faux-folly/folly/test/SpookyHashV2Test.cpp - nest-cam/4320010/faux-folly - Git at Google

 /*
  * Copyright 2015 Facebook, Inc.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 // SpookyHash: a 128-bit noncryptographic hash function
 // By Bob Jenkins, public domain

 #ifndef __STDC_FORMAT_MACROS
 #define __STDC_FORMAT_MACROS 1
 #endif

 #include <folly/SpookyHashV2.h>
 #include <folly/Benchmark.h>

 #include <cinttypes>
 #include <cstdio>
 #include <cstddef>
 #include <cstring>
 #include <cstdlib>
 #include <ctime>

 #include <gtest/gtest.h>

 using namespace ::folly::hash;

 static bool failed = false;

 static uint64_t GetTickCount() {
   timespec ts;
   clock_gettime(CLOCK_REALTIME, &ts);
   return ts.tv_sec * 1000 + ts.tv_nsec / 1000000;  // milliseconds
 }

 class Random
 {
 public:
     inline uint64_t Value()
     {
         uint64_t e = m_a - Rot64(m_b, 23);
         m_a = m_b ^ Rot64(m_c, 16);
         m_b = m_c + Rot64(m_d, 11);
         m_c = m_d + e;
         m_d = e + m_a;
         return m_d;
     }

     inline void Init( uint64_t seed)
     {
         m_a = 0xdeadbeef;
         m_b = m_c = m_d = seed;
         for (int i=0; i<20; ++i)
             (void)Value();
     }

 private:
     static inline uint64_t Rot64(uint64_t x, int k)
     {
         return (x << k) | (x >> (64-(k)));
     }

     uint64_t m_a;
     uint64_t m_b;
     uint64_t m_c;
     uint64_t m_d;
 };

 // fastest conceivable hash function (for comparison)
 static void Add(const void *data, size_t length,
                 uint64_t *hash1, uint64_t *hash2)
 {
     uint64_t *p64 = (uint64_t *)data;
     uint64_t *end = p64 + length/8;
     uint64_t hash = *hash1 + *hash2;
     while (p64 < end)
     {
       hash += *p64;
       ++p64;
     }
     *hash1 = hash;
     *hash2 = hash;
 }

 #define BUFSIZE (512)
 void TestResults()
 {
     printf("\ntesting results ...\n");
     static const uint64_t expected[BUFSIZE] = {
       0x6bf50919,0x70de1d26,0xa2b37298,0x35bc5fbf,
       0x8223b279,0x5bcb315e,0x53fe88a1,0xf9f1a233,
       0xee193982,0x54f86f29,0xc8772d36,0x9ed60886,
       0x5f23d1da,0x1ed9f474,0xf2ef0c89,0x83ec01f9,
       0xf274736c,0x7e9ac0df,0xc7aed250,0xb1015811,
       0xe23470f5,0x48ac20c4,0xe2ab3cd5,0x608f8363,
       0xd0639e68,0xc4e8e7ab,0x863c7c5b,0x4ea63579,
       0x99ae8622,0x170c658b,0x149ba493,0x027bca7c,
       0xe5cfc8b6,0xce01d9d7,0x11103330,0x5d1f5ed4,
       0xca720ecb,0xef408aec,0x733b90ec,0x855737a6,
       0x9856c65f,0x647411f7,0x50777c74,0xf0f1a8b7,
       0x9d7e55a5,0xc68dd371,0xfc1af2cc,0x75728d0a,
       0x390e5fdc,0xf389b84c,0xfb0ccf23,0xc95bad0e,
       0x5b1cb85a,0x6bdae14f,0x6deb4626,0x93047034,
       0x6f3266c6,0xf529c3bd,0x396322e7,0x3777d042,
       0x1cd6a5a2,0x197b402e,0xc28d0d2b,0x09c1afb4,

