//////////////////////////////////////////////////////////////////////////// // **** WAVPACK **** // // Hybrid Lossless Wavefile Compressor // // Copyright (c) 1998 - 2006 Conifer Software. // // All Rights Reserved. // // Distributed under the BSD Software License (see license.txt) // //////////////////////////////////////////////////////////////////////////// // bits.c // This module provides utilities to support the BitStream structure which is // used to read and write all WavPack audio data streams. It also contains a // wrapper for the stream I/O functions and a set of functions dealing with // endian-ness, both for enhancing portability. Finally, a debug wrapper for // the malloc() system is provided. #include "wavpack.h" #include #include ////////////////////////// Bitstream functions //////////////////////////////// // Open the specified BitStream and associate with the specified buffer. static void bs_read (Bitstream *bs); void bs_open_read (Bitstream *bs, uchar *buffer_start, uchar *buffer_end, read_stream file, uint32_t file_bytes) { CLEAR (*bs); bs->buf = buffer_start; bs->end = buffer_end; if (file) { bs->ptr = bs->end - 1; bs->file_bytes = file_bytes; bs->file = file; } else bs->ptr = bs->buf - 1; bs->wrap = bs_read; } // This function is only called from the getbit() and getbits() macros when // the BitStream has been exhausted and more data is required. Sinve these // bistreams no longer access files, this function simple sets an error and // resets the buffer. static void bs_read (Bitstream *bs) { if (bs->file && bs->file_bytes) { uint32_t bytes_read, bytes_to_read = bs->end - bs->buf; if (bytes_to_read > bs->file_bytes) bytes_to_read = bs->file_bytes; bytes_read = bs->file (bs->buf, bytes_to_read); if (bytes_read) { bs->end = bs->buf + bytes_read; bs->file_bytes -= bytes_read; } else { memset (bs->buf, -1, bs->end - bs->buf); bs->error = 1; } } else bs->error = 1; if (bs->error) memset (bs->buf, -1, bs->end - bs->buf); bs->ptr = bs->buf; } /////////////////////// Endian Correction Routines //////////////////////////// void little_endian_to_native (void *data, char *format) { uchar *cp = (uchar *) data; int32_t temp; while (*format) { switch (*format) { case 'L': temp = cp [0] + ((int32_t) cp [1] << 8) + ((int32_t) cp [2] << 16) + ((int32_t) cp [3] << 24); * (int32_t *) cp = temp; cp += 4; break; case 'S': temp = cp [0] + (cp [1] << 8); * (short *) cp = (short) temp; cp += 2; break; default: if (isdigit (*format)) cp += *format - '0'; break; } format++; } } void native_to_little_endian (void *data, char *format) { uchar *cp = (uchar *) data; int32_t temp; while (*format) { switch (*format) { case 'L': temp = * (int32_t *) cp; *cp++ = (uchar) temp; *cp++ = (uchar) (temp >> 8); *cp++ = (uchar) (temp >> 16); *cp++ = (uchar) (temp >> 24); break; case 'S': temp = * (short *) cp; *cp++ = (uchar) temp; *cp++ = (uchar) (temp >> 8); break; default: if (isdigit (*format)) cp += *format - '0'; break; } format++; } }