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5 changed files with 181 additions and 82 deletions
@ -1,140 +1,231 @@ |
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//Author: Wang Yi <godspeed_china@yeah.net> |
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#ifndef wyhash_final_version |
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#define wyhash_final_version |
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//defines that change behavior |
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// This is free and unencumbered software released into the public domain under The Unlicense (http://unlicense.org/) |
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// main repo: https://github.com/wangyi-fudan/wyhash |
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// author: 王一 Wang Yi <godspeed_china@yeah.net> |
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// contributors: Reini Urban, Dietrich Epp, Joshua Haberman, Tommy Ettinger, Daniel Lemire, Otmar Ertl, cocowalla, leo-yuriev, Diego Barrios Romero, paulie-g, dumblob, Yann Collet, ivte-ms, hyb, James Z.M. Gao, easyaspi314 (Devin), TheOneric |
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|
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/* quick example: |
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string s="fjsakfdsjkf"; |
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uint64_t hash=wyhash(s.c_str(), s.size(), 0, _wyp); |
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*/ |
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|
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#ifndef wyhash_final_version_4 |
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#define wyhash_final_version_4 |
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|
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#ifndef WYHASH_CONDOM |
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#define WYHASH_CONDOM 1 //0: read 8 bytes before and after boundaries, dangerous but faster. 1: normal valid behavior 2: extra protection against entropy loss (probability=2^-63), aka. "blind multiplication" |
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//protections that produce different results: |
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//1: normal valid behavior |
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//2: extra protection against entropy loss (probability=2^-63), aka. "blind multiplication" |
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#define WYHASH_CONDOM 1 |
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#endif |
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#define WYHASH_32BIT_MUM 0 //faster on 32 bit system |
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|
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#ifndef WYHASH_32BIT_MUM |
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//0: normal version, slow on 32 bit systems |
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//1: faster on 32 bit systems but produces different results, incompatible with wy2u0k function |
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#define WYHASH_32BIT_MUM 0 |
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#endif |
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|
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//includes |
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#include <stdint.h> |
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#include <string.h> |
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#if defined(_MSC_VER) && defined(_M_X64) |
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#include <intrin.h> |
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#pragma intrinsic(_umul128) |
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#include <intrin.h> |
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#pragma intrinsic(_umul128) |
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#endif |
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|
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//likely and unlikely macros |
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#if defined(__GNUC__) || defined(__INTEL_COMPILER) || defined(__clang__) |
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#define _likely_(x) __builtin_expect(x,1) |
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#define _unlikely_(x) __builtin_expect(x,0) |
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#define _likely_(x) __builtin_expect(x,1) |
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#define _unlikely_(x) __builtin_expect(x,0) |
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#else |
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#define _likely_(x) (x) |
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#define _unlikely_(x) (x) |
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#define _likely_(x) (x) |
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#define _unlikely_(x) (x) |
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#endif |
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//mum function |
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|
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//128bit multiply function |
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static inline uint64_t _wyrot(uint64_t x) { return (x>>32)|(x<<32); } |
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static inline void _wymum(uint64_t *A, uint64_t *B){ |
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#if(WYHASH_32BIT_MUM) |
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uint64_t hh=(*A>>32)*(*B>>32), hl=(*A>>32)*(unsigned)*B, lh=(unsigned)*A*(*B>>32), ll=(uint64_t)(unsigned)*A*(unsigned)*B; |
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#if(WYHASH_CONDOM>1) |
