/* * Enhanced MetaFile driver graphics functions * * Copyright 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include #include #include #include "windef.h" #include "winbase.h" #include "wingdi.h" #include "enhmfdrv/enhmetafiledrv.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(enhmetafile); /********************************************************************** * EMFDRV_MoveTo */ BOOL CDECL EMFDRV_MoveTo(PHYSDEV dev, INT x, INT y) { EMRMOVETOEX emr; emr.emr.iType = EMR_MOVETOEX; emr.emr.nSize = sizeof(emr); emr.ptl.x = x; emr.ptl.y = y; return EMFDRV_WriteRecord( dev, &emr.emr ); } /*********************************************************************** * EMFDRV_LineTo */ BOOL CDECL EMFDRV_LineTo( PHYSDEV dev, INT x, INT y ) { POINT pt; EMRLINETO emr; RECTL bounds; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; emr.emr.iType = EMR_LINETO; emr.emr.nSize = sizeof(emr); emr.ptl.x = x; emr.ptl.y = y; if(!EMFDRV_WriteRecord( dev, &emr.emr )) return FALSE; GetCurrentPositionEx(physDev->hdc, &pt); bounds.left = min(x, pt.x); bounds.top = min(y, pt.y); bounds.right = max(x, pt.x); bounds.bottom = max(y, pt.y); EMFDRV_UpdateBBox( dev, &bounds ); return TRUE; } /*********************************************************************** * EMFDRV_ArcChordPie */ static BOOL EMFDRV_ArcChordPie( PHYSDEV dev, INT left, INT top, INT right, INT bottom, INT xstart, INT ystart, INT xend, INT yend, DWORD iType ) { INT temp, xCentre, yCentre, i; double angleStart, angleEnd; double xinterStart, yinterStart, xinterEnd, yinterEnd; EMRARC emr; RECTL bounds; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; if(left == right || top == bottom) return FALSE; if(left > right) {temp = left; left = right; right = temp;} if(top > bottom) {temp = top; top = bottom; bottom = temp;} if(GetGraphicsMode(physDev->hdc) == GM_COMPATIBLE) { right--; bottom--; } emr.emr.iType = iType; emr.emr.nSize = sizeof(emr); emr.rclBox.left = left; emr.rclBox.top = top; emr.rclBox.right = right; emr.rclBox.bottom = bottom; emr.ptlStart.x = xstart; emr.ptlStart.y = ystart; emr.ptlEnd.x = xend; emr.ptlEnd.y = yend; /* Now calculate the BBox */ xCentre = (left + right + 1) / 2; yCentre = (top + bottom + 1) / 2; xstart -= xCentre; ystart -= yCentre; xend -= xCentre; yend -= yCentre; /* invert y co-ords to get angle anti-clockwise from x-axis */ angleStart = atan2( -(double)ystart, (double)xstart); angleEnd = atan2( -(double)yend, (double)xend); /* These are the intercepts of the start/end lines with the arc */ xinterStart = (right - left + 1)/2 * cos(angleStart) + xCentre; yinterStart = -(bottom - top + 1)/2 * sin(angleStart) + yCentre; xinterEnd = (right - left + 1)/2 * cos(angleEnd) + xCentre; yinterEnd = -(bottom - top + 1)/2 * sin(angleEnd) + yCentre; if(angleStart < 0) angleStart += 2 * M_PI; if(angleEnd < 0) angleEnd += 2 * M_PI; if(angleEnd < angleStart) angleEnd += 2 * M_PI; bounds.left = min(xinterStart, xinterEnd); bounds.top = min(yinterStart, yinterEnd); bounds.right = max(xinterStart, xinterEnd); bounds.bottom = max(yinterStart, yinterEnd); for(i = 0; i <= 8; i++) { if(i * M_PI / 2 < angleStart) /* loop until we're past start */ continue; if(i * M_PI / 2 > angleEnd) /* if we're past end we're finished */ break; /* the arc touches the rectangle at the start of quadrant i, so adjust BBox to reflect this. */ switch(i % 4) { case 0: bounds.right = right; break; case 1: bounds.top = top; break; case 2: bounds.left = left; break; case 3: bounds.bottom = bottom; break; } } /* If we're drawing a pie then make sure we include the centre */ if(iType == EMR_PIE) { if(bounds.left > xCentre) bounds.left = xCentre; else if(bounds.right < xCentre) bounds.right = xCentre; if(bounds.top > yCentre) bounds.top = yCentre; else if(bounds.bottom < yCentre) bounds.right = yCentre; } if(!EMFDRV_WriteRecord( dev, &emr.emr )) return FALSE; EMFDRV_UpdateBBox( dev, &bounds ); return TRUE; } /*********************************************************************** * EMFDRV_Arc */ BOOL CDECL EMFDRV_Arc( PHYSDEV dev, INT left, INT top, INT right, INT bottom, INT xstart, INT ystart, INT xend, INT yend ) { return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart, xend, yend, EMR_ARC ); } /*********************************************************************** * EMFDRV_Pie */ BOOL CDECL EMFDRV_Pie( PHYSDEV dev, INT left, INT top, INT right, INT bottom, INT xstart, INT ystart, INT xend, INT yend ) { return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart, xend, yend, EMR_PIE ); } /*********************************************************************** * EMFDRV_Chord */ BOOL CDECL EMFDRV_Chord( PHYSDEV dev, INT left, INT top, INT right, INT bottom, INT xstart, INT ystart, INT xend, INT yend ) { return EMFDRV_ArcChordPie( dev, left, top, right, bottom, xstart, ystart, xend, yend, EMR_CHORD ); } /*********************************************************************** * EMFDRV_Ellipse */ BOOL CDECL EMFDRV_Ellipse( PHYSDEV dev, INT left, INT top, INT right, INT bottom ) { EMRELLIPSE emr; INT temp; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; TRACE("%d,%d - %d,%d\n", left, top, right, bottom); if(left == right || top == bottom) return FALSE; if(left > right) {temp = left; left = right; right = temp;} if(top > bottom) {temp = top; top = bottom; bottom = temp;} if(GetGraphicsMode(physDev->hdc) == GM_COMPATIBLE) { right--; bottom--; } emr.emr.iType = EMR_ELLIPSE; emr.emr.nSize = sizeof(emr); emr.rclBox.left = left; emr.rclBox.top = top; emr.rclBox.right = right; emr.rclBox.bottom = bottom; EMFDRV_UpdateBBox( dev, &emr.rclBox ); return EMFDRV_WriteRecord( dev, &emr.emr ); } /*********************************************************************** * EMFDRV_Rectangle */ BOOL CDECL EMFDRV_Rectangle(PHYSDEV dev, INT left, INT top, INT right, INT bottom) { EMRRECTANGLE emr; INT temp; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; TRACE("%d,%d - %d,%d\n", left, top, right, bottom); if(left == right || top == bottom) return FALSE; if(left > right) {temp = left; left = right; right = temp;} if(top > bottom) {temp = top; top = bottom; bottom = temp;} if(GetGraphicsMode(physDev->hdc) == GM_COMPATIBLE) { right--; bottom--; } emr.emr.iType = EMR_RECTANGLE; emr.emr.nSize = sizeof(emr); emr.rclBox.left = left; emr.rclBox.top = top; emr.rclBox.right = right; emr.rclBox.bottom = bottom; EMFDRV_UpdateBBox( dev, &emr.rclBox ); return EMFDRV_WriteRecord( dev, &emr.emr ); } /*********************************************************************** * EMFDRV_RoundRect */ BOOL CDECL EMFDRV_RoundRect( PHYSDEV dev, INT left, INT top, INT right, INT bottom, INT ell_width, INT ell_height ) { EMRROUNDRECT emr; INT temp; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; if(left == right || top == bottom) return FALSE; if(left > right) {temp = left; left = right; right = temp;} if(top > bottom) {temp = top; top = bottom; bottom = temp;} if(GetGraphicsMode(physDev->hdc) == GM_COMPATIBLE) { right--; bottom--; } emr.emr.iType = EMR_ROUNDRECT; emr.emr.nSize = sizeof(emr); emr.rclBox.left = left; emr.rclBox.top = top; emr.rclBox.right = right; emr.rclBox.bottom = bottom; emr.szlCorner.cx = ell_width; emr.szlCorner.cy = ell_height; EMFDRV_UpdateBBox( dev, &emr.rclBox ); return EMFDRV_WriteRecord( dev, &emr.emr ); } /*********************************************************************** * EMFDRV_SetPixel */ COLORREF CDECL EMFDRV_SetPixel( PHYSDEV dev, INT x, INT y, COLORREF color ) { EMRSETPIXELV emr; emr.emr.iType = EMR_SETPIXELV; emr.emr.nSize = sizeof(emr); emr.ptlPixel.x = x; emr.ptlPixel.y = y; emr.crColor = color; if (EMFDRV_WriteRecord( dev, &emr.emr )) { RECTL bounds; bounds.left = bounds.right = x; bounds.top = bounds.bottom = y; EMFDRV_UpdateBBox( dev, &bounds ); return color; } return -1; } /********************************************************************** * EMFDRV_Polylinegon * * Helper for EMFDRV_Poly{line|gon} */ static BOOL EMFDRV_Polylinegon( PHYSDEV dev, const POINT* pt, INT count, DWORD iType ) { EMRPOLYLINE *emr; DWORD size; INT i; BOOL ret; size = sizeof(EMRPOLYLINE) + sizeof(POINTL) * (count - 1); emr = HeapAlloc( GetProcessHeap(), 0, size ); emr->emr.iType = iType; emr->emr.nSize = size; emr->rclBounds.left = emr->rclBounds.right = pt[0].x; emr->rclBounds.top = emr->rclBounds.bottom = pt[0].y; for(i = 1; i < count; i++) { if(pt[i].x < emr->rclBounds.left) emr->rclBounds.left = pt[i].x; else if(pt[i].x > emr->rclBounds.right) emr->rclBounds.right = pt[i].x; if(pt[i].y < emr->rclBounds.top) emr->rclBounds.top = pt[i].y; else if(pt[i].y > emr->rclBounds.bottom) emr->rclBounds.bottom = pt[i].y; } emr->cptl = count; memcpy(emr->aptl, pt, count * sizeof(POINTL)); ret = EMFDRV_WriteRecord( dev, &emr->emr ); if(ret) EMFDRV_UpdateBBox( dev, &emr->rclBounds ); HeapFree( GetProcessHeap(), 0, emr ); return ret; } /********************************************************************** * EMFDRV_Polylinegon16 * * Helper for EMFDRV_Poly{line|gon} * * This is not a legacy function! * We are using SHORT integers to save space. */ static BOOL EMFDRV_Polylinegon16( PHYSDEV dev, const POINT* pt, INT count, DWORD iType ) { EMRPOLYLINE16 *emr; DWORD size; INT i; BOOL ret; /* check whether all points fit in the SHORT int POINT structure */ for(i = 0; i < count; i++) { if( ((pt[i].x+0x8000) & ~0xffff ) || ((pt[i].y+0x8000) & ~0xffff ) ) return FALSE; } size = sizeof(EMRPOLYLINE16) + sizeof(POINTS) * (count - 1); emr = HeapAlloc( GetProcessHeap(), 0, size ); emr->emr.iType = iType; emr->emr.nSize = size; emr->rclBounds.left = emr->rclBounds.right = pt[0].x; emr->rclBounds.top = emr->rclBounds.bottom = pt[0].y; for(i = 1; i < count; i++) { if(pt[i].x < emr->rclBounds.left) emr->rclBounds.left = pt[i].x; else if(pt[i].x > emr->rclBounds.right) emr->rclBounds.right = pt[i].x; if(pt[i].y < emr->rclBounds.top) emr->rclBounds.top = pt[i].y; else if(pt[i].y > emr->rclBounds.bottom) emr->rclBounds.bottom = pt[i].y; } emr->cpts = count; for(i = 0; i < count; i++ ) { emr->apts[i].x = pt[i].x; emr->apts[i].y = pt[i].y; } ret = EMFDRV_WriteRecord( dev, &emr->emr ); if(ret) EMFDRV_UpdateBBox( dev, &emr->rclBounds ); HeapFree( GetProcessHeap(), 0, emr ); return ret; } /********************************************************************** * EMFDRV_Polyline */ BOOL CDECL EMFDRV_Polyline( PHYSDEV dev, const POINT* pt, INT count ) { if( EMFDRV_Polylinegon16( dev, pt, count, EMR_POLYLINE16 ) ) return TRUE; return EMFDRV_Polylinegon( dev, pt, count, EMR_POLYLINE ); } /********************************************************************** * EMFDRV_Polygon */ BOOL CDECL EMFDRV_Polygon( PHYSDEV dev, const POINT* pt, INT count ) { if(count < 2) return FALSE; if( EMFDRV_Polylinegon16( dev, pt, count, EMR_POLYGON16 ) ) return TRUE; return EMFDRV_Polylinegon( dev, pt, count, EMR_POLYGON ); } /********************************************************************** * EMFDRV_PolyPolylinegon * * Helper for EMFDRV_PolyPoly{line|gon} */ static BOOL EMFDRV_PolyPolylinegon( PHYSDEV dev, const POINT* pt, const INT* counts, UINT polys, DWORD iType) { EMRPOLYPOLYLINE *emr; DWORD cptl = 0, poly, size; INT point; RECTL bounds; const POINT *pts; BOOL ret; bounds.left = bounds.right = pt[0].x; bounds.top = bounds.bottom = pt[0].y; pts = pt; for(poly = 0; poly < polys; poly++) { cptl += counts[poly]; for(point = 0; point < counts[poly]; point++) { if(bounds.left > pts->x) bounds.left = pts->x; else if(bounds.right < pts->x) bounds.right = pts->x; if(bounds.top > pts->y) bounds.top = pts->y; else if(bounds.bottom < pts->y) bounds.bottom = pts->y; pts++; } } size = sizeof(EMRPOLYPOLYLINE) + (polys - 1) * sizeof(DWORD) + (cptl - 1) * sizeof(POINTL); emr = HeapAlloc( GetProcessHeap(), 0, size ); emr->emr.iType = iType; emr->emr.nSize = size; emr->rclBounds = bounds; emr->nPolys = polys; emr->cptl = cptl; memcpy(emr->aPolyCounts, counts, polys * sizeof(DWORD)); memcpy(emr->aPolyCounts + polys, pt, cptl * sizeof(POINTL)); ret = EMFDRV_WriteRecord( dev, &emr->emr ); if(ret) EMFDRV_UpdateBBox( dev, &emr->rclBounds ); HeapFree( GetProcessHeap(), 0, emr ); return ret; } /********************************************************************** * EMFDRV_PolyPolyline */ BOOL CDECL EMFDRV_PolyPolyline(PHYSDEV dev, const POINT* pt, const DWORD* counts, DWORD polys) { return EMFDRV_PolyPolylinegon( dev, pt, (const INT *)counts, polys, EMR_POLYPOLYLINE ); } /********************************************************************** * EMFDRV_PolyPolygon */ BOOL CDECL EMFDRV_PolyPolygon( PHYSDEV