| Index: speex/libspeex/filters.c
|
| ===================================================================
|
| --- speex/libspeex/filters.c (revision 0)
|
| +++ speex/libspeex/filters.c (revision 0)
|
| @@ -0,0 +1,821 @@
|
| +/* Copyright (C) 2002-2006 Jean-Marc Valin
|
| + File: filters.c
|
| + Various analysis/synthesis filters
|
| +
|
| + 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 "filters.h"
|
| +#include "stack_alloc.h"
|
| +#include "arch.h"
|
| +#include "math_approx.h"
|
| +#include "ltp.h"
|
| +#include <math.h>
|
| +
|
| +#ifdef _USE_SSE
|
| +#include "filters_sse.h"
|
| +#elif defined (ARM4_ASM) || defined(ARM5E_ASM)
|
| +#include "filters_arm4.h"
|
| +#elif defined (BFIN_ASM)
|
| +#include "filters_bfin.h"
|
| +#endif
|
| +
|
| +
|
| +
|
| +void bw_lpc(spx_word16_t gamma, const spx_coef_t *lpc_in, spx_coef_t *lpc_out, int order)
|
| +{
|
| + int i;
|
| + spx_word16_t tmp=gamma;
|
| + for (i=0;i<order;i++)
|
| + {
|
| + lpc_out[i] = MULT16_16_P15(tmp,lpc_in[i]);
|
| + tmp = MULT16_16_P15(tmp, gamma);
|
| + }
|
| +}
|
| +
|
| +void sanitize_values32(spx_word32_t *vec, spx_word32_t min_val, spx_word32_t max_val, int len)
|
| +{
|
| + int i;
|
| + for (i=0;i<len;i++)
|
| + {
|
| + /* It's important we do the test that way so we can catch NaNs, which are neither greater nor smaller */
|
| + if (!(vec[i]>=min_val && vec[i] <= max_val))
|
| + {
|
| + if (vec[i] < min_val)
|
| + vec[i] = min_val;
|
| + else if (vec[i] > max_val)
|
| + vec[i] = max_val;
|
| + else /* Has to be NaN */
|
| + vec[i] = 0;
|
| + }
|
| + }
|
| +}
|
| +
|
| +void highpass(const spx_word16_t *x, spx_word16_t *y, int len, int filtID, spx_mem_t *mem)
|
| +{
|
| + int i;
|
| +#ifdef FIXED_POINT
|
| + const spx_word16_t Pcoef[5][3] = {{16384, -31313, 14991}, {16384, -31569, 15249}, {16384, -31677, 15328}, {16384, -32313, 15947}, {16384, -22446, 6537}};
|
| + const spx_word16_t Zcoef[5][3] = {{15672, -31344, 15672}, {15802, -31601, 15802}, {15847, -31694, 15847}, {16162, -32322, 16162}, {14418, -28836, 14418}};
|
| +#else
|
| + const spx_word16_t Pcoef[5][3] = {{1.00000f, -1.91120f, 0.91498f}, {1.00000f, -1.92683f, 0.93071f}, {1.00000f, -1.93338f, 0.93553f}, {1.00000f, -1.97226f, 0.97332f}, {1.00000f, -1.37000f, 0.39900f}};
|
| + const spx_word16_t Zcoef[5][3] = {{0.95654f, -1.91309f, 0.95654f}, {0.96446f, -1.92879f, 0.96446f}, {0.96723f, -1.93445f, 0.96723f}, {0.98645f, -1.97277f, 0.98645f}, {0.88000f, -1.76000f, 0.88000f}};
|
| +#endif
|
| + const spx_word16_t *den, *num;
|
| + if (filtID>4)
|
| + filtID=4;
|
| +
|
| + den = Pcoef[filtID]; num = Zcoef[filtID];
|
| + /*return;*/
|
| + for (i=0;i<len;i++)
|
| + {
|
| + spx_word16_t yi;
|
| + spx_word32_t vout = ADD32(MULT16_16(num[0], x[i]),mem[0]);
|
| + yi = EXTRACT16(SATURATE(PSHR32(vout,14),32767));
|
| + mem[0] = ADD32(MAC16_16(mem[1], num[1],x[i]), SHL32(MULT16_32_Q15(-den[1],vout),1));
|
| + mem[1] = ADD32(MULT16_16(num[2],x[i]), SHL32(MULT16_32_Q15(-den[2],vout),1));
|
| + y[i] = yi;
|
| + }
|
| +}
|
| +
|
| +#ifdef FIXED_POINT
