void TrackMouseEffect::paintScreen(int mask, QRegion region, ScreenPaintData& data)
{
effects->paintScreen(mask, region, data); // paint normal screen
if (!m_active)
return;
if ( effects->isOpenGLCompositing() && m_texture[0] && m_texture[1]) {
ShaderBinder binder(ShaderManager::GenericShader);
GLShader *shader(binder.shader());
if (!shader) {
return;
}
QMatrix4x4 modelview;
modelview = shader->getUniformMatrix4x4("modelview");
glEnable(GL_BLEND);
glBlendFunc(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
QMatrix4x4 matrix(modelview);
const QPointF p = m_lastRect[0].topLeft() + QPoint(m_lastRect[0].width()/2.0, m_lastRect[0].height()/2.0);
const float x = p.x()*data.xScale() + data.xTranslation();
const float y = p.y()*data.yScale() + data.yTranslation();
for (int i = 0; i < 2; ++i) {
matrix.translate(x, y, 0.0);
matrix.rotate(i ? -2*m_angle : m_angle, 0, 0, 1.0);
matrix.translate(-x, -y, 0.0);
shader->setUniform(GLShader::ModelViewMatrix, matrix);
shader->setUniform(GLShader::Saturation, 1.0);
shader->setUniform(GLShader::ModulationConstant, QVector4D(1.0, 1.0, 1.0, 1.0));
m_texture[i]->bind();
m_texture[i]->render(region, m_lastRect[i]);
m_texture[i]->unbind();
}
glDisable(GL_BLEND);
shader->setUniform(GLShader::ModelViewMatrix, modelview);
}
#ifdef KWIN_HAVE_XRENDER_COMPOSITING
if ( effects->compositingType() == XRenderCompositing && m_picture[0] && m_picture[1]) {
float sine = sin(m_angle);
const float cosine = cos(m_angle);
for (int i = 0; i < 2; ++i) {
if (i) sine = -sine;
const float dx = m_size[i].width()/2.0;
const float dy = m_size[i].height()/2.0;
const xcb_render_picture_t picture = *m_picture[i];
#define DOUBLE_TO_FIXED(d) ((xcb_render_fixed_t) ((d) * 65536))
xcb_render_transform_t xform = {
DOUBLE_TO_FIXED( cosine ), DOUBLE_TO_FIXED( -sine ), DOUBLE_TO_FIXED( dx - cosine*dx + sine*dy ),
DOUBLE_TO_FIXED( sine ), DOUBLE_TO_FIXED( cosine ), DOUBLE_TO_FIXED( dy - sine*dx - cosine*dy ),
DOUBLE_TO_FIXED( 0.0 ), DOUBLE_TO_FIXED( 0.0 ), DOUBLE_TO_FIXED( 1.0 )
};
#undef DOUBLE_TO_FIXED
xcb_render_set_picture_transform(xcbConnection(), picture, xform);
xcb_render_set_picture_filter(xcbConnection(), picture, 8, "bilinear", 0, NULL);
const QRect &rect = m_lastRect[i];
xcb_render_composite(xcbConnection(), XCB_RENDER_PICT_OP_OVER, picture, XCB_RENDER_PICTURE_NONE,
effects->xrenderBufferPicture(), 0, 0, 0, 0,
qRound((rect.x()+rect.width()/2.0)*data.xScale() - rect.width()/2.0 + data.xTranslation()),
qRound((rect.y()+rect.height()/2.0)*data.yScale() - rect.height()/2.0 + data.yTranslation()),
rect.width(), rect.height());
}
}
#endif
if (effects->compositingType() == QPainterCompositing && !m_image[0].isNull() && !m_image[1].isNull()) {
QPainter *painter = effects->scenePainter();
const QPointF p = m_lastRect[0].topLeft() + QPoint(m_lastRect[0].width()/2.0, m_lastRect[0].height()/2.0);
for (int i = 0; i < 2; ++i) {
painter->save();
painter->translate(p.x(), p.y());
painter->rotate(i ? -2*m_angle : m_angle);
painter->translate(-p.x(), -p.y());
painter->drawImage(m_lastRect[i], m_image[i]);
painter->restore();
}
}
}
static void CreateBuffers(vout_display_t *vd, const vout_display_cfg_t *cfg)
{
const video_format_t *fmt = &vd->source;
vout_display_sys_t *sys = vd->sys;
xcb_connection_t *conn = sys->conn;
xcb_create_pixmap(conn, 32, sys->drawable.crop, sys->root,
fmt->i_visible_width, fmt->i_visible_height);
xcb_create_pixmap(conn, 32, sys->drawable.scale, sys->root,
cfg->display.width, cfg->display.height);
