new polyphase IIR oversampling filter

This commit is contained in:
Connor Olding 2014-06-18 05:54:19 -07:00
parent 46a4d07e58
commit 889ece8080
3 changed files with 109 additions and 17 deletions

View file

@ -10,7 +10,7 @@ LADSPA = $(BOTH)
VST = $(BOTH) delay_test
UTILS = design bench
INCLUDES = util util_def param
INCLUDES = util util_def param os6iir os2piir
BENCH_AGAINST = eq_const

View file

@ -3,7 +3,7 @@
#include "util.h"
#include "param.h"
#include "os6iir.h"
#include "os2piir.h"
#define ID 0x50F7BA11
#define LABEL "crap_tube"
@ -12,9 +12,7 @@
#define COPYRIGHT "MIT"
#define PARAMETERS 2
#define OVERSAMPLING 6
#define HIST_SIZE_2 (2 + 2*8)
#define HIST_SIZE (HIST_SIZE_2*2)
#define OVERSAMPLING 2
typedef struct {
double desired, actual, speed;
@ -22,8 +20,7 @@ typedef struct {
} smoothval;
typedef struct {
double history_L[HIST_SIZE];
double history_R[HIST_SIZE];
halfband_t hbu_L, hbu_R, hbd_L, hbd_R;
smoothval drive, wet;
} personal;
@ -62,19 +59,15 @@ process_one(double x, double drive, double wet)
static double
process_os(personal *data, double x, int right)
{
double *h0 = (!right) ? data->history_L : data->history_R;
double *h1 = h0 + HIST_SIZE_2;
halfband_t *hbu = (!right) ? &data->hbu_L : &data->hbu_R;
halfband_t *hbd = (!right) ? &data->hbd_L : &data->hbd_R;
double y;
#define doit(SAMP) \
oversample(h1, process_one(OVERSAMPLING*oversample(h0, SAMP), \
decimate(hbd, process_one(interpolate(hbu, SAMP), \
smooth(&data->drive), smooth(&data->wet)))
doit(x);
doit(0);
doit(0);
doit(0);
doit(0);
y = doit(0);
y = doit(x);
#undef doit
return y;
@ -109,8 +102,10 @@ process_double(personal *data,
static void
resume(personal *data)
{
memset(data->history_L, 0, HIST_SIZE*sizeof(double));
memset(data->history_R, 0, HIST_SIZE*sizeof(double));
memset(&data->hbu_L, 0, sizeof(halfband_t));
memset(&data->hbu_R, 0, sizeof(halfband_t));
memset(&data->hbd_L, 0, sizeof(halfband_t));
memset(&data->hbd_R, 0, sizeof(halfband_t));
}
static void

97
include/os2piir.h Normal file
View file

@ -0,0 +1,97 @@
/* halfband polyphase IIR filter
coefficients designed with halfband program:
https://gist.github.com/3be345efb6c97d757398#file-halfband-c
parameters: 16 coefficients, 0.1 transition band
stopband: ~-150dB
overall delay: ~8 samples
*/
#define copy(dst, src) memcpy(dst, src, sizeof(double)*8)
// all should be initialized to 0
typedef struct {
double ao[8], bo[8];
double at[8], bt[8];
double x1, x2, x3;
int i;
} halfband_t;
static void
halfband_a(double a[8], double ao[8], double x0, double x2)
{
a[0] = x2 + (x0 - ao[0])*0.006185967461045014;
a[1] = ao[0] + (a[0] - ao[1])*0.054230780876613788;
a[2] = ao[1] + (a[1] - ao[2])*0.143280861566087270;
a[3] = ao[2] + (a[2] - ao[3])*0.262004358403954640;
a[4] = ao[3] + (a[3] - ao[4])*0.398796973552973666;
a[5] = ao[4] + (a[4] - ao[5])*0.545323651071132232;
a[6] = ao[5] + (a[5] - ao[6])*0.698736833646440347;
a[7] = ao[6] + (a[6] - ao[7])*0.862917812650502936;
}
static void
halfband_b(double b[8], double bo[8], double x1, double x3)
{
b[0] = x3 + (x1 - bo[0])*0.024499027624721819;
b[1] = bo[0] + (b[0] - bo[1])*0.094283481125726432;
b[2] = bo[1] + (b[1] - bo[2])*0.199699579426327684;
b[3] = bo[2] + (b[2] - bo[3])*0.328772348316831664;
b[4] = bo[3] + (b[3] - bo[4])*0.471167216679969414;
b[5] = bo[4] + (b[4] - bo[5])*0.621096845120503893;
b[6] = bo[5] + (b[5] - bo[6])*0.778944517099529166;
b[7] = bo[6] + (b[6] - bo[7])*0.952428157718303137;
}
static double
halfband(halfband_t *h, double x0)
{
double a[8], b[8];
halfband_a(a, h->ao, x0, h->x2);
halfband_b(b, h->bo, h->x1, h->x3);
copy(h->ao, h->at);
copy(h->bo, h->bt);
copy(h->at, a);
copy(h->bt, b);
h->x3 = h->x2;
h->x2 = h->x1;
h->x1 = x0;
return (a[7] + b[7])*0.5;
}
static double
decimate(halfband_t *h, double x0)
{
double c[8];
if ((h->i = !h->i)) {
halfband_b(c, h->bo, x0, h->x2);
copy(h->bo, c);
h->x2 = h->x1;
h->x1 = x0;
return 0;
} else {
halfband_a(c, h->ao, x0, h->x2);
copy(h->ao, c);
h->x2 = h->x1;
h->x1 = x0;
return (c[7] + h->bo[7])*0.5;
}
}
// note: do not zero-stuff! send the input each time.
static double
interpolate(halfband_t *h, double x0)
{
double c[8];
if ((h->i = !h->i)) {
halfband_a(c, h->ao, x0, h->x1);
copy(h->ao, c);
return c[7];
} else {
halfband_b(c, h->bo, x0, h->x1);
copy(h->bo, c);
h->x1 = x0;
return c[7];
}
}
#undef copy