|
| +
|
| +/* FIXME: These functions are ugly and probably introduce too much error */
|
| +void signal_mul(const spx_sig_t *x, spx_sig_t *y, spx_word32_t scale, int len)
|
| +{
|
| + int i;
|
| + for (i=0;i<len;i++)
|
| + {
|
| + y[i] = SHL32(MULT16_32_Q14(EXTRACT16(SHR32(x[i],7)),scale),7);
|
| + }
|
| +}
|
| +
|
| +void signal_div(const spx_word16_t *x, spx_word16_t *y, spx_word32_t scale, int len)
|
| +{
|
| + int i;
|
| + if (scale > SHL32(EXTEND32(SIG_SCALING), 8))
|
| + {
|
| + spx_word16_t scale_1;
|
| + scale = PSHR32(scale, SIG_SHIFT);
|
| + scale_1 = EXTRACT16(PDIV32_16(SHL32(EXTEND32(SIG_SCALING),7),scale));
|
| + for (i=0;i<len;i++)
|
| + {
|
| + y[i] = MULT16_16_P15(scale_1, x[i]);
|
| + }
|
| + } else if (scale > SHR32(EXTEND32(SIG_SCALING), 2)) {
|
| + spx_word16_t scale_1;
|
| + scale = PSHR32(scale, SIG_SHIFT-5);
|
| + scale_1 = DIV32_16(SHL32(EXTEND32(SIG_SCALING),3),scale);
|
| + for (i=0;i<len;i++)
|
| + {
|
| + y[i] = PSHR32(MULT16_16(scale_1, SHL16(x[i],2)),8);
|
| + }
|
| + } else {
|
| + spx_word16_t scale_1;
|
| + scale = PSHR32(scale, SIG_SHIFT-7);
|
| + if (scale < 5)
|
| + scale = 5;
|
| + scale_1 = DIV32_16(SHL32(EXTEND32(SIG_SCALING),3),scale);
|
| + for (i=0;i<len;i++)
|
| + {
|
| + y[i] = PSHR32(MULT16_16(scale_1, SHL16(x[i],2)),6);
|
| + }
|
| + }
|
| +}
|
| +
|
| +#else
|
| +
|
| +void signal_mul(const spx_sig_t *x, spx_sig_t *y, spx_word32_t scale, int len)
|
| +{
|
| + int i;
|
| + for (i=0;i<len;i++)
|
| + y[i] = scale*x[i];
|
| +}
|
| +
|
| +void signal_div(const spx_sig_t *x, spx_sig_t *y, spx_word32_t scale, int len)
|
| +{
|
| + int i;
|
| + float scale_1 = 1/scale;
|
| + for (i=0;i<len;i++)
|
| + y[i] = scale_1*x[i];
|
| +}
|
| +#endif
|
| +
|
| +
|
| +
|
| +#ifdef FIXED_POINT
|
| +
|
| +
|
| +
|
| +spx_word16_t compute_rms(const spx_sig_t *x, int len)
|
| +{
|
| + int i;
|
| + spx_word32_t sum=0;
|
| + spx_sig_t max_val=1;
|
| + int sig_shift;
|
| +
|
| + for (i=0;i<len;i++)
|
| + {
|
| + spx_sig_t tmp = x[i];
|
| + if (tmp<0)
|
| + tmp = -tmp;
|
| + if (tmp > max_val)
|
| + max_val = tmp;
|
| + }
|
| +
|
| + sig_shift=0;
|
| + while (max_val>16383)
|
| + {
|
| + sig_shift++;
|
| + max_val >>= 1;
|
| + }
|
| +
|
| + for (i=0;i<len;i+=4)
|
| + {
|
| + spx_word32_t sum2=0;
|
| + spx_word16_t tmp;
|
| + tmp = EXTRACT16(SHR32(x[i],sig_shift));
|
| + sum2 = MAC16_16(sum2,tmp,tmp);
|
| + tmp = EXTRACT16(SHR32(x[i+1],sig_shift));
|
| + sum2 = MAC16_16(sum2,tmp,tmp);
|
| + tmp = EXTRACT16(SHR32(x[i+2],sig_shift));
|
| + sum2 = MAC16_16(sum2,tmp,tmp);
|
| + tmp = EXTRACT16(SHR32(x[i+3],sig_shift));
|
| + sum2 = MAC16_16(sum2,tmp,tmp);
|
| + sum = ADD32(sum,SHR32(sum2,6));
|
| + }
|
| +
|
| + return EXTRACT16(PSHR32(SHL32(EXTEND32(spx_sqrt(DIV32(sum,len))),(sig_shift+3)),SIG_SHIFT));
|
| +}
|
| +
|
| +spx_word16_t compute_rms16(const spx_word16_t *x, int len)
|
| +{
|
| + int i;
|
| + spx_word16_t max_val=10;
|
| +
|
| + for (i=0;i<len;i++)
|
| + {
|
| + spx_sig_t tmp = x[i];
|
| + if (tmp<0)
|
| + tmp = -tmp;
|
| + if (tmp > max_val)
