndirect(&pBrush->lb); break; } case EMR_EXTCREATEFONTINDIRECTW: { PEMREXTCREATEFONTINDIRECTW pFont = (PEMREXTCREATEFONTINDIRECTW) mr; (handletable->objectHandle)[pFont->ihFont] = CreateFontIndirectW(&pFont->elfw.elfLogFont); break; } case EMR_MOVETOEX: { PEMRMOVETOEX pMoveToEx = (PEMRMOVETOEX) mr; MoveToEx(hdc, pMoveToEx->ptl.x, pMoveToEx->ptl.y, NULL); break; } case EMR_LINETO: { PEMRLINETO pLineTo = (PEMRLINETO) mr; LineTo(hdc, pLineTo->ptl.x, pLineTo->ptl.y); break; } case EMR_RECTANGLE: { PEMRRECTANGLE pRect = (PEMRRECTANGLE) mr; Rectangle(hdc, pRect->rclBox.left, pRect->rclBox.top, pRect->rclBox.right, pRect->rclBox.bottom); break; } case EMR_ELLIPSE: { PEMRELLIPSE pEllipse = (PEMRELLIPSE) mr; Ellipse(hdc, pEllipse->rclBox.left, pEllipse->rclBox.top, pEllipse->rclBox.right, pEllipse->rclBox.bottom); break; } case EMR_POLYGON16: { PEMRPOLYGON16 pPoly = (PEMRPOLYGON16) mr; /* Shouldn't use Polygon16 since pPoly->cpts is DWORD */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPoly->cpts; i++) { pts[i].x = pPoly->apts[i].x; pts[i].y = pPoly->apts[i].y; } Polygon(hdc, pts, pPoly->cpts); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_POLYLINE16: { PEMRPOLYLINE16 pPoly = (PEMRPOLYLINE16) mr; /* Shouldn't use Polyline16 since pPoly->cpts is DWORD */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPoly->cpts; i++) { pts[i].x = pPoly->apts[i].x; pts[i].y = pPoly->apts[i].y; } Polyline(hdc, pts, pPoly->cpts); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_POLYLINETO16: { PEMRPOLYLINETO16 pPoly = (PEMRPOLYLINETO16) mr; /* Shouldn't use PolylineTo16 since pPoly->cpts is DWORD */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPoly->cpts; i++) { pts[i].x = pPoly->apts[i].x; pts[i].y = pPoly->apts[i].y; } PolylineTo(hdc, pts, pPoly->cpts); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_POLYBEZIER16: { PEMRPOLYBEZIER16 pPoly = (PEMRPOLYBEZIER16) mr; /* Shouldn't use PolyBezier16 since pPoly->cpts is DWORD */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPoly->cpts; i++) { pts[i].x = pPoly->apts[i].x; pts[i].y = pPoly->apts[i].y; } PolyBezier(hdc, pts, pPoly->cpts); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_POLYBEZIERTO16: { PEMRPOLYBEZIERTO16 pPoly = (PEMRPOLYBEZIERTO16) mr; /* Shouldn't use PolyBezierTo16 since pPoly->cpts is DWORD */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPoly->cpts; i++) { pts[i].x = pPoly->apts[i].x; pts[i].y = pPoly->apts[i].y; } PolyBezierTo(hdc, pts, pPoly->cpts); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_POLYPOLYGON16: { PEMRPOLYPOLYGON16 pPolyPoly = (PEMRPOLYPOLYGON16) mr; /* NB POINTS array doesn't start at pPolyPoly->apts it's actually pPolyPoly->aPolyCounts + pPolyPoly->nPolys */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPolyPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPolyPoly->cpts; i++) CONV_POINT16TO32((POINT16*) (pPolyPoly->aPolyCounts + pPolyPoly->nPolys) + i, pts + i); PolyPolygon(hdc, pts, (INT*)pPolyPoly->aPolyCounts, pPolyPoly->nPolys); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_POLYPOLYLINE16: { PEMRPOLYPOLYLINE16 pPolyPoly = (PEMRPOLYPOLYLINE16) mr; /* NB POINTS array doesn't start at pPolyPoly->apts it's actually pPolyPoly->aPolyCounts + pPolyPoly->nPolys */ POINT *pts = HeapAlloc( GetProcessHeap(), 0, pPolyPoly->cpts * sizeof(POINT) ); DWORD i; for(i = 0; i < pPolyPoly->cpts; i++) CONV_POINT16TO32((POINT16*) (pPolyPoly->aPolyCounts + pPolyPoly->nPolys) + i, pts + i); PolyPolyline(hdc, pts, pPolyPoly->aPolyCounts, pPolyPoly->nPolys); HeapFree( GetProcessHeap(), 0, pts ); break; } case EMR_STRETCHDIBITS: { EMRSTRETCHDIBITS *pStretchDIBits = (EMRSTRETCHDIBITS *)mr; StretchDIBits(hdc, pStretchDIBits->xDest, pStretchDIBits->yDest, pStretchDIBits->cxDest, pStretchDIBits->cyDest, pStretchDIBits->xSrc, pStretchDIBits->ySrc, pStretchDIBits->cxSrc, pStretchDIBits->cySrc, (BYTE *)mr + pStretchDIBits->offBitsSrc, (const BITMAPINFO *)((BYTE *)mr + pStretchDIBits->offBmiSrc), pStretchDIBits->iUsageSrc, pStretchDIBits->dwRop); break; } case EMR_EXTTEXTOUTA: { PEMREXTTEXTOUTA pExtTextOutA = (PEMREXTTEXTOUTA)mr; RECT rc; rc.left = pExtTextOutA->emrtext.rcl.left; rc.top = pExtTextOutA->emrtext.rcl.top; rc.right = pExtTextOutA->emrtext.rcl.right; rc.bottom = pExtTextOutA->emrtext.rcl.bottom; ExtTextOutA(hdc, pExtTextOutA->emrtext.ptlReference.x, pExtTextOutA->emrtext.ptlReference.y, pExtTextOutA->emrtext.fOptions, &rc, (LPSTR)((BYTE *)mr + pExtTextOutA->emrtext.offString), pExtTextOutA->emrtext.nChars, (INT *)((BYTE *)mr + pExtTextOutA->emrtext.offDx)); break; } case EMR_EXTTEXTOUTW: { PEMREXTTEXTOUTW pExtTextOutW = (PEMREXTTEXTOUTW)mr; RECT rc; rc.left = pExtTextOutW->emrtext.rcl.left; rc.top = pExtTextOutW->emrtext.rcl.top; rc.right = pExtTextOutW->emrtext.rcl.right; rc.bottom = pExtTextOutW->emrtext.rcl.bottom; TRACE("EMR_EXTTEXTOUTW: x,y = %ld, %ld. rect = %ld, %ld - %ld, %ld. flags %08lx\n", pExtTextOutW->emrtext.ptlReference.x, pExtTextOutW->emrtext.ptlReference.y, rc.left, rc.top, rc.right, rc.bottom, pExtTextOutW->emrtext.fOptions); ExtTextOutW(hdc, pExtTextOutW->emrtext.ptlReference.x, pExtTextOutW->emrtext.ptlReference.y, pExtTextOutW->emrtext.fOptions, &rc, (LPWSTR)((BYTE *)mr + pExtTextOutW->emrtext.offString), pExtTextOutW->emrtext.nChars, (INT *)((BYTE *)mr + pExtTextOutW->emrtext.offDx)); break; } case EMR_CREATEPALETTE: { PEMRCREATEPALETTE lpCreatePal = (PEMRCREATEPALETTE)mr; (handletable->objectHandle)[ lpCreatePal->ihPal ] = CreatePalette( &lpCreatePal->lgpl ); break; } case EMR_SELECTPALETTE: { PEMRSELECTPALETTE lpSelectPal = (PEMRSELECTPALETTE)mr; if( lpSelectPal->ihPal & 0x80000000 ) { SelectPalette( hdc, GetStockObject(lpSelectPal->ihPal & 0x7fffffff), TRUE); } else { (handletable->objectHandle)[ lpSelectPal->ihPal ] = SelectPalette( hdc, (handletable->objectHandle)[lpSelectPal->ihPal], TRUE); } break; } case EMR_REALIZEPALETTE: { RealizePalette( hdc ); break; } case EMR_EXTSELECTCLIPRGN: { #if 0 PEMREXTSELECTCLIPRGN lpRgn = (PEMREXTSELECTCLIPRGN)mr; HRGN hRgn = ExtCreateRegion(NULL, lpRgn->cbRgnData, (RGNDATA *)lpRgn->RgnData); ExtSelectClipRgn(hdc, hRgn, (INT)(lpRgn->iMode)); /* ExtSelectClipRgn created a copy of the region */ DeleteObject(hRgn); #endif FIXME("ExtSelectClipRgn\n"); break; } case EMR_SETMETARGN: { SetMetaRgn( hdc ); break; } case EMR_SETWORLDTRANSFORM: { PEMRSETWORLDTRANSFORM lpXfrm = (PEMRSETWORLDTRANSFORM)mr; info->world_transform = lpXfrm->xform; break; } case EMR_POLYBEZIER: { PEMRPOLYBEZIER lpPolyBez = (PEMRPOLYBEZIER)mr; PolyBezier(hdc, (const LPPOINT)lpPolyBez->aptl, (UINT)lpPolyBez->cptl); break; } case EMR_POLYGON: { PEMRPOLYGON lpPoly = (PEMRPOLYGON)mr; Polygon( hdc, (const LPPOINT)lpPoly->aptl, (UINT)lpPoly->cptl ); break; } case EMR_POLYLINE: { PEMRPOLYLINE lpPolyLine = (PEMRPOLYLINE)mr; Polyline(hdc, (const LPPOINT)lpPolyLine->aptl, (UINT)lpPolyLine->cptl); break; } case EMR_POLYBEZIERTO: { PEMRPOLYBEZIERTO lpPolyBezierTo = (PEMRPOLYBEZIERTO)mr; PolyBezierTo( hdc, (const LPPOINT)lpPolyBezierTo->aptl, (UINT)lpPolyBezierTo->cptl ); break; } case EMR_POLYLINETO: { PEMRPOLYLINETO lpPolyLineTo = (PEMRPOLYLINETO)mr; PolylineTo( hdc, (const LPPOINT)lpPolyLineTo->aptl, (UINT)lpPolyLineTo->cptl ); break; } case EMR_POLYPOLYLINE: { PEMRPOLYPOLYLINE pPolyPolyline = (PEMRPOLYPOLYLINE) mr; /* NB Points at pPolyPolyline->aPolyCounts + pPolyPolyline->nPolys */ PolyPolyline(hdc, (LPPOINT)(pPolyPolyline->aPolyCounts + pPolyPolyline->nPolys), pPolyPolyline->aPolyCounts, pPolyPolyline->nPolys ); break; } case EMR_POLYPOLYGON: { PEMRPOLYPOLYGON pPolyPolygon = (PEMRPOLYPOLYGON) mr; /* NB Points at pPolyPolygon->aPolyCounts + pPolyPolygon->nPolys */ PolyPolygon(hdc, (LPPOINT)(pPolyPolygon->aPolyCounts + pPolyPolygon->nPolys), (INT*)pPolyPolygon->aPolyCounts, pPolyPolygon->nPolys ); break; } case EMR_SETBRUSHORGEX: { PEMRSETBRUSHORGEX lpSetBrushOrgEx = (PEMRSETBRUSHORGEX)mr; SetBrushOrgEx( hdc, (INT)lpSetBrushOrgEx->ptlOrigin.x, (INT)lpSetBrushOrgEx->ptlOrigin.y, NULL ); break; } case EMR_SETPIXELV: { PEMRSETPIXELV lpSetPixelV = (PEMRSETPIXELV)mr; SetPixelV( hdc, (INT)lpSetPixelV->ptlPixel.x, (INT)lpSetPixelV->ptlPixel.y, lpSetPixelV->crColor ); break; } case EMR_SETMAPPERFLAGS: { PEMRSETMAPPERFLAGS lpSetMapperFlags = (PEMRSETMAPPERFLAGS)mr; SetMapperFlags( hdc, lpSetMapperFlags->dwFlags ); break; } case EMR_SETCOLORADJUSTMENT: { PEMRSETCOLORADJUSTMENT lpSetColorAdjust = (PEMRSETCOLORADJUSTMENT)mr; SetColorAdjustment( hdc, &lpSetColorAdjust->ColorAdjustment ); break; } case EMR_OFFSETCLIPRGN: { PEMROFFSETCLIPRGN lpOffsetClipRgn = (PEMROFFSETCLIPRGN)mr; OffsetClipRgn( hdc, (INT)lpOffsetClipRgn->ptlOffset.x, (INT)lpOffsetClipRgn->ptlOffset.y ); FIXME("OffsetClipRgn\n"); break; } case EMR_EXCLUDECLIPRECT: { PEMREXCLUDECLIPRECT lpExcludeClipRect = (PEMREXCLUDECLIPRECT)mr; ExcludeClipRect( hdc, lpExcludeClipRect->rclClip.left, lpExcludeClipRect->rclClip.top, lpExcludeClipRect->rclClip.right, lpExcludeClipRect->rclClip.bottom ); FIXME("ExcludeClipRect\n"); break; } case EMR_SCALEVIEWPORTEXTEX: { PEMRSCALEVIEWPORTEXTEX lpScaleViewportExtEx = (PEMRSCALEVIEWPORTEXTEX)mr; if ((info->mode != MM_ISOTROPIC) && (info->mode != MM_ANISOTROPIC)) break; if (!lpScaleViewportExtEx->xNum || !lpScaleViewportExtEx->xDenom || !lpScaleViewportExtEx->yNum || !lpScaleViewportExtEx->yDenom) break; info->vportExtX = (info->vportExtX * lpScaleViewportExtEx->xNum) / lpScaleViewportExtEx->xDenom; info->vportExtY = (info->vportExtY * lpScaleViewportExtEx->yNum) / lpScaleViewportExtEx->yDenom; if (info->vportExtX == 0) info->vportExtX = 1; if (info->vportExtY == 0) info->vportExtY = 1; if (info->mode == MM_ISOTROPIC) FIXME("EMRSCALEVIEWPORTEXTEX MM_ISOTROPIC mapping\n"); /* MAPPING_FixIsotropic( dc ); */ TRACE("EMRSCALEVIEWPORTEXTEX %ld/%ld %ld/%ld\n", lpScaleViewportExtEx->xNum,lpScaleViewportExtEx->xDenom, lpScaleViewportExtEx->yNum,lpScaleViewportExtEx->yDenom); break; } case EMR_SCALEWINDOWEXTEX: { PEMRSCALEWINDOWEXTEX lpScaleWindowExtEx = (PEMRSCALEWINDOWEXTEX)mr; if ((info->mode != MM_ISOTROPIC) && (info->mode != MM_ANISOTROPIC)) break; if (!lpScaleWindowExtEx->xNum || !lpScaleWindowExtEx->xDenom || !lpScaleWindowExtEx->xNum || !lpScaleWindowExtEx->yDenom) break; info->wndExtX = (info->wndExtX * lpScaleWindowExtEx->xNum) / lpScaleWindowExtEx->xDenom; info->wndExtY = (info->wndExtY * lpScaleWindowExtEx->yNum) / lpScaleWindowExtEx->yDenom; if (info->wndExtX == 0) info->wndExtX = 1; if (info->wndExtY == 0) info->wndExtY = 1; if (info->mode == MM_ISOTROPIC) FIXME("EMRSCALEWINDOWEXTEX MM_ISOTROPIC mapping\n"); /* MAPPING_FixIsotropic( dc ); */ TRACE("EMRSCALEWINDOWEXTEX %ld/%ld %ld/%ld\n", lpScaleWindowExtEx->xNum,lpScaleWindowExtEx->xDenom, lpScaleWindowExtEx->yNum,lpScaleWindowExtEx->yDenom); break; } case EMR_MODIFYWORLDTRANSFORM: { PEMRMODIFYWORLDTRANSFORM lpModifyWorldTrans = (PEMRMODIFYWORLDTRANSFORM)mr; switch(lpModifyWorldTrans->iMode) { case MWT_IDENTITY: info->world_transform.eM11 = info->world_transform.eM22 = 1; info->world_transform.eM12 = info->world_transform.eM21 = 0; info->world_transform.eDx = info->world_transform.eDy = 0; break; case MWT_LEFTMULTIPLY: CombineTransform(&info->world_transform, &lpModifyWorldTrans->xform, &info->world_transform); break; case MWT_RIGHTMULTIPLY: CombineTransform(&info->world_transform, &info->world_transform, &lpModifyWorldTrans->xform); break; default: FIXME("Unknown imode %ld\n", lpModifyWorldTrans->iMode); break; } break; } case EMR_ANGLEARC: { PEMRANGLEARC lpAngleArc = (PEMRANGLEARC)mr; AngleArc( hdc, (INT)lpAngleArc->ptlCenter.x, (INT)lpAngleArc->ptlCenter.y, lpAngleArc->nRadius, lpAngleArc->eStartAngle, lpAngleArc->eSweepAngle ); break; } case EMR_ROUNDRECT: { PEMRROUNDRECT lpRoundRect = (PEMRROUNDRECT)mr; RoundRect( hdc, lpRoundRect->rclBox.left, lpRoundRect->rclBox.top, lpRoundRect->rclBox.right, lpRoundRect->rclBox.bottom, lpRoundRect->szlCorner.cx, lpRoundRect->szlCorner.cy ); break; } case EMR_ARC: { PEMRARC lpArc = (PEMRARC)mr; Arc( hdc, (INT)lpArc->rclBox.left, (INT)lpArc->rclBox.top, (INT)lpArc->rclBox.right, (INT)lpArc->rclBox.bottom, (INT)lpArc->ptlStart.x, (INT)lpArc->ptlStart.y, (INT)lpArc->ptlEnd.x, (INT)lpArc->ptlEnd.y ); break; } case EMR_CHORD: { PEMRCHORD lpChord = (PEMRCHORD)mr; Chord( hdc, (INT)lpChord->rclBox.left, (INT)lpChord->rclBox.top, (INT)lpChord->rclBox.right, (INT)lpChord->rclBox.bottom, (INT)lpChord->ptlStart.x, (INT)lpChord->ptlStart.y, (INT)lpChord->ptlEnd.x, (INT)lpChord->ptlEnd.y ); break; } case EMR_PIE: { PEMRPIE lpPie = (PEMRPIE)mr; Pie( hdc, (INT)lpPie->rclBox.left, (INT)lpPie->rclBox.top, (INT)lpPie->rclBox.right, (INT)lpPie->rclBox.bottom, (INT)lpPie->ptlStart.x, (INT)lpPie->ptlStart.y, (INT)lpPie->ptlEnd.x, (INT)lpPie->ptlEnd.y ); break; } case EMR_ARCTO: { PEMRARC lpArcTo = (PEMRARC)mr; ArcTo( hdc, (INT)lpArcTo->rclBox.left, (INT)lpArcTo->rclBox.top, (INT)lpArcTo->rclBox.right, (INT)lpArcTo->rclBox.bottom, (INT)lpArcTo->ptlStart.x, (INT)lpArcTo->ptlStart.y, (INT)lpArcTo->ptlEnd.x, (INT)lpArcTo->ptlEnd.y ); break; } case EMR_EXTFLOODFILL: { PEMREXTFLOODFILL lpExtFloodFill = (PEMREXTFLOODFILL)mr; ExtFloodFill( hdc, (INT)lpExtFloodFill->ptlStart.x, (INT)lpExtFloodFill->ptlStart.y, lpExtFloodFill->crColor, (UINT)lpExtFloodFill->iMode ); break; } case EMR_POLYDRAW: { PEMRPOLYDRAW lpPolyDraw = (PEMRPOLYDRAW)mr; PolyDraw( hdc, (const LPPOINT)lpPolyDraw->aptl, lpPolyDraw->abTypes, (INT)lpPolyDraw->cptl ); break; } case EMR_SETARCDIRECTION: { PEMRSETARCDIRECTION lpSetArcDirection = (PEMRSETARCDIRECTION)mr; SetArcDirection( hdc, (INT)lpSetArcDirection->iArcDirection ); break; } case EMR_SETMITERLIMIT: { PEMRSETMITERLIMIT lpSetMiterLimit = (PEMRSETMITERLIMIT)mr; SetMiterLimit( hdc, lpSetMiterLimit->eMiterLimit, NULL ); break; } case EMR_BEGINPATH: { BeginPath( hdc ); break; } case EMR_ENDPATH: { EndPath( hdc ); break; } case EMR_CLOSEFIGURE: { CloseFigure( hdc ); break; } case EMR_FILLPATH: { /*PEMRFILLPATH lpFillPath = (PEMRFILLPATH)mr;*/ FillPath( hdc ); break; } case EMR_STROKEANDFILLPATH: { /*PEMRSTROKEANDFILLPATH lpStrokeAndFillPath = (PEMRSTROKEANDFILLPATH)mr;*/ StrokeAndFillPath( hdc ); break; } case EMR_STROKEPATH: { /*PEMRSTROKEPATH lpStrokePath = (PEMRSTROKEPATH)mr;*/ StrokePath( hdc ); break; } case EMR_FLATTENPATH: { FlattenPath( hdc ); break; } case EMR_WIDENPATH: { WidenPath( hdc ); break; } case EMR_SELECTCLIPPATH: { PEMRSELECTCLIPPATH lpSelectClipPath = (PEMRSELECTCLIPPATH)mr; SelectClipPath( hdc, (INT)lpSelectClipPath->iMode ); break; } case EMR_ABORTPATH: { AbortPath( hdc ); break; } case EMR_CREATECOLORSPACE: { PEMRCREATECOLORSPACE lpCreateColorSpace = (PEMRCREATECOLORSPACE)mr; (handletable->objectHandle)[lpCreateColorSpace->ihCS] = CreateColorSpaceA( &lpCreateColorSpace->lcs ); break; } case EMR_SETCOLORSPACE: { PEMRSETCOLORSPACE lpSetColorSpace = (PEMRSETCOLORSPACE)mr; SetColorSpace( hdc, (handletable->objectHandle)[lpSetColorSpace->ihCS] ); break; } case EMR_DELETECOLORSPACE: { PEMRDELETECOLORSPACE lpDeleteColorSpace = (PEMRDELETECOLORSPACE)mr; DeleteColorSpace( (handletable->objectHandle)[lpDeleteColorSpace->ihCS] ); break; } case EMR_SETICMMODE: { PEMRSETICMMODE lpSetICMMode = (PEMRSETICMMODE)mr; SetICMMode( hdc, (INT)lpSetICMMode->iMode ); break; } case EMR_PIXELFORMAT: { INT iPixelFormat; PEMRPIXELFORMAT lpPixelFormat = (PEMRPIXELFORMAT)mr; iPixelFormat = ChoosePixelFormat( hdc, &lpPixelFormat->pfd ); SetPixelFormat( hdc, iPixelFormat, &lpPixelFormat->pfd ); break; } case EMR_SETPALETTEENTRIES: { PEMRSETPALETTEENTRIES lpSetPaletteEntries = (PEMRSETPALETTEENTRIES)mr; SetPaletteEntries( (handletable->objectHandle)[lpSetPaletteEntries->ihPal], (UINT)lpSetPaletteEntries->iStart, (UINT)lpSetPaletteEntries->cEntries, lpSetPaletteEntries->aPalEntries ); break; } case EMR_RESIZEPALETTE: { PEMRRESIZEPALETTE lpResizePalette = (PEMRRESIZEPALETTE)mr; ResizePalette( (handletable->objectHandle)[lpResizePalette->ihPal], (UINT)lpResizePalette->cEntries ); break; } case EMR_CREATEDIBPATTERNBRUSHPT: { PEMRCREATEDIBPATTERNBRUSHPT lpCreate = (PEMRCREATEDIBPATTERNBRUSHPT)mr; LPVOID lpPackedStruct; /* check that offsets and data are contained within the record */ if ( !