/**************************************************************************** ** ** 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 QtOpenGL 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 "qgl.h" // There are functions that are deprecated in 10.5, but really there's no way around them // for Carbon, so just undefine them. #undef DEPRECATED_ATTRIBUTE #define DEPRECATED_ATTRIBUTE #if defined(Q_WS_MAC) #ifndef QT_MAC_USE_COCOA #ifdef qDebug # undef qDebug # include # include # include # ifdef QT_NO_DEBUG # define qDebug qt_noop(),1?(void)0:qDebug # endif #else # include # include # include #endif #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE #ifdef QT_MAC_USE_COCOA QT_END_NAMESPACE QT_FORWARD_DECLARE_CLASS(QWidget) QT_FORWARD_DECLARE_CLASS(QWidgetPrivate) QT_FORWARD_DECLARE_CLASS(QGLWidgetPrivate) QT_BEGIN_NAMESPACE void *qt_current_nsopengl_context() { return [NSOpenGLContext currentContext]; } static GLint attribValue(NSOpenGLPixelFormat *fmt, NSOpenGLPixelFormatAttribute attrib) { GLint res; [fmt getValues:&res forAttribute:attrib forVirtualScreen:0]; return res; } static int def(int val, int defVal) { return val != -1 ? val : defVal; } #else QRegion qt_mac_get_widget_rgn(const QWidget *widget); #endif extern quint32 *qt_mac_pixmap_get_base(const QPixmap *); extern int qt_mac_pixmap_get_bytes_per_line(const QPixmap *); extern RgnHandle qt_mac_get_rgn(); //qregion_mac.cpp extern void qt_mac_dispose_rgn(RgnHandle); //qregion_mac.cpp extern QRegion qt_mac_convert_mac_region(RgnHandle); //qregion_mac.cpp extern void qt_mac_to_pascal_string(QString s, Str255 str, TextEncoding encoding=0, int len=-1); //qglobal.cpp /* QGLTemporaryContext implementation */ class QGLTemporaryContextPrivate { public: #ifndef QT_MAC_USE_COCOA AGLContext ctx; #else NSOpenGLContext *ctx; #endif }; QGLTemporaryContext::QGLTemporaryContext(bool, QWidget *) : d(new QGLTemporaryContextPrivate) { d->ctx = 0; #ifndef QT_MAC_USE_COCOA GLint attribs[] = {AGL_RGBA, AGL_NONE}; AGLPixelFormat fmt = aglChoosePixelFormat(0, 0, attribs); if (!fmt) { qDebug("QGLTemporaryContext: Couldn't find any RGB visuals"); return; } d->ctx = aglCreateContext(fmt, 0); if (!d->ctx) qDebug("QGLTemporaryContext: Unable to create context"); else aglSetCurrentContext(d->ctx); aglDestroyPixelFormat(fmt); #else QMacCocoaAutoReleasePool pool; NSOpenGLPixelFormatAttribute attribs[] = { 0 }; NSOpenGLPixelFormat *fmt = [[NSOpenGLPixelFormat alloc] initWithAttributes:attribs]; if (!fmt) { qWarning("QGLTemporaryContext: Cannot find any visuals"); return; } d->ctx = [[NSOpenGLContext alloc] initWithFormat:fmt shareContext:0]; if (!d->ctx) qWarning("QGLTemporaryContext: Cannot create context"); else [d->ctx makeCurrentContext]; [fmt release]; #endif } QGLTemporaryContext::~QGLTemporaryContext() { if (d->ctx) { #ifndef QT_MAC_USE_COCOA aglSetCurrentContext(0); aglDestroyContext(d->ctx); #else [NSOpenGLContext clearCurrentContext]; [d->ctx release]; #endif } } bool QGLFormat::hasOpenGL() { return true; } bool QGLFormat::hasOpenGLOverlays() { return false; } bool QGLContext::chooseContext(const QGLContext *shareContext) { QMacCocoaAutoReleasePool