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| author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
|---|---|---|
| committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
| commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
| tree | 10027f336435511475e392454359edea8e25895d /media/libtheora/lib/decode.c | |
| parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
Diffstat (limited to 'media/libtheora/lib/decode.c')
| -rw-r--r-- | media/libtheora/lib/decode.c | 2963 |
1 files changed, 2963 insertions, 0 deletions
diff --git a/media/libtheora/lib/decode.c b/media/libtheora/lib/decode.c new file mode 100644 index 000000000..563782b7a --- /dev/null +++ b/media/libtheora/lib/decode.c @@ -0,0 +1,2963 @@ +/******************************************************************** + * * + * THIS FILE IS PART OF THE OggTheora SOFTWARE CODEC SOURCE CODE. * + * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS * + * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE * + * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. * + * * + * THE Theora SOURCE CODE IS COPYRIGHT (C) 2002-2009 * + * by the Xiph.Org Foundation and contributors http://www.xiph.org/ * + * * + ******************************************************************** + + function: + last mod: $Id: decode.c 17576 2010-10-29 01:07:51Z tterribe $ + + ********************************************************************/ + +#include <stdlib.h> +#include <string.h> +#include <ogg/ogg.h> +#include "decint.h" +#if defined(OC_DUMP_IMAGES) +# include <stdio.h> +# include "png.h" +#endif +#if defined(HAVE_CAIRO) +# include <cairo.h> +#endif + + +/*No post-processing.*/ +#define OC_PP_LEVEL_DISABLED (0) +/*Keep track of DC qi for each block only.*/ +#define OC_PP_LEVEL_TRACKDCQI (1) +/*Deblock the luma plane.*/ +#define OC_PP_LEVEL_DEBLOCKY (2) +/*Dering the luma plane.*/ +#define OC_PP_LEVEL_DERINGY (3) +/*Stronger luma plane deringing.*/ +#define OC_PP_LEVEL_SDERINGY (4) +/*Deblock the chroma planes.*/ +#define OC_PP_LEVEL_DEBLOCKC (5) +/*Dering the chroma planes.*/ +#define OC_PP_LEVEL_DERINGC (6) +/*Stronger chroma plane deringing.*/ +#define OC_PP_LEVEL_SDERINGC (7) +/*Maximum valid post-processing level.*/ +#define OC_PP_LEVEL_MAX (7) + + + +/*The mode alphabets for the various mode coding schemes. + Scheme 0 uses a custom alphabet, which is not stored in this table.*/ +static const unsigned char OC_MODE_ALPHABETS[7][OC_NMODES]={ + /*Last MV dominates */ + { + OC_MODE_INTER_MV_LAST,OC_MODE_INTER_MV_LAST2,OC_MODE_INTER_MV, + OC_MODE_INTER_NOMV,OC_MODE_INTRA,OC_MODE_GOLDEN_NOMV,OC_MODE_GOLDEN_MV, + OC_MODE_INTER_MV_FOUR + }, + { + OC_MODE_INTER_MV_LAST,OC_MODE_INTER_MV_LAST2,OC_MODE_INTER_NOMV, + OC_MODE_INTER_MV,OC_MODE_INTRA,OC_MODE_GOLDEN_NOMV,OC_MODE_GOLDEN_MV, + OC_MODE_INTER_MV_FOUR + }, + { + OC_MODE_INTER_MV_LAST,OC_MODE_INTER_MV,OC_MODE_INTER_MV_LAST2, + OC_MODE_INTER_NOMV,OC_MODE_INTRA,OC_MODE_GOLDEN_NOMV,OC_MODE_GOLDEN_MV, + OC_MODE_INTER_MV_FOUR + }, + { + OC_MODE_INTER_MV_LAST,OC_MODE_INTER_MV,OC_MODE_INTER_NOMV, + OC_MODE_INTER_MV_LAST2,OC_MODE_INTRA,OC_MODE_GOLDEN_NOMV, + OC_MODE_GOLDEN_MV,OC_MODE_INTER_MV_FOUR + }, + /*No MV dominates.*/ + { + OC_MODE_INTER_NOMV,OC_MODE_INTER_MV_LAST,OC_MODE_INTER_MV_LAST2, + OC_MODE_INTER_MV,OC_MODE_INTRA,OC_MODE_GOLDEN_NOMV,OC_MODE_GOLDEN_MV, + OC_MODE_INTER_MV_FOUR + }, + { + OC_MODE_INTER_NOMV,OC_MODE_GOLDEN_NOMV,OC_MODE_INTER_MV_LAST, + OC_MODE_INTER_MV_LAST2,OC_MODE_INTER_MV,OC_MODE_INTRA,OC_MODE_GOLDEN_MV, + OC_MODE_INTER_MV_FOUR + }, + /*Default ordering.*/ + { + OC_MODE_INTER_NOMV,OC_MODE_INTRA,OC_MODE_INTER_MV,OC_MODE_INTER_MV_LAST, + OC_MODE_INTER_MV_LAST2,OC_MODE_GOLDEN_NOMV,OC_MODE_GOLDEN_MV, + OC_MODE_INTER_MV_FOUR + } +}; + + +/*The original DCT tokens are extended and reordered during the construction of + the Huffman tables. + The extension means more bits can be read with fewer calls to the bitpacker + during the Huffman decoding process (at the cost of larger Huffman tables), + and fewer tokens require additional extra bits (reducing the average storage + per decoded token). + The revised ordering reveals essential information in the token value + itself; specifically, whether or not there are additional extra bits to read + and the parameter to which those extra bits are applied. + The token is used to fetch a code word from the OC_DCT_CODE_WORD table below. + The extra bits are added into code word at the bit position inferred from the + token value, giving the final code word from which all required parameters + are derived. + The number of EOBs and the leading zero run length can be extracted directly. + The coefficient magnitude is optionally negated before extraction, according + to a 'flip' bit.*/ + +/*The number of additional extra bits that are decoded with each of the + internal DCT tokens.*/ +static const unsigned char OC_INTERNAL_DCT_TOKEN_EXTRA_BITS[15]={ + 12,4,3,3,4,4,5,5,8,8,8,8,3,3,6 +}; + +/*Whether or not an internal token needs any additional extra bits.*/ +#define OC_DCT_TOKEN_NEEDS_MORE(token) \ + (token<(int)(sizeof(OC_INTERNAL_DCT_TOKEN_EXTRA_BITS)/ \ + sizeof(*OC_INTERNAL_DCT_TOKEN_EXTRA_BITS))) + +/*This token (OC_DCT_REPEAT_RUN3_TOKEN) requires more than 8 extra bits.*/ +#define OC_DCT_TOKEN_FAT_EOB (0) + +/*The number of EOBs to use for an end-of-frame token. + Note: We want to set eobs to PTRDIFF_MAX here, but that requires C99, which + is not yet available everywhere; this should be equivalent.*/ +#define OC_DCT_EOB_FINISH (~(size_t)0>>1) + +/*The location of the (6) run length bits in the code word. + These are placed at index 0 and given 8 bits (even though 6 would suffice) + because it may be faster to extract the lower byte on some platforms.*/ +#define OC_DCT_CW_RLEN_SHIFT (0) +/*The location of the (12) EOB bits in the code word.*/ +#define OC_DCT_CW_EOB_SHIFT (8) +/*The location of the (1) flip bit in the code word. + This must be right under the magnitude bits.*/ +#define OC_DCT_CW_FLIP_BIT (20) +/*The location of the (11) token magnitude bits in the code word. + These must be last, and rely on a sign-extending right shift.*/ +#define OC_DCT_CW_MAG_SHIFT (21) + +/*Pack the given fields into a code word.*/ +#define OC_DCT_CW_PACK(_eobs,_rlen,_mag,_flip) \ + ((_eobs)<<OC_DCT_CW_EOB_SHIFT| \ + (_rlen)<<OC_DCT_CW_RLEN_SHIFT| \ + (_flip)<<OC_DCT_CW_FLIP_BIT| \ + (_mag)-(_flip)<<OC_DCT_CW_MAG_SHIFT) + +/*A special code word value that signals the end of the frame (a long EOB run + of zero).*/ +#define OC_DCT_CW_FINISH (0) + +/*The position at which to insert the extra bits in the code word. + We use this formulation because Intel has no useful cmov. + A real architecture would probably do better with two of those. + This translates to 11 instructions(!), and is _still_ faster than either a + table lookup (just barely) or the naive double-ternary implementation (which + gcc translates to a jump and a cmov). + This assumes OC_DCT_CW_RLEN_SHIFT is zero, but could easily be reworked if + you want to make one of the other shifts zero.*/ +#define OC_DCT_TOKEN_EB_POS(_token) \ + ((OC_DCT_CW_EOB_SHIFT-OC_DCT_CW_MAG_SHIFT&-((_token)<2)) \ + +(OC_DCT_CW_MAG_SHIFT&-((_token)<12))) + +/*The code words for each internal token. + See the notes at OC_DCT_TOKEN_MAP for the reasons why things are out of + order.*/ +static const ogg_int32_t OC_DCT_CODE_WORD[92]={ + /*These tokens require additional extra bits for the EOB count.*/ + /*OC_DCT_REPEAT_RUN3_TOKEN (12 extra bits)*/ + OC_DCT_CW_FINISH, + /*OC_DCT_REPEAT_RUN2_TOKEN (4 extra bits)*/ + OC_DCT_CW_PACK(16, 0, 0,0), + /*These tokens require additional extra bits for the magnitude.*/ + /*OC_DCT_VAL_CAT5 (4 extra bits-1 already read)*/ + OC_DCT_CW_PACK( 0, 0, 13,0), + OC_DCT_CW_PACK( 0, 0, 13,1), + /*OC_DCT_VAL_CAT6 (5 extra bits-1 already read)*/ + OC_DCT_CW_PACK( 0, 0, 21,0), + OC_DCT_CW_PACK( 0, 0, 21,1), + /*OC_DCT_VAL_CAT7 (6 extra bits-1 already read)*/ + OC_DCT_CW_PACK( 0, 0, 37,0), + OC_DCT_CW_PACK( 0, 0, 37,1), + /*OC_DCT_VAL_CAT8 (10 extra bits-2 already read)*/ + OC_DCT_CW_PACK( 0, 0, 69,0), + OC_DCT_CW_PACK( 0, 0,325,0), + OC_DCT_CW_PACK( 0, 0, 69,1), + OC_DCT_CW_PACK( 0, 0,325,1), + /*These tokens require additional extra bits for the run length.*/ + /*OC_DCT_RUN_CAT1C (4 extra bits-1 already read)*/ + OC_DCT_CW_PACK( 0,10, +1,0), + OC_DCT_CW_PACK( 0,10, -1,0), + /*OC_DCT_ZRL_TOKEN (6 extra bits) + Flip is set to distinguish this from OC_DCT_CW_FINISH.*/ + OC_DCT_CW_PACK( 0, 0, 0,1), + /*The remaining tokens require no additional extra bits.*/ + /*OC_DCT_EOB1_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 1, 0, 0,0), + /*OC_DCT_EOB2_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 2, 0, 0,0), + /*OC_DCT_EOB3_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 3, 0, 0,0), + /*OC_DCT_RUN_CAT1A (1 extra bit-1 already read)x5*/ + OC_DCT_CW_PACK( 0, 1, +1,0), + OC_DCT_CW_PACK( 0, 1, -1,0), + OC_DCT_CW_PACK( 0, 2, +1,0), + OC_DCT_CW_PACK( 0, 2, -1,0), + OC_DCT_CW_PACK( 0, 3, +1,0), + OC_DCT_CW_PACK( 0, 3, -1,0), + OC_DCT_CW_PACK( 0, 4, +1,0), + OC_DCT_CW_PACK( 0, 4, -1,0), + OC_DCT_CW_PACK( 0, 5, +1,0), + OC_DCT_CW_PACK( 0, 5, -1,0), + /*OC_DCT_RUN_CAT2A (2 extra bits-2 already read)*/ + OC_DCT_CW_PACK( 0, 1, +2,0), + OC_DCT_CW_PACK( 0, 1, +3,0), + OC_DCT_CW_PACK( 0, 1, -2,0), + OC_DCT_CW_PACK( 0, 1, -3,0), + /*OC_DCT_RUN_CAT1B (3 extra bits-3 already read)*/ + OC_DCT_CW_PACK( 0, 6, +1,0), + OC_DCT_CW_PACK( 0, 7, +1,0), + OC_DCT_CW_PACK( 0, 8, +1,0), + OC_DCT_CW_PACK( 0, 9, +1,0), + OC_DCT_CW_PACK( 0, 6, -1,0), + OC_DCT_CW_PACK( 0, 7, -1,0), + OC_DCT_CW_PACK( 0, 8, -1,0), + OC_DCT_CW_PACK( 0, 9, -1,0), + /*OC_DCT_RUN_CAT2B (3 extra bits-3 already read)*/ + OC_DCT_CW_PACK( 0, 2, +2,0), + OC_DCT_CW_PACK( 0, 3, +2,0), + OC_DCT_CW_PACK( 0, 2, +3,0), + OC_DCT_CW_PACK( 0, 3, +3,0), + OC_DCT_CW_PACK( 0, 2, -2,0), + OC_DCT_CW_PACK( 0, 3, -2,0), + OC_DCT_CW_PACK( 0, 2, -3,0), + OC_DCT_CW_PACK( 0, 3, -3,0), + /*OC_DCT_SHORT_ZRL_TOKEN (3 extra bits-3 already read) + Flip is set on the first one to distinguish it from OC_DCT_CW_FINISH.