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/* Copyright (c) 2007-2008 CSIRO
Copyright (c) 2007-2009 Xiph.Org Foundation
Written by Jean-Marc Valin */
/**
@file pitch.c
@brief Pitch analysis
*/
/*
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.
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 COPYRIGHT OWNER
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.
*/
#include "opus/opus_config.h"
#include "opus/celt/pitch.h"
#include "opus/celt/os_support.h"
#include "opus/celt/modes.h"
#include "opus/celt/stack_alloc.h"
#include "opus/celt/mathops.h"
#include "opus/celt/celt_lpc.h"
static void find_best_pitch(opus_val32 *xcorr, opus_val16 *y, int len,
int max_pitch, int *best_pitch
#ifdef OPUS_FIXED_POINT
, int yshift, opus_val32 maxcorr
#endif
)
{
int i, j;
opus_val32 Syy=1;
opus_val16 best_num[2];
opus_val32 best_den[2];
#ifdef OPUS_FIXED_POINT
int xshift;
xshift = celt_ilog2(maxcorr)-14;
#endif
best_num[0] = -1;
best_num[1] = -1;
best_den[0] = 0;
best_den[1] = 0;
best_pitch[0] = 0;
best_pitch[1] = 1;
for (j=0;j<len;j++)
Syy = ADD32(Syy, SHR32(MULT16_16(y[j],y[j]), yshift));
for (i=0;i<max_pitch;i++)
{
if (xcorr[i]>0)
{
opus_val16 num;
opus_val32 xcorr16;
xcorr16 = EXTRACT16(VSHR32(xcorr[i], xshift));
#ifndef OPUS_FIXED_POINT
/* Considering the range of xcorr16, this should avoid both underflows
and overflows (inf) when squaring xcorr16 */
xcorr16 *= 1e-12f;
#endif
num = MULT16_16_Q15(xcorr16,xcorr16);
if (MULT16_32_Q15(num,best_den[1]) > MULT16_32_Q15(best_num[1],Syy))
{
if (MULT16_32_Q15(num,best_den[0]) > MULT16_32_Q15(best_num[0],Syy))
{
best_num[1] = best_num[0];
best_den[1] = best_den[0];
best_pitch[1] = best_pitch[0];
best_num[0] = num;
best_den[0] = Syy;
best_pitch[0] = i;
} else {
best_num[1] = num;
best_den[1] = Syy;
best_pitch[1] = i;
}
}
}
Syy += SHR32(MULT16_16(y[i+len],y[i+len]),yshift) - SHR32(MULT16_16(y[i],y[i]),yshift);
Syy = MAX32(1, Syy);
}
}
static void celt_fir5(const opus_val16 *x,
const opus_val16 *num,
opus_val16 *y,
int N,
opus_val16 *mem)
{
int i;
opus_val16 num0, num1, num2, num3, num4;
opus_val32 mem0, mem1, mem2, mem3, mem4;
num0=num[0];
num1=num[1];
num2=num[2];
num3=num[3];
num4=num[4];
mem0=mem[0];
mem1=mem[1];
mem2=mem[2];
mem3=mem[3];
mem4=mem[4];
for (i=0;i<N;i++)
{
opus_val32 sum = SHL32(EXTEND32(x[i]), SIG_SHIFT);
sum = MAC16_16(sum,num0,mem0);
sum = MAC16_16(sum,num1,mem1);
sum = MAC16_16(sum,num2,mem2);
sum = MAC16_16(sum,num3,mem3);
sum = MAC16_16(sum,num4,mem4);
mem4 = mem3;
mem3 = mem2;
mem2 = mem1;
mem1 = mem0;
mem0 = x[i];
y[i] = ROUND16(sum, SIG_SHIFT);
}
mem[0]=mem0;
mem[1]=mem1;
mem[2]=mem2;
mem[3]=mem3;
mem[4]=mem4;
}