xcb_render_create_picture(conn, sys->picture.crop, sys->drawable.crop,
sys->format.argb, 0, NULL);
xcb_render_create_picture(conn, sys->picture.scale, sys->drawable.scale,
sys->format.argb, 0, NULL);
vout_display_place_t *place = &sys->place;
vout_display_PlacePicture(place, fmt, cfg);
/* Homogeneous coordinates transform from destination(place)
* to source(fmt) */
int32_t ax = place->height; /* multiply x instead of dividing y */
int32_t ay = place->width; /* multiply y instead of dividing x */
int32_t bx = 0;
int32_t by = 0;
switch (fmt->orientation) {
case ORIENT_TOP_LEFT:
case ORIENT_LEFT_TOP:
break;
case ORIENT_TOP_RIGHT:
case ORIENT_RIGHT_TOP:
ax *= -1;
bx -= place->width;
break;
case ORIENT_BOTTOM_LEFT:
case ORIENT_LEFT_BOTTOM:
ay *= -1;
by -= place->height;
break;
case ORIENT_BOTTOM_RIGHT:
case ORIENT_RIGHT_BOTTOM:
ax *= -1;
ay *= -1;
bx -= place->width;
by -= place->height;
break;
}
sys->src_x = bx;
sys->src_y = by;
xcb_render_transform_t transform = {
0, 0, 0,
0, 0, 0,
/* Multiply z by width and height to compensate for x and y above */
0, 0, place->width * place->height,
};
if (ORIENT_IS_SWAP(fmt->orientation)) {
transform.matrix12 = ay * fmt->i_visible_width;
transform.matrix21 = ax * fmt->i_visible_height;
} else {
transform.matrix11 = ax * fmt->i_visible_width;
transform.matrix22 = ay * fmt->i_visible_height;
}
xcb_render_set_picture_transform(conn, sys->picture.crop, transform);
if (likely(sys->filter != NULL))
xcb_render_set_picture_filter(conn, sys->picture.crop,
strlen(sys->filter), sys->filter,
0, NULL);
}
// paint the window
void SceneXrender::Window::performPaint(int mask, QRegion region, WindowPaintData data)
{
setTransformedShape(QRegion()); // maybe nothing will be painted
// check if there is something to paint
bool opaque = isOpaque() && qFuzzyCompare(data.opacity(), 1.0);
/* HACK: It seems this causes painting glitches, disable temporarily
if (( mask & PAINT_WINDOW_OPAQUE ) ^ ( mask & PAINT_WINDOW_TRANSLUCENT ))
{ // We are only painting either opaque OR translucent windows, not both
if ( mask & PAINT_WINDOW_OPAQUE && !opaque )
return; // Only painting opaque and window is translucent
if ( mask & PAINT_WINDOW_TRANSLUCENT && opaque )
return; // Only painting translucent and window is opaque
}*/
// Intersect the clip region with the rectangle the window occupies on the screen
if (!(mask & (PAINT_WINDOW_TRANSFORMED | PAINT_SCREEN_TRANSFORMED)))
region &= toplevel->visibleRect();
if (region.isEmpty())
return;
XRenderWindowPixmap *pixmap = windowPixmap<XRenderWindowPixmap>();
if (!pixmap || !pixmap->isValid()) {
return;
}
xcb_render_picture_t pic = pixmap->picture();
if (pic == XCB_RENDER_PICTURE_NONE) // The render format can be null for GL and/or Xv visuals
return;
toplevel->resetDamage();
// set picture filter
if (options->isXrenderSmoothScale()) { // only when forced, it's slow
if (mask & PAINT_WINDOW_TRANSFORMED)
filter = ImageFilterGood;
else if (mask & PAINT_SCREEN_TRANSFORMED)
filter = ImageFilterGood;
else
filter = ImageFilterFast;
} else
filter = ImageFilterFast;
// do required transformations
const QRect wr = mapToScreen(mask, data, QRect(0, 0, width(), height()));
QRect cr = QRect(toplevel->clientPos(), toplevel->clientSize()); // Client rect (in the window)
qreal xscale = 1;
qreal yscale = 1;
bool scaled = false;
Client *client = dynamic_cast<Client*>(toplevel);
Deleted *deleted = dynamic_cast<Deleted*>(toplevel);
const QRect decorationRect = toplevel->decorationRect();
if (((client && !client->noBorder()) || (deleted && !deleted->noBorder())) &&
