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Consistently use FLUID_LOG macro (#443)

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This commit is contained in:
carlo-bramini 2018-10-16 18:02:27 +02:00 committed by Tom M
parent 7517c17524
commit ebc177f48f
5 changed files with 35 additions and 28 deletions
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18
src/midi/fluid_seq.c
View file

@ -117,7 +117,7 @@ new_fluid_sequencer2(int use_system_timer)
if(seq == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return NULL;
}
@ -132,7 +132,7 @@ new_fluid_sequencer2(int use_system_timer)
if(-1 == _fluid_seq_queue_init(seq, FLUID_SEQUENCER_EVENTS_MAX))
{
FLUID_FREE(seq);
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return NULL;
}
@ -144,7 +144,7 @@ new_fluid_sequencer2(int use_system_timer)
{
_fluid_seq_queue_end(seq);
FLUID_FREE(seq);
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return NULL;
}
@ -297,7 +297,7 @@ fluid_sequencer_register_client(fluid_sequencer_t *seq, const char *name,
if(client == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return FLUID_FAILED;
}
@ -305,7 +305,7 @@ fluid_sequencer_register_client(fluid_sequencer_t *seq, const char *name,
if(nameCopy == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_FREE(client);
return FLUID_FAILED;
}
@ -575,7 +575,7 @@ fluid_sequencer_set_time_scale(fluid_sequencer_t *seq, double scale)
{
if(scale <= 0)
{
fluid_log(FLUID_WARN, "sequencer: scale <= 0 : %f\n", scale);
FLUID_LOG(FLUID_WARN, "sequencer: scale <= 0 : %f\n", scale);
return;
}
@ -722,7 +722,7 @@ _fluid_seq_queue_init(fluid_sequencer_t *seq, int maxEvents)
if(seq->heap == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return -1;
}
@ -801,7 +801,7 @@ _fluid_seq_queue_pre_insert(fluid_sequencer_t *seq, fluid_event_t *evt)
if(evtentry == NULL)
{
/* should not happen */
fluid_log(FLUID_PANIC, "sequencer: no more free events\n");
FLUID_LOG(FLUID_PANIC, "sequencer: no more free events\n");
return -1;
}
@ -839,7 +839,7 @@ _fluid_seq_queue_pre_remove(fluid_sequencer_t *seq, fluid_seq_id_t src, fluid_se
if(evtentry == NULL)
{
/* should not happen */
fluid_log(FLUID_PANIC, "sequencer: no more free events\n");
FLUID_LOG(FLUID_PANIC, "sequencer: no more free events\n");
return;
}

6
src/midi/fluid_seqbind.c
View file

@ -108,7 +108,7 @@ fluid_sequencer_register_fluidsynth(fluid_sequencer_t *seq, fluid_synth_t *synth
if(seqbind == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return FLUID_FAILED;
}
@ -125,7 +125,7 @@ fluid_sequencer_register_fluidsynth(fluid_sequencer_t *seq, fluid_synth_t *synth
if(seqbind->sample_timer == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
delete_fluid_seqbind(seqbind);
return FLUID_FAILED;
}
@ -359,5 +359,3 @@ fluid_sequencer_add_midi_event_to_buffer(void *data, fluid_midi_event_t *event)
/* Schedule for sending at next call to fluid_sequencer_process */
return fluid_sequencer_send_at(seq, &evt, 0, 0);
}