dev, const POINT* pt, const INT* counts, UINT polys ) { return EMFDRV_PolyPolylinegon( dev, pt, counts, polys, EMR_POLYPOLYGON ); } /********************************************************************** * EMFDRV_ExtFloodFill */ BOOL CDECL EMFDRV_ExtFloodFill( PHYSDEV dev, INT x, INT y, COLORREF color, UINT fillType ) { EMREXTFLOODFILL emr; emr.emr.iType = EMR_EXTFLOODFILL; emr.emr.nSize = sizeof(emr); emr.ptlStart.x = x; emr.ptlStart.y = y; emr.crColor = color; emr.iMode = fillType; return EMFDRV_WriteRecord( dev, &emr.emr ); } /********************************************************************* * EMFDRV_FillRgn */ BOOL CDECL EMFDRV_FillRgn( PHYSDEV dev, HRGN hrgn, HBRUSH hbrush ) { EMRFILLRGN *emr; DWORD size, rgnsize, index; BOOL ret; index = EMFDRV_CreateBrushIndirect( dev, hbrush ); if(!index) return FALSE; rgnsize = GetRegionData( hrgn, 0, NULL ); size = rgnsize + offsetof(EMRFILLRGN,RgnData); emr = HeapAlloc( GetProcessHeap(), 0, size ); GetRegionData( hrgn, rgnsize, (RGNDATA *)&emr->RgnData ); emr->emr.iType = EMR_FILLRGN; emr->emr.nSize = size; emr->rclBounds.left = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.left; emr->rclBounds.top = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.top; emr->rclBounds.right = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.right - 1; emr->rclBounds.bottom = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.bottom - 1; emr->cbRgnData = rgnsize; emr->ihBrush = index; ret = EMFDRV_WriteRecord( dev, &emr->emr ); if(ret) EMFDRV_UpdateBBox( dev, &emr->rclBounds ); HeapFree( GetProcessHeap(), 0, emr ); return ret; } /********************************************************************* * EMFDRV_FrameRgn */ BOOL CDECL EMFDRV_FrameRgn( PHYSDEV dev, HRGN hrgn, HBRUSH hbrush, INT width, INT height ) { EMRFRAMERGN *emr; DWORD size, rgnsize, index; BOOL ret; index = EMFDRV_CreateBrushIndirect( dev, hbrush ); if(!index) return FALSE; rgnsize = GetRegionData( hrgn, 0, NULL ); size = rgnsize + offsetof(EMRFRAMERGN,RgnData); emr = HeapAlloc( GetProcessHeap(), 0, size ); GetRegionData( hrgn, rgnsize, (RGNDATA *)&emr->RgnData ); emr->emr.iType = EMR_FRAMERGN; emr->emr.nSize = size; emr->rclBounds.left = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.left; emr->rclBounds.top = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.top; emr->rclBounds.right = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.right - 1; emr->rclBounds.bottom = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.bottom - 1; emr->cbRgnData = rgnsize; emr->ihBrush = index; emr->szlStroke.cx = width; emr->szlStroke.cy = height; ret = EMFDRV_WriteRecord( dev, &emr->emr ); if(ret) EMFDRV_UpdateBBox( dev, &emr->rclBounds ); HeapFree( GetProcessHeap(), 0, emr ); return ret; } /********************************************************************* * EMFDRV_PaintInvertRgn * * Helper for EMFDRV_{Paint|Invert}Rgn */ static BOOL EMFDRV_PaintInvertRgn( PHYSDEV dev, HRGN hrgn, DWORD iType ) { EMRINVERTRGN *emr; DWORD size, rgnsize; BOOL ret; rgnsize = GetRegionData( hrgn, 0, NULL ); size = rgnsize + offsetof(EMRINVERTRGN,RgnData); emr = HeapAlloc( GetProcessHeap(), 0, size ); GetRegionData( hrgn, rgnsize, (RGNDATA *)&emr->RgnData ); emr->emr.iType = iType; emr->emr.nSize = size; emr->rclBounds.left = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.left; emr->rclBounds.top = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.top; emr->rclBounds.right = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.right - 1; emr->rclBounds.bottom = ((RGNDATA *)&emr->RgnData)->rdh.rcBound.bottom - 1; emr->cbRgnData = rgnsize; ret = EMFDRV_WriteRecord( dev, &emr->emr ); if(ret) EMFDRV_UpdateBBox( dev, &emr->rclBounds ); HeapFree( GetProcessHeap(), 0, emr ); return ret; } /********************************************************************** * EMFDRV_PaintRgn */ BOOL CDECL EMFDRV_PaintRgn( PHYSDEV dev, HRGN hrgn ) { return EMFDRV_PaintInvertRgn( dev, hrgn, EMR_PAINTRGN ); } /********************************************************************** * EMFDRV_InvertRgn */ BOOL CDECL EMFDRV_InvertRgn( PHYSDEV dev, HRGN hrgn ) { return EMFDRV_PaintInvertRgn( dev, hrgn, EMR_INVERTRGN ); } /********************************************************************** * EMFDRV_SetBkColor */ COLORREF CDECL EMFDRV_SetBkColor( PHYSDEV dev, COLORREF color ) { EMRSETBKCOLOR emr; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; if (physDev->restoring) return color; /* don't output records during RestoreDC */ emr.emr.iType = EMR_SETBKCOLOR; emr.emr.nSize = sizeof(emr); emr.crColor = color; return EMFDRV_WriteRecord( dev, &emr.emr ) ? color : CLR_INVALID; } /********************************************************************** * EMFDRV_SetTextColor */ COLORREF CDECL EMFDRV_SetTextColor( PHYSDEV dev, COLORREF color ) { EMRSETTEXTCOLOR emr; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE *)dev; if (physDev->restoring) return color; /* don't output records during RestoreDC */ emr.emr.iType = EMR_SETTEXTCOLOR; emr.emr.nSize = sizeof(emr); emr.crColor = color; return EMFDRV_WriteRecord( dev, &emr.emr ) ? color : CLR_INVALID; } /********************************************************************** * EMFDRV_ExtTextOut */ BOOL CDECL EMFDRV_ExtTextOut( PHYSDEV dev, INT x, INT y, UINT flags, const RECT *lprect, LPCWSTR str, UINT count, const INT *lpDx ) { EMREXTTEXTOUTW *pemr; DWORD nSize; BOOL ret; EMFDRV_PDEVICE *physDev = (EMFDRV_PDEVICE*) dev; int textHeight = 0; int textWidth = 0; const UINT textAlign = GetTextAlign(physDev->hdc); const INT graphicsMode = GetGraphicsMode(physDev->hdc); FLOAT exScale, eyScale; nSize = sizeof(*pemr) + ((count+1) & ~1) * sizeof(WCHAR) + count * sizeof(INT); TRACE("%s %s count %d nSize = %d\n", debugstr_wn(str, count), wine_dbgstr_rect(lprect), count, nSize); pemr = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, nSize); if (graphicsMode == GM_COMPATIBLE) { const INT horzSize = GetDeviceCaps(physDev->hdc, HORZSIZE); const INT horzRes = GetDeviceCaps(physDev->hdc, HORZRES); const INT vertSize = GetDeviceCaps(physDev->hdc, VERTSIZE); const INT vertRes = GetDeviceCaps(physDev->hdc, VERTRES); SIZE wndext, vportext; GetViewportExtEx(physDev->hdc, &vportext); GetWindowExtEx(physDev->hdc, &wndext); exScale = 100.0 * ((FLOAT)horzSize / (FLOAT)horzRes) / ((FLOAT)wndext.cx / (FLOAT)vportext.cx); eyScale = 100.0 * ((FLOAT)vertSize / (FLOAT)vertRes) / ((FLOAT)wndext.cy / (FLOAT)vportext.cy); } else { exScale = 0.0; eyScale = 0.0; } pemr->emr.iType = EMR_EXTTEXTOUTW; pemr->emr.nSize = nSize; pemr->iGraphicsMode = graphicsMode; pemr->exScale = exScale; pemr->eyScale = eyScale; pemr->emrtext.ptlReference.x = x; pemr->emrtext.ptlReference.y = y; pemr->emrtext.nChars = count; pemr->emrtext.offString = sizeof(*pemr); memcpy((char*)pemr + pemr->emrtext.offString, str, count * sizeof(WCHAR)); pemr->emrtext.fOptions = flags; if(!lprect) { pemr->emrtext.rcl.left = pemr->emrtext.rcl.top = 0; pemr->emrtext.rcl.right = pemr->emrtext.rcl.bottom = -1; } else { pemr->emrtext.rcl.left = lprect->left; pemr->emrtext.rcl.top = lprect->top; pemr->emrtext.rcl.right = lprect->right; pemr->emrtext.rcl.bottom = lprect->bottom; } pemr->emrtext.offDx = pemr->emrtext.offString + ((count+1) & ~1) * sizeof(WCHAR); if(lpDx) { UINT i; SIZE strSize; memcpy((char*)pemr + pemr->emrtext.offDx, lpDx, count * sizeof(INT)); for (i = 0; i < count; i++) { textWidth += lpDx[i]; } if (GetTextExtentPoint32W(physDev->hdc, str, count, &strSize)) textHeight = strSize.cy; } else { UINT i; INT *dx = (INT *)((char*)pemr + pemr->emrtext.offDx); SIZE charSize; for (i = 0; i < count; i++) { if (GetTextExtentPoint32W(physDev->hdc, str + i, 1, &charSize)) { dx[i] = charSize.cx; textWidth += charSize.cx; textHeight = max(textHeight, charSize.cy); } } } if (!lprect) { pemr->rclBounds.left = pemr->rclBounds.top = 0; pemr->rclBounds.right = pemr->rclBounds.bottom = -1; goto no_bounds; } switch (textAlign & (TA_LEFT | TA_RIGHT | TA_CENTER)) { case TA_CENTER: { pemr->rclBounds.left = x - (textWidth / 2) - 1; pemr->rclBounds.right = x + (textWidth / 2) + 1; break; } case TA_RIGHT: { pemr->rclBounds.left = x - textWidth - 1; pemr->rclBounds.right = x; break; } default: { /* TA_LEFT */ pemr->rclBounds.left = x; pemr->rclBounds.right = x + textWidth + 1; } } switch (textAlign & (TA_TOP | TA_BOTTOM | TA_BASELINE)) { case TA_BASELINE: { TEXTMETRICW tm; if (!GetTextMetricsW(physDev->hdc, &tm)) tm.tmDescent = 0; /* Play safe here... it's better to have a bounding box */ /* that is too big than too small. */ pemr->rclBounds.top = y - textHeight - 1; pemr->rclBounds.bottom = y + tm.tmDescent + 1; break; } case TA_BOTTOM: { pemr->rclBounds.top = y - textHeight - 1; pemr->rclBounds.bottom = y; break; } default: { /* TA_TOP */ pemr->rclBounds.top = y; pemr->rclBounds.bottom = y + textHeight + 1; } } EMFDRV_UpdateBBox( dev, &pemr->rclBounds ); no_bounds: ret = EMFDRV_WriteRecord( dev, &pemr->emr ); HeapFree( GetProcessHeap(), 0, pemr ); return ret; } /********************************************************************** * EMFDRV_SetArcDirection */ INT CDECL EMFDRV_SetArcDirection(PHYSDEV dev, INT arcDirection) { EMRSETARCDIRECTION emr; emr.emr.iType = EMR_SETARCDIRECTION; emr.emr.nSize = sizeof(emr); emr.iArcDirection = arcDirection; EMFDRV_WriteRecord(dev, &emr.emr); /* We don't know the old arc direction and we don't care... */ return 0; }