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- /* Copyright (C) 2002-2006 Jean-Marc Valin
- File: ltp.c
- Long-Term Prediction functions
- Redistribution and use in source and binary forms, with or without
- modification, are permitted provided that the following conditions
- are met:
- - Redistributions of source code must retain the above copyright
- notice, this list of conditions and the following disclaimer.
- - Redistributions in binary form must reproduce the above copyright
- notice, this list of conditions and the following disclaimer in the
- documentation and/or other materials provided with the distribution.
- - Neither the name of the Xiph.org Foundation nor the names of its
- contributors may be used to endorse or promote products derived from
- this software without specific prior written permission.
- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
- ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
- CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
- PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- */
- #ifdef HAVE_CONFIG_H
- #include "config.h"
- #endif
- #include <math.h>
- #include "ltp.h"
- #include "stack_alloc.h"
- #include "filters.h"
- #include "math_approx.h"
- #include "os_support.h"
- #ifndef NULL
- #define NULL 0
- #endif
- #ifdef _USE_SSE
- #include "ltp_sse.h"
- #elif defined (ARM4_ASM) || defined(ARM5E_ASM)
- #include "ltp_arm4.h"
- #elif defined (BFIN_ASM)
- #include "ltp_bfin.h"
- #endif
- #ifndef OVERRIDE_INNER_PROD
- spx_word32_t inner_prod(const spx_word16_t *x, const spx_word16_t *y, int len)
- {
- spx_word32_t sum=0;
- len >>= 2;
- while(len--)
- {
- spx_word32_t part=0;
- part = MAC16_16(part,*x++,*y++);
- part = MAC16_16(part,*x++,*y++);
- part = MAC16_16(part,*x++,*y++);
- part = MAC16_16(part,*x++,*y++);
- /* HINT: If you had a 40-bit accumulator, you could shift only at the end */
- sum = ADD32(sum,SHR32(part,6));
- }
- return sum;
- }
- #endif
- #ifndef DISABLE_ENCODER
- #ifndef OVERRIDE_PITCH_XCORR
- #if 0 /* HINT: Enable this for machines with enough registers (i.e. not x86) */
- static void pitch_xcorr(const spx_word16_t *_x, const spx_word16_t *_y, spx_word32_t *corr, int len, int nb_pitch, char *stack)
- {
- int i,j;
- for (i=0;i<nb_pitch;i+=4)
- {
- /* Compute correlation*/
- /*corr[nb_pitch-1-i]=inner_prod(x, _y+i, len);*/
- spx_word32_t sum1=0;
- spx_word32_t sum2=0;
- spx_word32_t sum3=0;
- spx_word32_t sum4=0;
- const spx_word16_t *y = _y+i;
- const spx_word16_t *x = _x;
- spx_word16_t y0, y1, y2, y3;
- /*y0=y[0];y1=y[1];y2=y[2];y3=y[3];*/
- y0=*y++;
- y1=*y++;
- y2=*y++;
- y3=*y++;
- for (j=0;j<len;j+=4)
- {
- spx_word32_t part1;
- spx_word32_t part2;
- spx_word32_t part3;
- spx_word32_t part4;
