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Experimental implementation of FDCT.

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evilsocket 2009-05-26 18:23:35 +02:00
parent 8d23b07db0
commit 0058cbc913
7 changed files with 257 additions and 76 deletions
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16
Makefile
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@ -1,9 +1,19 @@
CC = gcc
SRCDIR = src/
INCDIR = include/
CFLAGS = -I$(INCDIR) -O3 -funroll-loops -w -ffast-math -fno-stack-protector -ffunction-sections -funsafe-math-optimizations -fno-trapping-math
LFLAGS = -lm
all: all:
gcc -Wall -pedantic -o vocal main.c dsp.c utils.c -lm -O3 -funroll-loops -w -ffast-math -fno-stack-protector -ffunction-sections -funsafe-math-optimizations -fno-trapping-math $(CC) -c $(CFLAGS) $(SRCDIR)utils.c
$(CC) -c $(CFLAGS) $(SRCDIR)dsp.c
$(CC) -c $(CFLAGS) $(SRCDIR)fdct.c
$(CC) $(CFLAGS) $(LFLAGS) $(SRCDIR)main.c *.o -o voxifera
clean: clean:
rm vocal rm -f voxifera *.o
install: install:
mkdir -p /usr/local/bin mkdir -p /usr/local/bin
cp vocal /usr/local/bin cp voxifera /usr/local/bin

53
include/fdct.h Normal file
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@ -0,0 +1,53 @@
/***************************************************************************
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
***************************************************************************/
// Very fast DCT (discrete cosine transform) implementation based on IEEE signal proc, 1992 #8 .
#include <stdio.h>
#include <math.h>
#include <stdlib.h>
#define FDCT_TOTSIZE 16384 /* !!! QUESTA È LA GRANDEZZA DEL BUFFER --DEVE-- ESSERE UNA POTENZA DI 2 !!! */
#define FDCT_POW 14 /* ln( FDCT_TOTSIZE ) */
#define FDCT_TSO2 8192 /* FDCT_TOTSIZE / 2 */
#define FDCT_TSO4 4096 /* FDCT_TOTSIZE / 4 */
#define FDCT_2OTS 0.00012207 /* 2 / FDCT_TOTSIZE */
#define FDCT_2OTS_SQ 0.011048543 /* sqrt( 2 / FDCT_TOTSIZE ) */
#define FDCT_FACTOR 0.7071067814
// fast DCT main structure
typedef struct {
double * transform;
double * ctable;
}
fdct_t;
// initialize the structure with data
void fdct_init( fdct_t *dct, unsigned char *data );
// reverse data 'til size-th byte
inline void fdct_bitrev( double *data, unsigned int size );
// complete data reversing
inline void fdct_scramble( double *data );
// compute cosine coefficents
inline void fdct_butterflies( fdct_t *dct );
// compute FDCT sums on data
inline void fdct_sums(double *data);
// compute FDCT
inline void fdct_compute( fdct_t *dct );
// compute FDCT vector sum, where k is the normalizing factor and neutral an optional mask to subtract
inline double fdct_sum( fdct_t *dct, double div, unsigned char *neutral, unsigned int neutral_size );
// release FDCT structure
void fdct_release( fdct_t *dct );

