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984 lines
32 KiB
NASM
Executable File
984 lines
32 KiB
NASM
Executable File
; XVID MPEG-4 VIDEO CODEC
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;
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; Conversion from gcc syntax to x264asm syntax with modifications
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; by Christophe Gisquet <christophe.gisquet@gmail.com>
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;
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; =========== SSE2 inverse discrete cosine transform ===========
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;
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; Copyright(C) 2003 Pascal Massimino <skal@planet-d.net>
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;
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; Conversion to gcc syntax with modifications
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; by Alexander Strange <astrange@ithinksw.com>
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;
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; Originally from dct/x86_asm/fdct_sse2_skal.asm in Xvid.
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;
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; Vertical pass is an implementation of the scheme:
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; Loeffler C., Ligtenberg A., and Moschytz C.S.:
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; Practical Fast 1D DCT Algorithm with Eleven Multiplications,
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; Proc. ICASSP 1989, 988-991.
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;
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; Horizontal pass is a double 4x4 vector/matrix multiplication,
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; (see also Intel's Application Note 922:
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; http://developer.intel.com/vtune/cbts/strmsimd/922down.htm
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; Copyright (C) 1999 Intel Corporation)
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;
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; More details at http://skal.planet-d.net/coding/dct.html
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;
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; ======= MMX and XMM forward discrete cosine transform =======
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;
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; Copyright(C) 2001 Peter Ross <pross@xvid.org>
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;
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; Originally provided by Intel at AP-922
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; http://developer.intel.com/vtune/cbts/strmsimd/922down.htm
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; (See more app notes at http://developer.intel.com/vtune/cbts/strmsimd/appnotes.htm)
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; but in a limited edition.
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; New macro implements a column part for precise iDCT
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; The routine precision now satisfies IEEE standard 1180-1990.
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;
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; Copyright(C) 2000-2001 Peter Gubanov <peter@elecard.net.ru>
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; Rounding trick Copyright(C) 2000 Michel Lespinasse <walken@zoy.org>
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;
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; http://www.elecard.com/peter/idct.html
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; http://www.linuxvideo.org/mpeg2dec/
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;
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; These examples contain code fragments for first stage iDCT 8x8
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; (for rows) and first stage DCT 8x8 (for columns)
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;
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; conversion to gcc syntax by Michael Niedermayer
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;
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; ======================================================================
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;
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; This file is part of FFmpeg.
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;
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; FFmpeg is free software; you can redistribute it and/or
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; modify it under the terms of the GNU Lesser General Public
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; License as published by the Free Software Foundation; either
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; version 2.1 of the License, or (at your option) any later version.
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;
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; FFmpeg is distributed in the hope that it will be useful,
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; but WITHOUT ANY WARRANTY; without even the implied warranty of
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; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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; Lesser General Public License for more details.
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;
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; You should have received a copy of the GNU Lesser General Public License
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; along with FFmpeg; if not, write to the Free Software Foundation,
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; Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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%include "libavutil/x86/x86util.asm"
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SECTION_RODATA
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; Similar to tg_1_16 in MMX code
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tan1: times 8 dw 13036
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tan2: times 8 dw 27146
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tan3: times 8 dw 43790
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sqrt2: times 8 dw 23170
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; SSE2 tables
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iTab1: dw 0x4000, 0x539f, 0xc000, 0xac61, 0x4000, 0xdd5d, 0x4000, 0xdd5d
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dw 0x4000, 0x22a3, 0x4000, 0x22a3, 0xc000, 0x539f, 0x4000, 0xac61
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dw 0x3249, 0x11a8, 0x4b42, 0xee58, 0x11a8, 0x4b42, 0x11a8, 0xcdb7
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dw 0x58c5, 0x4b42, 0xa73b, 0xcdb7, 0x3249, 0xa73b, 0x4b42, 0xa73b
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iTab2: dw 0x58c5, 0x73fc, 0xa73b, 0x8c04, 0x58c5, 0xcff5, 0x58c5, 0xcff5
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dw 0x58c5, 0x300b, 0x58c5, 0x300b, 0xa73b, 0x73fc, 0x58c5, 0x8c04
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dw 0x45bf, 0x187e, 0x6862, 0xe782, 0x187e, 0x6862, 0x187e, 0xba41
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dw 0x7b21, 0x6862, 0x84df, 0xba41, 0x45bf, 0x84df, 0x6862, 0x84df
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iTab3: dw 0x539f, 0x6d41, 0xac61, 0x92bf, 0x539f, 0xd2bf, 0x539f, 0xd2bf
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dw 0x539f, 0x2d41, 0x539f, 0x2d41, 0xac61, 0x6d41, 0x539f, 0x92bf
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dw 0x41b3, 0x1712, 0x6254, 0xe8ee, 0x1712, 0x6254, 0x1712, 0xbe4d
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dw 0x73fc, 0x6254, 0x8c04, 0xbe4d, 0x41b3, 0x8c04, 0x6254, 0x8c04
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iTab4: dw 0x4b42, 0x6254, 0xb4be, 0x9dac, 0x4b42, 0xd746, 0x4b42, 0xd746
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dw 0x4b42, 0x28ba, 0x4b42, 0x28ba, 0xb4be, 0x6254, 0x4b42, 0x9dac
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dw 0x3b21, 0x14c3, 0x587e, 0xeb3d, 0x14c3, 0x587e, 0x14c3, 0xc4df
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dw 0x6862, 0x587e, 0x979e, 0xc4df, 0x3b21, 0x979e, 0x587e, 0x979e
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%if ARCH_X86_32
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; -----------------------------------------------------------------------------
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;
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; The first stage iDCT 8x8 - inverse DCTs of rows
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;
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; -----------------------------------------------------------------------------
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; The 8-point inverse DCT direct algorithm
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; -----------------------------------------------------------------------------
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;
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; static const short w[32] = {
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; FIX(cos_4_16), FIX(cos_2_16), FIX(cos_4_16), FIX(cos_6_16),