       0x069c8bb7,0x6f9d4e1e,0xd2621b5c,0xea68108d,
       0x8660cb8f,0xd61e6de6,0x7fba15c7,0xaacfaa97,
       0xdb381902,0x4ea22649,0x5d414a1e,0xc3fc5984,
       0xa0fc9e10,0x347dc51c,0x37545fb6,0x8c84b26b,
       0xf57efa5d,0x56afaf16,0xb6e1eb94,0x9218536a,
       0xe3cc4967,0xd3275ef4,0xea63536e,0x6086e499,
       0xaccadce7,0xb0290d82,0x4ebfd0d6,0x46ccc185,
       0x2eeb10d3,0x474e3c8c,0x23c84aee,0x3abae1cb,
       0x1499b81a,0xa2993951,0xeed176ad,0xdfcfe84c,
       0xde4a961f,0x4af13fe6,0xe0069c42,0xc14de8f5,
       0x6e02ce8f,0x90d19f7f,0xbca4a484,0xd4efdd63,
       0x780fd504,0xe80310e3,0x03abbc12,0x90023849,
       0xd6f6fb84,0xd6b354c5,0x5b8575f0,0x758f14e4,
       0x450de862,0x90704afb,0x47209a33,0xf226b726,
       0xf858dab8,0x7c0d6de9,0xb05ce777,0xee5ff2d4,
       0x7acb6d5c,0x2d663f85,0x41c72a91,0x82356bf2,

       0x94e948ec,0xd358d448,0xeca7814d,0x78cd7950,
       0xd6097277,0x97782a5d,0xf43fc6f4,0x105f0a38,
       0x9e170082,0x4bfe566b,0x4371d25f,0xef25a364,
       0x698eb672,0x74f850e4,0x4678ff99,0x4a290dc6,
       0x3918f07c,0x32c7d9cd,0x9f28e0af,0x0d3c5a86,
       0x7bfc8a45,0xddf0c7e1,0xdeacb86b,0x970b3c5c,
       0x5e29e199,0xea28346d,0x6b59e71b,0xf8a8a46a,
       0x862f6ce4,0x3ccb740b,0x08761e9e,0xbfa01e5f,
       0xf17cfa14,0x2dbf99fb,0x7a0be420,0x06137517,
       0xe020b266,0xd25bfc61,0xff10ed00,0x42e6be8b,
       0x029ef587,0x683b26e0,0xb08afc70,0x7c1fd59e,
       0xbaae9a70,0x98c8c801,0xb6e35a26,0x57083971,
       0x90a6a680,0x1b44169e,0x1dce237c,0x518e0a59,
       0xccb11358,0x7b8175fb,0xb8fe701a,0x10d259bb,
       0xe806ce10,0x9212be79,0x4604ae7b,0x7fa22a84,
       0xe715b13a,0x0394c3b2,0x11efbbae,0xe13d9e19,

       0x77e012bd,0x2d05114c,0xaecf2ddd,0xb2a2b4aa,
       0xb9429546,0x55dce815,0xc89138f8,0x46dcae20,
       0x1f6f7162,0x0c557ebc,0x5b996932,0xafbbe7e2,
       0xd2bd5f62,0xff475b9f,0x9cec7108,0xeaddcffb,
       0x5d751aef,0xf68f7bdf,0xf3f4e246,0x00983fcd,
       0x00bc82bb,0xbf5fd3e7,0xe80c7e2c,0x187d8b1f,
       0xefafb9a7,0x8f27a148,0x5c9606a9,0xf2d2be3e,
       0xe992d13a,0xe4bcd152,0xce40b436,0x63d6a1fc,
       0xdc1455c4,0x64641e39,0xd83010c9,0x2d535ae0,
       0x5b748f3e,0xf9a9146b,0x80f10294,0x2859acd4,
       0x5fc846da,0x56d190e9,0x82167225,0x98e4daba,
       0xbf7865f3,0x00da7ae4,0x9b7cd126,0x644172f8,
       0xde40c78f,0xe8803efc,0xdd331a2b,0x48485c3c,
       0x4ed01ddc,0x9c0b2d9e,0xb1c6e9d7,0xd797d43c,
       0x274101ff,0x3bf7e127,0x91ebbc56,0x7ffeb321,
       0x4d42096f,0xd6e9456a,0x0bade318,0x2f40ee0b,

