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/*
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* xxHash - Fast Hash algorithm
* Copyright ( C ) 2012 - 2016 , 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 :
* - xxHash homepage : http : //www.xxhash.com
* - xxHash source repository : https : //github.com/Cyan4973/xxHash
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*/
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/* *************************************
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* Tuning parameters
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/*!XXH_FORCE_MEMORY_ACCESS :
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* 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 ` .
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* Method 2 : direct access . This method doesn ' t depend on compiler but violate C standard .
* It can generate buggy code on targets which do not support unaligned memory accesses .
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* But in some circumstances , it ' s the only known way to get the most performance ( ie GCC + ARMv6 )
* See http : //stackoverflow.com/a/32095106/646947 for details.
* Prefer these methods in priority order ( 0 > 1 > 2 )
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*/
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# ifndef XXH_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 XXH_FORCE_MEMORY_ACCESS 2
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# elif (defined(__INTEL_COMPILER) && !defined(WIN32)) || \
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( defined ( __GNUC__ ) & & ( defined ( __ARM_ARCH_7__ ) | | defined ( __ARM_ARCH_7A__ ) | | defined ( __ARM_ARCH_7R__ ) | | defined ( __ARM_ARCH_7M__ ) | | defined ( __ARM_ARCH_7S__ ) ) )
# define XXH_FORCE_MEMORY_ACCESS 1
# endif
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# endif
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/*!XXH_ACCEPT_NULL_INPUT_POINTER :
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* If the input pointer is a null pointer , xxHash default behavior is to trigger a memory access error , since it is a bad pointer .
* When this option is enabled , xxHash output for null input pointers will be the same as a null - length input .
* By default , this option is disabled . To enable it , uncomment below define :
*/
/* #define XXH_ACCEPT_NULL_INPUT_POINTER 1 */
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/*!XXH_FORCE_NATIVE_FORMAT :
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* By default , xxHash library provides endian - independant Hash values , based on little - endian convention .
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* Results are therefore identical for little - endian and big - endian CPU .
* This comes at a performance cost for big - endian CPU , since some swapping is required to emulate little - endian format .
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* Should endian - independance be of no importance for your application , you may set the # define below to 1 ,
* to improve speed for Big - endian CPU .
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* This option has no impact on Little_Endian CPU .
*/
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# ifndef XXH_FORCE_NATIVE_FORMAT /* can be defined externally */
# define XXH_FORCE_NATIVE_FORMAT 0
# endif
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/*!XXH_FORCE_ALIGN_CHECK :
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* This is a minor performance trick , only useful with lots of very small keys .
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* It means : check for aligned / unaligned input .
* The check costs one initial branch per hash ; set to 0 when the input data
* is guaranteed to be aligned .
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*/
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# ifndef XXH_FORCE_ALIGN_CHECK /* can be defined externally */
# if defined(__i386) || defined(_M_IX86) || defined(__x86_64__) || defined(_M_X64)
# define XXH_FORCE_ALIGN_CHECK 0
# else
# define XXH_FORCE_ALIGN_CHECK 1
# endif
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# endif
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/* *************************************
* Includes & Memory related functions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/* Modify the local functions below should you wish to use some other memory routines */
/* for malloc(), free() */
# include <stdlib.h>
static void * XXH_malloc ( size_t s ) { return malloc ( s ) ; }
static void XXH_free ( void * p ) { free ( p ) ; }
/* for memcpy() */
# include <string.h>
static void * XXH_memcpy ( void * dest , const void * src , size_t size ) { return memcpy ( dest , src , size ) ; }
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# ifndef XXH_STATIC_LINKING_ONLY