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; FIX(cos_4_16), FIX(cos_6_16), -FIX(cos_4_16), -FIX(cos_2_16),
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; FIX(cos_4_16), -FIX(cos_6_16), -FIX(cos_4_16), FIX(cos_2_16),
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; FIX(cos_4_16), -FIX(cos_2_16), FIX(cos_4_16), -FIX(cos_6_16),
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; FIX(cos_1_16), FIX(cos_3_16), FIX(cos_5_16), FIX(cos_7_16),
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; FIX(cos_3_16), -FIX(cos_7_16), -FIX(cos_1_16), -FIX(cos_5_16),
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; FIX(cos_5_16), -FIX(cos_1_16), FIX(cos_7_16), FIX(cos_3_16),
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; FIX(cos_7_16), -FIX(cos_5_16), FIX(cos_3_16), -FIX(cos_1_16) };
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;
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; #define DCT_8_INV_ROW(x, y)
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; {
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; int a0, a1, a2, a3, b0, b1, b2, b3;
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;
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; a0 = x[0] * w[0] + x[2] * w[1] + x[4] * w[2] + x[6] * w[3];
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; a1 = x[0] * w[4] + x[2] * w[5] + x[4] * w[6] + x[6] * w[7];
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; a2 = x[0] * w[8] + x[2] * w[9] + x[4] * w[10] + x[6] * w[11];
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; a3 = x[0] * w[12] + x[2] * w[13] + x[4] * w[14] + x[6] * w[15];
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; b0 = x[1] * w[16] + x[3] * w[17] + x[5] * w[18] + x[7] * w[19];
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; b1 = x[1] * w[20] + x[3] * w[21] + x[5] * w[22] + x[7] * w[23];
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; b2 = x[1] * w[24] + x[3] * w[25] + x[5] * w[26] + x[7] * w[27];
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; b3 = x[1] * w[28] + x[3] * w[29] + x[5] * w[30] + x[7] * w[31];
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;
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; y[0] = SHIFT_ROUND(a0 + b0);
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; y[1] = SHIFT_ROUND(a1 + b1);
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; y[2] = SHIFT_ROUND(a2 + b2);
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; y[3] = SHIFT_ROUND(a3 + b3);
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; y[4] = SHIFT_ROUND(a3 - b3);
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; y[5] = SHIFT_ROUND(a2 - b2);
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; y[6] = SHIFT_ROUND(a1 - b1);
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; y[7] = SHIFT_ROUND(a0 - b0);
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; }
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;
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; -----------------------------------------------------------------------------
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;
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; In this implementation the outputs of the iDCT-1D are multiplied
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; for rows 0,4 - by cos_4_16,
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; for rows 1,7 - by cos_1_16,
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; for rows 2,6 - by cos_2_16,
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; for rows 3,5 - by cos_3_16
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; and are shifted to the left for better accuracy.
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;
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; For the constants used,
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; FIX(float_const) = (short) (float_const * (1 << 15) + 0.5)
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;
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; -----------------------------------------------------------------------------
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; -----------------------------------------------------------------------------
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; Tables for mmx processors
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; -----------------------------------------------------------------------------
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; Table for rows 0,4 - constants are multiplied by cos_4_16
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tab_i_04_mmx: dw 16384, 16384, 16384, -16384
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dw 21407, 8867, 8867, -21407 ; w07 w05 w03 w01
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dw 16384, -16384, 16384, 16384 ; w14 w12 w10 w08
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dw -8867, 21407, -21407, -8867 ; w15 w13 w11 w09
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dw 22725, 12873, 19266, -22725 ; w22 w20 w18 w16
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dw 19266, 4520, -4520, -12873 ; w23 w21 w19 w17
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dw 12873, 4520, 4520, 19266 ; w30 w28 w26 w24
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dw -22725, 19266, -12873, -22725 ; w31 w29 w27 w25
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; Table for rows 1,7 - constants are multiplied by cos_1_16
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dw 22725, 22725, 22725, -22725 ; movq-> w06 w04 w02 w00
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dw 29692, 12299, 12299, -29692 ; w07 w05 w03 w01
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dw 22725, -22725, 22725, 22725 ; w14 w12 w10 w08
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dw -12299, 29692, -29692, -12299 ; w15 w13 w11 w09
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dw 31521, 17855, 26722, -31521 ; w22 w20 w18 w16
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dw 26722, 6270, -6270, -17855 ; w23 w21 w19 w17
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dw 17855, 6270, 6270, 26722 ; w30 w28 w26 w24
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dw -31521, 26722, -17855, -31521 ; w31 w29 w27 w25
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; Table for rows 2,6 - constants are multiplied by cos_2_16
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dw 21407, 21407, 21407, -21407 ; movq-> w06 w04 w02 w00
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dw 27969, 11585, 11585, -27969 ; w07 w05 w03 w01
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dw 21407, -21407, 21407, 21407 ; w14 w12 w10 w08
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dw -11585, 27969, -27969, -11585 ; w15 w13 w11 w09
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dw 29692, 16819, 25172, -29692 ; w22 w20 w18 w16
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dw 25172, 5906, -5906, -16819 ; w23 w21 w19 w17
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dw 16819, 5906, 5906, 25172 ; w30 w28 w26 w24
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dw -29692, 25172, -16819, -29692 ; w31 w29 w27 w25
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; Table for rows 3,5 - constants are multiplied by cos_3_16
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dw 19266, 19266, 19266, -19266 ; movq-> w06 w04 w02 w00
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dw 25172, 10426, 10426, -25172 ; w07 w05 w03 w01
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dw 19266, -19266, 19266, 19266 ; w14 w12 w10 w08
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dw -10426, 25172, -25172, -10426 ; w15 w13 w11 w09
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dw 26722, 15137, 22654, -26722 ; w22 w20 w18 w16
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dw 22654, 5315, -5315, -15137 ; w23 w21 w19 w17
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dw 15137, 5315, 5315, 22654 ; w30 w28 w26 w24
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dw -26722, 22654, -15137, -26722 ; w31 w29 w27 w25
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; -----------------------------------------------------------------------------
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; Tables for xmm processors
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; -----------------------------------------------------------------------------
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; %3 for rows 0,4 - constants are multiplied by cos_4_16
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tab_i_04_xmm: dw 16384, 21407, 16384, 8867 ; movq-> w05 w04 w01 w00
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dw 16384, 8867, -16384, -21407 ; w07 w06 w03 w02
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dw 16384, -8867, 16384, -21407 ; w13 w12 w09 w08
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dw -16384, 21407, 16384, -8867 ; w15 w14 w11 w10
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dw 22725, 19266, 19266, -4520 ; w21 w20 w17 w16
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dw 12873, 4520, -22725, -12873 ; w23 w22 w19 w18
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dw 12873, -22725, 4520, -12873 ; w29 w28 w25 w24
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dw 4520, 19266, 19266, -22725 ; w31 w30 w27 w26
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; %3 for rows 1,7 - constants are multiplied by cos_1_16
