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/* ******************************************************************
FSE : Finite State Entropy coder
Copyright ( C ) 2013 - 2015 , Yann Collet .
BSD 2 - Clause License ( http : //www.opensource.org/licenses/bsd-license.php)
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 .
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 COPYRIGHT
OWNER 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 .
You can contact the author at :
- FSE source repository : https : //github.com/Cyan4973/FiniteStateEntropy
- Public forum : https : //groups.google.com/forum/#!forum/lz4c
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifndef FSE_COMMONDEFS_ONLY
/****************************************************************
* Tuning parameters
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/* MEMORY_USAGE :
* Memory usage formula : N - > 2 ^ N Bytes ( examples : 10 - > 1 KB ; 12 - > 4 KB ; 16 - > 64 KB ; 20 - > 1 MB ; etc . )
* Increasing memory usage improves compression ratio
* Reduced memory usage can improve speed , due to cache effect
* Recommended max value is 14 , for 16 KB , which nicely fits into Intel x86 L1 cache */
# define FSE_MAX_MEMORY_USAGE 14
# define FSE_DEFAULT_MEMORY_USAGE 13
/* FSE_MAX_SYMBOL_VALUE :
* Maximum symbol value authorized .
* Required for proper stack allocation */
# define FSE_MAX_SYMBOL_VALUE 255
/****************************************************************
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* template functions type & suffix
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define FSE_FUNCTION_TYPE BYTE
# define FSE_FUNCTION_EXTENSION
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/****************************************************************
* Byte symbol type
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
typedef struct
{
unsigned short newState ;
unsigned char symbol ;
unsigned char nbBits ;
} FSE_decode_t ; /* size == U32 */
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# endif /* !FSE_COMMONDEFS_ONLY */
/****************************************************************
* Compiler specifics
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifdef _MSC_VER /* Visual Studio */
# define FORCE_INLINE static __forceinline
# include <intrin.h> /* For Visual 2005 */
# pragma warning(disable : 4127) /* disable: C4127: conditional expression is constant */
# pragma warning(disable : 4214) /* disable: C4214: non-int bitfields */
# else
# define GCC_VERSION (__GNUC__ * 100 + __GNUC_MINOR__)
# ifdef __GNUC__
# define FORCE_INLINE static inline __attribute__((always_inline))
# else
# define FORCE_INLINE static inline
# endif
# endif
/****************************************************************
* Includes
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include <stdlib.h> /* malloc, free, qsort */
# include <string.h> /* memcpy, memset */
# include <stdio.h> /* printf (debug) */
# include "fse_static.h"
# ifndef MEM_ACCESS_MODULE
# define MEM_ACCESS_MODULE
/****************************************************************
* Basic Types
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# if defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L /* C99 */
# include <stdint.h>
typedef uint8_t BYTE ;
typedef uint16_t U16 ;
typedef int16_t S16 ;
typedef uint32_t U32 ;
typedef int32_t S32 ;
typedef uint64_t U64 ;
typedef int64_t S64 ;
# else
typedef unsigned char BYTE ;
typedef unsigned short U16 ;
typedef signed short S16 ;
typedef unsigned int U32 ;
typedef signed int S32 ;
typedef unsigned long long U64 ;
typedef signed long long S64 ;
# endif
# endif /* MEM_ACCESS_MODULE */
/****************************************************************
* Memory I / O
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/* FSE_FORCE_MEMORY_ACCESS
* By default , access to unaligned memory is controlled by ` memcpy ( ) ` , which is safe and portable .
* Unfortunately , on some target / compiler combinations , the generated assembly is sub - optimal .
* The below switch allow to select different access method for improved performance .
* Method 0 ( default ) : use ` memcpy ( ) ` . Safe and portable .
* Method 1 : ` __packed ` statement . It depends on compiler extension ( ie , not portable ) .
* This method is safe if your compiler supports it , and * generally * as fast or faster than ` memcpy ` .
* Method 2 : direct access . This method is portable but violate C standard .
* It can generate buggy code on targets generating assembly depending on alignment .
* But in some circumstances , it ' s the only known way to get the most performance ( ie GCC + ARMv6 )
* See http : //fastcompression.blogspot.fr/2015/08/accessing-unaligned-memory.html for details.
* Prefer these methods in priority order ( 0 > 1 > 2 )
*/
# ifndef FSE_FORCE_MEMORY_ACCESS /* can be defined externally, on command line for example */
# if defined(__GNUC__) && ( defined(__ARM_ARCH_6__) || defined(__ARM_ARCH_6J__) || defined(__ARM_ARCH_6K__) || defined(__ARM_ARCH_6Z__) || defined(__ARM_ARCH_6ZK__) || defined(__ARM_ARCH_6T2__) )
# define FSE_FORCE_MEMORY_ACCESS 2
# elif defined(__INTEL_COMPILER) || \
( defined ( __GNUC__ ) & & ( defined ( __ARM_ARCH_7__ ) | | defined ( __ARM_ARCH_7A__ ) | | defined ( __ARM_ARCH_7R__ ) | | defined ( __ARM_ARCH_7M__ ) | | defined ( __ARM_ARCH_7S__ ) ) )
# define FSE_FORCE_MEMORY_ACCESS 1
# endif
# endif
static unsigned FSE_32bits ( void )
{
return sizeof ( void * ) = = 4 ;
}
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static unsigned FSE_isLittleEndian ( void )
{
const union { U32 i ; BYTE c [ 4 ] ; } one = { 1 } ; /* don't use static : performance detrimental */
return one . c [ 0 ] ;
}
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# if defined(FSE_FORCE_MEMORY_ACCESS) && (FSE_FORCE_MEMORY_ACCESS==2)
static U16 FSE_read16 ( const void * memPtr ) { return * ( const U16 * ) memPtr ; }
static U32 FSE_read32 ( const void * memPtr ) { return * ( const U32 * ) memPtr ; }
static U64 FSE_read64 ( const void * memPtr ) { return * ( const U64 * ) memPtr ; }
static void FSE_write16 ( void * memPtr , U16 value ) { * ( U16 * ) memPtr = value ; }
static void FSE_write32 ( void * memPtr , U32 value ) { * ( U32 * ) memPtr = value ; }
static void FSE_write64 ( void * memPtr , U64 value ) { * ( U64 * ) memPtr = value ; }
# elif defined(FSE_FORCE_MEMORY_ACCESS) && (FSE_FORCE_MEMORY_ACCESS==1)
/* __pack instructions are safer, but compiler specific, hence potentially problematic for some compilers */
/* currently only defined for gcc and icc */
typedef union { U16 u16 ; U32 u32 ; U64 u64 ; } __attribute__ ( ( packed ) ) unalign ;
static U16 FSE_read16 ( const void * ptr ) { return ( ( const unalign * ) ptr ) - > u16 ; }
static U32 FSE_read32 ( const void * ptr ) { return ( ( const unalign * ) ptr ) - > u32 ; }
static U64 FSE_read64 ( const void * ptr ) { return ( ( const unalign * ) ptr ) - > u64 ; }
static void FSE_write16 ( void * memPtr , U16 value ) { ( ( unalign * ) memPtr ) - > u16 = value ; }
static void FSE_write32 ( void * memPtr , U32 value ) { ( ( unalign * ) memPtr ) - > u32 = value ; }
static void FSE_write64 ( void * memPtr , U64 value ) { ( ( unalign * ) memPtr ) - > u64 = value ; }
# else
static U16 FSE_read16 ( const void * memPtr )
{
U16 val ; memcpy ( & val , memPtr , sizeof ( val ) ) ; return val ;
}
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static U32 FSE_read32 ( const void * memPtr )
{
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U32 val ; memcpy ( & val , memPtr , sizeof ( val ) ) ; return val ;
}
static U64 FSE_read64 ( const void * memPtr )
{
U64 val ; memcpy ( & val , memPtr , sizeof ( val ) ) ; return val ;
}
static void FSE_write16 ( void * memPtr , U16 value )
{
memcpy ( memPtr , & value , sizeof ( value ) ) ;
}
static void FSE_write32 ( void * memPtr , U32 value )
{
memcpy ( memPtr , & value , sizeof ( value ) ) ;
}
static void FSE_write64 ( void * memPtr , U64 value )
{
memcpy ( memPtr , & value , sizeof ( value ) ) ;
}
# endif // FSE_FORCE_MEMORY_ACCESS
static U16 FSE_readLE16 ( const void * memPtr )
{
if ( FSE_isLittleEndian ( ) )
return FSE_read16 ( memPtr ) ;
else
{
const BYTE * p = ( const BYTE * ) memPtr ;
return ( U16 ) ( p [ 0 ] + ( p [ 1 ] < < 8 ) ) ;
}
}
static void FSE_writeLE16 ( void * memPtr , U16 val )
{
if ( FSE_isLittleEndian ( ) )
{
FSE_write16 ( memPtr , val ) ;
}
else
{
BYTE * p = ( BYTE * ) memPtr ;
p [ 0 ] = ( BYTE ) val ;
p [ 1 ] = ( BYTE ) ( val > > 8 ) ;
}
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}
static U32 FSE_readLE32 ( const void * memPtr )
{
if ( FSE_isLittleEndian ( ) )
return FSE_read32 ( memPtr ) ;
else
{
const BYTE * p = ( const BYTE * ) memPtr ;
return ( U32 ) ( ( U32 ) p [ 0 ] + ( ( U32 ) p [ 1 ] < < 8 ) + ( ( U32 ) p [ 2 ] < < 16 ) + ( ( U32 ) p [ 3 ] < < 24 ) ) ;
}
}
static void FSE_writeLE32 ( void * memPtr , U32 val32 )
{
if ( FSE_isLittleEndian ( ) )
{
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FSE_write32 ( memPtr , val32 ) ;
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}
else
{
BYTE * p = ( BYTE * ) memPtr ;
p [ 0 ] = ( BYTE ) val32 ;
p [ 1 ] = ( BYTE ) ( val32 > > 8 ) ;
p [ 2 ] = ( BYTE ) ( val32 > > 16 ) ;
p [ 3 ] = ( BYTE ) ( val32 > > 24 ) ;
}
}
static U64 FSE_readLE64 ( const void * memPtr )
{
if ( FSE_isLittleEndian ( ) )
return FSE_read64 ( memPtr ) ;
else
{
const BYTE * p = ( const BYTE * ) memPtr ;
return ( U64 ) ( ( U64 ) p [ 0 ] + ( ( U64 ) p [ 1 ] < < 8 ) + ( ( U64 ) p [ 2 ] < < 16 ) + ( ( U64 ) p [ 3 ] < < 24 )
+ ( ( U64 ) p [ 4 ] < < 32 ) + ( ( U64 ) p [ 5 ] < < 40 ) + ( ( U64 ) p [ 6 ] < < 48 ) + ( ( U64 ) p [ 7 ] < < 56 ) ) ;
}
}
static void FSE_writeLE64 ( void * memPtr , U64 val64 )
{
if ( FSE_isLittleEndian ( ) )
{
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FSE_write64 ( memPtr , val64 ) ;
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}
else
{
BYTE * p = ( BYTE * ) memPtr ;
p [ 0 ] = ( BYTE ) val64 ;
p [ 1 ] = ( BYTE ) ( val64 > > 8 ) ;
p [ 2 ] = ( BYTE ) ( val64 > > 16 ) ;
p [ 3 ] = ( BYTE ) ( val64 > > 24 ) ;
p [ 4 ] = ( BYTE ) ( val64 > > 32 ) ;
p [ 5 ] = ( BYTE ) ( val64 > > 40 ) ;
p [ 6 ] = ( BYTE ) ( val64 > > 48 ) ;
p [ 7 ] = ( BYTE ) ( val64 > > 56 ) ;
}
}
static size_t FSE_readLEST ( const void * memPtr )
{
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if ( FSE_32bits ( ) )
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return ( size_t ) FSE_readLE32 ( memPtr ) ;
else
return ( size_t ) FSE_readLE64 ( memPtr ) ;
}
static void FSE_writeLEST ( void * memPtr , size_t val )
{
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if ( FSE_32bits ( ) )
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FSE_writeLE32 ( memPtr , ( U32 ) val ) ;
else
FSE_writeLE64 ( memPtr , ( U64 ) val ) ;
}
/****************************************************************
* Constants
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define FSE_MAX_TABLELOG (FSE_MAX_MEMORY_USAGE-2)
# define FSE_MAX_TABLESIZE (1U<<FSE_MAX_TABLELOG)
# define FSE_MAXTABLESIZE_MASK (FSE_MAX_TABLESIZE-1)
# define FSE_DEFAULT_TABLELOG (FSE_DEFAULT_MEMORY_USAGE-2)
# define FSE_MIN_TABLELOG 5
# define FSE_TABLELOG_ABSOLUTE_MAX 15
# if FSE_MAX_TABLELOG > FSE_TABLELOG_ABSOLUTE_MAX
# error "FSE_MAX_TABLELOG > FSE_TABLELOG_ABSOLUTE_MAX is not supported"
# endif
/****************************************************************
* Error Management
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define FSE_STATIC_ASSERT(c) { enum { FSE_static_assert = 1 / (int)(!!(c)) }; } /* use only *after* variable declarations */
/****************************************************************
* Complex types
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
typedef struct
{
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int deltaFindState ;
U32 deltaNbBits ;
} FSE_symbolCompressionTransform ; /* total 8 bytes */
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typedef U32 CTable_max_t [ FSE_CTABLE_SIZE_U32 ( FSE_MAX_TABLELOG , FSE_MAX_SYMBOL_VALUE ) ] ;
