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|
/* $OpenBSD: dsp.c,v 1.1 2012/11/23 07:03:28 ratchov Exp $ */
/*
* Copyright (c) 2008-2012 Alexandre Ratchov <alex@caoua.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <string.h>
#include "defs.h"
#include "dsp.h"
#include "utils.h"
int aparams_ctltovol[128] = {
0,
256, 266, 276, 287, 299, 310, 323, 335,
348, 362, 376, 391, 406, 422, 439, 456,
474, 493, 512, 532, 553, 575, 597, 621,
645, 670, 697, 724, 753, 782, 813, 845,
878, 912, 948, 985, 1024, 1064, 1106, 1149,
1195, 1241, 1290, 1341, 1393, 1448, 1505, 1564,
1625, 1689, 1756, 1825, 1896, 1971, 2048, 2128,
2212, 2299, 2389, 2483, 2580, 2682, 2787, 2896,
3010, 3128, 3251, 3379, 3511, 3649, 3792, 3941,
4096, 4257, 4424, 4598, 4778, 4966, 5161, 5363,
5574, 5793, 6020, 6256, 6502, 6757, 7023, 7298,
7585, 7883, 8192, 8514, 8848, 9195, 9556, 9931,
10321, 10726, 11148, 11585, 12040, 12513, 13004, 13515,
14045, 14596, 15170, 15765, 16384, 17027, 17696, 18390,
19112, 19863, 20643, 21453, 22295, 23170, 24080, 25025,
26008, 27029, 28090, 29193, 30339, 31530, 32768
};
/*
* Generate a string corresponding to the encoding in par,
* return the length of the resulting string.
*/
int
aparams_enctostr(struct aparams *par, char *ostr)
{
char *p = ostr;
*p++ = par->sig ? 's' : 'u';
if (par->bits > 9)
*p++ = '0' + par->bits / 10;
*p++ = '0' + par->bits % 10;
if (par->bps > 1) {
*p++ = par->le ? 'l' : 'b';
*p++ = 'e';
if (par->bps != APARAMS_BPS(par->bits) ||
par->bits < par->bps * 8) {
*p++ = par->bps + '0';
if (par->bits < par->bps * 8) {
*p++ = par->msb ? 'm' : 'l';
*p++ = 's';
*p++ = 'b';
}
}
}
*p++ = '\0';
return p - ostr - 1;
}
/*
* Parse an encoding string, examples: s8, u8, s16, s16le, s24be ...
* set *istr to the char following the encoding. Return the number
* of bytes consumed.
*/
int
aparams_strtoenc(struct aparams *par, char *istr)
{
char *p = istr;
int i, sig, bits, le, bps, msb;
#define IS_SEP(c) \
(((c) < 'a' || (c) > 'z') && \
((c) < 'A' || (c) > 'Z') && \
((c) < '0' || (c) > '9'))
/*
* get signedness
*/
if (*p == 's') {
sig = 1;
} else if (*p == 'u') {
sig = 0;
} else
return 0;
p++;
/*
* get number of bits per sample
*/
bits = 0;
for (i = 0; i < 2; i++) {
if (*p < '0' || *p > '9')
break;
bits = (bits * 10) + *p - '0';
p++;
}
if (bits < BITS_MIN || bits > BITS_MAX)
return 0;
bps = APARAMS_BPS(bits);
msb = 1;
le = ADATA_LE;
/*
* get (optional) endianness
*/
if (p[0] == 'l' && p[1] == 'e') {
le = 1;
p += 2;
} else if (p[0] == 'b' && p[1] == 'e') {
le = 0;
p += 2;
} else if (IS_SEP(*p)) {
goto done;
} else
return 0;
/*
* get (optional) number of bytes
*/
if (*p >= '0' && *p <= '9') {
bps = *p - '0';
if (bps < (bits + 7) / 8 ||
bps > (BITS_MAX + 7) / 8)
return 0;
p++;
/*
* get (optional) alignement
*/
if (p[0] == 'm' && p[1] == 's' && p[2] == 'b') {
msb = 1;
p += 3;
} else if (p[0] == 'l' && p[1] == 's' && p[2] == 'b') {
msb = 0;
p += 3;
} else if (IS_SEP(*p)) {
goto done;
} else
return 0;
} else if (!IS_SEP(*p))
return 0;
done:
par->msb = msb;
par->sig = sig;
par->bits = bits;
par->bps = bps;
par->le = le;
return p - istr;
}
/*
* Initialise parameters structure with the defaults natively supported
* by the machine.