0
vocal.h → include/vocal.h
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0
dsp.c → src/dsp.c
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181
src/fdct.c Normal file
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@ -0,0 +1,181 @@
/***************************************************************************
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
***************************************************************************/
#include "fdct.h"
void fdct_init( fdct_t *dct, unsigned char *data ){
int i, group, base, item, nitems;
double factor;
/* alloc transform vector and fill with data */
dct->transform = (double *)calloc( FDCT_TOTSIZE, sizeof(double) );
for( i = 0; i < FDCT_TOTSIZE; i++ ){
dct->transform[i] = (double)data[i];
}
/* alloc and fill cosines table */
dct->ctable = (double *)calloc( FDCT_TOTSIZE, sizeof(double) );
for( i = 0; i <= FDCT_TSO2 - 1; i++ ){
dct->ctable[FDCT_TSO2 + i] = 4 * i + 1;
}
for( group = 1; group <= FDCT_POW - 1; group++ ){
nitems = base = 1 << (group - 1);
factor = 1.0 * (1 << (FDCT_POW - group));
for( item = 1; item <= nitems; item++ ){
dct->ctable[base + item - 1] = factor * dct->ctable[FDCT_TSO2 + item - 1];
}
}
for( i = 1; i <= FDCT_TOTSIZE - 1; i++ ){
dct->ctable[i] = 1.0 / (2.0 * cos( dct->ctable[i] * M_PI / (2.0 * FDCT_TOTSIZE) ));
}
return dct;
}
inline void fdct_bitrev( double *data, unsigned int size ){
int i, m,
j = 1,
hsize = size >> 1;
double tmp;
if( size <= 2 ){ return; }
for( i = 1; i <= size; i++ ){
if(i < j){
tmp = data[j - 1];
data[j - 1] = data[i - 1];
data[i - 1] = tmp;
}
m = hsize;
while(j > m){
j = j - m;
m = (m + 1) >> 1;
}
j = j + m;
}
}
inline void fdct_scramble( double *data ){
double tmp;
int i, ii1, ii2;
fdct_bitrev( data, FDCT_TOTSIZE );
fdct_bitrev( &data[0], FDCT_TSO2 );
fdct_bitrev( &data[FDCT_TSO2], FDCT_TSO2);
ii1 = FDCT_TOTSIZE - 1;
ii2 = FDCT_TSO2;
for( i = 0; i <= FDCT_TSO4 - 1; i++, ii1--, ii2++ ){
tmp = data[ii1];
data[ii1] = data[ii2];
data[ii2] = tmp;
}
}
inline void fdct_butterflies( fdct_t *dct ){
int stage, ii1, ii2,
butterfly,
ngroups,
group,
wingspan,
inc,
ptr;
double cosine, value;
for( stage = FDCT_POW; stage >= 1; stage-- ){
ngroups = 1 << (FDCT_POW - stage);
wingspan = 1 << (stage - 1);
inc = wingspan << 1;
for( butterfly = 1; butterfly <= wingspan; butterfly++ ){
cosine = dct->ctable[ wingspan + butterfly - 1 ];
ptr = 0;
for( group = 1; group <= ngroups; group++ ){
ii1 = ptr + butterfly - 1;
ii2 = ii1 + wingspan;
value = dct->transform[ii2];
dct->transform[ii2] = cosine *(dct->transform[ii1] - value);
dct->transform[ii1] = dct->transform[ii1] + value;
ptr += inc;
}
}
}
}
inline void fdct_sums(double *data){
int stepsize,
stage, i,
nthreads,
thread,
step,
nsteps;
for( stage = FDCT_POW - 1; stage >= 1; stage-- ){
nthreads = 1 << (stage - 1);
stepsize = nthreads << 1;
nsteps = (1 << (FDCT_POW - stage)) - 1;
for( thread = 1; thread <= nthreads; thread++ ){
i = nthreads + thread - 1;
for( step = 1; step <= nsteps; step++ ){
data[i] += data[i + stepsize];
i += stepsize;
}
}
}
}
inline void fdct_compute( fdct_t *dct ){
int i;
fdct_scramble( dct->transform );
fdct_butterflies( dct );
fdct_bitrev( dct->transform, FDCT_TOTSIZE );
fdct_sums(dct->transform);
dct->transform[0] *= FDCT_FACTOR;
for( i = 0; i <= FDCT_TOTSIZE - 1; i++ ){
dct->transform[i] *= FDCT_2OTS_SQ;
}
}
inline double fdct_sum( fdct_t *dct, double div, unsigned char *neutral, unsigned int neutral_size ){
int i;
double sum = 0.0;
fdct_compute( dct );
if( neutral ){
for( i = 0; i < FDCT_TOTSIZE; i++ ){
sum += dct->transform[i] - neutral[i % neutral_size];
}
}
else{
for( i = 0; i < FDCT_TOTSIZE; i++ ){
sum += dct->transform[i];
}
}
return fabs(sum / div);
}
void fdct_release( fdct_t *dct ){
free(dct->ctable);
free(dct->transform);
}

