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This work is sponsored by, and copyright, Google.
These are ported from the ARM version; it is essentially a 1:1
port with no extra added features, but with some hand tuning
(especially for the plain copy/avg functions). The ARM version
isn't very register starved to begin with, so there's not much
to be gained from having more spare registers here - we only
avoid having to clobber callee-saved registers.
Examples of runtimes vs the 32 bit version, on a Cortex A53:
ARM AArch64
vp9_avg4_neon: 27.2 23.7
vp9_avg8_neon: 56.5 54.7
vp9_avg16_neon: 169.9 167.4
vp9_avg32_neon: 585.8 585.2
vp9_avg64_neon: 2460.3 2294.7
vp9_avg_8tap_smooth_4h_neon: 132.7 125.2
vp9_avg_8tap_smooth_4hv_neon: 478.8 442.0
vp9_avg_8tap_smooth_4v_neon: 126.0 93.7
vp9_avg_8tap_smooth_8h_neon: 241.7 234.2
vp9_avg_8tap_smooth_8hv_neon: 690.9 646.5
vp9_avg_8tap_smooth_8v_neon: 245.0 205.5
vp9_avg_8tap_smooth_64h_neon: 11273.2 11280.1
vp9_avg_8tap_smooth_64hv_neon: 22980.6 22184.1
vp9_avg_8tap_smooth_64v_neon: 11549.7 10781.1
vp9_put4_neon: 18.0 17.2
vp9_put8_neon: 40.2 37.7
vp9_put16_neon: 97.4 99.5
vp9_put32_neon/armv8: 346.0 307.4
vp9_put64_neon/armv8: 1319.0 1107.5
vp9_put_8tap_smooth_4h_neon: 126.7 118.2
vp9_put_8tap_smooth_4hv_neon: 465.7 434.0
vp9_put_8tap_smooth_4v_neon: 113.0 86.5
vp9_put_8tap_smooth_8h_neon: 229.7 221.6
vp9_put_8tap_smooth_8hv_neon: 658.9 621.3
vp9_put_8tap_smooth_8v_neon: 215.0 187.5
vp9_put_8tap_smooth_64h_neon: 10636.7 10627.8
vp9_put_8tap_smooth_64hv_neon: 21076.8 21026.9
vp9_put_8tap_smooth_64v_neon: 9635.0 9632.4
These are generally about as fast as the corresponding ARM
routines on the same CPU (at least on the A53), in most cases
marginally faster.
The speedup vs C code is pretty much the same as for the 32 bit
case; on the A53 it's around 6-13x for ther larger 8tap filters.
The exact speedup varies a little, since the C versions generally
don't end up exactly as slow/fast as on 32 bit.
This is an adapted cherry-pick from libav commit
383d96aa22.
Signed-off-by: Ronald S. Bultje <rsbultje@gmail.com>
138 lines
5.4 KiB
C
138 lines
5.4 KiB
C
/*
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* VP9 compatible video decoder
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*
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* Copyright (C) 2013 Ronald S. Bultje <rsbultje gmail com>
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* Copyright (C) 2013 Clément Bœsch <u pkh me>
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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
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef AVCODEC_VP9DSP_H
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#define AVCODEC_VP9DSP_H
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#include <stddef.h>
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#include <stdint.h>
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#include "vp9.h"
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typedef void (*vp9_mc_func)(uint8_t *dst, ptrdiff_t dst_stride,
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const uint8_t *ref, ptrdiff_t ref_stride,
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int h, int mx, int my);
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typedef void (*vp9_scaled_mc_func)(uint8_t *dst, ptrdiff_t dst_stride,
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const uint8_t *ref, ptrdiff_t ref_stride,
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int h, int mx, int my, int dx, int dy);
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typedef struct VP9DSPContext {
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/*
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* dimension 1: 0=4x4, 1=8x8, 2=16x16, 3=32x32
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* dimension 2: intra prediction modes
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*
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* dst/left/top is aligned by transform-size (i.e. 4, 8, 16 or 32 pixels)
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* stride is aligned by 16 pixels
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* top[-1] is top/left; top[4,7] is top-right for 4x4
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*/
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// FIXME(rbultje) maybe replace left/top pointers with HAVE_TOP/
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// HAVE_LEFT/HAVE_TOPRIGHT flags instead, and then handle it in-place?