|
| + max_val = tmp;
|
| + }
|
| + if (max_val>16383)
|
| + {
|
| + spx_word32_t sum=0;
|
| + for (i=0;i<len;i+=4)
|
| + {
|
| + spx_word32_t sum2=0;
|
| + sum2 = MAC16_16(sum2,SHR16(x[i],1),SHR16(x[i],1));
|
| + sum2 = MAC16_16(sum2,SHR16(x[i+1],1),SHR16(x[i+1],1));
|
| + sum2 = MAC16_16(sum2,SHR16(x[i+2],1),SHR16(x[i+2],1));
|
| + sum2 = MAC16_16(sum2,SHR16(x[i+3],1),SHR16(x[i+3],1));
|
| + sum = ADD32(sum,SHR32(sum2,6));
|
| + }
|
| + return SHL16(spx_sqrt(DIV32(sum,len)),4);
|
| + } else {
|
| + spx_word32_t sum=0;
|
| + int sig_shift=0;
|
| + if (max_val < 8192)
|
| + sig_shift=1;
|
| + if (max_val < 4096)
|
| + sig_shift=2;
|
| + if (max_val < 2048)
|
| + sig_shift=3;
|
| + for (i=0;i<len;i+=4)
|
| + {
|
| + spx_word32_t sum2=0;
|
| + sum2 = MAC16_16(sum2,SHL16(x[i],sig_shift),SHL16(x[i],sig_shift));
|
| + sum2 = MAC16_16(sum2,SHL16(x[i+1],sig_shift),SHL16(x[i+1],sig_shift));
|
| + sum2 = MAC16_16(sum2,SHL16(x[i+2],sig_shift),SHL16(x[i+2],sig_shift));
|
| + sum2 = MAC16_16(sum2,SHL16(x[i+3],sig_shift),SHL16(x[i+3],sig_shift));
|
| + sum = ADD32(sum,SHR32(sum2,6));
|
| + }
|
| + return SHL16(spx_sqrt(DIV32(sum,len)),3-sig_shift);
|
| + }
|
| +}
|
| +
|
| +#ifndef OVERRIDE_NORMALIZE16
|
| +int normalize16(const spx_sig_t *x, spx_word16_t *y, spx_sig_t max_scale, int len)
|
| +{
|
| + int i;
|
| + spx_sig_t max_val=1;
|
| + int sig_shift;
|
| +
|
| + for (i=0;i<len;i++)
|
| + {
|
| + spx_sig_t tmp = x[i];
|
| + if (tmp<0)
|
| + tmp = NEG32(tmp);
|
| + if (tmp >= max_val)
|
| + max_val = tmp;
|
| + }
|
| +
|
| + sig_shift=0;
|
| + while (max_val>max_scale)
|
| + {
|
| + sig_shift++;
|
| + max_val >>= 1;
|
| + }
|
| +
|
| + for (i=0;i<len;i++)
|
| + y[i] = EXTRACT16(SHR32(x[i], sig_shift));
|
| +
|
| + return sig_shift;
|
| +}
|
| +#endif
|
| +
|
| +#else
|
| +
|
| +spx_word16_t compute_rms(const spx_sig_t *x, int len)
|
| +{
|
| + int i;
|
| + float sum=0;
|
| + for (i=0;i<len;i++)
|
| + {
|
| + sum += x[i]*x[i];
|
| + }
|
| + return sqrt(.1+sum/len);
|
| +}
|
| +spx_word16_t compute_rms16(const spx_word16_t *x, int len)
|
| +{
|
| + return compute_rms(x, len);
|
| +}
|
| +#endif
|
| +
|
| +
|
| +
|
| +#ifndef OVERRIDE_FILTER_MEM16
|
| +void filter_mem16(const spx_word16_t *x, const spx_coef_t *num, const spx_coef_t *den, spx_word16_t *y, int N, int ord, spx_mem_t *mem, char *stack)
|
| +{
|
| + int i,j;
|
| + spx_word16_t xi,yi,nyi;
|
| + for (i=0;i<N;i++)
|
| + {
|
| + xi= x[i];
|
| + yi = EXTRACT16(SATURATE(ADD32(EXTEND32(x[i]),PSHR32(mem[0],LPC_SHIFT)),32767));
|
| + nyi = NEG16(yi);
|
| + for (j=0;j<ord-1;j++)
|
| + {
|
| + mem[j] = MAC16_16(MAC16_16(mem[j+1], num[j],xi), den[j],nyi);
|
| + }
|
| + mem[ord-1] = ADD32(MULT16_16(num[ord-1],xi), MULT16_16(den[ord-1],nyi));
|
| + y[i] = yi;
|
| + }
|
| +}
|
| +#endif
|
| +
|
| +#ifndef OVERRIDE_IIR_MEM16
|
| +void iir_mem16(const spx_word16_t *x, const spx_coef_t *den, spx_word16_t *y, int N, int ord, spx_mem_t *mem, char *stack)
|
| +{
|
| + int i,j;
|
| + spx_word16_t yi,nyi;
|
| +
|
| + for (i=0;i<N;i++)
|
| + {