*/ + OC_DCT_CW_PACK( 0, 0, 0,1), + OC_DCT_CW_PACK( 0, 1, 0,0), + OC_DCT_CW_PACK( 0, 2, 0,0), + OC_DCT_CW_PACK( 0, 3, 0,0), + OC_DCT_CW_PACK( 0, 4, 0,0), + OC_DCT_CW_PACK( 0, 5, 0,0), + OC_DCT_CW_PACK( 0, 6, 0,0), + OC_DCT_CW_PACK( 0, 7, 0,0), + /*OC_ONE_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 0, 0, +1,0), + /*OC_MINUS_ONE_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 0, 0, -1,0), + /*OC_TWO_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 0, 0, +2,0), + /*OC_MINUS_TWO_TOKEN (0 extra bits)*/ + OC_DCT_CW_PACK( 0, 0, -2,0), + /*OC_DCT_VAL_CAT2 (1 extra bit-1 already read)x4*/ + OC_DCT_CW_PACK( 0, 0, +3,0), + OC_DCT_CW_PACK( 0, 0, -3,0), + OC_DCT_CW_PACK( 0, 0, +4,0), + OC_DCT_CW_PACK( 0, 0, -4,0), + OC_DCT_CW_PACK( 0, 0, +5,0), + OC_DCT_CW_PACK( 0, 0, -5,0), + OC_DCT_CW_PACK( 0, 0, +6,0), + OC_DCT_CW_PACK( 0, 0, -6,0), + /*OC_DCT_VAL_CAT3 (2 extra bits-2 already read)*/ + OC_DCT_CW_PACK( 0, 0, +7,0), + OC_DCT_CW_PACK( 0, 0, +8,0), + OC_DCT_CW_PACK( 0, 0, -7,0), + OC_DCT_CW_PACK( 0, 0, -8,0), + /*OC_DCT_VAL_CAT4 (3 extra bits-3 already read)*/ + OC_DCT_CW_PACK( 0, 0, +9,0), + OC_DCT_CW_PACK( 0, 0,+10,0), + OC_DCT_CW_PACK( 0, 0,+11,0), + OC_DCT_CW_PACK( 0, 0,+12,0), + OC_DCT_CW_PACK( 0, 0, -9,0), + OC_DCT_CW_PACK( 0, 0,-10,0), + OC_DCT_CW_PACK( 0, 0,-11,0), + OC_DCT_CW_PACK( 0, 0,-12,0), + /*OC_DCT_REPEAT_RUN1_TOKEN (3 extra bits-3 already read)*/ + OC_DCT_CW_PACK( 8, 0, 0,0), + OC_DCT_CW_PACK( 9, 0, 0,0), + OC_DCT_CW_PACK(10, 0, 0,0), + OC_DCT_CW_PACK(11, 0, 0,0), + OC_DCT_CW_PACK(12, 0, 0,0), + OC_DCT_CW_PACK(13, 0, 0,0), + OC_DCT_CW_PACK(14, 0, 0,0), + OC_DCT_CW_PACK(15, 0, 0,0), + /*OC_DCT_REPEAT_RUN0_TOKEN (2 extra bits-2 already read)*/ + OC_DCT_CW_PACK( 4, 0, 0,0), + OC_DCT_CW_PACK( 5, 0, 0,0), + OC_DCT_CW_PACK( 6, 0, 0,0), + OC_DCT_CW_PACK( 7, 0, 0,0), +}; + + + +static int oc_sb_run_unpack(oc_pack_buf *_opb){ + /*Coding scheme: + Codeword Run Length + 0 1 + 10x 2-3 + 110x 4-5 + 1110xx 6-9 + 11110xxx 10-17 + 111110xxxx 18-33 + 111111xxxxxxxxxxxx 34-4129*/ + static const ogg_int16_t OC_SB_RUN_TREE[22]={ + 4, + -(1<<8|1),-(1<<8|1),-(1<<8|1),-(1<<8|1), + -(1<<8|1),-(1<<8|1),-(1<<8|1),-(1<<8|1), + -(3<<8|2),-(3<<8|2),-(3<<8|3),-(3<<8|3), + -(4<<8|4),-(4<<8|5),-(4<<8|2<<4|6-6),17, + 2, + -(2<<8|2<<4|10-6),-(2<<8|2<<4|14-6),-(2<<8|4<<4|18-6),-(2<<8|12<<4|34-6) + }; + int ret; + ret=oc_huff_token_decode(_opb,OC_SB_RUN_TREE); + if(ret>=0x10){ + int offs; + offs=ret&0x1F; + ret=6+offs+(int)oc_pack_read(_opb,ret-offs>>4); + } + return ret; +} + +static int oc_block_run_unpack(oc_pack_buf *_opb){ + /*Coding scheme: + Codeword Run Length + 0x 1-2 + 10x 3-4 + 110x 5-6 + 1110xx 7-10 + 11110xx 11-14 + 11111xxxx 15-30*/ + static const ogg_int16_t OC_BLOCK_RUN_TREE[61]={ + 5, + -(2<<8|1),-(2<<8|1),-(2<<8|1),-(2<<8|1), + -(2<<8|1),-(2<<8|1),-(2<<8|1),-(2<<8|1), + -(2<<8|2),-(2<<8|2),-(2<<8|2),-(2<<8|2), + -(2<<8|2),-(2<<8|2),-(2<<8|2),-(2<<8|2), + -(3<<8|3),-(3<<8|3),-(3<<8|3),-(3<<8|3), + -(3<<8|4),-(3<<8|4),-(3<<8|4),-(3<<8|4), + -(4<<8|5),-(4<<8|5),-(4<<8|6),-(4<<8|6), + 33, 36, 39, 44, + 1,-(1<<8|7),-(1<<8|8), + 1,-(1<<8|9),-(1<<8|10), + 2,-(2<<8|11),-(2<<8|12),-(2<<8|13),-(2<<8|14), + 4, + -(4<<8|15),-(4<<8|16),-(4<<8|17),-(4<<8|18), + -(4<<8|19),-(4<<8|20),-(4<<8|21),-(4<<8|22), + -(4<<8|23),-(4<<8|24),-(4<<8|25),-(4<<8|26), + -(4<<8|27),-(4<<8|28),-(4<<8|29),-(4<<8|30) + }; + return oc_huff_token_decode(_opb,OC_BLOCK_RUN_TREE); +} + + + +void oc_dec_accel_init_c(oc_dec_ctx *_dec){ +# if defined(OC_DEC_USE_VTABLE) + _dec->opt_vtable.dc_unpredict_mcu_plane= + oc_dec_dc_unpredict_mcu_plane_c; +# endif +} + +static int oc_dec_init(oc_dec_ctx *_dec,const th_info *_info, + const th_setup_info *_setup){ + int qti; + int pli; + int qi; + int ret; + ret=oc_state_init(&_dec->state,_info,3); + if(ret<0)return ret; + ret=oc_huff_trees_copy(_dec->huff_tables, + (const ogg_int16_t *const *)_setup->huff_tables); + if(ret<0){ + oc_state_clear(&_dec->state); + return ret; + } + /*For each fragment, allocate one byte for every DCT coefficient token, plus + one byte for extra-bits for each token, plus one more byte for the long + EOB run, just in case it's the very last token and has a run length of + one.*/ + _dec->dct_tokens=(unsigned char *)_ogg_malloc((64+64+1)* + _dec->state.nfrags*sizeof(_dec->dct_tokens[0])); + if(_dec->dct_tokens==NULL){ + oc_huff_trees_clear(_dec->huff_tables); + oc_state_clear(&_dec->state); + return TH_EFAULT; + } + for(qi=0;qi<64;qi++)for(pli=0;pli<3;pli++)for(qti=0;qti<2;qti++){ + _dec->state.dequant_tables[qi][pli][qti]= + _dec->state.dequant_table_data[qi][pli][qti]; + } + oc_dequant_tables_init(_dec->state.dequant_tables,_dec->pp_dc_scale, + &_setup->qinfo); + for(qi=0;qi<64;qi++){ + int qsum; + qsum=0; + for(qti=0;qti<2;qti++)for(pli=0;pli<3;pli++){ + qsum+=_dec->state.dequant_tables[qi][pli][qti][12]+ + _dec->state.dequant_tables[qi][pli][qti][17]+ + _dec->state.dequant_tables[qi][pli][qti][18]+ + _dec->state.dequant_tables[qi][pli][qti][24]<<(pli==0); + } + _dec->pp_sharp_mod[qi]=-(qsum>>11); + } + memcpy(_dec->state.loop_filter_limits,_setup->qinfo.loop_filter_limits, + sizeof(_dec->state.loop_filter_limits)); + oc_dec_accel_init(_dec); + _dec->pp_level=OC_PP_LEVEL_DISABLED; + _dec->dc_qis=NULL; + _dec->variances=NULL; + _dec->pp_frame_data=NULL; + _dec->stripe_cb.ctx=NULL; + _dec->stripe_cb.stripe_decoded=NULL; +#if defined(HAVE_CAIRO) + _dec->telemetry=0; + _dec->telemetry_bits=0; + _dec->telemetry_qi=0; + _dec->telemetry_mbmode=0; + _dec->telemetry_mv=0; + _dec->telemetry_frame_data=NULL; +#endif + return 0; +} + +static void oc_dec_clear(oc_dec_ctx *_dec){ +#if defined(HAVE_CAIRO) + _ogg_free(_dec->telemetry_frame_data); +#endif + _ogg_free(_dec->pp_frame_data); + _ogg_free(_dec->variances); + _ogg_free(_dec->dc_qis); + _ogg_free(_dec->dct_tokens); + oc_huff_trees_clear(_dec->huff_tables); + oc_state_clear(&_dec->state); +} + + +static int oc_dec_frame_header_unpack(oc_dec_ctx *_dec){ + long val; + /*Check to make sure this is a data packet.*/ + val=oc_pack_read1(&_dec->opb); + if(val!=0)return TH_EBADPACKET; + /*Read in the frame type (I or P).*/ + val=oc_pack_read1(&_dec->opb); + _dec->state.frame_type=(int)val; + /*Read in the qi list.*/ + val=oc_pack_read(&_dec->opb,6); + _dec->state.qis[0]=(unsigned char)val; + val=oc_pack_read1(&_dec->opb); + if(!val)_dec->state.nqis=1; + else{ + val=oc_pack_read(&_dec->opb,6); + _dec->state.qis[1]=(unsigned char)val; + val=oc_pack_read1(&_dec->opb); + if(!val)_dec->state.nqis=2; + else{ + val=oc_pack_read(&_dec->opb,6); + _dec->state.qis[2]=(unsigned char)val; + _dec->state.nqis=3; + } + } + if(_dec->state.frame_type==OC_INTRA_FRAME){ + /*Keyframes have 3 unused configuration bits, holdovers from VP3 days. + Most of the other unused bits in the VP3 headers were eliminated. + I don't know why these remain.*/ + /*I wanted to eliminate wasted bits, but not all config wiggle room + --Monty.*/ + val=oc_pack_read(&_dec->opb,3); + if(val!=0)return TH_EIMPL; + } + return 0; +} + +/*Mark all fragments as coded and in OC_MODE_INTRA. + This also builds up the coded fragment list (in coded order), and clears the + uncoded fragment list. + It does not update the coded macro block list nor the super block flags, as + those are not used when decoding INTRA frames.*/ +static void oc_dec_mark_all_intra(oc_dec_ctx *_dec){ + const oc_sb_map *sb_maps; + const oc_sb_flags *sb_flags; + oc_fragment *frags; + ptrdiff_t *coded_fragis; + ptrdiff_t ncoded_fragis; + ptrdiff_t prev_ncoded_fragis; + unsigned nsbs; + unsigned sbi; + int pli; + coded_fragis=_dec->state.coded_fragis; + prev_ncoded_fragis=ncoded_fragis=0; + sb_maps=(const oc_sb_map *)_dec->state.sb_maps; + sb_flags=_dec->state.sb_flags; + frags=_dec->state.frags; + sbi=nsbs=0; + for(pli=0;pli<3;pli++){ + nsbs+=_dec->state.fplanes[pli].nsbs; + for(;sbi<nsbs;sbi++){ + int quadi; + for(quadi=0;quadi<4;quadi++)if(sb_flags[sbi].quad_valid&1<<quadi){ + int bi; + for(bi=0;bi<4;bi++){ + ptrdiff_t fragi; + fragi=sb_maps[sbi][quadi][bi]; + if(fragi>=0){ + frags[fragi].coded=1; + frags[fragi].refi=OC_FRAME_SELF; + frags[fragi].mb_mode=OC_MODE_INTRA; + coded_fragis[ncoded_fragis++]=fragi; + } + } + } + } + _dec->state.ncoded_fragis[pli]=ncoded_fragis-prev_ncoded_fragis; + prev_ncoded_fragis=ncoded_fragis; + } + _dec->state.ntotal_coded_fragis=ncoded_fragis; +} + +/*Decodes the bit flags indicating whether each super block is partially coded + or not. + Return: The number of partially coded super blocks.*/ +static unsigned oc_dec_partial_sb_flags_unpack(oc_dec_ctx *_dec){ + oc_sb_flags *sb_flags; + unsigned nsbs; + unsigned sbi; + unsigned npartial; + unsigned run_count; + long val; + int flag; + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + sb_flags=_dec->state.sb_flags; + nsbs=_dec->state.nsbs; + sbi=npartial=0; + while(sbi<nsbs){ + int full_run; + run_count=oc_sb_run_unpack(&_dec->opb); + full_run=run_count>=4129; + do{ + sb_flags[sbi].coded_partially=flag; + sb_flags[sbi].coded_fully=0; + npartial+=flag; + sbi++; + } + while(--run_count>0&&sbi<nsbs); + if(full_run&&sbi<nsbs){ + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + } + else flag=!flag; + } + /*TODO: run_count should be 0 here. + If it's not, we should issue a warning of some kind.*/ + return npartial; +} + +/*Decodes the bit flags for whether or not each non-partially-coded super + block is fully coded or not. + This function should only be called if there is at least one + non-partially-coded super block. + Return: The number of partially coded super blocks.*/ +static void oc_dec_coded_sb_flags_unpack(oc_dec_ctx *_dec){ + oc_sb_flags *sb_flags; + unsigned nsbs; + unsigned sbi; + unsigned run_count; + long val; + int flag; + sb_flags=_dec->state.sb_flags; + nsbs=_dec->state.nsbs; + /*Skip partially coded super blocks.*/ + for(sbi=0;sb_flags[sbi].coded_partially;sbi++); + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + do{ + int full_run; + run_count=oc_sb_run_unpack(&_dec->opb); + full_run=run_count>=4129; + for(;sbi<nsbs;sbi++){ + if(sb_flags[sbi].coded_partially)continue; + if(run_count--<=0)break; + sb_flags[sbi].coded_fully=flag; + } + if(full_run&&sbi<nsbs){ + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + } + else flag=!flag; + } + while(sbi<nsbs); + /*TODO: run_count should be 0 here. + If it's not, we should issue a warning of some kind.*/ +} + +static void oc_dec_coded_flags_unpack(oc_dec_ctx *_dec){ + const oc_sb_map *sb_maps; + const oc_sb_flags *sb_flags; + signed char *mb_modes; + oc_fragment *frags; + unsigned nsbs; + unsigned sbi; + unsigned npartial; + long val; + int pli; + int flag; + int run_count; + ptrdiff_t *coded_fragis; + ptrdiff_t *uncoded_fragis; + ptrdiff_t ncoded_fragis; + ptrdiff_t nuncoded_fragis; + ptrdiff_t prev_ncoded_fragis; + npartial=oc_dec_partial_sb_flags_unpack(_dec); + if(npartial<_dec->state.nsbs)oc_dec_coded_sb_flags_unpack(_dec); + if(npartial>0){ + val=oc_pack_read1(&_dec->opb); + flag=!(int)val; + } + else flag=0; + sb_maps=(const oc_sb_map *)_dec->state.sb_maps; + sb_flags=_dec->state.sb_flags; + mb_modes=_dec->state.mb_modes; + frags=_dec->state.frags; + sbi=nsbs=run_count=0; + coded_fragis=_dec->state.coded_fragis; + uncoded_fragis=coded_fragis+_dec->state.nfrags; + prev_ncoded_fragis=ncoded_fragis=nuncoded_fragis=0; + for(pli=0;pli<3;pli++){ + nsbs+=_dec->state.fplanes[pli].nsbs; + for(;sbi<nsbs;sbi++){ + int quadi; + for(quadi=0;quadi<4;quadi++)if(sb_flags[sbi].quad_valid&1<<quadi){ + int quad_coded; + int bi; + quad_coded=0; + for(bi=0;bi<4;bi++){ + ptrdiff_t fragi; + fragi=sb_maps[sbi][quadi][bi]; + if(fragi>=0){ + int coded; + if(sb_flags[sbi].coded_fully)coded=1; + else if(!sb_flags[sbi].coded_partially)coded=0; + else{ + if(run_count<=0){ + run_count=oc_block_run_unpack(&_dec->opb); + flag=!flag; + } + run_count--; + coded=flag; + } + if(coded)coded_fragis[ncoded_fragis++]=fragi; + else *(uncoded_fragis-++nuncoded_fragis)=fragi; + quad_coded|=coded; + frags[fragi].coded=coded; + frags[fragi].refi=OC_FRAME_NONE; + } + } + /*Remember if there's a coded luma block in this macro block.*/ + if(!pli)mb_modes[sbi<<2|quadi]=quad_coded; + } + } + _dec->state.ncoded_fragis[pli]=ncoded_fragis-prev_ncoded_fragis; + prev_ncoded_fragis=ncoded_fragis; + } + _dec->state.ntotal_coded_fragis=ncoded_fragis; + /*TODO: run_count should be 0 here. + If it's not, we should issue a warning of some kind.*/ +} + + +/*Coding scheme: + Codeword Mode Index + 0 0 + 10 1 + 110 2 + 1110 3 + 11110 4 + 111110 5 + 1111110 6 + 1111111 7*/ +static const ogg_int16_t OC_VLC_MODE_TREE[26]={ + 4, + -(1<<8|0),-(1<<8|0),-(1<<8|0),-(1<<8|0), + -(1<<8|0),-(1<<8|0),-(1<<8|0),-(1<<8|0), + -(2<<8|1),-(2<<8|1),-(2<<8|1),-(2<<8|1), + -(3<<8|2),-(3<<8|2),-(4<<8|3),17, + 3, + -(1<<8|4),-(1<<8|4),-(1<<8|4),-(1<<8|4), + -(2<<8|5),-(2<<8|5),-(3<<8|6),-(3<<8|7) +}; + +static const ogg_int16_t OC_CLC_MODE_TREE[9]={ + 3, + -(3<<8|0),-(3<<8|1),-(3<<8|2),-(3<<8|3), + -(3<<8|4),-(3<<8|5),-(3<<8|6),-(3<<8|7) +}; + +/*Unpacks the list of macro block modes for INTER frames.