/** Expose event handler.
* @param event event info structure.
* @return signal return value
*/
bool
SkillGuiGraphDrawingArea::on_expose_event(GdkEventExpose* event)
{
update_translations();
// This is where we draw on the window
Glib::RefPtr<Gdk::Window> window = get_window();
if(window) {
//Gtk::Allocation allocation = get_allocation();
//const int width = allocation.get_width();
//const int height = allocation.get_height();
// coordinates for the center of the window
//int xc, yc;
//xc = width / 2;
//yc = height / 2;
__cairo = window->create_cairo_context();
__cairo->set_source_rgb(1, 1, 1);
__cairo->paint();
if (__graph) {
Glib::Timer t;
gvRender(__gvc, __graph, (char *)"skillguicairo", NULL);
t.stop();
//printf("Rendering took %f seconds\n", t.elapsed());
}
__cairo.clear();
}
return true;
}
void VideoHandler::segmentThread()
{
m_keepSegmentThreadAlive = true;
m_availableSegment = false;
m_segmentThreadFinished = false;
while (m_keepSegmentThreadAlive) {
{
Glib::Threads::Mutex::Lock lock(m_SegmentMutex);
while ((m_availableSegment) && (m_keepSegmentThreadAlive)){
m_emptySegmentCond.wait(m_SegmentMutex);
}
if (!m_keepSegmentThreadAlive)
continue;
// start new Segment computation
{
Glib::Threads::Mutex::Lock lock(m_NextFrameMutex);
while ((!m_availableNextFrame) && (m_keepSegmentThreadAlive)
&& (!m_nextFrameThreadFinished)) {
m_availableNextFrameCond.wait(m_NextFrameMutex);
}
if ((!m_keepSegmentThreadAlive) || (m_nextFrameThreadFinished))
continue;
if ((!colorfeature) && (difffeature) && (!knnMethod))
m_NextDFrame.copyTo(m_Frame);
else
m_NextFrame.copyTo(m_Frame);
if (colorfeature)
m_NextOFrame.copyTo(m_OFrame);
else if ((difffeature) && (!knnMethod)) // not strictly needed..
m_NextFrame.copyTo(m_OFrame);
else
m_OFrame = m_Frame;
m_NextBWImg.copyTo(m_BWImg);
m_TimeStamp = m_NextTimeStamp;
m_availableNextFrame = false;
m_emptyNextFrameCond.signal();
}
if (computeSegments) {
#ifdef DEBUG
Glib::Timer timer;
timer.start();
#endif
// finding contours
vector<vector<cv::Point> > contours;
findFishContours(m_BWImg,&contours);
#ifdef DEBUG
cout << "contours: " << timer.elapsed() << endl;
timer.start();
#endif
Segment segm;
vector <Segment> tmp(0);
m_NextSegments.clear();
m_NextSegments = tmp;
int ii=0;
int ssize;
ssize = contours.size();
if (ssize>MAXCONTOUR)
ssize = MAXCONTOUR;
for( int i = 0; i< ssize; i++ ) {
getSegment(&segm,contours[i],m_BWImg,m_Frame,m_OFrame);
if (testValid(&segm)) {
ii++;
m_NextSegments.push_back(segm);
}
if (ii>=MAXVALIDCONTOUR)
break;
}
#ifdef DEBUG
cout << m_NextSegments.size() << endl;
cout << "segments: " << timer.elapsed() << endl;
#endif
}
// signal stuff
m_availableSegment = true;
m_availableSegmentCond.signal();
}
}
m_segmentThreadFinished = true;
}
void VideoHandler::readNextFrameThread()
{
m_keepNextFrameThreadAlive = true;
m_availableNextFrame = false;
m_nextFrameThreadFinished = false;
while (m_keepNextFrameThreadAlive) {
{
Glib::Threads::Mutex::Lock lock(m_NextFrameMutex);
// wait for segment thread handling
while ((m_availableNextFrame) && (m_keepNextFrameThreadAlive)) {
m_emptyNextFrameCond.wait(m_NextFrameMutex);
}
if (!m_keepNextFrameThreadAlive)
continue;
#ifdef DEBUG
Glib::Timer timer;
timer.start();
#endif
Mat oframe;
if (m_camera) {
int frameNumber;
if (pVideoSaver->getFrame(&oframe,&m_NextTimeStamp,&frameNumber)!=0) {
break;
} // returns RGB
#ifdef DEBUG
cout << oframe.size() << " " << frameNumber << " " << m_NextTimeStamp << endl;
#endif
} else {
m_NextTimeStamp = pVideoCapture->get(cv::CAP_PROP_POS_MSEC)*1e-3;
if (!pVideoCapture->read(oframe)) { // should return RGB instead of BGR. But seems not to work.. NOW BGR
//cout << "ERROR: File read error." << endl;
break;
}
//cvtColor(oframe,oframe,cv::COLOR_BGR2RGB);
#ifdef DEBUG
cout << oframe.size() << " Time: " << m_NextTimeStamp << endl;
#endif
if (oframe.type()!=CV_8UC3) {
cout << "ERROR: Expect CV_8UC3 color movie." << endl;
break;
}
}
if ((resizeif) && (resizescale!=1)) {
cv::resize(oframe,oframe,Size(0,0),resizescale,resizescale);
}
Mat frame;
if (scaled) {
cv::Mat channel[3];
cv::Mat floatframe;
vector<int> order(3);
split(oframe, channel);
for (int ii=0; ii<3; ii++) {
channel[ii].convertTo(channel[ii], CV_32FC1);
if (m_camera)
order[ii] = ii; // rgb
else
order[ii] = 2-ii; // bgr
}
floatframe = ((float) Scale[0]/255.)*channel[order[0]] + ((float) Scale[1]/255.)*channel[order[1]] + ((float) Scale[2]/255.)*channel[order[2]] + (Delta);
// subtract mean
//cv::Scalar globalmean = cv::mean(floatframe) ; // one channel anyway
//floatframe -= (globalmean[0]-0.5);// 0.5 because should be between 0..1
//floatframe.convertTo(frame, CV_8UC1,255.,(-globalmean[0]+0.5)*255); // better convert it back because of boundaries
floatframe.convertTo(frame, CV_8UC1,255.);
}
else {
if (m_camera)
cvtColor(oframe,frame,cv::COLOR_RGB2GRAY);
else
cvtColor(oframe,frame,cv::COLOR_BGR2GRAY); // seems not to work for video capture...
