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trle_.h
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trle_.h
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/**
Copyright (C) powturbo 2015-2023
SPDX-License-Identifier: GPL v2 License
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.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
- email : powturbo [AT] gmail.com
- github : https://github.com/powturbo
- homepage : https://sites.google.com/site/powturbo/
- twitter : https://twitter.com/powturbo
TurboRLE - "Most efficient and fastest Run Length Encoding"
**/
//------------------------- Variable Byte ( see https://github.com/powturbo/TurboPFor )-----------------------------------------------------
#include "include_/conf.h"
#define TMIN 3
#define VL_SIZE 32
#define VL_MAX 0xff
#define VL_B2 4
#define VL_B3 3
#define VL_BA3 (VL_MAX - (VL_SIZE/8 - 3))
#define VL_BA2 (VL_BA3 - (1<<VL_B3))
#define VL_OFS1 (VL_BA2 - (1<<VL_B2))
#define VL_OFS2 (VL_OFS1 + (1 << ( 8+VL_B2)))
#define VL_OFS3 (VL_OFS2 + (1 << (16+VL_B3)))
#define _vlput32(_op_, _x_, _act_) {\
if(likely((_x_) < VL_OFS1)){ *_op_++ = (_x_); _act_;}\
else if ((_x_) < VL_OFS2) { ctou16(_op_) = bswap16((VL_OFS1<<8)+((_x_)-VL_OFS1)); _op_ += 2; _act_;}\
else if ((_x_) < VL_OFS3) { *_op_++ = VL_BA2 + (((_x_) -= VL_OFS2) >> 16); ctou16(_op_) = (_x_); _op_ += 2; _act_;}\
else { unsigned _b = (bsr32((_x_))+7)/8; *_op_++ = VL_BA3 + (_b - 3); ctou32(_op_) = (_x_); _op_ += _b; _act_;}\
}
#define _vlget32(_ip_, _x_, _act_) do { _x_ = *_ip_++;\
if(likely(_x_ < VL_OFS1)) { _act_ ;}\
else if(likely(_x_ < VL_BA2)) { _x_ = ((_x_<<8) + (*_ip_)) + (VL_OFS1 - (VL_OFS1 << 8)); _ip_++; _act_;} \
else if(likely(_x_ < VL_BA3)) { _x_ = ctou16(_ip_) + ((_x_ - VL_BA2 ) << 16) + VL_OFS2; _ip_ += 2; _act_;}\
else { unsigned _b = _x_-VL_BA3; _x_ = ctou32(_ip_) & ((1u << 8 * _b << 24) - 1); _ip_ += 3 + _b; _act_;}\
} while(0)
#define vlput32(_op_, _x_) { register unsigned _x = _x_; _vlput32(_op_, _x, ;); }
#define vlget32(_ip_, _x_) _vlget32(_ip_, _x_, ;)
#define vlzput(_op_, _x_, _m_, _rmap_) do { if(unlikely((_x_) < _m_)) *_op_++ = _rmap_[_x_]; else { unsigned _xi = (_x_) - _m_; *_op_++ = _rmap_[_m_]; vlput32(_op_, _xi); } } while(0)
#define vlzget(_ip_, _x_, _m_, _e_) { _x_ = _e_; if(unlikely(_x_ == _m_)) { vlget32(_ip_,_x_ ); _x_+=_m_; } }