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682 lines
26 KiB
682 lines
26 KiB
/* |
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* RV40 decoder |
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* Copyright (c) 2007 Konstantin Shishkov |
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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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/** |
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* @file |
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* RV40 decoder |
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*/ |
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#include "avcodec.h" |
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#include "dsputil.h" |
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#include "mpegvideo.h" |
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#include "golomb.h" |
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#include "rv34.h" |
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#include "rv40vlc2.h" |
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#include "rv40data.h" |
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static VLC aic_top_vlc; |
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static VLC aic_mode1_vlc[AIC_MODE1_NUM], aic_mode2_vlc[AIC_MODE2_NUM]; |
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static VLC ptype_vlc[NUM_PTYPE_VLCS], btype_vlc[NUM_BTYPE_VLCS]; |
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static const int16_t mode2_offs[] = { |
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0, 614, 1222, 1794, 2410, 3014, 3586, 4202, 4792, 5382, 5966, 6542, |
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7138, 7716, 8292, 8864, 9444, 10030, 10642, 11212, 11814 |
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}; |
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/** |
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* Initialize all tables. |
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*/ |
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static av_cold void rv40_init_tables(void) |
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{ |
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int i; |
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static VLC_TYPE aic_table[1 << AIC_TOP_BITS][2]; |
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static VLC_TYPE aic_mode1_table[AIC_MODE1_NUM << AIC_MODE1_BITS][2]; |
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static VLC_TYPE aic_mode2_table[11814][2]; |
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static VLC_TYPE ptype_table[NUM_PTYPE_VLCS << PTYPE_VLC_BITS][2]; |
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static VLC_TYPE btype_table[NUM_BTYPE_VLCS << BTYPE_VLC_BITS][2]; |
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aic_top_vlc.table = aic_table; |
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aic_top_vlc.table_allocated = 1 << AIC_TOP_BITS; |
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init_vlc(&aic_top_vlc, AIC_TOP_BITS, AIC_TOP_SIZE, |
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rv40_aic_top_vlc_bits, 1, 1, |
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rv40_aic_top_vlc_codes, 1, 1, INIT_VLC_USE_NEW_STATIC); |
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for(i = 0; i < AIC_MODE1_NUM; i++){ |
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// Every tenth VLC table is empty |
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if((i % 10) == 9) continue; |
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aic_mode1_vlc[i].table = &aic_mode1_table[i << AIC_MODE1_BITS]; |
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aic_mode1_vlc[i].table_allocated = 1 << AIC_MODE1_BITS; |
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init_vlc(&aic_mode1_vlc[i], AIC_MODE1_BITS, AIC_MODE1_SIZE, |
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aic_mode1_vlc_bits[i], 1, 1, |
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aic_mode1_vlc_codes[i], 1, 1, INIT_VLC_USE_NEW_STATIC); |
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} |
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for(i = 0; i < AIC_MODE2_NUM; i++){ |
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aic_mode2_vlc[i].table = &aic_mode2_table[mode2_offs[i]]; |
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aic_mode2_vlc[i].table_allocated = mode2_offs[i + 1] - mode2_offs[i]; |
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init_vlc(&aic_mode2_vlc[i], AIC_MODE2_BITS, AIC_MODE2_SIZE, |
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aic_mode2_vlc_bits[i], 1, 1, |
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aic_mode2_vlc_codes[i], 2, 2, INIT_VLC_USE_NEW_STATIC); |
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} |
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for(i = 0; i < NUM_PTYPE_VLCS; i++){ |
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ptype_vlc[i].table = &ptype_table[i << PTYPE_VLC_BITS]; |
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ptype_vlc[i].table_allocated = 1 << PTYPE_VLC_BITS; |
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init_vlc_sparse(&ptype_vlc[i], PTYPE_VLC_BITS, PTYPE_VLC_SIZE, |
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ptype_vlc_bits[i], 1, 1, |