- part1 = MULT16_16(*x,y0);
- part2 = MULT16_16(*x,y1);
- part3 = MULT16_16(*x,y2);
- part4 = MULT16_16(*x,y3);
- x++;
- y0=*y++;
- part1 = MAC16_16(part1,*x,y1);
- part2 = MAC16_16(part2,*x,y2);
- part3 = MAC16_16(part3,*x,y3);
- part4 = MAC16_16(part4,*x,y0);
- x++;
- y1=*y++;
- part1 = MAC16_16(part1,*x,y2);
- part2 = MAC16_16(part2,*x,y3);
- part3 = MAC16_16(part3,*x,y0);
- part4 = MAC16_16(part4,*x,y1);
- x++;
- y2=*y++;
- part1 = MAC16_16(part1,*x,y3);
- part2 = MAC16_16(part2,*x,y0);
- part3 = MAC16_16(part3,*x,y1);
- part4 = MAC16_16(part4,*x,y2);
- x++;
- y3=*y++;
- sum1 = ADD32(sum1,SHR32(part1,6));
- sum2 = ADD32(sum2,SHR32(part2,6));
- sum3 = ADD32(sum3,SHR32(part3,6));
- sum4 = ADD32(sum4,SHR32(part4,6));
- }
- corr[nb_pitch-1-i]=sum1;
- corr[nb_pitch-2-i]=sum2;
- corr[nb_pitch-3-i]=sum3;
- corr[nb_pitch-4-i]=sum4;
- }
- }
- #else
- static void pitch_xcorr(const spx_word16_t *_x, const spx_word16_t *_y, spx_word32_t *corr, int len, int nb_pitch, char *stack)
- {
- int i;
- for (i=0;i<nb_pitch;i++)
- {
- /* Compute correlation*/
- corr[nb_pitch-1-i]=inner_prod(_x, _y+i, len);
- }
- }
- #endif
- #endif
- #ifndef OVERRIDE_COMPUTE_PITCH_ERROR
- static inline spx_word32_t compute_pitch_error(spx_word16_t *C, spx_word16_t *g, spx_word16_t pitch_control)
- {
- spx_word32_t sum = 0;
- sum = ADD32(sum,MULT16_16(MULT16_16_16(g[0],pitch_control),C[0]));
- sum = ADD32(sum,MULT16_16(MULT16_16_16(g[1],pitch_control),C[1]));
- sum = ADD32(sum,MULT16_16(MULT16_16_16(g[2],pitch_control),C[2]));
- sum = SUB32(sum,MULT16_16(MULT16_16_16(g[0],g[1]),C[3]));
- sum = SUB32(sum,MULT16_16(MULT16_16_16(g[2],g[1]),C[4]));
- sum = SUB32(sum,MULT16_16(MULT16_16_16(g[2],g[0]),C[5]));
- sum = SUB32(sum,MULT16_16(MULT16_16_16(g[0],g[0]),C[6]));
- sum = SUB32(sum,MULT16_16(MULT16_16_16(g[1],g[1]),C[7]));
- sum = SUB32(sum,MULT16_16(MULT16_16_16(g[2],g[2]),C[8]));
- return sum;
- }
- #endif
- #ifndef OVERRIDE_OPEN_LOOP_NBEST_PITCH
- void open_loop_nbest_pitch(spx_word16_t *sw, int start, int end, int len, int *pitch, spx_word16_t *gain, int N, char *stack)
- {
- int i,j,k;
- VARDECL(spx_word32_t *best_score);
- VARDECL(spx_word32_t *best_ener);
- spx_word32_t e0;
- VARDECL(spx_word32_t *corr);
- #ifdef FIXED_POINT
- /* In fixed-point, we need only one (temporary) array of 32-bit values and two (corr16, ener16)
- arrays for (normalized) 16-bit values */
- VARDECL(spx_word16_t *corr16);
- VARDECL(spx_word16_t *ener16);
- spx_word32_t *energy;
- int cshift=0, eshift=0;
- int scaledown = 0;
- ALLOC(corr16, end-start+1, spx_word16_t);
- ALLOC(ener16, end-start+1, spx_word16_t);
- ALLOC(corr, end-start+1, spx_word32_t);
- energy = corr;
- #else
- /* In floating-point, we need to float arrays and no normalized copies */
