Exemple #1
0
int main()
{
    typedef test_compare<std::less<int> > C;
    const std::multiset<int, C> m(C(3));
    assert(m.empty());
    assert(m.begin() == m.end());
    assert(m.key_comp() == C(3));
    assert(m.value_comp() == C(3));
}
Exemple #2
0
 void operator()(clmdep_msgpack::object::with_zone& o, const std::multiset<T, Compare, Alloc>& v) const {
     o.type = clmdep_msgpack::type::ARRAY;
     if (v.empty()) {
         o.via.array.ptr = nullptr;
         o.via.array.size = 0;
     } else {
         uint32_t size = checked_get_container_size(v.size());
         clmdep_msgpack::object* p = static_cast<clmdep_msgpack::object*>(o.zone.allocate_align(sizeof(clmdep_msgpack::object)*size));
         clmdep_msgpack::object* const pend = p + size;
         o.via.array.ptr = p;
         o.via.array.size = size;
         typename std::multiset<T, Compare, Alloc>::const_iterator it(v.begin());
         do {
             *p = clmdep_msgpack::object(*it, o.zone);
             ++p;
             ++it;
         } while(p < pend);
     }
 }
Exemple #3
0
 /**
  * Does the specified time stamp occur before the first scheduled
  * timer?  If this returns true, then adding a timer at the
  * specified time stamp will require adjusting the poll timeout,
  * i.e. the event thread must be woken up.
  */
 bool IsBefore(uint64_t t) const {
   return timers.empty() || t < timers.begin()->due_us;
 }
void GridFitter::visualizeDebug(std::multiset<candidate_t> const& grids, const cv::Mat& roi, const cv::Size2i roiSize, const cv::Mat& edgeRoiX, const cv::Mat& edgeRoiY, const Tag &tag, cv::Mat const& binarizedROI, std::string winName, const size_t numBest)
{
	cv::Mat binarizedROICpy;
	cv::cvtColor(binarizedROI, binarizedROICpy, CV_GRAY2BGR);

	cv::Mat edgeX;
	cv::cvtColor(edgeRoiX, edgeX, CV_GRAY2BGR);

	cv::Mat edgeY;
	cv::cvtColor(edgeRoiY, edgeY, CV_GRAY2BGR);

	cv::Mat roiCpy;
	cv::cvtColor(roi, roiCpy, CV_GRAY2BGR);

	const size_t to = std::min(grids.size(), numBest);
	size_t idx = 0;
	for (candidate_t const& candidate : grids) {
		std::vector<cv::Mat> images;

		PipelineGrid grid(candidate.config);

        images.push_back(tag.getRepresentations().orig);
		images.push_back(roiCpy);

		cv::Mat origCopy;
		roiCpy.copyTo(origCopy);
		pipeline::Ellipse const& ell = tag.getCandidatesConst().front().getEllipse();
		cv::ellipse(origCopy, ell.getCen(), ell.getAxis(), ell.getAngle(), 0, 360, cv::Scalar(0, 255, 0), 2);
		images.push_back(origCopy);

		images.push_back(edgeX);
		images.push_back(edgeY);
		images.push_back(binarizedROICpy);
		images.push_back(grid.getProjectedImage(roiSize));

		cv::Mat blendedBin;
		cv::addWeighted(binarizedROICpy, 0.6, grid.getProjectedImage(roiSize), 0.4, 0.0, blendedBin);
		images.push_back(blendedBin);

		cv::Mat blended;
        cv::addWeighted(tag.getRepresentations().orig, 0.8, grid.getProjectedImage(roiSize), 0.2, 0.0, blended);
		images.push_back(blended);

		cv::Mat cannyBlendedX;
		edgeX.copyTo(cannyBlendedX);
		grid.drawContours(cannyBlendedX, 0.9, cv::Vec3b(150, 200, 170));
		images.push_back(cannyBlendedX);

		cv::Mat cannyBlendedY;
		edgeY.copyTo(cannyBlendedY);
		grid.drawContours(cannyBlendedY, 0.9, cv::Vec3b(150, 200, 170));
		images.push_back(cannyBlendedY);

		cv::Mat origCopyOverlay;
		roiCpy.copyTo(origCopyOverlay);
		grid.drawContours(origCopyOverlay, 0.5);
		images.push_back(origCopyOverlay);

		const auto canvas = CvHelper::makeCanvas(images, images[0].rows + 10, 1);

		std::string title(winName + " " + std::to_string(idx) + " (error: " + std::to_string(candidate.error) + ")");
		cv::namedWindow(title);
		cv::imshow(title, canvas);

		++idx;
		if (idx == to) break;
	}

	if (!grids.empty()) {
		bool cont = true;
		while (cont) {
			const char c = cv::waitKey();
			if (c == 'd') {
				cv::destroyAllWindows();
				cont = false;
			} else if (c == 'c') {
				cont = false;
			}
		}
	}
}