45 #define LPC_FILTERORDER 10
49 #define ST_MEM_L_TBL 85
50 #define MEM_LF_TBL 147
51 #define STATE_SHORT_LEN_20MS 57
52 #define STATE_SHORT_LEN_30MS 58
54 #define BLOCKL_MAX 240
57 #define CB_HALFFILTERLEN 4
58 #define CB_FILTERLEN 8
60 #define ENH_NBLOCKS_TOT 8
62 #define ENH_BUFL (ENH_NBLOCKS_TOT)*ENH_BLOCKL
63 #define ENH_BUFL_FILTEROVERHEAD 3
64 #define BLOCKL_MAX 240
72 #define STATE_SHORT_LEN_30MS 58
73 #define STATE_SHORT_LEN_20MS 57
75 #define SPL_MUL_16_16(a, b) ((int32_t) (((int16_t)(a)) * ((int16_t)(b))))
76 #define SPL_MUL_16_16_RSFT(a, b, c) (SPL_MUL_16_16(a, b) >> (c))
168 for (j = 0; j < 48; j++)
203 for (j = 0; j < 56; j++)
276 for (k = 4; k < 6; k++) {
279 }
else if (
index[k] >= 108 &&
index[k] < 128) {
287 int i, j,
pos = 0, cb_pos = 0;
315 for (
int n = 0; n < 2; n++) {
316 for (
int m = 0; m < nb_vectors; m++) {
317 for (
int k = 0; k <
dim - 1; k++) {
320 if ((lsf[
i + 1] - lsf[
i]) < 319) {
321 if (lsf[
i + 1] < lsf[
i]) {
322 lsf[
i + 1] = lsf[
i] + 160;
323 lsf[
i] = lsf[
i + 1] - 160;
337 const int16_t *in2, int16_t coef,
340 int invcoef = 16384 - coef,
i;
343 out[
i] = (coef * in1[
i] + invcoef * in2[
i] + 8192) >> 14;
346 static void lsf2lsp(
const int16_t *lsf, int16_t *lsp,
int order)
352 for (
i = 0;
i < order;
i++) {
353 freq = (lsf[
i] * 20861) >> 15;
360 k =
FFMIN(freq >> 8, 63);
376 f[1] = lsp[0] * -1024;
378 for (
i = 2, k = 2, l = 2;
i <= 5;
i++, k += 2) {
381 for (j =
i; j > 1; j--, l--) {
382 high =
f[l - 1] >> 16;
383 low = (
f[l - 1] - (high * (1 << 16))) >> 1;
385 tmp = ((high * lsp[k]) * 4) + (((low * lsp[k]) >> 15) * 4);
388 f[l] -= (unsigned)
tmp;
391 f[l] -= lsp[k] * (1 << 10);
408 for (
i = 5;
i > 0;
i--) {
409 f[0][
i] += (unsigned)
f[0][
i - 1];
410 f[1][
i] -= (unsigned)
f[1][
i - 1];
414 for (
i = 5;
i > 0;
i--) {
415 tmp =
f[0][6 -
i] + (unsigned)
f[1][6 -
i] + 4096;
416 a[6 -
i] =
tmp >> 13;
418 tmp =
f[0][6 -
i] - (unsigned)
f[1][6 -
i] + 4096;
419 a[5 +
i] =
tmp >> 13;
424 const int16_t *lsf2,
int coef,
int length)
432 static void bw_expand(int16_t *
out,
const int16_t *in,
const int16_t *coef,
int length)
437 for (
i = 1;
i < length;
i++)
438 out[
i] = (coef[
i] * in[
i] + 16384) >> 15;
442 const int16_t *lsfdeq, int16_t length,
446 const int16_t *
const lsfdeq2 = lsfdeq + length;
447 int i,
pos, lp_length;
449 lp_length = length + 1;
453 memcpy(syntdenum, lp, lp_length * 2);
457 for (
i = 1;
i < 6;
i++) {
461 memcpy(syntdenum +
pos, lp, lp_length * 2);
467 for (
i = 0;
i <
s->nsub;
i++) {
470 memcpy(syntdenum +
pos, lp, lp_length * 2);
477 memcpy(
s->lsfdeqold, lsfdeq2, length * 2);
479 memcpy(
s->lsfdeqold, lsfdeq, length * 2);
484 const int16_t *
B, int16_t B_length,
489 for (
i = 0;
i < length;
i++) {
490 const int16_t *b_ptr = &
B[0];
491 const int16_t *x_ptr = &in_ptr[
