#include "SDRPostThread.h" #include "CubicSDRDefs.h" #include "CubicSDR.h" #include #include SDRPostThread::SDRPostThread() : iqDataOutQueue(NULL), iqDataInQueue(NULL), iqVisualQueue(NULL), terminated(false), dcFilter(NULL), num_vis_samples(2048) { } SDRPostThread::~SDRPostThread() { } void SDRPostThread::bindDemodulator(DemodulatorInstance *demod) { demodulators_add.push_back(demod); } void SDRPostThread::removeDemodulator(DemodulatorInstance *demod) { if (!demod) { return; } demodulators_remove.push_back(demod); } void SDRPostThread::setIQDataInQueue(SDRThreadIQDataQueue* iqDataQueue) { iqDataInQueue = iqDataQueue; } void SDRPostThread::setIQDataOutQueue(DemodulatorThreadInputQueue* iqDataQueue) { iqDataOutQueue = iqDataQueue; } void SDRPostThread::setIQVisualQueue(DemodulatorThreadInputQueue *iqVisQueue) { iqVisualQueue = iqVisQueue; } void SDRPostThread::setNumVisSamples(int num_vis_samples_in) { num_vis_samples = num_vis_samples_in; } int SDRPostThread::getNumVisSamples() { return num_vis_samples; } void SDRPostThread::threadMain() { int n_read; double seconds = 0.0; #ifdef __APPLE__ pthread_t tID = pthread_self(); // ID of this thread int priority = sched_get_priority_max( SCHED_FIFO) - 1; sched_param prio = {priority}; // scheduling priority of thread pthread_setschedparam(tID, SCHED_FIFO, &prio); #endif dcFilter = iirfilt_crcf_create_dc_blocker(0.0005); DemodulatorThreadIQData *visualDataOut = new DemodulatorThreadIQData; std::cout << "SDR post-processing thread started.." << std::endl; std::deque buffers; std::deque::iterator buffers_i; std::vector fpData; std::vector dataOut; while (!terminated) { SDRThreadIQData *data_in; iqDataInQueue.load()->pop(data_in); // std::lock_guard < std::mutex > lock(data_in->m_mutex); if (data_in && data_in->data.size()) { int dataSize = data_in->data.size()/2; if (dataSize > fpData.capacity()) { fpData.reserve(dataSize); dataOut.reserve(dataSize); } if (dataSize != fpData.size()) { fpData.resize(dataSize); dataOut.resize(dataSize); } for (int i = 0, iMax = dataSize; i < iMax; i++) { fpData[i].real = (float) data_in->data[i * 2] / 127.0; fpData[i].imag = (float) data_in->data[i * 2 + 1] / 127.0; } iirfilt_crcf_execute_block(dcFilter, &fpData[0], dataSize, &dataOut[0]); if (iqDataOutQueue != NULL) { DemodulatorThreadIQData *pipeDataOut = new DemodulatorThreadIQData; pipeDataOut->frequency = data_in->frequency; pipeDataOut->sampleRate = data_in->sampleRate; pipeDataOut->data.assign(dataOut.begin(), dataOut.end()); iqDataOutQueue.load()->push(pipeDataOut); } if (iqVisualQueue != NULL && iqVisualQueue.load()->empty()) { if (visualDataOut->data.size() < num_vis_samples) { if (visualDataOut->data.capacity() < num_vis_samples) { visualDataOut->data.reserve(num_vis_samples); } visualDataOut->data.resize(num_vis_samples); } visualDataOut->frequency = data_in->frequency; visualDataOut->sampleRate = data_in->sampleRate; visualDataOut->data.assign(dataOut.begin(), dataOut.begin() + num_vis_samples); iqVisualQueue.load()->push(visualDataOut); } if (demodulators_add.size()) { while (!demodulators_add.empty()) { demodulators.push_back(demodulators_add.back()); demodulators_add.pop_back(); } } if (demodulators_remove.size()) { while (!demodulators_remove.empty()) { DemodulatorInstance *demod = demodulators_remove.back(); demodulators_remove.pop_back(); std::vector::iterator i = std::find(demodulators.begin(), demodulators.end(), demod); if (i != demodulators.end()) { demodulators.erase(i); } } } int activeDemods = 0; bool pushedData = false; if (demodulators.size()) { std::vector::iterator i; for (i = demodulators.begin(); i != demodulators.end(); i++) { DemodulatorInstance *demod = *i; if (demod->getFrequency() != data_in->frequency && abs(data_in->frequency - demod->getFrequency()) > (wxGetApp().getSampleRate() / 2)) { continue; } activeDemods++; } if (demodulators.size()) { DemodulatorThreadIQData *demodDataOut = NULL; for (buffers_i = buffers.begin(); buffers_i != buffers.end(); buffers_i++) { if ((*buffers_i)->getRefCount() <= 0) { demodDataOut = (*buffers_i); break; } } if (demodDataOut == NULL) { demodDataOut = new DemodulatorThreadIQData; buffers.push_back(demodDataOut); } // std::lock_guard < std::mutex > lock(demodDataOut->m_mutex); demodDataOut->frequency = data_in->frequency; demodDataOut->sampleRate = data_in->sampleRate; demodDataOut->setRefCount(activeDemods); demodDataOut->data.assign(dataOut.begin(), dataOut.end()); std::vector::iterator i; for (i = demodulators.begin(); i != demodulators.end(); i++) { DemodulatorInstance *demod = *i; DemodulatorThreadInputQueue *demodQueue = demod->threadQueueDemod; if (demod->getFrequency() != data_in->frequency && abs(data_in->frequency - demod->getFrequency()) > (wxGetApp().getSampleRate() / 2)) { if (demod->isActive()) { demod->setActive(false); DemodulatorThreadIQData *dummyDataOut = new DemodulatorThreadIQData; dummyDataOut->frequency = data_in->frequency; dummyDataOut->sampleRate = data_in->sampleRate; demodQueue->push(dummyDataOut); } } else if (!demod->isActive()) { demod->setActive(true); } if (!demod->isActive()) { continue; } demodQueue->push(demodDataOut); pushedData = true; } if (!pushedData) { demodDataOut->setRefCount(0); } } } } data_in->decRefCount(); } while (!buffers.empty()) { DemodulatorThreadIQData *demodDataDel = buffers.front(); buffers.pop_front(); // std::lock_guard < std::mutex > lock(demodDataDel->m_mutex); // delete demodDataDel; } if (iqVisualQueue.load() && !iqVisualQueue.load()->empty()) { DemodulatorThreadIQData *visualDataDummy; iqVisualQueue.load()->pop(visualDataDummy); } delete visualDataOut; std::cout << "SDR post-processing thread done." << std::endl; } void SDRPostThread::terminate() { terminated = true; SDRThreadIQData *dummy = new SDRThreadIQData; iqDataInQueue.load()->push(dummy); }