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ptype_vlc_codes[i], 1, 1, |
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ptype_vlc_syms, 1, 1, INIT_VLC_USE_NEW_STATIC); |
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} |
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for(i = 0; i < NUM_BTYPE_VLCS; i++){ |
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btype_vlc[i].table = &btype_table[i << BTYPE_VLC_BITS]; |
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btype_vlc[i].table_allocated = 1 << BTYPE_VLC_BITS; |
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init_vlc_sparse(&btype_vlc[i], BTYPE_VLC_BITS, BTYPE_VLC_SIZE, |
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btype_vlc_bits[i], 1, 1, |
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btype_vlc_codes[i], 1, 1, |
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btype_vlc_syms, 1, 1, INIT_VLC_USE_NEW_STATIC); |
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} |
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} |
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/** |
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* Get stored dimension from bitstream. |
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* |
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* If the width/height is the standard one then it's coded as a 3-bit index. |
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* Otherwise it is coded as escaped 8-bit portions. |
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*/ |
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static int get_dimension(GetBitContext *gb, const int *dim) |
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{ |
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int t = get_bits(gb, 3); |
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int val = dim[t]; |
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if(val < 0) |
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val = dim[get_bits1(gb) - val]; |
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if(!val){ |
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do{ |
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t = get_bits(gb, 8); |
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val += t << 2; |
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}while(t == 0xFF); |
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} |
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return val; |
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} |
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/** |
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* Get encoded picture size - usually this is called from rv40_parse_slice_header. |
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*/ |
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static void rv40_parse_picture_size(GetBitContext *gb, int *w, int *h) |
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{ |
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*w = get_dimension(gb, rv40_standard_widths); |
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*h = get_dimension(gb, rv40_standard_heights); |
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} |
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static int rv40_parse_slice_header(RV34DecContext *r, GetBitContext *gb, SliceInfo *si) |
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{ |
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int mb_bits; |
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int w = r->s.width, h = r->s.height; |
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int mb_size; |
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memset(si, 0, sizeof(SliceInfo)); |
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if(get_bits1(gb)) |
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return -1; |
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si->type = get_bits(gb, 2); |
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if(si->type == 1) si->type = 0; |
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si->quant = get_bits(gb, 5); |
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if(get_bits(gb, 2)) |
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return -1; |
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si->vlc_set = get_bits(gb, 2); |
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skip_bits1(gb); |
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si->pts = get_bits(gb, 13); |
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if(!si->type || !get_bits1(gb)) |
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rv40_parse_picture_size(gb, &w, &h); |
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if(avcodec_check_dimensions(r->s.avctx, w, h) < 0) |
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return -1; |
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si->width = w; |
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si->height = h; |
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mb_size = ((w + 15) >> 4) * ((h + 15) >> 4); |
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mb_bits = ff_rv34_get_start_offset(gb, mb_size); |
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si->start = get_bits(gb, mb_bits); |
