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/***************************************************************************** * mc.c: h264 encoder library (Motion Compensation) ***************************************************************************** * Copyright (C) 2003 Laurent Aimar * $Id: mc.c,v 1.1 2004/06/03 19:27:07 fenrir Exp $ * * Authors: Eric Petit <titer@m0k.org> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA. *****************************************************************************/#include <stdlib.h>#include <stdio.h>#include <string.h>#include <stdint.h>#include <stdarg.h>#ifdef SYS_LINUX#include <altivec.h>#endif#include "x264.h"#include "common/mc.h"#include "common/clip1.h"#include "mc.h"#include "ppccommon.h"typedef void (*pf_mc_t)( uint8_t *src, int i_src, uint8_t *dst, int i_dst, int i_height );static inline int x264_tapfilter( uint8_t *pix, int i_pix_next ){ return pix[-2*i_pix_next] - 5*pix[-1*i_pix_next] + 20*(pix[0] + pix[1*i_pix_next]) - 5*pix[ 2*i_pix_next] + pix[ 3*i_pix_next];}static inline int x264_tapfilter1( uint8_t *pix ){ return pix[-2] - 5*pix[-1] + 20*(pix[0] + pix[1]) - 5*pix[ 2] + pix[ 3];}/* pixel_avg */static inline void pixel_avg_w4( uint8_t *dst, int i_dst, uint8_t *src1, int i_src1, uint8_t *src2, int i_src2, int i_height ){ int x, y; for( y = 0; y < i_height; y++ ) { for( x = 0; x < 4; x++ ) { dst[x] = ( src1[x] + src2[x] + 1 ) >> 1; } dst += i_dst; src1 += i_src1; src2 += i_src2; }}static inline void pixel_avg_w8( uint8_t *dst, int i_dst, uint8_t *src1, int i_src1, uint8_t *src2, int i_src2, int i_height ){ /* TODO - optimize */ pixel_avg_w4( &dst[0], i_dst, &src1[0], i_src1, &src2[0], i_src2, i_height ); pixel_avg_w4( &dst[4], i_dst, &src1[4], i_src1, &src2[4], i_src2, i_height );}static inline void pixel_avg_w16( uint8_t *dst, int i_dst, uint8_t *src1, int i_src1, uint8_t *src2, int i_src2, int i_height ){ int y; vec_u8_t src1v, src2v; PREP_LOAD; PREP_STORE16; for( y = 0; y < i_height; y++ ) { VEC_LOAD( src1, src1v, 16, vec_u8_t ); VEC_LOAD( src2, src2v, 16, vec_u8_t ); src1v = vec_avg( src1v, src2v ); VEC_STORE16( src1v, dst ); dst += i_dst; src1 += i_src1; src2 += i_src2; }}/* mc_copy: plain c */#define MC_COPY( name, a ) \static void name( uint8_t *src, int i_src, \ uint8_t *dst, int i_dst, int i_height ) \{ \ int y; \ for( y = 0; y < i_height; y++ ) \ { \ memcpy( dst, src, a ); \ src += i_src; \ dst += i_dst; \ } \}MC_COPY( mc_copy_w4, 4 )MC_COPY( mc_copy_w8, 8 )MC_COPY( mc_copy_w16, 16 )void mc_luma_altivec( uint8_t *src[4], int i_src_stride, uint8_t *dst, int i_dst_stride, int mvx, int mvy, int i_width, int i_height ){ uint8_t *src1, *src2; /* todo : fixme... */ int correction = (((mvx&3) == 3 && (mvy&3) == 1) || ((mvx&3) == 1 && (mvy&3) == 3)) ? 