void pitch_downsample(celt_sig * OPUS_RESTRICT x[], opus_val16 * OPUS_RESTRICT x_lp,
int len, int C, int arch)
{
int i;
opus_val32 ac[5];
opus_val16 tmp=Q15ONE;
opus_val16 lpc[4], mem[5]={0,0,0,0,0};
opus_val16 lpc2[5];
opus_val16 c1 = QCONST16(.8f,15);
#ifdef OPUS_FIXED_POINT
int shift;
opus_val32 maxabs = celt_maxabs32(x[0], len);
if (C==2)
{
opus_val32 maxabs_1 = celt_maxabs32(x[1], len);
maxabs = MAX32(maxabs, maxabs_1);
}
if (maxabs<1)
maxabs=1;
shift = celt_ilog2(maxabs)-10;
if (shift<0)
shift=0;
if (C==2)
shift++;
#endif
for (i=1;i<len>>1;i++)
x_lp[i] = SHR32(HALF32(HALF32(x[0][(2*i-1)]+x[0][(2*i+1)])+x[0][2*i]), shift);
x_lp[0] = SHR32(HALF32(HALF32(x[0][1])+x[0][0]), shift);
if (C==2)
{
for (i=1;i<len>>1;i++)
x_lp[i] += SHR32(HALF32(HALF32(x[1][(2*i-1)]+x[1][(2*i+1)])+x[1][2*i]), shift);
x_lp[0] += SHR32(HALF32(HALF32(x[1][1])+x[1][0]), shift);
}
_celt_autocorr(x_lp, ac, NULL, 0,
4, len>>1, arch);
/* Noise floor -40 dB */
#ifdef OPUS_FIXED_POINT
ac[0] += SHR32(ac[0],13);
#else
ac[0] *= 1.0001f;
#endif
/* Lag windowing */
for (i=1;i<=4;i++)
{
/*ac[i] *= exp(-.5*(2*M_PI*.002*i)*(2*M_PI*.002*i));*/
#ifdef OPUS_FIXED_POINT
ac[i] -= MULT16_32_Q15(2*i*i, ac[i]);
#else
ac[i] -= ac[i]*(.008f*i)*(.008f*i);
#endif
}
_celt_lpc(lpc, ac, 4);
for (i=0;i<4;i++)
{
tmp = MULT16_16_Q15(QCONST16(.9f,15), tmp);
lpc[i] = MULT16_16_Q15(lpc[i], tmp);
}
/* Add a zero */
lpc2[0] = lpc[0] + QCONST16(.8f,SIG_SHIFT);
lpc2[1] = lpc[1] + MULT16_16_Q15(c1,lpc[0]);
lpc2[2] = lpc[2] + MULT16_16_Q15(c1,lpc[1]);
lpc2[3] = lpc[3] + MULT16_16_Q15(c1,lpc[2]);
lpc2[4] = MULT16_16_Q15(c1,lpc[3]);
celt_fir5(x_lp, lpc2, x_lp, len>>1, mem);
}
/* Pure C implementation. */
#ifdef OPUS_FIXED_POINT
opus_val32
#else
void
#endif
#if defined(OVERRIDE_PITCH_XCORR)
celt_pitch_xcorr_c(const opus_val16 *_x, const opus_val16 *_y,
opus_val32 *xcorr, int len, int max_pitch)
#else
celt_pitch_xcorr(const opus_val16 *_x, const opus_val16 *_y,
opus_val32 *xcorr, int len, int max_pitch, int arch)
#endif
{
#if 0 /* This is a simple version of the pitch correlation that should work
well on DSPs like Blackfin and TI C5x/C6x */
int i, j;
#ifdef OPUS_FIXED_POINT
opus_val32 maxcorr=1;
#endif
#if !defined(OVERRIDE_PITCH_XCORR)
(void)arch;
#endif
for (i=0;i<max_pitch;i++)
{
opus_val32 sum = 0;
for (j=0;j<len;j++)
sum = MAC16_16(sum, _x[j], _y[i+j]);
xcorr[i] = sum;
#ifdef OPUS_FIXED_POINT
maxcorr = MAX32(maxcorr, sum);
#endif
}
#ifdef OPUS_FIXED_POINT
return maxcorr;
#endif
#else /* Unrolled version of the pitch correlation -- runs faster on x86 and ARM */
int i;
/*The EDSP version requires that max_pitch is at least 1, and that _x is
32-bit aligned.