# define XXH_STATIC_LINKING_ONLY
# endif
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# include "xxhash.h"
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/* *************************************
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* Compiler Specific Options
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# if defined (__GNUC__) || defined(__cplusplus) || defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L /* C99 */
# define INLINE_KEYWORD inline
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# else
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# define INLINE_KEYWORD
# endif
# if defined(__GNUC__)
# define FORCE_INLINE_ATTR __attribute__((always_inline))
# elif defined(_MSC_VER)
# define FORCE_INLINE_ATTR __forceinline
# else
# define FORCE_INLINE_ATTR
# endif
# define FORCE_INLINE_TEMPLATE static INLINE_KEYWORD FORCE_INLINE_ATTR
# ifdef _MSC_VER
# pragma warning(disable : 4127) /* disable: C4127: conditional expression is constant */
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# endif
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/* *************************************
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* Basic Types
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# ifndef MEM_MODULE
# define MEM_MODULE
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# if !defined (__VMS) && (defined (__cplusplus) || (defined (__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L) /* C99 */ ) )
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# include <stdint.h>
typedef uint8_t BYTE ;
typedef uint16_t U16 ;
typedef uint32_t U32 ;
typedef int32_t S32 ;
typedef uint64_t U64 ;
# else
typedef unsigned char BYTE ;
typedef unsigned short U16 ;
typedef unsigned int U32 ;
typedef signed int S32 ;
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typedef unsigned long long U64 ; /* if your compiler doesn't support unsigned long long, replace by another 64-bit type here. Note that xxhash.h will also need to be updated. */
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# endif
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# endif
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# if (defined(XXH_FORCE_MEMORY_ACCESS) && (XXH_FORCE_MEMORY_ACCESS==2))
/* Force direct memory access. Only works on CPU which support unaligned memory access in hardware */
static U32 XXH_read32 ( const void * memPtr ) { return * ( const U32 * ) memPtr ; }
static U64 XXH_read64 ( const void * memPtr ) { return * ( const U64 * ) memPtr ; }
# elif (defined(XXH_FORCE_MEMORY_ACCESS) && (XXH_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 { U32 u32 ; U64 u64 ; } __attribute__ ( ( packed ) ) unalign ;
static U32 XXH_read32 ( const void * ptr ) { return ( ( const unalign * ) ptr ) - > u32 ; }
static U64 XXH_read64 ( const void * ptr ) { return ( ( const unalign * ) ptr ) - > u64 ; }
# else
/* portable and safe solution. Generally efficient.
* see : http : //stackoverflow.com/a/32095106/646947
*/
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static U32 XXH_read32 ( const void * memPtr )
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{
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U32 val ;
memcpy ( & val , memPtr , sizeof ( val ) ) ;
return val ;
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}
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static U64 XXH_read64 ( const void * memPtr )
{
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U64 val ;
memcpy ( & val , memPtr , sizeof ( val ) ) ;
return val ;
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}
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# endif /* XXH_FORCE_DIRECT_MEMORY_ACCESS */
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/* ****************************************
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* Compiler - specific Functions and Macros
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# define GCC_VERSION (__GNUC__ * 100 + __GNUC_MINOR__)
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/* Note : although _rotl exists for minGW (GCC under windows), performance seems poor */
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# if defined(_MSC_VER)
# define XXH_rotl32(x,r) _rotl(x,r)
# define XXH_rotl64(x,r) _rotl64(x,r)
# else
# define XXH_rotl32(x,r) ((x << r) | (x >> (32 - r)))
# define XXH_rotl64(x,r) ((x << r) | (x >> (64 - r)))
# endif
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# if defined(_MSC_VER) /* Visual Studio */
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# define XXH_swap32 _byteswap_ulong
# define XXH_swap64 _byteswap_uint64
# elif GCC_VERSION >= 403
# define XXH_swap32 __builtin_bswap32
# define XXH_swap64 __builtin_bswap64
# else
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static U32 XXH_swap32 ( U32 x )
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{
return ( ( x < < 24 ) & 0xff000000 ) |
( ( x < < 8 ) & 0x00ff0000 ) |
( ( x > > 8 ) & 0x0000ff00 ) |