i];
494 for (j = 0; j < B_length; j++)
495 o += b_ptr[j] * *x_ptr--;
497 o =
av_clip(o, -134217728, 134215679);
499 out_ptr[
i] = ((o + 2048) >> 12);
506 int coefficients_length,
511 for (
i = 0;
i < data_length;
i++) {
514 for (j = coefficients_length - 1; j > 0; j--) {
521 data_out[
i] = (
output + 2048) >> 12;
526 const int16_t *synt_denum, int16_t *Out_fix,
531 int16_t *tmp1, *tmp3;
553 tmp2 = &idx[
len - 1];
556 for (k = 0; k <
len; k++) {
563 }
else if (ifm < 59) {
564 for (k = 0; k <
len; k++) {
572 for (k = 0; k <
len; k++) {
582 memset(&sampleVal[
len], 0,
len * 2);
594 tmp1 = &sampleAr[
len - 1];
595 tmp2 = &sampleAr[2 *
len - 1];
597 for (k = 0; k <
len; k++) {
598 (*tmp3) = (*tmp1) + (*tmp2);
614 int length,
int shift)
616 for (
int i = 0;
i < length;
i++)
621 const int16_t *
win,
int length,
624 for (
int i = 0;
i < length;
i++)
629 const int16_t *in2,
int length,
632 for (
int i = 0;
i < length;
i++)
640 int16_t ilow =
index - interpolation_length;
658 int16_t k, base_size;
661 int16_t tempbuff2[
SUBL + 5];
664 base_size = lMem - cbveclen + 1;
666 if (cbveclen ==
SUBL) {
667 base_size += cbveclen / 2;
671 if (
index < lMem - cbveclen + 1) {
674 k =
index + cbveclen;
676 memcpy(cbvec, mem + lMem - k, cbveclen * 2);
677 }
else if (
index < base_size) {
691 if (
index - base_size < lMem - cbveclen + 1) {
695 memIndTest = lMem - (
index - base_size + cbveclen);
713 lag = (cbveclen << 1) - 20 +
index - base_size - lMem - 1;
722 const int16_t *
index,
723 const int16_t *gain_index,
729 int16_t cbvec0[
SUBL];
730 int16_t cbvec1[
SUBL];
731 int16_t cbvec2[
SUBL];
750 for (j = 0; j < veclen; j++) {
755 decvector[j] = (
int)(a32 + 8192) >> 14;
761 int16_t* destPtr = dest;
762 const int16_t *sourcePtr =
source;
765 for (j = 0; j < length; j++)
766 *destPtr-- = *sourcePtr++;
771 int16_t *decresidual,
772 const int16_t *syntdenum)
774 int16_t meml_gotten, Nfor, Nback,
diff, start_pos;
775 int16_t subcount, subframe;
776 int16_t *reverseDecresidual =
s->enh_buf;
777 int16_t *memVec =
s->prevResidual;
794 memset(mem, 0, (int16_t) (
CB_MEML -
s->state_short_len) * 2);
795 memcpy(mem +
CB_MEML -
s->state_short_len, decresidual + start_pos,
s->state_short_len * 2);
803 meml_gotten =
s->state_short_len;
805 memset(mem, 0, (int16_t) (
CB_MEML - meml_gotten) * 2);
818 Nfor =
s->nsub - encbits->
start - 1;
826 for (subframe = 0; subframe < Nfor; subframe++) {
840 Nback = encbits->
start - 1;
844 meml_gotten =
SUBL * (
s->nsub + 1 - encbits->
start);
850 memset(mem, 0, (int16_t) (
CB_MEML - meml_gotten) * 2);
853 for (subframe = 0; subframe < Nback; subframe++) {
872 int i = 0, absolute = 0, maximum = 0;
874 if (vector ==
NULL || length <= 0) {
878 for (
i = 0;
i < length;
i++) {
879 absolute =
FFABS(vector[