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return 0; |
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} |
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/** |
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* Decode 4x4 intra types array. |
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*/ |
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static int rv40_decode_intra_types(RV34DecContext *r, GetBitContext *gb, int8_t *dst) |
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{ |
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MpegEncContext *s = &r->s; |
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int i, j, k, v; |
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int A, B, C; |
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int pattern; |
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int8_t *ptr; |
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for(i = 0; i < 4; i++, dst += r->intra_types_stride){ |
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if(!i && s->first_slice_line){ |
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pattern = get_vlc2(gb, aic_top_vlc.table, AIC_TOP_BITS, 1); |
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dst[0] = (pattern >> 2) & 2; |
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dst[1] = (pattern >> 1) & 2; |
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dst[2] = pattern & 2; |
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dst[3] = (pattern << 1) & 2; |
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continue; |
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} |
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ptr = dst; |
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for(j = 0; j < 4; j++){ |
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/* Coefficients are read using VLC chosen by the prediction pattern |
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* The first one (used for retrieving a pair of coefficients) is |
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* constructed from the top, top right and left coefficients |
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* The second one (used for retrieving only one coefficient) is |
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* top + 10 * left. |
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*/ |
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A = ptr[-r->intra_types_stride + 1]; // it won't be used for the last coefficient in a row |
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B = ptr[-r->intra_types_stride]; |
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C = ptr[-1]; |
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pattern = A + (B << 4) + (C << 8); |
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for(k = 0; k < MODE2_PATTERNS_NUM; k++) |
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if(pattern == rv40_aic_table_index[k]) |
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break; |
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if(j < 3 && k < MODE2_PATTERNS_NUM){ //pattern is found, decoding 2 coefficients |
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v = get_vlc2(gb, aic_mode2_vlc[k].table, AIC_MODE2_BITS, 2); |
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*ptr++ = v/9; |
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*ptr++ = v%9; |
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j++; |
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}else{ |
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if(B != -1 && C != -1) |
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v = get_vlc2(gb, aic_mode1_vlc[B + C*10].table, AIC_MODE1_BITS, 1); |
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else{ // tricky decoding |
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v = 0; |
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switch(C){ |
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case -1: // code 0 -> 1, 1 -> 0 |
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if(B < 2) |
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v = get_bits1(gb) ^ 1; |
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break; |
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case 0: |
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case 2: // code 0 -> 2, 1 -> 0 |
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v = (get_bits1(gb) ^ 1) << 1; |
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break; |
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} |
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} |
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*ptr++ = v; |
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} |
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} |
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} |
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return 0; |
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} |
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/** |
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* Decode macroblock information. |
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*/ |
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static int rv40_decode_mb_info(RV34DecContext *r) |
