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** contained in the Technology Preview License Agreement accompanying
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#include <QtCore/qpointer.h>
#include <QtCore/qdatetime.h>
#include <QtCore/qbasictimer.h>
#include <QtCore/qcoreevent.h>
#include <QtGui/qgraphicsscene.h>
#include <QtGui/qgraphicsview.h>
#include <QtGui/qscrollbar.h>
#include <QtGui/qx11info_x11.h>
#include "qgraphicsvideoitem.h"
#include <qmediaobject.h>
#include <qmediaservice.h>
#include <qpaintervideosurface_p.h>
#include <qvideorenderercontrol.h>
#include <qvideosurfaceformat.h>
#include "qxvideosurface_maemo5_p.h"
QT_BEGIN_NAMESPACE
//update overlay geometry slightly later,
//to ensure color key is alredy replaced with static frame
#define GEOMETRY_UPDATE_DELAY 20
//this is necessary to prevent flickering, see maemo bug 8798
//on geometry changes, the color key is replaced with static image frame
//until the overlay is re-initialized
#define SOFTWARE_RENDERING_DURATION 150
#ifdef __ARM_NEON__
/*
* ARM NEON optimized implementation of UYVY -> RGB16 convertor
*/
static void uyvy422_to_rgb16_line_neon (uint8_t * dst, const uint8_t * src, int n)
{
/* and this is the NEON code itself */
static __attribute__ ((aligned (16))) uint16_t acc_r[8] = {
22840, 22840, 22840, 22840, 22840, 22840, 22840, 22840,
};
static __attribute__ ((aligned (16))) uint16_t acc_g[8] = {
17312, 17312, 17312, 17312, 17312, 17312, 17312, 17312,
};
static __attribute__ ((aligned (16))) uint16_t acc_b[8] = {
28832, 28832, 28832, 28832, 28832, 28832, 28832, 28832,
};
/*
* Registers:
* q0, q1 : d0, d1, d2, d3 - are used for initial loading of YUV data
* q2 : d4, d5 - are used for storing converted RGB data
* q3 : d6, d7 - are used for temporary storage
*
* q6 : d12, d13 - are used for converting to RGB16
* q7 : d14, d15 - are used for storing RGB16 data
* q4-q5 - reserved
*
* q8, q9 : d16, d17, d18, d19 - are used for expanded Y data
* q10 : d20, d21
* q11 : d22, d23
* q12 : d24, d25
* q13 : d26, d27
* q13, q14, q15 - various constants (#16, #149, #204, #50, #104, #154)
*/
asm volatile (".macro convert_macroblock size\n"
/* load up to 16 source pixels in UYVY format */
".if \\size == 16\n"
"pld [%[src], #128]\n"
"vld1.32 {d0, d1, d2, d3}, [%[src]]!\n"
".elseif \\size == 8\n"
"vld1.32 {d0, d1}, [%[src]]!\n"
".elseif \\size == 4\n"
"vld1.32 {d0}, [%[src]]!\n"
".elseif \\size == 2\n"
"vld1.32 {d0[0]}, [%[src]]!\n"
".else\n" ".error \"unsupported macroblock size\"\n" ".endif\n"
/* convert from 'packed' to 'planar' representation */
"vuzp.8 d0, d1\n" /* d1 - separated Y data (first 8 bytes) */
"vuzp.8 d2, d3\n" /* d3 - separated Y data (next 8 bytes) */
"vuzp.8 d0, d2\n" /* d0 - separated U data, d2 - separated V data */
/* split even and odd Y color components */
"vuzp.8 d1, d3\n" /* d1 - evenY, d3 - oddY */
/* clip upper and lower boundaries */
"vqadd.u8 q0, q0, q4\n"
"vqadd.u8 q1, q1, q4\n"
"vqsub.u8 q0, q0, q5\n"
"vqsub.u8 q1, q1, q5\n"
"vshr.u8 d4, d2, #1\n" /* d4 = V >> 1 */
"vmull.u8 q8, d1, d27\n" /* q8 = evenY * 149 */
"vmull.u8 q9, d3, d27\n" /* q9 = oddY * 149 */
"vld1.16 {d20, d21}, [%[acc_r], :128]\n" /* q10 - initialize accumulator for red */
"vsubw.u8 q10, q10, d4\n" /* red acc -= (V >> 1) */