Since it's hard to put asserts in assembly, put them here.*/
#ifdef OPUS_FIXED_POINT
opus_val32 maxcorr=1;
#endif
celt_assert(max_pitch>0);
celt_assert((((unsigned char *)_x-(unsigned char *)NULL)&3)==0);
for (i=0;i<max_pitch-3;i+=4)
{
opus_val32 sum[4]={0,0,0,0};
#if defined(OVERRIDE_PITCH_XCORR)
xcorr_kernel_c(_x, _y+i, sum, len);
#else
xcorr_kernel(_x, _y+i, sum, len, arch);
#endif
xcorr[i]=sum[0];
xcorr[i+1]=sum[1];
xcorr[i+2]=sum[2];
xcorr[i+3]=sum[3];
#ifdef OPUS_FIXED_POINT
sum[0] = MAX32(sum[0], sum[1]);
sum[2] = MAX32(sum[2], sum[3]);
sum[0] = MAX32(sum[0], sum[2]);
maxcorr = MAX32(maxcorr, sum[0]);
#endif
}
/* In case max_pitch isn't a multiple of 4, do non-unrolled version. */
for (;i<max_pitch;i++)
{
opus_val32 sum;
#if defined(OVERRIDE_PITCH_XCORR)
sum = celt_inner_prod_c(_x, _y+i, len);
#else
sum = celt_inner_prod(_x, _y+i, len, arch);
#endif
xcorr[i] = sum;
#ifdef OPUS_FIXED_POINT
maxcorr = MAX32(maxcorr, sum);
#endif
}
#ifdef OPUS_FIXED_POINT
return maxcorr;
#endif
#endif
}
void pitch_search(const opus_val16 * OPUS_RESTRICT x_lp, opus_val16 * OPUS_RESTRICT y,
int len, int max_pitch, int *pitch, int arch)
{
int i, j;
int lag;
int best_pitch[2]={0,0};
VARDECL(opus_val16, x_lp4);
VARDECL(opus_val16, y_lp4);
VARDECL(opus_val32, xcorr);
#ifdef OPUS_FIXED_POINT
opus_val32 maxcorr;
opus_val32 xmax, ymax;
int shift=0;
#endif
int offset;
SAVE_STACK;
celt_assert(len>0);
celt_assert(max_pitch>0);
lag = len+max_pitch;
ALLOC(x_lp4, len>>2, opus_val16);
ALLOC(y_lp4, lag>>2, opus_val16);
ALLOC(xcorr, max_pitch>>1, opus_val32);
/* Downsample by 2 again */
for (j=0;j<len>>2;j++)
x_lp4[j] = x_lp[2*j];
for (j=0;j<lag>>2;j++)
y_lp4[j] = y[2*j];
#ifdef OPUS_FIXED_POINT
xmax = celt_maxabs16(x_lp4, len>>2);
ymax = celt_maxabs16(y_lp4, lag>>2);
shift = celt_ilog2(MAX32(1, MAX32(xmax, ymax)))-11;
if (shift>0)
{
for (j=0;j<len>>2;j++)
x_lp4[j] = SHR16(x_lp4[j], shift);
for (j=0;j<lag>>2;j++)
y_lp4[j] = SHR16(y_lp4[j], shift);
/* Use double the shift for a MAC */
shift *= 2;
} else {
shift = 0;
}
#endif
/* Coarse search with 4x decimation */
#ifdef OPUS_FIXED_POINT
maxcorr =
#endif
celt_pitch_xcorr(x_lp4, y_lp4, xcorr, len>>2, max_pitch>>2, arch);
find_best_pitch(xcorr, y_lp4, len>>2, max_pitch>>2, best_pitch
#ifdef OPUS_FIXED_POINT
, 0, maxcorr
#endif
);
/* Finer search with 2x decimation */
#ifdef OPUS_FIXED_POINT
maxcorr=1;
#endif
for (i=0;i<max_pitch>>1;i++)
{
opus_val32 sum;
xcorr[i] = 0;
if (abs(i-2*best_pitch[0])>2 && abs(i-2*best_pitch[1])>2)
continue;
#ifdef OPUS_FIXED_POINT
sum = 0;
for (j=0;j<len>>1;j++)
sum += SHR32(MULT16_16(x_lp[j],y[i+j]), shift);
#else
sum = celt_inner_prod_c(x_lp, y+i, len>>1);
#endif
xcorr[i] = MAX32(-1, sum);
#ifdef OPUS_FIXED_POINT
maxcorr = MAX32(maxcorr, sum);
#endif
}
find_best_pitch(xcorr, y, len>>1, max_pitch>>1, best_pitch
#ifdef OPUS_FIXED_POINT
, shift+1, maxcorr
#endif
);
/* Refine by pseudo-interpolation */
if (best_pitch[0]>0 && best_pitch[0]<(max_pitch>>1)-1)
{
opus_val32 a, b, c;
a = xcorr[best_pitch[0]-1];
b = xcorr[best_pitch[0]];
c = xcorr[best_pitch[0]+1];
if ((c-a) > MULT16_32_Q15(QCONST16(.7f,15),b-a))
offset = 1;
