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https://github.com/AlexandreRouma/SDRPlusPlus.git
synced 2024-12-25 02:18:30 +01:00
Fixed IF reduction not working with multivfo + Added beginning of IF notch code
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f8ff67c5b0
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241632288e
@ -384,4 +384,85 @@ namespace dsp {
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stream<complex_t>* _in;
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};
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class NotchFilter : public generic_block<NotchFilter> {
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public:
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NotchFilter() {}
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NotchFilter(stream<complex_t>* in, float rate, float offset, float sampleRate) { init(in, rate, offset, sampleRate); }
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void init(stream<complex_t>* in, float rate, float offset, float sampleRate) {
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_in = in;
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correctionRate = rate;
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_offset = offset;
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_sampleRate = sampleRate;
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phaseDelta = lv_cmake(std::cos((-_offset / _sampleRate) * 2.0f * FL_M_PI), std::sin((-_offset / _sampleRate) * 2.0f * FL_M_PI));
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phaseDeltaConj = {phaseDelta.real(), -phaseDelta.imag()};
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generic_block<NotchFilter>::registerInput(_in);
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generic_block<NotchFilter>::registerOutput(&out);
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generic_block<NotchFilter>::_block_init = true;
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}
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void setInput(stream<complex_t>* in) {
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assert(generic_block<NotchFilter>::_block_init);
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std::lock_guard<std::mutex> lck(generic_block<NotchFilter>::ctrlMtx);
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generic_block<NotchFilter>::tempStop();
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generic_block<NotchFilter>::unregisterInput(_in);
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_in = in;
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generic_block<NotchFilter>::registerInput(_in);
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generic_block<NotchFilter>::tempStart();
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}
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void setCorrectionRate(float rate) {
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correctionRate = rate;
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}
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void setOffset(float offset) {
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_offset = offset;
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phaseDelta = lv_cmake(std::cos((-_offset / _sampleRate) * 2.0f * FL_M_PI), std::sin((-_offset / _sampleRate) * 2.0f * FL_M_PI));
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phaseDeltaConj = {phaseDelta.real(), -phaseDelta.imag()};
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}
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void setSampleRate(float sampleRate) {
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_sampleRate = sampleRate;
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phaseDelta = lv_cmake(std::cos((-_offset / _sampleRate) * 2.0f * FL_M_PI), std::sin((-_offset / _sampleRate) * 2.0f * FL_M_PI));
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phaseDeltaConj = {phaseDelta.real(), -phaseDelta.imag()};
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}
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int run() {
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int count = _in->read();
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if (count < 0) { return -1; }
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volk_32fc_s32fc_x2_rotator_32fc((lv_32fc_t*)_in->readBuf, (lv_32fc_t*)_in->readBuf, phaseDelta, &inPhase, count);
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for (int i = 0; i < count; i++) {
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out.writeBuf[i] = _in->readBuf[i] - offset;
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offset = offset + (out.writeBuf[i] * correctionRate);
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}
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volk_32fc_s32fc_x2_rotator_32fc((lv_32fc_t*)out.writeBuf, (lv_32fc_t*)out.writeBuf, phaseDeltaConj, &outPhase, count);
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_in->flush();
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if (!out.swap(count)) { return -1; }
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return count;
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}
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stream<complex_t> out;
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private:
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stream<complex_t>* _in;
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complex_t offset = {0, 0};
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lv_32fc_t inPhase = {1, 0};
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lv_32fc_t outPhase = {4, 0};
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lv_32fc_t phaseDelta;
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lv_32fc_t phaseDeltaConj;
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float _offset;
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float _sampleRate;
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float correctionRate;
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};
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}
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@ -271,37 +271,125 @@ namespace dsp {
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};
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class NotchWindow : public filter_window::generic_window {
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// class NotchWindow : public filter_window::generic_complex_window {
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// public:
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// NotchWindow() {}
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// NotchWindow(float frequency, float width, float sampleRate, int tapCount) { init(frequency, width, sampleRate, tapCount); }
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// ~NotchWindow() {
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// if (fft_in) { fftwf_free(fft_in); }
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// if (fft_out) { fftwf_free(fft_out); }
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// fftwf_destroy_plan(fft_plan);
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// }
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// void init(float frequency, float width, float sampleRate, int tapCount) {
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// _frequency = frequency;
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// _width = width;
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// _sampleRate = sampleRate;
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// _tapCount = tapCount;
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// // Ensure the number of taps is even
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// if (_tapCount & 1) { _tapCount++; }