*/ +static void oc_dec_mb_modes_unpack(oc_dec_ctx *_dec){ + signed char *mb_modes; + const unsigned char *alphabet; + unsigned char scheme0_alphabet[8]; + const ogg_int16_t *mode_tree; + size_t nmbs; + size_t mbi; + long val; + int mode_scheme; + val=oc_pack_read(&_dec->opb,3); + mode_scheme=(int)val; + if(mode_scheme==0){ + int mi; + /*Just in case, initialize the modes to something. + If the bitstream doesn't contain each index exactly once, it's likely + corrupt and the rest of the packet is garbage anyway, but this way we + won't crash, and we'll decode SOMETHING.*/ + /*LOOP VECTORIZES*/ + for(mi=0;mi<OC_NMODES;mi++)scheme0_alphabet[mi]=OC_MODE_INTER_NOMV; + for(mi=0;mi<OC_NMODES;mi++){ + val=oc_pack_read(&_dec->opb,3); + scheme0_alphabet[val]=OC_MODE_ALPHABETS[6][mi]; + } + alphabet=scheme0_alphabet; + } + else alphabet=OC_MODE_ALPHABETS[mode_scheme-1]; + mode_tree=mode_scheme==7?OC_CLC_MODE_TREE:OC_VLC_MODE_TREE; + mb_modes=_dec->state.mb_modes; + nmbs=_dec->state.nmbs; + for(mbi=0;mbi<nmbs;mbi++){ + if(mb_modes[mbi]>0){ + /*We have a coded luma block; decode a mode.*/ + mb_modes[mbi]=alphabet[oc_huff_token_decode(&_dec->opb,mode_tree)]; + } + /*For other valid macro blocks, INTER_NOMV is forced, but we rely on the + fact that OC_MODE_INTER_NOMV is already 0.*/ + } +} + + + +static const ogg_int16_t OC_VLC_MV_COMP_TREE[101]={ + 5, + -(3<<8|32+0),-(3<<8|32+0),-(3<<8|32+0),-(3<<8|32+0), + -(3<<8|32+1),-(3<<8|32+1),-(3<<8|32+1),-(3<<8|32+1), + -(3<<8|32-1),-(3<<8|32-1),-(3<<8|32-1),-(3<<8|32-1), + -(4<<8|32+2),-(4<<8|32+2),-(4<<8|32-2),-(4<<8|32-2), + -(4<<8|32+3),-(4<<8|32+3),-(4<<8|32-3),-(4<<8|32-3), + 33, 36, 39, 42, + 45, 50, 55, 60, + 65, 74, 83, 92, + 1,-(1<<8|32+4),-(1<<8|32-4), + 1,-(1<<8|32+5),-(1<<8|32-5), + 1,-(1<<8|32+6),-(1<<8|32-6), + 1,-(1<<8|32+7),-(1<<8|32-7), + 2,-(2<<8|32+8),-(2<<8|32-8),-(2<<8|32+9),-(2<<8|32-9), + 2,-(2<<8|32+10),-(2<<8|32-10),-(2<<8|32+11),-(2<<8|32-11), + 2,-(2<<8|32+12),-(2<<8|32-12),-(2<<8|32+13),-(2<<8|32-13), + 2,-(2<<8|32+14),-(2<<8|32-14),-(2<<8|32+15),-(2<<8|32-15), + 3, + -(3<<8|32+16),-(3<<8|32-16),-(3<<8|32+17),-(3<<8|32-17), + -(3<<8|32+18),-(3<<8|32-18),-(3<<8|32+19),-(3<<8|32-19), + 3, + -(3<<8|32+20),-(3<<8|32-20),-(3<<8|32+21),-(3<<8|32-21), + -(3<<8|32+22),-(3<<8|32-22),-(3<<8|32+23),-(3<<8|32-23), + 3, + -(3<<8|32+24),-(3<<8|32-24),-(3<<8|32+25),-(3<<8|32-25), + -(3<<8|32+26),-(3<<8|32-26),-(3<<8|32+27),-(3<<8|32-27), + 3, + -(3<<8|32+28),-(3<<8|32-28),-(3<<8|32+29),-(3<<8|32-29), + -(3<<8|32+30),-(3<<8|32-30),-(3<<8|32+31),-(3<<8|32-31) +}; + +static const ogg_int16_t OC_CLC_MV_COMP_TREE[65]={ + 6, + -(6<<8|32 +0),-(6<<8|32 -0),-(6<<8|32 +1),-(6<<8|32 -1), + -(6<<8|32 +2),-(6<<8|32 -2),-(6<<8|32 +3),-(6<<8|32 -3), + -(6<<8|32 +4),-(6<<8|32 -4),-(6<<8|32 +5),-(6<<8|32 -5), + -(6<<8|32 +6),-(6<<8|32 -6),-(6<<8|32 +7),-(6<<8|32 -7), + -(6<<8|32 +8),-(6<<8|32 -8),-(6<<8|32 +9),-(6<<8|32 -9), + -(6<<8|32+10),-(6<<8|32-10),-(6<<8|32+11),-(6<<8|32-11), + -(6<<8|32+12),-(6<<8|32-12),-(6<<8|32+13),-(6<<8|32-13), + -(6<<8|32+14),-(6<<8|32-14),-(6<<8|32+15),-(6<<8|32-15), + -(6<<8|32+16),-(6<<8|32-16),-(6<<8|32+17),-(6<<8|32-17), + -(6<<8|32+18),-(6<<8|32-18),-(6<<8|32+19),-(6<<8|32-19), + -(6<<8|32+20),-(6<<8|32-20),-(6<<8|32+21),-(6<<8|32-21), + -(6<<8|32+22),-(6<<8|32-22),-(6<<8|32+23),-(6<<8|32-23), + -(6<<8|32+24),-(6<<8|32-24),-(6<<8|32+25),-(6<<8|32-25), + -(6<<8|32+26),-(6<<8|32-26),-(6<<8|32+27),-(6<<8|32-27), + -(6<<8|32+28),-(6<<8|32-28),-(6<<8|32+29),-(6<<8|32-29), + -(6<<8|32+30),-(6<<8|32-30),-(6<<8|32+31),-(6<<8|32-31) +}; + + +static oc_mv oc_mv_unpack(oc_pack_buf *_opb,const ogg_int16_t *_tree){ + int dx; + int dy; + dx=oc_huff_token_decode(_opb,_tree)-32; + dy=oc_huff_token_decode(_opb,_tree)-32; + return OC_MV(dx,dy); +} + +/*Unpacks the list of motion vectors for INTER frames, and propagtes the macro + block modes and motion vectors to the individual fragments.*/ +static void oc_dec_mv_unpack_and_frag_modes_fill(oc_dec_ctx *_dec){ + const oc_mb_map *mb_maps; + const signed char *mb_modes; + oc_set_chroma_mvs_func set_chroma_mvs; + const ogg_int16_t *mv_comp_tree; + oc_fragment *frags; + oc_mv *frag_mvs; + const unsigned char *map_idxs; + int map_nidxs; + oc_mv last_mv; + oc_mv prior_mv; + oc_mv cbmvs[4]; + size_t nmbs; + size_t mbi; + long val; + set_chroma_mvs=OC_SET_CHROMA_MVS_TABLE[_dec->state.info.pixel_fmt]; + val=oc_pack_read1(&_dec->opb); + mv_comp_tree=val?OC_CLC_MV_COMP_TREE:OC_VLC_MV_COMP_TREE; + map_idxs=OC_MB_MAP_IDXS[_dec->state.info.pixel_fmt]; + map_nidxs=OC_MB_MAP_NIDXS[_dec->state.info.pixel_fmt]; + prior_mv=last_mv=0; + frags=_dec->state.frags; + frag_mvs=_dec->state.frag_mvs; + mb_maps=(const oc_mb_map *)_dec->state.mb_maps; + mb_modes=_dec->state.mb_modes; + nmbs=_dec->state.nmbs; + for(mbi=0;mbi<nmbs;mbi++){ + int mb_mode; + mb_mode=mb_modes[mbi]; + if(mb_mode!=OC_MODE_INVALID){ + oc_mv mbmv; + ptrdiff_t fragi; + int mapi; + int mapii; + int refi; + if(mb_mode==OC_MODE_INTER_MV_FOUR){ + oc_mv lbmvs[4]; + int bi; + prior_mv=last_mv; + for(bi=0;bi<4;bi++){ + fragi=mb_maps[mbi][0][bi]; + if(frags[fragi].coded){ + frags[fragi].refi=OC_FRAME_PREV; + frags[fragi].mb_mode=OC_MODE_INTER_MV_FOUR; + lbmvs[bi]=last_mv=oc_mv_unpack(&_dec->opb,mv_comp_tree); + frag_mvs[fragi]=lbmvs[bi]; + } + else lbmvs[bi]=0; + } + (*set_chroma_mvs)(cbmvs,lbmvs); + for(mapii=4;mapii<map_nidxs;mapii++){ + mapi=map_idxs[mapii]; + bi=mapi&3; + fragi=mb_maps[mbi][mapi>>2][bi]; + if(frags[fragi].coded){ + frags[fragi].refi=OC_FRAME_PREV; + frags[fragi].mb_mode=OC_MODE_INTER_MV_FOUR; + frag_mvs[fragi]=cbmvs[bi]; + } + } + } + else{ + switch(mb_mode){ + case OC_MODE_INTER_MV:{ + prior_mv=last_mv; + last_mv=mbmv=oc_mv_unpack(&_dec->opb,mv_comp_tree); + }break; + case OC_MODE_INTER_MV_LAST:mbmv=last_mv;break; + case OC_MODE_INTER_MV_LAST2:{ + mbmv=prior_mv; + prior_mv=last_mv; + last_mv=mbmv; + }break; + case OC_MODE_GOLDEN_MV:{ + mbmv=oc_mv_unpack(&_dec->opb,mv_comp_tree); + }break; + default:mbmv=0;break; + } + /*Fill in the MVs for the fragments.*/ + refi=OC_FRAME_FOR_MODE(mb_mode); + mapii=0; + do{ + mapi=map_idxs[mapii]; + fragi=mb_maps[mbi][mapi>>2][mapi&3]; + if(frags[fragi].coded){ + frags[fragi].refi=refi; + frags[fragi].mb_mode=mb_mode; + frag_mvs[fragi]=mbmv; + } + } + while(++mapii<map_nidxs); + } + } + } +} + +static void oc_dec_block_qis_unpack(oc_dec_ctx *_dec){ + oc_fragment *frags; + const ptrdiff_t *coded_fragis; + ptrdiff_t ncoded_fragis; + ptrdiff_t fragii; + ptrdiff_t fragi; + ncoded_fragis=_dec->state.ntotal_coded_fragis; + if(ncoded_fragis<=0)return; + frags=_dec->state.frags; + coded_fragis=_dec->state.coded_fragis; + if(_dec->state.nqis==1){ + /*If this frame has only a single qi value, then just use it for all coded + fragments.*/ + for(fragii=0;fragii<ncoded_fragis;fragii++){ + frags[coded_fragis[fragii]].qii=0; + } + } + else{ + long val; + int flag; + int nqi1; + int run_count; + /*Otherwise, we decode a qi index for each fragment, using two passes of + the same binary RLE scheme used for super-block coded bits. + The first pass marks each fragment as having a qii of 0 or greater than + 0, and the second pass (if necessary), distinguishes between a qii of + 1 and 2. + At first we just store the qii in the fragment. + After all the qii's are decoded, we make a final pass to replace them + with the corresponding qi's for this frame.*/ + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + nqi1=0; + fragii=0; + while(fragii<ncoded_fragis){ + int full_run; + run_count=oc_sb_run_unpack(&_dec->opb); + full_run=run_count>=4129; + do{ + frags[coded_fragis[fragii++]].qii=flag; + nqi1+=flag; + } + while(--run_count>0&&fragii<ncoded_fragis); + if(full_run&&fragii<ncoded_fragis){ + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + } + else flag=!flag; + } + /*TODO: run_count should be 0 here. + If it's not, we should issue a warning of some kind.*/ + /*If we have 3 different qi's for this frame, and there was at least one + fragment with a non-zero qi, make the second pass.*/ + if(_dec->state.nqis==3&&nqi1>0){ + /*Skip qii==0 fragments.*/ + for(fragii=0;frags[coded_fragis[fragii]].qii==0;fragii++); + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + do{ + int full_run; + run_count=oc_sb_run_unpack(&_dec->opb); + full_run=run_count>=4129; + for(;fragii<ncoded_fragis;fragii++){ + fragi=coded_fragis[fragii]; + if(frags[fragi].qii==0)continue; + if(run_count--<=0)break; + frags[fragi].qii+=flag; + } + if(full_run&&fragii<ncoded_fragis){ + val=oc_pack_read1(&_dec->opb); + flag=(int)val; + } + else flag=!flag; + } + while(fragii<ncoded_fragis); + /*TODO: run_count should be 0 here. + If it's not, we should issue a warning of some kind.*/ + } + } +} + + + +/*Unpacks the DC coefficient tokens. + Unlike when unpacking the AC coefficient tokens, we actually need to decode + the DC coefficient values now so that we can do DC prediction. + _huff_idx: The index of the Huffman table to use for each color plane. + _ntoks_left: The number of tokens left to be decoded in each color plane for + each coefficient. + This is updated as EOB tokens and zero run tokens are decoded. + Return: The length of any outstanding EOB run.*/ +static ptrdiff_t oc_dec_dc_coeff_unpack(oc_dec_ctx *_dec,int _huff_idxs[2], + ptrdiff_t _ntoks_left[3][64]){ + unsigned char *dct_tokens; + oc_fragment *frags; + const ptrdiff_t *coded_fragis; + ptrdiff_t ncoded_fragis; + ptrdiff_t fragii; + ptrdiff_t eobs; + ptrdiff_t ti; + int pli; + dct_tokens=_dec->dct_tokens; + frags=_dec->state.frags; + coded_fragis=_dec->state.coded_fragis; + ncoded_fragis=fragii=eobs=ti=0; + for(pli=0;pli<3;pli++){ + ptrdiff_t run_counts[64]; + ptrdiff_t eob_count; + ptrdiff_t eobi; + int rli; + ncoded_fragis+=_dec->state.ncoded_fragis[pli]; + memset(run_counts,0,sizeof(run_counts)); + _dec->eob_runs[pli][0]=eobs; + _dec->ti0[pli][0]=ti; + /*Continue any previous EOB run, if there was one.*/ + eobi=eobs; + if(ncoded_fragis-fragii<eobi)eobi=ncoded_fragis-fragii; + eob_count=eobi; + eobs-=eobi; + while(eobi-->0)frags[coded_fragis[fragii++]].dc=0; + while(fragii<ncoded_fragis){ + int token; + int cw; + int eb; + int skip; + token=oc_huff_token_decode(&_dec->opb, + _dec->huff_tables[_huff_idxs[pli+1>>1]]); + dct_tokens[ti++]=(unsigned char)token; + if(OC_DCT_TOKEN_NEEDS_MORE(token)){ + eb=(int)oc_pack_read(&_dec->opb, + OC_INTERNAL_DCT_TOKEN_EXTRA_BITS[token]); + dct_tokens[ti++]=(unsigned char)eb; + if(token==OC_DCT_TOKEN_FAT_EOB)dct_tokens[ti++]=(unsigned char)(eb>>8); + eb<<=OC_DCT_TOKEN_EB_POS(token); + } + else eb=0; + cw=OC_DCT_CODE_WORD[token]+eb; + eobs=cw>>OC_DCT_CW_EOB_SHIFT&0xFFF; + if(cw==OC_DCT_CW_FINISH)eobs=OC_DCT_EOB_FINISH; + if(eobs){ + eobi=OC_MINI(eobs,ncoded_fragis-fragii); + eob_count+=eobi; + eobs-=eobi; + while(eobi-->0)frags[coded_fragis[fragii++]].dc=0; + } + else{ + int coeff; + skip=(unsigned char)(cw>>OC_DCT_CW_RLEN_SHIFT); + cw^=-(cw&1<<OC_DCT_CW_FLIP_BIT); + coeff=cw>>OC_DCT_CW_MAG_SHIFT; + if(skip)coeff=0; + run_counts[skip]++; + frags[coded_fragis[fragii++]].dc=coeff; + } + } + /*Add the total EOB count to the longest run length.*/ + run_counts[63]+=eob_count; + /*And convert the run_counts array to a moment table.*/ + for(rli=63;rli-->0;)run_counts[rli]+=run_counts[rli+1]; + /*Finally, subtract off the number of coefficients that have been + accounted for by runs started in this coefficient.