"vmlsl.u8 q10, d2, d28\n" /* red acc -= V * 204 */
"vld1.16 {d22, d23}, [%[acc_g], :128]\n" /* q11 - initialize accumulator for green */
"vmlsl.u8 q11, d2, d30\n" /* green acc -= V * 104 */
"vmlsl.u8 q11, d0, d29\n" /* green acc -= U * 50 */
"vld1.16 {d24, d25}, [%[acc_b], :128]\n" /* q12 - initialize accumulator for blue */
"vmlsl.u8 q12, d0, d30\n" /* blue acc -= U * 104 */
"vmlsl.u8 q12, d0, d31\n" /* blue acc -= U * 154 */
"vhsub.s16 q3, q8, q10\n" /* calculate even red components */
"vhsub.s16 q10, q9, q10\n" /* calculate odd red components */
"vqshrun.s16 d0, q3, #6\n" /* right shift, narrow and saturate even red components */
"vqshrun.s16 d3, q10, #6\n" /* right shift, narrow and saturate odd red components */
"vhadd.s16 q3, q8, q11\n" /* calculate even green components */
"vhadd.s16 q11, q9, q11\n" /* calculate odd green components */
"vqshrun.s16 d1, q3, #6\n" /* right shift, narrow and saturate even green components */
"vqshrun.s16 d4, q11, #6\n" /* right shift, narrow and saturate odd green components */
"vhsub.s16 q3, q8, q12\n" /* calculate even blue components */
"vhsub.s16 q12, q9, q12\n" /* calculate odd blue components */
"vqshrun.s16 d2, q3, #6\n" /* right shift, narrow and saturate even blue components */
"vqshrun.s16 d5, q12, #6\n" /* right shift, narrow and saturate odd blue components */
"vzip.8 d0, d3\n" /* join even and odd red components */
"vzip.8 d1, d4\n" /* join even and odd green components */
"vzip.8 d2, d5\n" /* join even and odd blue components */
"vshll.u8 q7, d0, #8\n" //red
"vshll.u8 q6, d1, #8\n" //greed
"vsri.u16 q7, q6, #5\n"
"vshll.u8 q6, d2, #8\n" //blue
"vsri.u16 q7, q6, #11\n" //now there is rgb16 in q7
".if \\size == 16\n"
"vst1.16 {d14, d15}, [%[dst]]!\n"
//"vst3.8 {d0, d1, d2}, [%[dst]]!\n"
"vshll.u8 q7, d3, #8\n" //red
"vshll.u8 q6, d4, #8\n" //greed
"vsri.u16 q7, q6, #5\n"
"vshll.u8 q6, d5, #8\n" //blue
"vsri.u16 q7, q6, #11\n" //now there is rgb16 in q7
//"vst3.8 {d3, d4, d5}, [%[dst]]!\n"
"vst1.16 {d14, d15}, [%[dst]]!\n"
".elseif \\size == 8\n"
"vst1.16 {d14, d15}, [%[dst]]!\n"
//"vst3.8 {d0, d1, d2}, [%[dst]]!\n"
".elseif \\size == 4\n"
"vst1.8 {d14}, [%[dst]]!\n"
".elseif \\size == 2\n"
"vst1.8 {d14[0]}, [%[dst]]!\n"
"vst1.8 {d14[1]}, [%[dst]]!\n"
".else\n"
".error \"unsupported macroblock size\"\n"
".endif\n"
".endm\n"
"vmov.u8 d8, #15\n" /* add this to U/V to saturate upper boundary */
"vmov.u8 d9, #20\n" /* add this to Y to saturate upper boundary */
"vmov.u8 d10, #31\n" /* sub this from U/V to saturate lower boundary */
"vmov.u8 d11, #36\n" /* sub this from Y to saturate lower boundary */
"vmov.u8 d26, #16\n"
"vmov.u8 d27, #149\n"
"vmov.u8 d28, #204\n"
"vmov.u8 d29, #50\n"
"vmov.u8 d30, #104\n"
"vmov.u8 d31, #154\n"
"subs %[n], %[n], #16\n"
"blt 2f\n"
"1:\n"
"convert_macroblock 16\n"
"subs %[n], %[n], #16\n"
"bge 1b\n"
"2:\n"
"tst %[n], #8\n"
"beq 3f\n"
"convert_macroblock 8\n"
"3:\n"
"tst %[n], #4\n"
"beq 4f\n"
"convert_macroblock 4\n"
"4:\n"
"tst %[n], #2\n"
"beq 5f\n"
"convert_macroblock 2\n"
"5:\n"
".purgem convert_macroblock\n":[src] "+&r" (src),[dst] "+&r" (dst),
[n] "+&r" (n)
:[acc_r] "r" (&acc_r[0]),[acc_g] "r" (&acc_g[0]),[acc_b] "r" (&acc_b[0])
:"cc", "memory", "d0", "d1", "d2", "d3", "d4", "d5", "d6", "d7", "d8", "d9", "d10", "d11", "d12", "d13", "d14", "d15",