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dw 22725, 29692, 22725, 12299 ; movq-> w05 w04 w01 w00
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dw 22725, 12299, -22725, -29692 ; w07 w06 w03 w02
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dw 22725, -12299, 22725, -29692 ; w13 w12 w09 w08
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dw -22725, 29692, 22725, -12299 ; w15 w14 w11 w10
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dw 31521, 26722, 26722, -6270 ; w21 w20 w17 w16
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dw 17855, 6270, -31521, -17855 ; w23 w22 w19 w18
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dw 17855, -31521, 6270, -17855 ; w29 w28 w25 w24
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dw 6270, 26722, 26722, -31521 ; w31 w30 w27 w26
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; %3 for rows 2,6 - constants are multiplied by cos_2_16
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dw 21407, 27969, 21407, 11585 ; movq-> w05 w04 w01 w00
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dw 21407, 11585, -21407, -27969 ; w07 w06 w03 w02
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dw 21407, -11585, 21407, -27969 ; w13 w12 w09 w08
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dw -21407, 27969, 21407, -11585 ; w15 w14 w11 w10
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dw 29692, 25172, 25172, -5906 ; w21 w20 w17 w16
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dw 16819, 5906, -29692, -16819 ; w23 w22 w19 w18
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dw 16819, -29692, 5906, -16819 ; w29 w28 w25 w24
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dw 5906, 25172, 25172, -29692 ; w31 w30 w27 w26
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; %3 for rows 3,5 - constants are multiplied by cos_3_16
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dw 19266, 25172, 19266, 10426 ; movq-> w05 w04 w01 w00
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dw 19266, 10426, -19266, -25172 ; w07 w06 w03 w02
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dw 19266, -10426, 19266, -25172 ; w13 w12 w09 w08
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dw -19266, 25172, 19266, -10426 ; w15 w14 w11 w10
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dw 26722, 22654, 22654, -5315 ; w21 w20 w17 w16
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dw 15137, 5315, -26722, -15137 ; w23 w22 w19 w18
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dw 15137, -26722, 5315, -15137 ; w29 w28 w25 w24
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dw 5315, 22654, 22654, -26722 ; w31 w30 w27 w26
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%endif ; ~ARCH_X86_32
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; Similar to rounder_0 in MMX code
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; 4 first similar, then: 4*8->6*16 5*8->4*16 6/7*8->5*16
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walkenIdctRounders: times 4 dd 65536
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times 4 dd 3597
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times 4 dd 2260
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times 4 dd 1203
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times 4 dd 120
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times 4 dd 512
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times 2 dd 0
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pb_127: times 8 db 127
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SECTION .text
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; Temporary storage before the column pass
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%define ROW1 xmm6
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%define ROW3 xmm4
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%define ROW5 xmm5
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%define ROW7 xmm7
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%macro CLEAR_ODD 1
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pxor %1, %1
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%endmacro
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%macro PUT_ODD 1
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pshufhw %1, xmm2, 0x1B
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%endmacro
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%macro MOV32 2
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%if ARCH_X86_32
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movdqa %2, %1
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%endif
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%endmacro
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%macro CLEAR_EVEN 1
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%if ARCH_X86_64
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CLEAR_ODD %1
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%endif
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%endmacro
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%macro PUT_EVEN 1
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%if ARCH_X86_64
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PUT_ODD %1
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%else
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pshufhw xmm2, xmm2, 0x1B
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movdqa %1, xmm2
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%endif
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%endmacro
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%if ARCH_X86_64
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%define ROW0 xmm8
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%define REG0 ROW0
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%define ROW2 xmm9
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%define REG2 ROW2
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%define ROW4 xmm10
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%define REG4 ROW4
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%define ROW6 xmm11
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%define REG6 ROW6
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%define XMMS xmm12
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%define SREG2 REG2
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%define TAN3 xmm13
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%define TAN1 xmm14
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%else
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%define ROW0 [BLOCK + 0*16]
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%define REG0 xmm4
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%define ROW2 [BLOCK + 2*16]
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%define REG2 xmm4
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%define ROW4 [BLOCK + 4*16]
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%define REG4 xmm6
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%define ROW6 [BLOCK + 6*16]
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%define REG6 xmm6
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%define XMMS xmm2
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%define SREG2 xmm7
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%define TAN3 xmm0
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%define TAN1 xmm2
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%endif
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%macro JZ 2
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test %1, %1
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jz .%2
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%endmacro
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%macro JNZ 2
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test %1, %1
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jnz .%2
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%endmacro
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%macro TEST_ONE_ROW 4 ; src, reg, clear, arg
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%3 %4
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movq mm1, [%1]
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por mm1, [%1 + 8]
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paddusb mm1, mm0
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pmovmskb %2, mm1
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%endmacro
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;row1, row2, reg1, reg2, clear1, arg1, clear2, arg2
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%macro TEST_TWO_ROWS 8
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%5 %6
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%7 %8
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movq mm1, [%1 + 0]
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por mm1, [%1 + 8]
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movq mm2, [%2 + 0]
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por mm2, [%2 + 8]
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paddusb mm1, mm0
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paddusb mm2, mm0
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pmovmskb %3, mm1
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pmovmskb %4, mm2
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%endmacro
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; IDCT pass on rows.