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uint64_t hh=(*A>>32)*(*B>>32), hl=(*A>>32)*(uint32_t)*B, lh=(uint32_t)*A*(*B>>32), ll=(uint64_t)(uint32_t)*A*(uint32_t)*B; |
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#if(WYHASH_CONDOM>1) |
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*A^=_wyrot(hl)^hh; *B^=_wyrot(lh)^ll; |
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#else |
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#else |
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*A=_wyrot(hl)^hh; *B=_wyrot(lh)^ll; |
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#endif |
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#endif |
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#elif defined(__SIZEOF_INT128__) |
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__uint128_t r=*A; r*=*B; |
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#if(WYHASH_CONDOM>1) |
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#if(WYHASH_CONDOM>1) |
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*A^=(uint64_t)r; *B^=(uint64_t)(r>>64); |
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#else |
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#else |
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*A=(uint64_t)r; *B=(uint64_t)(r>>64); |
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#endif |
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#endif |
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#elif defined(_MSC_VER) && defined(_M_X64) |
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#if(WYHASH_CONDOM>1) |
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#if(WYHASH_CONDOM>1) |
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uint64_t a, b; |
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a=_umul128(*A,*B,&b); |
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*A^=a; *B^=b; |
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#else |
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#else |
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*A=_umul128(*A,*B,B); |
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#endif |
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#endif |
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#else |
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uint64_t ha=*A>>32, hb=*B>>32, la=(uint32_t)*A, lb=(uint32_t)*B, hi, lo; |
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uint64_t rh=ha*hb, rm0=ha*lb, rm1=hb*la, rl=la*lb, t=rl+(rm0<<32), c=t<rl; |
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lo=t+(rm1<<32); c+=lo<t; hi=rh+(rm0>>32)+(rm1>>32)+c; |
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#if(WYHASH_CONDOM>1) |
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#if(WYHASH_CONDOM>1) |
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*A^=lo; *B^=hi; |
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#else |
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#else |
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*A=lo; *B=hi; |
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#endif |
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#endif |
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#endif |
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} |
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|
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//multiply and xor mix function, aka MUM |
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static inline uint64_t _wymix(uint64_t A, uint64_t B){ _wymum(&A,&B); return A^B; } |
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//read functions |
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|
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//endian macros |
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#ifndef WYHASH_LITTLE_ENDIAN |
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#if defined(_WIN32) || defined(__LITTLE_ENDIAN__) || (defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) |
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#define WYHASH_LITTLE_ENDIAN 1 |
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#elif defined(__BIG_ENDIAN__) || (defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) |
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#define WYHASH_LITTLE_ENDIAN 0 |
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#endif |
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#if defined(_WIN32) || defined(__LITTLE_ENDIAN__) || (defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) |
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#define WYHASH_LITTLE_ENDIAN 1 |
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#elif defined(__BIG_ENDIAN__) || (defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) |
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#define WYHASH_LITTLE_ENDIAN 0 |
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#else |
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#warning could not determine endianness! Falling back to little endian. |
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#define WYHASH_LITTLE_ENDIAN 1 |
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#endif |
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#endif |
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|
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//read functions |
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#if (WYHASH_LITTLE_ENDIAN) |
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static inline uint64_t _wyr8(const uint8_t *p) { uint64_t v; memcpy(&v, p, 8); return v;} |
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static inline uint64_t _wyr4(const uint8_t *p) { unsigned v; memcpy(&v, p, 4); return v;} |
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static inline uint64_t _wyr4(const uint8_t *p) { uint32_t v; memcpy(&v, p, 4); return v;} |