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// fft_in = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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// fft_out = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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// fft_plan = fftwf_plan_dft_1d(_tapCount, (fftwf_complex*)fft_in, (fftwf_complex*)fft_out, FFTW_BACKWARD, FFTW_ESTIMATE);
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// }
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// void setFrequency(float frequency) {
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// _frequency = frequency;
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// }
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// void setWidth(float width) {
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// _width = width;
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// }
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// void setSampleRate(float sampleRate) {
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// _sampleRate = sampleRate;
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// }
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// void setTapCount(int count) {
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// _tapCount = count;
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// // Ensure the number of taps is even
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// // Free buffers
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// if (fft_in) { fftwf_free(fft_in); }
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// if (fft_out) { fftwf_free(fft_out); }
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// fftwf_destroy_plan(fft_plan);
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// // Reallocate
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// fft_in = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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// fft_out = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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// // Create new plan
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// fft_plan = fftwf_plan_dft_1d(_tapCount, (fftwf_complex*)fft_in, (fftwf_complex*)fft_out, FFTW_BACKWARD, FFTW_ESTIMATE);
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// }
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// int getTapCount() {
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// return _tapCount;
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// }
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// void createTaps(complex_t* taps, int tapCount, float factor = 1.0f) {
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// float ratio = _sampleRate / (float)tapCount;
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// int thalf = tapCount / 2;
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// float start = _frequency - (_width / 2.0f);
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// float stop = _frequency + (_width / 2.0f);
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// // Fill taps
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// float freq;
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// float pratio = 2.0f * FL_M_PI / (float)tapCount;
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// complex_t phaseDiff = {cosf(pratio), -sinf(pratio)};
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// complex_t phasor = {1, 0};
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// for (int i = 0; i < tapCount; i++) {
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// freq = (i < thalf) ? ((float)i * ratio) : -((float)(tapCount - i) * ratio);
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// if (freq >= start && freq <= stop) {
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// fft_in[i] = {0, 0};
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// }
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// else {
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// fft_in[i] = phasor;
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// }
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// phasor = phasor * phaseDiff;
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// }
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// // Run IFFT
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// fftwf_execute(fft_plan);
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// // Apply window and copy to output
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// for (int i = 0; i < tapCount; i++) {
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// taps[tapCount - i - 1] = fft_out[i] / (float)tapCount;
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// }
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// }
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// private:
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// complex_t* fft_in = NULL;
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// complex_t* fft_out = NULL;
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// float _frequency, _width, _sampleRate;
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// int _tapCount;
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// fftwf_plan fft_plan;
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// };
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class NotchWindow : public filter_window::generic_complex_window {
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public:
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NotchWindow() {}
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NotchWindow(float frequency, float width, float sampleRate, int tapCount) { init(frequency, width, sampleRate, tapCount); }
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~NotchWindow() {
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if (fft_in) { fftwf_free(fft_in); }
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if (fft_out) { fftwf_free(fft_out); }
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fftwf_destroy_plan(fft_plan);
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}
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void init(float frequency, float width, float sampleRate, int tapCount) {
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_frequency = frequency;
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_width = width;
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_sampleRate = sampleRate;
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_tapCount = _tapCount;
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fft_in = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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fft_out = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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fft_plan = fftwf_plan_dft_1d(_tapCount, (fftwf_complex*)fft_in, (fftwf_complex*)fft_out, FFTW_BACKWARD, FFTW_ESTIMATE);
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_tapCount = tapCount;
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}
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void setFrequency(float frequency) {
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_frequency = frequency;
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}
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void setWidth(float width) {
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_width = width;
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}
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void setWidth(float width) {}
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void setSampleRate(float sampleRate) {
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_sampleRate = sampleRate;
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@ -309,31 +397,28 @@ namespace dsp {
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void setTapCount(int count) {
