ffmpeg/libavcodec/i386/fdct_mmx.c

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/*
* MMX optimized forward DCT
* The gcc porting is Copyright (c) 2001 Fabrice Bellard.
* cleanup/optimizations are Copyright (c) 2002-2004 Michael Niedermayer <michaelni@gmx.at>
* SSE2 optimization is Copyright (c) 2004 Denes Balatoni.
*
* from fdctam32.c - AP922 MMX(3D-Now) forward-DCT
*
* Intel Application Note AP-922 - fast, precise implementation of DCT
* http://developer.intel.com/vtune/cbts/appnotes.htm
*
* Also of inspiration:
* a page about fdct at http://www.geocities.com/ssavekar/dct.htm
* Skal's fdct at http://skal.planet-d.net/coding/dct.html
*
* This file is part of FFmpeg.
*
* FFmpeg 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 2.1 of the License, or (at your option) any later version.
*
* FFmpeg 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 FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "common.h"
#include "../dsputil.h"
#include "mmx.h"
#define ATTR_ALIGN(align) __attribute__ ((__aligned__ (align)))
//////////////////////////////////////////////////////////////////////
//
// constants for the forward DCT
// -----------------------------
//
// Be sure to check that your compiler is aligning all constants to QWORD
// (8-byte) memory boundaries! Otherwise the unaligned memory access will
// severely stall MMX execution.
//
//////////////////////////////////////////////////////////////////////
#define BITS_FRW_ACC 3 //; 2 or 3 for accuracy
#define SHIFT_FRW_COL BITS_FRW_ACC
#define SHIFT_FRW_ROW (BITS_FRW_ACC + 17 - 3)
#define RND_FRW_ROW (1 << (SHIFT_FRW_ROW-1))
//#define RND_FRW_COL (1 << (SHIFT_FRW_COL-1))
//concatenated table, for forward DCT transformation
static const int16_t fdct_tg_all_16[] ATTR_ALIGN(8) = {
13036, 13036, 13036, 13036, // tg * (2<<16) + 0.5
27146, 27146, 27146, 27146, // tg * (2<<16) + 0.5
-21746, -21746, -21746, -21746, // tg * (2<<16) + 0.5
};
static const int16_t ocos_4_16[4] ATTR_ALIGN(8) = {
23170, 23170, 23170, 23170, //cos * (2<<15) + 0.5
};
static const int64_t fdct_one_corr ATTR_ALIGN(8) = 0x0001000100010001LL;
static const int32_t fdct_r_row[2] ATTR_ALIGN(8) = {RND_FRW_ROW, RND_FRW_ROW };
static struct
{
const int32_t fdct_r_row_sse2[4] ATTR_ALIGN(16);
} fdct_r_row_sse2 ATTR_ALIGN(16)=
{{
RND_FRW_ROW, RND_FRW_ROW, RND_FRW_ROW, RND_FRW_ROW
}};
//static const long fdct_r_row_sse2[4] ATTR_ALIGN(16) = {RND_FRW_ROW, RND_FRW_ROW, RND_FRW_ROW, RND_FRW_ROW};
static const int16_t tab_frw_01234567[] ATTR_ALIGN(8) = { // forward_dct coeff table
16384, 16384, 22725, 19266,
16384, 16384, 12873, 4520,
21407, 8867, 19266, -4520,
-8867, -21407, -22725, -12873,
16384, -16384, 12873, -22725,
-16384, 16384, 4520, 19266,
8867, -21407, 4520, -12873,
21407, -8867, 19266, -22725,
22725, 22725, 31521, 26722,
22725, 22725, 17855, 6270,