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%macro iMTX_MULT 4-5 ; src, table, put, arg, rounder
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movdqa xmm3, [%1]
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movdqa xmm0, xmm3
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pshufd xmm1, xmm3, 0x11 ; 4602
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punpcklqdq xmm0, xmm0 ; 0246
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pmaddwd xmm0, [%2]
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pmaddwd xmm1, [%2+16]
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pshufd xmm2, xmm3, 0xBB ; 5713
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punpckhqdq xmm3, xmm3 ; 1357
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pmaddwd xmm2, [%2+32]
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pmaddwd xmm3, [%2+48]
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paddd xmm0, xmm1
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paddd xmm2, xmm3
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%if %0 == 5
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paddd xmm0, [walkenIdctRounders+%5]
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%endif
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movdqa xmm3, xmm2
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paddd xmm2, xmm0
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psubd xmm0, xmm3
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psrad xmm2, 11
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psrad xmm0, 11
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packssdw xmm2, xmm0
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%3 %4
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%endmacro
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%macro iLLM_HEAD 0
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movdqa TAN3, [tan3]
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movdqa TAN1, [tan1]
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%endmacro
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%macro FIRST_HALF 2 ; %1=dct %2=type(normal,add,put)
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psraw xmm5, 6
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|
psraw REG0, 6
|
|
psraw TAN3, 6
|
|
psraw xmm3, 6
|
|
; dct coeffs must still be written for AC prediction
|
|
%if %2 == 0
|
|
movdqa [%1+1*16], TAN3
|
|
movdqa [%1+2*16], xmm3
|
|
movdqa [%1+5*16], REG0
|
|
movdqa [%1+6*16], xmm5
|
|
%else
|
|
; Must now load args as gprs are no longer used for masks
|
|
; DEST is set to where address of dest was loaded
|
|
%if ARCH_X86_32
|
|
%if %2 == 2 ; Not enough xmms, store
|
|
movdqa [%1+1*16], TAN3
|
|
movdqa [%1+2*16], xmm3
|
|
movdqa [%1+5*16], REG0
|
|
movdqa [%1+6*16], xmm5
|
|
%endif
|
|
%xdefine DEST r2q ; BLOCK is r0, stride r1
|
|
movifnidn DEST, destm
|
|
movifnidn strideq, stridem
|
|
%else
|
|
%xdefine DEST r0q
|
|
%endif
|
|
lea r3q, [3*strideq]
|
|
%if %2 == 1
|
|
packuswb TAN3, xmm3
|
|
packuswb xmm5, REG0
|
|
movq [DEST + strideq], TAN3
|
|
movhps [DEST + 2*strideq], TAN3
|
|
; REG0 and TAN3 are now available (and likely used in second half)
|
|
%endif
|
|
%endif
|
|
%endmacro
|
|
|
|
%macro SECOND_HALF 6 ; %1=dct %2=type(normal,add,put) 3-6: xmms
|
|
psraw %3, 6
|
|
psraw %4, 6
|
|
psraw %5, 6
|
|
psraw %6, 6
|
|
; dct coeffs must still be written for AC prediction
|
|
%if %2 == 0
|
|
movdqa [%1+0*16], %3
|
|
movdqa [%1+3*16], %5
|
|
movdqa [%1+4*16], %6
|
|
movdqa [%1+7*16], %4
|
|
%elif %2 == 1
|
|
packuswb %3, %5
|
|
packuswb %6, %4
|
|
; address of dest may have been loaded
|
|
movq [DEST], %3
|
|
movhps [DEST + r3q], %3
|
|
lea DEST, [DEST + 4*strideq]
|
|
movq [DEST], %6
|
|
movhps [DEST + r3q], %6
|
|
; and now write remainder of first half
|
|
movq [DEST + 2*strideq], xmm5
|
|
movhps [DEST + strideq], xmm5
|
|
%elif %2 == 2
|
|
pxor xmm0, xmm0
|
|
%if ARCH_X86_32
|
|
; free: m3 REG0=m4 m5
|
|
; input: m1, m7, m2, m6
|
|
movq xmm3, [DEST+0*strideq]
|
|
movq xmm4, [DEST+1*strideq]
|
|
punpcklbw xmm3, xmm0
|
|
punpcklbw xmm4, xmm0
|
|
paddsw xmm3, %3
|
|
paddsw xmm4, [%1 + 1*16]
|
|
movq %3, [DEST+2*strideq]
|
|
movq xmm5, [DEST+ r3q]
|
|
punpcklbw %3, xmm0
|
|
punpcklbw xmm5, xmm0
|
|
paddsw %3, [%1 + 2*16]
|
|
paddsw xmm5, %5
|
|
packuswb xmm3, xmm4
|
|
packuswb %3, xmm5
|
|
movq [DEST+0*strideq], xmm3
|
|
movhps [DEST+1*strideq], xmm3
|
|
movq [DEST+2*strideq], %3
|
|
movhps [DEST+ r3q], %3
|
|
lea DEST, [DEST+4*strideq]
|
|
movq xmm3, [DEST+0*strideq]
|
|
movq xmm4, [DEST+1*strideq]
|
|
movq %3, [DEST+2*strideq]
|
|
movq xmm5, [DEST+ r3q]
|
|
punpcklbw xmm3, xmm0
|
|
punpcklbw xmm4, xmm0
|
|
punpcklbw %3, xmm0
|
|
punpcklbw xmm5, xmm0
|
|
paddsw xmm3, %6
|
|
paddsw xmm4, [%1 + 5*16]
|
|
paddsw %3, [%1 + 6*16]
|
|
paddsw xmm5, %4
|
|
packuswb xmm3, xmm4
|
|
packuswb %3, xmm5
|
|
movq [DEST+0*strideq], xmm3
|
|
movhps [DEST+1*strideq], xmm3
|
|
movq [DEST+2*strideq], %3
|
|
movhps [DEST+ r3q], %3
|
|
%else
|
|
; l1:TAN3=m13 l2:m3 l5:REG0=m8 l6=m5
|
|
; input: m1, m7/SREG2=m9, TAN1=m14, REG4=m10
|
|
movq xmm2, [DEST+0*strideq]
|
|
movq xmm4, [DEST+1*strideq]
|
|
movq xmm12, [DEST+2*strideq]
|
|
movq xmm11, [DEST+ r3q]
|
|
punpcklbw xmm2, xmm0
|
|
punpcklbw xmm4, xmm0
|
|
punpcklbw xmm12, xmm0
|
|
punpcklbw xmm11, xmm0
|
|
paddsw xmm2, %3
|
|
paddsw xmm4, TAN3
|
|
paddsw xmm12, xmm3
|
|
paddsw xmm11, %5
|
|
packuswb xmm2, xmm4
|
|
packuswb xmm12, xmm11
|
|
movq [DEST+0*strideq], xmm2
|
|
movhps [DEST+1*strideq], xmm2
|
|
movq [DEST+2*strideq], xmm12
|
|
movhps [DEST+ r3q], xmm12
|
|
lea DEST, [DEST+4*strideq]
|
|
movq xmm2, [DEST+0*strideq]
|
|
movq xmm4, [DEST+1*strideq]
|
|
movq xmm12, [DEST+2*strideq]
|
|
movq xmm11, [DEST+ r3q]
|
|
punpcklbw xmm2, xmm0
|
|
punpcklbw xmm4, xmm0
|
|
punpcklbw xmm12, xmm0
|
|
punpcklbw xmm11, xmm0
|
|
paddsw xmm2, %6
|
|
paddsw xmm4, REG0
|
|
paddsw xmm12, xmm5
|
|
paddsw xmm11, %4
|
|
packuswb xmm2, xmm4
|
|
packuswb xmm12, xmm11
|
|
movq [DEST+0*strideq], xmm2
|
|
movhps [DEST+1*strideq], xmm2
|
|
movq [DEST+2*strideq], xmm12
|
|
movhps [DEST+ r3q], xmm12
|
|
%endif
|
|
%endif
|
|
%endmacro
|
|
|
|
|
|
; IDCT pass on columns.