*/ + for(rli=64;rli-->0;)_ntoks_left[pli][rli]-=run_counts[rli]; + } + _dec->dct_tokens_count=ti; + return eobs; +} + +/*Unpacks the AC coefficient tokens. + This can completely discard coefficient values while unpacking, and so is + somewhat simpler than unpacking the DC coefficient tokens. + _huff_idx: The index of the Huffman table to use for each color plane. + _ntoks_left: The number of tokens left to be decoded in each color plane for + each coefficient. + This is updated as EOB tokens and zero run tokens are decoded. + _eobs: The length of any outstanding EOB run from previous + coefficients. + Return: The length of any outstanding EOB run.*/ +static int oc_dec_ac_coeff_unpack(oc_dec_ctx *_dec,int _zzi,int _huff_idxs[2], + ptrdiff_t _ntoks_left[3][64],ptrdiff_t _eobs){ + unsigned char *dct_tokens; + ptrdiff_t ti; + int pli; + dct_tokens=_dec->dct_tokens; + ti=_dec->dct_tokens_count; + for(pli=0;pli<3;pli++){ + ptrdiff_t run_counts[64]; + ptrdiff_t eob_count; + size_t ntoks_left; + size_t ntoks; + int rli; + _dec->eob_runs[pli][_zzi]=_eobs; + _dec->ti0[pli][_zzi]=ti; + ntoks_left=_ntoks_left[pli][_zzi]; + memset(run_counts,0,sizeof(run_counts)); + eob_count=0; + ntoks=0; + while(ntoks+_eobs<ntoks_left){ + int token; + int cw; + int eb; + int skip; + ntoks+=_eobs; + eob_count+=_eobs; + token=oc_huff_token_decode(&_dec->opb, + _dec->huff_tables[_huff_idxs[pli+1>>1]]); + dct_tokens[ti++]=(unsigned char)token; + if(OC_DCT_TOKEN_NEEDS_MORE(token)){ + eb=(int)oc_pack_read(&_dec->opb, + OC_INTERNAL_DCT_TOKEN_EXTRA_BITS[token]); + dct_tokens[ti++]=(unsigned char)eb; + if(token==OC_DCT_TOKEN_FAT_EOB)dct_tokens[ti++]=(unsigned char)(eb>>8); + eb<<=OC_DCT_TOKEN_EB_POS(token); + } + else eb=0; + cw=OC_DCT_CODE_WORD[token]+eb; + skip=(unsigned char)(cw>>OC_DCT_CW_RLEN_SHIFT); + _eobs=cw>>OC_DCT_CW_EOB_SHIFT&0xFFF; + if(cw==OC_DCT_CW_FINISH)_eobs=OC_DCT_EOB_FINISH; + if(_eobs==0){ + run_counts[skip]++; + ntoks++; + } + } + /*Add the portion of the last EOB run actually used by this coefficient.*/ + eob_count+=ntoks_left-ntoks; + /*And remove it from the remaining EOB count.*/ + _eobs-=ntoks_left-ntoks; + /*Add the total EOB count to the longest run length.*/ + run_counts[63]+=eob_count; + /*And convert the run_counts array to a moment table.*/ + for(rli=63;rli-->0;)run_counts[rli]+=run_counts[rli+1]; + /*Finally, subtract off the number of coefficients that have been + accounted for by runs started in this coefficient.*/ + for(rli=64-_zzi;rli-->0;)_ntoks_left[pli][_zzi+rli]-=run_counts[rli]; + } + _dec->dct_tokens_count=ti; + return _eobs; +} + +/*Tokens describing the DCT coefficients that belong to each fragment are + stored in the bitstream grouped by coefficient, not by fragment. + + This means that we either decode all the tokens in order, building up a + separate coefficient list for each fragment as we go, and then go back and + do the iDCT on each fragment, or we have to create separate lists of tokens + for each coefficient, so that we can pull the next token required off the + head of the appropriate list when decoding a specific fragment. + + The former was VP3's choice, and it meant 2*w*h extra storage for all the + decoded coefficient values. + + We take the second option, which lets us store just one to three bytes per + token (generally far fewer than the number of coefficients, due to EOB + tokens and zero runs), and which requires us to only maintain a counter for + each of the 64 coefficients, instead of a counter for every fragment to + determine where the next token goes. + + We actually use 3 counters per coefficient, one for each color plane, so we + can decode all color planes simultaneously. + This lets color conversion, etc., be done as soon as a full MCU (one or + two super block rows) is decoded, while the image data is still in cache.*/ + +static void oc_dec_residual_tokens_unpack(oc_dec_ctx *_dec){ + static const unsigned char OC_HUFF_LIST_MAX[5]={1,6,15,28,64}; + ptrdiff_t ntoks_left[3][64]; + int huff_idxs[2]; + ptrdiff_t eobs; + long val; + int pli; + int zzi; + int hgi; + for(pli=0;pli<3;pli++)for(zzi=0;zzi<64;zzi++){ + ntoks_left[pli][zzi]=_dec->state.ncoded_fragis[pli]; + } + val=oc_pack_read(&_dec->opb,4); + huff_idxs[0]=(int)val; + val=oc_pack_read(&_dec->opb,4); + huff_idxs[1]=(int)val; + _dec->eob_runs[0][0]=0; + eobs=oc_dec_dc_coeff_unpack(_dec,huff_idxs,ntoks_left); +#if defined(HAVE_CAIRO) + _dec->telemetry_dc_bytes=oc_pack_bytes_left(&_dec->opb); +#endif + val=oc_pack_read(&_dec->opb,4); + huff_idxs[0]=(int)val; + val=oc_pack_read(&_dec->opb,4); + huff_idxs[1]=(int)val; + zzi=1; + for(hgi=1;hgi<5;hgi++){ + huff_idxs[0]+=16; + huff_idxs[1]+=16; + for(;zzi<OC_HUFF_LIST_MAX[hgi];zzi++){ + eobs=oc_dec_ac_coeff_unpack(_dec,zzi,huff_idxs,ntoks_left,eobs); + } + } + /*TODO: eobs should be exactly zero, or 4096 or greater. + The second case occurs when an EOB run of size zero is encountered, which + gets treated as an infinite EOB run (where infinity is PTRDIFF_MAX). + If neither of these conditions holds, then a warning should be issued.*/ +} + + +static int oc_dec_postprocess_init(oc_dec_ctx *_dec){ + /*pp_level 0: disabled; free any memory used and return*/ + if(_dec->pp_level<=OC_PP_LEVEL_DISABLED){ + if(_dec->dc_qis!=NULL){ + _ogg_free(_dec->dc_qis); + _dec->dc_qis=NULL; + _ogg_free(_dec->variances); + _dec->variances=NULL; + _ogg_free(_dec->pp_frame_data); + _dec->pp_frame_data=NULL; + } + return 1; + } + if(_dec->dc_qis==NULL){ + /*If we haven't been tracking DC quantization indices, there's no point in + starting now.*/ + if(_dec->state.frame_type!=OC_INTRA_FRAME)return 1; + _dec->dc_qis=(unsigned char *)_ogg_malloc( + _dec->state.nfrags*sizeof(_dec->dc_qis[0])); + if(_dec->dc_qis==NULL)return 1; + memset(_dec->dc_qis,_dec->state.qis[0],_dec->state.nfrags); + } + else{ + unsigned char *dc_qis; + const ptrdiff_t *coded_fragis; + ptrdiff_t ncoded_fragis; + ptrdiff_t fragii; + unsigned char qi0; + /*Update the DC quantization index of each coded block.*/ + dc_qis=_dec->dc_qis; + coded_fragis=_dec->state.coded_fragis; + ncoded_fragis=_dec->state.ncoded_fragis[0]+ + _dec->state.ncoded_fragis[1]+_dec->state.ncoded_fragis[2]; + qi0=(unsigned char)_dec->state.qis[0]; + for(fragii=0;fragii<ncoded_fragis;fragii++){ + dc_qis[coded_fragis[fragii]]=qi0; + } + } + /*pp_level 1: Stop after updating DC quantization indices.*/ + if(_dec->pp_level<=OC_PP_LEVEL_TRACKDCQI){ + if(_dec->variances!=NULL){ + _ogg_free(_dec->variances); + _dec->variances=NULL; + _ogg_free(_dec->pp_frame_data); + _dec->pp_frame_data=NULL; + } + return 1; + } + if(_dec->variances==NULL){ + size_t frame_sz; + size_t c_sz; + int c_w; + int c_h; + frame_sz=_dec->state.info.frame_width*(size_t)_dec->state.info.frame_height; + c_w=_dec->state.info.frame_width>>!(_dec->state.info.pixel_fmt&1); + c_h=_dec->state.info.frame_height>>!(_dec->state.info.pixel_fmt&2); + c_sz=c_w*(size_t)c_h; + /*Allocate space for the chroma planes, even if we're not going to use + them; this simplifies allocation state management, though it may waste + memory on the few systems that don't overcommit pages.*/ + frame_sz+=c_sz<<1; + _dec->pp_frame_data=(unsigned char *)_ogg_malloc( + frame_sz*sizeof(_dec->pp_frame_data[0])); + _dec->variances=(int *)_ogg_malloc( + _dec->state.nfrags*sizeof(_dec->variances[0])); + if(_dec->variances==NULL||_dec->pp_frame_data==NULL){ + _ogg_free(_dec->pp_frame_data); + _dec->pp_frame_data=NULL; + _ogg_free(_dec->variances); + _dec->variances=NULL; + return 1; + } + /*Force an update of the PP buffer pointers.*/ + _dec->pp_frame_state=0; + } + /*Update the PP buffer pointers if necessary.*/ + if(_dec->pp_frame_state!=1+(_dec->pp_level>=OC_PP_LEVEL_DEBLOCKC)){ + if(_dec->pp_level<OC_PP_LEVEL_DEBLOCKC){ + /*If chroma processing is disabled, just use the PP luma plane.*/ + _dec->pp_frame_buf[0].width=_dec->state.info.frame_width; + _dec->pp_frame_buf[0].height=_dec->state.info.frame_height; + _dec->pp_frame_buf[0].stride=-_dec->pp_frame_buf[0].width; + _dec->pp_frame_buf[0].data=_dec->pp_frame_data+ + (1-_dec->pp_frame_buf[0].height)*(ptrdiff_t)_dec->pp_frame_buf[0].stride; + } + else{ + size_t y_sz; + size_t c_sz; + int c_w; + int c_h; + /*Otherwise, set up pointers to all three PP planes.*/ + y_sz=_dec->state.info.frame_width*(size_t)_dec->state.info.frame_height; + c_w=_dec->state.info.frame_width>>!(_dec->state.info.pixel_fmt&1); + c_h=_dec->state.info.frame_height>>!(_dec->state.info.pixel_fmt&2); + c_sz=c_w*(size_t)c_h; + _dec->pp_frame_buf[0].width=_dec->state.info.frame_width; + _dec->pp_frame_buf[0].height=_dec->state.info.frame_height; + _dec->pp_frame_buf[0].stride=_dec->pp_frame_buf[0].width; + _dec->pp_frame_buf[0].data=_dec->pp_frame_data; + _dec->pp_frame_buf[1].width=c_w; + _dec->pp_frame_buf[1].height=c_h; + _dec->pp_frame_buf[1].stride=_dec->pp_frame_buf[1].width; + _dec->pp_frame_buf[1].data=_dec->pp_frame_buf[0].data+y_sz; + _dec->pp_frame_buf[2].width=c_w; + _dec->pp_frame_buf[2].height=c_h; + _dec->pp_frame_buf[2].stride=_dec->pp_frame_buf[2].width; + _dec->pp_frame_buf[2].data=_dec->pp_frame_buf[1].data+c_sz; + oc_ycbcr_buffer_flip(_dec->pp_frame_buf,_dec->pp_frame_buf); + } + _dec->pp_frame_state=1+(_dec->pp_level>=OC_PP_LEVEL_DEBLOCKC); + } + /*If we're not processing chroma, copy the reference frame's chroma planes.*/ + if(_dec->pp_level<OC_PP_LEVEL_DEBLOCKC){ + memcpy(_dec->pp_frame_buf+1, + _dec->state.ref_frame_bufs[_dec->state.ref_frame_idx[OC_FRAME_SELF]]+1, + sizeof(_dec->pp_frame_buf[1])*2); + } + return 0; +} + + +/*Initialize the main decoding pipeline.*/ +static void oc_dec_pipeline_init(oc_dec_ctx *_dec, + oc_dec_pipeline_state *_pipe){ + const ptrdiff_t *coded_fragis; + const ptrdiff_t *uncoded_fragis; + int flimit; + int pli; + int qii; + int qti; + int zzi; + /*If chroma is sub-sampled in the vertical direction, we have to decode two + super block rows of Y' for each super block row of Cb and Cr.*/ + _pipe->mcu_nvfrags=4<<!(_dec->state.info.pixel_fmt&2); + /*Initialize the token and extra bits indices for each plane and + coefficient.*/ + memcpy(_pipe->ti,_dec->ti0,sizeof(_pipe->ti)); + /*Also copy over the initial the EOB run counts.*/ + memcpy(_pipe->eob_runs,_dec->eob_runs,sizeof(_pipe->eob_runs)); + /*Set up per-plane pointers to the coded and uncoded fragments lists.*/ + coded_fragis=_dec->state.coded_fragis; + uncoded_fragis=coded_fragis+_dec->state.nfrags; + for(pli=0;pli<3;pli++){ + ptrdiff_t ncoded_fragis; + _pipe->coded_fragis[pli]=coded_fragis; + _pipe->uncoded_fragis[pli]=uncoded_fragis; + ncoded_fragis=_dec->state.ncoded_fragis[pli]; + coded_fragis+=ncoded_fragis; + uncoded_fragis+=ncoded_fragis-_dec->state.fplanes[pli].nfrags; + } + /*Set up condensed quantizer tables.*/ + for(pli=0;pli<3;pli++){ + for(qii=0;qii<_dec->state.nqis;qii++){ + for(qti=0;qti<2;qti++){ + _pipe->dequant[pli][qii][qti]= + _dec->state.dequant_tables[_dec->state.qis[qii]][pli][qti]; + } + } + } + /*Set the previous DC predictor to 0 for all color planes and frame types.*/ + memset(_pipe->pred_last,0,sizeof(_pipe->pred_last)); + /*Initialize the bounding value array for the loop filter.*/ + flimit=_dec->state.loop_filter_limits[_dec->state.qis[0]]; + _pipe->loop_filter=flimit!=0; + if(flimit!=0)oc_loop_filter_init(&_dec->state,_pipe->bounding_values,flimit); + /*Initialize any buffers needed for post-processing. + We also save the current post-processing level, to guard against the user + changing it from a callback.*/ + if(!oc_dec_postprocess_init(_dec))_pipe->pp_level=_dec->pp_level; + /*If we don't have enough information to post-process, disable it, regardless + of the user-requested level.*/ + else{ + _pipe->pp_level=OC_PP_LEVEL_DISABLED; + memcpy(_dec->pp_frame_buf, + _dec->state.ref_frame_bufs[_dec->state.ref_frame_idx[OC_FRAME_SELF]], + sizeof(_dec->pp_frame_buf[0])*3); + } + /*Clear down the DCT coefficient buffer for the first block.