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#elif defined(__GNUC__) || defined(__INTEL_COMPILER) || defined(__clang__) |
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static inline uint64_t _wyr8(const uint8_t *p) { uint64_t v; memcpy(&v, p, 8); return __builtin_bswap64(v);} |
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static inline uint64_t _wyr4(const uint8_t *p) { unsigned v; memcpy(&v, p, 4); return __builtin_bswap32(v);} |
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static inline uint64_t _wyr4(const uint8_t *p) { uint32_t v; memcpy(&v, p, 4); return __builtin_bswap32(v);} |
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#elif defined(_MSC_VER) |
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static inline uint64_t _wyr8(const uint8_t *p) { uint64_t v; memcpy(&v, p, 8); return _byteswap_uint64(v);} |
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static inline uint64_t _wyr4(const uint8_t *p) { unsigned v; memcpy(&v, p, 4); return _byteswap_ulong(v);} |
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static inline uint64_t _wyr4(const uint8_t *p) { uint32_t v; memcpy(&v, p, 4); return _byteswap_ulong(v);} |
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#else |
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static inline uint64_t _wyr8(const uint8_t *p) { |
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uint64_t v; memcpy(&v, p, 8); |
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return (((v >> 56) & 0xff)| ((v >> 40) & 0xff00)| ((v >> 24) & 0xff0000)| ((v >> 8) & 0xff000000)| ((v << 8) & 0xff00000000)| ((v << 24) & 0xff0000000000)| ((v << 40) & 0xff000000000000)| ((v << 56) & 0xff00000000000000)); |
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} |
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static inline uint64_t _wyr4(const uint8_t *p) { |
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uint32_t v; memcpy(&v, p, 4); |
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return (((v >> 24) & 0xff)| ((v >> 8) & 0xff00)| ((v << 8) & 0xff0000)| ((v << 24) & 0xff000000)); |
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} |
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#endif |
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static inline uint64_t _wyr3(const uint8_t *p, unsigned k) { return (((uint64_t)p[0])<<16)|(((uint64_t)p[k>>1])<<8)|p[k-1];} |
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//wyhash function |
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static inline uint64_t _wyfinish16(const uint8_t *p, uint64_t len, uint64_t seed, const uint64_t *secret, uint64_t i){ |
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#if(WYHASH_CONDOM>0) |
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uint64_t a, b; |
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if(_likely_(i<=8)){ |
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if(_likely_(i>=4)){ a=_wyr4(p); b=_wyr4(p+i-4); } |
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else if (_likely_(i)){ a=_wyr3(p,i); b=0; } |
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static inline uint64_t _wyr3(const uint8_t *p, size_t k) { return (((uint64_t)p[0])<<16)|(((uint64_t)p[k>>1])<<8)|p[k-1];} |
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//wyhash main function |
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static inline uint64_t wyhash(const void *key, size_t len, uint64_t seed, const uint64_t *secret){ |
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const uint8_t *p=(const uint8_t *)key; seed^=_wymix(seed^secret[0],secret[1]); uint64_t a, b; |
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if(_likely_(len<=16)){ |
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if(_likely_(len>=4)){ a=(_wyr4(p)<<32)|_wyr4(p+((len>>3)<<2)); b=(_wyr4(p+len-4)<<32)|_wyr4(p+len-4-((len>>3)<<2)); } |
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else if(_likely_(len>0)){ a=_wyr3(p,len); b=0;} |
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else a=b=0; |
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} |
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else{ a=_wyr8(p); b=_wyr8(p+i-8); } |
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return _wymix(secret[1]^len,_wymix(a^secret[1], b^seed)); |
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#else |
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#define oneshot_shift ((i<8)*((8-i)<<3)) |
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return _wymix(secret[1]^len,_wymix((_wyr8(p)<<oneshot_shift)^secret[1],(_wyr8(p+i-8)>>oneshot_shift)^seed)); |
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#endif |
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else{ |
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size_t i=len; |
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if(_unlikely_(i>48)){ |
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uint64_t see1=seed, see2=seed; |
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do{ |
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seed=_wymix(_wyr8(p)^secret[1],_wyr8(p+8)^seed); |
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see1=_wymix(_wyr8(p+16)^secret[2],_wyr8(p+24)^see1); |
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see2=_wymix(_wyr8(p+32)^secret[3],_wyr8(p+40)^see2); |
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p+=48; i-=48; |
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}while(_likely_(i>48)); |
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seed^=see1^see2; |
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} |
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while(_unlikely_(i>16)){ seed=_wymix(_wyr8(p)^secret[1],_wyr8(p+8)^seed); i-=16; p+=16; } |
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a=_wyr8(p+i-16); b=_wyr8(p+i-8); |
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} |
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a^=secret[1]; b^=seed; _wymum(&a,&b); |