|
|
%macro iLLM_PASS 2 ; %1=dct %2=type(normal,add,put)
|
|
movdqa xmm1, TAN3
|
|
movdqa xmm3, TAN1
|
|
pmulhw TAN3, xmm4
|
|
pmulhw xmm1, xmm5
|
|
paddsw TAN3, xmm4
|
|
paddsw xmm1, xmm5
|
|
psubsw TAN3, xmm5
|
|
paddsw xmm1, xmm4
|
|
pmulhw xmm3, xmm7
|
|
pmulhw TAN1, xmm6
|
|
paddsw xmm3, xmm6
|
|
psubsw TAN1, xmm7
|
|
movdqa xmm7, xmm3
|
|
movdqa xmm6, TAN1
|
|
psubsw xmm3, xmm1
|
|
psubsw TAN1, TAN3
|
|
paddsw xmm1, xmm7
|
|
paddsw TAN3, xmm6
|
|
movdqa xmm6, xmm3
|
|
psubsw xmm3, TAN3
|
|
paddsw TAN3, xmm6
|
|
movdqa xmm4, [sqrt2]
|
|
pmulhw xmm3, xmm4
|
|
pmulhw TAN3, xmm4
|
|
paddsw TAN3, TAN3
|
|
paddsw xmm3, xmm3
|
|
movdqa xmm7, [tan2]
|
|
MOV32 ROW2, REG2
|
|
MOV32 ROW6, REG6
|
|
movdqa xmm5, xmm7
|
|
pmulhw xmm7, REG6
|
|
pmulhw xmm5, REG2
|
|
paddsw xmm7, REG2
|
|
psubsw xmm5, REG6
|
|
MOV32 ROW0, REG0
|
|
MOV32 ROW4, REG4
|
|
MOV32 TAN1, [BLOCK]
|
|
movdqa XMMS, REG0
|
|
psubsw REG0, REG4
|
|
paddsw REG4, XMMS
|
|
movdqa XMMS, REG4
|
|
psubsw REG4, xmm7
|
|
paddsw xmm7, XMMS
|
|
movdqa XMMS, REG0
|
|
psubsw REG0, xmm5
|
|
paddsw xmm5, XMMS
|
|
movdqa XMMS, xmm5
|
|
psubsw xmm5, TAN3
|
|
paddsw TAN3, XMMS
|
|
movdqa XMMS, REG0
|
|
psubsw REG0, xmm3
|
|
paddsw xmm3, XMMS
|
|
MOV32 [BLOCK], TAN1
|
|
|
|
FIRST_HALF %1, %2
|
|
|
|
movdqa xmm0, xmm7
|
|
movdqa xmm4, REG4
|
|
psubsw xmm7, xmm1
|
|
psubsw REG4, TAN1
|
|
paddsw xmm1, xmm0
|
|
paddsw TAN1, xmm4
|
|
|
|
SECOND_HALF %1, %2, xmm1, xmm7, TAN1, REG4
|
|
%endmacro
|
|
|
|
; IDCT pass on columns, assuming rows 4-7 are zero
|
|
%macro iLLM_PASS_SPARSE 2 ; %1=dct %2=type(normal,put,add)
|
|
pmulhw TAN3, xmm4
|
|
paddsw TAN3, xmm4
|
|
movdqa xmm3, xmm6
|
|
pmulhw TAN1, xmm6
|
|
movdqa xmm1, xmm4
|
|
psubsw xmm3, xmm1
|
|
paddsw xmm1, xmm6
|
|
movdqa xmm6, TAN1
|
|
psubsw TAN1, TAN3
|
|
paddsw TAN3, xmm6
|
|
movdqa xmm6, xmm3
|
|
psubsw xmm3, TAN3
|
|
paddsw TAN3, xmm6
|
|
movdqa xmm4, [sqrt2]
|
|
pmulhw xmm3, xmm4
|
|
pmulhw TAN3, xmm4
|
|
paddsw TAN3, TAN3
|
|
paddsw xmm3, xmm3
|
|
movdqa xmm5, [tan2]
|
|
MOV32 ROW2, SREG2
|
|
pmulhw xmm5, SREG2
|
|
MOV32 ROW0, REG0
|
|
movdqa xmm6, REG0
|
|
psubsw xmm6, SREG2
|
|
paddsw SREG2, REG0
|
|
MOV32 TAN1, [BLOCK]
|
|
movdqa XMMS, REG0
|
|
psubsw REG0, xmm5
|
|
paddsw xmm5, XMMS
|
|
movdqa XMMS, xmm5
|
|
psubsw xmm5, TAN3
|
|
paddsw TAN3, XMMS
|
|
movdqa XMMS, REG0
|
|
psubsw REG0, xmm3
|
|
paddsw xmm3, XMMS
|
|
MOV32 [BLOCK], TAN1
|
|
|
|
FIRST_HALF %1, %2
|
|
|
|
movdqa xmm0, SREG2
|
|
movdqa xmm4, xmm6
|
|
psubsw SREG2, xmm1
|
|
psubsw xmm6, TAN1
|
|
paddsw xmm1, xmm0
|
|
paddsw TAN1, xmm4
|
|
|
|
SECOND_HALF %1, %2, xmm1, SREG2, TAN1, xmm6
|
|
%endmacro
|
|
|
|
%macro IDCT_SSE2 1 ; 0=normal 1=put 2=add
|
|
%if %1 == 0 || ARCH_X86_32
|
|
%define GPR0 r1d
|
|
%define GPR1 r2d
|
|
%define GPR2 r3d
|
|
%define GPR3 r4d
|
|
%define NUM_GPRS 5
|
|
%else
|
|
%define GPR0 r3d
|
|
%define GPR1 r4d
|
|
%define GPR2 r5d
|
|
%define GPR3 r6d
|
|
%define NUM_GPRS 7
|
|
%endif
|
|
%if %1 == 0
|
|
cglobal xvid_idct, 1, NUM_GPRS, 8+7*ARCH_X86_64, block
|
|
%xdefine BLOCK blockq
|
|
%else
|
|
%if %1 == 1
|
|
cglobal xvid_idct_put, 0, NUM_GPRS, 8+7*ARCH_X86_64, dest, stride, block
|
|
%else
|
|
cglobal xvid_idct_add, 0, NUM_GPRS, 8+7*ARCH_X86_64, dest, stride, block
|
|
%endif
|
|
%if ARCH_X86_64
|
|
%xdefine BLOCK blockq
|
|
%else
|
|
mov r0q, blockm
|
|
%xdefine BLOCK r0q
|
|
%endif
|
|
%endif
|
|
movq mm0, [pb_127]
