ref: 983a1533c9698afec7d466aa5f83eb98ac34d9e9
dir: /libfaad/bits.c/
/* ** FAAD2 - Freeware Advanced Audio (AAC) Decoder including SBR decoding ** Copyright (C) 2003-2005 M. Bakker, Nero AG, http://www.nero.com ** ** 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 02111-1307, USA. ** ** Any non-GPL usage of this software or parts of this software is strictly ** forbidden. ** ** The "appropriate copyright message" mentioned in section 2c of the GPLv2 ** must read: "Code from FAAD2 is copyright (c) Nero AG, www.nero.com" ** ** Commercial non-GPL licensing of this software is possible. ** For more info contact Nero AG through [email protected]. ** ** $Id: bits.c,v 1.44 2007/11/01 12:33:29 menno Exp $ **/ #include "common.h" #include "structs.h" #include <stdlib.h> #include "bits.h" /* initialize buffer, call once before first getbits or showbits */ void faad_initbits(bitfile *ld, const void *_buffer, const uint32_t buffer_size) { uint32_t tmp; if (ld == NULL) return; // useless //memset(ld, 0, sizeof(bitfile)); if (buffer_size == 0 || _buffer == NULL) { ld->error = 1; return; } ld->buffer = _buffer; ld->buffer_size = buffer_size; ld->bytes_left = buffer_size; if (ld->bytes_left >= 4) { tmp = getdword((uint32_t*)ld->buffer); ld->bytes_left -= 4; } else { tmp = getdword_n((uint32_t*)ld->buffer, ld->bytes_left); ld->bytes_left = 0; } ld->bufa = tmp; if (ld->bytes_left >= 4) { tmp = getdword((uint32_t*)ld->buffer + 1); ld->bytes_left -= 4; } else { tmp = getdword_n((uint32_t*)ld->buffer + 1, ld->bytes_left); ld->bytes_left = 0; } ld->bufb = tmp; ld->start = (uint32_t*)ld->buffer; ld->tail = ((uint32_t*)ld->buffer + 2); ld->bits_left = 32; ld->error = 0; } void faad_endbits(bitfile *ld) { // void } uint32_t faad_get_processed_bits(bitfile *ld) { return (uint32_t)(8 * (4*(ld->tail - ld->start) - 4) - (ld->bits_left)); } uint8_t faad_byte_align(bitfile *ld) { int remainder = (32 - ld->bits_left) & 0x7; if (remainder) { faad_flushbits(ld, 8 - remainder); return (uint8_t)(8 - remainder); } return 0; } void faad_flushbits_ex(bitfile *ld, uint32_t bits) { uint32_t tmp; ld->bufa = ld->bufb; if (ld->bytes_left >= 4) { tmp = getdword(ld->tail); ld->bytes_left -= 4; } else { tmp = getdword_n(ld->tail, ld->bytes_left); ld->bytes_left = 0; } ld->bufb = tmp; ld->tail++; ld->bits_left += (32 - bits); //ld->bytes_left -= 4; // if (ld->bytes_left == 0) // ld->no_more_reading = 1; // if (ld->bytes_left < 0) // ld->error = 1; } /* rewind to beginning */ void faad_rewindbits(bitfile *ld) { uint32_t tmp; ld->bytes_left = ld->buffer_size; if (ld->bytes_left >= 4) { tmp = getdword((uint32_t*)&ld->start[0]); ld->bytes_left -= 4; } else { tmp = getdword_n((uint32_t*)&ld->start[0], ld->bytes_left); ld->bytes_left = 0; } ld->bufa = tmp; if (ld->bytes_left >= 4) { tmp = getdword((uint32_t*)&ld->start[1]); ld->bytes_left -= 4; } else { tmp = getdword_n((uint32_t*)&ld->start[1], ld->bytes_left); ld->bytes_left = 0; } ld->bufb = tmp; ld->bits_left = 32; ld->tail = &ld->start[2]; } /* reset to a certain point */ void faad_resetbits(bitfile *ld, int bits) { uint32_t tmp; int words = bits >> 5; int remainder = bits & 0x1F; ld->bytes_left = ld->buffer_size - words*4; if (ld->bytes_left >= 4) { tmp = getdword(&ld->start[words]); ld->bytes_left -= 4; } else { tmp = getdword_n(&ld->start[words], ld->bytes_left); ld->bytes_left = 0; } ld->bufa = tmp; if (ld->bytes_left >= 4) { tmp = getdword(&ld->start[words+1]); ld->bytes_left -= 4; } else { tmp = getdword_n(&ld->start[words+1], ld->bytes_left); ld->bytes_left = 0; } ld->bufb = tmp; ld->bits_left = 32 - remainder; ld->tail = &ld->start[words+2]; /* recheck for reading too many bytes */ ld->error = 0; // if (ld->bytes_left == 0) // ld->no_more_reading = 1; // if (ld->bytes_left < 0) // ld->error = 1; } uint8_t *faad_getbitbuffer(bitfile *ld, uint32_t bits DEBUGDEC) { int i; unsigned int temp; int bytes = bits >> 3; int remainder = bits & 0x7; uint8_t *buffer = (uint8_t*)faad_malloc((bytes+1)*sizeof(uint8_t)); for (i = 0; i < bytes; i++) { buffer[i] = (uint8_t)faad_getbits(ld, 8 DEBUGVAR(print,var,dbg)); } if (remainder) { temp = faad_getbits(ld, remainder DEBUGVAR(print,var,dbg)) << (8-remainder); buffer[bytes] = (uint8_t)temp; } return buffer; } #ifdef DRM /* return the original data buffer */ void *faad_origbitbuffer(bitfile *ld) { return (void*)ld->start; } /* return the original data buffer size */ uint32_t faad_origbitbuffer_size(bitfile *ld) { return ld->buffer_size; } #endif /* reversed bit reading routines, used for RVLC and HCR */ void faad_initbits_rev(bitfile *ld, void *buffer, uint32_t bits_in_buffer) { uint32_t tmp; int32_t index; ld->buffer_size = bit2byte(bits_in_buffer); index = (bits_in_buffer+31)/32 - 1; ld->start = (uint32_t*)buffer + index - 2; tmp = getdword((uint32_t*)buffer + index); ld->bufa = tmp; tmp = getdword((uint32_t*)buffer + index - 1); ld->bufb = tmp; ld->tail = (uint32_t*)buffer + index; ld->bits_left = bits_in_buffer % 32; if (ld->bits_left == 0) ld->bits_left = 32; ld->bytes_left = ld->buffer_size; ld->error = 0; } /* EOF */