#include "frame.hpp" #include "compat/math.hpp" #include namespace pt_module { void Preview::set_last_frame(const pt_frame& frame_) { const cv::Mat& frame2 = frame_.as_const()->mat; const cv::Mat* frame; if (frame2.channels() == 1) { frame_tmp.create(frame2.rows, frame2.cols, CV_8UC3); cv::cvtColor(frame2, frame_tmp, cv::COLOR_GRAY2BGR); frame = &frame_tmp; } else frame = &frame2; if (frame->channels() != 3) { eval_once(qDebug() << "tracker/pt: camera frame depth: 3 !=" << frame->channels()); frame_copy.create(cv::Size{frame_out.cols, frame_out.rows}, CV_8UC3); frame_copy.setTo({0}); return *this; } const bool need_resize = frame2.cols != frame_out.cols || frame2.rows != frame_out.rows; if (need_resize) cv::resize(frame2, frame_copy, cv::Size(frame_out.cols, frame_out.rows), 0, 0, cv::INTER_NEAREST); else frame->copyTo(frame_copy); return *this; } Preview::Preview(int w, int h) { ensure_size(frame_out, w, h, CV_8UC4); ensure_size(frame_copy, w, h, CV_8UC3); frame_copy.setTo(cv::Scalar(0, 0, 0)); } QImage Preview::get_bitmap() { int stride = frame_out.step.p[0]; if (stride < 64 || stride < frame_out.cols * 4) { eval_once(qDebug() << "bad stride" << stride << "for bitmap size" << frame_copy.cols << frame_copy.rows); return QImage(); } cv::cvtColor(frame_copy, frame_out, cv::COLOR_BGR2BGRA); return QImage((const unsigned char*) frame_out.data, frame_out.cols, frame_out.rows, stride, QImage::Format_ARGB32); } void Preview::draw_head_center(f x, f y) { auto [px_, py_] = to_pixel_pos(x, y, frame_copy.cols, frame_copy.rows); int px = iround(px_), py = iround(py_); constexpr int len = 9; static const cv::Scalar color(0, 255, 255); cv::line(frame_copy, cv::Point(px - len, py), cv::Point(px + len, py), color, 1); cv::line(frame_copy, cv::Point(px, py - len), cv::Point(px, py + len), color, 1); } void Preview::ensure_size(cv::Mat& frame, int w, int h, int type) { if (frame.cols != w || frame.rows != h || frame.type() != type) frame = cv::Mat(h, w, type); } } // ns pt_module