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https://github.com/radio95-rnt/fm95.git
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89 lines
2.9 KiB
C
89 lines
2.9 KiB
C
#include "bs412.h"
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#define BS412_TIME 60
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// inline float dbr_to_deviation(float dbr) {
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// return 19000.0f * sqrtf(pow(10.0, dbr / 10.0));
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// }
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inline float deviation_to_dbr(float deviation) {
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if (deviation < 1e-6f) return -100.0f;
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return 10*log10f((deviation*deviation)/((19000.0f / sqrtf(2.0f)) * (19000.0f / sqrtf(2.0f))));
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}
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void init_bs412(BS412Compressor* mpx, uint32_t mpx_deviation, float target_power, float attack, float release, uint32_t sample_rate) {
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mpx->mpx_deviation = mpx_deviation;
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mpx->avg_power = 0.0f;
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mpx->alpha = 1.0f / (BS412_TIME * sample_rate);
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mpx->sample_rate = sample_rate;
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mpx->attack = expf(-1.0f / (attack * sample_rate));
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mpx->release = expf(-1.0f / (release * sample_rate));
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mpx->target = deviation_to_dbr(19000.0f * pow(10.0, target_power / 10.0)); // target is expected to not be our rms format
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mpx->gain = 0.0f;
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mpx->can_compress = 0;
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mpx->second_counter = 0;
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#ifdef BS412_DEBUG
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debug_printf("Initialized MPX power measurement with sample rate: %d\n", sample_rate);
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#endif
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}
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float bs412_compress(BS412Compressor* mpx, float sample) {
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mpx->avg_power += mpx->alpha * ((sample * sample * mpx->mpx_deviation * mpx->mpx_deviation) - mpx->avg_power);
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float avg_deviation = sqrtf(mpx->avg_power);
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float modulation_power = deviation_to_dbr(avg_deviation);
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if(mpx->target <= -100.0f) {
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#ifdef BS412_DEBUG
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if(mpx->sample_counter > mpx->sample_rate) {
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debug_printf("MPX power: %.2f dBr (%.1f Hz)\n", modulation_power, avg_deviation);
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mpx->sample_counter = 0;
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}
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#endif
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mpx->sample_counter++;
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return sample;
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}
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if(mpx->sample_counter > mpx->sample_rate) {
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#ifdef BS412_DEBUG
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debug_printf("MPX power: %.2f dBr with gain %.2fx (%.2f dBr)\n", modulation_power, mpx->gain, deviation_to_dbr(avg_deviation * mpx->gain));
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#endif
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mpx->sample_counter = 0;
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if(mpx->can_compress == 0) mpx->second_counter++;
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}
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if(mpx->can_compress == 0 && mpx->second_counter > BS412_TIME) {
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#ifdef BS412_DEBUG
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debug_printf("Can compress.\n");
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#endif
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mpx->gain = powf(10.0f, (mpx->target - modulation_power) / 10.0f);
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mpx->can_compress = 1;
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}
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if(mpx->can_compress == 0) {
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mpx->sample_counter++;
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return sample;
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}
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float target_gain = powf(10.0f, (mpx->target - modulation_power) / 10.0f);
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if (modulation_power > mpx->target) {
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mpx->gain = mpx->attack * mpx->gain + (1.0f - mpx->attack) * target_gain;
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} else {
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mpx->gain = mpx->release * mpx->gain + (1.0f - mpx->release) * target_gain;
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}
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mpx->gain = fmaxf(0.0f, fminf(sqrtf(2), mpx->gain));
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float output_sample = sample * mpx->gain;
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if(deviation_to_dbr(avg_deviation * mpx->gain) > mpx->target && deviation_to_dbr(avg_deviation) < mpx->target) {
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// Gain is too much, reduce
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float overshoot_dbr = deviation_to_dbr(avg_deviation * mpx->gain) - mpx->target;
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float reduction_factor = powf(10.0f, -overshoot_dbr / 10.0f);
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mpx->gain *= reduction_factor;
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mpx->gain = fmaxf(0.0f, fminf(sqrtf(2), mpx->gain));
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}
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mpx->sample_counter++;
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return output_sample;
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}
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