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{ |
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MpegEncContext *s = &r->s; |
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GetBitContext *gb = &s->gb; |
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int q, i; |
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int prev_type = 0; |
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int mb_pos = s->mb_x + s->mb_y * s->mb_stride; |
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int blocks[RV34_MB_TYPES] = {0}; |
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int count = 0; |
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if(!r->s.mb_skip_run) |
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r->s.mb_skip_run = svq3_get_ue_golomb(gb) + 1; |
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if(--r->s.mb_skip_run) |
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return RV34_MB_SKIP; |
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if(r->avail_cache[6-1]) |
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blocks[r->mb_type[mb_pos - 1]]++; |
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if(r->avail_cache[6-4]){ |
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blocks[r->mb_type[mb_pos - s->mb_stride]]++; |
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if(r->avail_cache[6-2]) |
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blocks[r->mb_type[mb_pos - s->mb_stride + 1]]++; |
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if(r->avail_cache[6-5]) |
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blocks[r->mb_type[mb_pos - s->mb_stride - 1]]++; |
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} |
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for(i = 0; i < RV34_MB_TYPES; i++){ |
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if(blocks[i] > count){ |
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count = blocks[i]; |
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prev_type = i; |
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} |
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} |
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if(s->pict_type == FF_P_TYPE){ |
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prev_type = block_num_to_ptype_vlc_num[prev_type]; |
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q = get_vlc2(gb, ptype_vlc[prev_type].table, PTYPE_VLC_BITS, 1); |
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if(q < PBTYPE_ESCAPE) |
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return q; |
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q = get_vlc2(gb, ptype_vlc[prev_type].table, PTYPE_VLC_BITS, 1); |
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av_log(s->avctx, AV_LOG_ERROR, "Dquant for P-frame\n"); |
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}else{ |
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prev_type = block_num_to_btype_vlc_num[prev_type]; |
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q = get_vlc2(gb, btype_vlc[prev_type].table, BTYPE_VLC_BITS, 1); |
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if(q < PBTYPE_ESCAPE) |
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return q; |
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q = get_vlc2(gb, btype_vlc[prev_type].table, BTYPE_VLC_BITS, 1); |
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av_log(s->avctx, AV_LOG_ERROR, "Dquant for B-frame\n"); |
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} |
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return 0; |
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} |
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#define CLIP_SYMM(a, b) av_clip(a, -(b), b) |
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/** |
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* weaker deblocking very similar to the one described in 4.4.2 of JVT-A003r1 |
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*/ |
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static inline void rv40_weak_loop_filter(uint8_t *src, const int step, |
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const int filter_p1, const int filter_q1, |
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const int alpha, const int beta, |
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const int lim_p0q0, |
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const int lim_q1, const int lim_p1, |
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const int diff_p1p0, const int diff_q1q0, |
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const int diff_p1p2, const int diff_q1q2) |
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{ |
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uint8_t *cm = ff_cropTbl + MAX_NEG_CROP; |
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int t, u, diff; |
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t = src[0*step] - src[-1*step]; |
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if(!t) |
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return; |
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u = (alpha * FFABS(t)) >> 7; |
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if(u > 3 - (filter_p1 && filter_q1)) |
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return; |
