ref: a7639e57d9ba60b4eab83a0658816b15f7c7699d
dir: /test/t/t_sdelay.c/
#include "soundpipe.h"
#include "md5.h"
#include "tap.h"
#include "test.h"
typedef struct {
sp_sdelay *sdelay;
sp_lpf18 *filt1;
sp_lpf18 *filt2;
sp_metro *met;
} UserData;
int t_sdelay(sp_test *tst, sp_data *sp, const char *hash)
{
uint32_t n;
int fail = 0;
SPFLOAT met = 0, sdelay = 0;
SPFLOAT filt1 = 0, filt2 = 0;
sp_srand(sp, 1234567);
UserData ud;
sp_sdelay_create(&ud.sdelay);
sp_metro_create(&ud.met);
sp_lpf18_create(&ud.filt1);
sp_lpf18_create(&ud.filt2);
sp_sdelay_init(sp, ud.sdelay, 2000);
sp_metro_init(sp, ud.met);
ud.met->freq = 2;
sp_lpf18_init(sp, ud.filt1);
ud.filt1->cutoff = 4000;
ud.filt1->res = 0.8;
sp_lpf18_init(sp, ud.filt2);
ud.filt2->cutoff = 500;
ud.filt2->res = 0.8;
for(n = 0; n < tst->size; n++) {
met = 0;
sdelay = 0;
filt1 = 0;
filt2 = 0;
sp_metro_compute(sp, ud.met, NULL, &met);
sp_sdelay_compute(sp, ud.sdelay, &met, &sdelay);
sp_lpf18_compute(sp, ud.filt1, &met, &filt1);
sp_lpf18_compute(sp, ud.filt2, &sdelay, &filt2);
sp->out[0] = filt1 + filt2;
sp_test_add_sample(tst, sp->out[0]);
}
fail = sp_test_verify(tst, hash);
sp_sdelay_destroy(&ud.sdelay);
sp_metro_destroy(&ud.met);
sp_lpf18_destroy(&ud.filt1);
sp_lpf18_destroy(&ud.filt2);
if(fail) return SP_NOT_OK;
/* fail by default */
else return SP_OK;
}