|
| + yi = EXTRACT16(SATURATE(ADD32(EXTEND32(x[i]),PSHR32(mem[0],LPC_SHIFT)),32767));
|
| + nyi = NEG16(yi);
|
| + for (j=0;j<ord-1;j++)
|
| + {
|
| + mem[j] = MAC16_16(mem[j+1],den[j],nyi);
|
| + }
|
| + mem[ord-1] = MULT16_16(den[ord-1],nyi);
|
| + y[i] = yi;
|
| + }
|
| +}
|
| +#endif
|
| +
|
| +#ifndef OVERRIDE_FIR_MEM16
|
| +void fir_mem16(const spx_word16_t *x, const spx_coef_t *num, spx_word16_t *y, int N, int ord, spx_mem_t *mem, char *stack)
|
| +{
|
| + int i,j;
|
| + spx_word16_t xi,yi;
|
| +
|
| + for (i=0;i<N;i++)
|
| + {
|
| + xi=x[i];
|
| + yi = EXTRACT16(SATURATE(ADD32(EXTEND32(x[i]),PSHR32(mem[0],LPC_SHIFT)),32767));
|
| + for (j=0;j<ord-1;j++)
|
| + {
|
| + mem[j] = MAC16_16(mem[j+1], num[j],xi);
|
| + }
|
| + mem[ord-1] = MULT16_16(num[ord-1],xi);
|
| + y[i] = yi;
|
| + }
|
| +}
|
| +#endif
|
| +
|
| +
|
| +void syn_percep_zero16(const spx_word16_t *xx, const spx_coef_t *ak, const spx_coef_t *awk1, const spx_coef_t *awk2, spx_word16_t *y, int N, int ord, char *stack)
|
| +{
|
| + int i;
|
| + VARDECL(spx_mem_t *mem);
|
| + ALLOC(mem, ord, spx_mem_t);
|
| + for (i=0;i<ord;i++)
|
| + mem[i]=0;
|
| + iir_mem16(xx, ak, y, N, ord, mem, stack);
|
| + for (i=0;i<ord;i++)
|
| + mem[i]=0;
|
| + filter_mem16(y, awk1, awk2, y, N, ord, mem, stack);
|
| +}
|
| +void residue_percep_zero16(const spx_word16_t *xx, const spx_coef_t *ak, const spx_coef_t *awk1, const spx_coef_t *awk2, spx_word16_t *y, int N, int ord, char *stack)
|
| +{
|
| + int i;
|
| + VARDECL(spx_mem_t *mem);
|
| + ALLOC(mem, ord, spx_mem_t);
|
| + for (i=0;i<ord;i++)
|
| + mem[i]=0;
|
| + filter_mem16(xx, ak, awk1, y, N, ord, mem, stack);
|
| + for (i=0;i<ord;i++)
|
| + mem[i]=0;
|
| + fir_mem16(y, awk2, y, N, ord, mem, stack);
|
| +}
|
| +
|
| +
|
| +#ifndef OVERRIDE_COMPUTE_IMPULSE_RESPONSE
|
| +void compute_impulse_response(const spx_coef_t *ak, const spx_coef_t *awk1, const spx_coef_t *awk2, spx_word16_t *y, int N, int ord, char *stack)
|
| +{
|
| + int i,j;
|
| + spx_word16_t y1, ny1i, ny2i;
|
| + VARDECL(spx_mem_t *mem1);
|
| + VARDECL(spx_mem_t *mem2);
|
| + ALLOC(mem1, ord, spx_mem_t);
|
| + ALLOC(mem2, ord, spx_mem_t);
|
| +
|
| + y[0] = LPC_SCALING;
|
| + for (i=0;i<ord;i++)
|
| + y[i+1] = awk1[i];
|
| + i++;
|
| + for (;i<N;i++)
|
| + y[i] = VERY_SMALL;
|
| + for (i=0;i<ord;i++)
|
| + mem1[i] = mem2[i] = 0;
|
| + for (i=0;i<N;i++)
|
| + {
|
| + y1 = ADD16(y[i], EXTRACT16(PSHR32(mem1[0],LPC_SHIFT)));
|
| + ny1i = NEG16(y1);
|
| + y[i] = PSHR32(ADD32(SHL32(EXTEND32(y1),LPC_SHIFT+1),mem2[0]),LPC_SHIFT);
|
| + ny2i = NEG16(y[i]);
|
| + for (j=0;j<ord-1;j++)
|
| + {
|
| + mem1[j] = MAC16_16(mem1[j+1], awk2[j],ny1i);
|
| + mem2[j] = MAC16_16(mem2[j+1], ak[j],ny2i);
|
| + }
|
| + mem1[ord-1] = MULT16_16(awk2[ord-1],ny1i);
|
| + mem2[ord-1] = MULT16_16(ak[ord-1],ny2i);
|
| + }
|
| +}
|
| +#endif
|
| +
|
| +/* Decomposes a signal into low-band and high-band using a QMF */
|
| +void qmf_decomp(const spx_word16_t *xx, const spx_word16_t *aa, spx_word16_t *y1, spx_word16_t *y2, int N, int M, spx_word16_t *mem, char *stack)