( ( x > > 24 ) & 0x000000ff ) ;
}
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static U64 XXH_swap64 ( U64 x )
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{
return ( ( x < < 56 ) & 0xff00000000000000ULL ) |
( ( x < < 40 ) & 0x00ff000000000000ULL ) |
( ( x < < 24 ) & 0x0000ff0000000000ULL ) |
( ( x < < 8 ) & 0x000000ff00000000ULL ) |
( ( x > > 8 ) & 0x00000000ff000000ULL ) |
( ( x > > 24 ) & 0x0000000000ff0000ULL ) |
( ( x > > 40 ) & 0x000000000000ff00ULL ) |
( ( x > > 56 ) & 0x00000000000000ffULL ) ;
}
# endif
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/* *************************************
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* Architecture Macros
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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typedef enum { XXH_bigEndian = 0 , XXH_littleEndian = 1 } XXH_endianess ;
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/* XXH_CPU_LITTLE_ENDIAN can be defined externally, for example on the compiler command line */
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# ifndef XXH_CPU_LITTLE_ENDIAN
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static const int g_one = 1 ;
# define XXH_CPU_LITTLE_ENDIAN (*(const char*)(&g_one))
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# endif
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/* ***************************
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* Memory reads
* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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typedef enum { XXH_aligned , XXH_unaligned } XXH_alignment ;
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FORCE_INLINE_TEMPLATE U32 XXH_readLE32_align ( const void * ptr , XXH_endianess endian , XXH_alignment align )
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{
if ( align = = XXH_unaligned )
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return endian = = XXH_littleEndian ? XXH_read32 ( ptr ) : XXH_swap32 ( XXH_read32 ( ptr ) ) ;
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else
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return endian = = XXH_littleEndian ? * ( const U32 * ) ptr : XXH_swap32 ( * ( const U32 * ) ptr ) ;
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}
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FORCE_INLINE_TEMPLATE U32 XXH_readLE32 ( const void * ptr , XXH_endianess endian )
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{
return XXH_readLE32_align ( ptr , endian , XXH_unaligned ) ;
}
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static U32 XXH_readBE32 ( const void * ptr )
{
return XXH_CPU_LITTLE_ENDIAN ? XXH_swap32 ( XXH_read32 ( ptr ) ) : XXH_read32 ( ptr ) ;
}
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FORCE_INLINE_TEMPLATE U64 XXH_readLE64_align ( const void * ptr , XXH_endianess endian , XXH_alignment align )
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{
if ( align = = XXH_unaligned )
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return endian = = XXH_littleEndian ? XXH_read64 ( ptr ) : XXH_swap64 ( XXH_read64 ( ptr ) ) ;
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else
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return endian = = XXH_littleEndian ? * ( const U64 * ) ptr : XXH_swap64 ( * ( const U64 * ) ptr ) ;
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}
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FORCE_INLINE_TEMPLATE U64 XXH_readLE64 ( const void * ptr , XXH_endianess endian )
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{
return XXH_readLE64_align ( ptr , endian , XXH_unaligned ) ;
}
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static U64 XXH_readBE64 ( const void * ptr )
{
return XXH_CPU_LITTLE_ENDIAN ? XXH_swap64 ( XXH_read64 ( ptr ) ) : XXH_read64 ( ptr ) ;
}
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/* *************************************
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* Macros
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# define XXH_STATIC_ASSERT(c) { enum { XXH_static_assert = 1 / (int)(!!(c)) }; } /* use only *after* variable declarations */
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/* *************************************
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* Constants
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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static const U32 PRIME32_1 = 2654435761U ;
static const U32 PRIME32_2 = 2246822519U ;
static const U32 PRIME32_3 = 3266489917U ;
static const U32 PRIME32_4 = 668265263U ;
static const U32 PRIME32_5 = 374761393U ;
static const U64 PRIME64_1 = 11400714785074694791ULL ;
static const U64 PRIME64_2 = 14029467366897019727ULL ;
static const U64 PRIME64_3 = 1609587929392839161ULL ;
static const U64 PRIME64_4 = 9650029242287828579ULL ;
static const U64 PRIME64_5 = 2870177450012600261ULL ;