       0x38cebf03,0x0cbc2e72,0xbf03e704,0x7b3e7a9a,
       0x8e985acd,0x90917617,0x413895f8,0xf11dde04,
       0xc66f8244,0xe5648174,0x6c420271,0x2469d463,
       0x2540b033,0xdc788e7b,0xe4140ded,0x0990630a,
       0xa54abed4,0x6e124829,0xd940155a,0x1c8836f6,
       0x38fda06c,0x5207ab69,0xf8be9342,0x774882a8,
       0x56fc0d7e,0x53a99d6e,0x8241f634,0x9490954d,
       0x447130aa,0x8cc4a81f,0x0868ec83,0xc22c642d,
       0x47880140,0xfbff3bec,0x0f531f41,0xf845a667,
       0x08c15fb7,0x1996cd81,0x86579103,0xe21dd863,
       0x513d7f97,0x3984a1f1,0xdfcdc5f4,0x97766a5e,
       0x37e2b1da,0x41441f3f,0xabd9ddba,0x23b755a9,
       0xda937945,0x103e650e,0x3eef7c8f,0x2760ff8d,
       0x2493a4cd,0x1d671225,0x3bf4bd4c,0xed6e1728,
       0xc70e9e30,0x4e05e529,0x928d5aa6,0x164d0220,
       0xb5184306,0x4bd7efb3,0x63830f11,0xf3a1526c,

       0xf1545450,0xd41d5df5,0x25a5060d,0x77b368da,
       0x4fe33c7e,0xeae09021,0xfdb053c4,0x2930f18d,
       0xd37109ff,0x8511a781,0xc7e7cdd7,0x6aeabc45,
       0xebbeaeaa,0x9a0c4f11,0xda252cbb,0x5b248f41,
       0x5223b5eb,0xe32ab782,0x8e6a1c97,0x11d3f454,
       0x3e05bd16,0x0059001d,0xce13ac97,0xf83b2b4c,
       0x71db5c9a,0xdc8655a6,0x9e98597b,0x3fcae0a2,
       0x75e63ccd,0x076c72df,0x4754c6ad,0x26b5627b,
       0xd818c697,0x998d5f3d,0xe94fc7b2,0x1f49ad1a,
       0xca7ff4ea,0x9fe72c05,0xfbd0cbbf,0xb0388ceb,
       0xb76031e3,0xd0f53973,0xfb17907c,0xa4c4c10f,
       0x9f2d8af9,0xca0e56b0,0xb0d9b689,0xfcbf37a3,
       0xfede8f7d,0xf836511c,0x744003fc,0x89eba576,
       0xcfdcf6a6,0xc2007f52,0xaaaf683f,0x62d2f9ca,
       0xc996f77f,0x77a7b5b3,0x8ba7d0a4,0xef6a0819,
       0xa0d903c0,0x01b27431,0x58fffd4c,0x4827f45c,

