/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qpixmapdata_vg_p.h" #include "qvgfontglyphcache_p.h" #include #include #include #ifdef QT_SYMBIAN_SUPPORTS_SGIMAGE # include # ifdef SYMBIAN_FBSERV_GLYPHDATA // defined in fbs.h # define QT_SYMBIAN_HARDWARE_GLYPH_CACHE # include # include # endif #endif QT_BEGIN_NAMESPACE typedef VGImage (*_vgCreateEGLImageTargetKHR)(VGeglImageKHR); static _vgCreateEGLImageTargetKHR qt_vgCreateEGLImageTargetKHR = 0; namespace QVG { VGImage vgCreateEGLImageTargetKHR(VGeglImageKHR eglImage); } VGImage QVG::vgCreateEGLImageTargetKHR(VGeglImageKHR eglImage) { if (!qt_vgCreateEGLImageTargetKHR && QEgl::hasExtension("EGL_KHR_image")) qt_vgCreateEGLImageTargetKHR = (_vgCreateEGLImageTargetKHR) eglGetProcAddress("vgCreateEGLImageTargetKHR"); return qt_vgCreateEGLImageTargetKHR ? qt_vgCreateEGLImageTargetKHR(eglImage) : 0; } extern int qt_vg_pixmap_serial; static CFbsBitmap* createBlitCopy(CFbsBitmap* bitmap) { CFbsBitmap *copy = q_check_ptr(new CFbsBitmap); if(!copy) return 0; if (copy->Create(bitmap->SizeInPixels(), bitmap->DisplayMode()) != KErrNone) { delete copy; copy = 0; return 0; } CFbsBitmapDevice* bitmapDevice = 0; CFbsBitGc *bitmapGc = 0; QT_TRAP_THROWING(bitmapDevice = CFbsBitmapDevice::NewL(copy)); QT_TRAP_THROWING(bitmapGc = CFbsBitGc::NewL()); bitmapGc->Activate(bitmapDevice); bitmapGc->BitBlt(TPoint(), bitmap); delete bitmapGc; delete bitmapDevice; return copy; } #ifdef QT_SYMBIAN_SUPPORTS_SGIMAGE static VGImage sgImageToVGImage(QEglContext *context, const RSgImage &sgImage) { // when "0" used as argument then // default display, context are used if (!context) context = qt_vg_create_context(0, QInternal::Pixmap); VGImage vgImage = VG_INVALID_HANDLE; if (sgImage.IsNull()) return vgImage; const EGLint KEglImageAttribs[] = {EGL_IMAGE_PRESERVED_SYMBIAN, EGL_TRUE, EGL_NONE}; EGLImageKHR eglImage = QEgl::eglCreateImageKHR(QEgl::display(), EGL_NO_CONTEXT, EGL_NATIVE_PIXMAP_KHR, (EGLClientBuffer)&sgImage, (EGLint*)KEglImageAttribs); if (!eglImage) return vgImage; vgImage = QVG::vgCreateEGLImageTargetKHR(eglImage); QEgl::eglDestroyImageKHR(QEgl::display(), eglImage); return vgImage; } #endif void QVGPixmapData::cleanup() { is_null = w = h = 0; recreate = false; source = QImage(); } void QVGPixmapData::fromNativeType(void* pixmap, NativeType type) { if (type == QPixmapData::SgImage && pixmap) { #if defined(QT_SYMBIAN_SUPPORTS_SGIMAGE) && !defined(QT_NO_EGL) RSgImage *sgImage = reinterpret_cast(pixmap); destroyImages(); prevSize = QSize(); vgImage = sgImageToVGImage(context, *sgImage); if (vgImage != VG_INVALID_HANDLE) { w = vgGetParameteri(vgImage, VG_IMAGE_WIDTH); h = vgGetParameteri(vgImage, VG_IMAGE_HEIGHT); d = 32; // We always use ARGB_Premultiplied for VG pixmaps. } is_null = (w <= 0 || h <= 0); source = QImage(); // vgGetImageSubData() some day? recreate = false; prevSize = QSize(w, h); //setSerialNumber(++qt_vg_pixmap_serial); #endif } else if (type == QPixmapData::FbsBitmap) { CFbsBitmap *bitmap = reinterpret_cast(pixmap); bool deleteSourceBitmap = false; #ifdef Q_SYMBIAN_HAS_EXTENDED_BITMAP_TYPE // Rasterize extended bitmaps TUid extendedBitmapType = bitmap->ExtendedBitmapType(); if (extendedBitmapType != KNullUid) { bitmap = createBlitCopy(bitmap); deleteSourceBitmap = true; } #endif if (bitmap->IsCompressedInRAM()) { bitmap = createBlitCopy(bitmap); deleteSourceBitmap = true; } TDisplayMode displayMode = bitmap->DisplayMode(); QImage::Format format = qt_TDisplayMode2Format(displayMode); TSize size = bitmap->SizeInPixels(); int bytesPerLine = bitmap->ScanLineLength(size.iWidth, displayMode); bitmap->BeginDataAccess(); uchar *bytes = (uchar*)bitmap->DataAddress(); QImage img = QImage(bytes, size.iWidth, size.iHeight, bytesPerLine, format); img = img.copy(); bitmap->EndDataAccess(); if(displayMode == EGray2) { //Symbian thinks set pixels are white/transparent, Qt thinks they are foreground/solid //So invert mono bitmaps so that masks work correctly. img.invertPixels(); } else if(displayMode == EColor16M) { img = img.rgbSwapped(); // EColor16M is BGR } fromImage(img, Qt::AutoColor); if(deleteSourceBitmap) delete