jamulus/libs/celt/cc6_rangedec.c

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/* (C) 2001-2008 Timothy B. Terriberry
(C) 2008 Jean-Marc Valin */
/*
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of the Xiph.org Foundation nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "cc6_arch.h"
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#include "cc6_entdec.h"
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#include "cc6_mfrngcod.h"
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/*A range decoder.
This is an entropy decoder based upon \cite{Mar79}, which is itself a
rediscovery of the FIFO arithmetic code introduced by \cite{Pas76}.
It is very similar to arithmetic encoding, except that encoding is done with
digits in any base, instead of with bits, and so it is faster when using
larger bases (i.e.: a byte).
The author claims an average waste of $\frac{1}{2}\log_b(2b)$ bits, where $b$
is the base, longer than the theoretical optimum, but to my knowledge there
is no published justification for this claim.
This only seems true when using near-infinite precision arithmetic so that
the process is carried out with no rounding errors.
IBM (the author's employer) never sought to patent the idea, and to my
knowledge the algorithm is unencumbered by any patents, though its
performance is very competitive with proprietary arithmetic coding.
The two are based on very similar ideas, however.
An excellent description of implementation details is available at
http://www.arturocampos.com/ac_range.html
A recent work \cite{MNW98} which proposes several changes to arithmetic
encoding for efficiency actually re-discovers many of the principles
behind range encoding, and presents a good theoretical analysis of them.
@PHDTHESIS{Pas76,
author="Richard Clark Pasco",
title="Source coding algorithms for fast data compression",
school="Dept. of Electrical Engineering, Stanford University",
address="Stanford, CA",
month=May,
year=1976
}
@INPROCEEDINGS{Mar79,
author="Martin, G.N.N.",
title="Range encoding: an algorithm for removing redundancy from a digitised
message",
booktitle="Video & Data Recording Conference",
year=1979,
address="Southampton",
month=Jul
}
@ARTICLE{MNW98,
author="Alistair Moffat and Radford Neal and Ian H. Witten",
title="Arithmetic Coding Revisited",
journal="{ACM} Transactions on Information Systems",
year=1998,
volume=16,
number=3,
pages="256--294",
month=Jul,
URL="http://www.stanford.edu/class/ee398/handouts/papers/Moffat98ArithmCoding.pdf"
}*/
/*Gets the next byte of input.
After all the bytes in the current packet have been consumed, and the extra
end code returned if needed, this function will continue to return zero each
time it is called.
Return: The next byte of input.*/
static int cc6_ec_dec_in(cc6_ec_dec *_this){
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int ret;
ret=cc6_ec_byte_read1(_this->buf);
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if(ret<0){
ret=0;
/*Needed to keep oc_dec_tell() operating correctly.*/
cc6_ec_byte_adv1(_this->buf);
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}
return ret;
}
/*Normalizes the contents of dif and rng so that rng lies entirely in the
high-order symbol.*/
static __inline void cc6_ec_dec_normalize(cc6_ec_dec *_this){
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/*If the range is too small, rescale it and input some bits.*/
while(_this->rng<=cc6_EC_CODE_BOT){
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int sym;
_this->rng<<=cc6_EC_SYM_BITS;
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/*Use up the remaining bits from our last symbol.*/
sym=_this->rem<<cc6_EC_CODE_EXTRA&cc6_EC_SYM_MAX;
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/*Read the next value from the input.*/
_this->rem=cc6_ec_dec_in(_this);
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/*Take the rest of the bits we need from this new symbol.*/
sym|=_this->rem>>cc6_EC_SYM_BITS-cc6_EC_CODE_EXTRA;
_this->dif=(_this->dif<<cc6_EC_SYM_BITS)-sym&cc6_EC_CODE_MASK;
/*dif can never be larger than cc6_EC_CODE_TOP.