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_tapCount = count;
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if (fft_in) { fftwf_free(fft_in); }
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if (fft_out) { fftwf_free(fft_out); }
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fftwf_destroy_plan(fft_plan);
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fft_in = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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fft_out = (complex_t*)fftwf_malloc(_tapCount * sizeof(complex_t));
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fft_plan = fftwf_plan_dft_1d(_tapCount, (fftwf_complex*)fft_in, (fftwf_complex*)fft_out, FFTW_BACKWARD, FFTW_ESTIMATE);
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}
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int getTapCount() {
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return _tapCount;
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}
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void createTaps(float* taps, int tapCount, float factor = 1.0f) {
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void createTaps(complex_t* taps, int tapCount, float factor = 1.0f) {
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// Generate exponential decay
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float fact = 1.0f / (float)tapCount;
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for (int i = 0; i < tapCount; i++) {
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taps[tapCount - i - 1] = {expf(-fact*i) * (float)window_function::blackman(i, tapCount - 1), 0};
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}
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// Frequency translate it to the right place
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lv_32fc_t phase = lv_cmake(1.0f, 0.0f);
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lv_32fc_t phaseDelta = lv_cmake(std::cos((-_frequency / _sampleRate) * 2.0f * FL_M_PI), std::sin((-_frequency / _sampleRate) * 2.0f * FL_M_PI));
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volk_32fc_s32fc_x2_rotator_32fc((lv_32fc_t*)taps, (lv_32fc_t*)taps, phaseDelta, &phase, tapCount);
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}
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private:
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complex_t* fft_in = NULL;
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complex_t* fft_out = NULL;
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float _frequency, _width, _sampleRate;
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float _frequency, _sampleRate;
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int _tapCount;
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fftwf_plan fft_plan;
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};
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}
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@ -60,10 +60,12 @@ public:
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ifChain.init(vfo->output, &ifChainOutputChanged);
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fmnr.block.init(NULL, 32);
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notch.block.init(NULL, 0.5, 0, 250000); // TODO: The rate has to depend on IF sample rate so the width is always the same
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squelch.block.init(NULL, MIN_SQUELCH);
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ifChain.add(&fmnr);
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ifChain.add(¬ch);
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ifChain.add(&squelch);
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ifChain.add(&fmnr);
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// Load configuration for and enabled all demodulators
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EventHandler<dsp::stream<dsp::stereo_t>*> _demodOutputChangeHandler;
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@ -256,9 +258,20 @@ private:
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}
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if (!_this->squelchEnabled && _this->enabled) { style::endDisabled(); }
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// // Notch filter
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// if (ImGui::Checkbox("Notch##_radio_notch_ena_", &_this->notchEnabled)) {
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// _this->ifChain.setState(&_this->notch, _this->notchEnabled);
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// }
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// if (ImGui::SliderFloat(("NF##_radio_notch_freq_" + _this->name).c_str(), &_this->notchPos, -7500, 7500)) {
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// _this->notch.block.setOffset(_this->notchPos);
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// }
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// if (ImGui::SliderFloat(("NW##_radio_notch_width_" + _this->name).c_str(), &_this->notchWidth, 0, 1000)) {
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// // TODO: Implement
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// }
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// FM IF Noise Reduction
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if (_this->FMIFNRAllowed) {
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if (ImGui::Checkbox("IF Noise Reduction##_radio_fmifnr_ena_", &_this->FMIFNREnabled)) {
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if (ImGui::Checkbox(("IF Noise Reduction##_radio_fmifnr_ena_" + _this->name).c_str(), &_this->FMIFNREnabled)) {
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_this->setFMIFNREnabled(_this->FMIFNREnabled);
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}
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}
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@ -343,6 +356,9 @@ private:
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// Configure FM IF Noise Reduction
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setFMIFNREnabled(FMIFNRAllowed ? FMIFNREnabled : false);
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// Configure notch
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notch.block.setSampleRate(selectedDemod->getIFSampleRate());
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// Configure squelch
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squelch.block.setLevel(squelchLevel);
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setSquelchEnabled(squelchEnabled);
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@ -550,6 +566,7 @@ private:
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// IF chain
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dsp::Chain<dsp::complex_t> ifChain;
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dsp::ChainLink<dsp::FMIFNoiseReduction, dsp::complex_t> fmnr;
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dsp::ChainLink<dsp::NotchFilter, dsp::complex_t> notch;
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dsp::ChainLink<dsp::Squelch, dsp::complex_t> squelch;
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// Audio chain
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@ -579,6 +596,10 @@ private:
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bool FMIFNRAllowed;
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bool FMIFNREnabled = false;
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bool notchEnabled = false;
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float notchPos = 0;
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float notchWidth = 500;
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const double MIN_SQUELCH = -100.0;
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const double MAX_SQUELCH = 0.0;
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