*/ + for(zzi=0;zzi<64;zzi++)_pipe->dct_coeffs[zzi]=0; +} + +/*Undo the DC prediction in a single plane of an MCU (one or two super block + rows). + As a side effect, the number of coded and uncoded fragments in this plane of + the MCU is also computed.*/ +void oc_dec_dc_unpredict_mcu_plane_c(oc_dec_ctx *_dec, + oc_dec_pipeline_state *_pipe,int _pli){ + const oc_fragment_plane *fplane; + oc_fragment *frags; + int *pred_last; + ptrdiff_t ncoded_fragis; + ptrdiff_t fragi; + int fragx; + int fragy; + int fragy0; + int fragy_end; + int nhfrags; + /*Compute the first and last fragment row of the current MCU for this + plane.*/ + fplane=_dec->state.fplanes+_pli; + fragy0=_pipe->fragy0[_pli]; + fragy_end=_pipe->fragy_end[_pli]; + nhfrags=fplane->nhfrags; + pred_last=_pipe->pred_last[_pli]; + frags=_dec->state.frags; + ncoded_fragis=0; + fragi=fplane->froffset+fragy0*(ptrdiff_t)nhfrags; + for(fragy=fragy0;fragy<fragy_end;fragy++){ + if(fragy==0){ + /*For the first row, all of the cases reduce to just using the previous + predictor for the same reference frame.*/ + for(fragx=0;fragx<nhfrags;fragx++,fragi++){ + if(frags[fragi].coded){ + int refi; + refi=frags[fragi].refi; + pred_last[refi]=frags[fragi].dc+=pred_last[refi]; + ncoded_fragis++; + } + } + } + else{ + oc_fragment *u_frags; + int l_ref; + int ul_ref; + int u_ref; + u_frags=frags-nhfrags; + l_ref=-1; + ul_ref=-1; + u_ref=u_frags[fragi].refi; + for(fragx=0;fragx<nhfrags;fragx++,fragi++){ + int ur_ref; + if(fragx+1>=nhfrags)ur_ref=-1; + else ur_ref=u_frags[fragi+1].refi; + if(frags[fragi].coded){ + int pred; + int refi; + refi=frags[fragi].refi; + /*We break out a separate case based on which of our neighbors use + the same reference frames. + This is somewhat faster than trying to make a generic case which + handles all of them, since it reduces lots of poorly predicted + jumps to one switch statement, and also lets a number of the + multiplications be optimized out by strength reduction.*/ + switch((l_ref==refi)|(ul_ref==refi)<<1| + (u_ref==refi)<<2|(ur_ref==refi)<<3){ + default:pred=pred_last[refi];break; + case 1: + case 3:pred=frags[fragi-1].dc;break; + case 2:pred=u_frags[fragi-1].dc;break; + case 4: + case 6: + case 12:pred=u_frags[fragi].dc;break; + case 5:pred=(frags[fragi-1].dc+u_frags[fragi].dc)/2;break; + case 8:pred=u_frags[fragi+1].dc;break; + case 9: + case 11: + case 13:{ + /*The TI compiler mis-compiles this line.*/ + pred=(75*frags[fragi-1].dc+53*u_frags[fragi+1].dc)/128; + }break; + case 10:pred=(u_frags[fragi-1].dc+u_frags[fragi+1].dc)/2;break; + case 14:{ + pred=(3*(u_frags[fragi-1].dc+u_frags[fragi+1].dc) + +10*u_frags[fragi].dc)/16; + }break; + case 7: + case 15:{ + int p0; + int p1; + int p2; + p0=frags[fragi-1].dc; + p1=u_frags[fragi-1].dc; + p2=u_frags[fragi].dc; + pred=(29*(p0+p2)-26*p1)/32; + if(abs(pred-p2)>128)pred=p2; + else if(abs(pred-p0)>128)pred=p0; + else if(abs(pred-p1)>128)pred=p1; + }break; + } + pred_last[refi]=frags[fragi].dc+=pred; + ncoded_fragis++; + l_ref=refi; + } + else l_ref=-1; + ul_ref=u_ref; + u_ref=ur_ref; + } + } + } + _pipe->ncoded_fragis[_pli]=ncoded_fragis; + /*Also save the number of uncoded fragments so we know how many to copy.*/ + _pipe->nuncoded_fragis[_pli]= + (fragy_end-fragy0)*(ptrdiff_t)nhfrags-ncoded_fragis; +} + +/*Reconstructs all coded fragments in a single MCU (one or two super block + rows). + This requires that each coded fragment have a proper macro block mode and + motion vector (if not in INTRA mode), and have its DC value decoded, with + the DC prediction process reversed, and the number of coded and uncoded + fragments in this plane of the MCU be counted. + The token lists for each color plane and coefficient should also be filled + in, along with initial token offsets, extra bits offsets, and EOB run + counts.*/ +static void oc_dec_frags_recon_mcu_plane(oc_dec_ctx *_dec, + oc_dec_pipeline_state *_pipe,int _pli){ + unsigned char *dct_tokens; + const unsigned char *dct_fzig_zag; + ogg_uint16_t dc_quant[2]; + const oc_fragment *frags; + const ptrdiff_t *coded_fragis; + ptrdiff_t ncoded_fragis; + ptrdiff_t fragii; + ptrdiff_t *ti; + ptrdiff_t *eob_runs; + int qti; + dct_tokens=_dec->dct_tokens; + dct_fzig_zag=_dec->state.opt_data.dct_fzig_zag; + frags=_dec->state.frags; + coded_fragis=_pipe->coded_fragis[_pli]; + ncoded_fragis=_pipe->ncoded_fragis[_pli]; + ti=_pipe->ti[_pli]; + eob_runs=_pipe->eob_runs[_pli]; + for(qti=0;qti<2;qti++)dc_quant[qti]=_pipe->dequant[_pli][0][qti][0]; + for(fragii=0;fragii<ncoded_fragis;fragii++){ + const ogg_uint16_t *ac_quant; + ptrdiff_t fragi; + int last_zzi; + int zzi; + fragi=coded_fragis[fragii]; + qti=frags[fragi].mb_mode!=OC_MODE_INTRA; + ac_quant=_pipe->dequant[_pli][frags[fragi].qii][qti]; + /*Decode the AC coefficients.*/ + for(zzi=0;zzi<64;){ + int token; + last_zzi=zzi; + if(eob_runs[zzi]){ + eob_runs[zzi]--; + break; + } + else{ + ptrdiff_t eob; + int cw; + int rlen; + int coeff; + int lti; + lti=ti[zzi]; + token=dct_tokens[lti++]; + cw=OC_DCT_CODE_WORD[token]; + /*These parts could be done branchless, but the branches are fairly + predictable and the C code translates into more than a few + instructions, so it's worth it to avoid them.*/ + if(OC_DCT_TOKEN_NEEDS_MORE(token)){ + cw+=dct_tokens[lti++]<<OC_DCT_TOKEN_EB_POS(token); + } + eob=cw>>OC_DCT_CW_EOB_SHIFT&0xFFF; + if(token==OC_DCT_TOKEN_FAT_EOB){ + eob+=dct_tokens[lti++]<<8; + if(eob==0)eob=OC_DCT_EOB_FINISH; + } + rlen=(unsigned char)(cw>>OC_DCT_CW_RLEN_SHIFT); + cw^=-(cw&1<<OC_DCT_CW_FLIP_BIT); + coeff=cw>>OC_DCT_CW_MAG_SHIFT; + eob_runs[zzi]=eob; + ti[zzi]=lti; + zzi+=rlen; + _pipe->dct_coeffs[dct_fzig_zag[zzi]]= + (ogg_int16_t)(coeff*(int)ac_quant[zzi]); + zzi+=!eob; + } + } + /*TODO: zzi should be exactly 64 here. + If it's not, we should report some kind of warning.*/ + zzi=OC_MINI(zzi,64); + _pipe->dct_coeffs[0]=(ogg_int16_t)frags[fragi].dc; + /*last_zzi is always initialized. + If your compiler thinks otherwise, it is dumb.*/ + oc_state_frag_recon(&_dec->state,fragi,_pli, + _pipe->dct_coeffs,last_zzi,dc_quant[qti]); + } + _pipe->coded_fragis[_pli]+=ncoded_fragis; + /*Right now the reconstructed MCU has only the coded blocks in it.*/ + /*TODO: We make the decision here to always copy the uncoded blocks into it + from the reference frame. + We could also copy the coded blocks back over the reference frame, if we + wait for an additional MCU to be decoded, which might be faster if only a + small number of blocks are coded. + However, this introduces more latency, creating a larger cache footprint. + It's unknown which decision is better, but this one results in simpler + code, and the hard case (high bitrate, high resolution) is handled + correctly.*/ + /*Copy the uncoded blocks from the previous reference frame.*/ + if(_pipe->nuncoded_fragis[_pli]>0){ + _pipe->uncoded_fragis[_pli]-=_pipe->nuncoded_fragis[_pli]; + oc_frag_copy_list(&_dec->state, + _dec->state.ref_frame_data[OC_FRAME_SELF], + _dec->state.ref_frame_data[OC_FRAME_PREV], + _dec->state.ref_ystride[_pli],_pipe->uncoded_fragis[_pli], + _pipe->nuncoded_fragis[_pli],_dec->state.frag_buf_offs); + } +} + +/*Filter a horizontal block edge.*/ +static void oc_filter_hedge(unsigned char *_dst,int _dst_ystride, + const unsigned char *_src,int _src_ystride,int _qstep,int _flimit, + int *_variance0,int *_variance1){ + unsigned char *rdst; + const unsigned char *rsrc; + unsigned char *cdst; + const unsigned char *csrc; + int r[10]; + int sum0; + int sum1; + int bx; + int by; + rdst=_dst; + rsrc=_src; + for(bx=0;bx<8;bx++){ + cdst=rdst; + csrc=rsrc; + for(by=0;by<10;by++){ + r[by]=*csrc; + csrc+=_src_ystride; + } + sum0=sum1=0; + for(by=0;by<4;by++){ + sum0+=abs(r[by+1]-r[by]); + sum1+=abs(r[by+5]-r[by+6]); + } + *_variance0+=OC_MINI(255,sum0); + *_variance1+=OC_MINI(255,sum1); + if(sum0<_flimit&&sum1<_flimit&&r[5]-r[4]<_qstep&&r[4]-r[5]<_qstep){ + *cdst=(unsigned char)(r[0]*3+r[1]*2+r[2]+r[3]+r[4]+4>>3); + cdst+=_dst_ystride; + *cdst=(unsigned char)(r[0]*2+r[1]+r[2]*2+r[3]+r[4]+r[5]+4>>3); + cdst+=_dst_ystride; + for(by=0;by<4;by++){ + *cdst=(unsigned char)(r[by]+r[by+1]+r[by+2]+r[by+3]*2+ + r[by+4]+r[by+5]+r[by+6]+4>>3); + cdst+=_dst_ystride; + } + *cdst=(unsigned char)(r[4]+r[5]+r[6]+r[7]*2+r[8]+r[9]*2+4>>3); + cdst+=_dst_ystride; + *cdst=(unsigned char)(r[5]+r[6]+r[7]+r[8]*2+r[9]*3+4>>3); + } + else{ + for(by=1;by<=8;by++){ + *cdst=(unsigned char)r[by]; + cdst+=_dst_ystride; + } + } + rdst++; + rsrc++; + } +} + +/*Filter a vertical block edge.*/ +static void oc_filter_vedge(unsigned char *_dst,int _dst_ystride, + int _qstep,int _flimit,int *_variances){ + unsigned char *rdst; + const unsigned char *rsrc; + unsigned char *cdst; + int r[10]; + int sum0; + int sum1; + int bx; + int by; + cdst=_dst; + for(by=0;by<8;by++){ + rsrc=cdst-1; + rdst=cdst; + for(bx=0;bx<10;bx++)r[bx]=*rsrc++; + sum0=sum1=0; + for(bx=0;bx<4;bx++){ + sum0+=abs(r[bx+1]-r[bx]); + sum1+=abs(r[bx+5]-r[bx+6]); + } + _variances[0]+=OC_MINI(255,sum0); + _variances[1]+=OC_MINI(255,sum1); + if(sum0<_flimit&&sum1<_flimit&&r[5]-r[4]<_qstep&&r[4]-r[5]<_qstep){ + *rdst++=(unsigned char)(r[0]*3+r[1]*2+r[2]+r[3]+r[4]+4>>3); + *rdst++=(unsigned char)(r[0]*2+r[1]+r[2]*2+r[3]+r[4]+r[5]+4>>3); + for(bx=0;bx<4;bx++){ + *rdst++=(unsigned char)(r[bx]+r[bx+1]+r[bx+2]+r[bx+3]*2+ + r[bx+4]+r[bx+5]+r[bx+6]+4>>3); + } + *rdst++=(unsigned char)(r[4]+r[5]+r[6]+r[7]*2+r[8]+r[9]*2+4>>3); + *rdst=(unsigned char)(r[5]+r[6]+r[7]+r[8]*2+r[9]*3+4>>3); + } + cdst+=_dst_ystride; + } +} + +static void oc_dec_deblock_frag_rows(oc_dec_ctx *_dec, + th_img_plane *_dst,th_img_plane *_src,int _pli,int _fragy0, + int _fragy_end){ + oc_fragment_plane *fplane; + int *variance; + unsigned char *dc_qi; + unsigned char *dst; + const unsigned char *src; + ptrdiff_t froffset; + int dst_ystride; + int src_ystride; + int nhfrags; + int width; + int notstart; + int notdone; + int flimit; + int qstep; + int y_end; + int y; + int x; + _dst+=_pli; + _src+=_pli; + fplane=_dec->state.fplanes+_pli; + nhfrags=fplane->nhfrags; + froffset=fplane->froffset+_fragy0*(ptrdiff_t)nhfrags; + variance=_dec->variances+froffset; + dc_qi=_dec->dc_qis+froffset; + notstart=_fragy0>0; + notdone=_fragy_end<fplane->nvfrags; + /*We want to clear an extra row of variances, except at the end.*/ + memset(variance+(nhfrags&-notstart),0, + (_fragy_end+notdone-_fragy0-notstart)*(nhfrags*sizeof(variance[0]))); + /*Except for the first time, we want to point to the middle of the row.*/ + y=(_fragy0<<3)+(notstart<<2); + dst_ystride=_dst->stride; + src_ystride=_src->stride; + dst=_dst->data+y*(ptrdiff_t)dst_ystride; + src=_src->data+y*(ptrdiff_t)src_ystride; + width=_dst->width; + for(;y<4;y++){ + memcpy(dst,src,width*sizeof(dst[0])); + dst+=dst_ystride; + src+=src_ystride; + } + /*We also want to skip the last row in the frame for this loop.*/ + y_end=_fragy_end-!notdone<<3; + for(;y<y_end;y+=8){ + qstep=_dec->pp_dc_scale[*dc_qi]; + flimit=(qstep*3)>>2; + oc_filter_hedge(dst,dst_ystride,src-src_ystride,src_ystride, + qstep,flimit,variance,variance+nhfrags); + variance++; + dc_qi++; + for(x=8;x<width;x+=8){ + qstep=_dec->pp_dc_scale[*dc_qi]; + flimit=(qstep*3)>>2; + oc_filter_hedge(dst+x,dst_ystride,src+x-src_ystride,src_ystride, + qstep,flimit,variance,variance+nhfrags); + oc_filter_vedge(dst+x-(dst_ystride<<2)-4,dst_ystride, + qstep,flimit,variance-1); + variance++; + dc_qi++; + } + dst+=dst_ystride<<3; + src+=src_ystride<<3; + } + /*And finally, handle the last row in the frame, if it's in the range.