else if ((a-c) > MULT16_32_Q15(QCONST16(.7f,15),b-c))
offset = -1;
else
offset = 0;
} else {
offset = 0;
}
*pitch = 2*best_pitch[0]-offset;
RESTORE_STACK;
}
static const int second_check[16] = {0, 0, 3, 2, 3, 2, 5, 2, 3, 2, 3, 2, 5, 2, 3, 2};
opus_val16 remove_doubling(opus_val16 *x, int maxperiod, int minperiod,
int N, int *T0_, int prev_period, opus_val16 prev_gain, int arch)
{
int k, i, T, T0;
opus_val16 g, g0;
opus_val16 pg;
opus_val32 xy,xx,yy,xy2;
opus_val32 xcorr[3];
opus_val32 best_xy, best_yy;
int offset;
int minperiod0;
VARDECL(opus_val32, yy_lookup);
SAVE_STACK;
minperiod0 = minperiod;
maxperiod /= 2;
minperiod /= 2;
*T0_ /= 2;
prev_period /= 2;
N /= 2;
x += maxperiod;
if (*T0_>=maxperiod)
*T0_=maxperiod-1;
T = T0 = *T0_;
ALLOC(yy_lookup, maxperiod+1, opus_val32);
dual_inner_prod(x, x, x-T0, N, &xx, &xy, arch);
yy_lookup[0] = xx;
yy=xx;
for (i=1;i<=maxperiod;i++)
{
yy = yy+MULT16_16(x[-i],x[-i])-MULT16_16(x[N-i],x[N-i]);
yy_lookup[i] = MAX32(0, yy);
}
yy = yy_lookup[T0];
best_xy = xy;
best_yy = yy;
#ifdef OPUS_FIXED_POINT
{
opus_val32 x2y2;
int sh, t;
x2y2 = 1+HALF32(MULT32_32_Q31(xx,yy));
sh = celt_ilog2(x2y2)>>1;
t = VSHR32(x2y2, 2*(sh-7));
g = g0 = VSHR32(MULT16_32_Q15(celt_rsqrt_norm(t), xy),sh+1);
}
#else
g = g0 = xy/celt_sqrt(1+xx*yy);
#endif
/* Look for any pitch at T/k */
for (k=2;k<=15;k++)
{
int T1, T1b;
opus_val16 g1;
opus_val16 cont=0;
opus_val16 thresh;
T1 = celt_udiv(2*T0+k, 2*k);
if (T1 < minperiod)
break;
/* Look for another strong correlation at T1b */
if (k==2)
{
if (T1+T0>maxperiod)
T1b = T0;
else
T1b = T0+T1;
} else
{
T1b = celt_udiv(2*second_check[k]*T0+k, 2*k);
}
dual_inner_prod(x, &x[-T1], &x[-T1b], N, &xy, &xy2, arch);
xy += xy2;
yy = yy_lookup[T1] + yy_lookup[T1b];
#ifdef OPUS_FIXED_POINT
{
opus_val32 x2y2;
int sh, t;
x2y2 = 1+MULT32_32_Q31(xx,yy);
sh = celt_ilog2(x2y2)>>1;
t = VSHR32(x2y2, 2*(sh-7));
g1 = VSHR32(MULT16_32_Q15(celt_rsqrt_norm(t), xy),sh+1);
}
#else
g1 = xy/celt_sqrt(1+2.f*xx*1.f*yy);
#endif
if (abs(T1-prev_period)<=1)
cont = prev_gain;
else if (abs(T1-prev_period)<=2 && 5*k*k < T0)
cont = HALF32(prev_gain);
else
cont = 0;
thresh = MAX16(QCONST16(.3f,15), MULT16_16_Q15(QCONST16(.7f,15),g0)-cont);
/* Bias against very high pitch (very short period) to avoid false-positives
due to short-term correlation */
if (T1<3*minperiod)
thresh = MAX16(QCONST16(.4f,15), MULT16_16_Q15(QCONST16(.85f,15),g0)-cont);
else if (T1<2*minperiod)
thresh = MAX16(QCONST16(.5f,15), MULT16_16_Q15(QCONST16(.9f,15),g0)-cont);
if (g1 > thresh)
{
best_xy = xy;
best_yy = yy;
T = T1;
g = g1;
}
}
best_xy = MAX32(0, best_xy);
if (best_yy <= best_xy)
pg = Q15ONE;
else
pg = SHR32(frac_div32(best_xy,best_yy+1),16);
for (k=0;k<3;k++)
xcorr[k] = celt_inner_prod(x, x-(T+k-1), N, arch);
if ((xcorr[2]-xcorr[0]) > MULT16_32_Q15(QCONST16(.7f,15),xcorr[1]-xcorr[0]))
offset = 1;
else if ((xcorr[0]-xcorr[2]) > MULT16_32_Q15(QCONST16(.7f,15),xcorr[1]-xcorr[2]))
offset = -1;
else
offset = 0;
if (pg > g)
pg = g;
*T0_ = 2*T+offset;
if (*T0_<minperiod0)
*T0_=minperiod0;
RESTORE_STACK;
return pg;
}
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