pool; Q_D(QGLContext); d->cx = 0; d->vi = chooseMacVisual(0); if (!d->vi) return false; #ifndef QT_MAC_USE_COCOA AGLPixelFormat fmt = (AGLPixelFormat)d->vi; GLint res; aglDescribePixelFormat(fmt, AGL_LEVEL, &res); d->glFormat.setPlane(res); if (deviceIsPixmap()) res = 0; else aglDescribePixelFormat(fmt, AGL_DOUBLEBUFFER, &res); d->glFormat.setDoubleBuffer(res); aglDescribePixelFormat(fmt, AGL_DEPTH_SIZE, &res); d->glFormat.setDepth(res); if (d->glFormat.depth()) d->glFormat.setDepthBufferSize(res); aglDescribePixelFormat(fmt, AGL_RGBA, &res); d->glFormat.setRgba(res); aglDescribePixelFormat(fmt, AGL_RED_SIZE, &res); d->glFormat.setRedBufferSize(res); aglDescribePixelFormat(fmt, AGL_GREEN_SIZE, &res); d->glFormat.setGreenBufferSize(res); aglDescribePixelFormat(fmt, AGL_BLUE_SIZE, &res); d->glFormat.setBlueBufferSize(res); aglDescribePixelFormat(fmt, AGL_ALPHA_SIZE, &res); d->glFormat.setAlpha(res); if (d->glFormat.alpha()) d->glFormat.setAlphaBufferSize(res); aglDescribePixelFormat(fmt, AGL_ACCUM_RED_SIZE, &res); // Bug in Apple OpenGL (rdr://5015603), when we don't have an accumulation // buffer, it still claims that we have a 16-bit one (which is pretty rare). // So, we just assume we can never have a buffer that small. d->glFormat.setAccum(res > 5); if (d->glFormat.accum()) d->glFormat.setAccumBufferSize(res); aglDescribePixelFormat(fmt, AGL_STENCIL_SIZE, &res); d->glFormat.setStencil(res); if (d->glFormat.stencil()) d->glFormat.setStencilBufferSize(res); aglDescribePixelFormat(fmt, AGL_STEREO, &res); d->glFormat.setStereo(res); aglDescribePixelFormat(fmt, AGL_SAMPLE_BUFFERS_ARB, &res); d->glFormat.setSampleBuffers(res); if (d->glFormat.sampleBuffers()) { aglDescribePixelFormat(fmt, AGL_SAMPLES_ARB, &res); d->glFormat.setSamples(res); } #else NSOpenGLPixelFormat *fmt = static_cast(d->vi); d->glFormat = QGLFormat(); // ### make sure to reset other options d->glFormat.setDoubleBuffer(attribValue(fmt, NSOpenGLPFADoubleBuffer)); int depthSize = attribValue(fmt, NSOpenGLPFADepthSize); d->glFormat.setDepth(depthSize > 0); if (depthSize > 0) d->glFormat.setDepthBufferSize(depthSize); int alphaSize = attribValue(fmt, NSOpenGLPFAAlphaSize); d->glFormat.setAlpha(alphaSize > 0); if (alphaSize > 0) d->glFormat.setAlphaBufferSize(alphaSize); int accumSize = attribValue(fmt, NSOpenGLPFAAccumSize); d->glFormat.setAccum(accumSize > 0); if (accumSize > 0) d->glFormat.setAccumBufferSize(accumSize); int stencilSize = attribValue(fmt, NSOpenGLPFAStencilSize); d->glFormat.setStencil(stencilSize > 0); if (stencilSize > 0) d->glFormat.setStencilBufferSize(stencilSize); d->glFormat.setStereo(attribValue(fmt, NSOpenGLPFAStereo)); int sampleBuffers = attribValue(fmt, NSOpenGLPFASampleBuffers); d->glFormat.setSampleBuffers(sampleBuffers); if (sampleBuffers > 0) d->glFormat.setSamples(attribValue(fmt, NSOpenGLPFASamples)); #endif if (shareContext && (!shareContext->isValid() || !shareContext->d_func()->cx)) { qWarning("QGLContext::chooseContext: Cannot share with invalid context"); shareContext = 0; } // sharing between rgba and color-index will give wrong colors if (shareContext && (format().rgba() != shareContext->format().rgba())) shareContext = 0; #ifndef QT_MAC_USE_COCOA AGLContext ctx = aglCreateContext(fmt, (AGLContext) (shareContext ? shareContext->d_func()->cx : 0)); #else NSOpenGLContext *ctx = [[NSOpenGLContext alloc] initWithFormat:fmt shareContext:(shareContext ? static_cast(shareContext->d_func()->cx) : 0)]; #endif if (!ctx) { #ifndef QT_MAC_USE_COCOA GLenum err = aglGetError(); if (err == AGL_BAD_MATCH || err == AGL_BAD_CONTEXT) { if (shareContext && shareContext->d_func()->cx) { qWarning("QGLContext::chooseContext(): Context sharing mismatch!"); if (!(ctx = aglCreateContext(fmt, 0))) return false; shareContext = 0; } } #else if (shareContext) { ctx = [[NSOpenGLContext alloc] initWithFormat:fmt shareContext:0]; if (ctx) { qWarning("QGLContext::chooseContext: Context sharing mismatch"); shareContext = 0; } } #endif if (!ctx) { qWarning("QGLContext::chooseContext: Unable to create QGLContext"); return false; } } d->cx = ctx; if (shareContext && shareContext->d_func()->cx) { QGLContext *share = const_cast(shareContext); d->sharing = true; share->d_func()->sharing = true; } if (deviceIsPixmap()) updatePaintDevice(); // vblank syncing GLint interval = d->reqFormat.swapInterval(); if (interval != -1) { #ifndef QT_MAC_USE_COCOA aglSetInteger((AGLContext)d->cx, AGL_SWAP_INTERVAL, &interval); if (interval != 0) aglEnable((AGLContext)d->cx, AGL_SWAP_INTERVAL); else aglDisable((AGLContext)d->cx, AGL_SWAP_INTERVAL); #else [ctx setValues:&interval forParameter:NSOpenGLCPSwapInterval]; #endif } #ifndef QT_MAC_USE_COCOA aglGetInteger((AGLContext)d->cx, AGL_SWAP_INTERVAL, &interval); #else [ctx getValues:&interval forParameter:NSOpenGLCPSwapInterval]; #endif d->glFormat.setSwapInterval(interval); return true; } void *QGLContextPrivate::tryFormat(const QGLFormat &format) { static const int Max = 40; #ifndef QT_MAC_USE_COCOA GLint attribs[Max], cnt = 0; bool device_is_pixmap = (paintDevice->devType() == QInternal::Pixmap); attribs[cnt++] = AGL_RGBA; attribs[cnt++] = AGL_BUFFER_SIZE; attribs[cnt++] = device_is_pixmap ? static_cast(paintDevice)->depth() : 32; attribs[cnt++] = AGL_LEVEL; attribs[cnt++] = format.plane(); if (format.redBufferSize() != -1) { attribs[cnt++] = AGL_RED_SIZE; attribs[cnt++] = format.redBufferSize(); } if (format.greenBufferSize() != -1) { attribs[cnt++] = AGL_GREEN_SIZE; attribs[cnt++] = format.greenBufferSize(); } if (format.blueBufferSize() != -1) { attribs[cnt++] = AGL_BLUE_SIZE; attribs[cnt++] = format.blueBufferSize(); } if (device_is_pixmap) { attribs[cnt++] = AGL_PIXEL_SIZE; attribs[cnt++] = static_cast(paintDevice)->depth(); attribs[cnt++] = AGL_OFFSCREEN; if (!format.alpha()) { attribs[cnt++] = AGL_ALPHA_SIZE; attribs[cnt++] = 8; } } else { if (format.doubleBuffer()) attribs[cnt++] = AGL_DOUBLEBUFFER; } if (format.stereo()) attribs[cnt++] = AGL_STEREO; if (format.alpha()) { attribs[cnt++] = AGL_ALPHA_SIZE; attribs[cnt++] = format.alphaBufferSize() == -1 ? 8 : format.alphaBufferSize(); } if (format.stencil()) { attribs[cnt++] = AGL_STENCIL_SIZE; attribs[cnt++] = format.stencilBufferSize() == -1 ? 