i]);
880 if (absolute > maximum)
885 return FFMIN(maximum, INT16_MAX);
892 if (0xFFFF0000 & n) {
898 if (0x0000FF00 & (n >>
bits))
bits += 8;
899 if (0x000000F0 & (n >>
bits))
bits += 4;
900 if (0x0000000C & (n >>
bits))
bits += 2;
901 if (0x00000002 & (n >>
bits))
bits += 1;
902 if (0x00000001 & (n >>
bits))
bits += 1;
911 for (
int i = 0;
i < length;
i++)
912 sum += (v1[
i] * v2[
i]) >> scaling;
918 int16_t lag, int16_t blen, int16_t srange, int16_t
scale)
920 const int16_t *w16ptr = &
buffer[blen - srange - lag];
931 #define SPL_SHIFT_W32(x, c) (((c) >= 0) ? ((x) << (c)) : ((x) >> (-(c))))
952 static void do_plc(int16_t *plc_residual,
956 const int16_t *decresidual,
962 int32_t cross, ener, cross_comp, ener_comp = 0;
963 int32_t measure, max_measure, energy;
964 int16_t
max, cross_square_max, cross_square;
965 int16_t j, lag, tmp1, tmp2, randlag;
972 int16_t max_perSquare;
973 int16_t scale1, scale2;
985 s->consPLICount += 1;
990 if (
s->prevPLI != 1) {
1002 s->prevScale = scale3;
1009 corrLen =
FFMIN(60,
s->block_samples - (inlag + 3));
1011 correlation(&cross, &ener,
s->prevResidual, lag,
s->block_samples, corrLen, scale3);
1017 for (j = inlag - 2; j <= inlag + 3; j++) {
1018 correlation(&cross_comp, &ener_comp,
s->prevResidual, j,
s->block_samples, corrLen, scale3);
1034 if (((shift_max << 1) + shift3) > ((
shift1 << 1) +
shift2)) {
1042 if ((measure >> tmp1) > (max_measure >> tmp2)) {
1045 cross_square_max = cross_square;
1060 tmp2W32 =
scale_dot_product(&
s->prevResidual[
s->block_samples - corrLen], &
s->prevResidual[
s->block_samples - corrLen], corrLen, scale3);
1062 if ((tmp2W32 > 0) && (ener_comp > 0)) {
1076 totscale = scale1 + scale2 - 1;
1088 max_perSquare =
s->per_square;
1096 if (
s->consPLICount *
s->block_samples > 320) {
1098 }
else if (
s->consPLICount *
s->block_samples > 640) {
1100 }
else if (
s->consPLICount *
s->block_samples > 960) {
1102 }
else if (
s->consPLICount *
s->block_samples > 1280) {
1112 if (max_perSquare > 7868) {
1114 }
else if (max_perSquare > 839) {
1117 while ((max_perSquare <
kPlcPerSqr[ind]) && (ind > 0)) {
1123 pitchfact =
FFMIN(tmpW32, 32767);
1138 for (
i = 0;
i <
s->block_samples;
i++) {
1141 randlag = 53 + (
s->seed & 63);
1146 randvec[
i] =
s->prevResidual[
s->block_samples + pick];
1148 randvec[
i] =
s->prevResidual[pick];
1155 plc_residual[
i] =
s->prevResidual[
s->block_samples + pick];
1157 plc_residual[
i] = plc_residual[pick];
1162 tot_gain = use_gain;
1163 }
else if (
i < 160) {
1170 plc_residual[
i] =
SPL_MUL_16_16_RSFT(tot_gain, (pitchfact * plc_residual[
i] + (32767 - pitchfact) * randvec[
i] + 16384) >> 15, 15);
1179 if (energy <
SPL_SHIFT_W32(
s->block_samples * 900, -
s->prevScale - 1)) {
1181 for (
i = 0;
i <
s->block_samples;
i++) {
1182 plc_residual[