|
|
iMTX_MULT BLOCK + 0*16, iTab1, PUT_EVEN, ROW0, 0*16
|
|
iMTX_MULT BLOCK + 1*16, iTab2, PUT_ODD, ROW1, 1*16
|
|
iMTX_MULT BLOCK + 2*16, iTab3, PUT_EVEN, ROW2, 2*16
|
|
|
|
TEST_TWO_ROWS BLOCK + 3*16, BLOCK + 4*16, GPR0, GPR1, CLEAR_ODD, ROW3, CLEAR_EVEN, ROW4 ; a, c
|
|
JZ GPR0, col1
|
|
iMTX_MULT BLOCK + 3*16, iTab4, PUT_ODD, ROW3, 3*16
|
|
.col1:
|
|
TEST_TWO_ROWS BLOCK + 5*16, BLOCK + 6*16, GPR0, GPR2, CLEAR_ODD, ROW5, CLEAR_EVEN, ROW6 ; a, d
|
|
TEST_ONE_ROW BLOCK + 7*16, GPR3, CLEAR_ODD, ROW7 ; esi
|
|
|
|
iLLM_HEAD
|
|
JNZ GPR1, 2
|
|
JNZ GPR0, 3
|
|
JNZ GPR2, 4
|
|
JNZ GPR3, 5
|
|
iLLM_PASS_SPARSE BLOCK, %1
|
|
jmp .6
|
|
.2:
|
|
iMTX_MULT BLOCK + 4*16, iTab1, PUT_EVEN, ROW4
|
|
.3:
|
|
iMTX_MULT BLOCK + 5*16, iTab4, PUT_ODD, ROW5, 4*16
|
|
JZ GPR2, col2
|
|
.4:
|
|
iMTX_MULT BLOCK + 6*16, iTab3, PUT_EVEN, ROW6, 5*16
|
|
.col2:
|
|
JZ GPR3, col3
|
|
.5:
|
|
iMTX_MULT BLOCK + 7*16, iTab2, PUT_ODD, ROW7, 5*16
|
|
.col3:
|
|
%if ARCH_X86_32
|
|
iLLM_HEAD
|
|
%endif
|
|
iLLM_PASS BLOCK, %1
|
|
.6:
|
|
RET
|
|
%endmacro
|
|
|
|
INIT_XMM sse2
|
|
IDCT_SSE2 0
|
|
IDCT_SSE2 1
|
|
IDCT_SSE2 2
|
|
|
|
%if ARCH_X86_32
|
|
|
|
; %1=offset %2=tab_offset
|
|
; %3=rnd_offset where 4*8->6*16 5*8->4*16 6/7*8->5*16
|
|
%macro DCT_8_INV_ROW 3
|
|
movq mm0, [r0+16*%1+0] ; 0 ; x3 x2 x1 x0
|
|
movq mm1, [r0+16*%1+8] ; 1 ; x7 x6 x5 x4
|
|
movq mm2, mm0 ; 2 ; x3 x2 x1 x0
|
|
movq mm3, [%2+ 0] ; 3 ; w06 w04 w02 w00
|
|
%if cpuflag(mmxext)
|
|
pshufw mm0, mm0, 0x88 ; x2 x0 x2 x0
|
|
movq mm4, [%2+ 8] ; 4 ; w07 w06 w03 w02
|
|
movq mm5, mm1 ; 5 ; x7 x6 x5 x4
|
|
pmaddwd mm3, mm0 ; x2*w05+x0*w04 x2*w01+x0*w00
|
|
movq mm6, [%2+32] ; 6 ; w21 w20 w17 w16
|
|
pshufw mm1, mm1, 0x88 ; x6 x4 x6 x4
|
|
pmaddwd mm4, mm1 ; x6*w07+x4*w06 x6*w03+x4*w02
|
|
movq mm7, [%2+40] ; 7; w23 w22 w19 w18
|
|
pshufw mm2, mm2, 0xdd ; x3 x1 x3 x1
|
|
pmaddwd mm6, mm2 ; x3*w21+x1*w20 x3*w17+x1*w16
|
|
pshufw mm5, mm5, 0xdd ; x7 x5 x7 x5
|
|
pmaddwd mm7, mm5 ; x7*w23+x5*w22 x7*w19+x5*w18
|
|
paddd mm3, [walkenIdctRounders + %3] ; +%3
|
|
pmaddwd mm0, [%2+16] ; x2*w13+x0*w12 x2*w09+x0*w08
|
|
paddd mm3, mm4 ; 4 ; a1=sum(even1) a0=sum(even0)
|
|
pmaddwd mm1, [%2+24] ; x6*w15+x4*w14 x6*w11+x4*w10
|
|
movq mm4, mm3 ; 4 ; a1 a0
|
|
pmaddwd mm2, [%2+48] ; x3*w29+x1*w28 x3*w25+x1*w24
|
|
paddd mm6, mm7 ; 7 ; b1=sum(odd1) b0=sum(odd0)
|
|
pmaddwd mm5, [%2+56] ; x7*w31+x5*w30 x7*w27+x5*w26
|
|
paddd mm3, mm6 ; a1+b1 a0+b0
|
|
paddd mm0, [walkenIdctRounders + %3] ; +%3
|
|
psrad mm3, 11 ; y1=a1+b1 y0=a0+b0
|
|
paddd mm0, mm1 ; 1 ; a3=sum(even3) a2=sum(even2)
|
|
psubd mm4, mm6 ; 6 ; a1-b1 a0-b0
|
|
movq mm7, mm0 ; 7 ; a3 a2
|
|
paddd mm2, mm5 ; 5 ; b3=sum(odd3) b2=sum(odd2)
|
|
paddd mm0, mm2 ; a3+b3 a2+b2
|
|
psrad mm4, 11 ; y6=a1-b1 y7=a0-b0
|
|
psubd mm7, mm2 ; 2 ; a3-b3 a2-b2
|
|
psrad mm0, 11 ; y3=a3+b3 y2=a2+b2
|
|
psrad mm7, 11 ; y4=a3-b3 y5=a2-b2
|
|
packssdw mm3, mm0 ; 0 ; y3 y2 y1 y0
|
|
packssdw mm7, mm4 ; 4 ; y6 y7 y4 y5
|
|
movq [r0+16*%1+0], mm3 ; 3 ; save y3 y2 y1 y0
|
|
pshufw mm7, mm7, 0xb1 ; y7 y6 y5 y4
|
|
%else
|
|
punpcklwd mm0, mm1 ; x5 x1 x4 x0
|
|
movq mm5, mm0 ; 5 ; x5 x1 x4 x0
|
|
punpckldq mm0, mm0 ; x4 x0 x4 x0
|
|
movq mm4, [%2+ 8] ; 4 ; w07 w05 w03 w01
|
|
punpckhwd mm2, mm1 ; 1 ; x7 x3 x6 x2
|
|
pmaddwd mm3, mm0 ; x4*w06+x0*w04 x4*w02+x0*w00
|
|
movq mm6, mm2 ; 6 ; x7 x3 x6 x2
|
|
movq mm1, [%2+32] ; 1 ; w22 w20 w18 w16
|