true) {
// decorated client
transformed_shape = decorationRect;
if (toplevel->shape()) {
// "xeyes" + decoration
transformed_shape -= cr;
transformed_shape += shape();
}
} else {
transformed_shape = shape();
}
if (toplevel->hasShadow())
transformed_shape |= toplevel->shadow()->shadowRegion();
xcb_render_transform_t xform = {
DOUBLE_TO_FIXED(1), DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(0),
DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(1), DOUBLE_TO_FIXED(0),
DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(1)
};
static const xcb_render_transform_t identity = {
DOUBLE_TO_FIXED(1), DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(0),
DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(1), DOUBLE_TO_FIXED(0),
DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(1)
};
if (mask & PAINT_WINDOW_TRANSFORMED) {
xscale = data.xScale();
yscale = data.yScale();
}
if (mask & PAINT_SCREEN_TRANSFORMED) {
xscale *= screen_paint.xScale();
yscale *= screen_paint.yScale();
}
if (!qFuzzyCompare(xscale, 1.0) || !qFuzzyCompare(yscale, 1.0)) {
scaled = true;
xform.matrix11 = DOUBLE_TO_FIXED(1.0 / xscale);
xform.matrix22 = DOUBLE_TO_FIXED(1.0 / yscale);
// transform the shape for clipping in paintTransformedScreen()
QVector<QRect> rects = transformed_shape.rects();
for (int i = 0; i < rects.count(); ++i) {
QRect& r = rects[ i ];
r.setRect(qRound(r.x() * xscale), qRound(r.y() * yscale),
qRound(r.width() * xscale), qRound(r.height() * yscale));
}
transformed_shape.setRects(rects.constData(), rects.count());
}
transformed_shape.translate(mapToScreen(mask, data, QPoint(0, 0)));
PaintClipper pcreg(region); // clip by the region to paint
PaintClipper pc(transformed_shape); // clip by window's shape
const bool wantShadow = m_shadow && !m_shadow->shadowRegion().isEmpty();
// In order to obtain a pixel perfect rescaling
// we need to blit the window content togheter with
// decorations in a temporary pixmap and scale
// the temporary pixmap at the end.
// We should do this only if there is scaling and
// the window has border
// This solves a number of glitches and on top of this
// it optimizes painting quite a bit
const bool blitInTempPixmap = xRenderOffscreen() || (data.crossFadeProgress() < 1.0 && !opaque) ||
(scaled && (wantShadow || (client && !client->noBorder()) || (deleted && !deleted->noBorder())));
xcb_render_picture_t renderTarget = m_scene->bufferPicture();
if (blitInTempPixmap) {
if (scene_xRenderOffscreenTarget()) {
temp_visibleRect = toplevel->visibleRect().translated(-toplevel->pos());
renderTarget = *scene_xRenderOffscreenTarget();
} else {
prepareTempPixmap();
renderTarget = *s_tempPicture;
}
} else {
xcb_render_set_picture_transform(connection(), pic, xform);
if (filter == ImageFilterGood) {
setPictureFilter(pic, KWin::Scene::ImageFilterGood);
}
//BEGIN OF STUPID RADEON HACK
// This is needed to avoid hitting a fallback in the radeon driver.
// The Render specification states that sampling pixels outside the
// source picture results in alpha=0 pixels. This can be achieved by
// setting the border color to transparent black, but since the border
// color has the same format as the texture, it only works when the
// texture has an alpha channel. So the driver falls back to software
// when the repeat mode is RepeatNone, the picture has a non-identity
// transformation matrix, and doesn't have an alpha channel.
// Since we only scale the picture, we can work around this by setting
// the repeat mode to RepeatPad.