29692, 12299, 26722, -6270,
-12299, -29692, -31521, -17855,
22725, -22725, 17855, -31521,
-22725, 22725, 6270, 26722,
12299, -29692, 6270, -17855,
29692, -12299, 26722, -31521,
21407, 21407, 29692, 25172,
21407, 21407, 16819, 5906,
27969, 11585, 25172, -5906,
-11585, -27969, -29692, -16819,
21407, -21407, 16819, -29692,
-21407, 21407, 5906, 25172,
11585, -27969, 5906, -16819,
27969, -11585, 25172, -29692,
19266, 19266, 26722, 22654,
19266, 19266, 15137, 5315,
25172, 10426, 22654, -5315,
-10426, -25172, -26722, -15137,
19266, -19266, 15137, -26722,
-19266, 19266, 5315, 22654,
10426, -25172, 5315, -15137,
25172, -10426, 22654, -26722,
16384, 16384, 22725, 19266,
16384, 16384, 12873, 4520,
21407, 8867, 19266, -4520,
-8867, -21407, -22725, -12873,
16384, -16384, 12873, -22725,
-16384, 16384, 4520, 19266,
8867, -21407, 4520, -12873,
21407, -8867, 19266, -22725,
19266, 19266, 26722, 22654,
19266, 19266, 15137, 5315,
25172, 10426, 22654, -5315,
-10426, -25172, -26722, -15137,
19266, -19266, 15137, -26722,
-19266, 19266, 5315, 22654,
10426, -25172, 5315, -15137,
25172, -10426, 22654, -26722,
21407, 21407, 29692, 25172,
21407, 21407, 16819, 5906,
27969, 11585, 25172, -5906,
-11585, -27969, -29692, -16819,
21407, -21407, 16819, -29692,
-21407, 21407, 5906, 25172,
11585, -27969, 5906, -16819,
27969, -11585, 25172, -29692,
22725, 22725, 31521, 26722,
22725, 22725, 17855, 6270,
29692, 12299, 26722, -6270,
-12299, -29692, -31521, -17855,
22725, -22725, 17855, -31521,
-22725, 22725, 6270, 26722,
12299, -29692, 6270, -17855,
29692, -12299, 26722, -31521,
};
static struct
{
const int16_t tab_frw_01234567_sse2[256] ATTR_ALIGN(16);
} tab_frw_01234567_sse2 ATTR_ALIGN(16) =
{{
//static const int16_t tab_frw_01234567_sse2[] ATTR_ALIGN(16) = { // forward_dct coeff table
#define TABLE_SSE2 C4, C4, C1, C3, -C6, -C2, -C1, -C5, \
C4, C4, C5, C7, C2, C6, C3, -C7, \
-C4, C4, C7, C3, C6, -C2, C7, -C5, \
C4, -C4, C5, -C1, C2, -C6, C3, -C1,
// c1..c7 * cos(pi/4) * 2^15
#define C1 22725
#define C2 21407
#define C3 19266
#define C4 16384
#define C5 12873
#define C6 8867
#define C7 4520
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 31521
#define C2 29692
#define C3 26722
#define C4 22725
#define C5 17855
#define C6 12299
#define C7 6270
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 29692
#define C2 27969
#define C3 25172
#define C4 21407
#define C5 16819
#define C6 11585
#define C7 5906
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 26722
#define C2 25172
#define C3 22654
#define C4 19266
#define C5 15137
#define C6 10426
#define C7 5315
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 22725
#define C2 21407
#define C3 19266
#define C4 16384
#define C5 12873
#define C6 8867
#define C7 4520
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 26722
#define C2 25172
