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FFmpeg/libavcodec/i386/fft_3dn2.c

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/*
* FFT/MDCT transform with Extended 3DNow! optimizations
* Copyright (c) 2006 Zuxy MENG Jie, Loren Merritt
* Based on fft_sse.c copyright (c) 2002 Fabrice Bellard.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "../dsputil.h"
#include <math.h>
#ifdef HAVE_MM3DNOW
#include <mm3dnow.h>
static const int p1m1[2] __attribute__((aligned(8))) =
{ 0, 1 << 31 };
static const int m1p1[2] __attribute__((aligned(8))) =
{ 1 << 31, 0 };
void ff_fft_calc_3dn2(FFTContext *s, FFTComplex *z)
{
int ln = s->nbits;
int j, np, np2;
int nblocks, nloops;
register FFTComplex *p, *q;
FFTComplex *cptr, *cptr1;
int k;
np = 1 << ln;
/* FEMMS is not a must here but recommended by AMD */
_m_femms();
{
__m64 *r, a0, a1, b0, b1, c;
r = (__m64 *)&z[0];
if (s->inverse)
c = *(__m64 *)m1p1;
else
c = *(__m64 *)p1m1;
j = (np >> 2);
do {
/* do the pass 0 butterfly */
a0 = _m_pfadd(r[0], r[1]);
a1 = _m_pfsub(r[0], r[1]);
/* do the pass 0 butterfly */
b0 = _m_pfadd(r[2], r[3]);
b1 = _m_pfsub(r[2], r[3]);
/* multiply third by -i */
b1 = _m_pswapd(b1);
b1 = _m_pxor(b1, c);
r[0] = _m_pfadd(a0, b0);
r[1] = _m_pfadd(a1, b1);
r[2] = _m_pfsub(a0, b0);
r[3] = _m_pfsub(a1, b1);
r += 4;
} while (--j != 0);
}
/* pass 2 .. ln-1 */
nblocks = np >> 3;
nloops = 1 << 2;
np2 = np >> 1;
cptr1 = s->exptab1;
do {
p = z;
q = z + nloops;
j = nblocks;
do {
cptr = cptr1;
k = nloops >> 1;
do {
__m64 a0, a1, b0, b1, c0, c1, t10, t11, t20, t21;
a0 = *(__m64 *)&p[0];
a1 = *(__m64 *)&p[1];
b0 = *(__m64 *)&q[0];
b1 = *(__m64 *)&q[1];
/* complex mul */
c0 = *(__m64 *)&cptr[0];
c1 = *(__m64 *)&cptr[1];
/* cre*re cim*im */
t10 = _m_pfmul(c0, b0);
t11 = _m_pfmul(c1, b1);
/* no need to access cptr[2] & cptr[3] */
c0 = _m_pswapd(c0);
c1 = _m_pswapd(c1);
/* cim*re cre*im */
t20 = _m_pfmul(c0, b0);
t21 = _m_pfmul(c1, b1);
/* cre*re-cim*im cim*re+cre*im */
b0 = _m_pfpnacc(t10, t20);
b1 = _m_pfpnacc(t11, t21);
/* butterfly */
*(__m64 *)&p[0] = _m_pfadd(a0, b0);
*(__m64 *)&p[1] = _m_pfadd(a1, b1);
*(__m64 *)&q[0] = _m_pfsub(a0, b0);
*(__m64 *)&q[1] = _m_pfsub(a1, b1);
p += 2;
q += 2;
cptr += 4;
} while (--k);
p += nloops;
q += nloops;
} while (--j);
cptr1 += nloops * 2;
nblocks = nblocks >> 1;
nloops = nloops << 1;
} while (nblocks != 0);
_m_femms();
}
#endif
void ff_imdct_calc_3dn2(MDCTContext *s, FFTSample *output,
const FFTSample *input, FFTSample *tmp)
{
long k, n8, n4, n2, n;
const uint16_t *revtab = s->fft.revtab;
const FFTSample *tcos = s->tcos;
const FFTSample *tsin = s->tsin;
const FFTSample *in1, *in2;
FFTComplex *z = (FFTComplex *)tmp;
n = 1 << s->nbits;
n2 = n >> 1;
n4 = n >> 2;
n8 = n >> 3;
/* pre rotation */
in1 = input;
in2 = input + n2 - 1;
for(k = 0; k < n4; k++) {
// FIXME a single block is faster, but gcc 2.95 and 3.4.x on 32bit can't compile it
asm volatile(
"movd %0, %%mm0 \n\t"
"movd %2, %%mm1 \n\t"
"punpckldq %1, %%mm0 \n\t"
"punpckldq %3, %%mm1 \n\t"
"movq %%mm0, %%mm2 \n\t"
"pfmul %%mm1, %%mm0 \n\t"
"pswapd %%mm1, %%mm1 \n\t"
"pfmul %%mm1, %%mm2 \n\t"
"pfpnacc %%mm2, %%mm0 \n\t"
::"m"(in2[-2*k]), "m"(in1[2*k]),
"m"(tcos[k]), "m"(tsin[k])
);
asm volatile(
"movq %%mm0, %0 \n\t"
:"=m"(z[revtab[k]])
);
}
ff_fft_calc(&s->fft, z);
/* post rotation + reordering */
for(k = 0; k < n4; k++) {
asm volatile(
"movq %0, %%mm0 \n\t"
"movd %1, %%mm1 \n\t"
"punpckldq %2, %%mm1 \n\t"
"movq %%mm0, %%mm2 \n\t"
"pfmul %%mm1, %%mm0 \n\t"
"pswapd %%mm1, %%mm1 \n\t"
"pfmul %%mm1, %%mm2 \n\t"
"pfpnacc %%mm2, %%mm0 \n\t"
"movq %%mm0, %0 \n\t"
:"+m"(z[k])
:"m"(tcos[k]), "m"(tsin[k])
);
}
z += n8;
asm volatile("movd %0, %%mm7" ::"r"(1<<31));
for(k = 0; k < n8; k++) {
asm volatile(
"movq %0, %%mm0 \n\t"
"pswapd %1, %%mm1 \n\t"
::"m"(z[k]), "m"(z[-1-k])
);
asm volatile(
"movq %%mm0, %%mm2 \n\t"
"pxor %%mm7, %%mm2 \n\t"
"punpckldq %%mm1, %%mm2 \n\t"
"pswapd %%mm2, %%mm3 \n\t"
"punpckhdq %%mm1, %%mm0 \n\t"
"pswapd %%mm0, %%mm4 \n\t"
"pxor %%mm7, %%mm0 \n\t"
"pxor %%mm7, %%mm4 \n\t"
"movq %%mm0, %0 \n\t" // { -z[n8+k].im, z[n8-1-k].re }
"movq %%mm4, %1 \n\t" // { -z[n8-1-k].re, z[n8+k].im }
"movq %%mm2, %2 \n\t" // { -z[n8+k].re, z[n8-1-k].im }
"movq %%mm3, %3 \n\t" // { z[n8-1-k].im, -z[n8+k].re }
:"=m"(output[2*k]), "=m"(output[n2-2-2*k]),
"=m"(output[n2+2*k]), "=m"(output[n-2-2*k])
::"memory"
);
}
asm volatile("emms");
}