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elliptical_hp.c
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elliptical_hp.c
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#include <ladspa.h>
#define _GNU_SOURCE
#include <math.h>
#include <stdlib.h>
#include "ellip_coeff.h"
/*
*
* Transfer function for a single biquad filter
*
* 1/a0*(b0 + b1*z^-1 + b2*z^-2)
* Hhp_stage(z) = ---------------------------------------
* 1 + (a1/a0)*z^-1 + (a2/a0)*z^-2
*
* b0 = K^2*cn0 + 1
* b1 = 2 - 2*K^2*cn0
* b2 = b0
* a0 = K*cd1 + K^2*cd0 + 1
* a1 = 2 - 2*K^2*cd0
* a2 = -K*cd1 + K^2*cd0 + 1
*
* omega = 2 * pi * fc / fs
* K = 1/tan(omega/2)
*/
enum {
PORT_IN,
PORT_OUT,
PORT_FREQUENCY,
PORT_NPORTS
};
typedef struct {
double m_z[3];
double m_a1;
double m_a2;
double m_b0;
double m_b1;
double m_b2;
} BQ_Data;
static void BQ_init( BQ_Data *bq)
{
bq->m_z[1] = 0.0;
bq->m_z[2] = 0.0;
}
static void BQ_set( BQ_Data *bq, double K, ec_stage *ec)
{
double cd1 = ec->cden1;
double cd0 = ec->cden0;
double cn0 = ec->cnum0;
double K2 = K*K;
double a0 = K*cd1 + K2*cd0 + 1.0;
double a1 = 2.0 - 2.0*K2*cd0;
double a2 = -K*cd1 + K2*cd0 + 1.0;
double b0 = K2*cn0 + 1.0;
double b1 = 2.0 - 2.0*K2*cn0;
double b2 = b0;
bq->m_a1 = a1/a0;
bq->m_a2 = a2/a0;
bq->m_b0 = b0/a0;
bq->m_b1 = b1/a0;
bq->m_b2 = b2/a0;
}
static double BQ_eval(BQ_Data *bq, double x)
{
bq->m_z[0] = x - bq->m_a1*bq->m_z[1] - bq->m_a2*bq->m_z[2];
double y = bq->m_b0*bq->m_z[0] + bq->m_b1*bq->m_z[1]
+ bq->m_b2*bq->m_z[2];
bq->m_z[2] = bq->m_z[1];
bq->m_z[1] = bq->m_z[0];
return y;
}
typedef struct {
LADSPA_Data m_sample_rate;
LADSPA_Data *m_pport[PORT_NPORTS];
BQ_Data m_bqs[N_STAGES];
} Ellip_HP_Data;
static void Ellip_HP_set( Ellip_HP_Data *ed, double K)
{
for(int i=0;i<N_STAGES;i++){
BQ_set(&ed->m_bqs[i], K, &ec_stages[i]);
}
}
static LADSPA_Data Ellip_HP_eval(
Ellip_HP_Data *ed,
LADSPA_Data x)
{
double a = x;
for(int i=0;i<N_STAGES;i++){
a = BQ_eval(&ed->m_bqs[i], a);
}
a *= ec_gain;
return (LADSPA_Data)a;
}
static LADSPA_Handle Ellip_HP_instantiate(
const struct _LADSPA_Descriptor *p_pDescriptor,
unsigned long p_sample_rate)
{
Ellip_HP_Data *l_pEllip_HP = malloc( sizeof(Ellip_HP_Data) );
if(l_pEllip_HP){
l_pEllip_HP->m_sample_rate = (float)p_sample_rate;
for(int i=0;i<N_STAGES;i++){
BQ_init(&l_pEllip_HP->m_bqs[i]);
}
}
return (LADSPA_Handle)l_pEllip_HP;
}
static void Ellip_HP_connect_port(
LADSPA_Handle p_pInstance,
unsigned long p_port,
LADSPA_Data *p_pdata)
{
Ellip_HP_Data *l_pEllip_HP = (Ellip_HP_Data*)p_pInstance;
l_pEllip_HP->m_pport[p_port] = p_pdata;
}
static void Ellip_HP_run(
LADSPA_Handle p_pInstance,
unsigned long p_sample_count)
{
Ellip_HP_Data *l_pEllip_HP = (Ellip_HP_Data*)p_pInstance;
LADSPA_Data *l_psrc = l_pEllip_HP->m_pport[PORT_IN];
LADSPA_Data *l_pdst = l_pEllip_HP->m_pport[PORT_OUT];
LADSPA_Data *l_psrc_end = l_psrc + p_sample_count;
LADSPA_Data l_omega = 2.0f*M_PIf* *l_pEllip_HP->m_pport[PORT_FREQUENCY];
l_omega /= l_pEllip_HP->m_sample_rate;
double l_K = 1.0/tan((double)l_omega/2.0);
Ellip_HP_set(l_pEllip_HP, l_K);
for(;l_psrc!=l_psrc_end;l_psrc++,l_pdst++){
*l_pdst = Ellip_HP_eval(l_pEllip_HP, *l_psrc);
}
}
static void Ellip_HP_cleanup( LADSPA_Handle p_pInstance )
{
free( p_pInstance );
}
static LADSPA_PortDescriptor Ellip_HP_PortDescriptors[]=
{
LADSPA_PORT_INPUT | LADSPA_PORT_AUDIO,
LADSPA_PORT_OUTPUT | LADSPA_PORT_AUDIO,
LADSPA_PORT_INPUT | LADSPA_PORT_CONTROL
};
static const char *Ellip_HP_PortNames[]=
{
"Input",
"Output",
"Frequency(Hertz)"
};
static LADSPA_PortRangeHint Ellip_HP_PortRangeHints[]=
{
{0,0.0f,0.0f},
{0,0.0f,0.0f},
{LADSPA_HINT_BOUNDED_BELOW | LADSPA_HINT_BOUNDED_ABOVE |
LADSPA_HINT_LOGARITHMIC|LADSPA_HINT_DEFAULT_MIDDLE,
10.0f,20.0e3f}
};
LADSPA_Descriptor Ellip_HP_Descriptor=
{
5831,
"Ellip_HP",
LADSPA_PROPERTY_HARD_RT_CAPABLE,
"Elliptical High Pass",
"Timothy William Krause",
"None",
PORT_NPORTS,
Ellip_HP_PortDescriptors,
Ellip_HP_PortNames,
Ellip_HP_PortRangeHints,
NULL,
Ellip_HP_instantiate,
Ellip_HP_connect_port,
NULL,
Ellip_HP_run,
NULL,
NULL,
NULL,
Ellip_HP_cleanup
};