- VARDECL(spx_word32_t *energy);
- spx_word16_t *corr16;
- spx_word16_t *ener16;
- ALLOC(energy, end-start+2, spx_word32_t);
- ALLOC(corr, end-start+1, spx_word32_t);
- corr16 = corr;
- ener16 = energy;
- #endif
- ALLOC(best_score, N, spx_word32_t);
- ALLOC(best_ener, N, spx_word32_t);
- for (i=0;i<N;i++)
- {
- best_score[i]=-1;
- best_ener[i]=0;
- pitch[i]=start;
- }
- #ifdef FIXED_POINT
- for (i=-end;i<len;i++)
- {
- if (ABS16(sw[i])>16383)
- {
- scaledown=1;
- break;
- }
- }
- /* If the weighted input is close to saturation, then we scale it down */
- if (scaledown)
- {
- for (i=-end;i<len;i++)
- {
- sw[i]=SHR16(sw[i],1);
- }
- }
- #endif
- energy[0]=inner_prod(sw-start, sw-start, len);
- e0=inner_prod(sw, sw, len);
- for (i=start;i<end;i++)
- {
- /* Update energy for next pitch*/
- energy[i-start+1] = SUB32(ADD32(energy[i-start],SHR32(MULT16_16(sw[-i-1],sw[-i-1]),6)), SHR32(MULT16_16(sw[-i+len-1],sw[-i+len-1]),6));
- if (energy[i-start+1] < 0)
- energy[i-start+1] = 0;
- }
- #ifdef FIXED_POINT
- eshift = normalize16(energy, ener16, 32766, end-start+1);
- #endif
- /* In fixed-point, this actually overrites the energy array (aliased to corr) */
- pitch_xcorr(sw, sw-end, corr, len, end-start+1, stack);
- #ifdef FIXED_POINT
- /* Normalize to 180 so we can square it and it still fits in 16 bits */
- cshift = normalize16(corr, corr16, 180, end-start+1);
- /* If we scaled weighted input down, we need to scale it up again (OK, so we've just lost the LSB, who cares?) */
- if (scaledown)
- {
- for (i=-end;i<len;i++)
- {
- sw[i]=SHL16(sw[i],1);
- }
- }
- #endif
- /* Search for the best pitch prediction gain */
- for (i=start;i<=end;i++)
- {
- spx_word16_t tmp = MULT16_16_16(corr16[i-start],corr16[i-start]);
- /* Instead of dividing the tmp by the energy, we multiply on the other side */
- if (MULT16_16(tmp,best_ener[N-1])>MULT16_16(best_score[N-1],ADD16(1,ener16[i-start])))
- {
- /* We can safely put it last and then check */
- best_score[N-1]=tmp;
- best_ener[N-1]=ener16[i-start]+1;
- pitch[N-1]=i;
- /* Check if it comes in front of others */
- for (j=0;j<N-1;j++)
- {
- if (MULT16_16(tmp,best_ener[j])>MULT16_16(best_score[j],ADD16(1,ener16[i-start])))
- {
- for (k=N-1;k>j;k--)
- {
- best_score[k]=best_score[k-1];
- best_ener[k]=best_ener[k-1];
- pitch[k]=pitch[k-1];
- }
- best_score[j]=tmp;
- best_ener[j]=ener16[i-start]+1;
- pitch[j]=i;
- break;
- }
- }
- }
- }
- /* Compute open-loop gain if necessary */
- if (gain)
- {
- for (j=0;j<N;j++)
- {
- spx_word16_t g;
- i=pitch[j];
- g = DIV32(SHL32(EXTEND32(corr16[i-start]),cshift), 10+SHR32(MULT16_16(spx_sqrt(e0),spx_sqrt(SHL32(EXTEND32(ener16[i-start]),eshift))),6));
- /* FIXME: g = max(g,corr/energy) */
- if (g<0)
- g = 0;
- gain[j]=g;
- }
- }
