/******************************************************************************* (c) 2005-2014 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 "keys.h" #include "keysSupport.h" #include "ndds/ndds_cpp.h" #include "application.h" using namespace application; static int shutdown_participant( DDSDomainParticipant *participant, const char *shutdown_message, int status); unsigned int process_data(keysDataReader *typed_reader) { keysSeq data_seq; DDS_SampleInfoSeq info_seq; unsigned int samples_read = 0; DDS_ReturnCode_t retcode; typed_reader->take( data_seq, info_seq, DDS_LENGTH_UNLIMITED, DDS_ANY_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE); for (int i = 0; i < data_seq.length(); ++i) { /* Start changes for Keyed_Data */ /* We first check if the sample includes valid data */ if (info_seq[i].valid_data) { if (info_seq[i].view_state == DDS_NEW_VIEW_STATE) { std::cout << "Found new instance; code = " << data_seq[i].code << std::endl; } std::cout << "Instance " << data_seq[i].code << ": x: " << data_seq[i].x << ", y: " << data_seq[i].y << std::endl; samples_read++; } else { /* Since there is not valid data, it may include metadata */ keys dummy; retcode = typed_reader->get_key_value( dummy, info_seq[i].instance_handle); if (retcode != DDS_RETCODE_OK) { std::cout << "get_key_value error " << retcode << std::endl; continue; } /* Here we print a message if the instance state is ALIVE_NO_WRITERS * or ALIVE_DISPOSED */ if (info_seq[i].instance_state == DDS_NOT_ALIVE_NO_WRITERS_INSTANCE_STATE) { std::cout << "Instance " << dummy.code << " has no writers\n"; } else if ( info_seq[i].instance_state == DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE) { std::cout << "Instance " << dummy.code << " disposed\n"; } } /* End changes for Keyed_Data */ } // Data loaned from Connext for performance. Return loan when done. retcode = typed_reader->return_loan(data_seq, info_seq); if (retcode != DDS_RETCODE_OK) { std::cerr << "return loan error " << retcode << std::endl; } return samples_read; } int run_subscriber_application( unsigned int domain_id, unsigned int sample_count) { DDS_Duration_t wait_timeout = { 1, 0 }; // Start communicating in a domain, usually one participant per application DDSDomainParticipant *participant = DDSTheParticipantFactory->create_participant( domain_id, DDS_PARTICIPANT_QOS_DEFAULT, NULL /* listener */, DDS_STATUS_MASK_NONE); if (participant == NULL) { return shutdown_participant( participant, "create_participant error", EXIT_FAILURE); } // A Subscriber allows an application to create one or more DataReaders DDSSubscriber *subscriber = participant->create_subscriber( DDS_SUBSCRIBER_QOS_DEFAULT, NULL /* listener */, DDS_STATUS_MASK_NONE); if (subscriber == NULL) { return shutdown_participant( participant, "create_subscriber error", EXIT_FAILURE); } // Register the datatype to use when creating the Topic const char *type_name = keysTypeSupport::get_type_name(); DDS_ReturnCode_t retcode = keysTypeSupport::register_type(participant, type_name); if (retcode != DDS_RETCODE_OK) { return shutdown_participant( participant, "register_type error", EXIT_FAILURE); } // Create a Topic with a name and a datatype DDSTopic *topic = participant->create_topic( "Example keys", type_name, DDS_TOPIC_QOS_DEFAULT, NULL /* listener */, DDS_STATUS_MASK_NONE); if (topic == NULL) { return shutdown_participant( participant, "create_topic error", EXIT_FAILURE); } // This DataReader reads data on "Example keys" Topic DDSDataReader *untyped_reader = subscriber->create_datareader( topic, DDS_DATAREADER_QOS_DEFAULT, NULL, DDS_STATUS_MASK_ALL); if (untyped_reader == NULL) { return shutdown_participant( participant, "create_datareader error", EXIT_FAILURE); } // Narrow casts from a untyped DataReader to a reader of your type keysDataReader *typed_reader = keysDataReader::narrow(untyped_reader); if (typed_reader == NULL) { return shutdown_participant( participant, "DataReader narrow error", EXIT_FAILURE); } // Create ReadCondition that triggers when unread data in reader's queue DDSReadCondition *read_condition = typed_reader->create_readcondition( DDS_NOT_READ_SAMPLE_STATE, DDS_ANY_VIEW_STATE, DDS_ANY_INSTANCE_STATE); if (read_condition == NULL) { return shutdown_participant( participant, "create_readcondition error", EXIT_FAILURE); } // WaitSet will be woken when the attached condition is triggered DDSWaitSet waitset; retcode = waitset.attach_condition(read_condition); if (retcode != DDS_RETCODE_OK) { return shutdown_participant( participant, "attach_condition error", EXIT_FAILURE); } // Main loop. Wait for data to arrive, and process when it arrives unsigned int samples_read = 0; while (!shutdown_requested && samples_read < sample_count) { DDSConditionSeq active_conditions_seq; // Wait for data retcode = waitset.wait(active_conditions_seq, wait_timeout); if (retcode == DDS_RETCODE_OK) { // If the read condition is triggered, process data samples_read += process_data(typed_reader); } } // Cleanup return shutdown_participant(participant, "Shutting down", 0); } // Delete all entities static int shutdown_participant( DDSDomainParticipant *participant, const char *shutdown_message, int status) { DDS_ReturnCode_t retcode; std::cout << shutdown_message << std::endl; if (participant != NULL) { // Cleanup everything created by this Participant retcode = participant->delete_contained_entities(); if (retcode != DDS_RETCODE_OK) { std::cerr << "delete_contained_entities error" << retcode << std::endl; status = EXIT_FAILURE; } retcode = DDSTheParticipantFactory->delete_participant(participant); if (retcode != DDS_RETCODE_OK) { std::cerr << "delete_participant error" << retcode << std::endl; status = EXIT_FAILURE; } } return status; } int main(int argc, char *argv[]) { // Parse arguments and handle control-C ApplicationArguments arguments; parse_arguments(arguments, argc, argv); if (arguments.parse_result == PARSE_RETURN_EXIT) { return EXIT_SUCCESS; } else if (arguments.parse_result == PARSE_RETURN_FAILURE) { return EXIT_FAILURE; } setup_signal_handlers(); // Sets Connext verbosity to help debugging NDDSConfigLogger::get_instance()->set_verbosity(arguments.verbosity); int status = run_subscriber_application( arguments.domain_id, arguments.sample_count); // Releases the memory used by the participant factory. Optional at // application exit DDS_ReturnCode_t retcode = DDSDomainParticipantFactory::finalize_instance(); if (retcode != DDS_RETCODE_OK) { std::cerr << "finalize_instance error" << retcode << std::endl; status = EXIT_FAILURE; } return status; }