( (lpCreate->cbBmi>=0) && (lpCreate->cbBits>=0) && (lpCreate->offBmi>=0) && (lpCreate->offBits>=0) && ((lpCreate->offBmi +lpCreate->cbBmi ) <= mr->nSize) && ((lpCreate->offBits+lpCreate->cbBits) <= mr->nSize) ) ) { ERR("Invalid EMR_CREATEDIBPATTERNBRUSHPT record\n"); break; } /* This is a BITMAPINFO struct followed directly by bitmap bits */ lpPackedStruct = HeapAlloc( GetProcessHeap(), 0, lpCreate->cbBmi + lpCreate->cbBits ); if(!lpPackedStruct) { SetLastError(ERROR_NOT_ENOUGH_MEMORY); break; } /* Now pack this structure */ memcpy( lpPackedStruct, ((BYTE*)lpCreate) + lpCreate->offBmi, lpCreate->cbBmi ); memcpy( ((BYTE*)lpPackedStruct) + lpCreate->cbBmi, ((BYTE*)lpCreate) + lpCreate->offBits, lpCreate->cbBits ); (handletable->objectHandle)[lpCreate->ihBrush] = CreateDIBPatternBrushPt( lpPackedStruct, (UINT)lpCreate->iUsage ); HeapFree(GetProcessHeap(), 0, lpPackedStruct); break; } case EMR_CREATEMONOBRUSH: { PEMRCREATEMONOBRUSH pCreateMonoBrush = (PEMRCREATEMONOBRUSH)mr; BITMAPINFO *pbi = (BITMAPINFO *)((BYTE *)mr + pCreateMonoBrush->offBmi); HBITMAP hBmp = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pCreateMonoBrush->offBits, pbi, pCreateMonoBrush->iUsage); (handletable->objectHandle)[pCreateMonoBrush->ihBrush] = CreatePatternBrush(hBmp); /* CreatePatternBrush created a copy of the bitmap */ DeleteObject(hBmp); break; } case EMR_BITBLT: { PEMRBITBLT pBitBlt = (PEMRBITBLT)mr; if(pBitBlt->offBmiSrc == 0) { /* Record is a PatBlt */ PatBlt(hdc, pBitBlt->xDest, pBitBlt->yDest, pBitBlt->cxDest, pBitBlt->cyDest, pBitBlt->dwRop); } else { /* BitBlt */ HDC hdcSrc = CreateCompatibleDC(hdc); HBRUSH hBrush, hBrushOld; HBITMAP hBmp = 0, hBmpOld = 0; BITMAPINFO *pbi = (BITMAPINFO *)((BYTE *)mr + pBitBlt->offBmiSrc); SetWorldTransform(hdcSrc, &pBitBlt->xformSrc); hBrush = CreateSolidBrush(pBitBlt->crBkColorSrc); hBrushOld = SelectObject(hdcSrc, hBrush); PatBlt(hdcSrc, pBitBlt->rclBounds.left, pBitBlt->rclBounds.top, pBitBlt->rclBounds.right - pBitBlt->rclBounds.left, pBitBlt->rclBounds.bottom - pBitBlt->rclBounds.top, PATCOPY); SelectObject(hdcSrc, hBrushOld); DeleteObject(hBrush); hBmp = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pBitBlt->offBitsSrc, pbi, pBitBlt->iUsageSrc); hBmpOld = SelectObject(hdcSrc, hBmp); BitBlt(hdc, pBitBlt->xDest, pBitBlt->yDest, pBitBlt->cxDest, pBitBlt->cyDest, hdcSrc, pBitBlt->xSrc, pBitBlt->ySrc, pBitBlt->dwRop); SelectObject(hdcSrc, hBmpOld); DeleteObject(hBmp); DeleteDC(hdcSrc); } break; } case EMR_STRETCHBLT: { PEMRSTRETCHBLT pStretchBlt= (PEMRSTRETCHBLT)mr; TRACE("EMR_STRETCHBLT: %ld, %ld %ldx%ld -> %ld, %ld %ldx%ld. rop %08lx offBitsSrc %ld\n", pStretchBlt->xSrc, pStretchBlt->ySrc, pStretchBlt->cxSrc, pStretchBlt->cySrc, pStretchBlt->xDest, pStretchBlt->yDest, pStretchBlt->cxDest, pStretchBlt->cyDest, pStretchBlt->dwRop, pStretchBlt->offBitsSrc); if(pStretchBlt->offBmiSrc == 0) { /* Record is a PatBlt */ PatBlt(hdc, pStretchBlt->xDest, pStretchBlt->yDest, pStretchBlt->cxDest, pStretchBlt->cyDest, pStretchBlt->dwRop); } else { /* StretchBlt */ HDC hdcSrc = CreateCompatibleDC(hdc); HBRUSH hBrush, hBrushOld; HBITMAP hBmp = 0, hBmpOld = 0; BITMAPINFO *pbi = (BITMAPINFO *)((BYTE *)mr + pStretchBlt->offBmiSrc); SetWorldTransform(hdcSrc, &pStretchBlt->xformSrc); hBrush = CreateSolidBrush(pStretchBlt->crBkColorSrc); hBrushOld = SelectObject(hdcSrc, hBrush); PatBlt(hdcSrc, pStretchBlt->rclBounds.left, pStretchBlt->rclBounds.top, pStretchBlt->rclBounds.right - pStretchBlt->rclBounds.left, pStretchBlt->rclBounds.bottom - pStretchBlt->rclBounds.top, PATCOPY); SelectObject(hdcSrc, hBrushOld); DeleteObject(hBrush); hBmp = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pStretchBlt->offBitsSrc, pbi, pStretchBlt->iUsageSrc); hBmpOld = SelectObject(hdcSrc, hBmp); StretchBlt(hdc, pStretchBlt->xDest, pStretchBlt->yDest, pStretchBlt->cxDest, pStretchBlt->cyDest, hdcSrc, pStretchBlt->xSrc, pStretchBlt->ySrc, pStretchBlt->cxSrc, pStretchBlt->cySrc, pStretchBlt->dwRop); SelectObject(hdcSrc, hBmpOld); DeleteObject(hBmp); DeleteDC(hdcSrc); } break; } case EMR_MASKBLT: { PEMRMASKBLT pMaskBlt= (PEMRMASKBLT)mr; HDC hdcSrc = CreateCompatibleDC(hdc); HBRUSH hBrush, hBrushOld; HBITMAP hBmp, hBmpOld, hBmpMask; BITMAPINFO *pbi; SetWorldTransform(hdcSrc, &pMaskBlt->xformSrc); hBrush = CreateSolidBrush(pMaskBlt->crBkColorSrc); hBrushOld = SelectObject(hdcSrc, hBrush); PatBlt(hdcSrc, pMaskBlt->rclBounds.left, pMaskBlt->rclBounds.top, pMaskBlt->rclBounds.right - pMaskBlt->rclBounds.left, pMaskBlt->rclBounds.bottom - pMaskBlt->rclBounds.top, PATCOPY); SelectObject(hdcSrc, hBrushOld); DeleteObject(hBrush); pbi = (BITMAPINFO *)((BYTE *)mr + pMaskBlt->offBmiMask); hBmpMask = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pMaskBlt->offBitsMask, pbi, pMaskBlt->iUsageMask); pbi = (BITMAPINFO *)((BYTE *)mr + pMaskBlt->offBmiSrc); hBmp = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pMaskBlt->offBitsSrc, pbi, pMaskBlt->iUsageSrc); hBmpOld = SelectObject(hdcSrc, hBmp); MaskBlt(hdc, pMaskBlt->xDest, pMaskBlt->yDest, pMaskBlt->cxDest, pMaskBlt->cyDest, hdcSrc, pMaskBlt->xSrc, pMaskBlt->ySrc, hBmpMask, pMaskBlt->xMask, pMaskBlt->yMask, pMaskBlt->dwRop); SelectObject(hdcSrc, hBmpOld); DeleteObject(hBmp); DeleteObject(hBmpMask); DeleteDC(hdcSrc); break; } case EMR_PLGBLT: { PEMRPLGBLT pPlgBlt= (PEMRPLGBLT)mr; HDC hdcSrc = CreateCompatibleDC(hdc); HBRUSH hBrush, hBrushOld; HBITMAP hBmp, hBmpOld, hBmpMask; BITMAPINFO *pbi; POINT pts[3]; SetWorldTransform(hdcSrc, &pPlgBlt->xformSrc); pts[0].x = pPlgBlt->aptlDest[0].x; pts[0].y = pPlgBlt->aptlDest[0].y; pts[1].x = pPlgBlt->aptlDest[1].x; pts[1].y = pPlgBlt->aptlDest[1].y; pts[2].x = pPlgBlt->aptlDest[2].x; pts[2].y = pPlgBlt->aptlDest[2].y; hBrush = CreateSolidBrush(pPlgBlt->crBkColorSrc); hBrushOld = SelectObject(hdcSrc, hBrush); PatBlt(hdcSrc, pPlgBlt->rclBounds.left, pPlgBlt->rclBounds.top, pPlgBlt->rclBounds.right - pPlgBlt->rclBounds.left, pPlgBlt->rclBounds.bottom - pPlgBlt->rclBounds.top, PATCOPY); SelectObject(hdcSrc, hBrushOld); DeleteObject(hBrush); pbi = (BITMAPINFO *)((BYTE *)mr + pPlgBlt->offBmiMask); hBmpMask = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pPlgBlt->offBitsMask, pbi, pPlgBlt->iUsageMask); pbi = (BITMAPINFO *)((BYTE *)mr + pPlgBlt->offBmiSrc); hBmp = CreateDIBitmap(0, (BITMAPINFOHEADER *)pbi, CBM_INIT, (BYTE *)mr + pPlgBlt->offBitsSrc, pbi, pPlgBlt->iUsageSrc); hBmpOld = SelectObject(hdcSrc, hBmp); PlgBlt(hdc, pts, hdcSrc, pPlgBlt->xSrc, pPlgBlt->ySrc, pPlgBlt->cxSrc, pPlgBlt->cySrc, hBmpMask, pPlgBlt->xMask, pPlgBlt->yMask); SelectObject(hdcSrc, hBmpOld); DeleteObject(hBmp); DeleteObject(hBmpMask); DeleteDC(hdcSrc); break; } case EMR_SETDIBITSTODEVICE: { PEMRSETDIBITSTODEVICE pSetDIBitsToDevice = (PEMRSETDIBITSTODEVICE)mr; SetDIBitsToDevice(hdc, pSetDIBitsToDevice->xDest, pSetDIBitsToDevice->yDest, pSetDIBitsToDevice->cxSrc, pSetDIBitsToDevice->cySrc, pSetDIBitsToDevice->xSrc, pSetDIBitsToDevice->ySrc, pSetDIBitsToDevice->iStartScan, pSetDIBitsToDevice->cScans, (BYTE *)mr + pSetDIBitsToDevice->offBitsSrc, (BITMAPINFO *)((BYTE *)mr + pSetDIBitsToDevice->offBmiSrc), pSetDIBitsToDevice->iUsageSrc); break; } case EMR_POLYTEXTOUTA: { PEMRPOLYTEXTOUTA pPolyTextOutA = (PEMRPOLYTEXTOUTA)mr; POLYTEXTA *polytextA = HeapAlloc(GetProcessHeap(), 0, pPolyTextOutA->cStrings * sizeof(POLYTEXTA)); LONG i; XFORM xform, xformOld; int gModeOld; gModeOld = SetGraphicsMode(hdc, pPolyTextOutA->iGraphicsMode); GetWorldTransform(hdc, &xformOld); xform.eM11 = pPolyTextOutA->exScale; xform.eM12 = 0.0; xform.eM21 = 0.0; xform.eM22 = pPolyTextOutA->eyScale; xform.eDx = 0.0; xform.eDy = 0.0; SetWorldTransform(hdc, &xform); /* Set up POLYTEXTA structures */ for(i = 0; i < pPolyTextOutA->cStrings; i++) { polytextA[i].x = pPolyTextOutA->aemrtext[i].ptlReference.x; polytextA[i].y = pPolyTextOutA->aemrtext[i].ptlReference.y; polytextA[i].n = pPolyTextOutA->aemrtext[i].nChars; polytextA[i].lpstr = (LPSTR)((BYTE *)mr + pPolyTextOutA->aemrtext[i].offString); polytextA[i].uiFlags = pPolyTextOutA->aemrtext[i].fOptions; polytextA[i].rcl.left = pPolyTextOutA->aemrtext[i].rcl.left; polytextA[i].rcl.right = pPolyTextOutA->aemrtext[i].rcl.right; polytextA[i].rcl.top = pPolyTextOutA->aemrtext[i].rcl.top; polytextA[i].rcl.bottom = pPolyTextOutA->aemrtext[i].rcl.bottom; polytextA[i].pdx = (int *)((BYTE *)mr + pPolyTextOutA->aemrtext[i].offDx); } PolyTextOutA(hdc, polytextA, pPolyTextOutA->cStrings); HeapFree(GetProcessHeap(), 0, polytextA); SetWorldTransform(hdc, &xformOld); SetGraphicsMode(hdc, gModeOld); break; } case EMR_POLYTEXTOUTW: { PEMRPOLYTEXTOUTW pPolyTextOutW = (PEMRPOLYTEXTOUTW)mr; POLYTEXTW *polytextW = HeapAlloc(GetProcessHeap(), 0, pPolyTextOutW->cStrings * sizeof(POLYTEXTW)); LONG i; XFORM xform, xformOld; int gModeOld; gModeOld = SetGraphicsMode(hdc, pPolyTextOutW->iGraphicsMode); GetWorldTransform(hdc, &xformOld); xform.eM11 = pPolyTextOutW->exScale; xform.eM12 = 0.0; xform.eM21 = 0.0; xform.eM22 = pPolyTextOutW->eyScale; xform.eDx = 0.0; xform.eDy = 0.0; SetWorldTransform(hdc, &xform); /* Set up POLYTEXTW structures */ for(i = 0; i < pPolyTextOutW->cStrings; i++) { polytextW[i].x = pPolyTextOutW->aemrtext[i].ptlReference.x; polytextW[i].y = pPolyTextOutW->aemrtext[i].ptlReference.y; polytextW[i].n = pPolyTextOutW->aemrtext[i].nChars; polytextW[i].lpstr = (LPWSTR)((BYTE *)mr + pPolyTextOutW->aemrtext[i].offString); polytextW[i].uiFlags = pPolyTextOutW->aemrtext[i].fOptions; polytextW[i].rcl.left = pPolyTextOutW->aemrtext[i].rcl.left; polytextW[i].rcl.right = pPolyTextOutW->aemrtext[i].rcl.right; polytextW[i].rcl.top = pPolyTextOutW->aemrtext[i].rcl.top; polytextW[i].rcl.bottom = pPolyTextOutW->aemrtext[i].rcl.bottom; polytextW[i].pdx = (int *)((BYTE *)mr + pPolyTextOutW->aemrtext[i].offDx); } PolyTextOutW(hdc, polytextW, pPolyTextOutW->cStrings); HeapFree(GetProcessHeap(), 0, polytextW); SetWorldTransform(hdc, &xformOld); SetGraphicsMode(hdc, gModeOld); break; } case EMR_FILLRGN: { PEMRFILLRGN pFillRgn = (PEMRFILLRGN)mr; HRGN hRgn = ExtCreateRegion(NULL, pFillRgn->cbRgnData, (RGNDATA *)pFillRgn->RgnData); FillRgn(hdc, hRgn, (handletable->objectHandle)[pFillRgn->ihBrush]); DeleteObject(hRgn); break; } case EMR_FRAMERGN: { PEMRFRAMERGN pFrameRgn = (PEMRFRAMERGN)mr; HRGN hRgn = ExtCreateRegion(NULL, pFrameRgn->cbRgnData, (RGNDATA *)pFrameRgn->RgnData); FrameRgn(hdc, hRgn, (handletable->objectHandle)[pFrameRgn->ihBrush], pFrameRgn->szlStroke.cx, pFrameRgn->szlStroke.cy); DeleteObject(hRgn); break; } case EMR_INVERTRGN: { PEMRINVERTRGN pInvertRgn = (PEMRINVERTRGN)mr; HRGN hRgn = ExtCreateRegion(NULL, pInvertRgn->cbRgnData, (RGNDATA *)pInvertRgn->RgnData); InvertRgn(hdc, hRgn); DeleteObject(hRgn); break; } case EMR_PAINTRGN: { PEMRPAINTRGN pPaintRgn = (PEMRPAINTRGN)mr; HRGN hRgn = ExtCreateRegion(NULL, pPaintRgn->cbRgnData, (RGNDATA *)pPaintRgn->RgnData); PaintRgn(hdc, hRgn); DeleteObject(hRgn); break; } case EMR_SETTEXTJUSTIFICATION: { PEMRSETTEXTJUSTIFICATION pSetTextJust = (PEMRSETTEXTJUSTIFICATION)mr; SetTextJustification(hdc, pSetTextJust->nBreakExtra, pSetTextJust->nBreakCount); break; } case EMR_SETLAYOUT: { PEMRSETLAYOUT pSetLayout = (PEMRSETLAYOUT)mr; SetLayout(hdc, pSetLayout->iMode); break; } case EMR_POLYDRAW16: case EMR_GLSRECORD: case EMR_GLSBOUNDEDRECORD: case EMR_DRAWESCAPE : case EMR_EXTESCAPE: case EMR_STARTDOC: case EMR_SMALLTEXTOUT: case EMR_FORCEUFIMAPPING: case EMR_NAMEDESCAPE: case EMR_COLORCORRECTPALETTE: case EMR_SETICMPROFILEA: case EMR_SETICMPROFILEW: case EMR_ALPHABLEND: case EMR_TRANSPARENTBLT: case EMR_GRADIENTFILL: case EMR_SETLINKEDUFI: case EMR_COLORMATCHTOTARGETW: case EMR_CREATECOLORSPACEW: default: /* From docs: If PlayEnhMetaFileRecord doesn't recognize a record then ignore and return TRUE. */ FIXME("type %d is unimplemented\n", type); break; } tmprc.left = tmprc.top = 0; tmprc.right = tmprc.bottom = 1000; LPtoDP(hdc, (POINT*)&tmprc, 2); TRACE("L:0,0 - 1000,1000 -> D:%ld,%ld - %ld,%ld\n", tmprc.left, tmprc.top, tmprc.right, tmprc.bottom); if ( !IS_WIN9X() ) { /* WinNT - update the transform (win9x updates when the next graphics output record is played). */ EMF_Update_MF_Xform(hdc, info); } return TRUE; } /***************************************************************************** * * EnumEnhMetaFile (GDI32.@) * * Walk an enhanced metafile, calling a user-specified function _EnhMetaFunc_ * for each * record. Returns when either every record has been used or * when _EnhMetaFunc_ returns FALSE. * * * RETURNS * TRUE if every record is used, FALSE if any invocation of _EnhMetaFunc_ * returns FALSE. * * BUGS * Ignores rect. * * NOTES * This function behaves differently in Win9x and WinNT. * * In WinNT, the DC's world transform is updated as the EMF changes * the Window/Viewport Extent and Origin or it's world transform. * The actual Window/Viewport Extent and Origin are left untouched. * * In Win9x, the DC is left untouched, and PlayEnhMetaFileRecord * updates the scaling itself but only just before a record that * writes anything to the DC. * * I'm not sure where the data (enum_emh_data) is stored in either * version. For this implementation, it is stored before the handle * table, but it could be stored in the DC, in the EMF handle or in * TLS. * MJM 5 Oct 2002 */ BOOL WINAPI EnumEnhMetaFile( HDC hdc, /* [in] device context to pass to _EnhMetaFunc_ */ HENHMETAFILE hmf, /* [in] EMF to walk */ ENHMFENUMPROC callback, /* [in] callback function */ LPVOID data, /* [in] optional data for callback function */ const RECT *lpRect /* [in] bounding rectangle for rendered metafile */ ) { BOOL ret; ENHMETAHEADER *emh; ENHMETARECORD *emr; DWORD offset; UINT i; HANDLETABLE *ht; INT savedMode = 0; XFORM savedXform; HPEN hPen = NULL; HBRUSH hBrush = NULL; HFONT hFont = NULL; enum_emh_data *info; SIZE vp_size, win_size; POINT vp_org, win_org; INT mapMode = MM_TEXT; COLORREF old_text_color = 0, old_bk_color = 0; if(!lpRect) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } emh = EMF_GetEnhMetaHeader(hmf); if(!emh) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } info = HeapAlloc( GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof (enum_emh_data) + sizeof(HANDLETABLE) * emh->nHandles ); if(!info) { SetLastError(ERROR_NOT_ENOUGH_MEMORY); return FALSE; } info->wndOrgX = 0; info->wndOrgY = 0; info->wndExtX = 1; info->wndExtY = 1; info->vportOrgX = 0; info->vportOrgY = 0; info->vportExtX = 1; info->vportExtY = 1; info->world_transform.eM11 = info->world_transform.eM22 = 1; info->world_transform.eM12 = info->world_transform.eM21 = 0; info->world_transform.eDx = info->world_transform.eDy = 0; ht = (HANDLETABLE*) &info[1]; ht->objectHandle[0] = hmf; if(hdc) { savedMode = SetGraphicsMode(hdc, GM_ADVANCED); GetWorldTransform(hdc, &savedXform); GetViewportExtEx(hdc, &vp_size); GetWindowExtEx(hdc, &win_size); GetViewportOrgEx(hdc, &vp_org); GetWindowOrgEx(hdc, &win_org); mapMode = GetMapMode(hdc); /* save the current pen, brush and font */ hPen = GetCurrentObject(hdc, OBJ_PEN); hBrush = GetCurrentObject(hdc, OBJ_BRUSH); hFont = GetCurrentObject(hdc, OBJ_FONT); old_text_color = SetTextColor(hdc, RGB(0,0,0)); old_bk_color = SetBkColor(hdc, RGB(0xff, 0xff, 0xff)); } info->mode = MM_TEXT; if ( IS_WIN9X() ) { /* Win95 leaves the vp/win ext/org info alone */ info->init_transform.eM11 = 1.0; info->init_transform.eM12 = 0.0; info->init_transform.eM21 = 0.0; info->init_transform.eM22 = 1.0; info->init_transform.eDx = 0.0; info->init_transform.eDy = 0.0; } else { /* WinNT combines the vp/win ext/org info into a transform */ FLOAT xscale, yscale; xscale = (FLOAT)vp_size.cx / (FLOAT)win_size.cx; yscale = (FLOAT)vp_size.cy / (FLOAT)win_size.cy; info->init_transform.eM11 = xscale; info->init_transform.eM12 = 0.0; info->init_transform.eM21 = 0.0; info->init_transform.eM22 = yscale; info->init_transform.eDx = (FLOAT)vp_org.x - xscale * (FLOAT)win_org.x; info->init_transform.eDy = (FLOAT)vp_org.y - yscale * (FLOAT)win_org.y; CombineTransform(&info->init_transform, &savedXform, &info->init_transform); } if ( WIDTH(emh->rclFrame) && HEIGHT(emh->rclFrame) ) { FLOAT xSrcPixSize, ySrcPixSize, xscale, yscale; XFORM xform; TRACE("rect: %ld,%ld - %ld,%ld. rclFrame: %ld,%ld - %ld,%ld\n", lpRect->left, lpRect->top, lpRect->right, lpRect->bottom, emh->rclFrame.left, emh->rclFrame.top, emh->rclFrame.right, emh->rclFrame.bottom); xSrcPixSize = (FLOAT) emh->szlMillimeters.cx / emh->szlDevice.cx; ySrcPixSize = (FLOAT) emh->szlMillimeters.cy / emh->szlDevice.cy; xscale = (FLOAT) WIDTH(*lpRect) * 100.0 / WIDTH(emh->rclFrame) * xSrcPixSize; yscale = (FLOAT) HEIGHT(*lpRect) * 100.0 / HEIGHT(emh->rclFrame) * ySrcPixSize; xform.eM11 = xscale; xform.eM12 = 0; xform.eM21 = 0; xform.eM22 = yscale; xform.eDx = (FLOAT) lpRect->left - (FLOAT) WIDTH(*lpRect) / WIDTH(emh->rclFrame) * emh->rclFrame.left; xform.eDy = (FLOAT) lpRect->top - (FLOAT) HEIGHT(*lpRect) / HEIGHT(emh->rclFrame) * emh->rclFrame.top; CombineTransform(&info->init_transform, &xform, &info->init_transform); } /* WinNT resets the current vp/win org/ext */ if ( !IS_WIN9X() ) { SetMapMode(hdc, MM_TEXT); SetWindowOrgEx(hdc, 0, 0, NULL); SetViewportOrgEx(hdc, 0, 0, NULL); EMF_Update_MF_Xform(hdc, info); } ret = TRUE; offset = 0; while(ret && offset < emh->nBytes) { emr = (ENHMETARECORD *)((char *)emh + offset); TRACE("Calling EnumFunc with record %s, size %ld\n", get_emr_name(emr->iType), emr->nSize); ret = (*callback)(hdc, ht, emr, emh->nHandles, (LPARAM)data); offset += emr->nSize; } if (hdc) { SetBkColor(hdc, old_bk_color); SetTextColor(hdc, old_text_color); /* restore pen, brush and font */ SelectObject(hdc, hBrush); SelectObject(hdc, hPen); SelectObject(hdc, hFont); SetWorldTransform(hdc, &savedXform); if (savedMode) SetGraphicsMode(hdc, savedMode); SetMapMode(hdc, mapMode); SetWindowOrgEx(hdc, win_org.x, win_org.y, NULL); SetWindowExtEx(hdc, win_size.cx, win_size.cy, NULL); SetViewportOrgEx(hdc, vp_org.x, vp_org.y, NULL); SetViewportExtEx(hdc, vp_size.cx, vp_size.cy, NULL); } for(i = 1; i < emh->nHandles; i++) /* Don't delete element 0 (hmf) */ if( (ht->objectHandle)[i] ) DeleteObject( (ht->objectHandle)[i] ); HeapFree( GetProcessHeap(), 0, info ); return ret; } static INT CALLBACK EMF_PlayEnhMetaFileCallback(HDC hdc, HANDLETABLE *ht, const ENHMETARECORD *emr, INT handles, LPARAM data) { return PlayEnhMetaFileRecord(hdc, ht, emr, handles); } /************************************************************************** * PlayEnhMetaFile (GDI32.@) * * Renders an enhanced metafile into a specified rectangle *lpRect * in device context hdc. * */ BOOL WINAPI PlayEnhMetaFile( HDC hdc, /* [in] DC to render into */ HENHMETAFILE hmf, /* [in] metafile to render */ const RECT *lpRect /* [in] rectangle to place metafile inside */ ) { return EnumEnhMetaFile(hdc, hmf, EMF_PlayEnhMetaFileCallback, NULL, lpRect); } /***************************************************************************** * DeleteEnhMetaFile (GDI32.@) * * Deletes an enhanced metafile and frees the associated storage. */ BOOL WINAPI DeleteEnhMetaFile(HENHMETAFILE hmf) { return EMF_Delete_HENHMETAFILE( hmf ); } /***************************************************************************** * CopyEnhMetaFileA (GDI32.@) * * Duplicate an enhanced metafile. * * */ HENHMETAFILE WINAPI CopyEnhMetaFileA( HENHMETAFILE hmfSrc, LPCSTR file) { ENHMETAHEADER *emrSrc = EMF_GetEnhMetaHeader( hmfSrc ), *emrDst; HENHMETAFILE hmfDst; if(!emrSrc) return FALSE; if (!file) { emrDst = HeapAlloc( GetProcessHeap(), 0, emrSrc->nBytes ); memcpy( emrDst, emrSrc, emrSrc->nBytes ); hmfDst = EMF_Create_HENHMETAFILE( emrDst, FALSE ); } else { HANDLE hFile; hFile = CreateFileA( file, GENERIC_WRITE | GENERIC_READ, 0, NULL, CREATE_ALWAYS, 0, 0); WriteFile( hFile, emrSrc, emrSrc->nBytes, 0, 0); CloseHandle( hFile ); /* Reopen file for reading only, so that apps can share read access to the file while hmf is still valid */ hFile = CreateFileA( file, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, 0); if(hFile == INVALID_HANDLE_VALUE) { ERR("Can't reopen emf for reading\n"); return 0; } hmfDst = EMF_GetEnhMetaFile( hFile ); CloseHandle( hFile ); } return hmfDst; } /***************************************************************************** * CopyEnhMetaFileW (GDI32.