*/
void
aparams_init(struct aparams *par)
{
par->bps = sizeof(adata_t);
par->bits = ADATA_BITS;
par->le = ADATA_LE;
par->sig = 1;
par->msb = 0;
}
/*
* log the given format/channels/encoding
*/
void
aparams_log(struct aparams *par)
{
char enc[ENCMAX];
aparams_enctostr(par, enc);
log_puts(enc);
}
/*
* return true if encoding corresponds to what we store in adata_t
*/
int
aparams_native(struct aparams *par)
{
return par->bps == sizeof(adata_t) && par->bits == ADATA_BITS &&
(par->bps == 1 || par->le == ADATA_LE) &&
(par->bits == par->bps * 8 || !par->msb);
}
/*
* resample the given number of frames
*/
int
resamp_do(struct resamp *p, adata_t *in, adata_t *out, int todo)
{
unsigned int nch;
adata_t *idata;
unsigned int oblksz;
unsigned int ifr;
int s, ds, diff;
adata_t *odata;
unsigned int iblksz;
unsigned int ofr;
unsigned int c;
adata_t *ctxbuf, *ctx;
unsigned int ctx_start;
/*
* Partially copy structures into local variables, to avoid
* unnecessary indirections; this also allows the compiler to
* order local variables more "cache-friendly".
*/
idata = in;
odata = out;
diff = p->diff;
iblksz = p->iblksz;
oblksz = p->oblksz;
ctxbuf = p->ctx;
ctx_start = p->ctx_start;
nch = p->nch;
ifr = todo;
ofr = oblksz;
/*
* Start conversion.
*/
#ifdef DEBUG
if (log_level >= 4) {
log_puts("resamp: copying ");
log_puti(todo);
log_puts(" frames, diff = ");
log_putu(diff);
log_puts("\n");
}
#endif
for (;;) {
if (diff < 0) {
if (ifr == 0)
break;
ctx_start ^= 1;
ctx = ctxbuf + ctx_start;
for (c = nch; c > 0; c--) {
*ctx = *idata++;
ctx += RESAMP_NCTX;
}
diff += oblksz;
ifr--;
} else if (diff > 0) {
if (ofr == 0)
break;
ctx = ctxbuf;
for (c = nch; c > 0; c--) {
s = ctx[ctx_start];
ds = ctx[ctx_start ^ 1] - s;
ctx += RESAMP_NCTX;
*odata++ = s + ADATA_MULDIV(ds, diff, oblksz);
}
diff -= iblksz;
ofr--;
} else {
if (ifr == 0 || ofr == 0)
break;
ctx = ctxbuf + ctx_start;
for (c = nch; c > 0; c--) {
*odata++ = *ctx;
ctx += RESAMP_NCTX;
}
ctx_start ^= 1;
ctx = ctxbuf + ctx_start;
for (c = nch; c > 0; c--) {
*ctx = *idata++;
ctx += RESAMP_NCTX;
}
diff -= iblksz;
diff += oblksz;
ifr--;
ofr--;
}
}
p->diff = diff;
p->ctx_start = ctx_start;
return oblksz - ofr;
}
/*
* initialize resampler with ibufsz/obufsz factor and "nch" channels
*/
void
resamp_init(struct resamp *p, unsigned int iblksz, unsigned int oblksz, int nch)
{
unsigned int i;
p->iblksz = iblksz;
p->oblksz = oblksz;
p->diff = 0;
p->idelta = 0;
p->odelta = 0;
p->nch = nch;
p->ctx_start = 0;
for (i = 0; i < NCHAN_MAX * RESAMP_NCTX; i++)
p->ctx[i] = 0;
#ifdef DEBUG
if (log_level >= 3) {
log_puts("resamp: ");
log_putu(iblksz);
log_puts("/");
log_putu(oblksz);
log_puts("\n");
}
#endif
}
/*
* encode "todo" frames from native to foreign encoding
*/
void
enc_do(struct conv *p, unsigned char *in, unsigned char *out, int todo)
{
unsigned int f;
adata_t *idata;
int s;
unsigned int oshift;
int osigbit;
unsigned int obps;
unsigned int i;
unsigned char *odata;
int obnext;
int osnext;
#ifdef DEBUG
if (log_level >= 4) {
log_puts("enc: copying ");
log_putu(todo);
log_puts(" frames\n");
}
#endif
/*
* Partially copy structures into local variables, to avoid
* unnecessary indirections; this also allows the compiler to
* order local variables more "cache-friendly".
