Ejemplo n.º 1
0
void
ExpandAnim::applyTransform ()
{
    GLMatrix *transform = &mTransform;
    float defaultXScale = 0.3f;
    float forwardProgress;
    float expandProgress;
    const float expandPhaseEnd = 0.5f;

    forwardProgress = getProgress ();

    if ((1 - forwardProgress) < expandPhaseEnd)
	expandProgress = (1 - forwardProgress) / expandPhaseEnd;
    else
	expandProgress = 1.0f;

    // animation movement
    transform->translate (WIN_X (mWindow) + WIN_W (mWindow) / 2.0f,
			  WIN_Y (mWindow) + WIN_H (mWindow) / 2.0f,
			  0.0f); 

    transform->scale (defaultXScale + (1.0f - defaultXScale) *
		      expandProgress,
		      (1 - forwardProgress), 0.0f);

    transform->translate (-(WIN_X (mWindow) + WIN_W (mWindow) / 2.0f),
		      	  -(WIN_Y (mWindow) + WIN_H (mWindow) / 2.0f),
		      	  0.0f);

}
Ejemplo n.º 2
0
bool
ResizeWindow::glPaint (const GLWindowPaintAttrib &attrib,
		       const GLMatrix            &transform,
		       const CompRegion          &region,
		       unsigned int              mask)
{
    bool       status;

    if (window == static_cast<resize::CompWindowImpl*>(rScreen->logic.w)->impl ()
	&& rScreen->logic.mode == ResizeOptions::ModeStretch)
    {
	GLMatrix       wTransform (transform);
	BoxRec	       box;
	float	       xOrigin, yOrigin;
	float	       xScale, yScale;
	int            x, y;

	if (mask & PAINT_WINDOW_OCCLUSION_DETECTION_MASK)
	    return false;

	status = gWindow->glPaint (attrib, transform, region,
				   mask | PAINT_WINDOW_NO_CORE_INSTANCE_MASK);

	GLWindowPaintAttrib lastAttrib (gWindow->lastPaintAttrib ());

	if (window->alpha () || lastAttrib.opacity != OPAQUE)
	    mask |= PAINT_WINDOW_TRANSLUCENT_MASK;

	rScreen->logic.getPaintRectangle (&box);
	getStretchScale (&box, &xScale, &yScale);

	x = window->geometry (). x ();
	y = window->geometry (). y ();

	xOrigin = x - window->border ().left;
	yOrigin = y - window->border ().top;

	wTransform.translate (xOrigin, yOrigin, 0.0f);
	wTransform.scale (xScale, yScale, 1.0f);
	wTransform.translate ((rScreen->logic.geometry.x - x) / xScale - xOrigin,
			      (rScreen->logic.geometry.y - y) / yScale - yOrigin,
			      0.0f);

	gWindow->glDraw (wTransform, lastAttrib, region,
			 mask | PAINT_WINDOW_TRANSFORMED_MASK);
    }
    else
    {
	status = gWindow->glPaint (attrib, transform, region, mask);
    }

    return status;
}
Ejemplo n.º 3
0
void MythRenderOpenGL2::PushTransformation(const UIEffects &fx, QPointF &center)
{
    GLMatrix newtop = m_transforms.top();
    if (fx.hzoom != 1.0 || fx.vzoom != 1.0 || fx.angle != 0.0)
    {
        newtop.translate(-center.x(), -center.y());
        newtop.scale(fx.hzoom, fx.vzoom);
        newtop.rotate(fx.angle);
        newtop.translate(center.x(), center.y());
    }
    m_transforms.push(newtop);
}
Ejemplo n.º 4
0
bool
CubeScreen::cubeCheckOrientation (const GLScreenPaintAttrib &sAttrib,
				  const GLMatrix            &transform,
				  CompOutput                *output,
				  std::vector<GLVector>     &points)
{
    WRAPABLE_HND_FUNCTN_RETURN (bool, cubeCheckOrientation, sAttrib, transform, output, points)
    GLMatrix sTransform = transform;
    GLMatrix mvp, pm (priv->gScreen->projectionMatrix ()->getMatrix ());
    GLVector pntA, pntB, pntC;
    GLVector vecA, vecB, ortho;
    bool     rv = false;

    priv->gScreen->glApplyTransform (sAttrib, output, &sTransform);
    sTransform.translate (priv->mOutputXOffset, -priv->mOutputYOffset, 0.0f);
    sTransform.scale (priv->mOutputXScale, priv->mOutputYScale, 1.0f);

    mvp = pm * sTransform;

    pntA = mvp * points[0];

    if (pntA[3] < 0.0f)
	rv = !rv;

    pntA.homogenize ();

    pntB = mvp * points[1];

    if (pntB[3] < 0.0f)
	rv = !rv;

    pntB.homogenize ();

    pntC = mvp * points[2];
    pntC.homogenize ();

    vecA = pntC - pntA;
    vecB = pntC - pntB;

    ortho = vecA ^ vecB;

    if (ortho[2] > 0.0f)
	rv = !rv;

    return rv;
}