#define C3 22654
#define C4 19266
#define C5 15137
#define C6 10426
#define C7 5315
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 29692
#define C2 27969
#define C3 25172
#define C4 21407
#define C5 16819
#define C6 11585
#define C7 5906
TABLE_SSE2
#undef C1
#undef C2
#undef C3
#undef C4
#undef C5
#undef C6
#undef C7
#define C1 31521
#define C2 29692
#define C3 26722
#define C4 22725
#define C5 17855
#define C6 12299
#define C7 6270
TABLE_SSE2
}};
static always_inline void fdct_col(const int16_t *in, int16_t *out, int offset)
{
movq_m2r(*(in + offset + 1 * 8), mm0);
movq_m2r(*(in + offset + 6 * 8), mm1);
movq_r2r(mm0, mm2);
movq_m2r(*(in + offset + 2 * 8), mm3);
paddsw_r2r(mm1, mm0);
movq_m2r(*(in + offset + 5 * 8), mm4);
psllw_i2r(SHIFT_FRW_COL, mm0);
movq_m2r(*(in + offset + 0 * 8), mm5);
paddsw_r2r(mm3, mm4);
paddsw_m2r(*(in + offset + 7 * 8), mm5);
psllw_i2r(SHIFT_FRW_COL, mm4);
movq_r2r(mm0, mm6);
psubsw_r2r(mm1, mm2);
movq_m2r(*(fdct_tg_all_16 + 4), mm1);
psubsw_r2r(mm4, mm0);
movq_m2r(*(in + offset + 3 * 8), mm7);
pmulhw_r2r(mm0, mm1);
paddsw_m2r(*(in + offset + 4 * 8), mm7);
psllw_i2r(SHIFT_FRW_COL, mm5);
paddsw_r2r(mm4, mm6);
psllw_i2r(SHIFT_FRW_COL, mm7);
movq_r2r(mm5, mm4);
psubsw_r2r(mm7, mm5);
paddsw_r2r(mm5, mm1);
paddsw_r2r(mm7, mm4);
por_m2r(fdct_one_corr, mm1);
psllw_i2r(SHIFT_FRW_COL + 1, mm2);
pmulhw_m2r(*(fdct_tg_all_16 + 4), mm5);
movq_r2r(mm4, mm7);
psubsw_m2r(*(in + offset + 5 * 8), mm3);
psubsw_r2r(mm6, mm4);
movq_r2m(mm1, *(out + offset + 2 * 8));
paddsw_r2r(mm6, mm7);
movq_m2r(*(in + offset + 3 * 8), mm1);
psllw_i2r(SHIFT_FRW_COL + 1, mm3);
psubsw_m2r(*(in + offset + 4 * 8), mm1);
movq_r2r(mm2, mm6);
movq_r2m(mm4, *(out + offset + 4 * 8));
paddsw_r2r(mm3, mm2);
pmulhw_m2r(*ocos_4_16, mm2);
psubsw_r2r(mm3, mm6);
pmulhw_m2r(*ocos_4_16, mm6);
psubsw_r2r(mm0, mm5);
por_m2r(fdct_one_corr, mm5);
psllw_i2r(SHIFT_FRW_COL, mm1);
por_m2r(fdct_one_corr, mm2);
movq_r2r(mm1, mm4);
movq_m2r(*(in + offset + 0 * 8), mm3);
paddsw_r2r(mm6, mm1);
psubsw_m2r(*(in + offset + 7 * 8), mm3);
psubsw_r2r(mm6, mm4);
movq_m2r(*(fdct_tg_all_16 + 0), mm0);
psllw_i2r(SHIFT_FRW_COL, mm3);
movq_m2r(*(fdct_tg_all_16 + 8), mm6);
pmulhw_r2r(mm1, mm0);
movq_r2m(mm7, *(out + offset + 0 * 8));
pmulhw_r2r(mm4, mm6);
movq_r2m(mm5, *(out + offset + 6 * 8));
movq_r2r(mm3, mm7);
movq_m2r(*(fdct_tg_all_16 + 8), mm5);
psubsw_r2r(mm2, mm7);
paddsw_r2r(mm2, mm3);
pmulhw_r2r(mm7, mm5);
paddsw_r2r(mm3, mm0);
paddsw_r2r(mm4, mm6);
pmulhw_m2r(*(fdct_tg_all_16 + 0), mm3);
por_m2r(fdct_one_corr, mm0);
paddsw_r2r(mm7, mm5);
psubsw_r2r(mm6, mm7);
movq_r2m(mm0, *(out + offset + 1 * 8));
paddsw_r2r(mm4, mm5);
movq_r2m(mm7, *(out + offset + 3 * 8));
psubsw_r2r(mm1, mm3);
movq_r2m(mm5, *(out + offset + 5 * 8));
movq_r2m(mm3, *(out + offset + 7 * 8));
}
static always_inline void fdct_row_sse2(const int16_t *in, int16_t *out)
