2014-11-16 16:51:45 -05:00
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#include "DemodulatorThread.h"
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#include "CubicSDRDefs.h"
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#include <vector>
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2014-11-22 22:17:33 -05:00
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DemodulatorThread::DemodulatorThread(DemodulatorThreadInputQueue* pQueue, DemodulatorThreadParameters *params_in) :
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m_pQueue(pQueue), visOutQueue(NULL) {
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2014-11-16 16:51:45 -05:00
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2014-11-17 22:58:56 -05:00
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DemodulatorThreadParameters defaultParams;
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if (!params_in) {
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params = defaultParams;
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} else {
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params = *params_in;
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}
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resample_ratio = (float) (params.inputResampleRate) / (float) params.inputRate;
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second_resampler_ratio = (float) (params.demodResampleRate) / (float) params.inputResampleRate;
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audio_resample_ratio = (float) (params.audioSampleRate) / (float) params.demodResampleRate;
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2014-11-16 16:51:45 -05:00
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2014-11-17 22:58:56 -05:00
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float fc = 0.5f * ((float) params.inputResampleRate / (float) params.inputRate) * 0.75; // filter cutoff frequency
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float ft = 0.05f; // filter transition
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float As = 60.0f; // stop-band attenuation [dB]
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float mu = 0.0f; // fractional timing offset
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// estimate required filter length and generate filter
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unsigned int h_len = estimate_req_filter_len(ft, As);
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float h[h_len];
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liquid_firdes_kaiser(h_len, fc, As, mu, h);
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fir_filter = firfilt_crcf_create(h, h_len);
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h_len = estimate_req_filter_len(ft, As);
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liquid_firdes_kaiser(h_len, (float) params.filterFrequency / (float) params.demodResampleRate, As, mu, h);
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fir_audio_filter = firfilt_crcf_create(h, h_len);
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// create multi-stage arbitrary resampler object
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resampler = msresamp_crcf_create(resample_ratio, As);
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msresamp_crcf_print(resampler);
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2014-11-17 22:58:56 -05:00
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second_resampler = msresamp_crcf_create(second_resampler_ratio, As);
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msresamp_crcf_print(second_resampler);
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2014-11-16 16:51:45 -05:00
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audio_resampler = msresamp_crcf_create(audio_resample_ratio, As);
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msresamp_crcf_print(audio_resampler);
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float kf = 0.75; // modulation factor
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fdem = freqdem_create(kf);
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freqdem_print(fdem);
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}
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DemodulatorThread::~DemodulatorThread() {
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std::cout << std::endl << "Demodulator Thread Done." << std::endl << std::endl;
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}
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void DemodulatorThread::threadMain() {
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while (1) {
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DemodulatorThreadIQData inp;
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m_pQueue->pop(inp);
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std::vector<signed char> *data = &inp.data;
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if (data->size()) {
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liquid_float_complex filtered_input[BUF_SIZE / 2];
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for (int i = 0; i < BUF_SIZE / 2; i++) {
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liquid_float_complex x;
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liquid_float_complex y;
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x.real = (float) (*data)[i * 2] / 127.0f;
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x.imag = (float) (*data)[i * 2 + 1] / 127.0f;
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firfilt_crcf_push(fir_filter, x); // push input sample
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firfilt_crcf_execute(fir_filter, &y); // compute output
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filtered_input[i] = y;
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}
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int out_size = ceil((float) (BUF_SIZE / 2) * resample_ratio);
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liquid_float_complex resampled_output[out_size];
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unsigned int num_written; // number of values written to buffer
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msresamp_crcf_execute(resampler, filtered_input, (BUF_SIZE / 2), resampled_output, &num_written);
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float waveform_ceil = 0, waveform_floor = 0;
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float pcm = 0;
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2014-11-22 22:17:33 -05:00
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for (int i = 0; i < num_written; i++) {
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freqdem_demodulate(fdem, resampled_output[i], &pcm);
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resampled_output[i].real = (float) pcm;
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resampled_output[i].imag = 0;
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if (waveform_ceil < resampled_output[i].real) {
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waveform_ceil = resampled_output[i].real;
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}
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if (waveform_floor > resampled_output[i].real) {
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waveform_floor = resampled_output[i].real;
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}
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}
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int wbfm_out_size = ceil((float) (num_written) * second_resampler_ratio);
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liquid_float_complex resampled_wbfm_output[wbfm_out_size];
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unsigned int num_wbfm_written;
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msresamp_crcf_execute(second_resampler, resampled_output, num_written, resampled_wbfm_output, &num_wbfm_written);
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2014-11-16 16:51:45 -05:00
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for (int i = 0; i < num_wbfm_written; i++) {
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firfilt_crcf_push(fir_audio_filter, resampled_wbfm_output[i]);
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firfilt_crcf_execute(fir_audio_filter, &resampled_wbfm_output[i]);
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}
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int audio_out_size = ceil((float) (num_wbfm_written) * audio_resample_ratio);
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liquid_float_complex resampled_audio_output[audio_out_size];
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unsigned int num_audio_written;
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msresamp_crcf_execute(audio_resampler, resampled_wbfm_output, num_wbfm_written, resampled_audio_output, &num_audio_written);
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2014-11-16 16:51:45 -05:00
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2014-11-22 22:17:33 -05:00
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std::vector<float> newBuffer;
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newBuffer.resize(num_audio_written * 2);
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for (int i = 0; i < num_audio_written; i++) {
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liquid_float_complex y = resampled_audio_output[i];
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newBuffer[i * 2] = y.real;
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newBuffer[i * 2 + 1] = y.real;
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}
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2014-11-22 22:17:33 -05:00
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AudioThreadInput ati;
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ati.data = newBuffer;
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if (params.audioInputQueue != NULL) {
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params.audioInputQueue->push(ati);
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}
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2014-11-16 16:51:45 -05:00
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2014-11-22 22:17:33 -05:00
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if (visOutQueue != NULL) {
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visOutQueue->push(ati);
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}
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2014-11-16 16:51:45 -05:00
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2014-11-22 22:17:33 -05:00
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/*if (!TestDestroy()) {
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DemodulatorThreadAudioData *audioOut = new DemodulatorThreadAudioData(task.data->frequency, params.audioSampleRate, newBuffer);
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2014-11-17 19:37:53 -05:00
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2014-11-22 22:17:33 -05:00
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m_pQueue->sendAudioData(DemodulatorThreadTask::DEMOD_THREAD_AUDIO_DATA, audioOut);
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2014-11-18 18:00:06 -05:00
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2014-11-22 22:17:33 -05:00
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if (params.audioInputQueue != NULL) {
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AudioThreadInput ati;
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ati.data = newBuffer;
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params.audioInputQueue->push(ati);
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// AudioThreadTask audio_task = AudioThreadTask(AudioThreadTask::AUDIO_THREAD_DATA);
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// audio_task.data = new AudioThreadData(task.data->frequency, params.audioSampleRate, newBuffer);
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// params.audioQueue->addTask(audio_task, AudioThreadQueue::AUDIO_PRIORITY_HIGHEST);
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}
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}*/
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}
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}
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}
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