Compandor: Remove unused option for unaffected level

src/amps/dsp.c

@@ -99,7 +99,6 @@
 
 #define PI			M_PI
 
-#define COMPANDOR_0DB		1.0     /* A level of 0dBm (1.0) shall be unaccected */
 #define AMPS_MAX_DEVIATION	8000.0
 #define AMPS_MAX_MODULATION	10000.0
 #define AMPS_DBM0_DEVIATION	2900.0  /* deviation of dBm0 at 1 kHz */
@@ -195,7 +194,7 @@ int dsp_init_sender(amps_t *amps, int tolerant)
 	int half;
 
 	/* attack (3ms) and recovery time (13.5ms) according to amps specs */
-	init_compandor(&amps->cstate, 8000, 3.0, 13.5, COMPANDOR_0DB);
+	init_compandor(&amps->cstate, 8000, 3.0, 13.5);
 
 	PDEBUG_CHAN(DDSP, DEBUG_DEBUG, "Init DSP for transceiver.\n");
 

src/cnetz/dsp.c

@@ -43,7 +43,6 @@
 #define MAX_DEVIATION	4000.0
 #define MAX_MODULATION	3000.0
 #define DBM0_DEVIATION	4000.0	/* deviation of dBm0 at 1 kHz */
-#define COMPANDOR_0DB	1.0	/* A level of 0dBm (1.0) shall be unaccected */
 #define FSK_DEVIATION	(2500.0 / DBM0_DEVIATION) /* no emphasis */
 #define MAX_DISPLAY	1.4	/* something above dBm0, no emphasis */
 #define BITRATE		5280.0	/* bits per second */
@@ -151,7 +150,7 @@ int dsp_init_sender(cnetz_t *cnetz, int measure_speed, double clock_speed[2], en
 
 	/* init compandor, according to C-Netz specs, attack and recovery time
 	 * shall not exceed according to ITU G.162 */
-	init_compandor(&cnetz->cstate, 8000, 5.0, 22.5, COMPANDOR_0DB);
+	init_compandor(&cnetz->cstate, 8000, 5.0, 22.5);
 
 	/* use this filter to compensate level changes between two subsequent audio chunks */
 	RC = 1.0 / (CUT_OFF_OFFSET * 2.0 *3.14);

src/libcompandor/compandor.c

@@ -32,7 +32,7 @@
 #define EXPAND_ATTACK_FACTOR		1.145		/* about 0.57 after 6 dB step up */
 #define EXPAND_RECOVERY_FACTOR		0.753		/* about 1.51 after 6 dB step down */
 
-/* Minimum level value to keep state */
+/* Minimum level value to keep state (-60 dB) */
 #define ENVELOPE_MIN	0.001
 
 /* Maximum level, to prevent sqrt_tab to overflow */
@@ -46,7 +46,7 @@ static double sqrt_tab[10000];
  * Hopefully this is correct
  *
  */
-void init_compandor(compandor_t *state, double samplerate, double attack_ms, double recovery_ms, double unaffected_level)
+void init_compandor(compandor_t *state, double samplerate, double attack_ms, double recovery_ms)
 {
 	int i;
 
@@ -60,8 +60,6 @@ void init_compandor(compandor_t *state, double samplerate, double attack_ms, dou
 	state->c.step_down = pow(COMPRESS_RECOVERY_FACTOR, 1000.0 / recovery_ms / samplerate);
 	state->e.step_up = pow(EXPAND_ATTACK_FACTOR, 1000.0 / attack_ms / samplerate);
 	state->e.step_down = pow(EXPAND_RECOVERY_FACTOR, 1000.0 / recovery_ms / samplerate);
-	state->c.unaffected = unaffected_level;
-	state->e.unaffected = unaffected_level;
 
 	// FIXME: make global, not at instance
 	for (i = 0; i < 10000; i++)
@@ -70,19 +68,17 @@ void init_compandor(compandor_t *state, double samplerate, double attack_ms, dou
 
 void compress_audio(compandor_t *state, sample_t *samples, int num)
 {
-	double value, peak, envelope, step_up, step_down, unaffected;
+	double value, peak, envelope, step_up, step_down;
 	int i;
 
 	step_up = state->c.step_up;
 	step_down = state->c.step_down;
 	peak = state->c.peak;
 	envelope = state->c.envelope;
-	unaffected = state->c.unaffected;
 
 //	printf("envelope=%.4f\n", envelope);
 	for (i = 0; i < num; i++) {
-		/* normalize sample value to unaffected level */
-		value = *samples / unaffected;
+		value = *samples;
 
 		/* 'peak' is the level that raises directly with the signal
 		 * level, but falls with specified recovery rate. */
@@ -101,11 +97,9 @@ void compress_audio(compandor_t *state, sample_t *samples, int num)
 		if (envelope > ENVELOPE_MAX)
 			envelope = ENVELOPE_MAX;
 
