/******************************************************************************* (c) 2005-2015 Copyright, Real-Time Innovations, Inc. All rights reserved. RTI grants Licensee a license to use, modify, compile, and create derivative works of the Software. Licensee has the right to distribute object form only for use with RTI products. The Software is provided "as is", with no warranty of any type, including any warranty for fitness for any purpose. RTI is under no obligation to maintain or support the Software. RTI shall not be liable for any incidental or consequential damages arising out of the use or inability to use the software. ******************************************************************************/ #include #include #include #include // for logging #include "application.hpp" #include "batch_data.hpp" int process_data(dds::sub::DataReader reader) { // Take all samples int count = 0; dds::sub::LoanedSamples samples = reader.take(); for (const auto &sample : samples) { if (sample.info().valid()) { count++; std::cout << sample.data() << std::endl; } else { std::cout << "Instance state changed to " << sample.info().state().instance_state() << std::endl; } } return count; } void run_subscriber_application( int domain_id, int sample_count, bool turbo_mode_on) { // We pick the profile name if the turbo_mode is selected or not. // If turbo_mode is not selected, the batching profile will be used. std::string profile_name = "batching_Library::"; if (turbo_mode_on) { std::cout << "Turbo Mode enable" << std::endl; profile_name.append("turbo_mode_profile"); } else { std::cout << "Manual batching enable" << std::endl; profile_name.append("batch_profile"); } // To customize entities QoS use the file USER_QOS_PROFILES.xml dds::domain::DomainParticipant participant( domain_id, dds::core::QosProvider::Default().participant_qos(profile_name)); dds::topic::Topic topic(participant, "Example batch_data"); dds::sub::Subscriber subscriber( participant, dds::core::QosProvider::Default().subscriber_qos(profile_name)); dds::sub::DataReader reader( subscriber, topic, dds::core::QosProvider::Default().datareader_qos(profile_name)); // WaitSet will be woken when the attached condition is triggered dds::core::cond::WaitSet waitset; // Create a ReadCondition for any data on this reader, and add to WaitSet unsigned int samples_read = 0; dds::sub::cond::ReadCondition read_condition( reader, dds::sub::status::DataState::any(), [reader, &samples_read]() { samples_read += process_data(reader); }); waitset += read_condition; // Main loop while (!application::shutdown_requested && samples_read < sample_count) { std::cout << "batch_data subscriber sleeping for 4 sec...\n"; // Wait for data and report if it does not arrive in 1 second waitset.dispatch(dds::core::Duration(4)); } } int main(int argc, char *argv[]) { using namespace application; // Parse arguments and handle control-C auto arguments = parse_arguments(argc, argv); if (arguments.parse_result == ParseReturn::exit) { return EXIT_SUCCESS; } else if (arguments.parse_result == ParseReturn::failure) { return EXIT_FAILURE; } setup_signal_handlers(); // Sets Connext verbosity to help debugging rti::config::Logger::instance().verbosity(arguments.verbosity); try { run_subscriber_application( arguments.domain_id, arguments.sample_count, arguments.turbo_mode); } catch (const std::exception &ex) { // This will catch DDS exceptions std::cerr << "Exception in run_subscriber_application(): " << ex.what() << std::endl; return EXIT_FAILURE; } // Releases the memory used by the participant factory. Optional at // application exit dds::domain::DomainParticipant::finalize_participant_factory(); return EXIT_SUCCESS; }