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XXH_PUBLIC_API unsigned XXH_versionNumber ( void ) { return XXH_VERSION_NUMBER ; }
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/* **************************
* Utils
* * * * * * * * * * * * * * * * * * * * * * * * * * * */
XXH_PUBLIC_API void XXH32_copyState ( XXH32_state_t * restrict dstState , const XXH32_state_t * restrict srcState )
{
memcpy ( dstState , srcState , sizeof ( * dstState ) ) ;
}
XXH_PUBLIC_API void XXH64_copyState ( XXH64_state_t * restrict dstState , const XXH64_state_t * restrict srcState )
{
memcpy ( dstState , srcState , sizeof ( * dstState ) ) ;
}
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/* ***************************
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* Simple Hash Functions
* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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static U32 XXH32_round ( U32 seed , U32 input )
{
seed + = input * PRIME32_2 ;
seed = XXH_rotl32 ( seed , 13 ) ;
seed * = PRIME32_1 ;
return seed ;
}
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FORCE_INLINE_TEMPLATE U32 XXH32_endian_align ( const void * input , size_t len , U32 seed , XXH_endianess endian , XXH_alignment align )
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{
const BYTE * p = ( const BYTE * ) input ;
const BYTE * bEnd = p + len ;
U32 h32 ;
# define XXH_get32bits(p) XXH_readLE32_align(p, endian, align)
# ifdef XXH_ACCEPT_NULL_INPUT_POINTER
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if ( p = = NULL ) {
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len = 0 ;
bEnd = p = ( const BYTE * ) ( size_t ) 16 ;
}
# endif
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if ( len > = 16 ) {
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const BYTE * const limit = bEnd - 16 ;
U32 v1 = seed + PRIME32_1 + PRIME32_2 ;
U32 v2 = seed + PRIME32_2 ;
U32 v3 = seed + 0 ;
U32 v4 = seed - PRIME32_1 ;
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do {
v1 = XXH32_round ( v1 , XXH_get32bits ( p ) ) ; p + = 4 ;
v2 = XXH32_round ( v2 , XXH_get32bits ( p ) ) ; p + = 4 ;
v3 = XXH32_round ( v3 , XXH_get32bits ( p ) ) ; p + = 4 ;
v4 = XXH32_round ( v4 , XXH_get32bits ( p ) ) ; p + = 4 ;
} while ( p < = limit ) ;
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h32 = XXH_rotl32 ( v1 , 1 ) + XXH_rotl32 ( v2 , 7 ) + XXH_rotl32 ( v3 , 12 ) + XXH_rotl32 ( v4 , 18 ) ;
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} else {
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h32 = seed + PRIME32_5 ;
}
h32 + = ( U32 ) len ;
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while ( p + 4 < = bEnd ) {
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h32 + = XXH_get32bits ( p ) * PRIME32_3 ;
h32 = XXH_rotl32 ( h32 , 17 ) * PRIME32_4 ;
p + = 4 ;
}
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while ( p < bEnd ) {
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h32 + = ( * p ) * PRIME32_5 ;
h32 = XXH_rotl32 ( h32 , 11 ) * PRIME32_1 ;
p + + ;
}
h32 ^ = h32 > > 15 ;
h32 * = PRIME32_2 ;
h32 ^ = h32 > > 13 ;
h32 * = PRIME32_3 ;
h32 ^ = h32 > > 16 ;
return h32 ;
}
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XXH_PUBLIC_API unsigned int XXH32 ( const void * input , size_t len , unsigned int seed )
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{
#if 0
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/* Simple version, good for code maintenance, but unfortunately slow for small inputs */
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XXH32_CREATESTATE_STATIC ( state ) ;
XXH32_reset ( state , seed ) ;
XXH32_update ( state , input , len ) ;
return XXH32_digest ( state ) ;
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# else
XXH_endianess endian_detected = ( XXH_endianess ) XXH_CPU_LITTLE_ENDIAN ;
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if ( XXH_FORCE_ALIGN_CHECK ) {
if ( ( ( ( size_t ) input ) & 3 ) = = 0 ) { /* Input is 4-bytes aligned, leverage the speed benefit */
if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH32_endian_align ( input , len , seed , XXH_littleEndian , XXH_aligned ) ;
else
return XXH32_endian_align ( input , len , seed , XXH_bigEndian , XXH_aligned ) ;
} }
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if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH32_endian_align ( input , len , seed , XXH_littleEndian , XXH_unaligned ) ;
else
return XXH32_endian_align ( input , len , seed , XXH_bigEndian , XXH_unaligned ) ;
# endif
}
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static U64 XXH64_round ( U64 acc , U64 input )
{
acc + = input * PRIME64_2 ;
acc = XXH_rotl64 ( acc , 31 ) ;
acc * = PRIME64_1 ;
return acc ;
}
static U64 XXH64_mergeRound ( U64 acc , U64 val )
{
val = XXH64_round ( 0 , val ) ;
acc ^ = val ;
acc = acc * PRIME64_1 + PRIME64_4 ;
return acc ;
}
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FORCE_INLINE_TEMPLATE U64 XXH64_endian_align ( const void * input , size_t len , U64 seed , XXH_endianess endian , XXH_alignment align )