if (!window()->hasAlpha()) {
const uint32_t values[] = {XCB_RENDER_REPEAT_PAD};
xcb_render_change_picture(connection(), pic, XCB_RENDER_CP_REPEAT, values);
}
//END OF STUPID RADEON HACK
}
#define MAP_RECT_TO_TARGET(_RECT_) \
if (blitInTempPixmap) _RECT_.translate(-temp_visibleRect.topLeft()); else _RECT_ = mapToScreen(mask, data, _RECT_)
//BEGIN deco preparations
bool noBorder = true;
xcb_render_picture_t left = XCB_RENDER_PICTURE_NONE;
xcb_render_picture_t top = XCB_RENDER_PICTURE_NONE;
xcb_render_picture_t right = XCB_RENDER_PICTURE_NONE;
xcb_render_picture_t bottom = XCB_RENDER_PICTURE_NONE;
QRect dtr, dlr, drr, dbr;
const SceneXRenderDecorationRenderer *renderer = nullptr;
if (client) {
if (client && !client->noBorder()) {
if (client->isDecorated()) {
SceneXRenderDecorationRenderer *r = static_cast<SceneXRenderDecorationRenderer*>(client->decoratedClient()->renderer());
if (r) {
r->render();
renderer = r;
}
}
noBorder = client->noBorder();
client->layoutDecorationRects(dlr, dtr, drr, dbr);
}
}
if (deleted && !deleted->noBorder()) {
renderer = static_cast<const SceneXRenderDecorationRenderer*>(deleted->decorationRenderer());
noBorder = deleted->noBorder();
deleted->layoutDecorationRects(dlr, dtr, drr, dbr);
}
if (renderer) {
left = renderer->picture(SceneXRenderDecorationRenderer::DecorationPart::Left);
top = renderer->picture(SceneXRenderDecorationRenderer::DecorationPart::Top);
right = renderer->picture(SceneXRenderDecorationRenderer::DecorationPart::Right);
bottom = renderer->picture(SceneXRenderDecorationRenderer::DecorationPart::Bottom);
}
if (!noBorder) {
MAP_RECT_TO_TARGET(dtr);
MAP_RECT_TO_TARGET(dlr);
MAP_RECT_TO_TARGET(drr);
MAP_RECT_TO_TARGET(dbr);
}
//END deco preparations
//BEGIN shadow preparations
QRect stlr, str, strr, srr, sbrr, sbr, sblr, slr;
SceneXRenderShadow* m_xrenderShadow = static_cast<SceneXRenderShadow*>(m_shadow);
if (wantShadow) {
m_xrenderShadow->layoutShadowRects(str, strr, srr, sbrr, sbr, sblr, slr, stlr);
MAP_RECT_TO_TARGET(stlr);
MAP_RECT_TO_TARGET(str);
MAP_RECT_TO_TARGET(strr);
MAP_RECT_TO_TARGET(srr);
MAP_RECT_TO_TARGET(sbrr);
MAP_RECT_TO_TARGET(sbr);
MAP_RECT_TO_TARGET(sblr);
MAP_RECT_TO_TARGET(slr);
}
//BEGIN end preparations
//BEGIN client preparations
QRect dr = cr;
if (blitInTempPixmap) {
dr.translate(-temp_visibleRect.topLeft());
} else {
dr = mapToScreen(mask, data, dr); // Destination rect
if (scaled) {
cr.moveLeft(cr.x() * xscale);
cr.moveTop(cr.y() * yscale);
}
}
const int clientRenderOp = (opaque || blitInTempPixmap) ? XCB_RENDER_PICT_OP_SRC : XCB_RENDER_PICT_OP_OVER;
//END client preparations
#undef MAP_RECT_TO_TARGET
for (PaintClipper::Iterator iterator; !iterator.isDone(); iterator.next()) {
#define RENDER_SHADOW_TILE(_TILE_, _RECT_) \
xcb_render_composite(connection(), XCB_RENDER_PICT_OP_OVER, m_xrenderShadow->picture(SceneXRenderShadow::ShadowElement##_TILE_), \
shadowAlpha, renderTarget, 0, 0, 0, 0, _RECT_.x(), _RECT_.y(), _RECT_.width(), _RECT_.height())
//shadow
if (wantShadow) {
xcb_render_picture_t shadowAlpha = XCB_RENDER_PICTURE_NONE;
if (!opaque) {
shadowAlpha = xRenderBlendPicture(data.opacity());
}
RENDER_SHADOW_TILE(TopLeft, stlr);
RENDER_SHADOW_TILE(Top, str);
RENDER_SHADOW_TILE(TopRight, strr);
RENDER_SHADOW_TILE(Left, slr);
RENDER_SHADOW_TILE(Right, srr);
RENDER_SHADOW_TILE(BottomLeft, sblr);
RENDER_SHADOW_TILE(Bottom, sbr);
RENDER_SHADOW_TILE(BottomRight, sbrr);
}
#undef RENDER_SHADOW_TILE
// Paint the window contents
if (!(client && client->isShade())) {
xcb_render_picture_t clientAlpha = XCB_RENDER_PICTURE_NONE;
if (!opaque) {
clientAlpha = xRenderBlendPicture(data.opacity());
}