*/
idata = (adata_t *)in;
odata = out;
oshift = p->shift;
osigbit = p->sigbit;
obps = p->bps;
obnext = p->bnext;
osnext = p->snext;
/*
* Start conversion.
*/
odata += p->bfirst;
for (f = todo * p->nch; f > 0; f--) {
s = *idata++;
s <<= 32 - ADATA_BITS;
s >>= oshift;
s ^= osigbit;
for (i = obps; i > 0; i--) {
*odata = (unsigned char)s;
s >>= 8;
odata += obnext;
}
odata += osnext;
}
}
/*
* store "todo" frames of silence in foreign encoding
*/
void
enc_sil_do(struct conv *p, unsigned char *out, int todo)
{
unsigned int f;
int s;
int osigbit;
unsigned int obps;
unsigned int i;
unsigned char *odata;
int obnext;
int osnext;
#ifdef DEBUG
if (log_level >= 4) {
log_puts("enc: silence ");
log_putu(todo);
log_puts(" frames\n");
}
#endif
/*
* Partially copy structures into local variables, to avoid
* unnecessary indirections; this also allows the compiler to
* order local variables more "cache-friendly".
*/
odata = out;
osigbit = p->sigbit;
obps = p->bps;
obnext = p->bnext;
osnext = p->snext;
/*
* Start conversion.
*/
odata += p->bfirst;
for (f = todo * p->nch; f > 0; f--) {
s = osigbit;
for (i = obps; i > 0; i--) {
*odata = (unsigned char)s;
s >>= 8;
odata += obnext;
}
odata += osnext;
}
}
/*
* initialize encoder from native to foreign encoding
*/
void
enc_init(struct conv *p, struct aparams *par, int nch)
{
p->nch = nch;
p->bps = par->bps;
p->sigbit = par->sig ? 0 : 1 << (par->bits - 1);
if (par->msb) {
p->shift = 32 - par->bps * 8;
} else {
p->shift = 32 - par->bits;
}
if (!par->le) {
p->bfirst = par->bps - 1;
p->bnext = -1;
p->snext = 2 * par->bps;
} else {
p->bfirst = 0;
p->bnext = 1;
p->snext = 0;
}
#ifdef DEBUG
if (log_level >= 3) {
log_puts("enc: ");
aparams_log(par);
log_puts(", ");
log_puti(p->nch);
log_puts(" channels\n");
}
#endif
}
/*
* decode "todo" frames from from foreign to native encoding
*/
void
dec_do(struct conv *p, unsigned char *in, unsigned char *out, int todo)
{
unsigned int f;
unsigned int ibps;
unsigned int i;
int s = 0xdeadbeef;
unsigned char *idata;
int ibnext;
int isnext;
int isigbit;
unsigned int ishift;
adata_t *odata;
#ifdef DEBUG
if (log_level >= 4) {
log_puts("dec: copying ");
log_putu(todo);
log_puts(" frames\n");
}
#endif
/*
* Partially copy structures into local variables, to avoid
* unnecessary indirections; this also allows the compiler to
* order local variables more "cache-friendly".
*/
idata = in;
odata = (adata_t *)out;
ibps = p->bps;
ibnext = p->bnext;
isigbit = p->sigbit;
ishift = p->shift;
isnext = p->snext;
/*
* Start conversion.