"d16", "d17", "d18", "d19", "d20", "d21", "d22", "d23",
"d24", "d25", "d26", "d27", "d28", "d29", "d30", "d31");
}
#endif
class QGraphicsVideoItemPrivate
{
public:
QGraphicsVideoItemPrivate()
: q_ptr(0)
, surface(0)
, mediaObject(0)
, service(0)
, rendererControl(0)
, savedViewportUpdateMode(QGraphicsView::FullViewportUpdate)
, aspectRatioMode(Qt::KeepAspectRatio)
, rect(0.0, 0.0, 320, 240)
, softwareRenderingEnabled(false)
{
}
QGraphicsVideoItem *q_ptr;
QXVideoSurface *surface;
QMediaObject *mediaObject;
QMediaService *service;
QVideoRendererControl *rendererControl;
QPointer<QGraphicsView> currentView;
QGraphicsView::ViewportUpdateMode savedViewportUpdateMode;
Qt::AspectRatioMode aspectRatioMode;
QRectF rect;
QRectF boundingRect;
QRectF sourceRect;
QSizeF nativeSize;
QPixmap lastFrame;
QBasicTimer softwareRenderingTimer;
QBasicTimer geometryUpdateTimer;
bool softwareRenderingEnabled;
QRect overlayRect;
void clearService();
void updateRects();
void updateLastFrame();
void _q_present();
void _q_formatChanged(const QVideoSurfaceFormat &format);
void _q_serviceDestroyed();
void _q_mediaObjectDestroyed();
};
void QGraphicsVideoItemPrivate::clearService()
{
if (rendererControl) {
surface->stop();
rendererControl->setSurface(0);
service->releaseControl(rendererControl);
rendererControl = 0;
}
if (service) {
QObject::disconnect(service, SIGNAL(destroyed()), q_ptr, SLOT(_q_serviceDestroyed()));
service = 0;
}
}
void QGraphicsVideoItemPrivate::updateRects()
{
q_ptr->prepareGeometryChange();
if (nativeSize.isEmpty()) {
boundingRect = QRectF();
} else if (aspectRatioMode == Qt::IgnoreAspectRatio) {
boundingRect = rect;
sourceRect = QRectF(0, 0, 1, 1);
} else if (aspectRatioMode == Qt::KeepAspectRatio) {
QSizeF size = nativeSize;
size.scale(rect.size(), Qt::KeepAspectRatio);
boundingRect = QRectF(0, 0, size.width(), size.height());
boundingRect.moveCenter(rect.center());
sourceRect = QRectF(0, 0, 1, 1);
} else if (aspectRatioMode == Qt::KeepAspectRatioByExpanding) {
boundingRect = rect;
QSizeF size = rect.size();
size.scale(nativeSize, Qt::KeepAspectRatio);
sourceRect = QRectF(
0, 0, size.width() / nativeSize.width(), size.height() / nativeSize.height());
sourceRect.moveCenter(QPointF(0.5, 0.5));
}
}
void QGraphicsVideoItemPrivate::updateLastFrame()
{
lastFrame = QPixmap();
if (!softwareRenderingEnabled)
return;
QVideoFrame lastVideoFrame = surface->lastFrame();
if (!lastVideoFrame.isValid())
return;
if (lastVideoFrame.map(QAbstractVideoBuffer::ReadOnly)) {
#ifdef __ARM_NEON__
if (lastVideoFrame.pixelFormat() == QVideoFrame::Format_UYVY) {
QImage lastImage(lastVideoFrame.size(), QImage::Format_RGB16);
const uchar *src = lastVideoFrame.bits();
uchar *dst = lastImage.bits();
const int srcLineStep = lastVideoFrame.bytesPerLine();
const int dstLineStep = lastImage.bytesPerLine();
const int h = lastVideoFrame.height();
const int w = lastVideoFrame.width();
for (int y=0; y<h; y++) {
uyvy422_to_rgb16_line_neon(dst, src, w);
src += srcLineStep;
dst += dstLineStep;
}
lastFrame = QPixmap::fromImage(
lastImage.scaled(boundingRect.size().toSize(), Qt::IgnoreAspectRatio, Qt::FastTransformation));
} else
#endif
{
QImage::Format imgFormat = QVideoFrame::imageFormatFromPixelFormat(lastVideoFrame.pixelFormat());