typedef U32 DTable_max_t [ FSE_DTABLE_SIZE_U32 ( FSE_MAX_TABLELOG ) ] ;
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/****************************************************************
* Internal functions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
FORCE_INLINE unsigned FSE_highbit32 ( register U32 val )
{
# if defined(_MSC_VER) /* Visual */
unsigned long r ;
_BitScanReverse ( & r , val ) ;
return ( unsigned ) r ;
# elif defined(__GNUC__) && (GCC_VERSION >= 304) /* GCC Intrinsic */
return 31 - __builtin_clz ( val ) ;
# else /* Software version */
static const unsigned DeBruijnClz [ 32 ] = { 0 , 9 , 1 , 10 , 13 , 21 , 2 , 29 , 11 , 14 , 16 , 18 , 22 , 25 , 3 , 30 , 8 , 12 , 20 , 28 , 15 , 17 , 24 , 7 , 19 , 27 , 23 , 6 , 26 , 5 , 4 , 31 } ;
U32 v = val ;
unsigned r ;
v | = v > > 1 ;
v | = v > > 2 ;
v | = v > > 4 ;
v | = v > > 8 ;
v | = v > > 16 ;
r = DeBruijnClz [ ( U32 ) ( v * 0x07C4ACDDU ) > > 27 ] ;
return r ;
# endif
}
/****************************************************************
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* Templates
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/*
designed to be included
for type - specific functions ( template emulation in C )
Objective is to write these functions only once , for improved maintenance
*/
/* safety checks */
# ifndef FSE_FUNCTION_EXTENSION
# error "FSE_FUNCTION_EXTENSION must be defined"
# endif
# ifndef FSE_FUNCTION_TYPE
# error "FSE_FUNCTION_TYPE must be defined"
# endif
/* Function names */
# define FSE_CAT(X,Y) X##Y
# define FSE_FUNCTION_NAME(X,Y) FSE_CAT(X,Y)
# define FSE_TYPE_NAME(X,Y) FSE_CAT(X,Y)
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/* Function templates */
size_t FSE_FUNCTION_NAME ( FSE_count_generic , FSE_FUNCTION_EXTENSION )
( unsigned * count , unsigned * maxSymbolValuePtr , const FSE_FUNCTION_TYPE * source , size_t sourceSize , unsigned safe )
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{
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const FSE_FUNCTION_TYPE * ip = source ;
const FSE_FUNCTION_TYPE * const iend = ip + sourceSize ;
unsigned maxSymbolValue = * maxSymbolValuePtr ;
unsigned max = 0 ;
int s ;
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U32 Counting1 [ FSE_MAX_SYMBOL_VALUE + 1 ] = { 0 } ;
U32 Counting2 [ FSE_MAX_SYMBOL_VALUE + 1 ] = { 0 } ;
U32 Counting3 [ FSE_MAX_SYMBOL_VALUE + 1 ] = { 0 } ;
U32 Counting4 [ FSE_MAX_SYMBOL_VALUE + 1 ] = { 0 } ;
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/* safety checks */
if ( ! sourceSize )
{
memset ( count , 0 , ( maxSymbolValue + 1 ) * sizeof ( FSE_FUNCTION_TYPE ) ) ;
* maxSymbolValuePtr = 0 ;
return 0 ;
}
if ( maxSymbolValue > FSE_MAX_SYMBOL_VALUE ) return ( size_t ) - FSE_ERROR_GENERIC ; /* maxSymbolValue too large : unsupported */
if ( ! maxSymbolValue ) maxSymbolValue = FSE_MAX_SYMBOL_VALUE ; /* 0 == default */
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if ( ( safe ) | | ( sizeof ( FSE_FUNCTION_TYPE ) > 1 ) )
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{
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/* check input values, to avoid count table overflow */
while ( ip < iend - 3 )
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{
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if ( * ip > maxSymbolValue ) return ( size_t ) - FSE_ERROR_GENERIC ; Counting1 [ * ip + + ] + + ;
if ( * ip > maxSymbolValue ) return ( size_t ) - FSE_ERROR_GENERIC ; Counting2 [ * ip + + ] + + ;
if ( * ip > maxSymbolValue ) return ( size_t ) - FSE_ERROR_GENERIC ; Counting3 [ * ip + + ] + + ;
if ( * ip > maxSymbolValue ) return ( size_t ) - FSE_ERROR_GENERIC ; Counting4 [ * ip + + ] + + ;
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}
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}
else
{
U32 cached = FSE_read32 ( ip ) ; ip + = 4 ;
while ( ip < iend - 15 )
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{
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U32 c = cached ; cached = FSE_read32 ( ip ) ; ip + = 4 ;
Counting1 [ ( BYTE ) c ] + + ;
Counting2 [ ( BYTE ) ( c > > 8 ) ] + + ;
Counting3 [ ( BYTE ) ( c > > 16 ) ] + + ;
Counting4 [ c > > 24 ] + + ;
c = cached ; cached = FSE_read32 ( ip ) ; ip + = 4 ;
Counting1 [ ( BYTE ) c ] + + ;
Counting2 [ ( BYTE ) ( c > > 8 ) ] + + ;
Counting3 [ ( BYTE ) ( c > > 16 ) ] + + ;
Counting4 [ c > > 24 ] + + ;
c = cached ; cached = FSE_read32 ( ip ) ; ip + = 4 ;
Counting1 [ ( BYTE ) c ] + + ;
Counting2 [ ( BYTE ) ( c > > 8 ) ] + + ;
Counting3 [ ( BYTE ) ( c > > 16 ) ] + + ;
Counting4 [ c > > 24 ] + + ;
c = cached ; cached = FSE_read32 ( ip ) ; ip + = 4 ;
Counting1 [ ( BYTE ) c ] + + ;
Counting2 [ ( BYTE ) ( c > > 8 ) ] + + ;
Counting3 [ ( BYTE ) ( c > > 16 ) ] + + ;
Counting4 [ c > > 24 ] + + ;
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}
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ip - = 4 ;
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}
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/* finish last symbols */
while ( ip < iend ) { if ( ( safe ) & & ( * ip > maxSymbolValue ) ) return ( size_t ) - FSE_ERROR_GENERIC ; Counting1 [ * ip + + ] + + ; }
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for ( s = 0 ; s < = ( int ) maxSymbolValue ; s + + )
{
count [ s ] = Counting1 [ s ] + Counting2 [ s ] + Counting3 [ s ] + Counting4 [ s ] ;
if ( count [ s ] > max ) max = count [ s ] ;
}
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while ( ! count [ maxSymbolValue ] ) maxSymbolValue - - ;
* maxSymbolValuePtr = maxSymbolValue ;
return ( size_t ) max ;
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}
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/* hidden fast variant (unsafe) */
size_t FSE_FUNCTION_NAME ( FSE_countFast , FSE_FUNCTION_EXTENSION )
( unsigned * count , unsigned * maxSymbolValuePtr , const FSE_FUNCTION_TYPE * source , size_t sourceSize )
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{
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return FSE_FUNCTION_NAME ( FSE_count_generic , FSE_FUNCTION_EXTENSION ) ( count , maxSymbolValuePtr , source , sourceSize , 0 ) ;
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}
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size_t FSE_FUNCTION_NAME ( FSE_count , FSE_FUNCTION_EXTENSION )
( unsigned * count , unsigned * maxSymbolValuePtr , const FSE_FUNCTION_TYPE * source , size_t sourceSize )
{
if ( ( sizeof ( FSE_FUNCTION_TYPE ) = = 1 ) & & ( * maxSymbolValuePtr > = 255 ) )
{
* maxSymbolValuePtr = 255 ;
return FSE_FUNCTION_NAME ( FSE_count_generic , FSE_FUNCTION_EXTENSION ) ( count , maxSymbolValuePtr , source , sourceSize , 0 ) ;
}
return FSE_FUNCTION_NAME ( FSE_count_generic , FSE_FUNCTION_EXTENSION ) ( count , maxSymbolValuePtr , source , sourceSize , 1 ) ;
}
static U32 FSE_tableStep ( U32 tableSize ) { return ( tableSize > > 1 ) + ( tableSize > > 3 ) + 3 ; }
size_t FSE_FUNCTION_NAME ( FSE_buildCTable , FSE_FUNCTION_EXTENSION )
( FSE_CTable * ct , const short * normalizedCounter , unsigned maxSymbolValue , unsigned tableLog )
{
const unsigned tableSize = 1 < < tableLog ;
const unsigned tableMask = tableSize - 1 ;
U16 * tableU16 = ( ( U16 * ) ct ) + 2 ;
FSE_symbolCompressionTransform * symbolTT = ( FSE_symbolCompressionTransform * ) ( ( ( U32 * ) ct ) + 1 + ( tableLog ? tableSize > > 1 : 1 ) ) ;
const unsigned step = FSE_tableStep ( tableSize ) ;
unsigned cumul [ FSE_MAX_SYMBOL_VALUE + 2 ] ;
U32 position = 0 ;
FSE_FUNCTION_TYPE tableSymbol [ FSE_MAX_TABLESIZE ] ; /* init not necessary, but analyzer complain about it */
U32 highThreshold = tableSize - 1 ;
unsigned symbol ;
unsigned i ;
/* header */
tableU16 [ - 2 ] = ( U16 ) tableLog ;
tableU16 [ - 1 ] = ( U16 ) maxSymbolValue ;
/* For explanations on how to distribute symbol values over the table :
* http : //fastcompression.blogspot.fr/2014/02/fse-distributing-symbol-values.html */
/* symbol start positions */
cumul [ 0 ] = 0 ;
for ( i = 1 ; i < = maxSymbolValue + 1 ; i + + )
{
if ( normalizedCounter [ i - 1 ] = = - 1 ) /* Low prob symbol */
{
cumul [ i ] = cumul [ i - 1 ] + 1 ;
tableSymbol [ highThreshold - - ] = ( FSE_FUNCTION_TYPE ) ( i - 1 ) ;
}
else
cumul [ i ] = cumul [ i - 1 ] + normalizedCounter [ i - 1 ] ;
}
cumul [ maxSymbolValue + 1 ] = tableSize + 1 ;
/* Spread symbols */
for ( symbol = 0 ; symbol < = maxSymbolValue ; symbol + + )
{
int nbOccurences ;
for ( nbOccurences = 0 ; nbOccurences < normalizedCounter [ symbol ] ; nbOccurences + + )
{
tableSymbol [ position ] = ( FSE_FUNCTION_TYPE ) symbol ;
position = ( position + step ) & tableMask ;
while ( position > highThreshold ) position = ( position + step ) & tableMask ; /* Lowprob area */
}
}
if ( position ! = 0 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* Must have gone through all positions */
/* Build table */
for ( i = 0 ; i < tableSize ; i + + )
{
FSE_FUNCTION_TYPE s = tableSymbol [ i ] ; /* static analyzer doesn't understand tableSymbol is properly initialized */
tableU16 [ cumul [ s ] + + ] = ( U16 ) ( tableSize + i ) ; /* TableU16 : sorted by symbol order; gives next state value */
}
/* Build Symbol Transformation Table */
{
unsigned s ;
unsigned total = 0 ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
switch ( normalizedCounter [ s ] )
{
case 0 :
break ;
case - 1 :
case 1 :
symbolTT [ s ] . deltaNbBits = tableLog < < 16 ;
symbolTT [ s ] . deltaFindState = total - 1 ;
total + + ;
break ;
default :
{
U32 maxBitsOut = tableLog - FSE_highbit32 ( normalizedCounter [ s ] - 1 ) ;
U32 minStatePlus = normalizedCounter [ s ] < < maxBitsOut ;
symbolTT [ s ] . deltaNbBits = ( maxBitsOut < < 16 ) - minStatePlus ;
symbolTT [ s ] . deltaFindState = total - normalizedCounter [ s ] ;
total + = normalizedCounter [ s ] ;
}
}
}
}
return 0 ;
}
# define FSE_DECODE_TYPE FSE_TYPE_NAME(FSE_decode_t, FSE_FUNCTION_EXTENSION)
FSE_DTable * FSE_FUNCTION_NAME ( FSE_createDTable , FSE_FUNCTION_EXTENSION ) ( unsigned tableLog )
{
if ( tableLog > FSE_TABLELOG_ABSOLUTE_MAX ) tableLog = FSE_TABLELOG_ABSOLUTE_MAX ;
return ( FSE_DTable * ) malloc ( FSE_DTABLE_SIZE_U32 ( tableLog ) * sizeof ( U32 ) ) ;
}
void FSE_FUNCTION_NAME ( FSE_freeDTable , FSE_FUNCTION_EXTENSION ) ( FSE_DTable * dt )
{
free ( dt ) ;
}
typedef struct {
U16 tableLog ;
U16 fastMode ;
} FSE_DTableHeader ; /* sizeof U32 */
size_t FSE_FUNCTION_NAME ( FSE_buildDTable , FSE_FUNCTION_EXTENSION )
( FSE_DTable * dt , const short * normalizedCounter , unsigned maxSymbolValue , unsigned tableLog )
{
FSE_DTableHeader * const DTableH = ( FSE_DTableHeader * ) dt ;
FSE_DECODE_TYPE * const tableDecode = ( FSE_DECODE_TYPE * ) ( dt + 1 ) ; /* because dt is unsigned, 32-bits aligned on 32-bits */
const U32 tableSize = 1 < < tableLog ;
const U32 tableMask = tableSize - 1 ;
const U32 step = FSE_tableStep ( tableSize ) ;
U16 symbolNext [ FSE_MAX_SYMBOL_VALUE + 1 ] ;
U32 position = 0 ;
U32 highThreshold = tableSize - 1 ;
const S16 largeLimit = ( S16 ) ( 1 < < ( tableLog - 1 ) ) ;
U32 noLarge = 1 ;
U32 s ;
/* Sanity Checks */
if ( maxSymbolValue > FSE_MAX_SYMBOL_VALUE ) return ( size_t ) - FSE_ERROR_maxSymbolValue_tooLarge ;
if ( tableLog > FSE_MAX_TABLELOG ) return ( size_t ) - FSE_ERROR_tableLog_tooLarge ;
/* Init, lay down lowprob symbols */
DTableH [ 0 ] . tableLog = ( U16 ) tableLog ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
if ( normalizedCounter [ s ] = = - 1 )
{
tableDecode [ highThreshold - - ] . symbol = ( FSE_FUNCTION_TYPE ) s ;
symbolNext [ s ] = 1 ;
}
else
{
if ( normalizedCounter [ s ] > = largeLimit ) noLarge = 0 ;
symbolNext [ s ] = normalizedCounter [ s ] ;
}
}
/* Spread symbols */
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
int i ;
for ( i = 0 ; i < normalizedCounter [ s ] ; i + + )
{
tableDecode [ position ] . symbol = ( FSE_FUNCTION_TYPE ) s ;
position = ( position + step ) & tableMask ;
while ( position > highThreshold ) position = ( position + step ) & tableMask ; /* lowprob area */
}
}
if ( position ! = 0 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* position must reach all cells once, otherwise normalizedCounter is incorrect */
