#include #include "mynteye/glog_init.h" #include "mynteye/api.h" #include "mynteye/times.h" #include "mynteye/utils.h" MYNTEYE_USE_NAMESPACE int main(int argc, char *argv[]) { glog_init _(argc, argv); auto &&api = API::Create(); api->LogOptionInfos(); std::size_t left_count = 0; api->SetStreamCallback( Stream::LEFT, [&left_count](const api::StreamData &data) { CHECK_NOTNULL(data.img); ++left_count; VLOG(2) << Stream::LEFT << ", count: " << left_count; VLOG(2) << " frame_id: " << data.img->frame_id << ", timestamp: " << data.img->timestamp << ", exposure_time: " << data.img->exposure_time; }); std::size_t right_count = 0; api->SetStreamCallback( Stream::RIGHT, [&right_count](const api::StreamData &data) { CHECK_NOTNULL(data.img); ++right_count; VLOG(2) << Stream::RIGHT << ", count: " << right_count; VLOG(2) << " frame_id: " << data.img->frame_id << ", timestamp: " << data.img->timestamp << ", exposure_time: " << data.img->exposure_time; }); std::size_t imu_count = 0; api->SetMotionCallback([&imu_count](const api::MotionData &data) { CHECK_NOTNULL(data.imu); ++imu_count; VLOG(2) << "Imu count: " << imu_count; VLOG(2) << " frame_id: " << data.imu->frame_id << ", timestamp: " << data.imu->timestamp << ", accel_x: " << data.imu->accel[0] << ", accel_y: " << data.imu->accel[1] << ", accel_z: " << data.imu->accel[2] << ", gyro_x: " << data.imu->gyro[0] << ", gyro_y: " << data.imu->gyro[1] << ", gyro_z: " << data.imu->gyro[2] << ", temperature: " << data.imu->temperature; }); api->EnableStreamData(Stream::LEFT_RECTIFIED); api->EnableStreamData(Stream::RIGHT_RECTIFIED); api->EnableStreamData(Stream::DISPARITY_NORMALIZED); // Enable this will cache the motion datas until you get them. api->EnableMotionDatas(); api->Start(Source::ALL); cv::namedWindow("frame"); cv::namedWindow("disparity"); std::size_t motion_count = 0; auto &&time_beg = times::now(); while (true) { api->WaitForStreams(); // auto &&left_data = api->GetStreamData(Stream::LEFT); // auto &&right_data = api->GetStreamData(Stream::RIGHT); auto &&left_data = api->GetStreamData(Stream::LEFT_RECTIFIED); auto &&right_data = api->GetStreamData(Stream::RIGHT_RECTIFIED); if (!left_data.frame.empty() && !right_data.frame.empty()) { cv::Mat img; cv::hconcat(left_data.frame, right_data.frame, img); cv::imshow("frame", img); } auto &&disp_data = api->GetStreamData(Stream::DISPARITY_NORMALIZED); if (!disp_data.frame.empty()) { cv::imshow("disparity", disp_data.frame); } auto &&motion_datas = api->GetMotionDatas(); motion_count += motion_datas.size(); for (auto &&data : motion_datas) { LOG(INFO) << "Imu frame_id: " << data.imu->frame_id << ", timestamp: " << data.imu->timestamp << ", accel_x: " << data.imu->accel[0] << ", accel_y: " << data.imu->accel[1] << ", accel_z: " << data.imu->accel[2] << ", gyro_x: " << data.imu->gyro[0] << ", gyro_y: " << data.imu->gyro[1] << ", gyro_z: " << data.imu->gyro[2] << ", temperature: " << data.imu->temperature; } char key = static_cast(cv::waitKey(1)); if (key == 27 || key == 'q' || key == 'Q') { // ESC/Q break; } } auto &&time_end = times::now(); api->Stop(Source::ALL); float elapsed_ms = times::count(time_end - time_beg) * 0.001f; LOG(INFO) << "Time beg: " << times::to_local_string(time_beg) << ", end: " << times::to_local_string(time_end) << ", cost: " << elapsed_ms << "ms"; LOG(INFO) << "Left count: " << left_count << ", fps: " << (1000.f * left_count / elapsed_ms); LOG(INFO) << "Right count: " << right_count << ", fps: " << (1000.f * right_count / elapsed_ms); LOG(INFO) << "Imu count: " << imu_count << ", hz: " << (1000.f * imu_count / elapsed_ms); // LOG(INFO) << "Motion count: " << motion_count // << ", hz: " << (1000.f * motion_count / elapsed_ms); return 0; }