Example #1
0
bool QX11GLWindowSurface::scroll(const QRegion &area, int dx, int dy)
{
    if (m_backBuffer.isNull())
        return false;

    Q_ASSERT(m_backBuffer.data_ptr()->classId() == QPixmapData::X11Class);

    // Make sure all GL rendering is complete before starting the scroll operation:
    QGLContext* ctx = static_cast<QX11GLPixmapData*>(m_backBuffer.data_ptr().data())->context();
    if (QGLContext::currentContext() != ctx && ctx && ctx->isValid())
        ctx->makeCurrent();
    eglWaitClient();

    if (!m_pixmapGC)
        m_pixmapGC = XCreateGC(X11->display, m_backBuffer.handle(), 0, 0);

    foreach (const QRect& rect, area.rects()) {
        XCopyArea(X11->display, m_backBuffer.handle(), m_backBuffer.handle(), m_pixmapGC,
                  rect.x(), rect.y(), rect.width(), rect.height(),
                  rect.x()+dx, rect.y()+dy);
    }

    // Make sure the scroll operation is complete before allowing GL rendering to resume
    eglWaitNative(EGL_CORE_NATIVE_ENGINE);

    return true;
}
void QGLPaintDevice::beginPaint()
{
    // Make sure our context is the current one:
    QGLContext *ctx = context();
    ctx->makeCurrent();

    // Record the currently bound FBO so we can restore it again
    // in endPaint() and bind this device's FBO
    //
    // Note: m_thisFBO could be zero if the paint device is not
    // backed by an FBO (e.g. window back buffer).  But there could
    // be a previous FBO bound to the context which we need to
    // explicitly unbind.  Otherwise the painting will go into
    // the previous FBO instead of to the window.
    m_previousFBO = ctx->d_func()->current_fbo;

    if (m_previousFBO != m_thisFBO) {
        ctx->d_ptr->current_fbo = m_thisFBO;
        glBindFramebuffer(GL_FRAMEBUFFER, m_thisFBO);
    }

    // Set the default fbo for the context to m_thisFBO so that
    // if some raw GL code between beginNativePainting() and
    // endNativePainting() calls QGLFramebufferObject::release(),
    // painting will revert to the window surface's fbo.
    ctx->d_ptr->default_fbo = m_thisFBO;
}
Example #3
0
bool checkOpenGL(){

    QGLWidget *glWidget = new QGLWidget;

    QGLContext* glContext = (QGLContext *) glWidget->context();
    GLCHK( glContext->makeCurrent() );

    qDebug() << "Running the " + QString(AWESOME_BUMP_VERSION);
    qDebug() << "Checking OpenGL version...";
    qDebug() << "Widget OpenGL: " << glContext->format().majorVersion() << "." << glContext->format().minorVersion() ;
    qDebug() << "Context valid: " << glContext->isValid() ;
    qDebug() << "OpenGL information: " ;
    qDebug() << "VENDOR: "       << (const char*)glGetString(GL_VENDOR) ;
    qDebug() << "RENDERER: "     << (const char*)glGetString(GL_RENDERER) ;
    qDebug() << "VERSION: "      << (const char*)glGetString(GL_VERSION) ;
    qDebug() << "GLSL VERSION: " << (const char*)glGetString(GL_SHADING_LANGUAGE_VERSION) ;

    float version = glContext->format().majorVersion() + 0.1 * glContext->format().minorVersion();

    delete glWidget;

    qDebug() << "Version:" << version;
    // check openGL version
    if( version < 4.0 )
    {
       qDebug() << "Error: AwesomeBump does not support openGL versions lower than 4.0 :(" ;
       return false;
    }
    return true;

}
void MGLES2RendererPrivate::init()
{
    m_initialized = true;

    //init world matrix for the known parts
    //parts that are changeable by the transformation
    //are set when rendering in the textures
    m_matWorld[0][2] = 0.0;
    m_matWorld[1][2] = 0.0;
    m_matWorld[2][0] = 0.0;
    m_matWorld[2][1] = 0.0;
    m_matWorld[2][2] = 1.0;
    m_matWorld[2][3] = 0.0;
    m_matWorld[3][2] = 0.0;