*/ + if(!notdone){ + int height; + height=_dst->height; + for(;y<height;y++){ + memcpy(dst,src,width*sizeof(dst[0])); + dst+=dst_ystride; + src+=src_ystride; + } + /*Filter the last row of vertical block edges.*/ + dc_qi++; + for(x=8;x<width;x+=8){ + qstep=_dec->pp_dc_scale[*dc_qi++]; + flimit=(qstep*3)>>2; + oc_filter_vedge(dst+x-(dst_ystride<<3)-4,dst_ystride, + qstep,flimit,variance++); + } + } +} + +static void oc_dering_block(unsigned char *_idata,int _ystride,int _b, + int _dc_scale,int _sharp_mod,int _strong){ + static const unsigned char OC_MOD_MAX[2]={24,32}; + static const unsigned char OC_MOD_SHIFT[2]={1,0}; + const unsigned char *psrc; + const unsigned char *src; + const unsigned char *nsrc; + unsigned char *dst; + int vmod[72]; + int hmod[72]; + int mod_hi; + int by; + int bx; + mod_hi=OC_MINI(3*_dc_scale,OC_MOD_MAX[_strong]); + dst=_idata; + src=dst; + psrc=src-(_ystride&-!(_b&4)); + for(by=0;by<9;by++){ + for(bx=0;bx<8;bx++){ + int mod; + mod=32+_dc_scale-(abs(src[bx]-psrc[bx])<<OC_MOD_SHIFT[_strong]); + vmod[(by<<3)+bx]=mod<-64?_sharp_mod:OC_CLAMPI(0,mod,mod_hi); + } + psrc=src; + src+=_ystride&-(!(_b&8)|by<7); + } + nsrc=dst; + psrc=dst-!(_b&1); + for(bx=0;bx<9;bx++){ + src=nsrc; + for(by=0;by<8;by++){ + int mod; + mod=32+_dc_scale-(abs(*src-*psrc)<<OC_MOD_SHIFT[_strong]); + hmod[(bx<<3)+by]=mod<-64?_sharp_mod:OC_CLAMPI(0,mod,mod_hi); + psrc+=_ystride; + src+=_ystride; + } + psrc=nsrc; + nsrc+=!(_b&2)|bx<7; + } + src=dst; + psrc=src-(_ystride&-!(_b&4)); + nsrc=src+_ystride; + for(by=0;by<8;by++){ + int a; + int b; + int w; + a=128; + b=64; + w=hmod[by]; + a-=w; + b+=w**(src-!(_b&1)); + w=vmod[by<<3]; + a-=w; + b+=w*psrc[0]; + w=vmod[by+1<<3]; + a-=w; + b+=w*nsrc[0]; + w=hmod[(1<<3)+by]; + a-=w; + b+=w*src[1]; + dst[0]=OC_CLAMP255(a*src[0]+b>>7); + for(bx=1;bx<7;bx++){ + a=128; + b=64; + w=hmod[(bx<<3)+by]; + a-=w; + b+=w*src[bx-1]; + w=vmod[(by<<3)+bx]; + a-=w; + b+=w*psrc[bx]; + w=vmod[(by+1<<3)+bx]; + a-=w; + b+=w*nsrc[bx]; + w=hmod[(bx+1<<3)+by]; + a-=w; + b+=w*src[bx+1]; + dst[bx]=OC_CLAMP255(a*src[bx]+b>>7); + } + a=128; + b=64; + w=hmod[(7<<3)+by]; + a-=w; + b+=w*src[6]; + w=vmod[(by<<3)+7]; + a-=w; + b+=w*psrc[7]; + w=vmod[(by+1<<3)+7]; + a-=w; + b+=w*nsrc[7]; + w=hmod[(8<<3)+by]; + a-=w; + b+=w*src[7+!(_b&2)]; + dst[7]=OC_CLAMP255(a*src[7]+b>>7); + dst+=_ystride; + psrc=src; + src=nsrc; + nsrc+=_ystride&-(!(_b&8)|by<6); + } +} + +#define OC_DERING_THRESH1 (384) +#define OC_DERING_THRESH2 (4*OC_DERING_THRESH1) +#define OC_DERING_THRESH3 (5*OC_DERING_THRESH1) +#define OC_DERING_THRESH4 (10*OC_DERING_THRESH1) + +static void oc_dec_dering_frag_rows(oc_dec_ctx *_dec,th_img_plane *_img, + int _pli,int _fragy0,int _fragy_end){ + th_img_plane *iplane; + oc_fragment_plane *fplane; + oc_fragment *frag; + int *variance; + unsigned char *idata; + ptrdiff_t froffset; + int ystride; + int nhfrags; + int sthresh; + int strong; + int y_end; + int width; + int height; + int y; + int x; + iplane=_img+_pli; + fplane=_dec->state.fplanes+_pli; + nhfrags=fplane->nhfrags; + froffset=fplane->froffset+_fragy0*(ptrdiff_t)nhfrags; + variance=_dec->variances+froffset; + frag=_dec->state.frags+froffset; + strong=_dec->pp_level>=(_pli?OC_PP_LEVEL_SDERINGC:OC_PP_LEVEL_SDERINGY); + sthresh=_pli?OC_DERING_THRESH4:OC_DERING_THRESH3; + y=_fragy0<<3; + ystride=iplane->stride; + idata=iplane->data+y*(ptrdiff_t)ystride; + y_end=_fragy_end<<3; + width=iplane->width; + height=iplane->height; + for(;y<y_end;y+=8){ + for(x=0;x<width;x+=8){ + int b; + int qi; + int var; + qi=_dec->state.qis[frag->qii]; + var=*variance; + b=(x<=0)|(x+8>=width)<<1|(y<=0)<<2|(y+8>=height)<<3; + if(strong&&var>sthresh){ + oc_dering_block(idata+x,ystride,b, + _dec->pp_dc_scale[qi],_dec->pp_sharp_mod[qi],1); + if(_pli||!(b&1)&&*(variance-1)>OC_DERING_THRESH4|| + !(b&2)&&variance[1]>OC_DERING_THRESH4|| + !(b&4)&&*(variance-nhfrags)>OC_DERING_THRESH4|| + !(b&8)&&variance[nhfrags]>OC_DERING_THRESH4){ + oc_dering_block(idata+x,ystride,b, + _dec->pp_dc_scale[qi],_dec->pp_sharp_mod[qi],1); + oc_dering_block(idata+x,ystride,b, + _dec->pp_dc_scale[qi],_dec->pp_sharp_mod[qi],1); + } + } + else if(var>OC_DERING_THRESH2){ + oc_dering_block(idata+x,ystride,b, + _dec->pp_dc_scale[qi],_dec->pp_sharp_mod[qi],1); + } + else if(var>OC_DERING_THRESH1){ + oc_dering_block(idata+x,ystride,b, + _dec->pp_dc_scale[qi],_dec->pp_sharp_mod[qi],0); + } + frag++; + variance++; + } + idata+=ystride<<3; + } +} + + + +th_dec_ctx *th_decode_alloc(const th_info *_info,const th_setup_info *_setup){ + oc_dec_ctx *dec; + if(_info==NULL||_setup==NULL)return NULL; + dec=oc_aligned_malloc(sizeof(*dec),16); + if(dec==NULL||oc_dec_init(dec,_info,_setup)<0){ + oc_aligned_free(dec); + return NULL; + } + dec->state.curframe_num=0; + return dec; +} + +void th_decode_free(th_dec_ctx *_dec){ + if(_dec!=NULL){ + oc_dec_clear(_dec); + oc_aligned_free(_dec); + } +} + +int th_decode_ctl(th_dec_ctx *_dec,int _req,void *_buf, + size_t _buf_sz){ + switch(_req){ + case TH_DECCTL_GET_PPLEVEL_MAX:{ + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(int))return TH_EINVAL; + (*(int *)_buf)=OC_PP_LEVEL_MAX; + return 0; + }break; + case TH_DECCTL_SET_PPLEVEL:{ + int pp_level; + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(int))return TH_EINVAL; + pp_level=*(int *)_buf; + if(pp_level<0||pp_level>OC_PP_LEVEL_MAX)return TH_EINVAL; + _dec->pp_level=pp_level; + return 0; + }break; + case TH_DECCTL_SET_GRANPOS:{ + ogg_int64_t granpos; + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(ogg_int64_t))return TH_EINVAL; + granpos=*(ogg_int64_t *)_buf; + if(granpos<0)return TH_EINVAL; + _dec->state.granpos=granpos; + _dec->state.keyframe_num=(granpos>>_dec->state.info.keyframe_granule_shift) + -_dec->state.granpos_bias; + _dec->state.curframe_num=_dec->state.keyframe_num + +(granpos&(1<<_dec->state.info.keyframe_granule_shift)-1); + return 0; + }break; + case TH_DECCTL_SET_STRIPE_CB:{ + th_stripe_callback *cb; + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(th_stripe_callback))return TH_EINVAL; + cb=(th_stripe_callback *)_buf; + _dec->stripe_cb.ctx=cb->ctx; + _dec->stripe_cb.stripe_decoded=cb->stripe_decoded; + return 0; + }break; +#ifdef HAVE_CAIRO + case TH_DECCTL_SET_TELEMETRY_MBMODE:{ + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(int))return TH_EINVAL; + _dec->telemetry=1; + _dec->telemetry_mbmode=*(int *)_buf; + return 0; + }break; + case TH_DECCTL_SET_TELEMETRY_MV:{ + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(int))return TH_EINVAL; + _dec->telemetry=1; + _dec->telemetry_mv=*(int *)_buf; + return 0; + }break; + case TH_DECCTL_SET_TELEMETRY_QI:{ + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(int))return TH_EINVAL; + _dec->telemetry=1; + _dec->telemetry_qi=*(int *)_buf; + return 0; + }break; + case TH_DECCTL_SET_TELEMETRY_BITS:{ + if(_dec==NULL||_buf==NULL)return TH_EFAULT; + if(_buf_sz!=sizeof(int))return TH_EINVAL; + _dec->telemetry=1; + _dec->telemetry_bits=*(int *)_buf; + return 0; + }break; +#endif + default:return TH_EIMPL; + } +} + +/*We're decoding an INTER frame, but have no initialized reference + buffers (i.e., decoding did not start on a key frame). + We initialize them to a solid gray here.*/ +static void oc_dec_init_dummy_frame(th_dec_ctx *_dec){ + th_info *info; + size_t yplane_sz; + size_t cplane_sz; + ptrdiff_t yoffset; + int yhstride; + int yheight; + int chstride; + int cheight; + _dec->state.ref_frame_idx[OC_FRAME_GOLD]=0; + _dec->state.ref_frame_idx[OC_FRAME_PREV]=0; + _dec->state.ref_frame_idx[OC_FRAME_SELF]=0; + _dec->state.ref_frame_data[OC_FRAME_GOLD]= + _dec->state.ref_frame_data[OC_FRAME_PREV]= + _dec->state.ref_frame_data[OC_FRAME_SELF]= + _dec->state.ref_frame_bufs[0][0].data; + memcpy(_dec->pp_frame_buf,_dec->state.ref_frame_bufs[0], + sizeof(_dec->pp_frame_buf[0])*3); + info=&_dec->state.info; + yhstride=abs(_dec->state.ref_ystride[0]); + yheight=info->frame_height+2*OC_UMV_PADDING; + chstride=abs(_dec->state.ref_ystride[1]); + cheight=yheight>>!(info->pixel_fmt&2); + yplane_sz=yhstride*(size_t)yheight+16; + cplane_sz=chstride*(size_t)cheight; + yoffset=yhstride*(ptrdiff_t)(yheight-OC_UMV_PADDING-1)+OC_UMV_PADDING; + memset(_dec->state.ref_frame_data[0]-yoffset,0x80,yplane_sz+2*cplane_sz); +} + +int th_decode_packetin(th_dec_ctx *_dec,const ogg_packet *_op, + ogg_int64_t *_granpos){ + int ret; + if(_dec==NULL||_op==NULL)return TH_EFAULT; + /*A completely empty packet indicates a dropped frame and is treated exactly + like an inter frame with no coded blocks.*/ + if(_op->bytes==0){ + _dec->state.frame_type=OC_INTER_FRAME; + _dec->state.ntotal_coded_fragis=0; + } + else{ + oc_pack_readinit(&_dec->opb,_op->packet,_op->bytes); + ret=oc_dec_frame_header_unpack(_dec); + if(ret<0)return ret; + if(_dec->state.frame_type==OC_INTRA_FRAME)oc_dec_mark_all_intra(_dec); + else oc_dec_coded_flags_unpack(_dec); + } + /*If there have been no reference frames, and we need one, initialize one.*/ + if(_dec->state.frame_type!=OC_INTRA_FRAME&& + (_dec->state.ref_frame_idx[OC_FRAME_GOLD]<0|| + _dec->state.ref_frame_idx[OC_FRAME_PREV]<0)){ + oc_dec_init_dummy_frame(_dec); + } + /*If this was an inter frame with no coded blocks...*/ + if(_dec->state.ntotal_coded_fragis<=0){ + /*Just update the granule position and return.*/ + _dec->state.granpos=(_dec->state.keyframe_num+_dec->state.granpos_bias<< + _dec->state.info.keyframe_granule_shift) + +(_dec->state.curframe_num-_dec->state.keyframe_num); + _dec->state.curframe_num++; + if(_granpos!=NULL)*_granpos=_dec->state.granpos; + return TH_DUPFRAME; + } + else{ + th_ycbcr_buffer stripe_buf; + int stripe_fragy; + int refi; + int pli; + int notstart; + int notdone; + /*Select a free buffer to use for the reconstructed version of this frame.*/ + for(refi=0;refi==_dec->state.ref_frame_idx[OC_FRAME_GOLD]|| + refi==_dec->state.ref_frame_idx[OC_FRAME_PREV];refi++); + _dec->state.ref_frame_idx[OC_FRAME_SELF]=refi; + _dec->state.ref_frame_data[OC_FRAME_SELF]= + _dec->state.ref_frame_bufs[refi][0].data; +#if defined(HAVE_CAIRO) + _dec->telemetry_frame_bytes=_op->bytes; +#endif + if(_dec->state.frame_type==OC_INTRA_FRAME){ + _dec->state.keyframe_num=_dec->state.curframe_num; +#if defined(HAVE_CAIRO) + _dec->telemetry_coding_bytes= + _dec->telemetry_mode_bytes= + _dec->telemetry_mv_bytes=oc_pack_bytes_left(&_dec->opb); +#endif + } + else{ +#if defined(HAVE_CAIRO) + _dec->telemetry_coding_bytes=oc_pack_bytes_left(&_dec->opb); +#endif + oc_dec_mb_modes_unpack(_dec); +#if defined(HAVE_CAIRO) + _dec->telemetry_mode_bytes=oc_pack_bytes_left(&_dec->opb); +#endif + oc_dec_mv_unpack_and_frag_modes_fill(_dec); +#if defined(HAVE_CAIRO) + _dec->telemetry_mv_bytes=oc_pack_bytes_left(&_dec->opb); +#endif + } + oc_dec_block_qis_unpack(_dec); +#if defined(HAVE_CAIRO) + _dec->telemetry_qi_bytes=oc_pack_bytes_left(&_dec->opb); +#endif + oc_dec_residual_tokens_unpack(_dec); + /*Update granule position. + This must be done before the striped decode callbacks so that the + application knows what to do with the frame data.*/ + _dec->state.granpos=(_dec->state.keyframe_num+_dec->state.granpos_bias<< + _dec->state.info.keyframe_granule_shift) + +(_dec->state.curframe_num-_dec->state.keyframe_num); + _dec->state.curframe_num++; + if(_granpos!