{
asm volatile(
#define FDCT_ROW_SSE2_H1(i,t) \
"movq " #i "(%0), %%xmm2 \n\t" \
"movq " #i "+8(%0), %%xmm0 \n\t" \
"movdqa " #t "+32(%1), %%xmm3 \n\t" \
"movdqa " #t "+48(%1), %%xmm7 \n\t" \
"movdqa " #t "(%1), %%xmm4 \n\t" \
"movdqa " #t "+16(%1), %%xmm5 \n\t"
#define FDCT_ROW_SSE2_H2(i,t) \
"movq " #i "(%0), %%xmm2 \n\t" \
"movq " #i "+8(%0), %%xmm0 \n\t" \
"movdqa " #t "+32(%1), %%xmm3 \n\t" \
"movdqa " #t "+48(%1), %%xmm7 \n\t"
#define FDCT_ROW_SSE2(i) \
"movq %%xmm2, %%xmm1 \n\t" \
"pshuflw $27, %%xmm0, %%xmm0 \n\t" \
"paddsw %%xmm0, %%xmm1 \n\t" \
"psubsw %%xmm0, %%xmm2 \n\t" \
"punpckldq %%xmm2, %%xmm1 \n\t" \
"pshufd $78, %%xmm1, %%xmm2 \n\t" \
"pmaddwd %%xmm2, %%xmm3 \n\t" \
"pmaddwd %%xmm1, %%xmm7 \n\t" \
"pmaddwd %%xmm5, %%xmm2 \n\t" \
"pmaddwd %%xmm4, %%xmm1 \n\t" \
"paddd %%xmm7, %%xmm3 \n\t" \
"paddd %%xmm2, %%xmm1 \n\t" \
"paddd %%xmm6, %%xmm3 \n\t" \
"paddd %%xmm6, %%xmm1 \n\t" \
"psrad %3, %%xmm3 \n\t" \
"psrad %3, %%xmm1 \n\t" \
"packssdw %%xmm3, %%xmm1 \n\t" \
"movdqa %%xmm1, " #i "(%4) \n\t"
"movdqa (%2), %%xmm6 \n\t"
FDCT_ROW_SSE2_H1(0,0)
FDCT_ROW_SSE2(0)
FDCT_ROW_SSE2_H2(64,0)
FDCT_ROW_SSE2(64)
FDCT_ROW_SSE2_H1(16,64)
FDCT_ROW_SSE2(16)
FDCT_ROW_SSE2_H2(112,64)
FDCT_ROW_SSE2(112)
FDCT_ROW_SSE2_H1(32,128)
FDCT_ROW_SSE2(32)
FDCT_ROW_SSE2_H2(96,128)
FDCT_ROW_SSE2(96)
FDCT_ROW_SSE2_H1(48,192)
FDCT_ROW_SSE2(48)
FDCT_ROW_SSE2_H2(80,192)
FDCT_ROW_SSE2(80)
:
: "r" (in), "r" (tab_frw_01234567_sse2.tab_frw_01234567_sse2), "r" (fdct_r_row_sse2.fdct_r_row_sse2), "i" (SHIFT_FRW_ROW), "r" (out)
);
}
static always_inline void fdct_row_mmx2(const int16_t *in, int16_t *out, const int16_t *table)
{
pshufw_m2r(*(in + 4), mm5, 0x1B);
movq_m2r(*(in + 0), mm0);
movq_r2r(mm0, mm1);
paddsw_r2r(mm5, mm0);
psubsw_r2r(mm5, mm1);
movq_r2r(mm0, mm2);
punpckldq_r2r(mm1, mm0);
punpckhdq_r2r(mm1, mm2);
movq_m2r(*(table + 0), mm1);
movq_m2r(*(table + 4), mm3);
movq_m2r(*(table + 8), mm4);
movq_m2r(*(table + 12), mm5);
movq_m2r(*(table + 16), mm6);
movq_m2r(*(table + 20), mm7);
pmaddwd_r2r(mm0, mm1);
pmaddwd_r2r(mm2, mm3);
pmaddwd_r2r(mm0, mm4);
pmaddwd_r2r(mm2, mm5);
pmaddwd_r2r(mm0, mm6);
pmaddwd_r2r(mm2, mm7);
pmaddwd_m2r(*(table + 24), mm0);
pmaddwd_m2r(*(table + 28), mm2);
paddd_r2r(mm1, mm3);
paddd_r2r(mm4, mm5);
paddd_r2r(mm6, mm7);
paddd_r2r(mm0, mm2);
movq_m2r(*fdct_r_row, mm0);
paddd_r2r(mm0, mm3);
paddd_r2r(mm0, mm5);
paddd_r2r(mm0, mm7);
paddd_r2r(mm0, mm2);
psrad_i2r(SHIFT_FRW_ROW, mm3);
psrad_i2r(SHIFT_FRW_ROW, mm5);
psrad_i2r(SHIFT_FRW_ROW, mm7);
psrad_i2r(SHIFT_FRW_ROW, mm2);
packssdw_r2r(mm5, mm3);
packssdw_r2r(mm2, mm7);
movq_r2m(mm3, *(out + 0));
movq_r2m(mm7, *(out + 4));
}
static always_inline void fdct_row_mmx(const int16_t *in, int16_t *out, const int16_t *table)
{
//FIXME reorder (i dont have a old mmx only cpu here to benchmark ...)