|
| +{
|
| + int i,j,k,M2;
|
| + VARDECL(spx_word16_t *a);
|
| + VARDECL(spx_word16_t *x);
|
| + spx_word16_t *x2;
|
| +
|
| + ALLOC(a, M, spx_word16_t);
|
| + ALLOC(x, N+M-1, spx_word16_t);
|
| + x2=x+M-1;
|
| + M2=M>>1;
|
| + for (i=0;i<M;i++)
|
| + a[M-i-1]= aa[i];
|
| + for (i=0;i<M-1;i++)
|
| + x[i]=mem[M-i-2];
|
| + for (i=0;i<N;i++)
|
| + x[i+M-1]=SHR16(xx[i],1);
|
| + for (i=0;i<M-1;i++)
|
| + mem[i]=SHR16(xx[N-i-1],1);
|
| + for (i=0,k=0;i<N;i+=2,k++)
|
| + {
|
| + spx_word32_t y1k=0, y2k=0;
|
| + for (j=0;j<M2;j++)
|
| + {
|
| + y1k=ADD32(y1k,MULT16_16(a[j],ADD16(x[i+j],x2[i-j])));
|
| + y2k=SUB32(y2k,MULT16_16(a[j],SUB16(x[i+j],x2[i-j])));
|
| + j++;
|
| + y1k=ADD32(y1k,MULT16_16(a[j],ADD16(x[i+j],x2[i-j])));
|
| + y2k=ADD32(y2k,MULT16_16(a[j],SUB16(x[i+j],x2[i-j])));
|
| + }
|
| + y1[k] = EXTRACT16(SATURATE(PSHR32(y1k,15),32767));
|
| + y2[k] = EXTRACT16(SATURATE(PSHR32(y2k,15),32767));
|
| + }
|
| +}
|
| +
|
| +/* Re-synthesised a signal from the QMF low-band and high-band signals */
|
| +void qmf_synth(const spx_word16_t *x1, const spx_word16_t *x2, const spx_word16_t *a, spx_word16_t *y, int N, int M, spx_word16_t *mem1, spx_word16_t *mem2, char *stack)
|
| + /* assumptions:
|
| + all odd x[i] are zero -- well, actually they are left out of the array now
|
| + N and M are multiples of 4 */
|
| +{
|
| + int i, j;
|
| + int M2, N2;
|
| + VARDECL(spx_word16_t *xx1);
|
| + VARDECL(spx_word16_t *xx2);
|
| +
|
| + M2 = M>>1;
|
| + N2 = N>>1;
|
| + ALLOC(xx1, M2+N2, spx_word16_t);
|
| + ALLOC(xx2, M2+N2, spx_word16_t);
|
| +
|
| + for (i = 0; i < N2; i++)
|
| + xx1[i] = x1[N2-1-i];
|
| + for (i = 0; i < M2; i++)
|
| + xx1[N2+i] = mem1[2*i+1];
|
| + for (i = 0; i < N2; i++)
|
| + xx2[i] = x2[N2-1-i];
|
| + for (i = 0; i < M2; i++)
|
| + xx2[N2+i] = mem2[2*i+1];
|
| +
|
| + for (i = 0; i < N2; i += 2) {
|
| + spx_sig_t y0, y1, y2, y3;
|
| + spx_word16_t x10, x20;
|
| +
|
| + y0 = y1 = y2 = y3 = 0;
|
| + x10 = xx1[N2-2-i];
|
| + x20 = xx2[N2-2-i];
|
| +
|
| + for (j = 0; j < M2; j += 2) {
|
| + spx_word16_t x11, x21;
|
| + spx_word16_t a0, a1;
|
| +
|
| + a0 = a[2*j];
|
| + a1 = a[2*j+1];
|
| + x11 = xx1[N2-1+j-i];
|
| + x21 = xx2[N2-1+j-i];
|
| +
|
| +#ifdef FIXED_POINT
|
| + /* We multiply twice by the same coef to avoid overflows */
|
| + y0 = MAC16_16(MAC16_16(y0, a0, x11), NEG16(a0), x21);
|
| + y1 = MAC16_16(MAC16_16(y1, a1, x11), a1, x21);
|
| + y2 = MAC16_16(MAC16_16(y2, a0, x10), NEG16(a0), x20);
|
| + y3 = MAC16_16(MAC16_16(y3, a1, x10), a1, x20);
|
| +#else
|
| + y0 = ADD32(y0,MULT16_16(a0, x11-x21));
|
| + y1 = ADD32(y1,MULT16_16(a1, x11+x21));
|
| + y2 = ADD32(y2,MULT16_16(a0, x10-x20));
|
| + y3 = ADD32(y3,MULT16_16(a1, x10+x20));
|
| +#endif
|
| + a0 = a[2*j+2];
|
| + a1 = a[2*j+3];
|
| + x10 = xx1[N2+j-i];
|
| + x20 = xx2[N2+j-i];
|
| +
|
| +#ifdef FIXED_POINT
|
| + /* We multiply twice by the same coef to avoid overflows */
|
| + y0 = MAC16_16(MAC16_16(y0, a0, x10), NEG16(a0), x20);
|
| + y1 = MAC16_16(MAC16_16(y1, a1, x10), a1, x20);
