fluidsynth/test/test_synth_chorus_reverb.c

196 lines
9.8 KiB
C
Raw Normal View History

#include "test.h"
#include "fluidsynth.h"
// this test should make sure that effects change (reverb, chorus) are handled correctly
int main(void)
{
fluid_synth_t *synth;
fluid_settings_t *settings = new_fluid_settings();
double value;
int int_value;
TEST_ASSERT(settings != NULL);
/* set 2 group of effects */
TEST_SUCCESS(fluid_settings_setint(settings, "synth.effects-groups", 2));
/* set values for all reverb group */
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.room-size", 0.1));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.damp", 0.2));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.width", 0.3));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.level", 0.4));
/* set values for all chorus group */
TEST_SUCCESS(fluid_settings_setint(settings, "synth.chorus.nr", 99));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.chorus.level", 0.5));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.chorus.speed", 0.6));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.chorus.depth", 0.7));
synth = new_fluid_synth(settings);
TEST_ASSERT(synth != NULL);
/*
check that the synth is initialized with the correct values (for all reverb group)
*/
TEST_ASSERT(fluid_synth_get_reverb_group_roomsize(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.1);
TEST_ASSERT(fluid_synth_get_reverb_group_damp(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.2);
TEST_ASSERT(fluid_synth_get_reverb_group_width(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.3);
TEST_ASSERT(fluid_synth_get_reverb_group_level(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.4);
TEST_ASSERT(fluid_synth_get_chorus_group_nr(synth, -1, &int_value) == FLUID_OK);
TEST_ASSERT(int_value == 99);
TEST_ASSERT(fluid_synth_get_chorus_group_level(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.5);
TEST_ASSERT(fluid_synth_get_chorus_group_speed(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.6);
TEST_ASSERT(fluid_synth_get_chorus_group_depth(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.7);
// update the realtime settings for all reverb group and all chorus group afterward
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.room-size", 0.11));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.damp", 0.22));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.width", 0.33));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.reverb.level", 0.44));
TEST_SUCCESS(fluid_settings_setint(settings, "synth.chorus.nr", 11));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.chorus.level", 0.55));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.chorus.speed", 0.66));
TEST_SUCCESS(fluid_settings_setnum(settings, "synth.chorus.depth", 0.77));
// check that the realtime settings correctly update the values in the synth
TEST_ASSERT(fluid_synth_get_reverb_group_roomsize(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.11);
TEST_ASSERT(fluid_synth_get_reverb_group_damp(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.22);
TEST_ASSERT(fluid_synth_get_reverb_group_width(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.33);
TEST_ASSERT(fluid_synth_get_reverb_group_level(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.44);
TEST_ASSERT(fluid_synth_get_chorus_group_nr(synth, -1, &int_value) == FLUID_OK);
TEST_ASSERT(int_value == 11);
TEST_ASSERT(fluid_synth_get_chorus_group_level(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.55);
TEST_ASSERT(fluid_synth_get_chorus_group_speed(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.66);
TEST_ASSERT(fluid_synth_get_chorus_group_depth(synth, -1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.77);
/*
Set/get that the synth is initialized with the correct values for one group only
calling fx set/get API
*/
// test reverb invalid parameters range
// room size valid range: 0.0..1.0
TEST_ASSERT(fluid_synth_set_reverb_group_roomsize(synth, 0, 1.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_reverb_group_roomsize(synth, 0, -0.1) == FLUID_FAILED);
// damp valid range: 0.0..1.0
TEST_ASSERT(fluid_synth_set_reverb_group_damp(synth, 0, 1.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_reverb_group_damp(synth, 0, -0.1) == FLUID_FAILED);
// width valid range: 0.0..100.0
TEST_ASSERT(fluid_synth_set_reverb_group_width(synth, 0, 100.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_reverb_group_width(synth, 0, -0.1) == FLUID_FAILED);
// level valid range: 0.0..1.0
TEST_ASSERT(fluid_synth_set_reverb_group_level(synth, 0, 1.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_reverb_group_level(synth, 0, -0.1) == FLUID_FAILED);
// test chorus invalid parameters range
// number of chorus block valid range: 0..99