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t <<= 2; |
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if(filter_p1 && filter_q1) |
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t += src[-2*step] - src[1*step]; |
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diff = CLIP_SYMM((t + 4) >> 3, lim_p0q0); |
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src[-1*step] = cm[src[-1*step] + diff]; |
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src[ 0*step] = cm[src[ 0*step] - diff]; |
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if(FFABS(diff_p1p2) <= beta && filter_p1){ |
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t = (diff_p1p0 + diff_p1p2 - diff) >> 1; |
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src[-2*step] = cm[src[-2*step] - CLIP_SYMM(t, lim_p1)]; |
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} |
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if(FFABS(diff_q1q2) <= beta && filter_q1){ |
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t = (diff_q1q0 + diff_q1q2 + diff) >> 1; |
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src[ 1*step] = cm[src[ 1*step] - CLIP_SYMM(t, lim_q1)]; |
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} |
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} |
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static inline void rv40_adaptive_loop_filter(uint8_t *src, const int step, |
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const int stride, const int dmode, |
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const int lim_q1, const int lim_p1, |
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const int alpha, |
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const int beta, const int beta2, |
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const int chroma, const int edge) |
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{ |
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int diff_p1p0[4], diff_q1q0[4], diff_p1p2[4], diff_q1q2[4]; |
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int sum_p1p0 = 0, sum_q1q0 = 0, sum_p1p2 = 0, sum_q1q2 = 0; |
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uint8_t *ptr; |
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int flag_strong0 = 1, flag_strong1 = 1; |
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int filter_p1, filter_q1; |
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int i; |
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int lims; |
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for(i = 0, ptr = src; i < 4; i++, ptr += stride){ |
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diff_p1p0[i] = ptr[-2*step] - ptr[-1*step]; |
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diff_q1q0[i] = ptr[ 1*step] - ptr[ 0*step]; |
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sum_p1p0 += diff_p1p0[i]; |
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sum_q1q0 += diff_q1q0[i]; |
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} |
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filter_p1 = FFABS(sum_p1p0) < (beta<<2); |
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filter_q1 = FFABS(sum_q1q0) < (beta<<2); |
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if(!filter_p1 && !filter_q1) |
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return; |
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for(i = 0, ptr = src; i < 4; i++, ptr += stride){ |
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diff_p1p2[i] = ptr[-2*step] - ptr[-3*step]; |
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diff_q1q2[i] = ptr[ 1*step] - ptr[ 2*step]; |
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sum_p1p2 += diff_p1p2[i]; |
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sum_q1q2 += diff_q1q2[i]; |
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} |
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if(edge){ |
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flag_strong0 = filter_p1 && (FFABS(sum_p1p2) < beta2); |
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flag_strong1 = filter_q1 && (FFABS(sum_q1q2) < beta2); |
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}else{ |
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flag_strong0 = flag_strong1 = 0; |
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} |
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lims = filter_p1 + filter_q1 + ((lim_q1 + lim_p1) >> 1) + 1; |
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if(flag_strong0 && flag_strong1){ /* strong filtering */ |
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for(i = 0; i < 4; i++, src += stride){ |
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int sflag, p0, q0, p1, q1; |
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int t = src[0*step] - src[-1*step]; |
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if(!t) continue; |
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sflag = (alpha * FFABS(t)) >> 7; |
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if(sflag > 1) continue; |
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p0 = (25*src[-3*step] + 26*src[-2*step] |
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+ 26*src[-1*step] |
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+ 26*src[ 0*step] + 25*src[ 1*step] + rv40_dither_l[dmode + i]) >> 7; |