|
| + y2 = MAC16_16(MAC16_16(y2, a0, x11), NEG16(a0), x21);
|
| + y3 = MAC16_16(MAC16_16(y3, a1, x11), a1, x21);
|
| +#else
|
| + y0 = ADD32(y0,MULT16_16(a0, x10-x20));
|
| + y1 = ADD32(y1,MULT16_16(a1, x10+x20));
|
| + y2 = ADD32(y2,MULT16_16(a0, x11-x21));
|
| + y3 = ADD32(y3,MULT16_16(a1, x11+x21));
|
| +#endif
|
| + }
|
| +#ifdef FIXED_POINT
|
| + y[2*i] = EXTRACT16(SATURATE32(PSHR32(y0,15),32767));
|
| + y[2*i+1] = EXTRACT16(SATURATE32(PSHR32(y1,15),32767));
|
| + y[2*i+2] = EXTRACT16(SATURATE32(PSHR32(y2,15),32767));
|
| + y[2*i+3] = EXTRACT16(SATURATE32(PSHR32(y3,15),32767));
|
| +#else
|
| + /* Normalize up explicitly if we're in float */
|
| + y[2*i] = 2.f*y0;
|
| + y[2*i+1] = 2.f*y1;
|
| + y[2*i+2] = 2.f*y2;
|
| + y[2*i+3] = 2.f*y3;
|
| +#endif
|
| + }
|
| +
|
| + for (i = 0; i < M2; i++)
|
| + mem1[2*i+1] = xx1[i];
|
| + for (i = 0; i < M2; i++)
|
| + mem2[2*i+1] = xx2[i];
|
| +}
|
| +
|
| +#ifdef FIXED_POINT
|
| +#if 0
|
| +const spx_word16_t shift_filt[3][7] = {{-33, 1043, -4551, 19959, 19959, -4551, 1043},
|
| + {-98, 1133, -4425, 29179, 8895, -2328, 444},
|
| + {444, -2328, 8895, 29179, -4425, 1133, -98}};
|
| +#else
|
| +const spx_word16_t shift_filt[3][7] = {{-390, 1540, -4993, 20123, 20123, -4993, 1540},
|
| + {-1064, 2817, -6694, 31589, 6837, -990, -209},
|
| + {-209, -990, 6837, 31589, -6694, 2817, -1064}};
|
| +#endif
|
| +#else
|
| +#if 0
|
| +const float shift_filt[3][7] = {{-9.9369e-04, 3.1831e-02, -1.3889e-01, 6.0910e-01, 6.0910e-01, -1.3889e-01, 3.1831e-02},
|
| + {-0.0029937, 0.0345613, -0.1350474, 0.8904793, 0.2714479, -0.0710304, 0.0135403},
|
| + {0.0135403, -0.0710304, 0.2714479, 0.8904793, -0.1350474, 0.0345613, -0.0029937}};
|
| +#else
|
| +const float shift_filt[3][7] = {{-0.011915f, 0.046995f, -0.152373f, 0.614108f, 0.614108f, -0.152373f, 0.046995f},
|
| + {-0.0324855f, 0.0859768f, -0.2042986f, 0.9640297f, 0.2086420f, -0.0302054f, -0.0063646f},
|
| + {-0.0063646f, -0.0302054f, 0.2086420f, 0.9640297f, -0.2042986f, 0.0859768f, -0.0324855f}};
|
| +#endif
|
| +#endif
|
| +
|
| +int interp_pitch(
|
| +spx_word16_t *exc, /*decoded excitation*/
|
| +spx_word16_t *interp, /*decoded excitation*/
|
| +int pitch, /*pitch period*/
|
| +int len
|
| +)
|
| +{
|
| + int i,j,k;
|
| + spx_word32_t corr[4][7];
|
| + spx_word32_t maxcorr;
|
| + int maxi, maxj;
|
| + for (i=0;i<7;i++)
|
| + {
|
| + corr[0][i] = inner_prod(exc, exc-pitch-3+i, len);
|
| + }
|
| + for (i=0;i<3;i++)
|
| + {
|
| + for (j=0;j<7;j++)
|
| + {
|
| + int i1, i2;
|
| + spx_word32_t tmp=0;
|
| + i1 = 3-j;
|
| + if (i1<0)
|
| + i1 = 0;
|
| + i2 = 10-j;
|
| + if (i2>7)
|
| + i2 = 7;
|
| + for (k=i1;k<i2;k++)
|
| + tmp += MULT16_32_Q15(shift_filt[i][k],corr[0][j+k-3]);
|
| + corr[i+1][j] = tmp;
|
| + }
|
| + }
|
| + maxi=maxj=0;
|
| + maxcorr = corr[0][0];
|
| + for (i=0;i<4;i++)
|
| + {
|
| + for (j=0;j<7;j++)
|
| + {
|
| + if (corr[i][j] > maxcorr)
|
| + {
|
| + maxcorr = corr[i][j];
|
| + maxi=i;
|
| + maxj=j;
|
| + }
|
| + }
|
| + }
|
| + for (i=0;i<len;i++)
|