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return _wymix(a^secret[0]^len,b^secret[1]); |
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} |
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|
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static inline uint64_t _wyfinish(const uint8_t *p, uint64_t len, uint64_t seed, const uint64_t *secret, uint64_t i){ |
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if(_likely_(i<=16)) return _wyfinish16(p,len,seed,secret,i); |
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return _wyfinish(p+16,len,_wymix(_wyr8(p)^secret[1],_wyr8(p+8)^seed),secret,i-16); |
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} |
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//the default secret parameters |
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static const uint64_t _wyp[4] = {0xa0761d6478bd642full, 0xe7037ed1a0b428dbull, 0x8ebc6af09c88c6e3ull, 0x589965cc75374cc3ull}; |
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|
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static inline uint64_t wyhash(const void *key, uint64_t len, uint64_t seed, const uint64_t *secret){ |
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const uint8_t *p=(const uint8_t *)key; |
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uint64_t i=len; seed^=*secret; |
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if(_unlikely_(i>64)){ |
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uint64_t see1=seed; |
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do{ |
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seed=_wymix(_wyr8(p)^secret[1],_wyr8(p+8)^seed)^_wymix(_wyr8(p+16)^secret[2],_wyr8(p+24)^seed); |
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see1=_wymix(_wyr8(p+32)^secret[3],_wyr8(p+40)^see1)^_wymix(_wyr8(p+48)^secret[4],_wyr8(p+56)^see1); |
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p+=64; i-=64; |
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}while(i>64); |
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seed^=see1; |
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} |
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return _wyfinish(p,len,seed,secret,i); |
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} |
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//utility functions |
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const uint64_t _wyp[5] = {0xa0761d6478bd642full, 0xe7037ed1a0b428dbull, 0x8ebc6af09c88c6e3ull, 0x589965cc75374cc3ull, 0x1d8e4e27c47d124full}; |
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static inline uint64_t wyhash64(uint64_t A, uint64_t B){ A^=_wyp[0]; B^=_wyp[1]; _wymum(&A,&B); return _wymix(A^_wyp[0],B^_wyp[1]);} |
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static inline uint64_t wyrand(uint64_t *seed){ *seed+=_wyp[0]; return _wymix(*seed,*seed^_wyp[1]);} |
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//a useful 64bit-64bit mix function to produce deterministic pseudo random numbers that can pass BigCrush and PractRand |
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static inline uint64_t wyhash64(uint64_t A, uint64_t B){ A^=0xa0761d6478bd642full; B^=0xe7037ed1a0b428dbull; _wymum(&A,&B); return _wymix(A^0xa0761d6478bd642full,B^0xe7037ed1a0b428dbull);} |
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|
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//The wyrand PRNG that pass BigCrush and PractRand |
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static inline uint64_t wyrand(uint64_t *seed){ *seed+=0xa0761d6478bd642full; return _wymix(*seed,*seed^0xe7037ed1a0b428dbull);} |
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|
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//convert any 64 bit pseudo random numbers to uniform distribution [0,1). It can be combined with wyrand, wyhash64 or wyhash. |
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static inline double wy2u01(uint64_t r){ const double _wynorm=1.0/(1ull<<52); return (r>>12)*_wynorm;} |
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|
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//convert any 64 bit pseudo random numbers to APPROXIMATE Gaussian distribution. It can be combined with wyrand, wyhash64 or wyhash. |
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static inline double wy2gau(uint64_t r){ const double _wynorm=1.0/(1ull<<20); return ((r&0x1fffff)+((r>>21)&0x1fffff)+((r>>42)&0x1fffff))*_wynorm-3.0;} |
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|
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#ifdef WYTRNG |
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#include <sys/time.h> |
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//The wytrand true random number generator, passed BigCrush. |
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static inline uint64_t wytrand(uint64_t *seed){ |
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struct timeval t; gettimeofday(&t,0); |
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uint64_t teed=(((uint64_t)t.tv_sec)<<32)|t.tv_usec; |
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teed=_wymix(teed^_wyp[0],*seed^_wyp[1]); |
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*seed=_wymix(teed^_wyp[0],_wyp[2]); |
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return _wymix(*seed,*seed^_wyp[3]); |
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} |
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#endif |
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|
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#if(!WYHASH_32BIT_MUM) |
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//fast range integer random number generation on [0,k) credit to Daniel Lemire. May not work when WYHASH_32BIT_MUM=1. It can be combined with wyrand, wyhash64 or wyhash. |