if (imgFormat != QImage::Format_Invalid) {
QImage lastImage(lastVideoFrame.bits(),
lastVideoFrame.width(),
lastVideoFrame.height(),
lastVideoFrame.bytesPerLine(),
imgFormat);
lastFrame = QPixmap::fromImage(
lastImage.scaled(boundingRect.size().toSize(), Qt::IgnoreAspectRatio, Qt::FastTransformation));
}
}
lastVideoFrame.unmap();
}
}
void QGraphicsVideoItemPrivate::_q_present()
{
q_ptr->update(boundingRect);
}
void QGraphicsVideoItemPrivate::_q_formatChanged(const QVideoSurfaceFormat &format)
{
nativeSize = format.sizeHint();
lastFrame = QPixmap();
updateRects();
emit q_ptr->nativeSizeChanged(nativeSize);
}
void QGraphicsVideoItemPrivate::_q_serviceDestroyed()
{
rendererControl = 0;
service = 0;
surface->stop();
}
void QGraphicsVideoItemPrivate::_q_mediaObjectDestroyed()
{
mediaObject = 0;
clearService();
}
QGraphicsVideoItem::QGraphicsVideoItem(QGraphicsItem *parent)
: QGraphicsObject(parent)
, d_ptr(new QGraphicsVideoItemPrivate)
{
d_ptr->q_ptr = this;
d_ptr->surface = new QXVideoSurface;
setCacheMode(NoCache);
setFlag(QGraphicsItem::ItemIgnoresParentOpacity);
setFlag(QGraphicsItem::ItemSendsGeometryChanges);
setFlag(QGraphicsItem::ItemSendsScenePositionChanges);
connect(d_ptr->surface, SIGNAL(surfaceFormatChanged(QVideoSurfaceFormat)),
this, SLOT(_q_formatChanged(QVideoSurfaceFormat)));
connect(d_ptr->surface, SIGNAL(activeChanged(bool)), this, SLOT(_q_present()));
}
QGraphicsVideoItem::~QGraphicsVideoItem()
{
if (d_ptr->rendererControl) {
d_ptr->rendererControl->setSurface(0);
d_ptr->service->releaseControl(d_ptr->rendererControl);
}
if (d_ptr->currentView)
d_ptr->currentView->setViewportUpdateMode(d_ptr->savedViewportUpdateMode);
delete d_ptr->surface;
delete d_ptr;
}
QMediaObject *QGraphicsVideoItem::mediaObject() const
{
return d_func()->mediaObject;
}
bool QGraphicsVideoItem::setMediaObject(QMediaObject *object)
{
Q_D(QGraphicsVideoItem);
if (object == d->mediaObject)
return true;
d->clearService();
d->mediaObject = object;
if (d->mediaObject) {
d->service = d->mediaObject->service();
if (d->service) {
d->rendererControl = qobject_cast<QVideoRendererControl *>(
d->service->requestControl(QVideoRendererControl_iid));
if (d->rendererControl != 0) {
connect(d->service, SIGNAL(destroyed()), this, SLOT(_q_serviceDestroyed()));
d->rendererControl->setSurface(d->surface);
return true;
}
}
}
return false;
}
Qt::AspectRatioMode QGraphicsVideoItem::aspectRatioMode() const
{
return d_func()->aspectRatioMode;
}
void QGraphicsVideoItem::setAspectRatioMode(Qt::AspectRatioMode mode)
{
Q_D(QGraphicsVideoItem);
d->aspectRatioMode = mode;
d->updateRects();
}
QPointF QGraphicsVideoItem::offset() const
{
return d_func()->rect.topLeft();
}
void QGraphicsVideoItem::setOffset(const QPointF &offset)
{
Q_D(QGraphicsVideoItem);
d->rect.moveTo(offset);
d->updateRects();
}
QSizeF QGraphicsVideoItem::size() const
{
return d_func()->rect.size();
}
void QGraphicsVideoItem::setSize(const QSizeF &size)
{
Q_D(QGraphicsVideoItem);
d->rect.setSize(size.isValid() ? size : QSizeF(0, 0));
d->updateRects();
}
QSizeF QGraphicsVideoItem::nativeSize() const
{
return d_func()->nativeSize;
}
QRectF QGraphicsVideoItem::boundingRect() const
{
return d_func()->boundingRect;
}
void QGraphicsVideoItem::paint(
QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget)
{
qDebug() << "QGraphicsVideoItem::paint";
Q_UNUSED(option);
Q_D(QGraphicsVideoItem);
QGraphicsView *view = 0;
if (scene() && !scene()->views().isEmpty())
view = scene()->views().first();
//it's necessary to switch vieport update mode to FullViewportUpdate
//otherwise the video item area can be just scrolled without notifying overlay
//about geometry changes
if (view != d->currentView) {
if (d->currentView) {
d->currentView->setViewportUpdateMode(d->savedViewportUpdateMode);
}
d->currentView = view;
if (view) {
d->savedViewportUpdateMode = view->viewportUpdateMode();
view->setViewportUpdateMode(QGraphicsView::FullViewportUpdate);
}
}
QColor colorKey = Qt::black;
bool geometryChanged = false;
if (d->surface) {
if (widget)
d->surface->setWinId(widget->winId());
QTransform transform = painter->combinedTransform();
QRect overlayRect = transform.mapRect(boundingRect()).toRect();
QRect currentSurfaceRect = d->surface->displayRect();
if (widget) {
//workaround for xvideo issue with U/V planes swapped
QPoint topLeft = widget->mapToGlobal(overlayRect.topLeft());
if ((topLeft.x() & 1) == 0)
overlayRect.moveLeft(overlayRect.left()-1);
}
d->overlayRect = overlayRect;
if (currentSurfaceRect != overlayRect) {
if (!d->surface->displayRect().isEmpty()) {
if (d->softwareRenderingEnabled) {
//recalculate scaled frame pixmap if area is resized
if (currentSurfaceRect.size() != overlayRect.size()) {
d->updateLastFrame();
d->surface->setDisplayRect( overlayRect );
}
} else {
d->softwareRenderingEnabled = true;
d->updateLastFrame();
//don't set new geometry right now,
//but with small delay, to ensure the frame is already
//rendered on top of color key
if (!d->geometryUpdateTimer.isActive())
d->geometryUpdateTimer.start(GEOMETRY_UPDATE_DELAY, this);
}
} else
d->surface->setDisplayRect( overlayRect );
geometryChanged = true;
d->softwareRenderingTimer.start(SOFTWARE_RENDERING_DURATION, this);
//qDebug() << "set video display rect:" << deviceRect;
}
colorKey = d->surface->colorKey();
}
if (!d->softwareRenderingEnabled) {
painter->fillRect(d->boundingRect, colorKey);
} else {
if (!d->lastFrame.isNull()) {
painter->drawPixmap(d->boundingRect.topLeft(), d->lastFrame );
} else
painter->fillRect(d->boundingRect, Qt::black);
}
}
QVariant QGraphicsVideoItem::itemChange(GraphicsItemChange change, const QVariant &value)
{
Q_D(QGraphicsVideoItem);
if (change == ItemScenePositionHasChanged) {
update(boundingRect());
} else {
return QGraphicsItem::itemChange(change, value);
}
return value;
}
void QGraphicsVideoItem::timerEvent(QTimerEvent *event)
{
Q_D(QGraphicsVideoItem);
if (event->timerId() == d->softwareRenderingTimer.timerId() && d->softwareRenderingEnabled) {
d->softwareRenderingTimer.stop();
d->softwareRenderingEnabled = false;
d->updateLastFrame();
// repaint last frame, to ensure geometry change is applyed in paused state
d->surface->repaintLastFrame();
d->_q_present();
} else if ((event->timerId() == d->geometryUpdateTimer.timerId())) {
d->geometryUpdateTimer.stop();
//slightly delayed geometry update,
//to avoid flicker at the first geometry change
d->surface->setDisplayRect( d->overlayRect );
}
QGraphicsObject::timerEvent(event);
}
#include "moc_qgraphicsvideoitem.cpp"
QT_END_NAMESPACE