| + {
|
| + spx_word32_t tmp = 0;
|
| + if (maxi>0)
|
| + {
|
| + for (k=0;k<7;k++)
|
| + {
|
| + tmp += MULT16_16(exc[i-(pitch-maxj+3)+k-3],shift_filt[maxi-1][k]);
|
| + }
|
| + } else {
|
| + tmp = SHL32(exc[i-(pitch-maxj+3)],15);
|
| + }
|
| + interp[i] = PSHR32(tmp,15);
|
| + }
|
| + return pitch-maxj+3;
|
| +}
|
| +
|
| +void multicomb(
|
| +spx_word16_t *exc, /*decoded excitation*/
|
| +spx_word16_t *new_exc, /*enhanced excitation*/
|
| +spx_coef_t *ak, /*LPC filter coefs*/
|
| +int p, /*LPC order*/
|
| +int nsf, /*sub-frame size*/
|
| +int pitch, /*pitch period*/
|
| +int max_pitch,
|
| +spx_word16_t comb_gain, /*gain of comb filter*/
|
| +char *stack
|
| +)
|
| +{
|
| + int i;
|
| + VARDECL(spx_word16_t *iexc);
|
| + spx_word16_t old_ener, new_ener;
|
| + int corr_pitch;
|
| +
|
| + spx_word16_t iexc0_mag, iexc1_mag, exc_mag;
|
| + spx_word32_t corr0, corr1;
|
| + spx_word16_t gain0, gain1;
|
| + spx_word16_t pgain1, pgain2;
|
| + spx_word16_t c1, c2;
|
| + spx_word16_t g1, g2;
|
| + spx_word16_t ngain;
|
| + spx_word16_t gg1, gg2;
|
| +#ifdef FIXED_POINT
|
| + int scaledown=0;
|
| +#endif
|
| +#if 0 /* Set to 1 to enable full pitch search */
|
| + int nol_pitch[6];
|
| + spx_word16_t nol_pitch_coef[6];
|
| + spx_word16_t ol_pitch_coef;
|
| + open_loop_nbest_pitch(exc, 20, 120, nsf,
|
| + nol_pitch, nol_pitch_coef, 6, stack);
|
| + corr_pitch=nol_pitch[0];
|
| + ol_pitch_coef = nol_pitch_coef[0];
|
| + /*Try to remove pitch multiples*/
|
| + for (i=1;i<6;i++)
|
| + {
|
| +#ifdef FIXED_POINT
|
| + if ((nol_pitch_coef[i]>MULT16_16_Q15(nol_pitch_coef[0],19661)) &&
|
| +#else
|
| + if ((nol_pitch_coef[i]>.6*nol_pitch_coef[0]) &&
|
| +#endif
|
| + (ABS(2*nol_pitch[i]-corr_pitch)<=2 || ABS(3*nol_pitch[i]-corr_pitch)<=3 ||
|
| + ABS(4*nol_pitch[i]-corr_pitch)<=4 || ABS(5*nol_pitch[i]-corr_pitch)<=5))
|
| + {
|
| + corr_pitch = nol_pitch[i];
|
| + }
|
| + }
|
| +#else
|
| + corr_pitch = pitch;
|
| +#endif
|
| +
|
| + ALLOC(iexc, 2*nsf, spx_word16_t);
|
| +
|
| + interp_pitch(exc, iexc, corr_pitch, 80);
|
| + if (corr_pitch>max_pitch)
|
| + interp_pitch(exc, iexc+nsf, 2*corr_pitch, 80);
|
| + else
|
| + interp_pitch(exc, iexc+nsf, -corr_pitch, 80);
|
| +
|
| +#ifdef FIXED_POINT
|
| + for (i=0;i<nsf;i++)
|
| + {
|
| + if (ABS16(exc[i])>16383)
|
| + {
|
| + scaledown = 1;
|
| + break;
|
| + }
|
| + }
|
| + if (scaledown)
|
| + {
|
| + for (i=0;i<nsf;i++)
|
| + exc[i] = SHR16(exc[i],1);
|
| + for (i=0;i<2*nsf;i++)
|
| + iexc[i] = SHR16(iexc[i],1);
|
| + }
|
| +#endif
|
| + /*interp_pitch(exc, iexc+2*nsf, 2*corr_pitch, 80);*/
|
| +
|
| + /*printf ("%d %d %f\n", pitch, corr_pitch, max_corr*ener_1);*/
|
| + iexc0_mag = spx_sqrt(1000+inner_prod(iexc,iexc,nsf));
|
| + iexc1_mag = spx_sqrt(1000+inner_prod(iexc+nsf,iexc+nsf,nsf));
|
| + exc_mag = spx_sqrt(1+inner_prod(exc,exc,nsf));
|
| + corr0 = inner_prod(iexc,exc,nsf);
|
| + if (corr0<0)
|
| + corr0=0;
|
| + corr1 = inner_prod(iexc+nsf,exc,nsf);
|
| + if (corr1<0)
|
| + corr1=0;
|
| +#ifdef FIXED_POINT
|