1:0; int hpel1x = mvx>>1; int hpel1y = (mvy+1-correction)>>1; int filter1 = (hpel1x & 1) + ( (hpel1y & 1) << 1 ); src1 = src[filter1] + (hpel1y >> 1) * i_src_stride + (hpel1x >> 1); if ( (mvx|mvy) & 1 ) /* qpel interpolation needed */ { int hpel2x = (mvx+1)>>1; int hpel2y = (mvy+correction)>>1; int filter2 = (hpel2x & 1) + ( (hpel2y & 1) <<1 ); src2 = src[filter2] + (hpel2y >> 1) * i_src_stride + (hpel2x >> 1); switch(i_width) { case 4: pixel_avg_w4( dst, i_dst_stride, src1, i_src_stride, src2, i_src_stride, i_height ); break; case 8: pixel_avg_w8( dst, i_dst_stride, src1, i_src_stride, src2, i_src_stride, i_height ); break; case 16: default: pixel_avg_w16( dst, i_dst_stride, src1, i_src_stride, src2, i_src_stride, i_height ); } } else { switch(i_width) { case 4: mc_copy_w4( src1, i_src_stride, dst, i_dst_stride, i_height ); break; case 8: mc_copy_w8( src1, i_src_stride, dst, i_dst_stride, i_height ); break; case 16: mc_copy_w16( src1, i_src_stride, dst, i_dst_stride, i_height ); break; } }}uint8_t *get_ref_altivec( uint8_t *src[4], int i_src_stride, uint8_t *dst, int * i_dst_stride, int mvx, int mvy, int i_width, int i_height ){ uint8_t *src1, *src2; /* todo : fixme... */ int correction = (((mvx&3) == 3 && (mvy&3) == 1) || ((mvx&3) == 1 && (mvy&3) == 3)) ? 1:0; int hpel1x = mvx>>1; int hpel1y = (mvy+1-correction)>>1; int filter1 = (hpel1x & 1) + ( (hpel1y & 1) << 1 ); src1 = src[filter1] + (hpel1y >> 1) * i_src_stride + (hpel1x >> 1); if ( (mvx|mvy) & 1 ) /* qpel interpolation needed */ { int hpel2x = (mvx+1)>>1; int hpel2y = (mvy+correction)>>1; int filter2 = (hpel2x & 1) + ( (hpel2y & 1) <<1 ); src2 = src[filter2] + (hpel2y >> 1) * i_src_stride + (hpel2x >> 1); switch(i_width) { case 4: pixel_avg_w4( dst, *i_dst_stride, src1, i_src_stride, src2, i_src_stride, i_height ); break; case 8: pixel_avg_w8( dst, *i_dst_stride, src1, i_src_stride, src2, i_src_stride, i_height ); break; case 16: default: pixel_avg_w16( dst, *i_dst_stride, src1, i_src_stride, src2, i_src_stride, i_height ); } return dst; } else { *i_dst_stride = i_src_stride; return src1; }}static void mc_chroma_c( uint8_t *src, int i_src_stride, uint8_t *dst, int i_dst_stride, int mvx, int mvy, int i_width, int i_height ){ uint8_t *srcp; int x, y; int d8x = mvx & 0x07; int d8y = mvy & 0x07; DECLARE_ALIGNED( uint16_t, coeff[4], 16 ); coeff[0] = (8-d8x)*(8-d8y); coeff[1] = d8x *(8-d8y); coeff[2] = (8-d8x)*d8y; coeff[3] = d8x *d8y; src += (mvy >> 3) * i_src_stride + (mvx >> 3); srcp = &src[i_src_stride]; /* TODO: optimize */ for( y = 0; y < i_height; y++ ) { for( x = 0; x < i_width; x++ ) { dst[x] = ( coeff[0]*src[x] + coeff[1]*src[x+1] + coeff[2]*srcp[x] + coeff[3]*srcp[x+1] + 32 ) >> 6; } dst += i_dst_stride; src = srcp; srcp += i_src_stride; }}#define DO_PROCESS(a) \ src##a##v_16 = vec_u8_to_u16( src##a##v_8 ); \ src##a##v_16 = vec_mladd( coeff##a##v, src##a##v_16, zero_u16v ); \ dstv_16 = vec_add( dstv_16, src##a##v_16 )static void mc_chroma_altivec_4xh( uint8_t *src, int i_src_stride, uint8_t *dst, int i_dst_stride, int mvx, int mvy, int i_height ){ uint8_t *srcp; int y; int d8x = mvx & 0x07; int d8y = mvy & 0x07; DECLARE_ALIGNED( uint16_t, coeff[4], 16 ); coeff[0] = (8-d8x)*(8-d8y); coeff[1] = d8x *(8-d8y); coeff[2] = (8-d8x)*d8y; coeff[3] = d8x *d8y; src += (mvy >> 3) * i_src_stride + (mvx >> 3); srcp = &src[i_src_stride]; LOAD_ZERO; PREP_LOAD; PREP_STORE4; vec_u16_t