24
src/rvoice/fluid_chorus.c
View file

@ -149,7 +149,7 @@ new_fluid_chorus(fluid_real_t sample_rate)
if(chorus == NULL)
{
fluid_log(FLUID_PANIC, "chorus: Out of memory");
FLUID_LOG(FLUID_PANIC, "chorus: Out of memory");
return NULL;
}
@ -191,7 +191,7 @@ new_fluid_chorus(fluid_real_t sample_rate)
if(chorus->lookup_tab == NULL)
{
fluid_log(FLUID_PANIC, "chorus: Out of memory");
FLUID_LOG(FLUID_PANIC, "chorus: Out of memory");
goto error_recovery;
}
@ -201,7 +201,7 @@ new_fluid_chorus(fluid_real_t sample_rate)
if(chorus->chorusbuf == NULL)
{
fluid_log(FLUID_PANIC, "chorus: Out of memory");
FLUID_LOG(FLUID_PANIC, "chorus: Out of memory");
goto error_recovery;
}
@ -293,32 +293,32 @@ fluid_chorus_set(fluid_chorus_t *chorus, int set, int nr, fluid_real_t level,
if(chorus->number_blocks < 0)
{
fluid_log(FLUID_WARN, "chorus: number blocks must be >=0! Setting value to 0.");
FLUID_LOG(FLUID_WARN, "chorus: number blocks must be >=0! Setting value to 0.");
chorus->number_blocks = 0;
}
else if(chorus->number_blocks > MAX_CHORUS)
{
fluid_log(FLUID_WARN, "chorus: number blocks larger than max. allowed! Setting value to %d.",
FLUID_LOG(FLUID_WARN, "chorus: number blocks larger than max. allowed! Setting value to %d.",
MAX_CHORUS);
chorus->number_blocks = MAX_CHORUS;
}
if(chorus->speed_Hz < MIN_SPEED_HZ)
{
fluid_log(FLUID_WARN, "chorus: speed is too low (min %f)! Setting value to min.",
FLUID_LOG(FLUID_WARN, "chorus: speed is too low (min %f)! Setting value to min.",
(double) MIN_SPEED_HZ);
chorus->speed_Hz = MIN_SPEED_HZ;
}
else if(chorus->speed_Hz > MAX_SPEED_HZ)
{
fluid_log(FLUID_WARN, "chorus: speed must be below %f Hz! Setting value to max.",
FLUID_LOG(FLUID_WARN, "chorus: speed must be below %f Hz! Setting value to max.",
(double) MAX_SPEED_HZ);
chorus->speed_Hz = MAX_SPEED_HZ;
}
if(chorus->depth_ms < 0.0)
{
fluid_log(FLUID_WARN, "chorus: depth must be positive! Setting value to 0.");
FLUID_LOG(FLUID_WARN, "chorus: depth must be positive! Setting value to 0.");
chorus->depth_ms = 0.0;
}
@ -326,12 +326,12 @@ fluid_chorus_set(fluid_chorus_t *chorus, int set, int nr, fluid_real_t level,
if(chorus->level < 0.0)
{
fluid_log(FLUID_WARN, "chorus: level must be positive! Setting value to 0.");
FLUID_LOG(FLUID_WARN, "chorus: level must be positive! Setting value to 0.");
chorus->level = 0.0;
}
else if(chorus->level > 10)
{
fluid_log(FLUID_WARN, "chorus: level must be < 10. A reasonable level is << 1! "
FLUID_LOG(FLUID_WARN, "chorus: level must be < 10. A reasonable level is << 1! "
"Setting it to 0.1.");
chorus->level = 0.1;
}
@ -346,7 +346,7 @@ fluid_chorus_set(fluid_chorus_t *chorus, int set, int nr, fluid_real_t level,
if(modulation_depth_samples > MAX_SAMPLES)
{
fluid_log(FLUID_WARN, "chorus: Too high depth. Setting it to max (%d).", MAX_SAMPLES);
FLUID_LOG(FLUID_WARN, "chorus: Too high depth. Setting it to max (%d).", MAX_SAMPLES);
modulation_depth_samples = MAX_SAMPLES;
// set depth to maximum to avoid spamming console with above warning
chorus->depth_ms = (modulation_depth_samples * 1000) / chorus->sample_rate;
@ -356,7 +356,7 @@ fluid_chorus_set(fluid_chorus_t *chorus, int set, int nr, fluid_real_t level,
switch(chorus->type)
{
default:
fluid_log(FLUID_WARN, "chorus: Unknown modulation type. Using sinewave.");
FLUID_LOG(FLUID_WARN, "chorus: Unknown modulation type. Using sinewave.");
chorus->type = FLUID_CHORUS_MOD_SINE;
/* fall-through */

6
src/synth/fluid_event.c
View file

@ -62,7 +62,7 @@ new_fluid_event()
if(evt == NULL)
{
fluid_log(FLUID_PANIC, "event: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "event: Out of memory\n");
return NULL;
}
@ -751,7 +751,7 @@ _fluid_evt_heap_init(int nbEvents)
if(heap == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return NULL;
}
@ -782,7 +782,7 @@ _fluid_evt_heap_init(int nbEvents)
if(heap == NULL)
{
fluid_log(FLUID_PANIC, "sequencer: Out of memory\n");
FLUID_LOG(FLUID_PANIC, "sequencer: Out of memory\n");
return NULL;
}

9
src/utils/fluidsynth_priv.h
View file

@ -322,7 +322,16 @@ do { strncpy(_dst,_src,_n); \
#define FLUID_FLUSH() fflush(stdout)
#endif
/* People who want to reduce the size of the may do this by entirely
* removing the logging system. This will cause all log messages to
* be discarded at compile time, allowing to save about 80 KiB for
* the compiled binary.
*/
#if 0
#define FLUID_LOG (void)sizeof
#else
#define FLUID_LOG fluid_log
#endif
#ifndef M_PI
#define M_PI 3.1415926535897932384626433832795