/* * quantize_pvt include file * * Copyright (c) 1999 Takehiro TOMINAGA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #ifndef LAME_QUANTIZE_PVT_H #define LAME_QUANTIZE_PVT_H #define IXMAX_VAL 8206 /* ix always <= 8191+15. see count_bits() */ /* buggy Winamp decoder cannot handle values > 8191 */ /* #define IXMAX_VAL 8191 */ #define PRECALC_SIZE (IXMAX_VAL+2) extern const int nr_of_sfb_block[6][3][4]; extern const int pretab[SBMAX_l]; extern const int slen1_tab[16]; extern const int slen2_tab[16]; extern const scalefac_struct sfBandIndex[9]; extern FLOAT pow43[PRECALC_SIZE]; #ifdef TAKEHIRO_IEEE754_HACK extern FLOAT adj43asm[PRECALC_SIZE]; #else extern FLOAT adj43[PRECALC_SIZE]; #endif #define Q_MAX (256+1) #define Q_MAX2 116 /* minimum possible number of -cod_info->global_gain + ((scalefac[] + (cod_info->preflag ? pretab[sfb] : 0)) << (cod_info->scalefac_scale + 1)) + cod_info->subblock_gain[cod_info->window[sfb]] * 8; for long block, 0+((15+3)<<2) = 18*4 = 72 for short block, 0+(15<<2)+7*8 = 15*4+56 = 116 */ extern FLOAT pow20[Q_MAX + Q_MAX2 + 1]; extern FLOAT ipow20[Q_MAX]; typedef struct calc_noise_result_t { FLOAT over_noise; /* sum of quantization noise > masking */ FLOAT tot_noise; /* sum of all quantization noise */ FLOAT max_noise; /* max quantization noise */ int over_count; /* number of quantization noise > masking */ int over_SSD; /* SSD-like cost of distorted bands */ int bits; } calc_noise_result; /** * allows re-use of previously * computed noise values */ typedef struct calc_noise_data_t { int global_gain; int sfb_count1; int step[39]; FLOAT noise[39]; FLOAT noise_log[39]; } calc_noise_data; int on_pe(lame_internal_flags * gfc, const FLOAT pe[2][2], int targ_bits[2], int mean_bits, int gr, int cbr); void reduce_side(int targ_bits[2], FLOAT ms_ener_ratio, int mean_bits, int max_bits); void iteration_init(lame_internal_flags * gfc); int calc_xmin(lame_internal_flags const *gfc, III_psy_ratio const *const ratio, gr_info * const cod_info, FLOAT * l3_xmin); int calc_noise(const gr_info * const cod_info, const FLOAT * l3_xmin, FLOAT * distort, calc_noise_result * const res, calc_noise_data * prev_noise); void set_frame_pinfo(lame_internal_flags * gfc, const III_psy_ratio ratio[2][2]); /* takehiro.c */ int count_bits(lame_internal_flags const *const gfc, const FLOAT * const xr, gr_info * const cod_info, calc_noise_data * prev_noise); int noquant_count_bits(lame_internal_flags const *const gfc, gr_info * const cod_info, calc_noise_data * prev_noise); void best_huffman_divide(const lame_internal_flags * const gfc, gr_info * const cod_info); void best_scalefac_store(const lame_internal_flags * gfc, const int gr, const int ch, III_side_info_t * const l3_side); int scale_bitcount(const lame_internal_flags * gfc, gr_info * cod_info); void huffman_init(lame_internal_flags * const gfc); void init_xrpow_core_init(lame_internal_flags * const gfc); FLOAT athAdjust(FLOAT a, FLOAT x, FLOAT athFloor, float ATHfixpoint); #define LARGE_BITS 100000 #endif /* LAME_QUANTIZE_PVT_H */