movd_m2r(*(in + 6), mm1);
punpcklwd_m2r(*(in + 4), mm1);
movq_r2r(mm1, mm2);
psrlq_i2r(0x20, mm1);
movq_m2r(*(in + 0), mm0);
punpcklwd_r2r(mm2, mm1);
movq_r2r(mm0, mm5);
paddsw_r2r(mm1, mm0);
psubsw_r2r(mm1, mm5);
movq_r2r(mm0, mm2);
punpckldq_r2r(mm5, mm0);
punpckhdq_r2r(mm5, mm2);
movq_m2r(*(table + 0), mm1);
movq_m2r(*(table + 4), mm3);
movq_m2r(*(table + 8), mm4);
movq_m2r(*(table + 12), mm5);
movq_m2r(*(table + 16), mm6);
movq_m2r(*(table + 20), mm7);
pmaddwd_r2r(mm0, mm1);
pmaddwd_r2r(mm2, mm3);
pmaddwd_r2r(mm0, mm4);
pmaddwd_r2r(mm2, mm5);
pmaddwd_r2r(mm0, mm6);
pmaddwd_r2r(mm2, mm7);
pmaddwd_m2r(*(table + 24), mm0);
pmaddwd_m2r(*(table + 28), mm2);
paddd_r2r(mm1, mm3);
paddd_r2r(mm4, mm5);
paddd_r2r(mm6, mm7);
paddd_r2r(mm0, mm2);
movq_m2r(*fdct_r_row, mm0);
paddd_r2r(mm0, mm3);
paddd_r2r(mm0, mm5);
paddd_r2r(mm0, mm7);
paddd_r2r(mm0, mm2);
psrad_i2r(SHIFT_FRW_ROW, mm3);
psrad_i2r(SHIFT_FRW_ROW, mm5);
psrad_i2r(SHIFT_FRW_ROW, mm7);
psrad_i2r(SHIFT_FRW_ROW, mm2);
packssdw_r2r(mm5, mm3);
packssdw_r2r(mm2, mm7);
movq_r2m(mm3, *(out + 0));
movq_r2m(mm7, *(out + 4));
}
void ff_fdct_mmx(int16_t *block)
{
int64_t align_tmp[16] ATTR_ALIGN(8);
int16_t * block1= (int16_t*)align_tmp;
const int16_t *table= tab_frw_01234567;
int i;
fdct_col(block, block1, 0);
fdct_col(block, block1, 4);
for(i=8;i>0;i--) {
fdct_row_mmx(block1, block, table);
block1 += 8;
table += 32;
block += 8;
}
}
void ff_fdct_mmx2(int16_t *block)
{
int64_t align_tmp[16] ATTR_ALIGN(8);
int16_t *block1= (int16_t*)align_tmp;
const int16_t *table= tab_frw_01234567;
int i;
fdct_col(block, block1, 0);
fdct_col(block, block1, 4);
for(i=8;i>0;i--) {
fdct_row_mmx2(block1, block, table);
block1 += 8;
table += 32;
block += 8;
}
}
void ff_fdct_sse2(int16_t *block)
{
int64_t align_tmp[16] ATTR_ALIGN(16);
int16_t * const block1= (int16_t*)align_tmp;
fdct_col(block, block1, 0);
fdct_col(block, block1, 4);
fdct_row_sse2(block1, block);
}