/* Build Decoding table */
{
U32 i ;
for ( i = 0 ; i < tableSize ; i + + )
{
FSE_FUNCTION_TYPE symbol = ( FSE_FUNCTION_TYPE ) ( tableDecode [ i ] . symbol ) ;
U16 nextState = symbolNext [ symbol ] + + ;
tableDecode [ i ] . nbBits = ( BYTE ) ( tableLog - FSE_highbit32 ( ( U32 ) nextState ) ) ;
tableDecode [ i ] . newState = ( U16 ) ( ( nextState < < tableDecode [ i ] . nbBits ) - tableSize ) ;
}
}
DTableH - > fastMode = ( U16 ) noLarge ;
return 0 ;
}
/******************************************
* FSE byte symbol
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifndef FSE_COMMONDEFS_ONLY
unsigned FSE_isError ( size_t code ) { return ( code > ( size_t ) ( - FSE_ERROR_maxCode ) ) ; }
# define FSE_GENERATE_STRING(STRING) #STRING,
static const char * FSE_errorStrings [ ] = { FSE_LIST_ERRORS ( FSE_GENERATE_STRING ) } ;
const char * FSE_getErrorName ( size_t code )
{
static const char * codeError = " Unspecified error code " ;
if ( FSE_isError ( code ) ) return FSE_errorStrings [ - ( int ) ( code ) ] ;
return codeError ;
}
static short FSE_abs ( short a )
{
return a < 0 ? - a : a ;
}
/****************************************************************
* Header bitstream management
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
size_t FSE_NCountWriteBound ( unsigned maxSymbolValue , unsigned tableLog )
{
size_t maxHeaderSize = ( ( ( maxSymbolValue + 1 ) * tableLog ) > > 3 ) + 3 ;
return maxSymbolValue ? maxHeaderSize : FSE_NCOUNTBOUND ; /* maxSymbolValue==0 ? use default */
}
static size_t FSE_writeNCount_generic ( void * header , size_t headerBufferSize ,
const short * normalizedCounter , unsigned maxSymbolValue , unsigned tableLog ,
unsigned writeIsSafe )
{
BYTE * const ostart = ( BYTE * ) header ;
BYTE * out = ostart ;
BYTE * const oend = ostart + headerBufferSize ;
int nbBits ;
const int tableSize = 1 < < tableLog ;
int remaining ;
int threshold ;
U32 bitStream ;
int bitCount ;
unsigned charnum = 0 ;
int previous0 = 0 ;
bitStream = 0 ;
bitCount = 0 ;
/* Table Size */
bitStream + = ( tableLog - FSE_MIN_TABLELOG ) < < bitCount ;
bitCount + = 4 ;
/* Init */
remaining = tableSize + 1 ; /* +1 for extra accuracy */
threshold = tableSize ;
nbBits = tableLog + 1 ;
while ( remaining > 1 ) /* stops at 1 */
{
if ( previous0 )
{
unsigned start = charnum ;
while ( ! normalizedCounter [ charnum ] ) charnum + + ;
while ( charnum > = start + 24 )
{
start + = 24 ;
bitStream + = 0xFFFFU < < bitCount ;
if ( ( ! writeIsSafe ) & & ( out > oend - 2 ) ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* Buffer overflow */
out [ 0 ] = ( BYTE ) bitStream ;
out [ 1 ] = ( BYTE ) ( bitStream > > 8 ) ;
out + = 2 ;
bitStream > > = 16 ;
}
while ( charnum > = start + 3 )
{
start + = 3 ;
bitStream + = 3 < < bitCount ;
bitCount + = 2 ;
}
bitStream + = ( charnum - start ) < < bitCount ;
bitCount + = 2 ;
if ( bitCount > 16 )
{
if ( ( ! writeIsSafe ) & & ( out > oend - 2 ) ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* Buffer overflow */
out [ 0 ] = ( BYTE ) bitStream ;
out [ 1 ] = ( BYTE ) ( bitStream > > 8 ) ;
out + = 2 ;
bitStream > > = 16 ;
bitCount - = 16 ;
}
}
{
short count = normalizedCounter [ charnum + + ] ;
const short max = ( short ) ( ( 2 * threshold - 1 ) - remaining ) ;
remaining - = FSE_abs ( count ) ;
if ( remaining < 1 ) return ( size_t ) - FSE_ERROR_GENERIC ;
count + + ; /* +1 for extra accuracy */
if ( count > = threshold ) count + = max ; /* [0..max[ [max..threshold[ (...) [threshold+max 2*threshold[ */
bitStream + = count < < bitCount ;
bitCount + = nbBits ;
bitCount - = ( count < max ) ;
previous0 = ( count = = 1 ) ;
while ( remaining < threshold ) nbBits - - , threshold > > = 1 ;
}
if ( bitCount > 16 )
{
if ( ( ! writeIsSafe ) & & ( out > oend - 2 ) ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* Buffer overflow */
out [ 0 ] = ( BYTE ) bitStream ;
out [ 1 ] = ( BYTE ) ( bitStream > > 8 ) ;
out + = 2 ;
bitStream > > = 16 ;
bitCount - = 16 ;
}
}
/* flush remaining bitStream */
if ( ( ! writeIsSafe ) & & ( out > oend - 2 ) ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* Buffer overflow */
out [ 0 ] = ( BYTE ) bitStream ;
out [ 1 ] = ( BYTE ) ( bitStream > > 8 ) ;
out + = ( bitCount + 7 ) / 8 ;
if ( charnum > maxSymbolValue + 1 ) return ( size_t ) - FSE_ERROR_GENERIC ;
return ( out - ostart ) ;
}
size_t FSE_writeNCount ( void * buffer , size_t bufferSize , const short * normalizedCounter , unsigned maxSymbolValue , unsigned tableLog )
{
if ( tableLog > FSE_MAX_TABLELOG ) return ( size_t ) - FSE_ERROR_GENERIC ; /* Unsupported */
if ( tableLog < FSE_MIN_TABLELOG ) return ( size_t ) - FSE_ERROR_GENERIC ; /* Unsupported */
if ( bufferSize < FSE_NCountWriteBound ( maxSymbolValue , tableLog ) )
return FSE_writeNCount_generic ( buffer , bufferSize , normalizedCounter , maxSymbolValue , tableLog , 0 ) ;
return FSE_writeNCount_generic ( buffer , bufferSize , normalizedCounter , maxSymbolValue , tableLog , 1 ) ;
}
size_t FSE_readNCount ( short * normalizedCounter , unsigned * maxSVPtr , unsigned * tableLogPtr ,
const void * headerBuffer , size_t hbSize )
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{
const BYTE * const istart = ( const BYTE * ) headerBuffer ;
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const BYTE * const iend = istart + hbSize ;
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const BYTE * ip = istart ;
int nbBits ;
int remaining ;
int threshold ;
U32 bitStream ;
int bitCount ;
unsigned charnum = 0 ;
int previous0 = 0 ;
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if ( hbSize < 4 ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
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bitStream = FSE_readLE32 ( ip ) ;
nbBits = ( bitStream & 0xF ) + FSE_MIN_TABLELOG ; /* extract tableLog */
if ( nbBits > FSE_TABLELOG_ABSOLUTE_MAX ) return ( size_t ) - FSE_ERROR_tableLog_tooLarge ;
bitStream > > = 4 ;
bitCount = 4 ;
* tableLogPtr = nbBits ;
remaining = ( 1 < < nbBits ) + 1 ;
threshold = 1 < < nbBits ;
nbBits + + ;
while ( ( remaining > 1 ) & & ( charnum < = * maxSVPtr ) )
{
if ( previous0 )
{
unsigned n0 = charnum ;
while ( ( bitStream & 0xFFFF ) = = 0xFFFF )
{
n0 + = 24 ;
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if ( ip < iend - 5 )
{
ip + = 2 ;
bitStream = FSE_readLE32 ( ip ) > > bitCount ;
}
else
{
bitStream > > = 16 ;
bitCount + = 16 ;
}
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}
while ( ( bitStream & 3 ) = = 3 )
{
n0 + = 3 ;
bitStream > > = 2 ;
bitCount + = 2 ;
}
n0 + = bitStream & 3 ;
bitCount + = 2 ;
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if ( n0 > * maxSVPtr ) return ( size_t ) - FSE_ERROR_maxSymbolValue_tooSmall ;
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while ( charnum < n0 ) normalizedCounter [ charnum + + ] = 0 ;
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if ( ( ip < = iend - 7 ) | | ( ip + ( bitCount > > 3 ) < = iend - 4 ) )
{
ip + = bitCount > > 3 ;
bitCount & = 7 ;
bitStream = FSE_readLE32 ( ip ) > > bitCount ;
}
else
bitStream > > = 2 ;
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}
{
const short max = ( short ) ( ( 2 * threshold - 1 ) - remaining ) ;
short count ;
if ( ( bitStream & ( threshold - 1 ) ) < ( U32 ) max )
{
count = ( short ) ( bitStream & ( threshold - 1 ) ) ;
bitCount + = nbBits - 1 ;
}
else
{
count = ( short ) ( bitStream & ( 2 * threshold - 1 ) ) ;
if ( count > = threshold ) count - = max ;
bitCount + = nbBits ;
}
count - - ; /* extra accuracy */
remaining - = FSE_abs ( count ) ;
normalizedCounter [ charnum + + ] = count ;
previous0 = ! count ;
while ( remaining < threshold )
{
nbBits - - ;
threshold > > = 1 ;
}
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{
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if ( ( ip < = iend - 7 ) | | ( ip + ( bitCount > > 3 ) < = iend - 4 ) )
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{
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ip + = bitCount > > 3 ;
bitCount & = 7 ;
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}
else
{
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bitCount - = ( int ) ( 8 * ( iend - 4 - ip ) ) ;
ip = iend - 4 ;
}
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bitStream = FSE_readLE32 ( ip ) > > ( bitCount & 31 ) ;
}
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}
}
if ( remaining ! = 1 ) return ( size_t ) - FSE_ERROR_GENERIC ;
* maxSVPtr = charnum - 1 ;
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ip + = ( bitCount + 7 ) > > 3 ;
if ( ( size_t ) ( ip - istart ) > hbSize ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
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return ip - istart ;
}
/****************************************************************
* FSE Compression Code
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
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FSE_CTable [ 0 ] is a variable size structure which contains :
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U16 tableLog ;
U16 maxSymbolValue ;
U16 nextStateNumber [ 1 < < tableLog ] ; // This size is variable
FSE_symbolCompressionTransform symbolTT [ maxSymbolValue + 1 ] ; // This size is variable
Allocation is manual , since C standard does not support variable - size structures .
*/
size_t FSE_sizeof_CTable ( unsigned maxSymbolValue , unsigned tableLog )
{
size_t size ;
FSE_STATIC_ASSERT ( ( size_t ) FSE_CTABLE_SIZE_U32 ( FSE_MAX_TABLELOG , FSE_MAX_SYMBOL_VALUE ) * 4 > = sizeof ( CTable_max_t ) ) ; /* A compilation error here means FSE_CTABLE_SIZE_U32 is not large enough */
if ( tableLog > FSE_MAX_TABLELOG ) return ( size_t ) - FSE_ERROR_GENERIC ;
size = FSE_CTABLE_SIZE_U32 ( tableLog , maxSymbolValue ) * sizeof ( U32 ) ;
return size ;
}
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FSE_CTable * FSE_createCTable ( unsigned maxSymbolValue , unsigned tableLog )
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{
size_t size ;
if ( tableLog > FSE_TABLELOG_ABSOLUTE_MAX ) tableLog = FSE_TABLELOG_ABSOLUTE_MAX ;
size = FSE_CTABLE_SIZE_U32 ( tableLog , maxSymbolValue ) * sizeof ( U32 ) ;
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return ( FSE_CTable * ) malloc ( size ) ;
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}
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void FSE_freeCTable ( FSE_CTable * ct )
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{
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free ( ct ) ;
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}
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/* provides the minimum logSize to safely represent a distribution */
static unsigned FSE_minTableLog ( size_t srcSize , unsigned maxSymbolValue )
{
U32 minBitsSrc = FSE_highbit32 ( ( U32 ) ( srcSize - 1 ) ) + 1 ;
U32 minBitsSymbols = FSE_highbit32 ( maxSymbolValue ) + 2 ;
U32 minBits = minBitsSrc < minBitsSymbols ? minBitsSrc : minBitsSymbols ;
return minBits ;
}
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unsigned FSE_optimalTableLog ( unsigned maxTableLog , size_t srcSize , unsigned maxSymbolValue )
{
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U32 maxBitsSrc = FSE_highbit32 ( ( U32 ) ( srcSize - 1 ) ) - 2 ;
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U32 tableLog = maxTableLog ;
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U32 minBits = FSE_minTableLog ( srcSize , maxSymbolValue ) ;
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if ( tableLog = = 0 ) tableLog = FSE_DEFAULT_TABLELOG ;
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if ( maxBitsSrc < tableLog ) tableLog = maxBitsSrc ; /* Accuracy can be reduced */
if ( minBits > tableLog ) tableLog = minBits ; /* Need a minimum to safely represent all symbol values */
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if ( tableLog < FSE_MIN_TABLELOG ) tableLog = FSE_MIN_TABLELOG ;
if ( tableLog > FSE_MAX_TABLELOG ) tableLog = FSE_MAX_TABLELOG ;
return tableLog ;
}
/* Secondary normalization method.