| + /* Doesn't cost much to limit the ratio and it makes the rest easier */
|
| + if (SHL32(EXTEND32(iexc0_mag),6) < EXTEND32(exc_mag))
|
| + iexc0_mag = ADD16(1,PSHR16(exc_mag,6));
|
| + if (SHL32(EXTEND32(iexc1_mag),6) < EXTEND32(exc_mag))
|
| + iexc1_mag = ADD16(1,PSHR16(exc_mag,6));
|
| +#endif
|
| + if (corr0 > MULT16_16(iexc0_mag,exc_mag))
|
| + pgain1 = QCONST16(1., 14);
|
| + else
|
| + pgain1 = PDIV32_16(SHL32(PDIV32(corr0, exc_mag),14),iexc0_mag);
|
| + if (corr1 > MULT16_16(iexc1_mag,exc_mag))
|
| + pgain2 = QCONST16(1., 14);
|
| + else
|
| + pgain2 = PDIV32_16(SHL32(PDIV32(corr1, exc_mag),14),iexc1_mag);
|
| + gg1 = PDIV32_16(SHL32(EXTEND32(exc_mag),8), iexc0_mag);
|
| + gg2 = PDIV32_16(SHL32(EXTEND32(exc_mag),8), iexc1_mag);
|
| + if (comb_gain>0)
|
| + {
|
| +#ifdef FIXED_POINT
|
| + c1 = (MULT16_16_Q15(QCONST16(.4,15),comb_gain)+QCONST16(.07,15));
|
| + c2 = QCONST16(.5,15)+MULT16_16_Q14(QCONST16(1.72,14),(c1-QCONST16(.07,15)));
|
| +#else
|
| + c1 = .4*comb_gain+.07;
|
| + c2 = .5+1.72*(c1-.07);
|
| +#endif
|
| + } else
|
| + {
|
| + c1=c2=0;
|
| + }
|
| +#ifdef FIXED_POINT
|
| + g1 = 32767 - MULT16_16_Q13(MULT16_16_Q15(c2, pgain1),pgain1);
|
| + g2 = 32767 - MULT16_16_Q13(MULT16_16_Q15(c2, pgain2),pgain2);
|
| +#else
|
| + g1 = 1-c2*pgain1*pgain1;
|
| + g2 = 1-c2*pgain2*pgain2;
|
| +#endif
|
| + if (g1<c1)
|
| + g1 = c1;
|
| + if (g2<c1)
|
| + g2 = c1;
|
| + g1 = (spx_word16_t)PDIV32_16(SHL32(EXTEND32(c1),14),(spx_word16_t)g1);
|
| + g2 = (spx_word16_t)PDIV32_16(SHL32(EXTEND32(c1),14),(spx_word16_t)g2);
|
| + if (corr_pitch>max_pitch)
|
| + {
|
| + gain0 = MULT16_16_Q15(QCONST16(.7,15),MULT16_16_Q14(g1,gg1));
|
| + gain1 = MULT16_16_Q15(QCONST16(.3,15),MULT16_16_Q14(g2,gg2));
|
| + } else {
|
| + gain0 = MULT16_16_Q15(QCONST16(.6,15),MULT16_16_Q14(g1,gg1));
|
| + gain1 = MULT16_16_Q15(QCONST16(.6,15),MULT16_16_Q14(g2,gg2));
|
| + }
|
| + for (i=0;i<nsf;i++)
|
| + new_exc[i] = ADD16(exc[i], EXTRACT16(PSHR32(ADD32(MULT16_16(gain0,iexc[i]), MULT16_16(gain1,iexc[i+nsf])),8)));
|
| + /* FIXME: compute_rms16 is currently not quite accurate enough (but close) */
|
| + new_ener = compute_rms16(new_exc, nsf);
|
| + old_ener = compute_rms16(exc, nsf);
|
| +
|
| + if (old_ener < 1)
|
| + old_ener = 1;
|
| + if (new_ener < 1)
|
| + new_ener = 1;
|
| + if (old_ener > new_ener)
|
| + old_ener = new_ener;
|
| + ngain = PDIV32_16(SHL32(EXTEND32(old_ener),14),new_ener);
|
| +
|
| + for (i=0;i<nsf;i++)
|
| + new_exc[i] = MULT16_16_Q14(ngain, new_exc[i]);
|
| +#ifdef FIXED_POINT
|
| + if (scaledown)
|
| + {
|
| + for (i=0;i<nsf;i++)
|
| + exc[i] = SHL16(exc[i],1);
|
| + for (i=0;i<nsf;i++)
|
| + new_exc[i] = SHL16(SATURATE16(new_exc[i],16383),1);
|
| + }
|
| +#endif
|
| +}
|
| +
|
|
|
| Property changes on: speex/libspeex/filters.c
|
| ___________________________________________________________________
|
| Name: svn:executable
|
| + *
|
|
|
|
|
Chromium Code Reviews
Issue 3119024:
Add speex to trunk/deps/third_party/.... (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/deps/third_party/