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227 lines
8.6 KiB
C
227 lines
8.6 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: mmxstate.c 17563 2010-10-25 17:40:54Z tterribe $
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********************************************************************/
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/*MMX acceleration of complete fragment reconstruction algorithm.
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Originally written by Rudolf Marek.*/
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#include <string.h>
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#include "x86int.h"
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#include "mmxloop.h"
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#if defined(OC_X86_ASM)
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void oc_state_frag_recon_mmx(const oc_theora_state *_state,ptrdiff_t _fragi,
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int _pli,ogg_int16_t _dct_coeffs[128],int _last_zzi,ogg_uint16_t _dc_quant){
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unsigned char *dst;
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ptrdiff_t frag_buf_off;
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int ystride;
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int refi;
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/*Apply the inverse transform.*/
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/*Special case only having a DC component.*/
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if(_last_zzi<2){
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/*Note that this value must be unsigned, to keep the __asm__ block from
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sign-extending it when it puts it in a register.*/
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ogg_uint16_t p;
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int i;
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/*We round this dequant product (and not any of the others) because there's
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no iDCT rounding.*/
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p=(ogg_int16_t)(_dct_coeffs[0]*(ogg_int32_t)_dc_quant+15>>5);
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/*Fill _dct_coeffs with p.*/
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__asm__ __volatile__(
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/*mm0=0000 0000 0000 AAAA*/
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"movd %[p],%%mm0\n\t"
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/*mm0=0000 0000 AAAA AAAA*/
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"punpcklwd %%mm0,%%mm0\n\t"
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/*mm0=AAAA AAAA AAAA AAAA*/
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"punpckldq %%mm0,%%mm0\n\t"
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:
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:[p]"r"((unsigned)p)
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);
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for(i=0;i<4;i++){
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__asm__ __volatile__(
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"movq %%mm0,"OC_MEM_OFFS(0x00,y)"\n\t"
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"movq %%mm0,"OC_MEM_OFFS(0x08,y)"\n\t"
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"movq %%mm0,"OC_MEM_OFFS(0x10,y)"\n\t"
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"movq %%mm0,"OC_MEM_OFFS(0x18,y)"\n\t"
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:[y]"=m"OC_ARRAY_OPERAND(ogg_int16_t,_dct_coeffs+64+16*i,16)
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);
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}
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}
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else{
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/*Dequantize the DC coefficient.*/
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_dct_coeffs[0]=(ogg_int16_t)(_dct_coeffs[0]*(int)_dc_quant);
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oc_idct8x8(_state,_dct_coeffs+64,_dct_coeffs,_last_zzi);
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}
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/*Fill in the target buffer.*/
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frag_buf_off=_state->frag_buf_offs[_fragi];
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refi=_state->frags[_fragi].refi;
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ystride=_state->ref_ystride[_pli];
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dst=_state->ref_frame_data[OC_FRAME_SELF]+frag_buf_off;
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if(refi==OC_FRAME_SELF)oc_frag_recon_intra_mmx(dst,ystride,_dct_coeffs+64);
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else{
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const unsigned char *ref;
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int mvoffsets[2];
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ref=_state->ref_frame_data[refi]+frag_buf_off;
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if(oc_state_get_mv_offsets(_state,mvoffsets,_pli,
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_state->frag_mvs[_fragi])>1){
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oc_frag_recon_inter2_mmx(dst,ref+mvoffsets[0],ref+mvoffsets[1],ystride,
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_dct_coeffs+64);
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}
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else oc_frag_recon_inter_mmx(dst,ref+mvoffsets[0],ystride,_dct_coeffs+64);
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}
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}
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/*We copy these entire function to inline the actual MMX routines so that we
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use only a single indirect call.*/
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void oc_loop_filter_init_mmx(signed char _bv[256],int _flimit){
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memset(_bv,_flimit,8);
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}
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/*Apply the loop filter to a given set of fragment rows in the given plane.
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The filter may be run on the bottom edge, affecting pixels in the next row of
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fragments, so this row also needs to be available.
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_bv: The bounding values array.
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_refi: The index of the frame buffer to filter.
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_pli: The color plane to filter.
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_fragy0: The Y coordinate of the first fragment row to filter.
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_fragy_end: The Y coordinate of the fragment row to stop filtering at.*/
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void oc_state_loop_filter_frag_rows_mmx(const oc_theora_state *_state,
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signed char _bv[256],int _refi,int _pli,int _fragy0,int _fragy_end){
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OC_ALIGN8(unsigned char ll[8]);
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const oc_fragment_plane *fplane;
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const oc_fragment *frags;
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const ptrdiff_t *frag_buf_offs;
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unsigned char *ref_frame_data;
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ptrdiff_t fragi_top;
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ptrdiff_t fragi_bot;
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ptrdiff_t fragi0;
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ptrdiff_t fragi0_end;
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int ystride;
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int nhfrags;
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memset(ll,_state->loop_filter_limits[_state->qis[0]],sizeof(ll));
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fplane=_state->fplanes+_pli;
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nhfrags=fplane->nhfrags;
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fragi_top=fplane->froffset;
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fragi_bot=fragi_top+fplane->nfrags;
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fragi0=fragi_top+_fragy0*(ptrdiff_t)nhfrags;
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fragi0_end=fragi0+(_fragy_end-_fragy0)*(ptrdiff_t)nhfrags;
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ystride=_state->ref_ystride[_pli];
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frags=_state->frags;
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frag_buf_offs=_state->frag_buf_offs;
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ref_frame_data=_state->ref_frame_data[_refi];
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/*The following loops are constructed somewhat non-intuitively on purpose.