To be used when primary method fails . */
static size_t FSE_normalizeM2 ( short * norm , U32 tableLog , const unsigned * count , size_t total , U32 maxSymbolValue )
{
U32 s ;
U32 distributed = 0 ;
U32 ToDistribute ;
/* Init */
U32 lowThreshold = ( U32 ) ( total > > tableLog ) ;
U32 lowOne = ( U32 ) ( ( total * 3 ) > > ( tableLog + 1 ) ) ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
if ( count [ s ] = = 0 )
{
norm [ s ] = 0 ;
continue ;
}
if ( count [ s ] < = lowThreshold )
{
norm [ s ] = - 1 ;
distributed + + ;
total - = count [ s ] ;
continue ;
}
if ( count [ s ] < = lowOne )
{
norm [ s ] = 1 ;
distributed + + ;
total - = count [ s ] ;
continue ;
}
norm [ s ] = - 2 ;
}
ToDistribute = ( 1 < < tableLog ) - distributed ;
if ( ( total / ToDistribute ) > lowOne )
{
/* risk of rounding to zero */
lowOne = ( U32 ) ( ( total * 3 ) / ( ToDistribute * 2 ) ) ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
if ( ( norm [ s ] = = - 2 ) & & ( count [ s ] < = lowOne ) )
{
norm [ s ] = 1 ;
distributed + + ;
total - = count [ s ] ;
continue ;
}
}
ToDistribute = ( 1 < < tableLog ) - distributed ;
}
if ( distributed = = maxSymbolValue + 1 )
{
/* all values are pretty poor;
probably incompressible data ( should have already been detected ) ;
find max , then give all remaining points to max */
U32 maxV = 0 , maxC = 0 ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
if ( count [ s ] > maxC ) maxV = s , maxC = count [ s ] ;
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norm [ maxV ] + = ( short ) ToDistribute ;
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return 0 ;
}
{
U64 const vStepLog = 62 - tableLog ;
U64 const mid = ( 1ULL < < ( vStepLog - 1 ) ) - 1 ;
U64 const rStep = ( ( ( ( U64 ) 1 < < vStepLog ) * ToDistribute ) + mid ) / total ; /* scale on remaining */
U64 tmpTotal = mid ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
if ( norm [ s ] = = - 2 )
{
U64 end = tmpTotal + ( count [ s ] * rStep ) ;
U32 sStart = ( U32 ) ( tmpTotal > > vStepLog ) ;
U32 sEnd = ( U32 ) ( end > > vStepLog ) ;
U32 weight = sEnd - sStart ;
if ( weight < 1 )
return ( size_t ) - FSE_ERROR_GENERIC ;
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norm [ s ] = ( short ) weight ;
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tmpTotal = end ;
}
}
}
return 0 ;
}
size_t FSE_normalizeCount ( short * normalizedCounter , unsigned tableLog ,
const unsigned * count , size_t total ,
unsigned maxSymbolValue )
{
/* Sanity checks */
if ( tableLog = = 0 ) tableLog = FSE_DEFAULT_TABLELOG ;
if ( tableLog < FSE_MIN_TABLELOG ) return ( size_t ) - FSE_ERROR_GENERIC ; /* Unsupported size */
if ( tableLog > FSE_MAX_TABLELOG ) return ( size_t ) - FSE_ERROR_GENERIC ; /* Unsupported size */
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if ( tableLog < FSE_minTableLog ( total , maxSymbolValue ) ) return ( size_t ) - FSE_ERROR_GENERIC ; /* Too small tableLog, compression potentially impossible */
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{
U32 const rtbTable [ ] = { 0 , 473195 , 504333 , 520860 , 550000 , 700000 , 750000 , 830000 } ;
U64 const scale = 62 - tableLog ;
U64 const step = ( ( U64 ) 1 < < 62 ) / total ; /* <== here, one division ! */
U64 const vStep = 1ULL < < ( scale - 20 ) ;
int stillToDistribute = 1 < < tableLog ;
unsigned s ;
unsigned largest = 0 ;
short largestP = 0 ;
U32 lowThreshold = ( U32 ) ( total > > tableLog ) ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
if ( count [ s ] = = total ) return 0 ;
if ( count [ s ] = = 0 )
{
normalizedCounter [ s ] = 0 ;
continue ;
}
if ( count [ s ] < = lowThreshold )
{
normalizedCounter [ s ] = - 1 ;
stillToDistribute - - ;
}
else
{
short proba = ( short ) ( ( count [ s ] * step ) > > scale ) ;
if ( proba < 8 )
{
U64 restToBeat = vStep * rtbTable [ proba ] ;
proba + = ( count [ s ] * step ) - ( ( U64 ) proba < < scale ) > restToBeat ;
}
if ( proba > largestP )
{
largestP = proba ;
largest = s ;
}
normalizedCounter [ s ] = proba ;
stillToDistribute - = proba ;
}
}
if ( - stillToDistribute > = ( normalizedCounter [ largest ] > > 1 ) )
{
/* corner case, need another normalization method */
size_t errorCode = FSE_normalizeM2 ( normalizedCounter , tableLog , count , total , maxSymbolValue ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
}
else normalizedCounter [ largest ] + = ( short ) stillToDistribute ;
}
#if 0
{ /* Print Table (debug) */
U32 s ;
U32 nTotal = 0 ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
printf ( " %3i: %4i \n " , s , normalizedCounter [ s ] ) ;
for ( s = 0 ; s < = maxSymbolValue ; s + + )
nTotal + = abs ( normalizedCounter [ s ] ) ;
if ( nTotal ! = ( 1U < < tableLog ) )
printf ( " Warning !!! Total == %u != %u !!! " , nTotal , 1U < < tableLog ) ;
getchar ( ) ;
}
# endif
return tableLog ;
}
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/* fake FSE_CTable, for raw (uncompressed) input */
size_t FSE_buildCTable_raw ( FSE_CTable * ct , unsigned nbBits )
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{
const unsigned tableSize = 1 < < nbBits ;
const unsigned tableMask = tableSize - 1 ;
const unsigned maxSymbolValue = tableMask ;
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U16 * tableU16 = ( ( U16 * ) ct ) + 2 ;
FSE_symbolCompressionTransform * symbolTT = ( FSE_symbolCompressionTransform * ) ( ( ( ( U32 * ) ct ) + 1 ) + ( tableSize > > 1 ) ) ;
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unsigned s ;
/* Sanity checks */
if ( nbBits < 1 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* min size */
/* header */
tableU16 [ - 2 ] = ( U16 ) nbBits ;
tableU16 [ - 1 ] = ( U16 ) maxSymbolValue ;
/* Build table */
for ( s = 0 ; s < tableSize ; s + + )
tableU16 [ s ] = ( U16 ) ( tableSize + s ) ;
/* Build Symbol Transformation Table */
for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
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symbolTT [ s ] . deltaNbBits = nbBits < < 16 ;
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symbolTT [ s ] . deltaFindState = s - 1 ;
}
return 0 ;
}
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/* fake FSE_CTable, for rle (100% always same symbol) input */
size_t FSE_buildCTable_rle ( FSE_CTable * ct , BYTE symbolValue )
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{
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U16 * tableU16 = ( ( U16 * ) ct ) + 2 ;
FSE_symbolCompressionTransform * symbolTT = ( FSE_symbolCompressionTransform * ) ( ( U32 * ) ct + 2 ) ;
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/* header */
tableU16 [ - 2 ] = ( U16 ) 0 ;
tableU16 [ - 1 ] = ( U16 ) symbolValue ;
/* Build table */
tableU16 [ 0 ] = 0 ;
tableU16 [ 1 ] = 0 ; /* just in case */
/* Build Symbol Transformation Table */
{
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symbolTT [ symbolValue ] . deltaNbBits = 0 ;
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symbolTT [ symbolValue ] . deltaFindState = 0 ;
}
return 0 ;
}
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size_t FSE_initCStream ( FSE_CStream_t * bitC , void * start , size_t maxSize )
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{
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if ( maxSize < sizeof ( bitC - > ptr ) ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ;
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bitC - > bitContainer = 0 ;
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bitC - > bitPos = 0 ;
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bitC - > startPtr = ( char * ) start ;
bitC - > ptr = bitC - > startPtr ;
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bitC - > endPtr = bitC - > startPtr + maxSize - sizeof ( bitC - > ptr ) ;
return 0 ;
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}
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void FSE_initCState ( FSE_CState_t * statePtr , const FSE_CTable * ct )
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{
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const U32 tableLog = ( ( const U16 * ) ct ) [ 0 ] ;
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statePtr - > value = ( ptrdiff_t ) 1 < < tableLog ;
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statePtr - > stateTable = ( ( const U16 * ) ct ) + 2 ;
statePtr - > symbolTT = ( const FSE_symbolCompressionTransform * ) ( ( const U32 * ) ct + 1 + ( tableLog ? ( 1 < < ( tableLog - 1 ) ) : 1 ) ) ;
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statePtr - > stateLog = tableLog ;
}
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void FSE_addBitsFast ( FSE_CStream_t * bitC , size_t value , unsigned nbBits ) /* only use if upper bits are clean 0 */
{
bitC - > bitContainer | = value < < bitC - > bitPos ;
bitC - > bitPos + = nbBits ;
}
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void FSE_addBits ( FSE_CStream_t * bitC , size_t value , unsigned nbBits )
{
static const unsigned mask [ ] = { 0 , 1 , 3 , 7 , 0xF , 0x1F , 0x3F , 0x7F , 0xFF , 0x1FF , 0x3FF , 0x7FF , 0xFFF , 0x1FFF , 0x3FFF , 0x7FFF , 0xFFFF , 0x1FFFF , 0x3FFFF , 0x7FFFF , 0xFFFFF , 0x1FFFFF , 0x3FFFFF , 0x7FFFFF , 0xFFFFFF , 0x1FFFFFF } ; /* up to 25 bits */
bitC - > bitContainer | = ( value & mask [ nbBits ] ) < < bitC - > bitPos ;
bitC - > bitPos + = nbBits ;
}
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void FSE_encodeSymbol ( FSE_CStream_t * bitC , FSE_CState_t * statePtr , U32 symbol )
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{
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const FSE_symbolCompressionTransform symbolTT = ( ( const FSE_symbolCompressionTransform * ) ( statePtr - > symbolTT ) ) [ symbol ] ;
const U16 * const stateTable = ( const U16 * ) ( statePtr - > stateTable ) ;
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U32 nbBitsOut = ( U32 ) ( ( statePtr - > value + symbolTT . deltaNbBits ) > > 16 ) ;
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FSE_addBits ( bitC , statePtr - > value , nbBitsOut ) ;
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statePtr - > value = stateTable [ ( statePtr - > value > > nbBitsOut ) + symbolTT . deltaFindState ] ;
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}
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void FSE_flushBitsFast ( FSE_CStream_t * bitC ) /* only if dst buffer is large enough ( >= FSE_compressBound()) */
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{
size_t nbBytes = bitC - > bitPos > > 3 ;
FSE_writeLEST ( bitC - > ptr , bitC - > bitContainer ) ;
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bitC - > ptr + = nbBytes ;
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bitC - > bitPos & = 7 ;
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bitC - > bitContainer > > = nbBytes * 8 ;
}
void FSE_flushBits ( FSE_CStream_t * bitC )
{
size_t nbBytes = bitC - > bitPos > > 3 ;
FSE_writeLEST ( bitC - > ptr , bitC - > bitContainer ) ;
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bitC - > ptr + = nbBytes ;
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if ( bitC - > ptr > bitC - > endPtr ) bitC - > ptr = bitC - > endPtr ;
bitC - > bitPos & = 7 ;
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bitC - > bitContainer > > = nbBytes * 8 ;
}
void FSE_flushCState ( FSE_CStream_t * bitC , const FSE_CState_t * statePtr )
{
FSE_addBits ( bitC , statePtr - > value , statePtr - > stateLog ) ;
FSE_flushBits ( bitC ) ;
}
size_t FSE_closeCStream ( FSE_CStream_t * bitC )
{
char * endPtr ;
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FSE_addBitsFast ( bitC , 1 , 1 ) ;
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FSE_flushBits ( bitC ) ;
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if ( bitC - > ptr > = bitC - > endPtr ) /* too close to buffer's end */
return 0 ; /* not compressible */
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endPtr = bitC - > ptr ;
endPtr + = bitC - > bitPos > 0 ;
return ( endPtr - bitC - > startPtr ) ;
}
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static size_t FSE_compress_usingCTable_generic ( void * dst , size_t dstSize ,
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const void * src , size_t srcSize ,
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const FSE_CTable * ct , const unsigned fast )
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{
const BYTE * const istart = ( const BYTE * ) src ;