@) * * See CopyEnhMetaFileA. * * */ HENHMETAFILE WINAPI CopyEnhMetaFileW( HENHMETAFILE hmfSrc, LPCWSTR file) { ENHMETAHEADER *emrSrc = EMF_GetEnhMetaHeader( hmfSrc ), *emrDst; HENHMETAFILE hmfDst; if(!emrSrc) return FALSE; if (!file) { emrDst = HeapAlloc( GetProcessHeap(), 0, emrSrc->nBytes ); memcpy( emrDst, emrSrc, emrSrc->nBytes ); hmfDst = EMF_Create_HENHMETAFILE( emrDst, FALSE ); } else { HANDLE hFile; hFile = CreateFileW( file, GENERIC_WRITE | GENERIC_READ, 0, NULL, CREATE_ALWAYS, 0, 0); WriteFile( hFile, emrSrc, emrSrc->nBytes, 0, 0); CloseHandle( hFile ); /* Reopen file for reading only, so that apps can share read access to the file while hmf is still valid */ hFile = CreateFileW( file, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, 0); if(hFile == INVALID_HANDLE_VALUE) { ERR("Can't reopen emf for reading\n"); return 0; } hmfDst = EMF_GetEnhMetaFile( hFile ); CloseHandle( hFile ); } return hmfDst; } /* Struct to be used to be passed in the LPVOID parameter for cbEnhPaletteCopy */ typedef struct tagEMF_PaletteCopy { UINT cEntries; LPPALETTEENTRY lpPe; } EMF_PaletteCopy; /*************************************************************** * Find the EMR_EOF record and then use it to find the * palette entries for this enhanced metafile. * The lpData is actually a pointer to a EMF_PaletteCopy struct * which contains the max number of elements to copy and where * to copy them to. * * NOTE: To be used by GetEnhMetaFilePaletteEntries only! */ INT CALLBACK cbEnhPaletteCopy( HDC a, HANDLETABLE *b, const ENHMETARECORD *lpEMR, INT c, LPARAM lpData ) { if ( lpEMR->iType == EMR_EOF ) { PEMREOF lpEof = (PEMREOF)lpEMR; EMF_PaletteCopy* info = (EMF_PaletteCopy*)lpData; DWORD dwNumPalToCopy = min( lpEof->nPalEntries, info->cEntries ); TRACE( "copying 0x%08lx palettes\n", dwNumPalToCopy ); memcpy( (LPVOID)info->lpPe, (LPVOID)(((LPSTR)lpEof) + lpEof->offPalEntries), sizeof( *(info->lpPe) ) * dwNumPalToCopy ); /* Update the passed data as a return code */ info->lpPe = NULL; /* Palettes were copied! */ info->cEntries = (UINT)dwNumPalToCopy; return FALSE; /* That's all we need */ } return TRUE; } /***************************************************************************** * GetEnhMetaFilePaletteEntries (GDI32.@) * * Copy the palette and report size * * BUGS: Error codes (SetLastError) are not set on failures */ UINT WINAPI GetEnhMetaFilePaletteEntries( HENHMETAFILE hEmf, UINT cEntries, LPPALETTEENTRY lpPe ) { ENHMETAHEADER* enhHeader = EMF_GetEnhMetaHeader( hEmf ); EMF_PaletteCopy infoForCallBack; TRACE( "(%p,%d,%p)\n", hEmf, cEntries, lpPe ); /* First check if there are any palettes associated with this metafile. */ if ( enhHeader->nPalEntries == 0 ) return 0; /* Is the user requesting the number of palettes? */ if ( lpPe == NULL ) return (UINT)enhHeader->nPalEntries; /* Copy cEntries worth of PALETTEENTRY structs into the buffer */ infoForCallBack.cEntries = cEntries; infoForCallBack.lpPe = lpPe; if ( !EnumEnhMetaFile( 0, hEmf, cbEnhPaletteCopy, &infoForCallBack, 0 ) ) return GDI_ERROR; /* Verify that the callback executed correctly */ if ( infoForCallBack.lpPe != NULL ) { /* Callback proc had error! */ ERR( "cbEnhPaletteCopy didn't execute correctly\n" ); return GDI_ERROR; } return infoForCallBack.cEntries; } typedef struct gdi_mf_comment { DWORD ident; DWORD iComment; DWORD nVersion; DWORD nChecksum; DWORD fFlags; DWORD cbWinMetaFile; } gdi_mf_comment; /****************************************************************** * SetWinMetaFileBits (GDI32.@) * * Translate from old style to new style. * */ HENHMETAFILE WINAPI SetWinMetaFileBits(UINT cbBuffer, CONST BYTE *lpbBuffer, HDC hdcRef, CONST METAFILEPICT *lpmfp ) { HMETAFILE hmf = 0; HENHMETAFILE ret = 0; HDC hdc = 0, hdcdisp = 0; METAFILEPICT mfp; RECT rc, *prcFrame = NULL; gdi_mf_comment *mfcomment; UINT mfcomment_size; INT horzres, vertres; TRACE("(%d, %p, %p, %p)\n", cbBuffer, lpbBuffer, hdcRef, lpmfp); hmf = SetMetaFileBitsEx(cbBuffer, lpbBuffer); if(!hmf) { WARN("SetMetaFileBitsEx failed\n"); return 0; } if(!hdcRef) hdcRef = hdcdisp = CreateDCA("DISPLAY", NULL, NULL, NULL); if(!lpmfp) { lpmfp = &mfp; mfp.mm = MM_ANISOTROPIC; mfp.xExt = -1; mfp.yExt = -1; } TRACE("mm = %ld %ldx%ld\n", lpmfp->mm, lpmfp->xExt, lpmfp->yExt); if((lpmfp->mm == MM_ISOTROPIC || lpmfp->mm == MM_ANISOTROPIC) && mfp.xExt > 0 && mfp.yExt > 0) { rc.left = rc.top = 0; rc.right = lpmfp->xExt; rc.bottom = lpmfp->yExt; prcFrame = &rc; } if(!(hdc = CreateEnhMetaFileW(hdcRef, NULL, prcFrame, NULL))) { ERR("CreateEnhMetaFile fails?\n"); goto end; } horzres = GetDeviceCaps(hdcRef, HORZRES); vertres = GetDeviceCaps(hdcRef, VERTRES); if(hdcdisp) { DeleteDC(hdcdisp); hdcRef = 0; } /* * Write the original METAFILE into the enhanced metafile. * It is encapsulated in a GDICOMMENT_WINDOWS_METAFILE record. */ mfcomment_size = sizeof (gdi_mf_comment) + cbBuffer; mfcomment = HeapAlloc(GetProcessHeap(), 0, mfcomment_size); if(mfcomment) { mfcomment->ident = GDICOMMENT_IDENTIFIER; mfcomment->iComment = GDICOMMENT_WINDOWS_METAFILE; mfcomment->nVersion = 0x00000300; mfcomment->nChecksum = 0; /* FIXME */ mfcomment->fFlags = 0; mfcomment->cbWinMetaFile = cbBuffer; memcpy(&mfcomment[1], lpbBuffer, cbBuffer); GdiComment(hdc, mfcomment_size, (BYTE*) mfcomment); HeapFree(GetProcessHeap(), 0, mfcomment); } if(lpmfp->mm != MM_TEXT) SetMapMode(hdc, lpmfp->mm); /* set the initial viewport:window ratio as 1:1 */ SetViewportExtEx(hdc, horzres, vertres, NULL); SetWindowExtEx(hdc, horzres, vertres, NULL); PlayMetaFile(hdc, hmf); ret = CloseEnhMetaFile(hdc); end: DeleteMetaFile(hmf); return ret; }