83
main.c → src/main.c
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@ -16,43 +16,10 @@
***************************************************************************/ ***************************************************************************/
#include "vocal.h" #include "vocal.h"
#include "fdct.h"
typedef enum { capture, append } mode; typedef enum { capture, append } mode;
/* tabella dei fattoriali di 1/n!, dove 0 <= n < 30 */
static double ftable[] = { 0.0, 1.0, 0.5, 0.166667, 0.0416667, 0.00833333, 0.00138889, 0.000198413,
2.48016e-05, 2.75573e-06, 2.75573e-07, 2.50521e-08, 2.08768e-09, 5.17584e-10,
7.81894e-10, 4.98925e-10, 4.98955e-10, -3.46594e-09, -1.11305e-09, 9.12062e-09,
-4.75707e-10, -8.3674e-10, -1.91309e-09, 1.15948e-09, -1.28875e-09, 4.81654e-10,
-5.39409e-10, 6.73499e-10, -7.26886e-10, -8.05468e-10 };
/* intervallo in cui posizionare x */
static double offset[] = { 0.0, M_PI };
/* sviluppo in serie di Taylor della funzione coseno
*
* x : valore per cui calcolare il coseno .
* terms : numero di termini da usare nello sviluppo dove 0 <= terms < 30 e terms è un numero pari .
*/
inline double taylor_cosine( double x, int terms ) {
int i = terms,
quadrant = x * TWO_O_M_PI; /* 0, 1, 2 o 3 */
double x2, r;
/* tariamo x in modo tale che −π < x < π */
x = x - quadrant * H_M_PI;
quadrant += 1;
x = offset[ (quadrant >> 1) & 1 ] - x;
x2 = -(x*x);
/* eseguo lo sviluppo in serie */
r = ftable[i] * x2;
for( i -= 2; i > 0; i -= 2 ){
r += ftable[i];
r *= x2;
}
return r + 1;
}
void helpandusage() { void helpandusage() {
fprintf (stderr, fprintf (stderr,
"---=== BlackLight's & evilsocket's vocal recognition v.0.1b ===---\n" "---=== BlackLight's & evilsocket's vocal recognition v.0.1b ===---\n"
@ -72,10 +39,9 @@ int main (int argc, char **argv) {
char *line, *tmp, *cmd = NULL, *fname = NULL, *device = NULL; char *line, *tmp, *cmd = NULL, *fname = NULL, *device = NULL;
char **match = NULL; char **match = NULL;
double deviance; fdct_t dct;
double *neutral, *trans; double sum, deviance, value;
double value, sum = 0.0; double *neutral;
double t, v;
FILE *fp; FILE *fp;
time_t t1, t2; time_t t1, t2;
@ -98,8 +64,7 @@ int main (int argc, char **argv) {
buf = (u8*) malloc(TOTSIZE); buf = (u8*) malloc(TOTSIZE);
neutral = (double*) malloc(TOTSIZE*sizeof(double)); neutral = (double*) malloc(TOTSIZE*sizeof(double));
trans = (double*) malloc(TOTSIZE*sizeof(double)); memset(buf, 0x80, TOTSIZE );
memset(buf, 0x80, TOTSIZE);
if (!fname) { if (!fname) {
fname = (char*) malloc(0x100); fname = (char*) malloc(0x100);
@ -131,43 +96,15 @@ int main (int argc, char **argv) {
t1 = time((unsigned) NULL); t1 = time((unsigned) NULL);
/* porto fuori il loop per i = 0 così da evitare controlli su t (che dipende da i) fdct_init( &dct, buf );
* e j nel secondo loop più consistente . */
v = 0;
for( j = 0; j < TOTSIZE; ++j ){
v += buf[j];
}
v *= M_COEFF;
v -= neutral[0];
v = (v >= 0) ? v : -v;
trans[0] = log(v);
double init = buf[0];
for( i = 1; i < TOTSIZE; ++i ) {
t = M_FACTOR * i;
v = init;
/* dato che ho inizializzato v a buf[0] e sono sicuro che t != 0,
* posso partire da j = 1 . */
for( j = 1; j < TOTSIZE; ++j ){
v += buf[j] * taylor_cosine( t * j, 10 );
}
v *= M_COEFF;
v -= neutral[i];
v = (v >= 0) ? v : -v;
trans[i] = log(v);
}
free(neutral); sum = fdct_sum( &dct, 36927.96, NULL/*neutral*/, TOTSIZE );
free(buf);
fdct_release(&dct);
t2 = time((unsigned) NULL); t2 = time((unsigned) NULL);
printf ("DCT computing: done in %u seconds\n", (unsigned int) (t2-t1)); printf ("DCT computing: done in %u seconds\n", (unsigned int) (t2-t1));
for (i=0; i<TOTSIZE; i++)
sum += trans[i];
sum = exp(sum/100000.0);
free(trans);
printf ("vocal sequence successfully acquired, Fourier sum = %g\n", sum); printf ("vocal sequence successfully acquired, Fourier sum = %g\n", sum);
if (m == append) { if (m == append) {

0
utils.c → src/utils.c
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