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{
const BYTE * p = ( const BYTE * ) input ;
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const BYTE * const bEnd = p + len ;
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U64 h64 ;
# define XXH_get64bits(p) XXH_readLE64_align(p, endian, align)
# ifdef XXH_ACCEPT_NULL_INPUT_POINTER
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if ( p = = NULL ) {
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len = 0 ;
bEnd = p = ( const BYTE * ) ( size_t ) 32 ;
}
# endif
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if ( len > = 32 ) {
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const BYTE * const limit = bEnd - 32 ;
U64 v1 = seed + PRIME64_1 + PRIME64_2 ;
U64 v2 = seed + PRIME64_2 ;
U64 v3 = seed + 0 ;
U64 v4 = seed - PRIME64_1 ;
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do {
v1 = XXH64_round ( v1 , XXH_get64bits ( p ) ) ; p + = 8 ;
v2 = XXH64_round ( v2 , XXH_get64bits ( p ) ) ; p + = 8 ;
v3 = XXH64_round ( v3 , XXH_get64bits ( p ) ) ; p + = 8 ;
v4 = XXH64_round ( v4 , XXH_get64bits ( p ) ) ; p + = 8 ;
} while ( p < = limit ) ;
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h64 = XXH_rotl64 ( v1 , 1 ) + XXH_rotl64 ( v2 , 7 ) + XXH_rotl64 ( v3 , 12 ) + XXH_rotl64 ( v4 , 18 ) ;
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h64 = XXH64_mergeRound ( h64 , v1 ) ;
h64 = XXH64_mergeRound ( h64 , v2 ) ;
h64 = XXH64_mergeRound ( h64 , v3 ) ;
h64 = XXH64_mergeRound ( h64 , v4 ) ;
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} else {
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h64 = seed + PRIME64_5 ;
}
h64 + = ( U64 ) len ;
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while ( p + 8 < = bEnd ) {
U64 const k1 = XXH64_round ( 0 , XXH_get64bits ( p ) ) ;
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h64 ^ = k1 ;
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h64 = XXH_rotl64 ( h64 , 27 ) * PRIME64_1 + PRIME64_4 ;
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p + = 8 ;
}
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if ( p + 4 < = bEnd ) {
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h64 ^ = ( U64 ) ( XXH_get32bits ( p ) ) * PRIME64_1 ;
h64 = XXH_rotl64 ( h64 , 23 ) * PRIME64_2 + PRIME64_3 ;
p + = 4 ;
}
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while ( p < bEnd ) {
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h64 ^ = ( * p ) * PRIME64_5 ;
h64 = XXH_rotl64 ( h64 , 11 ) * PRIME64_1 ;
p + + ;
}
h64 ^ = h64 > > 33 ;
h64 * = PRIME64_2 ;
h64 ^ = h64 > > 29 ;
h64 * = PRIME64_3 ;
h64 ^ = h64 > > 32 ;
return h64 ;
}
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XXH_PUBLIC_API unsigned long long XXH64 ( const void * input , size_t len , unsigned long long seed )
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{
#if 0
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/* Simple version, good for code maintenance, but unfortunately slow for small inputs */
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XXH64_CREATESTATE_STATIC ( state ) ;
XXH64_reset ( state , seed ) ;
XXH64_update ( state , input , len ) ;
return XXH64_digest ( state ) ;
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# else
XXH_endianess endian_detected = ( XXH_endianess ) XXH_CPU_LITTLE_ENDIAN ;
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if ( XXH_FORCE_ALIGN_CHECK ) {
if ( ( ( ( size_t ) input ) & 7 ) = = 0 ) { /* Input is aligned, let's leverage the speed advantage */
if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH64_endian_align ( input , len , seed , XXH_littleEndian , XXH_aligned ) ;
else
return XXH64_endian_align ( input , len , seed , XXH_bigEndian , XXH_aligned ) ;
} }
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if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH64_endian_align ( input , len , seed , XXH_littleEndian , XXH_unaligned ) ;
else
return XXH64_endian_align ( input , len , seed , XXH_bigEndian , XXH_unaligned ) ;
# endif
}
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/* **************************************************
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* Advanced Hash Functions
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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XXH_PUBLIC_API XXH32_state_t * XXH32_createState ( void )
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{
return ( XXH32_state_t * ) XXH_malloc ( sizeof ( XXH32_state_t ) ) ;
}
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XXH_PUBLIC_API XXH_errorcode XXH32_freeState ( XXH32_state_t * statePtr )
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{
XXH_free ( statePtr ) ;
return XXH_OK ;
}
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XXH_PUBLIC_API XXH64_state_t * XXH64_createState ( void )
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{
return ( XXH64_state_t * ) XXH_malloc ( sizeof ( XXH64_state_t ) ) ;