-		value = value / sqrt_tab[(int)(envelope / 0.001)];
+		*samples++ = value / sqrt_tab[(int)(envelope / 0.001)];
 //if (i > 47000.0 && i < 48144)
 //printf("time=%.4f envelope=%.4fdb, value=%.4f\n", (double)i/48000.0, 20*log10(envelope), value);
-
-		*samples++ = value * unaffected;
 	}
 //exit(0);
 
@@ -115,18 +109,16 @@ void compress_audio(compandor_t *state, sample_t *samples, int num)
 
 void expand_audio(compandor_t *state, sample_t *samples, int num)
 {
-	double value, peak, envelope, step_up, step_down, unaffected;
+	double value, peak, envelope, step_up, step_down;
 	int i;
 
 	step_up = state->e.step_up;
 	step_down = state->e.step_down;
 	peak = state->e.peak;
 	envelope = state->e.envelope;
-	unaffected = state->e.unaffected;
 
 	for (i = 0; i < num; i++) {
-		/* normalize sample value to 0 DB level */
-		value = *samples / unaffected;
+		value = *samples;
 
 		/* for comments: see compress_audio() */
 		if (fabs(value) > peak)
@@ -140,9 +132,7 @@ void expand_audio(compandor_t *state, sample_t *samples, int num)
 		if (envelope < ENVELOPE_MIN)
 			envelope = ENVELOPE_MIN;
 
-		value = value * envelope;
-
-		*samples++ = value * unaffected;
+		*samples++ = value * envelope;
 	}
 
 	state->e.envelope = envelope;

src/libcompandor/compandor.h

@@ -1,14 +1,12 @@
 
 typedef struct compandor {
 	struct {
-		double	unaffected;
 		double	step_up;
 		double	step_down;
 		double	peak;
 		double	envelope;
 	} c;
 	struct {
-		double	unaffected;
 		double	step_up;
 		double	step_down;
 		double	peak;
@@ -16,7 +14,7 @@ typedef struct compandor {
 	} e;
 } compandor_t;
 
-void init_compandor(compandor_t *state, double samplerate, double attack_ms, double recovery_ms, double unaffected_level);
+void init_compandor(compandor_t *state, double samplerate, double attack_ms, double recovery_ms);
 void compress_audio(compandor_t *state, sample_t *samples, int num);
 void expand_audio(compandor_t *state, sample_t *samples, int num);
 

src/nmt/dsp.c

@@ -55,7 +55,6 @@
 #define MAX_DEVIATION		4700.0
 #define MAX_MODULATION		4055.0
 #define DBM0_DEVIATION		3000.0	/* deviation of dBm0 at 1 kHz */
-#define COMPANDOR_0DB		1.0	/* A level of 0dBm (1.0) shall be unaccected */
 #define TX_PEAK_FSK		(4200.0 / 1800.0 * 1000.0 / DBM0_DEVIATION)
 #define TX_PEAK_SUPER		(300.0 / 4015.0 * 1000.0 / DBM0_DEVIATION)
 #define BIT_RATE		1200.0
@@ -110,7 +109,7 @@ int dsp_init_sender(nmt_t *nmt, double deviation_factor)
 	int i;
 
 	/* attack (3ms) and recovery time (13.5ms) according to NMT specs */
-	init_compandor(&nmt->cstate, 8000, 3.0, 13.5, COMPANDOR_0DB);
+	init_compandor(&nmt->cstate, 8000, 3.0, 13.5);
 
 	PDEBUG_CHAN(DDSP, DEBUG_DEBUG, "Init DSP for Transceiver.\n");
 

src/r2000/dsp.c

@@ -48,7 +48,6 @@
 #define MAX_DEVIATION		2500.0
 #define MAX_MODULATION		2550.0
 #define DBM0_DEVIATION		1500.0	/* deviation of dBm0 at 1 kHz */
-#define COMPANDOR_0DB		1.0	/* A level of 0dBm (1.0) shall be unaccected */
 #define TX_PEAK_FSK		(1425.0 / 1500.0 * 1000.0 / DBM0_DEVIATION) /* with emphasis */
 #define TX_PEAK_SUPER		(300.0 / DBM0_DEVIATION) /* no emphasis */
 #define FSK_BIT_RATE		1200.0
@@ -76,7 +75,7 @@ static void super_receive_bit(void *inst, int bit, double quality, double level)
 int dsp_init_sender(r2000_t *r2000)
 {
 	/* attack (3ms) and recovery time (13.5ms) according to NMT specs */
-	init_compandor(&r2000->cstate, 8000, 3.0, 13.5, COMPANDOR_0DB);
+	init_compandor(&r2000->cstate, 8000, 3.0, 13.5);
 
 	PDEBUG_CHAN(DDSP, DEBUG_DEBUG, "Init DSP for Transceiver.\n");
 

src/test/test_compandor.c

@@ -72,7 +72,7 @@ int main(void)
 	sample_t samples[SAMPLERATE * 2];
 	int f;
 
-	init_compandor(&cstate, SAMPLERATE, ATTACK_MS, RECOVERY_MS, 1.0);
+	init_compandor(&cstate, SAMPLERATE, ATTACK_MS, RECOVERY_MS);
 
 	for (f = 0; f < 3; f++) {
 		/* -16 and -4 dB */