|
punpckldq mm2, mm2 ; x6 x2 x6 x2
|
|
pmaddwd mm4, mm2 ; x6*w07+x2*w05 x6*w03+x2*w01
|
|
punpckhdq mm5, mm5 ; x5 x1 x5 x1
|
|
pmaddwd mm0, [%2+16] ; x4*w14+x0*w12 x4*w10+x0*w08
|
|
punpckhdq mm6, mm6 ; x7 x3 x7 x3
|
|
movq mm7, [%2+40] ; 7 ; w23 w21 w19 w17
|
|
pmaddwd mm1, mm5 ; x5*w22+x1*w20 x5*w18+x1*w16
|
|
paddd mm3, [walkenIdctRounders + %3] ; +%3
|
|
pmaddwd mm7, mm6 ; x7*w23+x3*w21 x7*w19+x3*w17
|
|
pmaddwd mm2, [%2+24] ; x6*w15+x2*w13 x6*w11+x2*w09
|
|
paddd mm3, mm4 ; 4 ; a1=sum(even1) a0=sum(even0)
|
|
pmaddwd mm5, [%2+48] ; x5*w30+x1*w28 x5*w26+x1*w24
|
|
movq mm4, mm3 ; 4 ; a1 a0
|
|
pmaddwd mm6, [%2+56] ; x7*w31+x3*w29 x7*w27+x3*w25
|
|
paddd mm1, mm7 ; 7 ; b1=sum(odd1) b0=sum(odd0)
|
|
paddd mm0, [walkenIdctRounders + %3] ; +%3
|
|
psubd mm3, mm1 ; a1-b1 a0-b0
|
|
psrad mm3, 11 ; y6=a1-b1 y7=a0-b0
|
|
paddd mm1, mm4 ; 4 ; a1+b1 a0+b0
|
|
paddd mm0, mm2 ; 2 ; a3=sum(even3) a2=sum(even2)
|
|
psrad mm1, 11 ; y1=a1+b1 y0=a0+b0
|
|
paddd mm5, mm6 ; 6 ; b3=sum(odd3) b2=sum(odd2)
|
|
movq mm4, mm0 ; 4 ; a3 a2
|
|
paddd mm0, mm5 ; a3+b3 a2+b2
|
|
psubd mm4, mm5 ; 5 ; a3-b3 a2-b2
|
|
psrad mm0, 11 ; y3=a3+b3 y2=a2+b2
|
|
psrad mm4, 11 ; y4=a3-b3 y5=a2-b2
|
|
packssdw mm1, mm0 ; 0 ; y3 y2 y1 y0
|
|
packssdw mm4, mm3 ; 3 ; y6 y7 y4 y5
|
|
movq mm7, mm4 ; 7 ; y6 y7 y4 y5
|
|
psrld mm4, 16 ; 0 y6 0 y4
|
|
pslld mm7, 16 ; y7 0 y5 0
|
|
movq [r0+16*%1+0], mm1 ; 1 ; save y3 y2 y1 y0
|
|
por mm7, mm4 ; 4 ; y7 y6 y5 y4
|
|
%endif
|
|
movq [r0+16*%1+8], mm7 ; 7 ; save y7 y6 y5 y4
|
|
%endmacro
|
|
|
|
; -----------------------------------------------------------------------------
|
|
;
|
|
; The first stage DCT 8x8 - forward DCTs of columns
|
|
;
|
|
; The %2puts are multiplied
|
|
; for rows 0,4 - on cos_4_16,
|
|
; for rows 1,7 - on cos_1_16,
|
|
; for rows 2,6 - on cos_2_16,
|
|
; for rows 3,5 - on cos_3_16
|
|
; and are shifted to the left for rise of accuracy
|
|
;
|
|
; -----------------------------------------------------------------------------
|
|
;
|
|
; The 8-point scaled forward DCT algorithm (26a8m)
|
|
;
|
|
; -----------------------------------------------------------------------------
|
|
;
|
|
;#define DCT_8_FRW_COL(x, y)
|
|
; {
|
|
; short t0, t1, t2, t3, t4, t5, t6, t7;
|
|
; short tp03, tm03, tp12, tm12, tp65, tm65;
|
|
; short tp465, tm465, tp765, tm765;
|
|
;
|
|
; t0 = LEFT_SHIFT(x[0] + x[7]);
|
|
; t1 = LEFT_SHIFT(x[1] + x[6]);
|
|
; t2 = LEFT_SHIFT(x[2] + x[5]);
|
|
; t3 = LEFT_SHIFT(x[3] + x[4]);
|
|
; t4 = LEFT_SHIFT(x[3] - x[4]);
|
|
; t5 = LEFT_SHIFT(x[2] - x[5]);
|
|
; t6 = LEFT_SHIFT(x[1] - x[6]);
|
|
; t7 = LEFT_SHIFT(x[0] - x[7]);
|
|
;
|
|
; tp03 = t0 + t3;
|
|
; tm03 = t0 - t3;
|
|
; tp12 = t1 + t2;
|
|
; tm12 = t1 - t2;
|
|
;
|
|
; y[0] = tp03 + tp12;
|
|
; y[4] = tp03 - tp12;
|
|
;
|
|
; y[2] = tm03 + tm12 * tg_2_16;
|
|
; y[6] = tm03 * tg_2_16 - tm12;
|
|
;
|
|
; tp65 = (t6 + t5) * cos_4_16;
|
|
; tm65 = (t6 - t5) * cos_4_16;
|
|
;
|
|
; tp765 = t7 + tp65;
|
|
; tm765 = t7 - tp65;
|
|
; tp465 = t4 + tm65;
|
|
; tm465 = t4 - tm65;
|
|
;
|
|
; y[1] = tp765 + tp465 * tg_1_16;
|
|
; y[7] = tp765 * tg_1_16 - tp465;
|
|
; y[5] = tm765 * tg_3_16 + tm465;
|
|
; y[3] = tm765 - tm465 * tg_3_16;
|
|
; }
|
|
;
|
|
; -----------------------------------------------------------------------------
|
|
|
|
; -----------------------------------------------------------------------------
|