}
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XXH_PUBLIC_API XXH_errorcode XXH64_freeState ( XXH64_state_t * statePtr )
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{
XXH_free ( statePtr ) ;
return XXH_OK ;
}
/*** Hash feed ***/
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XXH_PUBLIC_API XXH_errorcode XXH32_reset ( XXH32_state_t * statePtr , unsigned int seed )
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{
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XXH32_state_t state ; /* using a local state to memcpy() in order to avoid strict-aliasing warnings */
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memset ( & state , 0 , sizeof ( state ) - 4 ) ; /* do not write into reserved, for future removal */
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state . v1 = seed + PRIME32_1 + PRIME32_2 ;
state . v2 = seed + PRIME32_2 ;
state . v3 = seed + 0 ;
state . v4 = seed - PRIME32_1 ;
memcpy ( statePtr , & state , sizeof ( state ) ) ;
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return XXH_OK ;
}
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XXH_PUBLIC_API XXH_errorcode XXH64_reset ( XXH64_state_t * statePtr , unsigned long long seed )
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{
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XXH64_state_t state ; /* using a local state to memcpy() in order to avoid strict-aliasing warnings */
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memset ( & state , 0 , sizeof ( state ) - 8 ) ; /* do not write into reserved, for future removal */
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state . v1 = seed + PRIME64_1 + PRIME64_2 ;
state . v2 = seed + PRIME64_2 ;
state . v3 = seed + 0 ;
state . v4 = seed - PRIME64_1 ;
memcpy ( statePtr , & state , sizeof ( state ) ) ;
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return XXH_OK ;
}
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FORCE_INLINE_TEMPLATE XXH_errorcode XXH32_update_endian ( XXH32_state_t * state , const void * input , size_t len , XXH_endianess endian )
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{
const BYTE * p = ( const BYTE * ) input ;
const BYTE * const bEnd = p + len ;
# ifdef XXH_ACCEPT_NULL_INPUT_POINTER
if ( input = = NULL ) return XXH_ERROR ;
# endif
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state - > total_len_32 + = ( unsigned ) len ;
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state - > large_len | = ( len > = 16 ) | ( state - > total_len_32 > = 16 ) ;
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if ( state - > memsize + len < 16 ) { /* fill in tmp buffer */
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XXH_memcpy ( ( BYTE * ) ( state - > mem32 ) + state - > memsize , input , len ) ;
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state - > memsize + = ( unsigned ) len ;
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return XXH_OK ;
}
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if ( state - > memsize ) { /* some data left from previous update */
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XXH_memcpy ( ( BYTE * ) ( state - > mem32 ) + state - > memsize , input , 16 - state - > memsize ) ;
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{ const U32 * p32 = state - > mem32 ;
state - > v1 = XXH32_round ( state - > v1 , XXH_readLE32 ( p32 , endian ) ) ; p32 + + ;
state - > v2 = XXH32_round ( state - > v2 , XXH_readLE32 ( p32 , endian ) ) ; p32 + + ;
state - > v3 = XXH32_round ( state - > v3 , XXH_readLE32 ( p32 , endian ) ) ; p32 + + ;
state - > v4 = XXH32_round ( state - > v4 , XXH_readLE32 ( p32 , endian ) ) ; p32 + + ;
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}
p + = 16 - state - > memsize ;
state - > memsize = 0 ;
}
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if ( p < = bEnd - 16 ) {
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const BYTE * const limit = bEnd - 16 ;
U32 v1 = state - > v1 ;
U32 v2 = state - > v2 ;
U32 v3 = state - > v3 ;
U32 v4 = state - > v4 ;
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do {
v1 = XXH32_round ( v1 , XXH_readLE32 ( p , endian ) ) ; p + = 4 ;
v2 = XXH32_round ( v2 , XXH_readLE32 ( p , endian ) ) ; p + = 4 ;
v3 = XXH32_round ( v3 , XXH_readLE32 ( p , endian ) ) ; p + = 4 ;
v4 = XXH32_round ( v4 , XXH_readLE32 ( p , endian ) ) ; p + = 4 ;
} while ( p < = limit ) ;
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state - > v1 = v1 ;
state - > v2 = v2 ;
state - > v3 = v3 ;
state - > v4 = v4 ;
}
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if ( p < bEnd ) {
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XXH_memcpy ( state - > mem32 , p , ( size_t ) ( bEnd - p ) ) ;
state - > memsize = ( unsigned ) ( bEnd - p ) ;
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}
return XXH_OK ;
}
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XXH_PUBLIC_API XXH_errorcode XXH32_update ( XXH32_state_t * state_in , const void * input , size_t len )