i] = randvec[
i];
1191 s->per_square = max_perSquare;
1193 memcpy(plc_residual, decresidual,
s->block_samples * 2);
1195 s->consPLICount = 0;
1201 memcpy(
s->prevResidual, plc_residual,
s->block_samples * 2);
1206 static int xcorr_coeff(
const int16_t *target,
const int16_t *regressor,
1207 int16_t subl, int16_t searchLen,
1213 int16_t cross_corr_scale, energy_scale;
1214 int16_t cross_corr_sg_mod, cross_corr_sg_mod_max;
1216 int16_t cross_corr_mod, energy_mod, enery_mod_max;
1218 const int16_t *rp_beg, *rp_end;
1219 int16_t totscale, totscale_max;
1226 cross_corr_sg_mod_max = 0;
1227 enery_mod_max = INT16_MAX;
1228 totscale_max = -500;
1236 rp_end = ®ressor[subl];
1239 rp_beg = ®ressor[-1];
1240 rp_end = ®ressor[subl - 1];
1256 for (k = 0; k < searchLen; k++) {
1257 rp = ®ressor[
pos];
1261 if ((energy > 0) && (cross_corr > 0)) {
1263 cross_corr_scale =
norm_w32(cross_corr) - 16;
1264 cross_corr_mod = (int16_t)
SPL_SHIFT_W32(cross_corr, cross_corr_scale);
1265 energy_scale =
norm_w32(energy) - 16;
1269 cross_corr_sg_mod = (int16_t)
SPL_MUL_16_16_RSFT(cross_corr_mod, cross_corr_mod, 16);
1274 totscale = energy_scale - (cross_corr_scale * 2);
1279 scalediff = totscale - totscale_max;
1280 scalediff =
FFMIN(scalediff, 31);
1281 scalediff =
FFMAX(scalediff, -31);
1287 if (scalediff < 0) {
1288 new_crit = ((
int32_t) cross_corr_sg_mod * enery_mod_max) >> (-scalediff);
1289 max_crit = ((
int32_t) cross_corr_sg_mod_max * energy_mod);
1291 new_crit = ((
int32_t) cross_corr_sg_mod * enery_mod_max);
1292 max_crit = ((
int32_t) cross_corr_sg_mod_max * energy_mod) >> scalediff;
1298 if (new_crit > max_crit) {
1299 cross_corr_sg_mod_max = cross_corr_sg_mod;
1300 enery_mod_max = energy_mod;
1301 totscale_max = totscale;
1308 energy += (unsigned)
step * ((*rp_end * *rp_end - *rp_beg * *rp_beg) >>
shifts);
1317 static void hp_output(int16_t *signal,
const int16_t *ba, int16_t *y,
1318 int16_t *x, int16_t
len)
1322 for (
int i = 0;
i <
len;
i++) {
1346 if (
tmp > 268435455) {
1348 }
else if (
tmp < -268435456) {
1355 y[1] = (
tmp - (y[0] * (1 << 16))) >> 1;
1360 int *got_frame_ptr,
AVPacket *avpkt)
1377 if (
s->frame.start < 1 ||
s->frame.start > 5)
1389 do_plc(
s->plc_residual,
s->plc_lpc, 0,
1393 memcpy(
s->decresidual,
s->plc_residual,
s->block_samples * 2);
1402 if (
s->mode == 20) {
1403 lag =
xcorr_coeff(&
s->decresidual[
s->block_samples-60], &
s->decresidual[
s->block_samples-80],
1415 memcpy(plc_data,
s->decresidual,
s->block_samples * 2);
1420 for (
i = 0;
i <
s->nsub;
i++) {
1430 memcpy(
frame->
data[0], plc_data,
s->block_samples * 2);
1433 s->hpimemy,
s->hpimemx,
s->block_samples);
1455 s->mode = avctx->
bit_rate <= 14000 ? 30 : 20;
1464 if (
s->mode == 30) {
1465 s->block_samples = 240;
1471 s->block_samples = 160;