- }
- #endif
- #ifndef OVERRIDE_PITCH_GAIN_SEARCH_3TAP_VQ
- static int pitch_gain_search_3tap_vq(
- const signed char *gain_cdbk,
- int gain_cdbk_size,
- spx_word16_t *C16,
- spx_word16_t max_gain
- )
- {
- const signed char *ptr=gain_cdbk;
- int best_cdbk=0;
- spx_word32_t best_sum=-VERY_LARGE32;
- spx_word32_t sum=0;
- spx_word16_t g[3];
- spx_word16_t pitch_control=64;
- spx_word16_t gain_sum;
- int i;
- for (i=0;i<gain_cdbk_size;i++) {
- ptr = gain_cdbk+4*i;
- g[0]=ADD16((spx_word16_t)ptr[0],32);
- g[1]=ADD16((spx_word16_t)ptr[1],32);
- g[2]=ADD16((spx_word16_t)ptr[2],32);
- gain_sum = (spx_word16_t)ptr[3];
- sum = compute_pitch_error(C16, g, pitch_control);
- if (sum>best_sum && gain_sum<=max_gain) {
- best_sum=sum;
- best_cdbk=i;
- }
- }
- return best_cdbk;
- }
- #endif
- /** Finds the best quantized 3-tap pitch predictor by analysis by synthesis */
- static spx_word32_t pitch_gain_search_3tap(
- const spx_word16_t target[], /* Target vector */
- const spx_coef_t ak[], /* LPCs for this subframe */
- const spx_coef_t awk1[], /* Weighted LPCs #1 for this subframe */
- const spx_coef_t awk2[], /* Weighted LPCs #2 for this subframe */
- spx_sig_t exc[], /* Excitation */
- const signed char *gain_cdbk,
- int gain_cdbk_size,
- int pitch, /* Pitch value */
- int p, /* Number of LPC coeffs */
- int nsf, /* Number of samples in subframe */
- SpeexBits *bits,
- char *stack,
- const spx_word16_t *exc2,
- const spx_word16_t *r,
- spx_word16_t *new_target,
- int *cdbk_index,
- int plc_tuning,
- spx_word32_t cumul_gain,
- int scaledown
- )
- {
- int i,j;
- VARDECL(spx_word16_t *tmp1);
- VARDECL(spx_word16_t *e);
- spx_word16_t *x[3];
- spx_word32_t corr[3];
- spx_word32_t A[3][3];
- spx_word16_t gain[3];
- spx_word32_t err;
- spx_word16_t max_gain=128;
- int best_cdbk=0;
- ALLOC(tmp1, 3*nsf, spx_word16_t);
- ALLOC(e, nsf, spx_word16_t);
- if (cumul_gain > 262144)
- max_gain = 31;
- x[0]=tmp1;
- x[1]=tmp1+nsf;
- x[2]=tmp1+2*nsf;
- for (j=0;j<nsf;j++)
- new_target[j] = target[j];
- {
- int bound;
- VARDECL(spx_mem_t *mm);
- int pp=pitch-1;
- ALLOC(mm, p, spx_mem_t);
- bound = nsf;
- if (nsf-pp>0)
- bound = pp;
- for (j=0;j<bound;j++)
- e[j]=exc2[j-pp];
- bound = nsf;
- if (nsf-pp-pitch>0)
- bound = pp+pitch;
- for (;j<bound;j++)
- e[j]=exc2[j-pp-pitch];
- for (;j<nsf;j++)
- e[j]=0;
- #ifdef FIXED_POINT
- /* Scale target and excitation down if needed (avoiding overflow) */
- if (scaledown)
- {
- for (j=0;j<nsf;j++)
- e[j] = SHR16(e[j],1);
- for (j=0;j<nsf;j++)
- new_target[j] = SHR16(new_target[j],1);
- }
- #endif
- for (j=0;j<p;j++)
- mm[j] = 0;
- iir_mem16(e, ak, e, nsf, p, mm, stack);
- for (j=0;j<p;j++)
- mm[j] = 0;
- filter10(e, awk1, awk2, e, nsf, mm, stack);
- for (j=0;j<nsf;j++)
- x[2][j] = e[j];