       0x44eb5634,0xae70edfc,0x591c740b,0x478bf338,
       0x2f3b513b,0x67bf518e,0x6fef4a0c,0x1e0b6917,
       0x5ac0edc5,0x2e328498,0x077de7d5,0x5726020b,
       0x2aeda888,0x45b637ca,0xcf60858d,0x3dc91ae2,
       0x3e6d5294,0xe6900d39,0x0f634c71,0x827a5fa4,
       0xc713994b,0x1c363494,0x3d43b615,0xe5fe7d15,
       0xf6ada4f2,0x472099d5,0x04360d39,0x7f2a71d0,
       0x88a4f5ff,0x2c28fac5,0x4cd64801,0xfd78dd33,
       0xc9bdd233,0x21e266cc,0x9bbf419d,0xcbf7d81d,
       0x80f15f96,0x04242657,0x53fb0f66,0xded11e46,
       0xf2fdba97,0x8d45c9f1,0x4eeae802,0x17003659,
       0xb9db81a7,0xe734b1b2,0x9503c54e,0xb7c77c3e,
       0x271dd0ab,0xd8b906b5,0x0d540ec6,0xf03b86e0,
       0x0fdb7d18,0x95e261af,0xad9ec04e,0x381f4a64,
       0xfec798d7,0x09ea20be,0x0ef4ca57,0x1e6195bb,
       0xfd0da78b,0xcea1653b,0x157d9777,0xf04af50f,

       0xad7baa23,0xd181714a,0x9bbdab78,0x6c7d1577,
       0x645eb1e7,0xa0648264,0x35839ca6,0x2287ef45,
       0x32a64ca3,0x26111f6f,0x64814946,0xb0cddaf1,
       0x4351c59e,0x1b30471c,0xb970788a,0x30e9f597,
       0xd7e58df1,0xc6d2b953,0xf5f37cf4,0x3d7c419e,
       0xf91ecb2d,0x9c87fd5d,0xb22384ce,0x8c7ac51c,
       0x62c96801,0x57e54091,0x964536fe,0x13d3b189,
       0x4afd1580,0xeba62239,0xb82ea667,0xae18d43a,
       0xbef04402,0x1942534f,0xc54bf260,0x3c8267f5,
       0xa1020ddd,0x112fcc8a,0xde596266,0xe91d0856,
       0xf300c914,0xed84478e,0x5b65009e,0x4764da16,
       0xaf8e07a2,0x4088dc2c,0x9a0cad41,0x2c3f179b,
       0xa67b83f7,0xf27eab09,0xdbe10e28,0xf04c911f,
       0xd1169f87,0x8e1e4976,0x17f57744,0xe4f5a33f,
       0x27c2e04b,0x0b7523bd,0x07305776,0xc6be7503,
       0x918fa7c9,0xaf2e2cd9,0x82046f8e,0xcc1c8250
     };

     uint8_t buf[BUFSIZE];
     uint32_t saw[BUFSIZE];
     for (int i=0; i<BUFSIZE; ++i)
     {
         buf[i] = i+128;
         saw[i] = SpookyHashV2::Hash32(buf, i, 0);
         if (saw[i] != expected[i])
         {
             printf("%3d: saw 0x%.8x, expected 0x%.8" PRIx64 "\n", i, saw[i],
                    expected[i]);
             failed = true;
         }
     }
 }
 #undef BUFSIZE


 #define NUMBUF (1<<8)
 #define BUFSIZE (1<<21)
 void DoTimingBig(int seed)
 {
     printf("\ntesting time to hash 512M bytes ...\n");

     char *buf[NUMBUF];
     for (int i=0; i<NUMBUF; ++i)
     {
         buf[i] = (char *)malloc(BUFSIZE);
         memset(buf[i], (char)seed, BUFSIZE);
     }

     uint64_t a = GetTickCount();
     uint64_t hash1 = seed;
     uint64_t hash2 = seed;
     for (uint64_t i=0; i<NUMBUF; ++i)
     {
         SpookyHashV2::Hash128(buf[i], BUFSIZE, &hash1, &hash2);
     }
     uint64_t z = GetTickCount();
     printf("SpookyHashV2::Hash128, uncached: time is "
            "%4" PRId64 " milliseconds\n", z-a);

     a = GetTickCount();
     for (uint64_t i=0; i<NUMBUF; ++i)
     {
         Add(buf[i], BUFSIZE, &hash1, &hash2);
     }
     z = GetTickCount();
     printf("Addition           , uncached: time is %4" PRId64 " milliseconds\n",
            z-a);