=NULL)*_granpos=_dec->state.granpos; + /*All of the rest of the operations -- DC prediction reversal, + reconstructing coded fragments, copying uncoded fragments, loop + filtering, extending borders, and out-of-loop post-processing -- should + be pipelined. + I.e., DC prediction reversal, reconstruction, and uncoded fragment + copying are done for one or two super block rows, then loop filtering is + run as far as it can, then bordering copying, then post-processing. + For 4:2:0 video a Minimum Codable Unit or MCU contains two luma super + block rows, and one chroma. + Otherwise, an MCU consists of one super block row from each plane. + Inside each MCU, we perform all of the steps on one color plane before + moving on to the next. + After reconstruction, the additional filtering stages introduce a delay + since they need some pixels from the next fragment row. + Thus the actual number of decoded rows available is slightly smaller for + the first MCU, and slightly larger for the last. + + This entire process allows us to operate on the data while it is still in + cache, resulting in big performance improvements. + An application callback allows further application processing (blitting + to video memory, color conversion, etc.) to also use the data while it's + in cache.*/ + oc_dec_pipeline_init(_dec,&_dec->pipe); + oc_ycbcr_buffer_flip(stripe_buf,_dec->pp_frame_buf); + notstart=0; + notdone=1; + for(stripe_fragy=0;notdone;stripe_fragy+=_dec->pipe.mcu_nvfrags){ + int avail_fragy0; + int avail_fragy_end; + avail_fragy0=avail_fragy_end=_dec->state.fplanes[0].nvfrags; + notdone=stripe_fragy+_dec->pipe.mcu_nvfrags<avail_fragy_end; + for(pli=0;pli<3;pli++){ + oc_fragment_plane *fplane; + int frag_shift; + int pp_offset; + int sdelay; + int edelay; + fplane=_dec->state.fplanes+pli; + /*Compute the first and last fragment row of the current MCU for this + plane.*/ + frag_shift=pli!=0&&!(_dec->state.info.pixel_fmt&2); + _dec->pipe.fragy0[pli]=stripe_fragy>>frag_shift; + _dec->pipe.fragy_end[pli]=OC_MINI(fplane->nvfrags, + _dec->pipe.fragy0[pli]+(_dec->pipe.mcu_nvfrags>>frag_shift)); + oc_dec_dc_unpredict_mcu_plane(_dec,&_dec->pipe,pli); + oc_dec_frags_recon_mcu_plane(_dec,&_dec->pipe,pli); + sdelay=edelay=0; + if(_dec->pipe.loop_filter){ + sdelay+=notstart; + edelay+=notdone; + oc_state_loop_filter_frag_rows(&_dec->state, + _dec->pipe.bounding_values,OC_FRAME_SELF,pli, + _dec->pipe.fragy0[pli]-sdelay,_dec->pipe.fragy_end[pli]-edelay); + } + /*To fill the borders, we have an additional two pixel delay, since a + fragment in the next row could filter its top edge, using two pixels + from a fragment in this row. + But there's no reason to delay a full fragment between the two.*/ + oc_state_borders_fill_rows(&_dec->state,refi,pli, + (_dec->pipe.fragy0[pli]-sdelay<<3)-(sdelay<<1), + (_dec->pipe.fragy_end[pli]-edelay<<3)-(edelay<<1)); + /*Out-of-loop post-processing.*/ + pp_offset=3*(pli!=0); + if(_dec->pipe.pp_level>=OC_PP_LEVEL_DEBLOCKY+pp_offset){ + /*Perform de-blocking in one plane.*/ + sdelay+=notstart; + edelay+=notdone; + oc_dec_deblock_frag_rows(_dec,_dec->pp_frame_buf, + _dec->state.ref_frame_bufs[refi],pli, + _dec->pipe.fragy0[pli]-sdelay,_dec->pipe.fragy_end[pli]-edelay); + if(_dec->pipe.pp_level>=OC_PP_LEVEL_DERINGY+pp_offset){ + /*Perform de-ringing in one plane.*/ + sdelay+=notstart; + edelay+=notdone; + oc_dec_dering_frag_rows(_dec,_dec->pp_frame_buf,pli, + _dec->pipe.fragy0[pli]-sdelay,_dec->pipe.fragy_end[pli]-edelay); + } + } + /*If no post-processing is done, we still need to delay a row for the + loop filter, thanks to the strange filtering order VP3 chose.*/ + else if(_dec->pipe.loop_filter){ + sdelay+=notstart; + edelay+=notdone; + } + /*Compute the intersection of the available rows in all planes. + If chroma is sub-sampled, the effect of each of its delays is + doubled, but luma might have more post-processing filters enabled + than chroma, so we don't know up front which one is the limiting + factor.*/ + avail_fragy0=OC_MINI(avail_fragy0, + _dec->pipe.fragy0[pli]-sdelay<<frag_shift); + avail_fragy_end=OC_MINI(avail_fragy_end, + _dec->pipe.fragy_end[pli]-edelay<<frag_shift); + } + if(_dec->stripe_cb.stripe_decoded!=NULL){ + /*The callback might want to use the FPU, so let's make sure they can. + We violate all kinds of ABI restrictions by not doing this until + now, but none of them actually matter since we don't use floating + point ourselves.*/ + oc_restore_fpu(&_dec->state); + /*Make the callback, ensuring we flip the sense of the "start" and + "end" of the available region upside down.*/ + (*_dec->stripe_cb.stripe_decoded)(_dec->stripe_cb.ctx,stripe_buf, + _dec->state.fplanes[0].nvfrags-avail_fragy_end, + _dec->state.fplanes[0].nvfrags-avail_fragy0); + } + notstart=1; + } + /*Finish filling in the reference frame borders.*/ + for(pli=0;pli<3;pli++)oc_state_borders_fill_caps(&_dec->state,refi,pli); + /*Update the reference frame indices.*/ + if(_dec->state.frame_type==OC_INTRA_FRAME){ + /*The new frame becomes both the previous and gold reference frames.*/ + _dec->state.ref_frame_idx[OC_FRAME_GOLD]= + _dec->state.ref_frame_idx[OC_FRAME_PREV]= + _dec->state.ref_frame_idx[OC_FRAME_SELF]; + _dec->state.ref_frame_data[OC_FRAME_GOLD]= + _dec->state.ref_frame_data[OC_FRAME_PREV]= + _dec->state.ref_frame_data[OC_FRAME_SELF]; + } + else{ + /*Otherwise, just replace the previous reference frame.*/ + _dec->state.ref_frame_idx[OC_FRAME_PREV]= + _dec->state.ref_frame_idx[OC_FRAME_SELF]; + _dec->state.ref_frame_data[OC_FRAME_PREV]= + _dec->state.ref_frame_data[OC_FRAME_SELF]; + } + /*Restore the FPU before dump_frame, since that _does_ use the FPU (for PNG + gamma values, if nothing else).*/ + oc_restore_fpu(&_dec->state); +#if defined(OC_DUMP_IMAGES) + /*We only dump images if there were some coded blocks.*/ + oc_state_dump_frame(&_dec->state,OC_FRAME_SELF,"dec"); +#endif + return 0; + } +} + +int th_decode_ycbcr_out(th_dec_ctx *_dec,th_ycbcr_buffer _ycbcr){ + if(_dec==NULL||_ycbcr==NULL)return TH_EFAULT; + oc_ycbcr_buffer_flip(_ycbcr,_dec->pp_frame_buf); +#if defined(HAVE_CAIRO) + /*If telemetry ioctls are active, we need to draw to the output buffer. + Stuff the plane into cairo.*/ + if(_dec->telemetry){ + cairo_surface_t *cs; + unsigned char *data; + unsigned char *y_row; + unsigned char *u_row; + unsigned char *v_row; + unsigned char *rgb_row; + int cstride; + int w; + int h; + int x; + int y; + int hdec; + int vdec; + w=_ycbcr[0].width; + h=_ycbcr[0].height; + hdec=!(_dec->state.info.pixel_fmt&1); + vdec=!(_dec->state.info.pixel_fmt&2); + /*Lazy data buffer init. + We could try to re-use the post-processing buffer, which would save + memory, but complicate the allocation logic there. + I don't think anyone cares about memory usage when using telemetry; it is + not meant for embedded devices.*/ + if(_dec->telemetry_frame_data==NULL){ + _dec->telemetry_frame_data=_ogg_malloc( + (w*h+2*(w>>hdec)*(h>>vdec))*sizeof(*_dec->telemetry_frame_data)); + if(_dec->telemetry_frame_data==NULL)return 0; + } + cs=cairo_image_surface_create(CAIRO_FORMAT_RGB24,w,h); + /*Sadly, no YUV support in Cairo (yet); convert into the RGB buffer.*/ + data=cairo_image_surface_get_data(cs); + if(data==NULL){ + cairo_surface_destroy(cs); + return 0; + } + cstride=cairo_image_surface_get_stride(cs); + y_row=_ycbcr[0].data; + u_row=_ycbcr[1].data; + v_row=_ycbcr[2].data; + rgb_row=data; + for(y=0;y<h;y++){ + for(x=0;x<w;x++){ + int r; + int g; + int b; + r=(1904000*y_row[x]+2609823*v_row[x>>hdec]-363703744)/1635200; + g=(3827562*y_row[x]-1287801*u_row[x>>hdec] + -2672387*v_row[x>>hdec]+447306710)/3287200; + b=(952000*y_row[x]+1649289*u_row[x>>hdec]-225932192)/817600; + rgb_row[4*x+0]=OC_CLAMP255(b); + rgb_row[4*x+1]=OC_CLAMP255(g); + rgb_row[4*x+2]=OC_CLAMP255(r); + } + y_row+=_ycbcr[0].stride; + u_row+=_ycbcr[1].stride&-((y&1)|!vdec); + v_row+=_ycbcr[2].stride&-((y&1)|!vdec); + rgb_row+=cstride; + } + /*Draw coded identifier for each macroblock (stored in Hilbert order).*/ + { + cairo_t *c; + const oc_fragment *frags; + oc_mv *frag_mvs; + const signed char *mb_modes; + oc_mb_map *mb_maps; + size_t nmbs; + size_t mbi; + int row2; + int col2; + int qim[3]={0,0,0}; + if(_dec->state.nqis==2){ + int bqi; + bqi=_dec->state.qis[0]; + if(_dec->state.qis[1]>bqi)qim[1]=1; + if(_dec->state.qis[1]<bqi)qim[1]=-1; + } + if(_dec->state.nqis==3){ + int bqi; + int cqi; + int dqi; + bqi=_dec->state.qis[0]; + cqi=_dec->state.qis[1]; + dqi=_dec->state.qis[2]; + if(cqi>bqi&&dqi>bqi){ + if(dqi>cqi){ + qim[1]=1; + qim[2]=2; + } + else{ + qim[1]=2; + qim[2]=1; + } + } + else if(cqi<bqi&&dqi<bqi){ + if(dqi<cqi){ + qim[1]=-1; + qim[2]=-2; + } + else{ + qim[1]=-2; + qim[2]=-1; + } + } + else{ + if(cqi<bqi)qim[1]=-1; + else qim[1]=1; + if(dqi<bqi)qim[2]=-1; + else qim[2]=1; + } + } + c=cairo_create(cs); + frags=_dec->state.frags; + frag_mvs=_dec->state.frag_mvs; + mb_modes=_dec->state.mb_modes; + mb_maps=_dec->state.mb_maps; + nmbs=_dec->state.nmbs; + row2=0; + col2=0; + for(mbi=0;mbi<nmbs;mbi++){ + float x; + float y; + int bi; + y=h-(row2+((col2+1>>1)&1))*16-16; + x=(col2>>1)*16; + cairo_set_line_width(c,1.); + /*Keyframe (all intra) red box.*/ + if(_dec->state.frame_type==OC_INTRA_FRAME){ + if(_dec->telemetry_mbmode&0x02){ + cairo_set_source_rgba(c,1.,0,0,.5); + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,1.,0,0,.25); + cairo_fill(c); + } + } + else{ + ptrdiff_t fragi; + int frag_mvx; + int frag_mvy; + for(bi=0;bi<4;bi++){ + fragi=mb_maps[mbi][0][bi]; + if(fragi>=0&&frags[fragi].coded){ + frag_mvx=OC_MV_X(frag_mvs[fragi]); + frag_mvy=OC_MV_Y(frag_mvs[fragi]); + break; + } + } + if(bi<4){ + switch(mb_modes[mbi]){ + case OC_MODE_INTRA:{ + if(_dec->telemetry_mbmode&0x02){ + cairo_set_source_rgba(c,1.,0,0,.5); + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,1.,0,0,.25); + cairo_fill(c); + } + }break; + case OC_MODE_INTER_NOMV:{ + if(_dec->telemetry_mbmode&0x01){ + cairo_set_source_rgba(c,0,0,1.,.5); + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,0,0,1.,.25); + cairo_fill(c); + } + }break; + case OC_MODE_INTER_MV:{ + if(_dec->telemetry_mbmode&0x04){ + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_set_source_rgba(c,0,1.,0,.5); + cairo_stroke(c); + } + if(_dec->telemetry_mv&0x04){ + cairo_move_to(c,x+8+frag_mvx,y+8-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+8+frag_mvx*.66,y+8-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+8+frag_mvx*.33,y+8-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+8,y+8); + cairo_stroke(c); + } + }break; + case OC_MODE_INTER_MV_LAST:{ + if(_dec->telemetry_mbmode&0x08){ + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_set_source_rgba(c,0,1.,0,.5); + cairo_move_to(c,x+13.5,y+2.5); + cairo_line_to(c,x+2.5,y+8); + cairo_line_to(c,x+13.5,y+13.5); + cairo_stroke(c); + } + if(_dec->telemetry_mv&0x08){ + cairo_move_to(c,x+8+frag_mvx,y+8-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+8+frag_mvx*.66,y+8-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+8+frag_mvx*.33,y+8-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+8,y+8); + cairo_stroke(c); + } + }break; + case OC_MODE_INTER_MV_LAST2:{ + if(_dec->telemetry_mbmode&0x10){ + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_set_source_rgba(c,0,1.,0,.5); + cairo_move_to(c,x+8,y+2.5); + cairo_line_to(c,x+2.5,y+8); + cairo_line_to(c,x+8,y+13.5); + cairo_move_to(c,x+13.5,y+2.5); + cairo_line_to(c,x+8,y+8); + cairo_line_to(c,x+13.5,y+13.5); + cairo_stroke(c); + } + if(_dec->telemetry_mv&0x10){ + cairo_move_to(c,x+8+frag_mvx,y+8-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+8+frag_mvx*.66,y+8-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+8+frag_mvx*.33,y+8-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+8,y+8); + cairo_stroke(c); + } + }break; + case OC_MODE_GOLDEN_NOMV:{ + if(_dec->telemetry_mbmode&0x20){ + cairo_set_source_rgba(c,1.,1.,0,.5); + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,1.,1.,0,.25); + cairo_fill(c); + } + }break; + case OC_MODE_GOLDEN_MV:{ + if(_dec->telemetry_mbmode&0x40){ + cairo_rectangle(c,x+2.5,y+2.5,11,11); + cairo_set_source_rgba(c,1.,1.,0,.5); + cairo_stroke(c); + } + if(_dec->telemetry_mv&0x40){ + cairo_move_to(c,x+8+frag_mvx,y+8-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+8+frag_mvx*.66,y+8-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+8+frag_mvx*.33,y+8-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+8,y+8); + cairo_stroke(c); + } + }break; + case OC_MODE_INTER_MV_FOUR:{ + if(_dec->telemetry_mbmode&0x80){ + cairo_rectangle(c,x+2.5,y+2.5,4,4); + cairo_rectangle(c,x+9.5,y+2.5,4,4); + cairo_rectangle(c,x+2.5,y+9.5,4,4); + cairo_rectangle(c,x+9.5,y+9.5,4,4); + cairo_set_source_rgba(c,0,1.,0,.5); + cairo_stroke(c); + } + /*4mv is odd, coded in raster order.