- }
- for (i=1;i>=0;i--)
- {
- spx_word16_t e0=exc2[-pitch-1+i];
- #ifdef FIXED_POINT
- /* Scale excitation down if needed (avoiding overflow) */
- if (scaledown)
- e0 = SHR16(e0,1);
- #endif
- x[i][0]=MULT16_16_Q14(r[0], e0);
- for (j=0;j<nsf-1;j++)
- x[i][j+1]=ADD32(x[i+1][j],MULT16_16_P14(r[j+1], e0));
- }
- for (i=0;i<3;i++)
- corr[i]=inner_prod(x[i],new_target,nsf);
- for (i=0;i<3;i++)
- for (j=0;j<=i;j++)
- A[i][j]=A[j][i]=inner_prod(x[i],x[j],nsf);
- {
- spx_word32_t C[9];
- #ifdef FIXED_POINT
- spx_word16_t C16[9];
- #else
- spx_word16_t *C16=C;
- #endif
- C[0]=corr[2];
- C[1]=corr[1];
- C[2]=corr[0];
- C[3]=A[1][2];
- C[4]=A[0][1];
- C[5]=A[0][2];
- C[6]=A[2][2];
- C[7]=A[1][1];
- C[8]=A[0][0];
- /*plc_tuning *= 2;*/
- if (plc_tuning<2)
- plc_tuning=2;
- if (plc_tuning>30)
- plc_tuning=30;
- #ifdef FIXED_POINT
- C[0] = SHL32(C[0],1);
- C[1] = SHL32(C[1],1);
- C[2] = SHL32(C[2],1);
- C[3] = SHL32(C[3],1);
- C[4] = SHL32(C[4],1);
- C[5] = SHL32(C[5],1);
- C[6] = MAC16_32_Q15(C[6],MULT16_16_16(plc_tuning,655),C[6]);
- C[7] = MAC16_32_Q15(C[7],MULT16_16_16(plc_tuning,655),C[7]);
- C[8] = MAC16_32_Q15(C[8],MULT16_16_16(plc_tuning,655),C[8]);
- normalize16(C, C16, 32767, 9);
- #else
- C[6]*=.5*(1+.02*plc_tuning);
- C[7]*=.5*(1+.02*plc_tuning);
- C[8]*=.5*(1+.02*plc_tuning);
- #endif
- best_cdbk = pitch_gain_search_3tap_vq(gain_cdbk, gain_cdbk_size, C16, max_gain);
- #ifdef FIXED_POINT
- gain[0] = ADD16(32,(spx_word16_t)gain_cdbk[best_cdbk*4]);
- gain[1] = ADD16(32,(spx_word16_t)gain_cdbk[best_cdbk*4+1]);
- gain[2] = ADD16(32,(spx_word16_t)gain_cdbk[best_cdbk*4+2]);
- /*printf ("%d %d %d %d\n",gain[0],gain[1],gain[2], best_cdbk);*/
- #else
- gain[0] = 0.015625*gain_cdbk[best_cdbk*4] + .5;
- gain[1] = 0.015625*gain_cdbk[best_cdbk*4+1]+ .5;
- gain[2] = 0.015625*gain_cdbk[best_cdbk*4+2]+ .5;
- #endif
- *cdbk_index=best_cdbk;
- }
- SPEEX_MEMSET(exc, 0, nsf);
- for (i=0;i<3;i++)
- {
- int j;
- int tmp1, tmp3;
- int pp=pitch+1-i;
- tmp1=nsf;
- if (tmp1>pp)
- tmp1=pp;
- for (j=0;j<tmp1;j++)
- exc[j]=MAC16_16(exc[j],SHL16(gain[2-i],7),exc2[j-pp]);
- tmp3=nsf;
- if (tmp3>pp+pitch)
- tmp3=pp+pitch;
- for (j=tmp1;j<tmp3;j++)
- exc[j]=MAC16_16(exc[j],SHL16(gain[2-i],7),exc2[j-pp-pitch]);
- }
- for (i=0;i<nsf;i++)
- {
- spx_word32_t tmp = ADD32(ADD32(MULT16_16(gain[0],x[2][i]),MULT16_16(gain[1],x[1][i])),
- MULT16_16(gain[2],x[0][i]));
- new_target[i] = SUB16(new_target[i], EXTRACT16(PSHR32(tmp,6)));
- }
- err = inner_prod(new_target, new_target, nsf);
- return err;
- }
- /** Finds the best quantized 3-tap pitch predictor by analysis by synthesis */
- int pitch_search_3tap(
- spx_word16_t target[], /* Target vector */
- spx_word16_t *sw,
- spx_coef_t ak[], /* LPCs for this subframe */