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q0 = (25*src[-2*step] + 26*src[-1*step] |
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+ 26*src[ 0*step] |
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+ 26*src[ 1*step] + 25*src[ 2*step] + rv40_dither_r[dmode + i]) >> 7; |
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if(sflag){ |
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p0 = av_clip(p0, src[-1*step] - lims, src[-1*step] + lims); |
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q0 = av_clip(q0, src[ 0*step] - lims, src[ 0*step] + lims); |
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} |
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p1 = (25*src[-4*step] + 26*src[-3*step] |
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+ 26*src[-2*step] |
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+ 26*p0 + 25*src[ 0*step] + rv40_dither_l[dmode + i]) >> 7; |
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q1 = (25*src[-1*step] + 26*q0 |
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+ 26*src[ 1*step] |
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+ 26*src[ 2*step] + 25*src[ 3*step] + rv40_dither_r[dmode + i]) >> 7; |
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if(sflag){ |
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p1 = av_clip(p1, src[-2*step] - lims, src[-2*step] + lims); |
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q1 = av_clip(q1, src[ 1*step] - lims, src[ 1*step] + lims); |
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} |
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src[-2*step] = p1; |
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src[-1*step] = p0; |
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src[ 0*step] = q0; |
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src[ 1*step] = q1; |
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if(!chroma){ |
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src[-3*step] = (25*src[-1*step] + 26*src[-2*step] + 51*src[-3*step] + 26*src[-4*step] + 64) >> 7; |
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src[ 2*step] = (25*src[ 0*step] + 26*src[ 1*step] + 51*src[ 2*step] + 26*src[ 3*step] + 64) >> 7; |
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} |
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} |
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}else if(filter_p1 && filter_q1){ |
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for(i = 0; i < 4; i++, src += stride) |
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rv40_weak_loop_filter(src, step, 1, 1, alpha, beta, lims, lim_q1, lim_p1, |
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diff_p1p0[i], diff_q1q0[i], diff_p1p2[i], diff_q1q2[i]); |
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}else{ |
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for(i = 0; i < 4; i++, src += stride) |
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rv40_weak_loop_filter(src, step, filter_p1, filter_q1, |
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alpha, beta, lims>>1, lim_q1>>1, lim_p1>>1, |
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diff_p1p0[i], diff_q1q0[i], diff_p1p2[i], diff_q1q2[i]); |
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} |
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} |
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static void rv40_v_loop_filter(uint8_t *src, int stride, int dmode, |
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int lim_q1, int lim_p1, |
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int alpha, int beta, int beta2, int chroma, int edge){ |
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rv40_adaptive_loop_filter(src, 1, stride, dmode, lim_q1, lim_p1, |
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alpha, beta, beta2, chroma, edge); |
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} |
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static void rv40_h_loop_filter(uint8_t *src, int stride, int dmode, |
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int lim_q1, int lim_p1, |
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int alpha, int beta, int beta2, int chroma, int edge){ |
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rv40_adaptive_loop_filter(src, stride, 1, dmode, lim_q1, lim_p1, |
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alpha, beta, beta2, chroma, edge); |
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} |
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enum RV40BlockPos{ |
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POS_CUR, |
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POS_TOP, |
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POS_LEFT, |
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POS_BOTTOM, |
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}; |
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|
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#define MASK_CUR 0x0001 |
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#define MASK_RIGHT 0x0008 |
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#define MASK_BOTTOM 0x0010 |
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#define MASK_TOP 0x1000 |