xcb_render_composite(connection(), clientRenderOp, pic, clientAlpha, renderTarget,
cr.x(), cr.y(), 0, 0, dr.x(), dr.y(), dr.width(), dr.height());
if (data.crossFadeProgress() < 1.0 && data.crossFadeProgress() > 0.0) {
XRenderWindowPixmap *previous = previousWindowPixmap<XRenderWindowPixmap>();
if (previous && previous != pixmap) {
static XRenderPicture cFadeAlpha(XCB_RENDER_PICTURE_NONE);
static xcb_render_color_t cFadeColor = {0, 0, 0, 0};
cFadeColor.alpha = uint16_t((1.0 - data.crossFadeProgress()) * 0xffff);
if (cFadeAlpha == XCB_RENDER_PICTURE_NONE) {
cFadeAlpha = xRenderFill(cFadeColor);
} else {
xcb_rectangle_t rect = {0, 0, 1, 1};
xcb_render_fill_rectangles(connection(), XCB_RENDER_PICT_OP_SRC, cFadeAlpha, cFadeColor , 1, &rect);
}
if (previous->size() != pixmap->size()) {
xcb_render_transform_t xform2 = {
DOUBLE_TO_FIXED(FIXED_TO_DOUBLE(xform.matrix11) * previous->size().width() / pixmap->size().width()), DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(0),
DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(FIXED_TO_DOUBLE(xform.matrix22) * previous->size().height() / pixmap->size().height()), DOUBLE_TO_FIXED(0),
DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(0), DOUBLE_TO_FIXED(1)
};
xcb_render_set_picture_transform(connection(), previous->picture(), xform2);
}
xcb_render_composite(connection(), opaque ? XCB_RENDER_PICT_OP_OVER : XCB_RENDER_PICT_OP_ATOP,
previous->picture(), cFadeAlpha, renderTarget,
cr.x(), cr.y(), 0, 0, dr.x(), dr.y(), dr.width(), dr.height());
if (previous->size() != pixmap->size()) {
xcb_render_set_picture_transform(connection(), previous->picture(), identity);
}
}
}
if (!opaque)
transformed_shape = QRegion();
}
if (client || deleted) {
if (!noBorder) {
xcb_render_picture_t decorationAlpha = xRenderBlendPicture(data.opacity());
auto renderDeco = [decorationAlpha, renderTarget](xcb_render_picture_t deco, const QRect &rect) {
if (deco == XCB_RENDER_PICTURE_NONE) {
return;
}
xcb_render_composite(connection(), XCB_RENDER_PICT_OP_OVER, deco, decorationAlpha, renderTarget,
0, 0, 0, 0, rect.x(), rect.y(), rect.width(), rect.height());
};
renderDeco(top, dtr);
renderDeco(left, dlr);
renderDeco(right, drr);
renderDeco(bottom, dbr);
}
}
if (data.brightness() != 1.0) {
// fake brightness change by overlaying black
const float alpha = (1 - data.brightness()) * data.opacity();
xcb_rectangle_t rect;
if (blitInTempPixmap) {
rect.x = -temp_visibleRect.left();
rect.y = -temp_visibleRect.top();
rect.width = width();
rect.height = height();
} else {
rect.x = wr.x();
rect.y = wr.y();
rect.width = wr.width();
rect.height = wr.height();
}
xcb_render_fill_rectangles(connection(), XCB_RENDER_PICT_OP_OVER, renderTarget,
preMultiply(data.brightness() < 1.0 ? QColor(0,0,0,255*alpha) : QColor(255,255,255,-alpha*255)),
1, &rect);
}
if (blitInTempPixmap) {
const QRect r = mapToScreen(mask, data, temp_visibleRect);
xcb_render_set_picture_transform(connection(), *s_tempPicture, xform);
setPictureFilter(*s_tempPicture, filter);
xcb_render_composite(connection(), XCB_RENDER_PICT_OP_OVER, *s_tempPicture,
XCB_RENDER_PICTURE_NONE, m_scene->bufferPicture(),
0, 0, 0, 0, r.x(), r.y(), r.width(), r.height());
xcb_render_set_picture_transform(connection(), *s_tempPicture, identity);
}
}
if (scaled && !blitInTempPixmap) {
xcb_render_set_picture_transform(connection(), pic, identity);
if (filter == ImageFilterGood)
setPictureFilter(pic, KWin::Scene::ImageFilterFast);
if (!window()->hasAlpha()) {
const uint32_t values[] = {XCB_RENDER_REPEAT_NONE};
xcb_render_change_picture(connection(), pic, XCB_RENDER_CP_REPEAT, values);
}
}
if (xRenderOffscreen())
scene_setXRenderOffscreenTarget(*s_tempPicture);
}