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{
XXH_endianess endian_detected = ( XXH_endianess ) XXH_CPU_LITTLE_ENDIAN ;
if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH32_update_endian ( state_in , input , len , XXH_littleEndian ) ;
else
return XXH32_update_endian ( state_in , input , len , XXH_bigEndian ) ;
}
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FORCE_INLINE_TEMPLATE U32 XXH32_digest_endian ( const XXH32_state_t * state , XXH_endianess endian )
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{
const BYTE * p = ( const BYTE * ) state - > mem32 ;
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const BYTE * const bEnd = ( const BYTE * ) ( state - > mem32 ) + state - > memsize ;
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U32 h32 ;
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if ( state - > large_len ) {
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h32 = XXH_rotl32 ( state - > v1 , 1 ) + XXH_rotl32 ( state - > v2 , 7 ) + XXH_rotl32 ( state - > v3 , 12 ) + XXH_rotl32 ( state - > v4 , 18 ) ;
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} else {
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h32 = state - > v3 /* == seed */ + PRIME32_5 ;
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}
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h32 + = state - > total_len_32 ;
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while ( p + 4 < = bEnd ) {
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h32 + = XXH_readLE32 ( p , endian ) * PRIME32_3 ;
h32 = XXH_rotl32 ( h32 , 17 ) * PRIME32_4 ;
p + = 4 ;
}
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while ( p < bEnd ) {
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h32 + = ( * p ) * PRIME32_5 ;
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h32 = XXH_rotl32 ( h32 , 11 ) * PRIME32_1 ;
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p + + ;
}
h32 ^ = h32 > > 15 ;
h32 * = PRIME32_2 ;
h32 ^ = h32 > > 13 ;
h32 * = PRIME32_3 ;
h32 ^ = h32 > > 16 ;
return h32 ;
}
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XXH_PUBLIC_API unsigned int XXH32_digest ( const XXH32_state_t * state_in )
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{
XXH_endianess endian_detected = ( XXH_endianess ) XXH_CPU_LITTLE_ENDIAN ;
if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH32_digest_endian ( state_in , XXH_littleEndian ) ;
else
return XXH32_digest_endian ( state_in , XXH_bigEndian ) ;
}
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/* **** XXH64 **** */
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FORCE_INLINE_TEMPLATE XXH_errorcode XXH64_update_endian ( XXH64_state_t * state , const void * input , size_t len , XXH_endianess endian )
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{
const BYTE * p = ( const BYTE * ) input ;
const BYTE * const bEnd = p + len ;
# ifdef XXH_ACCEPT_NULL_INPUT_POINTER
if ( input = = NULL ) return XXH_ERROR ;
# endif
state - > total_len + = len ;
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if ( state - > memsize + len < 32 ) { /* fill in tmp buffer */
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XXH_memcpy ( ( ( BYTE * ) state - > mem64 ) + state - > memsize , input , len ) ;
state - > memsize + = ( U32 ) len ;
return XXH_OK ;
}
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if ( state - > memsize ) { /* tmp buffer is full */
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XXH_memcpy ( ( ( BYTE * ) state - > mem64 ) + state - > memsize , input , 32 - state - > memsize ) ;
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state - > v1 = XXH64_round ( state - > v1 , XXH_readLE64 ( state - > mem64 + 0 , endian ) ) ;
state - > v2 = XXH64_round ( state - > v2 , XXH_readLE64 ( state - > mem64 + 1 , endian ) ) ;
state - > v3 = XXH64_round ( state - > v3 , XXH_readLE64 ( state - > mem64 + 2 , endian ) ) ;
state - > v4 = XXH64_round ( state - > v4 , XXH_readLE64 ( state - > mem64 + 3 , endian ) ) ;
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p + = 32 - state - > memsize ;
state - > memsize = 0 ;
}
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if ( p + 32 < = bEnd ) {
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const BYTE * const limit = bEnd - 32 ;
U64 v1 = state - > v1 ;
U64 v2 = state - > v2 ;
U64 v3 = state - > v3 ;
U64 v4 = state - > v4 ;
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do {
v1 = XXH64_round ( v1 , XXH_readLE64 ( p , endian ) ) ; p + = 8 ;
v2 = XXH64_round ( v2 , XXH_readLE64 ( p , endian ) ) ; p + = 8 ;
v3 = XXH64_round ( v3 , XXH_readLE64 ( p , endian ) ) ; p + = 8 ;
v4 = XXH64_round ( v4 , XXH_readLE64 ( p , endian ) ) ; p + = 8 ;
} while ( p < = limit ) ;
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state - > v1 = v1 ;
state - > v2 = v2 ;
state - > v3 = v3 ;
state - > v4 = v4 ;
}
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if ( p < bEnd ) {