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The main idea is: if a block boundary has at least one coded fragment on
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it, the filter is applied to it.
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However, the order that the filters are applied in matters, and VP3 chose
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the somewhat strange ordering used below.*/
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while(fragi0<fragi0_end){
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ptrdiff_t fragi;
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ptrdiff_t fragi_end;
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fragi=fragi0;
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fragi_end=fragi+nhfrags;
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while(fragi<fragi_end){
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if(frags[fragi].coded){
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unsigned char *ref;
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ref=ref_frame_data+frag_buf_offs[fragi];
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if(fragi>fragi0){
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OC_LOOP_FILTER_H(OC_LOOP_FILTER8_MMX,ref,ystride,ll);
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}
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if(fragi0>fragi_top){
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OC_LOOP_FILTER_V(OC_LOOP_FILTER8_MMX,ref,ystride,ll);
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}
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if(fragi+1<fragi_end&&!frags[fragi+1].coded){
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OC_LOOP_FILTER_H(OC_LOOP_FILTER8_MMX,ref+8,ystride,ll);
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}
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if(fragi+nhfrags<fragi_bot&&!frags[fragi+nhfrags].coded){
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OC_LOOP_FILTER_V(OC_LOOP_FILTER8_MMX,ref+(ystride<<3),ystride,ll);
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}
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}
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fragi++;
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}
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fragi0+=nhfrags;
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}
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}
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void oc_loop_filter_init_mmxext(signed char _bv[256],int _flimit){
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memset(_bv,~(_flimit<<1),8);
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}
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/*Apply the loop filter to a given set of fragment rows in the given plane.
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The filter may be run on the bottom edge, affecting pixels in the next row of
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fragments, so this row also needs to be available.
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_bv: The bounding values array.
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_refi: The index of the frame buffer to filter.
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_pli: The color plane to filter.
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_fragy0: The Y coordinate of the first fragment row to filter.
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_fragy_end: The Y coordinate of the fragment row to stop filtering at.*/
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void oc_state_loop_filter_frag_rows_mmxext(const oc_theora_state *_state,
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signed char _bv[256],int _refi,int _pli,int _fragy0,int _fragy_end){
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const oc_fragment_plane *fplane;
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const oc_fragment *frags;
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const ptrdiff_t *frag_buf_offs;
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unsigned char *ref_frame_data;
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ptrdiff_t fragi_top;
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ptrdiff_t fragi_bot;
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ptrdiff_t fragi0;
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ptrdiff_t fragi0_end;
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int ystride;
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int nhfrags;
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fplane=_state->fplanes+_pli;
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nhfrags=fplane->nhfrags;
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fragi_top=fplane->froffset;
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fragi_bot=fragi_top+fplane->nfrags;
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fragi0=fragi_top+_fragy0*(ptrdiff_t)nhfrags;
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fragi0_end=fragi_top+_fragy_end*(ptrdiff_t)nhfrags;
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ystride=_state->ref_ystride[_pli];
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frags=_state->frags;
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frag_buf_offs=_state->frag_buf_offs;
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ref_frame_data=_state->ref_frame_data[_refi];
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/*The following loops are constructed somewhat non-intuitively on purpose.
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The main idea is: if a block boundary has at least one coded fragment on
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it, the filter is applied to it.
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However, the order that the filters are applied in matters, and VP3 chose
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the somewhat strange ordering used below.*/
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while(fragi0<fragi0_end){
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ptrdiff_t fragi;
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ptrdiff_t fragi_end;
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fragi=fragi0;
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fragi_end=fragi+nhfrags;
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while(fragi<fragi_end){
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if(frags[fragi].coded){
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unsigned char *ref;
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ref=ref_frame_data+frag_buf_offs[fragi];
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if(fragi>fragi0){
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OC_LOOP_FILTER_H(OC_LOOP_FILTER8_MMXEXT,ref,ystride,_bv);
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}
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if(fragi0>fragi_top){
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OC_LOOP_FILTER_V(OC_LOOP_FILTER8_MMXEXT,ref,ystride,_bv);
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}
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if(fragi+1<fragi_end&&!frags[fragi+1].coded){
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OC_LOOP_FILTER_H(OC_LOOP_FILTER8_MMXEXT,ref+8,ystride,_bv);
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}
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if(fragi+nhfrags<fragi_bot&&!frags[fragi+nhfrags].coded){
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OC_LOOP_FILTER_V(OC_LOOP_FILTER8_MMXEXT,ref+(ystride<<3),ystride,_bv);
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}
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}
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fragi++;
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}
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fragi0+=nhfrags;
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}
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}
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#endif
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