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#define MASK_Y_TOP_ROW 0x000F |
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#define MASK_Y_LAST_ROW 0xF000 |
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#define MASK_Y_LEFT_COL 0x1111 |
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#define MASK_Y_RIGHT_COL 0x8888 |
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#define MASK_C_TOP_ROW 0x0003 |
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#define MASK_C_LAST_ROW 0x000C |
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#define MASK_C_LEFT_COL 0x0005 |
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#define MASK_C_RIGHT_COL 0x000A |
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|
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static const int neighbour_offs_x[4] = { 0, 0, -1, 0 }; |
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static const int neighbour_offs_y[4] = { 0, -1, 0, 1 }; |
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|
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/** |
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* RV40 loop filtering function |
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*/ |
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static void rv40_loop_filter(RV34DecContext *r, int row) |
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{ |
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MpegEncContext *s = &r->s; |
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int mb_pos, mb_x; |
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int i, j, k; |
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uint8_t *Y, *C; |
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int alpha, beta, betaY, betaC; |
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int q; |
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int mbtype[4]; ///< current macroblock and its neighbours types |
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/** |
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* flags indicating that macroblock can be filtered with strong filter |
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* it is set only for intra coded MB and MB with DCs coded separately |
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*/ |
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int mb_strong[4]; |
|
int clip[4]; ///< MB filter clipping value calculated from filtering strength |
|
/** |
|
* coded block patterns for luma part of current macroblock and its neighbours |
|
* Format: |
|
* LSB corresponds to the top left block, |
|
* each nibble represents one row of subblocks. |
|
*/ |
|
int cbp[4]; |
|
/** |
|
* coded block patterns for chroma part of current macroblock and its neighbours |
|
* Format is the same as for luma with two subblocks in a row. |
|
*/ |
|
int uvcbp[4][2]; |
|
/** |
|
* This mask represents the pattern of luma subblocks that should be filtered |
|
* in addition to the coded ones because because they lie at the edge of |
|
* 8x8 block with different enough motion vectors |
|
*/ |
|
int mvmasks[4]; |
|
|
|
mb_pos = row * s->mb_stride; |
|
for(mb_x = 0; mb_x < s->mb_width; mb_x++, mb_pos++){ |
|
int mbtype = s->current_picture_ptr->mb_type[mb_pos]; |
|
if(IS_INTRA(mbtype) || IS_SEPARATE_DC(mbtype)) |
|
r->cbp_luma [mb_pos] = r->deblock_coefs[mb_pos] = 0xFFFF; |
|
if(IS_INTRA(mbtype)) |
|
r->cbp_chroma[mb_pos] = 0xFF; |
|
} |
|
mb_pos = row * s->mb_stride; |
|
for(mb_x = 0; mb_x < s->mb_width; mb_x++, mb_pos++){ |
|
int y_h_deblock, y_v_deblock; |
|
int c_v_deblock[2], c_h_deblock[2]; |
|
int clip_left; |
|
int avail[4]; |
|
int y_to_deblock, c_to_deblock[2]; |
|
|
|
q = s->current_picture_ptr->qscale_table[mb_pos]; |
|
alpha = rv40_alpha_tab[q]; |
|
beta = rv40_beta_tab [q]; |
|
betaY = betaC = beta * 3; |
|
if(s->width * s->height <= 176*144) |
|
betaY += beta; |
|
|
|
avail[0] = 1; |
|
avail[1] = row; |
|
avail[2] = mb_x; |
|
avail[3] = row < s->mb_height - 1; |
|
for(i = 0; i < 4; i++){ |
|
if(avail[i]){ |
|
int pos = mb_pos + neighbour_offs_x[i] + neighbour_offs_y[i]*s->mb_stride; |
|
mvmasks[i] = r->deblock_coefs[pos]; |
|
mbtype [i] = s->current_picture_ptr->mb_type[pos]; |
|
cbp [i] = r->cbp_luma[pos]; |
|
uvcbp[i][0] = r->cbp_chroma[pos] & 0xF; |
|
uvcbp[i][1] = r->cbp_chroma[pos] >> 4; |
|
}else{ |
|
mvmasks[i] = 0; |
|
mbtype [i] = mbtype[0]; |
|
cbp [i] = 0; |
|
uvcbp[i][0] = uvcbp[i][1] = 0; |
|
} |
|
mb_strong[i] = IS_INTRA(mbtype[i]) || IS_SEPARATE_DC(mbtype[i]); |
|
clip[i] = rv40_filter_clip_tbl[mb_strong[i] + 1][q]; |
|
} |
|
y_to_deblock = mvmasks[POS_CUR] |
|
| (mvmasks[POS_BOTTOM] << 16); |
|
/* This pattern contains bits signalling that horizontal edges of |
|
* the current block can be filtered. |
|
* That happens when either of adjacent subblocks is coded or lies on |
|
* the edge of 8x8 blocks with motion vectors differing by more than |
|
* 3/4 pel in any component (any edge orientation for some reason). |
|
*/ |
|
y_h_deblock = y_to_deblock |
|
| ((cbp[POS_CUR] << 4) & ~MASK_Y_TOP_ROW) |
|
| ((cbp[POS_TOP] & MASK_Y_LAST_ROW) >> 12); |
|
/* This pattern contains bits signalling that vertical edges of |
|
* the current block can be filtered. |
|
* That happens when either of adjacent subblocks is coded or lies on |
|
* the edge of 8x8 blocks with motion vectors differing by more than |
|