8 : format.stencilBufferSize(); } if (format.depth()) { attribs[cnt++] = AGL_DEPTH_SIZE; attribs[cnt++] = format.depthBufferSize() == -1 ? 32 : format.depthBufferSize(); } if (format.accum()) { attribs[cnt++] = AGL_ACCUM_RED_SIZE; attribs[cnt++] = format.accumBufferSize() == -1 ? 1 : format.accumBufferSize(); attribs[cnt++] = AGL_ACCUM_BLUE_SIZE; attribs[cnt++] = format.accumBufferSize() == -1 ? 1 : format.accumBufferSize(); attribs[cnt++] = AGL_ACCUM_GREEN_SIZE; attribs[cnt++] = format.accumBufferSize() == -1 ? 1 : format.accumBufferSize(); attribs[cnt++] = AGL_ACCUM_ALPHA_SIZE; attribs[cnt++] = format.accumBufferSize() == -1 ? 1 : format.accumBufferSize(); } if (format.sampleBuffers()) { attribs[cnt++] = AGL_SAMPLE_BUFFERS_ARB; attribs[cnt++] = 1; attribs[cnt++] = AGL_SAMPLES_ARB; attribs[cnt++] = format.samples() == -1 ? 4 : format.samples(); } attribs[cnt] = AGL_NONE; Q_ASSERT(cnt < Max); return aglChoosePixelFormat(0, 0, attribs); #else NSOpenGLPixelFormatAttribute attribs[Max]; int cnt = 0; int devType = paintDevice->devType(); bool device_is_pixmap = (devType == QInternal::Pixmap); int depth = device_is_pixmap ? static_cast(paintDevice)->depth() : 32; attribs[cnt++] = NSOpenGLPFAColorSize; attribs[cnt++] = depth; if (device_is_pixmap) { attribs[cnt++] = NSOpenGLPFAOffScreen; } else { if (format.doubleBuffer()) attribs[cnt++] = NSOpenGLPFADoubleBuffer; } if (glFormat.stereo()) attribs[cnt++] = NSOpenGLPFAStereo; if (device_is_pixmap || format.alpha()) { attribs[cnt++] = NSOpenGLPFAAlphaSize; attribs[cnt++] = def(format.alphaBufferSize(), 8); } if (format.stencil()) { attribs[cnt++] = NSOpenGLPFAStencilSize; attribs[cnt++] = def(format.stencilBufferSize(), 8); } if (format.depth()) { attribs[cnt++] = NSOpenGLPFADepthSize; attribs[cnt++] = def(format.depthBufferSize(), 32); } if (format.accum()) { attribs[cnt++] = NSOpenGLPFAAccumSize; attribs[cnt++] = def(format.accumBufferSize(), 1); } if (format.sampleBuffers()) { attribs[cnt++] = NSOpenGLPFASampleBuffers; attribs[cnt++] = 1; attribs[cnt++] = NSOpenGLPFASamples; attribs[cnt++] = def(format.samples(), 4); } if (format.directRendering()) attribs[cnt++] = NSOpenGLPFAAccelerated; if (devType == QInternal::Pbuffer) attribs[cnt++] = NSOpenGLPFAPixelBuffer; attribs[cnt] = 0; Q_ASSERT(cnt < Max); return [[NSOpenGLPixelFormat alloc] initWithAttributes:attribs]; #endif } void QGLContextPrivate::clearDrawable() { [static_cast(cx) clearDrawable]; } /*! \bold{Mac OS X only:} This virtual function tries to find a visual that matches the format, reducing the demands if the original request cannot be met. The algorithm for reducing the demands of the format is quite simple-minded, so override this method in your subclass if your application has spcific requirements on visual selection. The \a handle argument is always zero and is not used \sa chooseContext() */ void *QGLContext::chooseMacVisual(GDHandle /* handle */) { Q_D(QGLContext); void *fmt = d->tryFormat(d->glFormat); if (!fmt && d->glFormat.stereo()) { d->glFormat.setStereo(false); fmt = d->tryFormat(d->glFormat); } if (!fmt && d->glFormat.sampleBuffers()) { d->glFormat.setSampleBuffers(false); fmt = d->tryFormat(d->glFormat); } if (!fmt) qWarning("QGLContext::chooseMacVisual: Unable to choose a pixel format"); return fmt; } void QGLContext::reset() { Q_D(QGLContext); if (!d->valid) return; d->cleanup(); doneCurrent(); #ifndef QT_MAC_USE_COCOA if (d->cx) aglDestroyContext((AGLContext)d->cx); #else QMacCocoaAutoReleasePool pool; [static_cast(d->cx) release]; #endif d->cx = 0; #ifndef QT_MAC_USE_COCOA if (d->vi) aglDestroyPixelFormat((AGLPixelFormat)d->vi); #else [static_cast(d->vi) release]; #endif d->vi = 0; d->crWin = false; d->sharing = false; d->valid = false; d->transpColor = QColor(); d->initDone = false; QGLContextGroup::removeShare(this); } void QGLContext::makeCurrent() { Q_D(QGLContext); if (!d->valid) { qWarning("QGLContext::makeCurrent: Cannot make invalid context current"); return; } #ifndef QT_MAC_USE_COCOA aglSetCurrentContext((AGLContext)d->cx); if (d->update) updatePaintDevice(); #else [static_cast(d->cx) makeCurrentContext]; #endif QGLContextPrivate::setCurrentContext(this); } #ifndef QT_MAC_USE_COCOA /* Returns the effective scale factor for a widget. For this value to be different than 1, the following must be true: - The system scale factor must be greater than 1. - The widget window must have WA_MacFrameworkScaled set. */ float qt_mac_get_scale_factor(QWidget *widget) { if (!widget | !widget->window()) return 1; if (widget->window()->testAttribute(Qt::WA_MacFrameworkScaled) == false) return 1; float systemScale = QSysInfo::MacintoshVersion >= QSysInfo::MV_10_4 ? HIGetScaleFactor() : 1; if (systemScale == float(1)) return 1; return systemScale; } #endif /*! \internal */ void QGLContext::updatePaintDevice() { Q_D(QGLContext); #ifndef QT_MAC_USE_COCOA d->update = false; if (d->paintDevice->devType() == QInternal::Widget) { //get control information QWidget *w = (QWidget *)d->paintDevice; HIViewRef hiview = (HIViewRef)w->winId(); WindowRef window = HIViewGetWindow(hiview); #ifdef DEBUG_OPENGL_REGION_UPDATE static int serial_no_gl = 0; qDebug("[%d] %p setting on %s::%s %p/%p [%s]", ++serial_no_gl, w, w->metaObject()->className(), w->objectName().toLatin1().constData(), hiview, window, w->handle() ? "Inside" : "Outside"); #endif //update drawable if (0 && w->isWindow() && w->isFullScreen()) { aglSetDrawable((AGLContext)d->cx, 0); aglSetFullScreen((AGLContext)d->cx, w->width(), w->height(), 0, QApplication::desktop()->screenNumber(w)); w->hide(); } else { AGLDrawable old_draw = aglGetDrawable((AGLContext)d->cx), new_draw = GetWindowPort(window); if (old_draw != new_draw) aglSetDrawable((AGLContext)d->cx, new_draw); } float scale = qt_mac_get_scale_factor(w); if (!w->isWindow()) { QRegion clp = qt_mac_get_widget_rgn(w); //get drawable area #ifdef DEBUG_OPENGL_REGION_UPDATE if (clp.isEmpty()) { qDebug(" Empty area!"); } else { QVector rs = clp.rects(); for(int i = 0; i < rs.count(); i++) qDebug(" %d %d %d %d", rs[i].x(), rs[i].y(), rs[i].width(), rs[i].height()); } #endif //update the clip if (!aglIsEnabled((AGLContext)d->cx, AGL_BUFFER_RECT)) aglEnable((AGLContext)d->cx, AGL_BUFFER_RECT); if (clp.isEmpty()) { GLint offs[4] = { 0, 0, 0, 0 }; aglSetInteger((AGLContext)d->cx, AGL_BUFFER_RECT, offs); if (aglIsEnabled((AGLContext)d->cx, AGL_CLIP_REGION)) aglDisable((AGLContext)d->cx, AGL_CLIP_REGION); } else { HIPoint origin = { 0., 0. }; HIViewConvertPoint(&origin, HIViewRef(w->winId()), 0); const GLint offs[4] = { qRound(origin.x), w->window()->frameGeometry().height() * scale - (qRound(origin.y) + w->height() * scale), w->width() * scale, w->height() * scale}; RgnHandle region = clp.handle(true); if (scale != float(1)) { // Sacle the clip region by the scale factor Rect regionBounds; GetRegionBounds(region, ®ionBounds); Rect regionBoundsDest = regionBounds; regionBoundsDest.bottom *= scale; regionBoundsDest.right *= scale; MapRgn(region, ®ionBounds, ®ionBoundsDest); } aglSetInteger((AGLContext)d->cx, AGL_BUFFER_RECT, offs); aglSetInteger((AGLContext)d->cx, AGL_CLIP_REGION, (const GLint *)region); if (!aglIsEnabled((AGLContext)d->cx, AGL_CLIP_REGION)) aglEnable((AGLContext)d->cx, AGL_CLIP_REGION); } } else { // Set the buffer rect for top-level gl contexts when scaled. if (scale != float(1)) { aglEnable((AGLContext)d->cx, AGL_BUFFER_RECT); const GLint offs[4] = { 0, 0, w->width() * scale , w->height() * scale}; aglSetInteger((AGLContext)d->cx, AGL_BUFFER_RECT, offs); } } } else if (d->paintDevice->devType() == QInternal::Pixmap) { QPixmap *pm = reinterpret_cast(d->paintDevice); unsigned long qdformat = k32ARGBPixelFormat; if (QSysInfo::ByteOrder == QSysInfo::LittleEndian) qdformat = k32BGRAPixelFormat; Rect rect; SetRect(&rect, 0, 0, pm->width(), pm->height()); GWorldPtr gworld; NewGWorldFromPtr(&gworld, qdformat, &rect, 0, 0, 0, reinterpret_cast(qt_mac_pixmap_get_base(pm)), qt_mac_pixmap_get_bytes_per_line(pm)); PixMapHandle pixmapHandle = GetGWorldPixMap(gworld); aglSetOffScreen(reinterpret_cast(d->cx), pm->width(), pm->height(), GetPixRowBytes(pixmapHandle), GetPixBaseAddr(pixmapHandle)); } else { qWarning("QGLContext::updatePaintDevice(): Not sure how to render OpenGL on this device!"); } aglUpdateContext((AGLContext)d->cx); #else QMacCocoaAutoReleasePool pool; if (d->paintDevice->devType() == QInternal::Widget) { //get control information QWidget *w = (QWidget *)d->paintDevice; NSView *view = qt_mac_nativeview_for(w); // Trying to attach the GL context to the NSView will fail with // "invalid drawable" if done too soon, but we have to make sure // the connection is made before the first paint event. Using // the NSView do to this check fails as the NSView is visible // before it's safe to connect, and using the NSWindow fails as // the NSWindow will become visible after the first paint event. // This leaves us with the QWidget, who's visible state seems // to match the point in time when it's safe to connect. if (!w || !w->isVisible()) return; // Not safe to attach GL context to view yet if ([static_cast(d->cx) view] != view && ![view isHidden]) [static_cast(d->cx) setView:view]; } else if (d->paintDevice->devType() == QInternal::Pixmap) { const QPixmap *pm = static_cast(d->paintDevice); [static_cast(d->cx) setOffScreen:qt_mac_pixmap_get_base(pm) width:pm->width() height:pm->height() rowbytes:qt_mac_pixmap_get_bytes_per_line(pm)]; } else { qWarning("QGLContext::updatePaintDevice: Not sure how to render OpenGL on this device"); } [static_cast(d->cx) update]; #endif } void QGLContext::doneCurrent() { if ( #ifndef QT_MAC_USE_COCOA aglGetCurrentContext() != (AGLContext) d_func()->cx #else [NSOpenGLContext currentContext] != d_func()->cx #endif ) return; QGLContextPrivate::setCurrentContext(0); #ifndef QT_MAC_USE_COCOA aglSetCurrentContext(0); #else [NSOpenGLContext clearCurrentContext]; #endif } void QGLContext::swapBuffers() const { Q_D(const QGLContext); if (!d->valid) return; #ifndef QT_MAC_USE_COCOA aglSwapBuffers((AGLContext)d->cx); #else [static_cast(d->cx) flushBuffer]; #endif } QColor QGLContext::overlayTransparentColor() const { return QColor(0, 0, 0); // Invalid color } #ifndef QT_MAC_USE_COCOA static QColor cmap[256]; static bool cmap_init = false; #endif uint QGLContext::colorIndex(const QColor &c) const { #ifndef QT_MAC_USE_COCOA int ret = -1; if(!cmap_init) { cmap_init = true; for(int i = 0; i < 256; i++) cmap[i] = QColor(); } else { for(int i = 0; i < 256; i++) { if(cmap[i].isValid() && cmap[i] == c) { ret = i; break; } } } if(ret == -1) { for(ret = 0; ret < 256; ret++) if(!cmap[ret].isValid()) break; if(ret == 256) { ret = -1; qWarning("QGLContext::colorIndex(): Internal error!"); } else { cmap[ret] = c; GLint vals[4]; vals[0] = ret; vals[1] = c.red(); vals[2] = c.green(); vals[3] = c.blue(); aglSetInteger((AGLContext)d_func()->cx, AGL_COLORMAP_ENTRY, vals); } } return (uint)(ret == -1 ? 0 : ret); #else Q_UNUSED(c); return 0; #endif } void QGLContext::generateFontDisplayLists(const QFont & /* fnt */, int /* listBase */) { } static CFBundleRef qt_getOpenGLBundle() { CFBundleRef bundle = 0; CFStringRef urlString = QCFString::toCFStringRef(QLatin1String("/System/Library/Frameworks/OpenGL.framework")); QCFType url = CFURLCreateWithFileSystemPath(kCFAllocatorDefault, urlString, kCFURLPOSIXPathStyle, false); if (url) bundle = CFBundleCreate(kCFAllocatorDefault, url); CFRelease(urlString); return bundle; } void *QGLContext::getProcAddress(const QString &proc) const { CFStringRef procName = QCFString(proc).toCFStringRef(proc); void *result = CFBundleGetFunctionPointerForName(QCFType(qt_getOpenGLBundle()), procName); CFRelease(procName); return result; } #ifndef QT_MAC_USE_COCOA /***************************************************************************** QGLWidget AGL-specific code *****************************************************************************/ /**************************************************************************** Hacks to glue AGL to an HIView ***************************************************************************/ QRegion qt_mac_get_widget_rgn(const QWidget *widget) { if(!widget->isVisible() || widget->isMinimized()) return QRegion(); const QRect wrect = QRect(qt_mac_posInWindow(widget), widget->size()); if(!wrect.isValid()) return QRegion(); RgnHandle macr = qt_mac_get_rgn(); GetControlRegion((HIViewRef)widget->winId(), kControlStructureMetaPart, macr); OffsetRgn(macr, wrect.x(), wrect.y()); QRegion ret = qt_mac_convert_mac_region(macr); QPoint clip_pos = wrect.topLeft(); for(const QWidget *last_clip = 0, *clip = widget; clip; last_clip = clip, clip = clip->parentWidget()) { if(clip != widget) { GetControlRegion((HIViewRef)clip->winId(), kControlStructureMetaPart, macr); OffsetRgn(macr, clip_pos.x(), clip_pos.y()); ret &= qt_mac_convert_mac_region(macr); } const QObjectList &children = clip->children(); for(int i = children.size()-1; i >= 0; --i) { if(QWidget *child = qobject_cast(children.at(i))) { if(child == last_clip) break; // This check may seem weird, but when we are using a unified toolbar // The widget is actually being owned by that toolbar and not by Qt. // This means that the geometry it reports will be wrong // and will accidentally cause problems when calculating the region // So, it is better to skip these widgets since they aren't the hierarchy // anyway. if (HIViewGetSuperview(HIViewRef(child->winId())) != HIViewRef(clip->winId())) continue; if(child->isVisible() && !child->isMinimized() && !child->isTopLevel()) { const QRect childRect = QRect(clip_pos+child->pos(), child->size()); if(childRect.isValid() && wrect.intersects(childRect)) { GetControlRegion((HIViewRef)child->winId(), kControlStructureMetaPart, macr); OffsetRgn(macr, childRect.x(), childRect.y()); ret -= qt_mac_convert_mac_region(macr); } } } } if(clip->isWindow()) break; clip_pos -= clip->pos(); } qt_mac_dispose_rgn(macr); return ret; } #endif void QGLWidget::setMouseTracking(bool enable) { QWidget::setMouseTracking(enable); } void QGLWidget::resizeEvent(QResizeEvent *) { Q_D(QGLWidget); if (!isValid()) return; #ifndef QT_MAC_USE_COCOA if (!isWindow()) d->glcx->d_func()->update = true; #endif makeCurrent(); if (!d->glcx->initialized()) glInit(); #ifdef QT_MAC_USE_COCOA d->glcx->updatePaintDevice(); #endif #ifndef QT_MAC_USE_COCOA float scale = qt_mac_get_scale_factor(this); resizeGL(width() * scale, height() * scale); #else resizeGL(width(), height()); #endif } const QGLContext* QGLWidget::overlayContext() const { return 0; } void QGLWidget::makeOverlayCurrent() { } void QGLWidget::updateOverlayGL() { } void QGLWidget::setContext(QGLContext *context, const QGLContext* shareContext, bool deleteOldContext) { Q_D(QGLWidget); if (context == 0) { qWarning("QGLWidget::setContext: Cannot set null context"); return; } if (d->glcx) d->glcx->doneCurrent(); QGLContext* oldcx = d->glcx; d->glcx = context; if (!d->glcx->isValid()) d->glcx->create(shareContext ? shareContext : oldcx); if (deleteOldContext && oldcx) delete oldcx; } void QGLWidgetPrivate::init(QGLContext *context, const QGLWidget *shareWidget) { Q_Q(QGLWidget); initContext(context, shareWidget); QWidget *current = q; while (current) { qt_widget_private(current)->glWidgets.append(QWidgetPrivate::GlWidgetInfo(q)); if (current->isWindow()) break; current = current->parentWidget(); } } bool QGLWidgetPrivate::renderCxPm(QPixmap*) { return false; } void QGLWidgetPrivate::cleanupColormaps() { } const QGLColormap & QGLWidget::colormap() const { return d_func()->cmap; } void QGLWidget::setColormap(const QGLColormap &) { } void QGLWidgetPrivate::updatePaintDevice() { Q_Q(QGLWidget); glcx->updatePaintDevice(); q->update(); } #endif QT_END_NAMESPACE