    //init vertex and texcoord arrays, 4 first vertices are used to draw standard
    //pixmaps and all the remaining vertices can be used to draw dynamic geometries
    //like scalable images and other patched stuff, the vertices are packed into same
    //array so that we don't need to switch the used array on fly.
    m_vertices.resize(8 + (9 * 4 * 2));
    m_texCoords.resize(8 + (9 * 4 * 2));
    GLfloat *tc = m_texCoords.data();
    tc[0] = 0.0; tc[1] = 1.0;
    tc[2] = 0.0; tc[3] = 0.0;
    tc[4] = 1.0; tc[5] = 0.0;
    tc[6] = 1.0; tc[7] = 1.0;

    //init index array that is used to draw dynamic geometries
    //the indices are offset by 4 because the 4 vertices that
    //are used to draw normal pixmaps are in the beginning of
    //the array
    m_indices.resize(9 * 6);
    GLushort *indices = m_indices.data();
    for (GLuint i = 0; i < 9; i++) {
        indices[i*6+0] = 4 + (i * 4 + 0); //x1 y1 TL
        indices[i*6+1] = 4 + (i * 4 + 1); //x1 y2 BL
        indices[i*6+2] = 4 + (i * 4 + 2); //x2 y2 BR
        indices[i*6+3] = 4 + (i * 4 + 0); //x1 y1 TL
        indices[i*6+4] = 4 + (i * 4 + 2); //x2 y2 BR
        indices[i*6+5] = 4 + (i * 4 + 3); //x2 y1 TR
    }

    m_glContext->makeCurrent();

    //init the orthogonal projection matrix
    //glOrtho(0, w, h, 0, -1, 1):
    //2.0/w,  0.0,    0.0, -1.0
    //0.0,   -2.0/h,  0.0,  1.0
    //0.0,    0.0,   -1.0,  0.0
    //0.0,    0.0,    0.0,  1.0
    GLfloat w = m_glContext->device()->width();
    GLfloat h = m_glContext->device()->height();
    m_matProj[0][0] =  2.0f / w; m_matProj[1][0] =  0.0;   m_matProj[2][0] =  0.0; m_matProj[3][0] = -1.0;
    m_matProj[0][1] =  0.0;   m_matProj[1][1] = -2.0f / h; m_matProj[2][1] =  0.0; m_matProj[3][1] =  1.0;
    m_matProj[0][2] =  0.0;   m_matProj[1][2] =  0.0;   m_matProj[2][2] = -1.0; m_matProj[3][2] =  0.0;
    m_matProj[0][3] =  0.0;   m_matProj[1][3] =  0.0;   m_matProj[2][3] =  0.0; m_matProj[3][3] =  1.0;
}
Example #5
0
/*! \fn QGLPixelBuffer::~QGLPixelBuffer()

    Destroys the pbuffer and frees any allocated resources.
*/
QGLPixelBuffer::~QGLPixelBuffer()
{
    Q_D(QGLPixelBuffer);

    // defined in qpaintengine_opengl.cpp
    QGLContext *current = const_cast<QGLContext *>(QGLContext::currentContext());
    if (current != d->qctx)
        makeCurrent();
    d->cleanup();
    if (current && current != d->qctx)
        current->makeCurrent();
}
void QGLPaintDevice::ensureActiveTarget()
{
    QGLContext* ctx = context();
    if (ctx != QGLContext::currentContext())
        ctx->makeCurrent();

    if (ctx->d_ptr->current_fbo != m_thisFBO) {
        ctx->d_ptr->current_fbo = m_thisFBO;
        glBindFramebuffer(GL_FRAMEBUFFER, m_thisFBO);
    }

    ctx->d_ptr->default_fbo = m_thisFBO;
}
Example #7
0
void QGLPaintDevice::ensureActiveTarget()
{
    QGLContext* ctx = context();
    if (ctx != QGLContext::currentContext())
        ctx->makeCurrent();

    ctx->d_func()->refreshCurrentFbo();

    if (ctx->d_ptr->current_fbo != m_thisFBO) {
        ctx->d_func()->setCurrentFbo(m_thisFBO);
        ctx->contextHandle()->functions()->glBindFramebuffer(GL_FRAMEBUFFER, m_thisFBO);
    }

    ctx->d_ptr->default_fbo = m_thisFBO;
}
Example #8
0
void QX11GLWindowSurface::flush(QWidget *widget, const QRegion &widgetRegion, const QPoint &offset)
{
    // We don't need to know the widget which initiated the flush. Instead we just use the offset
    // to translate the widgetRegion:
    Q_UNUSED(widget);

    if (m_backBuffer.isNull()) {
        qDebug("QX11GLWindowSurface::flush() - backBuffer is null, not flushing anything");
        return;
    }