     a = GetTickCount();
     for (uint64_t i=0; i<NUMBUF*BUFSIZE/1024; ++i)
     {
         SpookyHashV2::Hash128(buf[0], 1024, &hash1, &hash2);
     }
     z = GetTickCount();
     printf("SpookyHashV2::Hash128,   cached: time is "
            "%4" PRId64 " milliseconds\n", z-a);

     a = GetTickCount();
     for (uint64_t i=0; i<NUMBUF*BUFSIZE/1024; ++i)
     {
         Add(buf[0], 1024, &hash1, &hash2);
     }
     z = GetTickCount();
     printf("Addition           ,   cached: time is %4" PRId64 " milliseconds\n",
            z-a);

     for (int i=0; i<NUMBUF; ++i)
     {
         free(buf[i]);
         buf[i] = 0;
     }
 }
 #undef NUMBUF
 #undef BUFSIZE


 #define BUFSIZE (1<<14)
 #define NUMITER 10000000
 void DoTimingSmall(int seed)
 {
     printf("\ntesting timing of hashing up to %d cached aligned bytes %d "
            "times ...\n", BUFSIZE, NUMITER);

     uint64_t buf[BUFSIZE/8];
     for (int i=0; i<BUFSIZE/8; ++i)
     {
         buf[i] = i+seed;
     }

     for (int i=1; i <= BUFSIZE; i <<= 1)
     {
         uint64_t a = GetTickCount();
         uint64_t hash1 = seed;
         uint64_t hash2 = seed+i;
         for (int j=0; j<NUMITER; ++j)
         {
             SpookyHashV2::Hash128((char *)buf, i, &hash1, &hash2);
         }
         uint64_t z = GetTickCount();
         printf("%d bytes: hash is %.16" PRIx64 " %.16" PRIx64 ", "
                "time is %" PRId64 "\n", i, hash1, hash2, z-a);
     }
 }
 #undef BUFSIZE

 #define BUFSIZE 1024
 void TestAlignment()
 {
     printf("\ntesting alignment ...\n");

     char buf[BUFSIZE];
     uint64_t hash[8];
     for (int i=0; i<BUFSIZE-16; ++i)
     {
         for (int j=0; j<8; ++j)
         {
             buf[j] = (char)i+j;
             for (int k=1; k<=i; ++k)
             {
                 buf[j+k] = k;
             }
             buf[j+i+1] = (char)i+j;
             hash[j] = SpookyHashV2::Hash64((const void *)(buf+j+1), i, 0);
         }
         for (int j=1; j<8; ++j)
         {
             if (hash[0] != hash[j])
             {
                 printf("alignment problems: %d %d\n", i, j);
                 failed = true;
             }
         }
     }
 }
 #undef BUFSIZE

 // test that all deltas of one or two input bits affect all output bits
 #define BUFSIZE 256
 #define TRIES 50
 #define MEASURES 6
 void TestDeltas(int seed)
 {
     printf("\nall 1 or 2 bit input deltas get %d tries to flip every output "
            "bit ...\n", TRIES);

     Random random;
     random.Init((uint64_t)seed);

     // for messages 0..BUFSIZE-1 bytes
     for (int h=0; h<BUFSIZE; ++h)
     {
         int maxk = 0;
         // first bit to set
         for (int i=0; i<h*8; ++i)
         {
             // second bit to set, or don't have a second bit
             for (int j=0; j<=i; ++j)
             {
                 uint64_t measure[MEASURES][2];
                 uint64_t counter[MEASURES][2];
                 for (int l=0; l<2; ++l)
                 {
                     for (int m=0; m<MEASURES; ++m)
                     {
                         counter[m][l] = 0;
                     }
                 }