TEST_ASSERT(fluid_synth_set_chorus_group_nr(synth, 1, 100) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_chorus_group_nr(synth, 1, -1) == FLUID_FAILED);
// level valid range: 0..10
TEST_ASSERT(fluid_synth_set_chorus_group_level(synth, 0, 10.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_chorus_group_level(synth, 0, -0.1) == FLUID_FAILED);
// lfo speed valid range: 0.1..5.0
TEST_ASSERT(fluid_synth_set_chorus_group_speed(synth, 0, 5.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_chorus_group_speed(synth, 0, 0.09) == FLUID_FAILED);
// lfo depth valid range: 0..256
TEST_ASSERT(fluid_synth_set_chorus_group_depth(synth, 0, 256.1) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_chorus_group_depth(synth, 0, -0.1) == FLUID_FAILED);
// lfo wafeform type valid range: 0..1
TEST_ASSERT(fluid_synth_set_chorus_group_type(synth, 0, 2) == FLUID_FAILED);
TEST_ASSERT(fluid_synth_set_chorus_group_type(synth, 0, -1) == FLUID_FAILED);
// set a value and check if we get the same value to reverb group 0
TEST_ASSERT(fluid_synth_set_reverb_group_roomsize(synth, 0, 0.1110) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_reverb_group_damp(synth, 0, 0.2220) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_reverb_group_width(synth, 0, 0.3330) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_reverb_group_level(synth, 0, 0.4440) == FLUID_OK);
TEST_ASSERT(fluid_synth_get_reverb_group_roomsize(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.1110);
TEST_ASSERT(fluid_synth_get_reverb_group_damp(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.2220);
TEST_ASSERT(fluid_synth_get_reverb_group_width(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.3330);
TEST_ASSERT(fluid_synth_get_reverb_group_level(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.4440);
// set a value and check if we get the same value to reverb group 1
TEST_ASSERT(fluid_synth_set_reverb_group_roomsize(synth, 1, 0.1111) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_reverb_group_damp(synth, 1, 0.2221) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_reverb_group_width(synth, 1, 0.3331) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_reverb_group_level(synth, 1, 0.4441) == FLUID_OK);
TEST_ASSERT(fluid_synth_get_reverb_group_roomsize(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.1111);
TEST_ASSERT(fluid_synth_get_reverb_group_damp(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.2221);
TEST_ASSERT(fluid_synth_get_reverb_group_width(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.3331);
TEST_ASSERT(fluid_synth_get_reverb_group_level(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.4441);
// set a value and check if we get the same value to chorus group 0
TEST_ASSERT(fluid_synth_set_chorus_group_nr(synth, 0, 20) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_level(synth, 0, 0.5550) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_speed(synth, 0, 0.6660) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_depth(synth, 0, 0.7770) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_type(synth, 0, 0) == FLUID_OK);
TEST_ASSERT(fluid_synth_get_chorus_group_nr(synth, 0, &int_value) == FLUID_OK);
TEST_ASSERT(int_value == 20);
TEST_ASSERT(fluid_synth_get_chorus_group_level(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.5550);
TEST_ASSERT(fluid_synth_get_chorus_group_speed(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.6660);
TEST_ASSERT(fluid_synth_get_chorus_group_depth(synth, 0, &value) == FLUID_OK);
TEST_ASSERT(value == 0.7770);
TEST_ASSERT(fluid_synth_get_chorus_group_type(synth, 0, &int_value) == FLUID_OK);
TEST_ASSERT(int_value == 0);
// set a value and check if we get the same value to chorus group 1
TEST_ASSERT(fluid_synth_set_chorus_group_nr(synth, 1, 21) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_level(synth, 1, 0.5551) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_speed(synth, 1, 0.6661) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_depth(synth, 1, 0.7771) == FLUID_OK);
TEST_ASSERT(fluid_synth_set_chorus_group_type(synth, 1, 1) == FLUID_OK);
TEST_ASSERT(fluid_synth_get_chorus_group_nr(synth, 1, &int_value) == FLUID_OK);
TEST_ASSERT(int_value == 21);
TEST_ASSERT(fluid_synth_get_chorus_group_level(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.5551);
TEST_ASSERT(fluid_synth_get_chorus_group_speed(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.6661);
TEST_ASSERT(fluid_synth_get_chorus_group_depth(synth, 1, &value) == FLUID_OK);
TEST_ASSERT(value == 0.7771);
TEST_ASSERT(fluid_synth_get_chorus_group_type(synth, 1, &int_value) == FLUID_OK);
TEST_ASSERT(int_value == 1);
delete_fluid_synth(synth);
delete_fluid_settings(settings);
return EXIT_SUCCESS;
}