    Q_ASSERT(window()->size() != m_backBuffer.size());

    // Wait for all GL rendering to the back buffer pixmap to complete before trying to
    // copy it to the window. We do this by making sure the pixmap's context is current
    // and then call eglWaitClient. The EGL 1.4 spec says eglWaitClient doesn't have to
    // block, just that "All rendering calls...are guaranteed to be executed before native
    // rendering calls". This makes it potentially less expensive than glFinish.
    QGLContext* ctx = static_cast<QX11GLPixmapData*>(m_backBuffer.data_ptr().data())->context();
    if (QGLContext::currentContext() != ctx && ctx && ctx->isValid())
        ctx->makeCurrent();
    eglWaitClient();

    if (m_windowGC == 0) {
        XGCValues attribs;
        attribs.graphics_exposures = False;
        m_windowGC = XCreateGC(X11->display, m_window->handle(), GCGraphicsExposures, &attribs);
    }

    int rectCount;
    XRectangle *rects = (XRectangle *)qt_getClipRects(widgetRegion, rectCount);
    if (rectCount <= 0)
        return;

    XSetClipRectangles(X11->display, m_windowGC, 0, 0, rects, rectCount, YXBanded);

    QRect dirtyRect = widgetRegion.boundingRect().translated(-offset);
    XCopyArea(X11->display, m_backBuffer.handle(), m_window->handle(), m_windowGC,
              dirtyRect.x(), dirtyRect.y(), dirtyRect.width(), dirtyRect.height(),
              dirtyRect.x(), dirtyRect.y());

    // Make sure the blit of the update from the back buffer to the window completes
    // before allowing rendering to start again to the back buffer. Otherwise the GPU
    // might start rendering to the back buffer again while the blit takes place.
    eglWaitNative(EGL_CORE_NATIVE_ENGINE);
}
Example #9
0
QPixmap QX11GLWindowSurface::grabWidget(const QWidget *widget, const QRect& rect) const
{
    if (!widget || m_backBuffer.isNull())
        return QPixmap();

    QRect srcRect;

    // make sure the rect is inside the widget & clip to widget's rect
    if (!rect.isEmpty())
        srcRect = rect & widget->rect();
    else
        srcRect = widget->rect();

    if (srcRect.isEmpty())
        return QPixmap();

    // If it's a child widget we have to translate the coordinates
    if (widget != window())
        srcRect.translate(widget->mapTo(window(), QPoint(0, 0)));

    QPixmap::x11SetDefaultScreen(widget->x11Info().screen());

    QX11PixmapData *pmd = new QX11PixmapData(QPixmapData::PixmapType);
    pmd->resize(srcRect.width(), srcRect.height());
    QPixmap px(pmd);

    GC tmpGc = XCreateGC(X11->display, m_backBuffer.handle(), 0, 0);

    // Make sure all GL rendering is complete before copying the window
    QGLContext* ctx = static_cast<QX11GLPixmapData*>(m_backBuffer.pixmapData())->context();
    if (QGLContext::currentContext() != ctx && ctx && ctx->isValid())
        ctx->makeCurrent();
    eglWaitClient();

    // Copy srcRect from the backing store to the new pixmap
    XSetGraphicsExposures(X11->display, tmpGc, False);
    XCopyArea(X11->display, m_backBuffer.handle(), px.handle(), tmpGc,
              srcRect.x(), srcRect.y(), srcRect.width(), srcRect.height(), 0, 0);
    XFreeGC(X11->display, tmpGc);

    // Wait until the copy has finised before allowing more rendering into the back buffer
    eglWaitNative(EGL_CORE_NATIVE_ENGINE);

    return px;
}
Example #10
0
bool checkOpenGL(){

    QGLWidget *glWidget = new QGLWidget;

    QGLContext* glContext = (QGLContext *) glWidget->context();
    GLCHK( glContext->makeCurrent() );

    qDebug() << "Running the " + QString(AWESOME_BUMP_VERSION);
    qDebug() << "Checking OpenGL version...";
    qDebug() << "Widget OpenGL:" << QString("%1.%2").arg(glContext->format().majorVersion()).arg(glContext->format().minorVersion());
    qDebug() << "Context valid:" << glContext->isValid() ;
    qDebug() << "OpenGL information:" ;
    qDebug() << "VENDOR:"       << (const char*)glGetString(GL_VENDOR) ;
    qDebug() << "RENDERER:"     << (const char*)glGetString(GL_RENDERER) ;
    qDebug() << "VERSION:"      << (const char*)glGetString(GL_VERSION) ;
    qDebug() << "GLSL VERSION:" << (const char*)glGetString(GL_SHADING_LANGUAGE_VERSION) ;

    float version = glContext->format().majorVersion() + 0.1 * glContext->format().minorVersion();
    Performance3DSettings::openGLVersion = version;
    #ifdef USE_OPENGL_330
        Performance3DSettings::openGLVersion = 3.3;
    #endif

    delete glWidget;

    qDebug() << "Version:" << version;