                 // try to hit every output bit TRIES times
                 int k;
                 for (k=0; k<TRIES; ++k)
                 {
                     uint8_t buf1[BUFSIZE];
                     uint8_t buf2[BUFSIZE];
                     int done = 1;
                     for (int l=0; l<h; ++l)
                     {
                         buf1[l] = buf2[l] = random.Value();
                     }
                     buf1[i/8] ^= (1 << (i%8));
                     if (j != i)
                     {
                         buf1[j/8] ^= (1 << (j%8));
                     }
                     SpookyHashV2::Hash128(buf1, h,
                             &measure[0][0], &measure[0][1]);
                     SpookyHashV2::Hash128(buf2, h,
                             &measure[1][0], &measure[1][1]);
                     for (int l=0; l<2; ++l) {
                         measure[2][l] = measure[0][l] ^ measure[1][l];
                         measure[3][l] = ~(measure[0][l] ^ measure[1][l]);
                         measure[4][l] = measure[0][l] - measure[1][l];
                         measure[4][l] ^= (measure[4][l]>>1);
                         measure[5][l] = measure[0][l] + measure[1][l];
                         measure[5][l] ^= (measure[4][l]>>1);
                     }
                     for (int l=0; l<2; ++l)
                     {
                         for (int m=0; m<MEASURES; ++m)
                         {
                             counter[m][l] |= measure[m][l];
                             if (~counter[m][l]) done = 0;
                         }
                     }
                     if (done) break;
                 }
                 if (k == TRIES)
                 {
                     printf("failed %d %d %d\n", h, i, j);
                     failed = true;
                 }
                 else if (k > maxk)
                 {
                     maxk = k;
                 }
             }
         }
         printf("passed for buffer size %d  max %d\n", h, maxk);
     }
 }
 #undef BUFSIZE
 #undef TRIES
 #undef MEASURES


 // test that hashing pieces has the same behavior as hashing the whole
 #define BUFSIZE 1024
 void TestPieces()
 {
     printf("\ntesting pieces ...\n");
     char buf[BUFSIZE];
     for (int i=0; i<BUFSIZE; ++i)
     {
         buf[i] = i;
     }
     for (int i=0; i<BUFSIZE; ++i)
     {
         uint64_t a,b,c,d,seed1=1,seed2=2;
         SpookyHashV2 state;

         // all as one call
         a = seed1;
         b = seed2;
         SpookyHashV2::Hash128(buf, i, &a, &b);

         // all as one piece
         c = 0xdeadbeefdeadbeef;
         d = 0xbaceba11baceba11;
         state.Init(seed1, seed2);
         state.Update(buf, i);
         state.Final(&c, &d);

         if (a != c)
         {
             printf("wrong a %d: %.16" PRIx64 " %.16" PRIx64 "\n", i, a,c);
             failed = true;
         }
         if (b != d)
         {
             printf("wrong b %d: %.16" PRIx64 " %.16" PRIx64 "\n", i, b,d);
             failed = true;
         }

         // all possible two consecutive pieces
         for (int j=0; j<i; ++j)
         {
             c = seed1;
             d = seed2;
             state.Init(c, d);
             state.Update(&buf[0], j);
             state.Update(&buf[j], i-j);
             state.Final(&c, &d);
             if (a != c)
             {
                 printf("wrong a %d %d: %.16" PRIx64 " %.16" PRIx64 "\n",
                        j, i, a,c);
                 failed = true;
             }
             if (b != d)
             {
                 printf("wrong b %d %d: %.16" PRIx64 " %.16" PRIx64 "\n",
                        j, i, b,d);
                 failed = true;
             }
         }
     }
 }
 #undef BUFSIZE

 TEST(SpookyHashV2, Main) {
     TestResults();
     TestAlignment();
     TestPieces();
     DoTimingBig(1);
     // tudorb@fb.com: Commented out slow tests
 #if 0
     DoTimingSmall(argc);
     TestDeltas(argc);
 #endif
     CHECK_EQ(failed, 0);
 }
	/*
	* Copyright 2015 Facebook, Inc.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	// SpookyHash: a 128-bit noncryptographic hash function
	// By Bob Jenkins, public domain