bitmap; } } void* QVGPixmapData::toNativeType(NativeType type) { if (type == QPixmapData::SgImage) { #if defined(QT_SYMBIAN_SUPPORTS_SGIMAGE) && !defined(QT_NO_EGL) toVGImage(); if (!isValid() || vgImage == VG_INVALID_HANDLE) return 0; TInt err = 0; RSgDriver driver; err = driver.Open(); if (err != KErrNone) return 0; TSgImageInfo sgInfo; sgInfo.iPixelFormat = EUidPixelFormatARGB_8888_PRE; sgInfo.iSizeInPixels.SetSize(w, h); sgInfo.iUsage = ESgUsageBitOpenVgImage | ESgUsageBitOpenVgSurface; QScopedPointer sgImage(new RSgImage()); err = sgImage->Create(sgInfo, NULL, NULL); if (err != KErrNone) { driver.Close(); return 0; } const EGLint KEglImageAttribs[] = {EGL_IMAGE_PRESERVED_SYMBIAN, EGL_TRUE, EGL_NONE}; EGLImageKHR eglImage = QEgl::eglCreateImageKHR(QEgl::display(), EGL_NO_CONTEXT, EGL_NATIVE_PIXMAP_KHR, (EGLClientBuffer)sgImage.data(), (EGLint*)KEglImageAttribs); if (!eglImage || eglGetError() != EGL_SUCCESS) { sgImage->Close(); driver.Close(); return 0; } VGImage dstVgImage = QVG::vgCreateEGLImageTargetKHR(eglImage); if (!dstVgImage || vgGetError() != VG_NO_ERROR) { QEgl::eglDestroyImageKHR(QEgl::display(), eglImage); sgImage->Close(); driver.Close(); return 0; } vgCopyImage(dstVgImage, 0, 0, vgImage, 0, 0, w, h, VG_FALSE); if (vgGetError() != VG_NO_ERROR) { sgImage->Close(); sgImage.reset(); } // release stuff vgDestroyImage(dstVgImage); QEgl::eglDestroyImageKHR(QEgl::display(), eglImage); driver.Close(); return reinterpret_cast(sgImage.take()); #endif } else if (type == QPixmapData::FbsBitmap) { CFbsBitmap *bitmap = q_check_ptr(new CFbsBitmap); if (bitmap) { if (bitmap->Create(TSize(source.width(), source.height()), EColor16MAP) == KErrNone) { const uchar *sptr = const_cast(source).bits(); bitmap->BeginDataAccess(); uchar *dptr = (uchar*)bitmap->DataAddress(); Mem::Copy(dptr, sptr, source.byteCount()); bitmap->EndDataAccess(); } else { delete bitmap; bitmap = 0; } } return reinterpret_cast(bitmap); } return 0; } QSymbianVGFontGlyphCache::QSymbianVGFontGlyphCache() : QVGFontGlyphCache() { #ifdef QT_SYMBIAN_HARDWARE_GLYPH_CACHE invertedGlyphs = true; #endif } void QSymbianVGFontGlyphCache::cacheGlyphs(QVGPaintEnginePrivate *d, QFontEngine *fontEngine, const glyph_t *g, int count) { #ifdef QT_SYMBIAN_HARDWARE_GLYPH_CACHE QFontEngineS60 *s60fontEngine = static_cast(fontEngine); if (s60fontEngine->m_activeFont->TypeUid() != KCFbsFontUid) return QVGFontGlyphCache::cacheGlyphs(d, fontEngine, g, count); QVector uncachedGlyphs; while (count-- > 0) { // Skip this glyph if we have already cached it before. glyph_t glyph = *g++; if (((glyph < 256) && ((cachedGlyphsMask[glyph / 32] & (1 << (glyph % 32))) != 0)) || cachedGlyphs.contains(glyph)) continue; if (!uncachedGlyphs.contains(glyph)) uncachedGlyphs.append(glyph); } if (!uncachedGlyphs.isEmpty()) { CFbsFont *cfbsFont = static_cast(s60fontEngine->m_activeFont); RFbsGlyphDataIterator iter; int err = iter.Open(*cfbsFont, (const unsigned int*)uncachedGlyphs.constData(), uncachedGlyphs.count()); if (err == KErrNotSupported || err == KErrInUse) { // Fallback in possibly supported error cases iter.Close(); qWarning("Falling back to default QVGFontGlyphCache"); return QVGFontGlyphCache::cacheGlyphs(d, fontEngine, g, count); } for (; err == KErrNone; err = iter.Next()) { const unsigned int glyph = iter.GlyphCode(); const RSgImage& image = iter.Image(); const TOpenFontCharMetrics& metrics = iter.Metrics(); TRect glyphBounds; metrics.GetHorizBounds(glyphBounds); VGImage vgImage = sgImageToVGImage(0, image); VGfloat origin[2]; VGfloat escapement[2]; origin[0] = -glyphBounds.iTl.iX; origin[1] = glyphBounds.iBr.iY; escapement[0] = 0; escapement[1] = 0; vgSetGlyphToImage(font, glyph, vgImage, origin, escapement); vgDestroyImage(vgImage); // Add to cache if (glyph < 256) cachedGlyphsMask[glyph / 32] |= (1 << (glyph % 32)); else cachedGlyphs.insert(glyph); } iter.Close(); if (err == KErrNoMemory || err == KErrNoGraphicsMemory) qWarning("Not enough memory to cache glyph"); else if (err != KErrNotFound) qWarning("Received error %d from glyph cache", err); } #else QVGFontGlyphCache::cacheGlyphs(d, fontEngine, g, count); #endif } QT_END_NAMESPACE