- spx_coef_t awk1[], /* Weighted LPCs #1 for this subframe */
- spx_coef_t awk2[], /* Weighted LPCs #2 for this subframe */
- spx_sig_t exc[], /* Excitation */
- const void *par,
- int start, /* Smallest pitch value allowed */
- int end, /* Largest pitch value allowed */
- spx_word16_t pitch_coef, /* Voicing (pitch) coefficient */
- int p, /* Number of LPC coeffs */
- int nsf, /* Number of samples in subframe */
- SpeexBits *bits,
- char *stack,
- spx_word16_t *exc2,
- spx_word16_t *r,
- int complexity,
- int cdbk_offset,
- int plc_tuning,
- spx_word32_t *cumul_gain
- )
- {
- int i;
- int cdbk_index, pitch=0, best_gain_index=0;
- VARDECL(spx_sig_t *best_exc);
- VARDECL(spx_word16_t *new_target);
- VARDECL(spx_word16_t *best_target);
- int best_pitch=0;
- spx_word32_t err, best_err=-1;
- int N;
- const ltp_params *params;
- const signed char *gain_cdbk;
- int gain_cdbk_size;
- int scaledown=0;
- VARDECL(int *nbest);
- params = (const ltp_params*) par;
- gain_cdbk_size = 1<<params->gain_bits;
- gain_cdbk = params->gain_cdbk + 4*gain_cdbk_size*cdbk_offset;
- N=complexity;
- if (N>10)
- N=10;
- if (N<1)
- N=1;
- ALLOC(nbest, N, int);
- params = (const ltp_params*) par;
- if (end<start)
- {
- speex_bits_pack(bits, 0, params->pitch_bits);
- speex_bits_pack(bits, 0, params->gain_bits);
- SPEEX_MEMSET(exc, 0, nsf);
- return start;
- }
- #ifdef FIXED_POINT
- /* Check if we need to scale everything down in the pitch search to avoid overflows */
- for (i=0;i<nsf;i++)
- {
- if (ABS16(target[i])>16383)
- {
- scaledown=1;
- break;
- }
- }
- for (i=-end;i<0;i++)
- {
- if (ABS16(exc2[i])>16383)
- {
- scaledown=1;
- break;
- }
- }
- #endif
- if (N>end-start+1)
- N=end-start+1;
- if (end != start)
- open_loop_nbest_pitch(sw, start, end, nsf, nbest, NULL, N, stack);
- else
- nbest[0] = start;
- ALLOC(best_exc, nsf, spx_sig_t);
- ALLOC(new_target, nsf, spx_word16_t);
- ALLOC(best_target, nsf, spx_word16_t);
- for (i=0;i<N;i++)
- {
- pitch=nbest[i];
- SPEEX_MEMSET(exc, 0, nsf);
- err=pitch_gain_search_3tap(target, ak, awk1, awk2, exc, gain_cdbk, gain_cdbk_size, pitch, p, nsf,
- bits, stack, exc2, r, new_target, &cdbk_index, plc_tuning, *cumul_gain, scaledown);
- if (err<best_err || best_err<0)
- {
- SPEEX_COPY(best_exc, exc, nsf);
- SPEEX_COPY(best_target, new_target, nsf);
- best_err=err;
- best_pitch=pitch;
- best_gain_index=cdbk_index;
- }
- }
- /*printf ("pitch: %d %d\n", best_pitch, best_gain_index);*/
- speex_bits_pack(bits, best_pitch-start, params->pitch_bits);
- speex_bits_pack(bits, best_gain_index, params->gain_bits);
- #ifdef FIXED_POINT
- *cumul_gain = MULT16_32_Q13(SHL16(params->gain_cdbk[4*best_gain_index+3],8), MAX32(1024,*cumul_gain));
- #else
- *cumul_gain = 0.03125*MAX32(1024,*cumul_gain)*params->gain_cdbk[4*best_gain_index+3];