	#ifndef __STDC_FORMAT_MACROS
	#define __STDC_FORMAT_MACROS 1
	#endif

	#include <folly/SpookyHashV2.h>
	#include <folly/Benchmark.h>

	#include <cinttypes>
	#include <cstdio>
	#include <cstddef>
	#include <cstring>
	#include <cstdlib>
	#include <ctime>

	#include <gtest/gtest.h>

	using namespace ::folly::hash;

	static bool failed = false;

	static uint64_t GetTickCount() {
	timespec ts;
	clock_gettime(CLOCK_REALTIME, &ts);
	return ts.tv_sec * 1000 + ts.tv_nsec / 1000000; // milliseconds
	}

	class Random
	{
	public:
	inline uint64_t Value()
	{
	uint64_t e = m_a - Rot64(m_b, 23);
	m_a = m_b ^ Rot64(m_c, 16);
	m_b = m_c + Rot64(m_d, 11);
	m_c = m_d + e;
	m_d = e + m_a;
	return m_d;
	}

	inline void Init( uint64_t seed)
	{
	m_a = 0xdeadbeef;
	m_b = m_c = m_d = seed;
	for (int i=0; i<20; ++i)
	(void)Value();
	}

	private:
	static inline uint64_t Rot64(uint64_t x, int k)
	{
	return (x << k) \| (x >> (64-(k)));
	}

	uint64_t m_a;
	uint64_t m_b;
	uint64_t m_c;
	uint64_t m_d;
	};

	// fastest conceivable hash function (for comparison)
	static void Add(const void *data, size_t length,
	uint64_t hash1, uint64_t hash2)
	{
	uint64_t p64 = (uint64_t )data;
	uint64_t *end = p64 + length/8;
	uint64_t hash = hash1 + hash2;
	while (p64 < end)
	{
	hash += *p64;
	++p64;
	}
	*hash1 = hash;
	*hash2 = hash;
	}

	#define BUFSIZE (512)
	void TestResults()
	{
	printf("\ntesting results ...\n");
	static const uint64_t expected[BUFSIZE] = {
	0x6bf50919,0x70de1d26,0xa2b37298,0x35bc5fbf,
	0x8223b279,0x5bcb315e,0x53fe88a1,0xf9f1a233,
	0xee193982,0x54f86f29,0xc8772d36,0x9ed60886,
	0x5f23d1da,0x1ed9f474,0xf2ef0c89,0x83ec01f9,
	0xf274736c,0x7e9ac0df,0xc7aed250,0xb1015811,
	0xe23470f5,0x48ac20c4,0xe2ab3cd5,0x608f8363,
	0xd0639e68,0xc4e8e7ab,0x863c7c5b,0x4ea63579,
	0x99ae8622,0x170c658b,0x149ba493,0x027bca7c,
	0xe5cfc8b6,0xce01d9d7,0x11103330,0x5d1f5ed4,
	0xca720ecb,0xef408aec,0x733b90ec,0x855737a6,
	0x9856c65f,0x647411f7,0x50777c74,0xf0f1a8b7,
	0x9d7e55a5,0xc68dd371,0xfc1af2cc,0x75728d0a,
	0x390e5fdc,0xf389b84c,0xfb0ccf23,0xc95bad0e,
	0x5b1cb85a,0x6bdae14f,0x6deb4626,0x93047034,
	0x6f3266c6,0xf529c3bd,0x396322e7,0x3777d042,
	0x1cd6a5a2,0x197b402e,0xc28d0d2b,0x09c1afb4,

