#include #include #include #include #include "../common/sample.h" #include "../common/compandor.h" #define level2db(level) (20 * log10(level)) #define db2level(db) pow(10, (double)db / 20.0) #define SAMPLERATE 48000 #define ATTACK_MS 15.0 #define RECOVERY_MS 15.0 #define UNAFFECTED 10000.0 static double test_frequency[3] = { 2000.0, 4000.0, 1000.0 }; static sample_t samples_4db[SAMPLERATE]; static sample_t samples_16db[SAMPLERATE]; static sample_t samples_2db[SAMPLERATE]; static sample_t samples_8db[SAMPLERATE]; static sample_t samples_0db[SAMPLERATE]; /* generate 2 samples: one with -4 dB, the other with -16 dB */ static void generate_test_sample(double test_frequency) { int i; double value; for (i = 0; i < SAMPLERATE; i++) { value = cos(2.0 * M_PI * test_frequency / (double)SAMPLERATE * i); samples_4db[i] = (int)(UNAFFECTED * value * db2level(-4)); samples_16db[i] = (int)(UNAFFECTED * value * db2level(-16)); samples_2db[i] = (int)(UNAFFECTED * value * db2level(-2)); samples_8db[i] = (int)(UNAFFECTED * value * db2level(-8)); samples_0db[i] = (int)(UNAFFECTED * value); } } static void check_level(sample_t *samples, double duration, const char *desc, double target_db) { int i; int last = 0, envelop = 0; int up = 0; double factor; int when = (int)((double)SAMPLERATE + (double)SAMPLERATE * duration / 1000.0 + 0.5); for (i = 0; i < when; i++) { if (last < samples[i]) { up = 1; } else if (last > samples[i]) { if (up) { envelop = last; } up = 0; } #if 0 if (i >= (SAMPLERATE-(SAMPLERATE/100)) && (i % (SAMPLERATE/(SAMPLERATE/10))) == 0) printf("%s: envelop = %.4f (when=%d)\n", desc, level2db((double)envelop / UNAFFECTED), i); #endif last = samples[i]; } factor = (envelop / UNAFFECTED) / db2level(target_db); printf("%s: envelop after the instance of %.1f ms is %.4f db factor =%.4f\n", desc, duration, level2db((double)envelop / UNAFFECTED), factor); } int main(void) { compandor_t cstate; sample_t samples[SAMPLERATE * 2]; int f; init_compandor(&cstate, SAMPLERATE, ATTACK_MS, RECOVERY_MS, UNAFFECTED); for (f = 0; f < 3; f++) { /* -16 and -4 dB */ generate_test_sample(test_frequency[f]); /* low to high transition */ memcpy(samples, samples_16db, SAMPLERATE * 2); memcpy(samples + SAMPLERATE, samples_4db, SAMPLERATE * 2); compress_audio(&cstate, samples, SAMPLERATE * 2); check_level(samples, ATTACK_MS, "compressor attack", -2.0); /* high to low transition */ memcpy(samples, samples_4db, SAMPLERATE * 2); memcpy(samples + SAMPLERATE, samples_16db, SAMPLERATE * 2); compress_audio(&cstate, samples, SAMPLERATE * 2); check_level(samples, RECOVERY_MS, "compressor recovery", -8.0); /* low to high transition */ memcpy(samples, samples_8db, SAMPLERATE * 2); memcpy(samples + SAMPLERATE, samples_2db, SAMPLERATE * 2); expand_audio(&cstate, samples, SAMPLERATE * 2); check_level(samples, ATTACK_MS, "expander attack", -4.0); /* high to low transition */ memcpy(samples, samples_2db, SAMPLERATE * 2); memcpy(samples + SAMPLERATE, samples_8db, SAMPLERATE * 2); expand_audio(&cstate, samples, SAMPLERATE * 2); check_level(samples, RECOVERY_MS, "expander recovery", -16.0); /* 0 DB */ memcpy(samples, samples_0db, SAMPLERATE * 2); memcpy(samples + SAMPLERATE, samples_0db, SAMPLERATE * 2); check_level(samples, RECOVERY_MS, "unaffected level", 0.0); puts(""); } return 0; }