}
#ifdef DEBUG
cout << "reading frame: " << timer.elapsed() << endl;
timer.start();
#endif
// background computation (THIS IS THE SLOWEST PART!)
if (knnMethod) {
if (inverted) {
Mat iframe;
iframe = 255-frame;
pBackgroundSubtractor->apply(iframe, m_NextBWImg);
} else {
pBackgroundSubtractor->apply(frame, m_NextBWImg);
}
} else {
pBackgroundThresholder->apply(frame, &m_NextBWImg, &m_NextDFrame);
}
#ifdef DEBUG
cout << "background sub: " << timer.elapsed() << endl;
#endif
m_NextFrame = frame;
if (colorfeature)
m_NextOFrame = oframe;
else
m_NextOFrame = frame;
// thread stuff signal the end
m_availableNextFrame = true;
m_availableNextFrameCond.signal();
}
}
m_nextFrameThreadFinished = true;
};
void
ViewDrawingArea::draw_buffer()
{
#ifdef DEBUG
std::cerr << "VA->val:"<<_vadj->get_value() <<" VA->upper:"<<_vadj->get_upper() << std::endl << std::flush;
#endif
Feed *feed = AppContext::get().get_feed();
if (feed == NULL)
return;
if (AppContext::get().get_display_type() == FULL)
{
render_full_article();
return;
}
// Dimensions of drawing area
Gtk::Allocation allocation = get_allocation();
const int width = allocation.get_width();
const int height = allocation.get_height();
// First determine start item
Cairo::RefPtr<Cairo::Context> cr = _pixmap->create_cairo_context();
#ifdef DEBUG
/// This code was meant to investigate the 500ms delay with pango
/// at start of rendering.
if (!_layout_prepared)
{
Glib::Timer sw;
sw.start();
Glib::RefPtr<Pango::Layout> pl = Pango::Layout::create (cr);
const char *fonts[] = {"Sans 10", "Sans 14"};
for (unsigned i = 0; i < sizeof(fonts)/sizeof(const char*); ++i)
{
Pango::FontDescription fdesc (fonts[i]);
pl->set_font_description (fdesc);
pl->set_width (10 * Pango::SCALE); // force line break
pl->set_markup ("<b>Show Us Your Freaky Geek Costumes</b>\nHitting the streets in a scary, tech-themed outfit this Halloween? We want to see it. Find out how your Sergey Brin costume (or is it David Duchovny?) could be featured on Wired News. test\n test");
Pango::Rectangle irect, lrect;
pl->get_extents (irect, lrect);
}
_layout_prepared = true;
sw.stop();
unsigned long l;
sw.elapsed(l);
std::cerr << "Time spent rendering: " << l << " us" << std::endl << std::flush;
}
#endif
const item_list_t items = feed->get_items();
item_list_t::const_iterator start_item;
const int n_items = items.size();
double y = 0.0;
if (n_items == 0)
start_item = items.end();
else
{
// Set start_item and h
int start = static_cast<int> (_vadj->get_value());
double h = 0.0;
if (_vadj->get_value() > 0 && _vadj->get_value() == _vadj->get_upper())
{
// This will give a blank page when pulling the handle
// full down. While unusual, it might make sense with
// an ever-growing newslist.
y = 0.0;
start_item = items.end();
}
else
{
start_item = items.begin();
for (int i = 0; i < start; ++i)
++start_item;
if (start < 0)
start = 0;
double prop = _vadj->get_value() - start;
if (prop > 0.0)
{
(*start_item)->make_display_unit();
ItemDisplayUnit *du = (*start_item)->get_display_unit();
du->layout (cr);
h = du->get_height();
}
y = - h * prop;
#ifdef DEBUG
std::cerr << "prop:"<<prop <<" y:"<<y << std::endl << std::flush;
#endif
}
}
// clip to the area indicated by the expose event so that we only redraw
// the portion of the window that needs to be redrawn
cr->reset_clip();
cr->rectangle (0.0, 0.0, width, height);
cr->clip();
// Black on white
cr->set_source_rgb (1.0, 1.0, 1.0);
cr->paint();
cr->set_source_rgb (0.0, 0.0, 0.0);
// Render text
item_list_t::const_iterator it = start_item;
_top_item = *start_item;
_topitem_y = y;
int count = 0;
for (; it != items.end() && y < height; ++it, ++count)
{
(*it)->make_display_unit();
ItemDisplayUnit *du = (*it)->get_display_unit();
du->render (cr, 0, y);
y += du->get_height();
}
cr->show_page();
// Scrollbar settings can now be specified
_vadj->set_upper (n_items);
//_vadj->set_page_size (count - 1 + );
_vadj->set_step_increment (1);
_vadj->set_page_increment (count);
_vadj->changed();
}
void mySleep(float time)
{
Glib::Timer tim ;
tim.start() ;
while( tim.elapsed() < time ) ;
}