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// also needs to fit in with what H.264/VP8/etc do
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void (*intra_pred[N_TXFM_SIZES][N_INTRA_PRED_MODES])(uint8_t *dst,
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ptrdiff_t stride,
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const uint8_t *left,
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const uint8_t *top);
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/*
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* dimension 1: 0=4x4, 1=8x8, 2=16x16, 3=32x32, 4=lossless (3-4=dct only)
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* dimension 2: 0=dct/dct, 1=dct/adst, 2=adst/dct, 3=adst/adst
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*
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* dst is aligned by transform-size (i.e. 4, 8, 16 or 32 pixels)
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* stride is aligned by 16 pixels
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* block is 16-byte aligned
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* eob indicates the position (+1) of the last non-zero coefficient,
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* in scan-order. This can be used to write faster versions, e.g. a
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* dc-only 4x4/8x8/16x16/32x32, or a 4x4-only (eob<10) 8x8/16x16/32x32,
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* etc.
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*/
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// FIXME also write idct_add_block() versions for whole (inter) pred
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// blocks, so we can do 2 4x4s at once
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void (*itxfm_add[N_TXFM_SIZES + 1][N_TXFM_TYPES])(uint8_t *dst,
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ptrdiff_t stride,
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int16_t *block, int eob);
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/*
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* dimension 1: width of filter (0=4, 1=8, 2=16)
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* dimension 2: 0=col-edge filter (h), 1=row-edge filter (v)
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*
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* dst/stride are aligned by 8
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*/
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void (*loop_filter_8[3][2])(uint8_t *dst, ptrdiff_t stride,
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int mb_lim, int lim, int hev_thr);
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/*
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* dimension 1: 0=col-edge filter (h), 1=row-edge filter (v)
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*
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* The width of filter is assumed to be 16; dst/stride are aligned by 16
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*/
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void (*loop_filter_16[2])(uint8_t *dst, ptrdiff_t stride,
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int mb_lim, int lim, int hev_thr);
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/*
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* dimension 1/2: width of filter (0=4, 1=8) for each filter half
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* dimension 3: 0=col-edge filter (h), 1=row-edge filter (v)
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*
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* dst/stride are aligned by operation size
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* this basically calls loop_filter[d1][d3][0](), followed by
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* loop_filter[d2][d3][0]() on the next 8 pixels
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* mb_lim/lim/hev_thr contain two values in the lowest two bytes of the
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* integer.
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*/
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// FIXME perhaps a mix4 that operates on 32px (for AVX2)
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void (*loop_filter_mix2[2][2][2])(uint8_t *dst, ptrdiff_t stride,
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int mb_lim, int lim, int hev_thr);
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/*
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* dimension 1: hsize (0: 64, 1: 32, 2: 16, 3: 8, 4: 4)
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* dimension 2: filter type (0: smooth, 1: regular, 2: sharp, 3: bilin)
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* dimension 3: averaging type (0: put, 1: avg)
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* dimension 4: x subpel interpolation (0: none, 1: 8tap/bilin)
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* dimension 5: y subpel interpolation (0: none, 1: 8tap/bilin)
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*
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* dst/stride are aligned by hsize
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*/
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vp9_mc_func mc[5][4][2][2][2];
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/*
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* for scalable MC, first 3 dimensions identical to above, the other two
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* don't exist since it changes per stepsize.
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*/
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vp9_scaled_mc_func smc[5][4][2];
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} VP9DSPContext;
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extern const int16_t ff_vp9_subpel_filters[3][16][8];
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void ff_vp9dsp_init(VP9DSPContext *dsp, int bpp, int bitexact);
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void ff_vp9dsp_init_8(VP9DSPContext *dsp);
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void ff_vp9dsp_init_10(VP9DSPContext *dsp);
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void ff_vp9dsp_init_12(VP9DSPContext *dsp);
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void ff_vp9dsp_init_aarch64(VP9DSPContext *dsp, int bpp);
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void ff_vp9dsp_init_arm(VP9DSPContext *dsp, int bpp);
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void ff_vp9dsp_init_x86(VP9DSPContext *dsp, int bpp, int bitexact);
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void ff_vp9dsp_init_mips(VP9DSPContext *dsp, int bpp);
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#endif /* AVCODEC_VP9DSP_H */
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