* 3/4 pel in any component (any edge orientation for some reason). |
|
*/ |
|
y_v_deblock = y_to_deblock |
|
| ((cbp[POS_CUR] << 1) & ~MASK_Y_LEFT_COL) |
|
| ((cbp[POS_LEFT] & MASK_Y_RIGHT_COL) >> 3); |
|
if(!mb_x) |
|
y_v_deblock &= ~MASK_Y_LEFT_COL; |
|
if(!row) |
|
y_h_deblock &= ~MASK_Y_TOP_ROW; |
|
if(row == s->mb_height - 1 || (mb_strong[POS_CUR] || mb_strong[POS_BOTTOM])) |
|
y_h_deblock &= ~(MASK_Y_TOP_ROW << 16); |
|
/* Calculating chroma patterns is similar and easier since there is |
|
* no motion vector pattern for them. |
|
*/ |
|
for(i = 0; i < 2; i++){ |
|
c_to_deblock[i] = (uvcbp[POS_BOTTOM][i] << 4) | uvcbp[POS_CUR][i]; |
|
c_v_deblock[i] = c_to_deblock[i] |
|
| ((uvcbp[POS_CUR] [i] << 1) & ~MASK_C_LEFT_COL) |
|
| ((uvcbp[POS_LEFT][i] & MASK_C_RIGHT_COL) >> 1); |
|
c_h_deblock[i] = c_to_deblock[i] |
|
| ((uvcbp[POS_TOP][i] & MASK_C_LAST_ROW) >> 2) |
|
| (uvcbp[POS_CUR][i] << 2); |
|
if(!mb_x) |
|
c_v_deblock[i] &= ~MASK_C_LEFT_COL; |
|
if(!row) |
|
c_h_deblock[i] &= ~MASK_C_TOP_ROW; |
|
if(row == s->mb_height - 1 || mb_strong[POS_CUR] || mb_strong[POS_BOTTOM]) |
|
c_h_deblock[i] &= ~(MASK_C_TOP_ROW << 4); |
|
} |
|
|
|
for(j = 0; j < 16; j += 4){ |
|
Y = s->current_picture_ptr->data[0] + mb_x*16 + (row*16 + j) * s->linesize; |
|
for(i = 0; i < 4; i++, Y += 4){ |
|
int ij = i + j; |
|
int clip_cur = y_to_deblock & (MASK_CUR << ij) ? clip[POS_CUR] : 0; |
|
int dither = j ? ij : i*4; |
|
|
|
// if bottom block is coded then we can filter its top edge |
|
// (or bottom edge of this block, which is the same) |
|
if(y_h_deblock & (MASK_BOTTOM << ij)){ |
|
rv40_h_loop_filter(Y+4*s->linesize, s->linesize, dither, |
|
y_to_deblock & (MASK_BOTTOM << ij) ? clip[POS_CUR] : 0, |
|
clip_cur, |
|
alpha, beta, betaY, 0, 0); |
|
} |
|
// filter left block edge in ordinary mode (with low filtering strength) |
|
if(y_v_deblock & (MASK_CUR << ij) && (i || !(mb_strong[POS_CUR] || mb_strong[POS_LEFT]))){ |
|
if(!i) |
|
clip_left = mvmasks[POS_LEFT] & (MASK_RIGHT << j) ? clip[POS_LEFT] : 0; |
|
else |
|
clip_left = y_to_deblock & (MASK_CUR << (ij-1)) ? clip[POS_CUR] : 0; |
|
rv40_v_loop_filter(Y, s->linesize, dither, |
|
clip_cur, |
|
clip_left, |
|
alpha, beta, betaY, 0, 0); |
|
} |
|
// filter top edge of the current macroblock when filtering strength is high |
|
if(!j && y_h_deblock & (MASK_CUR << i) && (mb_strong[POS_CUR] || mb_strong[POS_TOP])){ |
|
rv40_h_loop_filter(Y, s->linesize, dither, |
|
clip_cur, |
|
mvmasks[POS_TOP] & (MASK_TOP << i) ? clip[POS_TOP] : 0, |
|
alpha, beta, betaY, 0, 1); |
|
} |
|
// filter left block edge in edge mode (with high filtering strength) |
|
if(y_v_deblock & (MASK_CUR << ij) && !i && (mb_strong[POS_CUR] || mb_strong[POS_LEFT])){ |
|
clip_left = mvmasks[POS_LEFT] & (MASK_RIGHT << j) ? clip[POS_LEFT] : 0; |
|
rv40_v_loop_filter(Y, s->linesize, dither, |
|
clip_cur, |
|
clip_left, |
|
alpha, beta, betaY, 0, 1); |
|
} |
|
} |
|
} |
|
for(k = 0; k < 2; k++){ |
|
for(j = 0; j < 2; j++){ |
|
C = s->current_picture_ptr->data[k+1] + mb_x*8 + (row*8 + j*4) * s->uvlinesize; |
|
for(i = 0; i < 2; i++, C += 4){ |
|
int ij = i + j*2; |
|
int clip_cur = c_to_deblock[k] & (MASK_CUR << ij) ? clip[POS_CUR] : 0; |
|
if(c_h_deblock[k] & (MASK_CUR << (ij+2))){ |
|
int clip_bot = c_to_deblock[k] & (MASK_CUR << (ij+2)) ? clip[POS_CUR] : 0; |
|
rv40_h_loop_filter(C+4*s->uvlinesize, s->uvlinesize, i*8, |
|
clip_bot, |
|
clip_cur, |
|
alpha, beta, betaC, 1, 0); |
|
} |
|
if((c_v_deblock[k] & (MASK_CUR << ij)) && (i || !(mb_strong[POS_CUR] || mb_strong[POS_LEFT]))){ |
|
if(!i) |
|
clip_left = uvcbp[POS_LEFT][k] & (MASK_CUR << (2*j+1)) ? clip[POS_LEFT] : 0; |
|
else |
|
clip_left = c_to_deblock[k] & (MASK_CUR << (ij-1)) ? clip[POS_CUR] : 0; |
|
rv40_v_loop_filter(C, s->uvlinesize, j*8, |
|
clip_cur, |
|
clip_left, |
|
alpha, beta, betaC, 1, 0); |
|
} |
|
if(!j && c_h_deblock[k] & (MASK_CUR << ij) && (mb_strong[POS_CUR] || mb_strong[POS_TOP])){ |
|
int clip_top = uvcbp[POS_TOP][k] & (MASK_CUR << (ij+2)) ? clip[POS_TOP] : 0; |
|
rv40_h_loop_filter(C, s->uvlinesize, i*8, |
|
clip_cur, |
|
clip_top, |
|
alpha, beta, betaC, 1, 1); |
|
} |
|
if(c_v_deblock[k] & (MASK_CUR << ij) && !i && (mb_strong[POS_CUR] || mb_strong[POS_LEFT])){ |
|
clip_left = uvcbp[POS_LEFT][k] & (MASK_CUR << (2*j+1)) ? clip[POS_LEFT] : 0; |
|
rv40_v_loop_filter(C, s->uvlinesize, j*8, |
|
clip_cur, |
|
clip_left, |
|
alpha, beta, betaC, 1, 1); |
|
} |
|
} |
|
} |
|
} |
|
} |
|
} |
|
|
|
/** |
|
* Initialize decoder. |
|
*/ |
|
static av_cold int rv40_decode_init(AVCodecContext *avctx) |
|
{ |
|
RV34DecContext *r = avctx->priv_data; |
|
|
|
r->rv30 = 0; |
|
ff_rv34_decode_init(avctx); |
|
if(!aic_top_vlc.bits) |
|
rv40_init_tables(); |
|
r->parse_slice_header = rv40_parse_slice_header; |
|
r->decode_intra_types = rv40_decode_intra_types; |
|
r->decode_mb_info = rv40_decode_mb_info; |
|
r->loop_filter = rv40_loop_filter; |
|
r->luma_dc_quant_i = rv40_luma_dc_quant[0]; |
|
r->luma_dc_quant_p = rv40_luma_dc_quant[1]; |
|
return 0; |
|
} |
|
|
|
AVCodec rv40_decoder = { |
|
"rv40", |
|
AVMEDIA_TYPE_VIDEO, |
|
CODEC_ID_RV40, |
|
sizeof(RV34DecContext), |
|
rv40_decode_init, |
|
NULL, |
|
ff_rv34_decode_end, |
|
ff_rv34_decode_frame, |
|
CODEC_CAP_DR1 | CODEC_CAP_DELAY, |
|
.flush = ff_mpeg_flush, |
|
.long_name = NULL_IF_CONFIG_SMALL("RealVideo 4.0"), |
|
.pix_fmts= ff_pixfmt_list_420, |
|
};
|
|
|