const BYTE * ip ;
const BYTE * const iend = istart + srcSize ;
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size_t errorCode ;
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FSE_CStream_t bitC ;
FSE_CState_t CState1 , CState2 ;
/* init */
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errorCode = FSE_initCStream ( & bitC , dst , dstSize ) ;
if ( FSE_isError ( errorCode ) ) return 0 ;
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FSE_initCState ( & CState1 , ct ) ;
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CState2 = CState1 ;
ip = iend ;
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# define FSE_FLUSHBITS(s) (fast ? FSE_flushBitsFast(s) : FSE_flushBits(s))
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/* join to even */
if ( srcSize & 1 )
{
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FSE_encodeSymbol ( & bitC , & CState1 , * - - ip ) ;
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FSE_FLUSHBITS ( & bitC ) ;
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}
/* join to mod 4 */
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if ( ( sizeof ( bitC . bitContainer ) * 8 > FSE_MAX_TABLELOG * 4 + 7 ) & & ( srcSize & 2 ) ) /* test bit 2 */
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{
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FSE_encodeSymbol ( & bitC , & CState2 , * - - ip ) ;
FSE_encodeSymbol ( & bitC , & CState1 , * - - ip ) ;
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FSE_FLUSHBITS ( & bitC ) ;
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}
/* 2 or 4 encoding per loop */
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for ( ; ip > istart ; )
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{
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FSE_encodeSymbol ( & bitC , & CState2 , * - - ip ) ;
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if ( sizeof ( bitC . bitContainer ) * 8 < FSE_MAX_TABLELOG * 2 + 7 ) /* this test must be static */
FSE_FLUSHBITS ( & bitC ) ;
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FSE_encodeSymbol ( & bitC , & CState1 , * - - ip ) ;
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if ( sizeof ( bitC . bitContainer ) * 8 > FSE_MAX_TABLELOG * 4 + 7 ) /* this test must be static */
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{
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FSE_encodeSymbol ( & bitC , & CState2 , * - - ip ) ;
FSE_encodeSymbol ( & bitC , & CState1 , * - - ip ) ;
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}
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FSE_FLUSHBITS ( & bitC ) ;
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}
FSE_flushCState ( & bitC , & CState2 ) ;
FSE_flushCState ( & bitC , & CState1 ) ;
return FSE_closeCStream ( & bitC ) ;
}
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size_t FSE_compress_usingCTable ( void * dst , size_t dstSize ,
const void * src , size_t srcSize ,
const FSE_CTable * ct )
{
const unsigned fast = ( dstSize > = FSE_BLOCKBOUND ( srcSize ) ) ;
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if ( fast )
return FSE_compress_usingCTable_generic ( dst , dstSize , src , srcSize , ct , 1 ) ;
else
return FSE_compress_usingCTable_generic ( dst , dstSize , src , srcSize , ct , 0 ) ;
}
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size_t FSE_compressBound ( size_t size ) { return FSE_COMPRESSBOUND ( size ) ; }
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size_t FSE_compress2 ( void * dst , size_t dstSize , const void * src , size_t srcSize , unsigned maxSymbolValue , unsigned tableLog )
{
const BYTE * const istart = ( const BYTE * ) src ;
const BYTE * ip = istart ;
BYTE * const ostart = ( BYTE * ) dst ;
BYTE * op = ostart ;
BYTE * const oend = ostart + dstSize ;
U32 count [ FSE_MAX_SYMBOL_VALUE + 1 ] ;
S16 norm [ FSE_MAX_SYMBOL_VALUE + 1 ] ;
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CTable_max_t ct ;
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size_t errorCode ;
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/* init conditions */
if ( srcSize < = 1 ) return 0 ; /* Uncompressible */
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if ( ! maxSymbolValue ) maxSymbolValue = FSE_MAX_SYMBOL_VALUE ;
if ( ! tableLog ) tableLog = FSE_DEFAULT_TABLELOG ;
/* Scan input and build symbol stats */
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errorCode = FSE_count ( count , & maxSymbolValue , ip , srcSize ) ;
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if ( FSE_isError ( errorCode ) ) return errorCode ;
if ( errorCode = = srcSize ) return 1 ;
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if ( errorCode = = 1 ) return 0 ; /* each symbol only present once */
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if ( errorCode < ( srcSize > > 7 ) ) return 0 ; /* Heuristic : not compressible enough */
tableLog = FSE_optimalTableLog ( tableLog , srcSize , maxSymbolValue ) ;
errorCode = FSE_normalizeCount ( norm , tableLog , count , srcSize , maxSymbolValue ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
/* Write table description header */
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errorCode = FSE_writeNCount ( op , oend - op , norm , maxSymbolValue , tableLog ) ;
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if ( FSE_isError ( errorCode ) ) return errorCode ;
op + = errorCode ;
/* Compress */
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errorCode = FSE_buildCTable ( ct , norm , maxSymbolValue , tableLog ) ;
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if ( FSE_isError ( errorCode ) ) return errorCode ;
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errorCode = FSE_compress_usingCTable ( op , oend - op , ip , srcSize , ct ) ;
if ( errorCode = = 0 ) return 0 ; /* not enough space for compressed data */
op + = errorCode ;
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/* check compressibility */
if ( ( size_t ) ( op - ostart ) > = srcSize - 1 )
return 0 ;
return op - ostart ;
}
size_t FSE_compress ( void * dst , size_t dstSize , const void * src , size_t srcSize )
{
return FSE_compress2 ( dst , dstSize , src , ( U32 ) srcSize , FSE_MAX_SYMBOL_VALUE , FSE_DEFAULT_TABLELOG ) ;
}
/*********************************************************
* Decompression ( Byte symbols )
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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size_t FSE_buildDTable_rle ( FSE_DTable * dt , BYTE symbolValue )
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{
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FSE_DTableHeader * const DTableH = ( FSE_DTableHeader * ) dt ;
FSE_decode_t * const cell = ( FSE_decode_t * ) ( dt + 1 ) ; /* because dt is unsigned */
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DTableH - > tableLog = 0 ;
DTableH - > fastMode = 0 ;
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cell - > newState = 0 ;
cell - > symbol = symbolValue ;
cell - > nbBits = 0 ;
return 0 ;
}
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size_t FSE_buildDTable_raw ( FSE_DTable * dt , unsigned nbBits )
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{
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FSE_DTableHeader * const DTableH = ( FSE_DTableHeader * ) dt ;
FSE_decode_t * const dinfo = ( FSE_decode_t * ) ( dt + 1 ) ; /* because dt is unsigned */
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const unsigned tableSize = 1 < < nbBits ;
const unsigned tableMask = tableSize - 1 ;
const unsigned maxSymbolValue = tableMask ;
unsigned s ;
/* Sanity checks */
if ( nbBits < 1 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* min size */
/* Build Decoding Table */
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DTableH - > tableLog = ( U16 ) nbBits ;
DTableH - > fastMode = 1 ;
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for ( s = 0 ; s < = maxSymbolValue ; s + + )
{
dinfo [ s ] . newState = 0 ;
dinfo [ s ] . symbol = ( BYTE ) s ;
dinfo [ s ] . nbBits = ( BYTE ) nbBits ;
}
return 0 ;
}
/* FSE_initDStream
* Initialize a FSE_DStream_t .
* srcBuffer must point at the beginning of an FSE block .
* The function result is the size of the FSE_block ( = = srcSize ) .
* If srcSize is too small , the function will return an errorCode ;
*/
size_t FSE_initDStream ( FSE_DStream_t * bitD , const void * srcBuffer , size_t srcSize )
{
if ( srcSize < 1 ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
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if ( srcSize > = sizeof ( size_t ) )
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{
U32 contain32 ;
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bitD - > start = ( const char * ) srcBuffer ;
bitD - > ptr = ( const char * ) srcBuffer + srcSize - sizeof ( size_t ) ;
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bitD - > bitContainer = FSE_readLEST ( bitD - > ptr ) ;
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contain32 = ( ( const BYTE * ) srcBuffer ) [ srcSize - 1 ] ;
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if ( contain32 = = 0 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* stop bit not present */
bitD - > bitsConsumed = 8 - FSE_highbit32 ( contain32 ) ;
}
else
{
U32 contain32 ;
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bitD - > start = ( const char * ) srcBuffer ;
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bitD - > ptr = bitD - > start ;
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bitD - > bitContainer = * ( const BYTE * ) ( bitD - > start ) ;
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switch ( srcSize )
{
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case 7 : bitD - > bitContainer + = ( size_t ) ( ( ( const BYTE * ) ( bitD - > start ) ) [ 6 ] ) < < ( sizeof ( size_t ) * 8 - 16 ) ;
case 6 : bitD - > bitContainer + = ( size_t ) ( ( ( const BYTE * ) ( bitD - > start ) ) [ 5 ] ) < < ( sizeof ( size_t ) * 8 - 24 ) ;
case 5 : bitD - > bitContainer + = ( size_t ) ( ( ( const BYTE * ) ( bitD - > start ) ) [ 4 ] ) < < ( sizeof ( size_t ) * 8 - 32 ) ;
case 4 : bitD - > bitContainer + = ( size_t ) ( ( ( const BYTE * ) ( bitD - > start ) ) [ 3 ] ) < < 24 ;
case 3 : bitD - > bitContainer + = ( size_t ) ( ( ( const BYTE * ) ( bitD - > start ) ) [ 2 ] ) < < 16 ;
case 2 : bitD - > bitContainer + = ( size_t ) ( ( ( const BYTE * ) ( bitD - > start ) ) [ 1 ] ) < < 8 ;
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default : ;
}
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contain32 = ( ( const BYTE * ) srcBuffer ) [ srcSize - 1 ] ;
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if ( contain32 = = 0 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* stop bit not present */
bitD - > bitsConsumed = 8 - FSE_highbit32 ( contain32 ) ;
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bitD - > bitsConsumed + = ( U32 ) ( sizeof ( size_t ) - srcSize ) * 8 ;
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}
return srcSize ;
}
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/* FSE_lookBits
* Provides next n bits from the bitContainer .
* bitContainer is not modified ( bits are still present for next read / look )
* On 32 - bits , maxNbBits = = 25
* On 64 - bits , maxNbBits = = 57
* return : value extracted .
*/
static size_t FSE_lookBits ( FSE_DStream_t * bitD , U32 nbBits )
{
const U32 bitMask = sizeof ( bitD - > bitContainer ) * 8 - 1 ;
return ( ( bitD - > bitContainer < < ( bitD - > bitsConsumed & bitMask ) ) > > 1 ) > > ( ( bitMask - nbBits ) & bitMask ) ;
}
static size_t FSE_lookBitsFast ( FSE_DStream_t * bitD , U32 nbBits ) /* only if nbBits >= 1 !! */
{
const U32 bitMask = sizeof ( bitD - > bitContainer ) * 8 - 1 ;
return ( bitD - > bitContainer < < ( bitD - > bitsConsumed & bitMask ) ) > > ( ( ( bitMask + 1 ) - nbBits ) & bitMask ) ;
}
static void FSE_skipBits ( FSE_DStream_t * bitD , U32 nbBits )
{
bitD - > bitsConsumed + = nbBits ;
}
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/* FSE_readBits
* Read next n bits from the bitContainer .
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* On 32 - bits , don ' t read more than maxNbBits = = 25
* On 64 - bits , don ' t read more than maxNbBits = = 57
* Use the fast variant * only * if n > = 1.
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* return : value extracted .