*/
idata += p->bfirst;
for (f = todo * p->nch; f > 0; f--) {
for (i = ibps; i > 0; i--) {
s <<= 8;
s |= *idata;
idata += ibnext;
}
idata += isnext;
s ^= isigbit;
s <<= ishift;
s >>= 32 - ADATA_BITS;
*odata++ = s;
}
}
/*
* initialize decoder from foreign to native encoding
*/
void
dec_init(struct conv *p, struct aparams *par, int nch)
{
p->bps = par->bps;
p->sigbit = par->sig ? 0 : 1 << (par->bits - 1);
p->nch = nch;
if (par->msb) {
p->shift = 32 - par->bps * 8;
} else {
p->shift = 32 - par->bits;
}
if (par->le) {
p->bfirst = par->bps - 1;
p->bnext = -1;
p->snext = 2 * par->bps;
} else {
p->bfirst = 0;
p->bnext = 1;
p->snext = 0;
}
#ifdef DEBUG
if (log_level >= 3) {
log_puts("dec: ");
aparams_log(par);
log_puts(", ");
log_puti(p->nch);
log_puts(" channels\n");
}
#endif
}
/*
* mix "todo" input frames on the output with the given volume
*/
void
cmap_add(struct cmap *p, void *in, void *out, int vol, int todo)
{
adata_t *idata, *odata;
int i, j, nch, istart, inext, onext, ostart, y, v;
#ifdef DEBUG
if (log_level >= 4) {
log_puts("cmap: adding ");
log_puti(todo);
log_puts(" frames\n");
}
#endif
idata = in;
odata = out;
ostart = p->ostart;
onext = p->onext;
istart = p->istart;
inext = p->inext;
nch = p->nch;
v = vol; /* XXX */
/*
* map/mix input on the output
*/
for (i = todo; i > 0; i--) {
odata += ostart;
idata += istart;
for (j = nch; j > 0; j--) {
y = *odata + ADATA_MUL(*idata, v);
if (y >= ADATA_UNIT)
y = ADATA_UNIT - 1;
else if (y < -ADATA_UNIT)
y = -ADATA_UNIT;
*odata = y;
idata++;
odata++;
}
odata += onext;
idata += inext;
}
}
/*
* overwrite output with "todo" input frames with with the given volume
*/
void
cmap_copy(struct cmap *p, void *in, void *out, int vol, int todo)
{
adata_t *idata, *odata;
int i, j, nch, istart, inext, onext, ostart, v;
#ifdef DEBUG
if (log_level >= 4) {
log_puts("cmap: copying ");
log_puti(todo);
log_puts(" frames\n");
}
#endif
idata = in;
odata = out;
ostart = p->ostart;
onext = p->onext;
istart = p->istart;
inext = p->inext;
nch = p->nch;
v = vol;
/*
* copy to the output buffer
*/
for (i = todo; i > 0; i--) {
idata += istart;
for (j = ostart; j > 0; j--)
*odata++ = 0x1111;
for (j = nch; j > 0; j--) {
*odata = ADATA_MUL(*idata, v);
odata++;
idata++;
}
for (j = onext; j > 0; j--)
*odata++ = 0x2222;
idata += inext;
}
}
/*
* initialize channel mapper, to map a subset of input channel range
* into a subset of the output channel range
*/
void
cmap_init(struct cmap *p,
int imin, int imax, int isubmin, int isubmax,
int omin, int omax, int osubmin, int osubmax)
{
int cmin, cmax;
cmin = -NCHAN_MAX;
if (osubmin > cmin)
cmin = osubmin;
if (omin > cmin)
cmin = omin;
if (isubmin > cmin)
cmin = isubmin;
if (imin > cmin)
cmin = imin;
cmax = NCHAN_MAX;
if (osubmax < cmax)
cmax = osubmax;
if (omax < cmax)
cmax = omax;
if (isubmax < cmax)
cmax = isubmax;
if (imax < cmax)
cmax = imax;
p->ostart = cmin - omin;
p->onext = omax - cmax;
p->istart = cmin - imin;
p->inext = imax - cmax;
p->nch = cmax - cmin + 1;
#ifdef DEBUG
if (log_level >= 3) {
log_puts("cmap: nch = ");
log_puti(p->nch);
log_puts(", ostart = ");
log_puti(p->ostart);
log_puts(", onext = ");
log_puti(p->onext);
log_puts(", istart = ");
log_puti(p->istart);
log_puts(", inext= ");
log_puti(p->inext);
log_puts("\n");
}
#endif
}
/*
* produce a square tone, for instance with:
*
* period = round / (220 * round / rate)
*/
int
sqrtone(int ctx, adata_t *out, int period, int vol, int todo)
{
int i;
for (i = todo; i > 0; i--) {
if (ctx == 0) {
vol = -vol;
ctx = period / 2;
}
ctx--;
*(out++) += vol;
}
return ctx;
}
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