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This is equivalent to the slightly more readable:
if(_this->dif>cc6_EC_CODE_TOP)_this->dif-=cc6_EC_CODE_TOP;*/
_this->dif^=_this->dif&_this->dif-1&cc6_EC_CODE_TOP;
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}
}
void cc6_ec_dec_init(cc6_ec_dec *_this,cc6_ec_byte_buffer *_buf){
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_this->buf=_buf;
_this->rem=cc6_ec_dec_in(_this);
_this->rng=1U<<cc6_EC_CODE_EXTRA;
_this->dif=_this->rng-(_this->rem>>cc6_EC_SYM_BITS-cc6_EC_CODE_EXTRA);
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/*Normalize the interval.*/
cc6_ec_dec_normalize(_this);
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}
unsigned cc6_ec_decode(cc6_ec_dec *_this,unsigned _ft){
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unsigned s;
_this->nrm=_this->rng/_ft;
s=(unsigned)((_this->dif-1)/_this->nrm);
return _ft-cc6_EC_MINI(s+1,_ft);
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}
unsigned cc6_ec_decode_bin(cc6_ec_dec *_this,unsigned bits){
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unsigned s;
cc6_ec_uint32 ft;
ft = (cc6_ec_uint32)1<<bits;
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_this->nrm=_this->rng>>bits;
s=(unsigned)((_this->dif-1)/_this->nrm);
return ft-cc6_EC_MINI(s+1,ft);
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}
void cc6_ec_dec_update(cc6_ec_dec *_this,unsigned _fl,unsigned _fh,unsigned _ft){
cc6_ec_uint32 s;
s=cc6_IMUL32(_this->nrm,(_ft-_fh));
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_this->dif-=s;
_this->rng=_fl>0?cc6_IMUL32(_this->nrm,(_fh-_fl)):_this->rng-s;
cc6_ec_dec_normalize(_this);
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}
long cc6_ec_dec_tell(cc6_ec_dec *_this,int _b){
cc6_ec_uint32 r;
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int l;
long nbits;
nbits=(cc6_ec_byte_bytes(_this->buf)-(cc6_EC_CODE_BITS+cc6_EC_SYM_BITS-1)/cc6_EC_SYM_BITS)*
cc6_EC_SYM_BITS;
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/*To handle the non-integral number of bits still left in the encoder state,
we compute the number of bits of low that must be encoded to ensure that
the value is inside the range for any possible subsequent bits.
Note that this is subtly different than the actual value we would end the
stream with, which tries to make as many of the trailing bits zeros as
possible.*/
nbits+=cc6_EC_CODE_BITS;
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nbits<<=_b;
l=cc6_EC_ILOG(_this->rng);
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r=_this->rng>>l-16;
while(_b-->0){
int b;
r=r*r>>15;
b=(int)(r>>16);
l=l<<1|b;
r>>=b;
}
return nbits-l;
}
#if 0
int cc6_ec_dec_done(cc6_ec_dec *_this){
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unsigned low;
int ret;
/*Check to make sure we've used all the input bytes.
This ensures that no more ones would ever be inserted into the decoder.*/
if(_this->buf->ptr-cc6_ec_byte_get_buffer(_this->buf)<=
cc6_ec_byte_bytes(_this->buf)){
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return 0;
}
/*We compute the smallest finitely odd fraction that fits inside the current
range, and write that to the stream.
This is guaranteed to yield the smallest possible encoding.*/
/*TODO: Fix this line, as it is wrong.
It doesn't seem worth being able to make this check to do an extra
subtraction for every symbol decoded.*/
low=/*What we want: _this->top-_this->rng; What we have:*/_this->dif
if(low){
unsigned end;
end=cc6_EC_CODE_TOP;
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/*Ensure that the next free end is in the range.*/
if(end-low>=_this->rng){
unsigned msk;
msk=cc6_EC_CODE_TOP-1;
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do{
msk>>=1;
end=(low+msk)&~msk|msk+1;
}
while(end-low>=_this->rng);
}
/*The remaining input should have been the next free end.*/
return end-low!=_this->dif;
}
return 1;
}
#endif