*/
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size_t FSE_readBits ( FSE_DStream_t * bitD , U32 nbBits )
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{
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size_t value = FSE_lookBits ( bitD , nbBits ) ;
FSE_skipBits ( bitD , nbBits ) ;
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return value ;
}
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size_t FSE_readBitsFast ( FSE_DStream_t * bitD , U32 nbBits ) /* only if nbBits >= 1 !! */
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{
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size_t value = FSE_lookBitsFast ( bitD , nbBits ) ;
FSE_skipBits ( bitD , nbBits ) ;
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return value ;
}
unsigned FSE_reloadDStream ( FSE_DStream_t * bitD )
{
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if ( bitD - > bitsConsumed > ( sizeof ( bitD - > bitContainer ) * 8 ) ) /* should never happen */
return FSE_DStream_tooFar ;
if ( bitD - > ptr > = bitD - > start + sizeof ( bitD - > bitContainer ) )
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{
bitD - > ptr - = bitD - > bitsConsumed > > 3 ;
bitD - > bitsConsumed & = 7 ;
bitD - > bitContainer = FSE_readLEST ( bitD - > ptr ) ;
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return FSE_DStream_unfinished ;
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}
if ( bitD - > ptr = = bitD - > start )
{
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if ( bitD - > bitsConsumed < sizeof ( bitD - > bitContainer ) * 8 ) return FSE_DStream_endOfBuffer ;
return FSE_DStream_completed ;
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}
{
U32 nbBytes = bitD - > bitsConsumed > > 3 ;
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U32 result = FSE_DStream_unfinished ;
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if ( bitD - > ptr - nbBytes < bitD - > start )
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{
nbBytes = ( U32 ) ( bitD - > ptr - bitD - > start ) ; /* ptr > start */
result = FSE_DStream_endOfBuffer ;
}
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bitD - > ptr - = nbBytes ;
bitD - > bitsConsumed - = nbBytes * 8 ;
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bitD - > bitContainer = FSE_readLEST ( bitD - > ptr ) ; /* reminder : srcSize > sizeof(bitD) */
return result ;
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}
}
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void FSE_initDState ( FSE_DState_t * DStatePtr , FSE_DStream_t * bitD , const FSE_DTable * dt )
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{
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const FSE_DTableHeader * const DTableH = ( const FSE_DTableHeader * ) dt ;
DStatePtr - > state = FSE_readBits ( bitD , DTableH - > tableLog ) ;
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FSE_reloadDStream ( bitD ) ;
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DStatePtr - > table = dt + 1 ;
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}
BYTE FSE_decodeSymbol ( FSE_DState_t * DStatePtr , FSE_DStream_t * bitD )
{
const FSE_decode_t DInfo = ( ( const FSE_decode_t * ) ( DStatePtr - > table ) ) [ DStatePtr - > state ] ;
const U32 nbBits = DInfo . nbBits ;
BYTE symbol = DInfo . symbol ;
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size_t lowBits = FSE_readBits ( bitD , nbBits ) ;
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DStatePtr - > state = DInfo . newState + lowBits ;
return symbol ;
}
BYTE FSE_decodeSymbolFast ( FSE_DState_t * DStatePtr , FSE_DStream_t * bitD )
{
const FSE_decode_t DInfo = ( ( const FSE_decode_t * ) ( DStatePtr - > table ) ) [ DStatePtr - > state ] ;
const U32 nbBits = DInfo . nbBits ;
BYTE symbol = DInfo . symbol ;
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size_t lowBits = FSE_readBitsFast ( bitD , nbBits ) ;
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DStatePtr - > state = DInfo . newState + lowBits ;
return symbol ;
}
/* FSE_endOfDStream
Tells if bitD has reached end of bitStream or not */
unsigned FSE_endOfDStream ( const FSE_DStream_t * bitD )
{
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return ( ( bitD - > ptr = = bitD - > start ) & & ( bitD - > bitsConsumed = = sizeof ( bitD - > bitContainer ) * 8 ) ) ;
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}
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unsigned FSE_endOfDState ( const FSE_DState_t * DStatePtr )
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{
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return DStatePtr - > state = = 0 ;
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}
FORCE_INLINE size_t FSE_decompress_usingDTable_generic (
void * dst , size_t maxDstSize ,
const void * cSrc , size_t cSrcSize ,
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const FSE_DTable * dt , const unsigned fast )
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{
BYTE * const ostart = ( BYTE * ) dst ;
BYTE * op = ostart ;
BYTE * const omax = op + maxDstSize ;
BYTE * const olimit = omax - 3 ;
FSE_DStream_t bitD ;
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FSE_DState_t state1 ;
FSE_DState_t state2 ;
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size_t errorCode ;
/* Init */
errorCode = FSE_initDStream ( & bitD , cSrc , cSrcSize ) ; /* replaced last arg by maxCompressed Size */
if ( FSE_isError ( errorCode ) ) return errorCode ;
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FSE_initDState ( & state1 , & bitD , dt ) ;
FSE_initDState ( & state2 , & bitD , dt ) ;
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# define FSE_GETSYMBOL(statePtr) fast ? FSE_decodeSymbolFast(statePtr, &bitD) : FSE_decodeSymbol(statePtr, &bitD)
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/* 4 symbols per loop */
for ( ; ( FSE_reloadDStream ( & bitD ) = = FSE_DStream_unfinished ) & & ( op < olimit ) ; op + = 4 )
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{
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op [ 0 ] = FSE_GETSYMBOL ( & state1 ) ;
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if ( FSE_MAX_TABLELOG * 2 + 7 > sizeof ( bitD . bitContainer ) * 8 ) /* This test must be static */
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FSE_reloadDStream ( & bitD ) ;
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op [ 1 ] = FSE_GETSYMBOL ( & state2 ) ;
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if ( FSE_MAX_TABLELOG * 4 + 7 > sizeof ( bitD . bitContainer ) * 8 ) /* This test must be static */
{ if ( FSE_reloadDStream ( & bitD ) > FSE_DStream_unfinished ) { op + = 2 ; break ; } }
op [ 2 ] = FSE_GETSYMBOL ( & state1 ) ;
if ( FSE_MAX_TABLELOG * 2 + 7 > sizeof ( bitD . bitContainer ) * 8 ) /* This test must be static */
FSE_reloadDStream ( & bitD ) ;
op [ 3 ] = FSE_GETSYMBOL ( & state2 ) ;
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}
/* tail */
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/* note : FSE_reloadDStream(&bitD) >= FSE_DStream_partiallyFilled; Ends at exactly FSE_DStream_completed */
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while ( 1 )
{
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if ( ( FSE_reloadDStream ( & bitD ) > FSE_DStream_completed ) | | ( op = = omax ) | | ( FSE_endOfDStream ( & bitD ) & & ( fast | | FSE_endOfDState ( & state1 ) ) ) )
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break ;
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* op + + = FSE_GETSYMBOL ( & state1 ) ;
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if ( ( FSE_reloadDStream ( & bitD ) > FSE_DStream_completed ) | | ( op = = omax ) | | ( FSE_endOfDStream ( & bitD ) & & ( fast | | FSE_endOfDState ( & state2 ) ) ) )
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break ;
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* op + + = FSE_GETSYMBOL ( & state2 ) ;
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}
/* end ? */
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if ( FSE_endOfDStream ( & bitD ) & & FSE_endOfDState ( & state1 ) & & FSE_endOfDState ( & state2 ) )
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return op - ostart ;
if ( op = = omax ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* dst buffer is full, but cSrc unfinished */
return ( size_t ) - FSE_ERROR_corruptionDetected ;
}
size_t FSE_decompress_usingDTable ( void * dst , size_t originalSize ,
const void * cSrc , size_t cSrcSize ,
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const FSE_DTable * dt )
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{
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const FSE_DTableHeader * DTableH = ( const FSE_DTableHeader * ) dt ;
const U32 fastMode = DTableH - > fastMode ;
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/* select fast mode (static) */
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if ( fastMode ) return FSE_decompress_usingDTable_generic ( dst , originalSize , cSrc , cSrcSize , dt , 1 ) ;
return FSE_decompress_usingDTable_generic ( dst , originalSize , cSrc , cSrcSize , dt , 0 ) ;
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}
size_t FSE_decompress ( void * dst , size_t maxDstSize , const void * cSrc , size_t cSrcSize )
{
const BYTE * const istart = ( const BYTE * ) cSrc ;
const BYTE * ip = istart ;
short counting [ FSE_MAX_SYMBOL_VALUE + 1 ] ;
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DTable_max_t dt ; /* Static analyzer seems unable to understand this table will be properly initialized later */
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unsigned tableLog ;
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unsigned maxSymbolValue = FSE_MAX_SYMBOL_VALUE ;
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size_t errorCode ;
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if ( cSrcSize < 2 ) return ( size_t ) - FSE_ERROR_srcSize_wrong ; /* too small input size */
/* normal FSE decoding mode */
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errorCode = FSE_readNCount ( counting , & maxSymbolValue , & tableLog , istart , cSrcSize ) ;
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if ( FSE_isError ( errorCode ) ) return errorCode ;
if ( errorCode > = cSrcSize ) return ( size_t ) - FSE_ERROR_srcSize_wrong ; /* too small input size */
ip + = errorCode ;
cSrcSize - = errorCode ;
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errorCode = FSE_buildDTable ( dt , counting , maxSymbolValue , tableLog ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
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/* always return, even if it is an error code */
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return FSE_decompress_usingDTable ( dst , maxDstSize , ip , cSrcSize , dt ) ;
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}
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/*********************************************************
* Huff0 : Huffman block compression
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define HUF_MAX_SYMBOL_VALUE 255
# define HUF_DEFAULT_TABLELOG 12 /* used by default, when not specified */
# define HUF_MAX_TABLELOG 12 /* max possible tableLog; for allocation purpose; can be modified */
# define HUF_ABSOLUTEMAX_TABLELOG 16 /* absolute limit of HUF_MAX_TABLELOG. Beyond that value, code does not work */
# if (HUF_MAX_TABLELOG > HUF_ABSOLUTEMAX_TABLELOG)
# error "HUF_MAX_TABLELOG is too large !"
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# endif
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typedef struct HUF_CElt_s {
U16 val ;
BYTE nbBits ;
} HUF_CElt ;
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typedef struct nodeElt_s {
U32 count ;
U16 parent ;
BYTE byte ;
BYTE nbBits ;
} nodeElt ;
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/* HUF_writeCTable() :
return : size of saved CTable */
size_t HUF_writeCTable ( void * dst , size_t maxDstSize , const HUF_CElt * tree , U32 maxSymbolValue , U32 huffLog )
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{
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BYTE bitsToWeight [ HUF_ABSOLUTEMAX_TABLELOG + 1 ] ;
BYTE huffWeight [ HUF_MAX_SYMBOL_VALUE + 1 ] ;
U32 n ;
BYTE * op = ( BYTE * ) dst ;
size_t size ;
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/* check conditions */
if ( maxSymbolValue > HUF_MAX_SYMBOL_VALUE + 1 )
return ( size_t ) - FSE_ERROR_GENERIC ;
/* convert to weight */
bitsToWeight [ 0 ] = 0 ;
for ( n = 1 ; n < = huffLog ; n + + )
bitsToWeight [ n ] = ( BYTE ) ( huffLog + 1 - n ) ;
for ( n = 0 ; n < maxSymbolValue ; n + + )
huffWeight [ n ] = bitsToWeight [ tree [ n ] . nbBits ] ;
size = FSE_compress ( op + 1 , maxDstSize - 1 , huffWeight , maxSymbolValue ) ; /* don't need last symbol stat : implied */
if ( FSE_isError ( size ) ) return size ;
if ( size > = 128 ) return ( size_t ) - FSE_ERROR_GENERIC ; /* should never happen, since maxSymbolValue <= 255 */
if ( ( size < = 1 ) | | ( size > = maxSymbolValue / 2 ) )
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{
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if ( size = = 1 ) /* RLE */
{
/* only possible case : serie of 1 (because there are at least 2) */
/* can only be 2^n or (2^n-1), otherwise not an huffman tree */
BYTE code ;
switch ( maxSymbolValue )
{
case 1 : code = 0 ; break ;
case 2 : code = 1 ; break ;
case 3 : code = 2 ; break ;
case 4 : code = 3 ; break ;
case 7 : code = 4 ; break ;