- #endif
- /*printf ("%f\n", cumul_gain);*/
- /*printf ("encode pitch: %d %d\n", best_pitch, best_gain_index);*/
- SPEEX_COPY(exc, best_exc, nsf);
- SPEEX_COPY(target, best_target, nsf);
- #ifdef FIXED_POINT
- /* Scale target back up if needed */
- if (scaledown)
- {
- for (i=0;i<nsf;i++)
- target[i]=SHL16(target[i],1);
- }
- #endif
- return pitch;
- }
- #endif /* DISABLE_ENCODER */
- #ifndef DISABLE_DECODER
- void pitch_unquant_3tap(
- spx_word16_t exc[], /* Input excitation */
- spx_word32_t exc_out[], /* Output excitation */
- int start, /* Smallest pitch value allowed */
- int end, /* Largest pitch value allowed */
- spx_word16_t pitch_coef, /* Voicing (pitch) coefficient */
- const void *par,
- int nsf, /* Number of samples in subframe */
- int *pitch_val,
- spx_word16_t *gain_val,
- SpeexBits *bits,
- char *stack,
- int count_lost,
- int subframe_offset,
- spx_word16_t last_pitch_gain,
- int cdbk_offset
- )
- {
- int i;
- int pitch;
- int gain_index;
- spx_word16_t gain[3];
- const signed char *gain_cdbk;
- int gain_cdbk_size;
- const ltp_params *params;
- params = (const ltp_params*) par;
- gain_cdbk_size = 1<<params->gain_bits;
- gain_cdbk = params->gain_cdbk + 4*gain_cdbk_size*cdbk_offset;
- pitch = speex_bits_unpack_unsigned(bits, params->pitch_bits);
- pitch += start;
- gain_index = speex_bits_unpack_unsigned(bits, params->gain_bits);
- /*printf ("decode pitch: %d %d\n", pitch, gain_index);*/
- #ifdef FIXED_POINT
- gain[0] = ADD16(32,(spx_word16_t)gain_cdbk[gain_index*4]);
- gain[1] = ADD16(32,(spx_word16_t)gain_cdbk[gain_index*4+1]);
- gain[2] = ADD16(32,(spx_word16_t)gain_cdbk[gain_index*4+2]);
- #else
- gain[0] = 0.015625*gain_cdbk[gain_index*4]+.5;
- gain[1] = 0.015625*gain_cdbk[gain_index*4+1]+.5;
- gain[2] = 0.015625*gain_cdbk[gain_index*4+2]+.5;
- #endif
- if (count_lost && pitch > subframe_offset)
- {
- spx_word16_t gain_sum;
- if (1) {
- #ifdef FIXED_POINT
- spx_word16_t tmp = count_lost < 4 ? last_pitch_gain : SHR16(last_pitch_gain,1);
- if (tmp>62)
- tmp=62;
- #else
- spx_word16_t tmp = count_lost < 4 ? last_pitch_gain : 0.5 * last_pitch_gain;
- if (tmp>.95)
- tmp=.95;
- #endif
- gain_sum = gain_3tap_to_1tap(gain);
- if (gain_sum > tmp)
- {
- spx_word16_t fact = DIV32_16(SHL32(EXTEND32(tmp),14),gain_sum);
- for (i=0;i<3;i++)
- gain[i]=MULT16_16_Q14(fact,gain[i]);
- }
- }
- }
- *pitch_val = pitch;
- gain_val[0]=gain[0];
- gain_val[1]=gain[1];
- gain_val[2]=gain[2];
- gain[0] = SHL16(gain[0],7);
- gain[1] = SHL16(gain[1],7);
- gain[2] = SHL16(gain[2],7);
- SPEEX_MEMSET(exc_out, 0, nsf);
- for (i=0;i<3;i++)
- {
- int j;
- int tmp1, tmp3;
- int pp=pitch+1-i;
- tmp1=nsf;
- if (tmp1>pp)
- tmp1=pp;
- for (j=0;j<tmp1;j++)