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static inline uint64_t wy2u0k(uint64_t r, uint64_t k){ _wymum(&r,&k); return k; } |
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#endif |
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|
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//make your own secret |
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static inline void make_secret(uint64_t seed, uint64_t *secret){ |
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uint8_t c[] = {15, 23, 27, 29, 30, 39, 43, 45, 46, 51, 53, 54, 57, 58, 60, 71, 75, 77, 78, 83, 85, 86, 89, 90, 92, 99, 101, 102, 105, 106, 108, 113, 114, 116, 120, 135, 139, 141, 142, 147, 149, 150, 153, 154, 156, 163, 165, 166, 169, 170, 172, 177, 178, 180, 184, 195, 197, 198, 201, 202, 204, 209, 210, 212, 216, 225, 226, 228, 232, 240 }; |
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for(size_t i=0;i<5;i++){ |
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for(size_t i=0;i<4;i++){ |
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uint8_t ok; |
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do{ |
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ok=1; secret[i]=0; |
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for(size_t j=0;j<64;j+=8) secret[i]|=((uint64_t)c[wyrand(&seed)%sizeof(c)])<<j; |
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if(secret[i]%2==0){ ok=0; continue; } |
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for(size_t j=0;j<i;j++) |
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for(size_t j=0;j<i;j++) { |
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#if defined(__GNUC__) || defined(__INTEL_COMPILER) || defined(__clang__) |
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if(__builtin_popcountll(secret[j]^secret[i])!=32){ ok=0; break; } |
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#elif defined(_MSC_VER) && defined(_M_X64) |
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if(_mm_popcnt_u64(secret[j]^secret[i])!=32){ ok=0; break; } |
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if(_mm_popcnt_u64(secret[j]^secret[i])!=32){ ok=0; break; } |
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#else |
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//manual popcount |
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uint64_t x = secret[j]^secret[i]; |
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x -= (x >> 1) & 0x5555555555555555; |
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x = (x & 0x3333333333333333) + ((x >> 2) & 0x3333333333333333); |
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x = (x + (x >> 4)) & 0x0f0f0f0f0f0f0f0f; |
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x = (x * 0x0101010101010101) >> 56; |
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if(x!=32){ ok=0; break; } |
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#endif |
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if(!ok)continue; |
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for(uint64_t j=3;j<0x100000000ull;j+=2) if(secret[i]%j==0){ ok=0; break; } |
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} |
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}while(!ok); |
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} |
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} |
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|
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#endif |
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|
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/* The Unlicense |
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This is free and unencumbered software released into the public domain. |
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|
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Anyone is free to copy, modify, publish, use, compile, sell, or |
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distribute this software, either in source code form or as a compiled |
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binary, for any purpose, commercial or non-commercial, and by any |
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means. |
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|
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In jurisdictions that recognize copyright laws, the author or authors |
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of this software dedicate any and all copyright interest in the |
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software to the public domain. We make this dedication for the benefit |
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of the public at large and to the detriment of our heirs and |
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successors. We intend this dedication to be an overt act of |
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relinquishment in perpetuity of all present and future rights to this |
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software under copyright law. |
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|
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, |
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. |
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IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR |
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OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, |
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ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR |
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OTHER DEALINGS IN THE SOFTWARE. |
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|
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For more information, please refer to <http://unlicense.org/> |
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*/ |
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