case 8 : code = 5 ; break ;
case 15 : code = 6 ; break ;
case 16 : code = 7 ; break ;
case 31 : code = 8 ; break ;
case 32 : code = 9 ; break ;
case 63 : code = 10 ; break ;
case 64 : code = 11 ; break ;
case 127 : code = 12 ; break ;
case 128 : code = 13 ; break ;
default : return ( size_t ) - FSE_ERROR_corruptionDetected ;
}
op [ 0 ] = ( BYTE ) ( 255 - 13 + code ) ;
return 1 ;
}
/* Not compressible */
if ( maxSymbolValue > ( 241 - 128 ) ) return ( size_t ) - FSE_ERROR_GENERIC ; /* not implemented (not possible with current format) */
if ( ( ( maxSymbolValue + 1 ) / 2 ) + 1 > maxDstSize ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* not enough space within dst buffer */
op [ 0 ] = ( BYTE ) ( 128 /*special case*/ + 0 /* Not Compressible */ + ( maxSymbolValue - 1 ) ) ;
huffWeight [ maxSymbolValue ] = 0 ; /* to be sure it doesn't cause issue in final combination */
for ( n = 0 ; n < maxSymbolValue ; n + = 2 )
op [ ( n / 2 ) + 1 ] = ( BYTE ) ( ( huffWeight [ n ] < < 4 ) + huffWeight [ n + 1 ] ) ;
return ( ( maxSymbolValue + 1 ) / 2 ) + 1 ;
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}
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/* normal header case */
op [ 0 ] = ( BYTE ) size ;
return size + 1 ;
}
static U32 HUF_setMaxHeight ( nodeElt * huffNode , U32 lastNonNull , U32 maxNbBits )
{
int totalCost = 0 ;
const U32 largestBits = huffNode [ lastNonNull ] . nbBits ;
/* early exit : all is fine */
if ( largestBits < = maxNbBits ) return largestBits ;
// now we have a few too large elements (at least >= 2)
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{
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const U32 baseCost = 1 < < ( largestBits - maxNbBits ) ;
U32 n = lastNonNull ;
while ( huffNode [ n ] . nbBits > maxNbBits )
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{
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totalCost + = baseCost - ( 1 < < ( largestBits - huffNode [ n ] . nbBits ) ) ;
huffNode [ n ] . nbBits = ( BYTE ) maxNbBits ;
n - - ;
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}
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/* renorm totalCost */
totalCost > > = ( largestBits - maxNbBits ) ; /* note : totalCost necessarily multiple of baseCost */
// repay cost
while ( huffNode [ n ] . nbBits = = maxNbBits ) n - - ; // n at last of rank (maxNbBits-1)
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{
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const U32 noOne = 0xF0F0F0F0 ;
// Get pos of last (smallest) symbol per rank
U32 rankLast [ HUF_MAX_TABLELOG ] ;
U32 currentNbBits = maxNbBits ;
int pos ;
memset ( rankLast , 0xF0 , sizeof ( rankLast ) ) ;
for ( pos = n ; pos > = 0 ; pos - - )
{
if ( huffNode [ pos ] . nbBits > = currentNbBits ) continue ;
currentNbBits = huffNode [ pos ] . nbBits ;
rankLast [ maxNbBits - currentNbBits ] = pos ;
}
while ( totalCost > 0 )
{
U32 nBitsToDecrease = FSE_highbit32 ( totalCost ) + 1 ;
for ( ; nBitsToDecrease > 1 ; nBitsToDecrease - - )
{
U32 highPos = rankLast [ nBitsToDecrease ] ;
U32 lowPos = rankLast [ nBitsToDecrease - 1 ] ;
if ( highPos = = noOne ) continue ;
if ( lowPos = = noOne ) break ;
{
U32 highTotal = huffNode [ highPos ] . count ;
U32 lowTotal = 2 * huffNode [ lowPos ] . count ;
if ( highTotal < = lowTotal ) break ;
}
}
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Warray-bounds"
while ( rankLast [ nBitsToDecrease ] = = noOne )
nBitsToDecrease + + ; // In some rare cases, no more rank 1 left => overshoot to closest
# pragma GCC diagnostic pop
totalCost - = 1 < < ( nBitsToDecrease - 1 ) ;
if ( rankLast [ nBitsToDecrease - 1 ] = = noOne )
rankLast [ nBitsToDecrease - 1 ] = rankLast [ nBitsToDecrease ] ; // now there is one elt
huffNode [ rankLast [ nBitsToDecrease ] ] . nbBits + + ;
if ( rankLast [ nBitsToDecrease ] = = 0 )
rankLast [ nBitsToDecrease ] = noOne ;
else
{
rankLast [ nBitsToDecrease ] - - ;
if ( huffNode [ rankLast [ nBitsToDecrease ] ] . nbBits ! = maxNbBits - nBitsToDecrease )
rankLast [ nBitsToDecrease ] = noOne ; // rank list emptied
}
}
while ( totalCost < 0 ) /* Sometimes, cost correction overshoot */
{
if ( rankLast [ 1 ] = = noOne ) /* special case, no weight 1, let's find it back at n */
{
while ( huffNode [ n ] . nbBits = = maxNbBits ) n - - ;
huffNode [ n + 1 ] . nbBits - - ;
rankLast [ 1 ] = n + 1 ;
totalCost + + ;
continue ;
}
huffNode [ rankLast [ 1 ] + 1 ] . nbBits - - ;
rankLast [ 1 ] + + ;
totalCost + + ;
}
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}
}
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return maxNbBits ;
}
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typedef struct {
U32 base ;
U32 current ;
} rankPos ;
static void HUF_sort ( nodeElt * huffNode , const U32 * count , U32 maxSymbolValue )
{
rankPos rank [ 32 ] ;
U32 n ;
memset ( rank , 0 , sizeof ( rank ) ) ;
for ( n = 0 ; n < = maxSymbolValue ; n + + )
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{
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U32 r = FSE_highbit32 ( count [ n ] + 1 ) ;
rank [ r ] . base + + ;
}
for ( n = 30 ; n > 0 ; n - - ) rank [ n - 1 ] . base + = rank [ n ] . base ;
for ( n = 0 ; n < 32 ; n + + ) rank [ n ] . current = rank [ n ] . base ;
for ( n = 0 ; n < = maxSymbolValue ; n + + )
{
U32 c = count [ n ] ;
U32 r = FSE_highbit32 ( c + 1 ) + 1 ;
U32 pos = rank [ r ] . current + + ;
while ( ( pos > rank [ r ] . base ) & & ( c > huffNode [ pos - 1 ] . count ) ) huffNode [ pos ] = huffNode [ pos - 1 ] , pos - - ;
huffNode [ pos ] . count = c ;
huffNode [ pos ] . byte = ( BYTE ) n ;
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}
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}
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# define STARTNODE (HUF_MAX_SYMBOL_VALUE+1)
size_t HUF_buildCTable ( HUF_CElt * tree , const U32 * count , U32 maxSymbolValue , U32 maxNbBits )
{
nodeElt huffNode0 [ 2 * HUF_MAX_SYMBOL_VALUE + 1 + 1 ] ;
nodeElt * huffNode = huffNode0 + 1 ;
U32 n , nonNullRank ;
int lowS , lowN ;
U16 nodeNb = STARTNODE ;
U32 nodeRoot ;
/* safety checks */
if ( maxNbBits = = 0 ) maxNbBits = HUF_DEFAULT_TABLELOG ;
if ( maxSymbolValue > HUF_MAX_SYMBOL_VALUE ) return ( size_t ) - FSE_ERROR_GENERIC ;
memset ( huffNode0 , 0 , sizeof ( huffNode0 ) ) ;
// sort, decreasing order
HUF_sort ( huffNode , count , maxSymbolValue ) ;
// init for parents
nonNullRank = maxSymbolValue ;
while ( huffNode [ nonNullRank ] . count = = 0 ) nonNullRank - - ;
lowS = nonNullRank ; nodeRoot = nodeNb + lowS - 1 ; lowN = nodeNb ;
huffNode [ nodeNb ] . count = huffNode [ lowS ] . count + huffNode [ lowS - 1 ] . count ;
huffNode [ lowS ] . parent = huffNode [ lowS - 1 ] . parent = nodeNb ;
nodeNb + + ; lowS - = 2 ;
for ( n = nodeNb ; n < = nodeRoot ; n + + ) huffNode [ n ] . count = ( U32 ) ( 1U < < 30 ) ;
huffNode0 [ 0 ] . count = ( U32 ) ( 1U < < 31 ) ;
// create parents
while ( nodeNb < = nodeRoot )
{
U32 n1 = ( huffNode [ lowS ] . count < huffNode [ lowN ] . count ) ? lowS - - : lowN + + ;
U32 n2 = ( huffNode [ lowS ] . count < huffNode [ lowN ] . count ) ? lowS - - : lowN + + ;
huffNode [ nodeNb ] . count = huffNode [ n1 ] . count + huffNode [ n2 ] . count ;
huffNode [ n1 ] . parent = huffNode [ n2 ] . parent = nodeNb ;
nodeNb + + ;
}
// distribute weights (unlimited tree height)
huffNode [ nodeRoot ] . nbBits = 0 ;
for ( n = nodeRoot - 1 ; n > = STARTNODE ; n - - )
huffNode [ n ] . nbBits = huffNode [ huffNode [ n ] . parent ] . nbBits + 1 ;
for ( n = 0 ; n < = nonNullRank ; n + + )
huffNode [ n ] . nbBits = huffNode [ huffNode [ n ] . parent ] . nbBits + 1 ;
// enforce maxTableLog
maxNbBits = HUF_setMaxHeight ( huffNode , nonNullRank , maxNbBits ) ;
// fill result into tree (val, nbBits)
{
U16 nbPerRank [ HUF_ABSOLUTEMAX_TABLELOG + 1 ] = { 0 } ;
U16 valPerRank [ HUF_ABSOLUTEMAX_TABLELOG + 1 ] ;
if ( maxNbBits > HUF_ABSOLUTEMAX_TABLELOG ) return ( size_t ) - FSE_ERROR_GENERIC ; // check
for ( n = 0 ; n < = nonNullRank ; n + + )
nbPerRank [ huffNode [ n ] . nbBits ] + + ;
{
// determine stating value per rank
U16 min = 0 ;
for ( n = maxNbBits ; n > 0 ; n - - )
{
valPerRank [ n ] = min ; // get starting value within each rank
min + = nbPerRank [ n ] ;
min > > = 1 ;
}
}
for ( n = 0 ; n < = maxSymbolValue ; n + + )
tree [ huffNode [ n ] . byte ] . nbBits = huffNode [ n ] . nbBits ; // push nbBits per symbol, symbol order
for ( n = 0 ; n < = maxSymbolValue ; n + + )
tree [ n ] . val = valPerRank [ tree [ n ] . nbBits ] + + ; // assign value within rank, symbol order
}
return maxNbBits ;
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}
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static void HUF_encodeSymbol ( FSE_CStream_t * bitCPtr , U32 symbol , const HUF_CElt * CTable )
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{
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FSE_addBitsFast ( bitCPtr , CTable [ symbol ] . val , CTable [ symbol ] . nbBits ) ;
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}
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# define FSE_FLUSHBITS_1(stream) \
if ( sizeof ( ( stream ) - > bitContainer ) * 8 < HUF_MAX_TABLELOG * 2 + 7 ) FSE_FLUSHBITS ( stream )
# define FSE_FLUSHBITS_2(stream) \
if ( sizeof ( ( stream ) - > bitContainer ) * 8 < HUF_MAX_TABLELOG * 4 + 7 ) FSE_FLUSHBITS ( stream )
size_t HUF_compress_usingCTable ( void * dst , size_t dstSize , const void * src , size_t srcSize , HUF_CElt * CTable )
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{
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const BYTE * ip = ( const BYTE * ) src ;
BYTE * const ostart = ( BYTE * ) dst ;
BYTE * op = ( BYTE * ) ostart ;
BYTE * const oend = ostart + dstSize ;
U16 * jumpTable = ( U16 * ) dst ;
size_t n , streamSize ;
const unsigned fast = ( dstSize > = HUF_BLOCKBOUND ( srcSize ) ) ;
size_t errorCode ;
FSE_CStream_t bitC ;
/* init */
if ( dstSize < 8 ) return 0 ;
op + = 6 ; /* jump Table -- could be optimized by delta / deviation */
errorCode = FSE_initCStream ( & bitC , op , oend - op ) ;
if ( FSE_isError ( errorCode ) ) return 0 ;
n = srcSize & ~ 15 ; // mod 16
switch ( srcSize & 15 )
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{
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case 15 : HUF_encodeSymbol ( & bitC , ip [ n + 14 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 14 : HUF_encodeSymbol ( & bitC , ip [ n + 13 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
case 13 : HUF_encodeSymbol ( & bitC , ip [ n + 12 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 12 : HUF_encodeSymbol ( & bitC , ip [ n + 11 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
case 11 : HUF_encodeSymbol ( & bitC , ip [ n + 10 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 10 : HUF_encodeSymbol ( & bitC , ip [ n + 9 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
case 9 : HUF_encodeSymbol ( & bitC , ip [ n + 8 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 8 : HUF_encodeSymbol ( & bitC , ip [ n + 7 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
case 7 : HUF_encodeSymbol ( & bitC , ip [ n + 6 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 6 : HUF_encodeSymbol ( & bitC , ip [ n + 5 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
case 5 : HUF_encodeSymbol ( & bitC , ip [ n + 4 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 4 : HUF_encodeSymbol ( & bitC , ip [ n + 3 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
case 3 : HUF_encodeSymbol ( & bitC , ip [ n + 2 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
case 2 : HUF_encodeSymbol ( & bitC , ip [ n + 1 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
case 1 : HUF_encodeSymbol ( & bitC , ip [ n + 0 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
case 0 :
default : ;
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}
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for ( ; n > 0 ; n - = 16 )
{
HUF_encodeSymbol ( & bitC , ip [ n - 4 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 8 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 12 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 16 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
}
streamSize = FSE_closeCStream ( & bitC ) ;
if ( streamSize = = 0 ) return 0 ; /* not enough space within dst buffer == uncompressible */
FSE_writeLE16 ( jumpTable , ( U16 ) streamSize ) ;
op + = streamSize ;
errorCode = FSE_initCStream ( & bitC , op , oend - op ) ;
if ( FSE_isError ( errorCode ) ) return 0 ;
n = srcSize & ~ 15 ; // mod 16
for ( ; n > 0 ; n - = 16 )
{
HUF_encodeSymbol ( & bitC , ip [ n - 3 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 7 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 11 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 15 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
}
streamSize = FSE_closeCStream ( & bitC ) ;
if ( streamSize = = 0 ) return 0 ; /* not enough space within dst buffer == uncompressible */
FSE_writeLE16 ( jumpTable + 1 , ( U16 ) streamSize ) ;
op + = streamSize ;
errorCode = FSE_initCStream ( & bitC , op , oend - op ) ;
if ( FSE_isError ( errorCode ) ) return 0 ;
n = srcSize & ~ 15 ; // mod 16
for ( ; n > 0 ; n - = 16 )
{
HUF_encodeSymbol ( & bitC , ip [ n - 2 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 6 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 10 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 14 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
}
streamSize = FSE_closeCStream ( & bitC ) ;