    #ifdef USE_OPENGL_330
        // check openGL version
        if( version < 3.3 )
        {
           qDebug() << "Error: This version of AwesomeBump does not support openGL versions lower than 3.3 :(" ;
           return false;
        }
    #else
        // check openGL version
        if( version < 4.0 )
        {
           qDebug() << "Error: AwesomeBump does not support openGL versions lower than 4.0 :(" ;
           return false;
        }
    #endif
    return true;

}
Example #11
0
QList<VideoFrame::Format> GlslPainter::supportedFormats() const
{
    QList<VideoFrame::Format> formats;

    QGLContext *glContext = const_cast<QGLContext *>(QGLContext::currentContext());
    if (glContext) {
        glContext->makeCurrent();

        const QByteArray glExtensions(reinterpret_cast<const char *>(glGetString(GL_EXTENSIONS)));
        if (QGLShaderProgram::hasOpenGLShaderPrograms(glContext)
                && glExtensions.contains("ARB_shader_objects")) {
            // We are usable.
            return formats << VideoFrame::Format_YV12
                           << VideoFrame::Format_RGB32;
        }
    }

    return formats;
}
static PyObject *meth_QGLContext_makeCurrent(PyObject *sipSelf, PyObject *sipArgs)
{
    PyObject *sipParseErr = NULL;
    bool sipSelfWasArg = (!sipSelf || sipIsDerived((sipSimpleWrapper *)sipSelf));

    {
        QGLContext *sipCpp;

        if (sipParseArgs(&sipParseErr, sipArgs, "B", &sipSelf, sipType_QGLContext, &sipCpp))
        {
            (sipSelfWasArg ? sipCpp->QGLContext::makeCurrent() : sipCpp->makeCurrent());

            Py_INCREF(Py_None);
            return Py_None;
        }
    }

    /* Raise an exception if the arguments couldn't be parsed. */
    sipNoMethod(sipParseErr, sipName_QGLContext, sipName_makeCurrent, doc_QGLContext_makeCurrent);

    return NULL;
}
Example #13
0
bool checkOpenGL(){

    QGLWidget *glWidget = new QGLWidget;

    QGLContext* glContext = (QGLContext *) glWidget->context();
    GLCHK( glContext->makeCurrent() );

    int glMajorVersion, glMinorVersion;

    glMajorVersion = glContext->format().majorVersion();
    glMinorVersion = glContext->format().minorVersion();

    qDebug() << "Running the " + QString(AWESOME_BUMP_VERSION);
    qDebug() << "Checking OpenGL version...";
    qDebug() << "Widget OpenGL:" << QString("%1.%2").arg(glMajorVersion).arg(glMinorVersion);
    qDebug() << "Context valid:" << glContext->isValid() ;
    qDebug() << "OpenGL information:" ;
    qDebug() << "VENDOR:"       << (const char*)glGetString(GL_VENDOR) ;
    qDebug() << "RENDERER:"     << (const char*)glGetString(GL_RENDERER) ;
    qDebug() << "VERSION:"      << (const char*)glGetString(GL_VERSION) ;
    qDebug() << "GLSL VERSION:" << (const char*)glGetString(GL_SHADING_LANGUAGE_VERSION) ;

    Display3DSettings::openGLVersion = GL_MAJOR + (GL_MINOR * 0.1);

    delete glWidget;

    qDebug() << QString("Version: %1.%2").arg(glMajorVersion).arg(glMinorVersion);

    // check openGL version
    if( glMajorVersion < GL_MAJOR || (glMajorVersion == GL_MAJOR && glMinorVersion < GL_MINOR))
    {

        qDebug() << QString("Error: This version of AwesomeBump does not support openGL versions lower than %1.%2 :(").arg(GL_MAJOR).arg(GL_MINOR) ;
           return false;
    }
    return true;

}