coeff0v, coeff1v, coeff2v, coeff3v; vec_u8_t src0v_8, src1v_8, src2v_8, src3v_8; vec_u16_t src0v_16, src1v_16, src2v_16, src3v_16; vec_u8_t dstv_8; vec_u16_t dstv_16; vec_u8_t permv; vec_u16_t shiftv; vec_u16_t k32v; coeff0v = vec_ld( 0, coeff ); coeff3v = vec_splat( coeff0v, 3 ); coeff2v = vec_splat( coeff0v, 2 ); coeff1v = vec_splat( coeff0v, 1 ); coeff0v = vec_splat( coeff0v, 0 ); k32v = vec_sl( vec_splat_u16( 1 ), vec_splat_u16( 5 ) ); permv = vec_lvsl( 0, (uint8_t *) 1 ); shiftv = vec_splat_u16( 6 ); VEC_LOAD( src, src2v_8, 5, vec_u8_t ); src3v_8 = vec_perm( src2v_8, src2v_8, permv ); for( y = 0; y < i_height; y++ ) { src0v_8 = src2v_8; src1v_8 = src3v_8; VEC_LOAD( srcp, src2v_8, 5, vec_u8_t ); src3v_8 = vec_perm( src2v_8, src2v_8, permv ); dstv_16 = k32v; DO_PROCESS( 0 ); DO_PROCESS( 1 ); DO_PROCESS( 2 ); DO_PROCESS( 3 ); dstv_16 = vec_sr( dstv_16, shiftv ); dstv_8 = vec_u16_to_u8( dstv_16 ); VEC_STORE4( dstv_8, dst ); dst += i_dst_stride; srcp += i_src_stride; }}static void mc_chroma_altivec_8xh( uint8_t *src, int i_src_stride, uint8_t *dst, int i_dst_stride, int mvx, int mvy, int i_height ){ uint8_t *srcp; int y; int d8x = mvx & 0x07; int d8y = mvy & 0x07; DECLARE_ALIGNED( uint16_t, coeff[4], 16 ); coeff[0] = (8-d8x)*(8-d8y); coeff[1] = d8x *(8-d8y); coeff[2] = (8-d8x)*d8y; coeff[3] = d8x *d8y; src += (mvy >> 3) * i_src_stride + (mvx >> 3); srcp = &src[i_src_stride]; LOAD_ZERO; PREP_LOAD; PREP_STORE8; vec_u16_t coeff0v, coeff1v, coeff2v, coeff3v; vec_u8_t src0v_8, src1v_8, src2v_8, src3v_8; vec_u16_t src0v_16, src1v_16, src2v_16, src3v_16; vec_u8_t dstv_8; vec_u16_t dstv_16; vec_u8_t permv; vec_u16_t shiftv; vec_u16_t k32v; coeff0v = vec_ld( 0, coeff ); coeff3v = vec_splat( coeff0v, 3 ); coeff2v = vec_splat( coeff0v, 2 ); coeff1v = vec_splat( coeff0v, 1 ); coeff0v = vec_splat( coeff0v, 0 ); k32v = vec_sl( vec_splat_u16( 1 ), vec_splat_u16( 5 ) ); permv = vec_lvsl( 0, (uint8_t *) 1 ); shiftv = vec_splat_u16( 6 ); VEC_LOAD( src, src2v_8, 9, vec_u8_t ); src3v_8 = vec_perm( src2v_8, src2v_8, permv ); for( y = 0; y < i_height; y++ ) { src0v_8 = src2v_8; src1v_8 = src3v_8; VEC_LOAD( srcp, src2v_8, 9, vec_u8_t ); src3v_8 = vec_perm( src2v_8, src2v_8, permv ); dstv_16 = k32v; DO_PROCESS( 0 ); DO_PROCESS( 1 ); DO_PROCESS( 2 ); DO_PROCESS( 3 ); dstv_16 = vec_sr( dstv_16, shiftv ); dstv_8 = vec_u16_to_u8( dstv_16 ); VEC_STORE8( dstv_8, dst ); dst += i_dst_stride; srcp += i_src_stride; }}static void mc_chroma_altivec( uint8_t *src, int i_src_stride, uint8_t *dst, int i_dst_stride, int mvx, int mvy, int i_width, int i_height ){ if( i_width == 8 ) { mc_chroma_altivec_8xh( src, i_src_stride, dst, i_dst_stride, mvx, mvy, i_height ); return; } if( i_width == 4 ) { mc_chroma_altivec_4xh( src, i_src_stride, dst, i_dst_stride, mvx, mvy, i_height ); return; } mc_chroma_c( src, i_src_stride, dst, i_dst_stride, mvx, mvy, i_width, i_height );}void x264_mc_altivec_init( x264_mc_functions_t *pf ){ pf->mc_luma = mc_luma_altivec; pf->get_ref = get_ref_altivec; pf->mc_chroma = mc_chroma_altivec;}⌨️ 快捷键说明
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