if ( streamSize = = 0 ) return 0 ; /* not enough space within dst buffer == uncompressible */
FSE_writeLE16 ( jumpTable + 2 , ( U16 ) streamSize ) ;
op + = streamSize ;
errorCode = FSE_initCStream ( & bitC , op , oend - op ) ;
if ( FSE_isError ( errorCode ) ) return 0 ;
n = srcSize & ~ 15 ; // mod 16
for ( ; n > 0 ; n - = 16 )
{
HUF_encodeSymbol ( & bitC , ip [ n - 1 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 5 ] , CTable ) ;
FSE_FLUSHBITS_2 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 9 ] , CTable ) ;
FSE_FLUSHBITS_1 ( & bitC ) ;
HUF_encodeSymbol ( & bitC , ip [ n - 13 ] , CTable ) ;
FSE_FLUSHBITS ( & bitC ) ;
}
streamSize = FSE_closeCStream ( & bitC ) ;
if ( streamSize = = 0 ) return 0 ; /* not enough space within dst buffer == uncompressible */
op + = streamSize ;
return op - ostart ;
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}
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size_t HUF_compress2 ( void * dst , size_t dstSize , const void * src , size_t srcSize , unsigned maxSymbolValue , unsigned huffLog )
{
BYTE * const ostart = ( BYTE * ) dst ;
BYTE * op = ostart ;
BYTE * const oend = ostart + dstSize ;
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U32 count [ HUF_MAX_SYMBOL_VALUE + 1 ] ;
HUF_CElt CTable [ HUF_MAX_SYMBOL_VALUE + 1 ] ;
size_t errorCode ;
/* early out */
if ( srcSize < = 1 ) return srcSize ; /* Uncompressed or RLE */
if ( ! maxSymbolValue ) maxSymbolValue = HUF_MAX_SYMBOL_VALUE ;
if ( ! huffLog ) huffLog = HUF_DEFAULT_TABLELOG ;
/* Scan input and build symbol stats */
errorCode = FSE_count ( count , & maxSymbolValue , ( const BYTE * ) src , srcSize ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
if ( errorCode = = srcSize ) return 1 ;
if ( errorCode < ( srcSize > > 7 ) ) return 0 ; /* Heuristic : not compressible enough */
/* Build Huffman Tree */
errorCode = HUF_buildCTable ( CTable , count , maxSymbolValue , huffLog ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
huffLog = ( U32 ) errorCode ;
/* Write table description header */
errorCode = HUF_writeCTable ( op , dstSize , CTable , maxSymbolValue , huffLog ) ; /* don't write last symbol, implied */
if ( FSE_isError ( errorCode ) ) return errorCode ;
op + = errorCode ;
/* Compress */
errorCode = HUF_compress_usingCTable ( op , oend - op , src , srcSize , CTable ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
if ( errorCode = = 0 ) return 0 ;
op + = errorCode ;
/* check compressibility */
if ( ( size_t ) ( op - ostart ) > = srcSize - 1 )
return op - ostart ;
return op - ostart ;
}
size_t HUF_compress ( void * dst , size_t maxDstSize , const void * src , size_t srcSize )
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{
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return HUF_compress2 ( dst , maxDstSize , src , ( U32 ) srcSize , 255 , HUF_DEFAULT_TABLELOG ) ;
}
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/*********************************************************
* Huff0 : Huffman block decompression
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
typedef struct {
BYTE byte ;
BYTE nbBits ;
} HUF_DElt ;
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size_t HUF_readDTable ( U16 * DTable , const void * src , size_t srcSize )
{
BYTE huffWeight [ HUF_MAX_SYMBOL_VALUE + 1 ] ;
U32 rankVal [ HUF_ABSOLUTEMAX_TABLELOG + 1 ] ; /* large enough for values from 0 to 16 */
U32 weightTotal ;
U32 maxBits ;
const BYTE * ip = ( const BYTE * ) src ;
size_t iSize = ip [ 0 ] ;
size_t oSize ;
U32 n ;
U32 nextRankStart ;
HUF_DElt * const dt = ( HUF_DElt * ) ( DTable + 1 ) ;
FSE_STATIC_ASSERT ( sizeof ( HUF_DElt ) = = sizeof ( U16 ) ) ; /* if compilation fails here, assertion is false */
//memset(huffWeight, 0, sizeof(huffWeight)); /* should not be necessary, but some analyzer complain ... */
if ( iSize > = 128 ) /* special header */
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{
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if ( iSize > = ( 242 ) ) /* RLE */
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{
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static int l [ 14 ] = { 1 , 2 , 3 , 4 , 7 , 8 , 15 , 16 , 31 , 32 , 63 , 64 , 127 , 128 } ;
oSize = l [ iSize - 242 ] ;
memset ( huffWeight , 1 , oSize ) ;
iSize = 0 ;
}
else /* Incompressible */
{
oSize = iSize - 127 ;
iSize = ( ( oSize + 1 ) / 2 ) ;
if ( iSize + 1 > srcSize ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
ip + = 1 ;
for ( n = 0 ; n < oSize ; n + = 2 )
{
huffWeight [ n ] = ip [ n / 2 ] > > 4 ;
huffWeight [ n + 1 ] = ip [ n / 2 ] & 15 ;
}
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}
}
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else /* header compressed with FSE (normal case) */
{
if ( iSize + 1 > srcSize ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
oSize = FSE_decompress ( huffWeight , HUF_MAX_SYMBOL_VALUE , ip + 1 , iSize ) ; /* max 255 values decoded, last one is implied */
if ( FSE_isError ( oSize ) ) return oSize ;
}
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/* collect weight stats */
memset ( rankVal , 0 , sizeof ( rankVal ) ) ;
weightTotal = 0 ;
for ( n = 0 ; n < oSize ; n + + )
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{
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if ( huffWeight [ n ] > = HUF_ABSOLUTEMAX_TABLELOG ) return ( size_t ) - FSE_ERROR_corruptionDetected ;
rankVal [ huffWeight [ n ] ] + + ;
weightTotal + = ( 1 < < huffWeight [ n ] ) > > 1 ;
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}
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/* get last non-null symbol weight (implied, total must be 2^n) */
maxBits = FSE_highbit32 ( weightTotal ) + 1 ;
if ( maxBits > DTable [ 0 ] ) return ( size_t ) - FSE_ERROR_tableLog_tooLarge ; /* DTable is too small */
DTable [ 0 ] = ( U16 ) maxBits ;
{
U32 total = 1 < < maxBits ;
U32 rest = total - weightTotal ;
U32 verif = 1 < < FSE_highbit32 ( rest ) ;
U32 lastWeight = FSE_highbit32 ( rest ) + 1 ;
if ( verif ! = rest ) return ( size_t ) - FSE_ERROR_corruptionDetected ; /* last value must be a clean power of 2 */
huffWeight [ oSize ] = ( BYTE ) lastWeight ;
rankVal [ lastWeight ] + + ;
}
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/* check tree construction validity */
if ( ( rankVal [ 1 ] < 2 ) | | ( rankVal [ 1 ] & 1 ) ) return ( size_t ) - FSE_ERROR_corruptionDetected ; /* by construction : at least 2 elts of rank 1, must be even */
/* Prepare ranks */
nextRankStart = 0 ;
for ( n = 1 ; n < = maxBits ; n + + )
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{
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U32 current = nextRankStart ;
nextRankStart + = ( rankVal [ n ] < < ( n - 1 ) ) ;
rankVal [ n ] = current ;
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}
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/* fill DTable */
for ( n = 0 ; n < = oSize ; n + + )
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{
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const U32 w = huffWeight [ n ] ;
const U32 length = ( 1 < < w ) > > 1 ;
U32 i ;
HUF_DElt D ;
D . byte = ( BYTE ) n ; D . nbBits = ( BYTE ) ( maxBits + 1 - w ) ;
for ( i = rankVal [ w ] ; i < rankVal [ w ] + length ; i + + )
dt [ i ] = D ;
rankVal [ w ] + = length ;
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}
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return iSize + 1 ;
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}
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static BYTE HUF_decodeSymbol ( FSE_DStream_t * Dstream , const HUF_DElt * dt , const U32 dtLog )
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{
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const size_t val = FSE_lookBitsFast ( Dstream , dtLog ) ; /* note : dtLog >= 1 */
const BYTE c = dt [ val ] . byte ;
FSE_skipBits ( Dstream , dt [ val ] . nbBits ) ;
return c ;
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}
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static size_t HUF_decompress_usingDTable ( /* -3% slower when non static */
void * dst , size_t maxDstSize ,
const void * cSrc , size_t cSrcSize ,
const U16 * DTable )
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{
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BYTE * const ostart = ( BYTE * ) dst ;
BYTE * op = ostart ;
BYTE * const omax = op + maxDstSize ;
BYTE * const olimit = omax - 15 ;
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const HUF_DElt * const dt = ( const HUF_DElt * ) ( DTable + 1 ) ;
const U32 dtLog = DTable [ 0 ] ;
size_t errorCode ;
U32 reloadStatus ;
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/* Init */
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const U16 * jumpTable = ( const U16 * ) cSrc ;
const size_t length1 = FSE_readLE16 ( jumpTable ) ;
const size_t length2 = FSE_readLE16 ( jumpTable + 1 ) ;
const size_t length3 = FSE_readLE16 ( jumpTable + 2 ) ;
const size_t length4 = cSrcSize - 6 - length1 - length2 - length3 ; // check coherency !!
const char * const start1 = ( const char * ) ( cSrc ) + 6 ;
const char * const start2 = start1 + length1 ;
const char * const start3 = start2 + length2 ;
const char * const start4 = start3 + length3 ;
FSE_DStream_t bitD1 , bitD2 , bitD3 , bitD4 ;
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if ( length1 + length2 + length3 + 6 > = cSrcSize ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
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errorCode = FSE_initDStream ( & bitD1 , start1 , length1 ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
errorCode = FSE_initDStream ( & bitD2 , start2 , length2 ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
errorCode = FSE_initDStream ( & bitD3 , start3 , length3 ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
errorCode = FSE_initDStream ( & bitD4 , start4 , length4 ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
reloadStatus = FSE_reloadDStream ( & bitD2 ) ;
/* 16 symbols per loop */
for ( ; ( reloadStatus < FSE_DStream_completed ) & & ( op < olimit ) ; /* D2-3-4 are supposed to be synchronized and finish together */
op + = 16 , reloadStatus = FSE_reloadDStream ( & bitD2 ) | FSE_reloadDStream ( & bitD3 ) | FSE_reloadDStream ( & bitD4 ) , FSE_reloadDStream ( & bitD1 ) )
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{
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# define HUF_DECODE_SYMBOL_0(n, Dstream) \
op [ n ] = HUF_decodeSymbol ( & Dstream , dt , dtLog ) ;
# define HUF_DECODE_SYMBOL_1(n, Dstream) \
op [ n ] = HUF_decodeSymbol ( & Dstream , dt , dtLog ) ; \
if ( FSE_32bits ( ) & & ( HUF_MAX_TABLELOG > 12 ) ) FSE_reloadDStream ( & Dstream )
# define HUF_DECODE_SYMBOL_2(n, Dstream) \
op [ n ] = HUF_decodeSymbol ( & Dstream , dt , dtLog ) ; \
if ( FSE_32bits ( ) ) FSE_reloadDStream ( & Dstream )
HUF_DECODE_SYMBOL_1 ( 0 , bitD1 ) ;
HUF_DECODE_SYMBOL_1 ( 1 , bitD2 ) ;
HUF_DECODE_SYMBOL_1 ( 2 , bitD3 ) ;
HUF_DECODE_SYMBOL_1 ( 3 , bitD4 ) ;
HUF_DECODE_SYMBOL_2 ( 4 , bitD1 ) ;
HUF_DECODE_SYMBOL_2 ( 5 , bitD2 ) ;
HUF_DECODE_SYMBOL_2 ( 6 , bitD3 ) ;
HUF_DECODE_SYMBOL_2 ( 7 , bitD4 ) ;
HUF_DECODE_SYMBOL_1 ( 8 , bitD1 ) ;
HUF_DECODE_SYMBOL_1 ( 9 , bitD2 ) ;
HUF_DECODE_SYMBOL_1 ( 10 , bitD3 ) ;
HUF_DECODE_SYMBOL_1 ( 11 , bitD4 ) ;
HUF_DECODE_SYMBOL_0 ( 12 , bitD1 ) ;
HUF_DECODE_SYMBOL_0 ( 13 , bitD2 ) ;
HUF_DECODE_SYMBOL_0 ( 14 , bitD3 ) ;
HUF_DECODE_SYMBOL_0 ( 15 , bitD4 ) ;
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}
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if ( reloadStatus ! = FSE_DStream_completed ) /* not complete : some bitStream might be FSE_DStream_unfinished */
return ( size_t ) - FSE_ERROR_corruptionDetected ;
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/* tail */
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{
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// bitTail = bitD1; // *much* slower : -20% !??!
FSE_DStream_t bitTail ;
bitTail . ptr = bitD1 . ptr ;
bitTail . bitsConsumed = bitD1 . bitsConsumed ;
bitTail . bitContainer = bitD1 . bitContainer ; // required in case of FSE_DStream_endOfBuffer
bitTail . start = start1 ;
for ( ; ( FSE_reloadDStream ( & bitTail ) < FSE_DStream_completed ) & & ( op < omax ) ; op + + )
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{
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HUF_DECODE_SYMBOL_0 ( 0 , bitTail ) ;
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}
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if ( FSE_endOfDStream ( & bitTail ) )
return op - ostart ;
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}
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if ( op = = omax ) return ( size_t ) - FSE_ERROR_dstSize_tooSmall ; /* dst buffer is full, but cSrc unfinished */
return ( size_t ) - FSE_ERROR_corruptionDetected ;
}
size_t HUF_decompress ( void * dst , size_t maxDstSize , const void * cSrc , size_t cSrcSize )
{
HUF_CREATE_STATIC_DTABLE ( DTable , HUF_MAX_TABLELOG ) ;
const BYTE * ip = ( const BYTE * ) cSrc ;
size_t errorCode ;
errorCode = HUF_readDTable ( DTable , cSrc , cSrcSize ) ;
if ( FSE_isError ( errorCode ) ) return errorCode ;
if ( errorCode > = cSrcSize ) return ( size_t ) - FSE_ERROR_srcSize_wrong ;
ip + = errorCode ;
cSrcSize - = errorCode ;
return HUF_decompress_usingDTable ( dst , maxDstSize , ip , cSrcSize , DTable ) ;
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}
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# endif /* FSE_COMMONDEFS_ONLY */