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https://github.com/Q3Rally-Team/q3rally.git
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119 lines
5.1 KiB
C
119 lines
5.1 KiB
C
/********************************************************************
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* *
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* THIS FILE IS PART OF THE OggTheora SOFTWARE CODEC SOURCE CODE. *
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* USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS *
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* GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE *
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* IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. *
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* *
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* THE Theora SOURCE CODE IS COPYRIGHT (C) 2002-2009 *
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* by the Xiph.Org Foundation and contributors http://www.xiph.org/ *
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* *
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********************************************************************
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function:
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last mod: $Id: quant.c 16503 2009-08-22 18:14:02Z giles $
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********************************************************************/
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#include <stdlib.h>
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#include <string.h>
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#include <ogg/ogg.h>
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#include "quant.h"
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#include "decint.h"
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static const unsigned OC_DC_QUANT_MIN[2]={4<<2,8<<2};
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static const unsigned OC_AC_QUANT_MIN[2]={2<<2,4<<2};
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/*Initializes the dequantization tables from a set of quantizer info.
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Currently the dequantizer (and elsewhere enquantizer) tables are expected to
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be initialized as pointing to the storage reserved for them in the
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oc_theora_state (resp. oc_enc_ctx) structure.
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If some tables are duplicates of others, the pointers will be adjusted to
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point to a single copy of the tables, but the storage for them will not be
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freed.
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If you're concerned about the memory footprint, the obvious thing to do is
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to move the storage out of its fixed place in the structures and allocate
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it on demand.
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However, a much, much better option is to only store the quantization
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matrices being used for the current frame, and to recalculate these as the
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qi values change between frames (this is what VP3 did).*/
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void oc_dequant_tables_init(ogg_uint16_t *_dequant[64][3][2],
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int _pp_dc_scale[64],const th_quant_info *_qinfo){
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/*Coding mode: intra or inter.*/
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int qti;
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/*Y', C_b, C_r*/
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int pli;
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for(qti=0;qti<2;qti++)for(pli=0;pli<3;pli++){
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/*Quality index.*/
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int qi;
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/*Range iterator.*/
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int qri;
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for(qi=0,qri=0;qri<=_qinfo->qi_ranges[qti][pli].nranges;qri++){
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th_quant_base base;
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ogg_uint32_t q;
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int qi_start;
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int qi_end;
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memcpy(base,_qinfo->qi_ranges[qti][pli].base_matrices[qri],
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sizeof(base));
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qi_start=qi;
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if(qri==_qinfo->qi_ranges[qti][pli].nranges)qi_end=qi+1;
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else qi_end=qi+_qinfo->qi_ranges[qti][pli].sizes[qri];
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/*Iterate over quality indicies in this range.*/
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for(;;){
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ogg_uint32_t qfac;
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int zzi;
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int ci;
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/*In the original VP3.2 code, the rounding offset and the size of the
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dead zone around 0 were controlled by a "sharpness" parameter.
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The size of our dead zone is now controlled by the per-coefficient
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quality thresholds returned by our HVS module.
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We round down from a more accurate value when the quality of the
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reconstruction does not fall below our threshold and it saves bits.
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Hence, all of that VP3.2 code is gone from here, and the remaining
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floating point code has been implemented as equivalent integer code
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with exact precision.*/
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qfac=(ogg_uint32_t)_qinfo->dc_scale[qi]*base[0];
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/*For postprocessing, not dequantization.*/
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if(_pp_dc_scale!=NULL)_pp_dc_scale[qi]=(int)(qfac/160);
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/*Scale DC the coefficient from the proper table.*/
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q=(qfac/100)<<2;
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q=OC_CLAMPI(OC_DC_QUANT_MIN[qti],q,OC_QUANT_MAX);
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_dequant[qi][pli][qti][0]=(ogg_uint16_t)q;
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/*Now scale AC coefficients from the proper table.*/
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for(zzi=1;zzi<64;zzi++){
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q=((ogg_uint32_t)_qinfo->ac_scale[qi]*base[OC_FZIG_ZAG[zzi]]/100)<<2;
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q=OC_CLAMPI(OC_AC_QUANT_MIN[qti],q,OC_QUANT_MAX);
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_dequant[qi][pli][qti][zzi]=(ogg_uint16_t)q;
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}
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/*If this is a duplicate of a previous matrix, use that instead.
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This simple check helps us improve cache coherency later.*/
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{
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int dupe;
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int qtj;
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int plj;
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dupe=0;
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for(qtj=0;qtj<=qti;qtj++){
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for(plj=0;plj<(qtj<qti?3:pli);plj++){
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if(!memcmp(_dequant[qi][pli][qti],_dequant[qi][plj][qtj],
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sizeof(oc_quant_table))){
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dupe=1;
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break;
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}
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}
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if(dupe)break;
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}
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if(dupe)_dequant[qi][pli][qti]=_dequant[qi][plj][qtj];
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}
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if(++qi>=qi_end)break;
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/*Interpolate the next base matrix.*/
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for(ci=0;ci<64;ci++){
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base[ci]=(unsigned char)(
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(2*((qi_end-qi)*_qinfo->qi_ranges[qti][pli].base_matrices[qri][ci]+
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(qi-qi_start)*_qinfo->qi_ranges[qti][pli].base_matrices[qri+1][ci])
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+_qinfo->qi_ranges[qti][pli].sizes[qri])/
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(2*_qinfo->qi_ranges[qti][pli].sizes[qri]));
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}
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}
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}
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}
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}
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