- exc_out[j]=MAC16_16(exc_out[j],gain[2-i],exc[j-pp]);
- tmp3=nsf;
- if (tmp3>pp+pitch)
- tmp3=pp+pitch;
- for (j=tmp1;j<tmp3;j++)
- exc_out[j]=MAC16_16(exc_out[j],gain[2-i],exc[j-pp-pitch]);
- }
- /*for (i=0;i<nsf;i++)
- exc[i]=PSHR32(exc32[i],13);*/
- }
- #endif /* DISABLE_DECODER */
- #ifndef DISABLE_ENCODER
- /** Forced pitch delay and gain */
- int forced_pitch_quant(
- spx_word16_t target[], /* Target vector */
- spx_word16_t *sw,
- spx_coef_t ak[], /* LPCs for this subframe */
- spx_coef_t awk1[], /* Weighted LPCs #1 for this subframe */
- spx_coef_t awk2[], /* Weighted LPCs #2 for this subframe */
- spx_sig_t exc[], /* Excitation */
- const void *par,
- int start, /* Smallest pitch value allowed */
- int end, /* Largest pitch value allowed */
- spx_word16_t pitch_coef, /* Voicing (pitch) coefficient */
- int p, /* Number of LPC coeffs */
- int nsf, /* Number of samples in subframe */
- SpeexBits *bits,
- char *stack,
- spx_word16_t *exc2,
- spx_word16_t *r,
- int complexity,
- int cdbk_offset,
- int plc_tuning,
- spx_word32_t *cumul_gain
- )
- {
- int i;
- VARDECL(spx_word16_t *res);
- ALLOC(res, nsf, spx_word16_t);
- #ifdef FIXED_POINT
- if (pitch_coef>63)
- pitch_coef=63;
- #else
- if (pitch_coef>.99)
- pitch_coef=.99;
- #endif
- for (i=0;i<nsf&&i<start;i++)
- {
- exc[i]=MULT16_16(SHL16(pitch_coef, 7),exc2[i-start]);
- }
- for (;i<nsf;i++)
- {
- exc[i]=MULT16_32_Q15(SHL16(pitch_coef, 9),exc[i-start]);
- }
- for (i=0;i<nsf;i++)
- res[i] = EXTRACT16(PSHR32(exc[i], SIG_SHIFT-1));
- syn_percep_zero16(res, ak, awk1, awk2, res, nsf, p, stack);
- for (i=0;i<nsf;i++)
- target[i]=EXTRACT16(SATURATE(SUB32(EXTEND32(target[i]),EXTEND32(res[i])),32700));
- return start;
- }
- #endif /* DISABLE_ENCODER */
- #ifndef DISABLE_DECODER
- /** Unquantize forced pitch delay and gain */
- void forced_pitch_unquant(
- spx_word16_t exc[], /* Input excitation */
- spx_word32_t exc_out[], /* Output excitation */
- int start, /* Smallest pitch value allowed */
- int end, /* Largest pitch value allowed */
- spx_word16_t pitch_coef, /* Voicing (pitch) coefficient */
- const void *par,
- int nsf, /* Number of samples in subframe */
- int *pitch_val,
- spx_word16_t *gain_val,
- SpeexBits *bits,
- char *stack,
- int count_lost,
- int subframe_offset,
- spx_word16_t last_pitch_gain,
- int cdbk_offset
- )
- {
- int i;
- #ifdef FIXED_POINT
- if (pitch_coef>63)
- pitch_coef=63;
- #else
- if (pitch_coef>.99)
- pitch_coef=.99;
- #endif
- for (i=0;i<nsf;i++)
- {
- exc_out[i]=MULT16_16(exc[i-start],SHL16(pitch_coef,7));
- exc[i] = EXTRACT16(PSHR32(exc_out[i],13));
- }
- *pitch_val = start;
- gain_val[0]=gain_val[2]=0;
- gain_val[1] = pitch_coef;
- }
- #endif /* DISABLE_DECODER */
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