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XXH_memcpy ( state - > mem64 , p , ( size_t ) ( bEnd - p ) ) ;
state - > memsize = ( unsigned ) ( bEnd - p ) ;
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}
return XXH_OK ;
}
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XXH_PUBLIC_API XXH_errorcode XXH64_update ( XXH64_state_t * state_in , const void * input , size_t len )
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{
XXH_endianess endian_detected = ( XXH_endianess ) XXH_CPU_LITTLE_ENDIAN ;
if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH64_update_endian ( state_in , input , len , XXH_littleEndian ) ;
else
return XXH64_update_endian ( state_in , input , len , XXH_bigEndian ) ;
}
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FORCE_INLINE_TEMPLATE U64 XXH64_digest_endian ( const XXH64_state_t * state , XXH_endianess endian )
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{
const BYTE * p = ( const BYTE * ) state - > mem64 ;
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const BYTE * const bEnd = ( const BYTE * ) state - > mem64 + state - > memsize ;
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U64 h64 ;
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if ( state - > total_len > = 32 ) {
U64 const v1 = state - > v1 ;
U64 const v2 = state - > v2 ;
U64 const v3 = state - > v3 ;
U64 const v4 = state - > v4 ;
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h64 = XXH_rotl64 ( v1 , 1 ) + XXH_rotl64 ( v2 , 7 ) + XXH_rotl64 ( v3 , 12 ) + XXH_rotl64 ( v4 , 18 ) ;
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h64 = XXH64_mergeRound ( h64 , v1 ) ;
h64 = XXH64_mergeRound ( h64 , v2 ) ;
h64 = XXH64_mergeRound ( h64 , v3 ) ;
h64 = XXH64_mergeRound ( h64 , v4 ) ;
} else {
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h64 = state - > v3 + PRIME64_5 ;
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}
h64 + = ( U64 ) state - > total_len ;
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while ( p + 8 < = bEnd ) {
U64 const k1 = XXH64_round ( 0 , XXH_readLE64 ( p , endian ) ) ;
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h64 ^ = k1 ;
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h64 = XXH_rotl64 ( h64 , 27 ) * PRIME64_1 + PRIME64_4 ;
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p + = 8 ;
}
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if ( p + 4 < = bEnd ) {
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h64 ^ = ( U64 ) ( XXH_readLE32 ( p , endian ) ) * PRIME64_1 ;
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h64 = XXH_rotl64 ( h64 , 23 ) * PRIME64_2 + PRIME64_3 ;
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p + = 4 ;
}
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while ( p < bEnd ) {
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h64 ^ = ( * p ) * PRIME64_5 ;
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h64 = XXH_rotl64 ( h64 , 11 ) * PRIME64_1 ;
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p + + ;
}
h64 ^ = h64 > > 33 ;
h64 * = PRIME64_2 ;
h64 ^ = h64 > > 29 ;
h64 * = PRIME64_3 ;
h64 ^ = h64 > > 32 ;
return h64 ;
}
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XXH_PUBLIC_API unsigned long long XXH64_digest ( const XXH64_state_t * state_in )
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{
XXH_endianess endian_detected = ( XXH_endianess ) XXH_CPU_LITTLE_ENDIAN ;
if ( ( endian_detected = = XXH_littleEndian ) | | XXH_FORCE_NATIVE_FORMAT )
return XXH64_digest_endian ( state_in , XXH_littleEndian ) ;
else
return XXH64_digest_endian ( state_in , XXH_bigEndian ) ;
}
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/* **************************
* Canonical representation
* * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*! Default XXH result types are basic unsigned 32 and 64 bits.
* The canonical representation follows human - readable write convention , aka big - endian ( large digits first ) .
* These functions allow transformation of hash result into and from its canonical format .
* This way , hash values can be written into a file or buffer , and remain comparable across different systems and programs .
*/
XXH_PUBLIC_API void XXH32_canonicalFromHash ( XXH32_canonical_t * dst , XXH32_hash_t hash )
{
XXH_STATIC_ASSERT ( sizeof ( XXH32_canonical_t ) = = sizeof ( XXH32_hash_t ) ) ;
if ( XXH_CPU_LITTLE_ENDIAN ) hash = XXH_swap32 ( hash ) ;
memcpy ( dst , & hash , sizeof ( * dst ) ) ;
}
XXH_PUBLIC_API void XXH64_canonicalFromHash ( XXH64_canonical_t * dst , XXH64_hash_t hash )
{
XXH_STATIC_ASSERT ( sizeof ( XXH64_canonical_t ) = = sizeof ( XXH64_hash_t ) ) ;
if ( XXH_CPU_LITTLE_ENDIAN ) hash = XXH_swap64 ( hash ) ;
memcpy ( dst , & hash , sizeof ( * dst ) ) ;
}
XXH_PUBLIC_API XXH32_hash_t XXH32_hashFromCanonical ( const XXH32_canonical_t * src )
{
return XXH_readBE32 ( src ) ;
}
XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical ( const XXH64_canonical_t * src )
{
return XXH_readBE64 ( src ) ;
}