*/ + fragi=mb_maps[mbi][0][0]; + if(frags[fragi].coded&&_dec->telemetry_mv&0x80){ + frag_mvx=OC_MV_X(frag_mvs[fragi]); + frag_mvx=OC_MV_Y(frag_mvs[fragi]); + cairo_move_to(c,x+4+frag_mvx,y+12-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+4+frag_mvx*.66,y+12-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+4+frag_mvx*.33,y+12-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+4,y+12); + cairo_stroke(c); + } + fragi=mb_maps[mbi][0][1]; + if(frags[fragi].coded&&_dec->telemetry_mv&0x80){ + frag_mvx=OC_MV_X(frag_mvs[fragi]); + frag_mvx=OC_MV_Y(frag_mvs[fragi]); + cairo_move_to(c,x+12+frag_mvx,y+12-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+12+frag_mvx*.66,y+12-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+12+frag_mvx*.33,y+12-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+12,y+12); + cairo_stroke(c); + } + fragi=mb_maps[mbi][0][2]; + if(frags[fragi].coded&&_dec->telemetry_mv&0x80){ + frag_mvx=OC_MV_X(frag_mvs[fragi]); + frag_mvx=OC_MV_Y(frag_mvs[fragi]); + cairo_move_to(c,x+4+frag_mvx,y+4-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+4+frag_mvx*.66,y+4-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+4+frag_mvx*.33,y+4-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+4,y+4); + cairo_stroke(c); + } + fragi=mb_maps[mbi][0][3]; + if(frags[fragi].coded&&_dec->telemetry_mv&0x80){ + frag_mvx=OC_MV_X(frag_mvs[fragi]); + frag_mvx=OC_MV_Y(frag_mvs[fragi]); + cairo_move_to(c,x+12+frag_mvx,y+4-frag_mvy); + cairo_set_source_rgba(c,1.,1.,1.,.9); + cairo_set_line_width(c,3.); + cairo_line_to(c,x+12+frag_mvx*.66,y+4-frag_mvy*.66); + cairo_stroke_preserve(c); + cairo_set_line_width(c,2.); + cairo_line_to(c,x+12+frag_mvx*.33,y+4-frag_mvy*.33); + cairo_stroke_preserve(c); + cairo_set_line_width(c,1.); + cairo_line_to(c,x+12,y+4); + cairo_stroke(c); + } + }break; + } + } + } + /*qii illustration.*/ + if(_dec->telemetry_qi&0x2){ + cairo_set_line_cap(c,CAIRO_LINE_CAP_SQUARE); + for(bi=0;bi<4;bi++){ + ptrdiff_t fragi; + int qiv; + int xp; + int yp; + xp=x+(bi&1)*8; + yp=y+8-(bi&2)*4; + fragi=mb_maps[mbi][0][bi]; + if(fragi>=0&&frags[fragi].coded){ + qiv=qim[frags[fragi].qii]; + cairo_set_line_width(c,3.); + cairo_set_source_rgba(c,0.,0.,0.,.5); + switch(qiv){ + /*Double plus:*/ + case 2:{ + if((bi&1)^((bi&2)>>1)){ + cairo_move_to(c,xp+2.5,yp+1.5); + cairo_line_to(c,xp+2.5,yp+3.5); + cairo_move_to(c,xp+1.5,yp+2.5); + cairo_line_to(c,xp+3.5,yp+2.5); + cairo_move_to(c,xp+5.5,yp+4.5); + cairo_line_to(c,xp+5.5,yp+6.5); + cairo_move_to(c,xp+4.5,yp+5.5); + cairo_line_to(c,xp+6.5,yp+5.5); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,0.,1.,1.,1.); + } + else{ + cairo_move_to(c,xp+5.5,yp+1.5); + cairo_line_to(c,xp+5.5,yp+3.5); + cairo_move_to(c,xp+4.5,yp+2.5); + cairo_line_to(c,xp+6.5,yp+2.5); + cairo_move_to(c,xp+2.5,yp+4.5); + cairo_line_to(c,xp+2.5,yp+6.5); + cairo_move_to(c,xp+1.5,yp+5.5); + cairo_line_to(c,xp+3.5,yp+5.5); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,0.,1.,1.,1.); + } + }break; + /*Double minus:*/ + case -2:{ + cairo_move_to(c,xp+2.5,yp+2.5); + cairo_line_to(c,xp+5.5,yp+2.5); + cairo_move_to(c,xp+2.5,yp+5.5); + cairo_line_to(c,xp+5.5,yp+5.5); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,1.,1.,1.,1.); + }break; + /*Plus:*/ + case 1:{ + if(bi&2==0)yp-=2; + if(bi&1==0)xp-=2; + cairo_move_to(c,xp+4.5,yp+2.5); + cairo_line_to(c,xp+4.5,yp+6.5); + cairo_move_to(c,xp+2.5,yp+4.5); + cairo_line_to(c,xp+6.5,yp+4.5); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,.1,1.,.3,1.); + break; + } + /*Fall through.*/ + /*Minus:*/ + case -1:{ + cairo_move_to(c,xp+2.5,yp+4.5); + cairo_line_to(c,xp+6.5,yp+4.5); + cairo_stroke_preserve(c); + cairo_set_source_rgba(c,1.,.3,.1,1.); + }break; + default:continue; + } + cairo_set_line_width(c,1.); + cairo_stroke(c); + } + } + } + col2++; + if((col2>>1)>=_dec->state.nhmbs){ + col2=0; + row2+=2; + } + } + /*Bit usage indicator[s]:*/ + if(_dec->telemetry_bits){ + int widths[6]; + int fpsn; + int fpsd; + int mult; + int fullw; + int padw; + int i; + fpsn=_dec->state.info.fps_numerator; + fpsd=_dec->state.info.fps_denominator; + mult=(_dec->telemetry_bits>=0xFF?1:_dec->telemetry_bits); + fullw=250.f*h*fpsd*mult/fpsn; + padw=w-24; + /*Header and coded block bits.*/ + if(_dec->telemetry_frame_bytes<0|| + _dec->telemetry_frame_bytes==OC_LOTS_OF_BITS){ + _dec->telemetry_frame_bytes=0; + } + if(_dec->telemetry_coding_bytes<0|| + _dec->telemetry_coding_bytes>_dec->telemetry_frame_bytes){ + _dec->telemetry_coding_bytes=0; + } + if(_dec->telemetry_mode_bytes<0|| + _dec->telemetry_mode_bytes>_dec->telemetry_frame_bytes){ + _dec->telemetry_mode_bytes=0; + } + if(_dec->telemetry_mv_bytes<0|| + _dec->telemetry_mv_bytes>_dec->telemetry_frame_bytes){ + _dec->telemetry_mv_bytes=0; + } + if(_dec->telemetry_qi_bytes<0|| + _dec->telemetry_qi_bytes>_dec->telemetry_frame_bytes){ + _dec->telemetry_qi_bytes=0; + } + if(_dec->telemetry_dc_bytes<0|| + _dec->telemetry_dc_bytes>_dec->telemetry_frame_bytes){ + _dec->telemetry_dc_bytes=0; + } + widths[0]=padw*(_dec->telemetry_frame_bytes-_dec->telemetry_coding_bytes)/fullw; + widths[1]=padw*(_dec->telemetry_coding_bytes-_dec->telemetry_mode_bytes)/fullw; + widths[2]=padw*(_dec->telemetry_mode_bytes-_dec->telemetry_mv_bytes)/fullw; + widths[3]=padw*(_dec->telemetry_mv_bytes-_dec->telemetry_qi_bytes)/fullw; + widths[4]=padw*(_dec->telemetry_qi_bytes-_dec->telemetry_dc_bytes)/fullw; + widths[5]=padw*(_dec->telemetry_dc_bytes)/fullw; + for(i=0;i<6;i++)if(widths[i]>w)widths[i]=w; + cairo_set_source_rgba(c,.0,.0,.0,.6); + cairo_rectangle(c,10,h-33,widths[0]+1,5); + cairo_rectangle(c,10,h-29,widths[1]+1,5); + cairo_rectangle(c,10,h-25,widths[2]+1,5); + cairo_rectangle(c,10,h-21,widths[3]+1,5); + cairo_rectangle(c,10,h-17,widths[4]+1,5); + cairo_rectangle(c,10,h-13,widths[5]+1,5); + cairo_fill(c); + cairo_set_source_rgb(c,1,0,0); + cairo_rectangle(c,10.5,h-32.5,widths[0],4); + cairo_fill(c); + cairo_set_source_rgb(c,0,1,0); + cairo_rectangle(c,10.5,h-28.5,widths[1],4); + cairo_fill(c); + cairo_set_source_rgb(c,0,0,1); + cairo_rectangle(c,10.5,h-24.5,widths[2],4); + cairo_fill(c); + cairo_set_source_rgb(c,.6,.4,.0); + cairo_rectangle(c,10.5,h-20.5,widths[3],4); + cairo_fill(c); + cairo_set_source_rgb(c,.3,.3,.3); + cairo_rectangle(c,10.5,h-16.5,widths[4],4); + cairo_fill(c); + cairo_set_source_rgb(c,.5,.5,.8); + cairo_rectangle(c,10.5,h-12.5,widths[5],4); + cairo_fill(c); + } + /*Master qi indicator[s]:*/ + if(_dec->telemetry_qi&0x1){ + cairo_text_extents_t extents; + char buffer[10]; + int p; + int y; + p=0; + y=h-7.5; + if(_dec->state.qis[0]>=10)buffer[p++]=48+_dec->state.qis[0]/10; + buffer[p++]=48+_dec->state.qis[0]%10; + if(_dec->state.nqis>=2){ + buffer[p++]=' '; + if(_dec->state.qis[1]>=10)buffer[p++]=48+_dec->state.qis[1]/10; + buffer[p++]=48+_dec->state.qis[1]%10; + } + if(_dec->state.nqis==3){ + buffer[p++]=' '; + if(_dec->state.qis[2]>=10)buffer[p++]=48+_dec->state.qis[2]/10; + buffer[p++]=48+_dec->state.qis[2]%10; + } + buffer[p++]='\0'; + cairo_select_font_face(c,"sans", + CAIRO_FONT_SLANT_NORMAL,CAIRO_FONT_WEIGHT_BOLD); + cairo_set_font_size(c,18); + cairo_text_extents(c,buffer,&extents); + cairo_set_source_rgb(c,1,1,1); + cairo_move_to(c,w-extents.x_advance-10,y); + cairo_show_text(c,buffer); + cairo_set_source_rgb(c,0,0,0); + cairo_move_to(c,w-extents.x_advance-10,y); + cairo_text_path(c,buffer); + cairo_set_line_width(c,.8); + cairo_set_line_join(c,CAIRO_LINE_JOIN_ROUND); + cairo_stroke(c); + } + cairo_destroy(c); + } + /*Out of the Cairo plane into the telemetry YUV buffer.*/ + _ycbcr[0].data=_dec->telemetry_frame_data; + _ycbcr[0].stride=_ycbcr[0].width; + _ycbcr[1].data=_ycbcr[0].data+h*_ycbcr[0].stride; + _ycbcr[1].stride=_ycbcr[1].width; + _ycbcr[2].data=_ycbcr[1].data+(h>>vdec)*_ycbcr[1].stride; + _ycbcr[2].stride=_ycbcr[2].width; + y_row=_ycbcr[0].data; + u_row=_ycbcr[1].data; + v_row=_ycbcr[2].data; + rgb_row=data; + /*This is one of the few places it's worth handling chroma on a + case-by-case basis.*/ + switch(_dec->state.info.pixel_fmt){ + case TH_PF_420:{ + for(y=0;y<h;y+=2){ + unsigned char *y_row2; + unsigned char *rgb_row2; + y_row2=y_row+_ycbcr[0].stride; + rgb_row2=rgb_row+cstride; + for(x=0;x<w;x+=2){ + int y; + int u; + int v; + y=(65481*rgb_row[4*x+2]+128553*rgb_row[4*x+1] + +24966*rgb_row[4*x+0]+4207500)/255000; + y_row[x]=OC_CLAMP255(y); + y=(65481*rgb_row[4*x+6]+128553*rgb_row[4*x+5] + +24966*rgb_row[4*x+4]+4207500)/255000; + y_row[x+1]=OC_CLAMP255(y); + y=(65481*rgb_row2[4*x+2]+128553*rgb_row2[4*x+1] + +24966*rgb_row2[4*x+0]+4207500)/255000; + y_row2[x]=OC_CLAMP255(y); + y=(65481*rgb_row2[4*x+6]+128553*rgb_row2[4*x+5] + +24966*rgb_row2[4*x+4]+4207500)/255000; + y_row2[x+1]=OC_CLAMP255(y); + u=(-8372*(rgb_row[4*x+2]+rgb_row[4*x+6] + +rgb_row2[4*x+2]+rgb_row2[4*x+6]) + -16436*(rgb_row[4*x+1]+rgb_row[4*x+5] + +rgb_row2[4*x+1]+rgb_row2[4*x+5]) + +24808*(rgb_row[4*x+0]+rgb_row[4*x+4] + +rgb_row2[4*x+0]+rgb_row2[4*x+4])+29032005)/225930; + v=(39256*(rgb_row[4*x+2]+rgb_row[4*x+6] + +rgb_row2[4*x+2]+rgb_row2[4*x+6]) + -32872*(rgb_row[4*x+1]+rgb_row[4*x+5] + +rgb_row2[4*x+1]+rgb_row2[4*x+5]) + -6384*(rgb_row[4*x+0]+rgb_row[4*x+4] + +rgb_row2[4*x+0]+rgb_row2[4*x+4])+45940035)/357510; + u_row[x>>1]=OC_CLAMP255(u); + v_row[x>>1]=OC_CLAMP255(v); + } + y_row+=_ycbcr[0].stride<<1; + u_row+=_ycbcr[1].stride; + v_row+=_ycbcr[2].stride; + rgb_row+=cstride<<1; + } + }break; + case TH_PF_422:{ + for(y=0;y<h;y++){ + for(x=0;x<w;x+=2){ + int y; + int u; + int v; + y=(65481*rgb_row[4*x+2]+128553*rgb_row[4*x+1] + +24966*rgb_row[4*x+0]+4207500)/255000; + y_row[x]=OC_CLAMP255(y); + y=(65481*rgb_row[4*x+6]+128553*rgb_row[4*x+5] + +24966*rgb_row[4*x+4]+4207500)/255000; + y_row[x+1]=OC_CLAMP255(y); + u=(-16744*(rgb_row[4*x+2]+rgb_row[4*x+6]) + -32872*(rgb_row[4*x+1]+rgb_row[4*x+5]) + +49616*(rgb_row[4*x+0]+rgb_row[4*x+4])+29032005)/225930; + v=(78512*(rgb_row[4*x+2]+rgb_row[4*x+6]) + -65744*(rgb_row[4*x+1]+rgb_row[4*x+5]) + -12768*(rgb_row[4*x+0]+rgb_row[4*x+4])+45940035)/357510; + u_row[x>>1]=OC_CLAMP255(u); + v_row[x>>1]=OC_CLAMP255(v); + } + y_row+=_ycbcr[0].stride; + u_row+=_ycbcr[1].stride; + v_row+=_ycbcr[2].stride; + rgb_row+=cstride; + } + }break; + /*case TH_PF_444:*/ + default:{ + for(y=0;y<h;y++){ + for(x=0;x<w;x++){ + int y; + int u; + int v; + y=(65481*rgb_row[4*x+2]+128553*rgb_row[4*x+1] + +24966*rgb_row[4*x+0]+4207500)/255000; + u=(-33488*rgb_row[4*x+2]-65744*rgb_row[4*x+1] + +99232*rgb_row[4*x+0]+29032005)/225930; + v=(157024*rgb_row[4*x+2]-131488*rgb_row[4*x+1] + -25536*rgb_row[4*x+0]+45940035)/357510; + y_row[x]=OC_CLAMP255(y); + u_row[x]=OC_CLAMP255(u); + v_row[x]=OC_CLAMP255(v); + } + y_row+=_ycbcr[0].stride; + u_row+=_ycbcr[1].stride; + v_row+=_ycbcr[2].stride; + rgb_row+=cstride; + } + }break; + } + /*Finished. + Destroy the surface.*/ + cairo_surface_destroy(cs); + } +#endif + return 0; +} |