|
; DCT_8_INV_COL_4 INP,OUT
|
|
; -----------------------------------------------------------------------------
|
|
%macro DCT_8_INV_COL 1
|
|
movq mm0, [tan3]
|
|
movq mm3, [%1+16*3]
|
|
movq mm1, mm0 ; tg_3_16
|
|
movq mm5, [%1+16*5]
|
|
pmulhw mm0, mm3 ; x3*(tg_3_16-1)
|
|
movq mm4, [tan1]
|
|
pmulhw mm1, mm5 ; x5*(tg_3_16-1)
|
|
movq mm7, [%1+16*7]
|
|
movq mm2, mm4 ; tg_1_16
|
|
movq mm6, [%1+16*1]
|
|
pmulhw mm4, mm7 ; x7*tg_1_16
|
|
paddsw mm0, mm3 ; x3*tg_3_16
|
|
pmulhw mm2, mm6 ; x1*tg_1_16
|
|
paddsw mm1, mm3 ; x3+x5*(tg_3_16-1)
|
|
psubsw mm0, mm5 ; x3*tg_3_16-x5 = tm35
|
|
movq mm3, [sqrt2]
|
|
paddsw mm1, mm5 ; x3+x5*tg_3_16 = tp35
|
|
paddsw mm4, mm6 ; x1+tg_1_16*x7 = tp17
|
|
psubsw mm2, mm7 ; x1*tg_1_16-x7 = tm17
|
|
movq mm5, mm4 ; tp17
|
|
movq mm6, mm2 ; tm17
|
|
paddsw mm5, mm1 ; tp17+tp35 = b0
|
|
psubsw mm6, mm0 ; tm17-tm35 = b3
|
|
psubsw mm4, mm1 ; tp17-tp35 = t1
|
|
paddsw mm2, mm0 ; tm17+tm35 = t2
|
|
movq mm7, [tan2]
|
|
movq mm1, mm4 ; t1
|
|
movq [%1+3*16], mm5 ; save b0
|
|
paddsw mm1, mm2 ; t1+t2
|
|
movq [%1+5*16], mm6 ; save b3
|
|
psubsw mm4, mm2 ; t1-t2
|
|
movq mm5, [%1+2*16]
|
|
movq mm0, mm7 ; tg_2_16
|
|
movq mm6, [%1+6*16]
|
|
pmulhw mm0, mm5 ; x2*tg_2_16
|
|
pmulhw mm7, mm6 ; x6*tg_2_16
|
|
pmulhw mm1, mm3 ; ocos_4_16*(t1+t2) = b1/2
|
|
movq mm2, [%1+0*16]
|
|
pmulhw mm4, mm3 ; ocos_4_16*(t1-t2) = b2/2
|
|
psubsw mm0, mm6 ; t2*tg_2_16-x6 = tm26
|
|
movq mm3, mm2 ; x0
|
|
movq mm6, [%1+4*16]
|
|
paddsw mm7, mm5 ; x2+x6*tg_2_16 = tp26
|
|
paddsw mm2, mm6 ; x0+x4 = tp04
|
|
psubsw mm3, mm6 ; x0-x4 = tm04
|
|
movq mm5, mm2 ; tp04
|
|
movq mm6, mm3 ; tm04
|
|
psubsw mm2, mm7 ; tp04-tp26 = a3
|
|
paddsw mm3, mm0 ; tm04+tm26 = a1
|
|
paddsw mm1, mm1 ; b1
|
|
paddsw mm4, mm4 ; b2
|
|
paddsw mm5, mm7 ; tp04+tp26 = a0
|
|
psubsw mm6, mm0 ; tm04-tm26 = a2
|
|
movq mm7, mm3 ; a1
|
|
movq mm0, mm6 ; a2
|
|
paddsw mm3, mm1 ; a1+b1
|
|
paddsw mm6, mm4 ; a2+b2
|
|
psraw mm3, 6 ; dst1
|
|
psubsw mm7, mm1 ; a1-b1
|
|
psraw mm6, 6 ; dst2
|
|
psubsw mm0, mm4 ; a2-b2
|
|
movq mm1, [%1+3*16] ; load b0
|
|
psraw mm7, 6 ; dst6
|
|
movq mm4, mm5 ; a0
|
|
psraw mm0, 6 ; dst5
|
|
movq [%1+1*16], mm3
|
|
paddsw mm5, mm1 ; a0+b0
|
|
movq [%1+2*16], mm6
|
|
psubsw mm4, mm1 ; a0-b0
|
|
movq mm3, [%1+5*16] ; load b3
|
|
psraw mm5, 6 ; dst0
|
|
movq mm6, mm2 ; a3
|
|
psraw mm4, 6 ; dst7
|
|
movq [%1+5*16], mm0
|
|
paddsw mm2, mm3 ; a3+b3
|
|
movq [%1+6*16], mm7
|
|
psubsw mm6, mm3 ; a3-b3
|
|
movq [%1+0*16], mm5
|
|
psraw mm2, 6 ; dst3
|
|
movq [%1+7*16], mm4
|
|
psraw mm6, 6 ; dst4
|
|
movq [%1+3*16], mm2
|
|
movq [%1+4*16], mm6
|
|
%endmacro
|
|
|
|
%macro XVID_IDCT_MMX 0
|
|
cglobal xvid_idct, 1, 1, 0, block
|
|
%if cpuflag(mmxext)
|
|
%define TAB tab_i_04_xmm
|
|
%else
|
|
%define TAB tab_i_04_mmx
|
|
%endif
|
|
; Process each row - beware of rounder offset
|
|
DCT_8_INV_ROW 0, TAB + 64 * 0, 0*16
|
|
DCT_8_INV_ROW 1, TAB + 64 * 1, 1*16
|
|
DCT_8_INV_ROW 2, TAB + 64 * 2, 2*16
|
|
DCT_8_INV_ROW 3, TAB + 64 * 3, 3*16
|
|
DCT_8_INV_ROW 4, TAB + 64 * 0, 6*16
|
|
DCT_8_INV_ROW 5, TAB + 64 * 3, 4*16
|
|
DCT_8_INV_ROW 6, TAB + 64 * 2, 5*16
|
|
DCT_8_INV_ROW 7, TAB + 64 * 1, 5*16
|
|
|
|
; Process the columns (4 at a time)
|
|
DCT_8_INV_COL r0+0
|
|
DCT_8_INV_COL r0+8
|
|
|
|
RET
|
|
%endmacro
|
|
|
|
INIT_MMX mmx
|
|
XVID_IDCT_MMX
|
|
INIT_MMX mmxext
|
|
XVID_IDCT_MMX
|
|
|
|
%endif ; ~ARCH_X86_32
|