/***************************************************************************** * dct.h: h264 encoder library ***************************************************************************** * Copyright (C) 2003 Laurent Aimar * $Id: dct.h,v 1.1 2004/06/03 19:27:06 fenrir Exp $ * * Authors: Laurent Aimar * * 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. *****************************************************************************/ #ifndef _DCT_H #define _DCT_H 1 /* the inverse of the scaling factors introduced by 8x8 fdct */ #define W(i) (i==0 ? FIX8(1.0000) :\ i==1 ? FIX8(0.8859) :\ i==2 ? FIX8(1.6000) :\ i==3 ? FIX8(0.9415) :\ i==4 ? FIX8(1.2651) :\ i==5 ? FIX8(1.1910) :0) static const int x264_dct8_weight_tab[64] = { W(0), W(3), W(4), W(3), W(0), W(3), W(4), W(3), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1), W(4), W(5), W(2), W(5), W(4), W(5), W(2), W(5), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1), W(0), W(3), W(4), W(3), W(0), W(3), W(4), W(3), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1), W(4), W(5), W(2), W(5), W(4), W(5), W(2), W(5), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1) }; #undef W /* inverse squared */ #define W(i) (i==0 ? FIX8(3.125) :\ i==1 ? FIX8(1.25) :\ i==2 ? FIX8(0.5) :0) static const int x264_dct4_weight2_tab[16] = { W(0), W(1), W(0), W(1), W(1), W(2), W(1), W(2), W(0), W(1), W(0), W(1), W(1), W(2), W(1), W(2) }; #undef W #define W(i) (i==0 ? FIX8(1.00000) :\ i==1 ? FIX8(0.78487) :\ i==2 ? FIX8(2.56132) :\ i==3 ? FIX8(0.88637) :\ i==4 ? FIX8(1.60040) :\ i==5 ? FIX8(1.41850) :0) static const int x264_dct8_weight2_tab[64] = { W(0), W(3), W(4), W(3), W(0), W(3), W(4), W(3), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1), W(4), W(5), W(2), W(5), W(4), W(5), W(2), W(5), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1), W(0), W(3), W(4), W(3), W(0), W(3), W(4), W(3), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1), W(4), W(5), W(2), W(5), W(4), W(5), W(2), W(5), W(3), W(1), W(5), W(1), W(3), W(1), W(5), W(1) }; #undef W extern int x264_dct4_weight2_zigzag[2][16]; // [2] = {frame, field} extern int x264_dct8_weight2_zigzag[2][64]; typedef struct { // pix1 stride = FENC_STRIDE // pix2 stride = FDEC_STRIDE // p_dst stride = FDEC_STRIDE void (*sub4x4_dct) ( int16_t dct[4][4], uint8_t *pix1, uint8_t *pix2 ); void (*add4x4_idct) ( uint8_t *p_dst, int16_t dct[4][4] ); void (*sub8x8_dct) ( int16_t dct[4][4][4], uint8_t *pix1, uint8_t *pix2 ); void (*add8x8_idct) ( uint8_t *p_dst, int16_t dct[4][4][4] ); void (*sub16x16_dct) ( int16_t dct[16][4][4], uint8_t *pix1, uint8_t *pix2 ); void (*add16x16_idct)( uint8_t *p_dst, int16_t dct[16][4][4] ); void (*sub8x8_dct8) ( int16_t dct[8][8], uint8_t *pix1, uint8_t *pix2 ); void (*add8x8_idct8) ( uint8_t *p_dst, int16_t dct[8][8] ); void (*sub16x16_dct8) ( int16_t dct[4][8][8], uint8_t *pix1, uint8_t *pix2 ); void (*add16x16_idct8)( uint8_t *p_dst, int16_t dct[4][8][8] ); void (*dct4x4dc) ( int16_t d[4][4] ); void (*idct4x4dc)( int16_t d[4][4] ); void (*dct2x2dc) ( int16_t d[2][2] ); void (*idct2x2dc)( int16_t d[2][2] ); } x264_dct_function_t; void x264_dct_init( int cpu, x264_dct_function_t *dctf ); void x264_dct_init_weights( void ); #endif