	0x069c8bb7,0x6f9d4e1e,0xd2621b5c,0xea68108d,
	0x8660cb8f,0xd61e6de6,0x7fba15c7,0xaacfaa97,
	0xdb381902,0x4ea22649,0x5d414a1e,0xc3fc5984,
	0xa0fc9e10,0x347dc51c,0x37545fb6,0x8c84b26b,
	0xf57efa5d,0x56afaf16,0xb6e1eb94,0x9218536a,
	0xe3cc4967,0xd3275ef4,0xea63536e,0x6086e499,
	0xaccadce7,0xb0290d82,0x4ebfd0d6,0x46ccc185,
	0x2eeb10d3,0x474e3c8c,0x23c84aee,0x3abae1cb,
	0x1499b81a,0xa2993951,0xeed176ad,0xdfcfe84c,
	0xde4a961f,0x4af13fe6,0xe0069c42,0xc14de8f5,
	0x6e02ce8f,0x90d19f7f,0xbca4a484,0xd4efdd63,
	0x780fd504,0xe80310e3,0x03abbc12,0x90023849,
	0xd6f6fb84,0xd6b354c5,0x5b8575f0,0x758f14e4,
	0x450de862,0x90704afb,0x47209a33,0xf226b726,
	0xf858dab8,0x7c0d6de9,0xb05ce777,0xee5ff2d4,
	0x7acb6d5c,0x2d663f85,0x41c72a91,0x82356bf2,

	0x94e948ec,0xd358d448,0xeca7814d,0x78cd7950,
	0xd6097277,0x97782a5d,0xf43fc6f4,0x105f0a38,
	0x9e170082,0x4bfe566b,0x4371d25f,0xef25a364,
	0x698eb672,0x74f850e4,0x4678ff99,0x4a290dc6,
	0x3918f07c,0x32c7d9cd,0x9f28e0af,0x0d3c5a86,
	0x7bfc8a45,0xddf0c7e1,0xdeacb86b,0x970b3c5c,
	0x5e29e199,0xea28346d,0x6b59e71b,0xf8a8a46a,
	0x862f6ce4,0x3ccb740b,0x08761e9e,0xbfa01e5f,
	0xf17cfa14,0x2dbf99fb,0x7a0be420,0x06137517,
	0xe020b266,0xd25bfc61,0xff10ed00,0x42e6be8b,
	0x029ef587,0x683b26e0,0xb08afc70,0x7c1fd59e,
	0xbaae9a70,0x98c8c801,0xb6e35a26,0x57083971,
	0x90a6a680,0x1b44169e,0x1dce237c,0x518e0a59,
	0xccb11358,0x7b8175fb,0xb8fe701a,0x10d259bb,
	0xe806ce10,0x9212be79,0x4604ae7b,0x7fa22a84,
	0xe715b13a,0x0394c3b2,0x11efbbae,0xe13d9e19,

	0x77e012bd,0x2d05114c,0xaecf2ddd,0xb2a2b4aa,
	0xb9429546,0x55dce815,0xc89138f8,0x46dcae20,
	0x1f6f7162,0x0c557ebc,0x5b996932,0xafbbe7e2,
	0xd2bd5f62,0xff475b9f,0x9cec7108,0xeaddcffb,
	0x5d751aef,0xf68f7bdf,0xf3f4e246,0x00983fcd,
	0x00bc82bb,0xbf5fd3e7,0xe80c7e2c,0x187d8b1f,
	0xefafb9a7,0x8f27a148,0x5c9606a9,0xf2d2be3e,
	0xe992d13a,0xe4bcd152,0xce40b436,0x63d6a1fc,
	0xdc1455c4,0x64641e39,0xd83010c9,0x2d535ae0,
	0x5b748f3e,0xf9a9146b,0x80f10294,0x2859acd4,
	0x5fc846da,0x56d190e9,0x82167225,0x98e4daba,
	0xbf7865f3,0x00da7ae4,0x9b7cd126,0x644172f8,
	0xde40c78f,0xe8803efc,0xdd331a2b,0x48485c3c,
	0x4ed01ddc,0x9c0b2d9e,0xb1c6e9d7,0xd797d43c,
	0x274101ff,0x3bf7e127,0x91ebbc56,0x7ffeb321,
	0x4d42096f,0xd6e9456a,0x0bade318,0x2f40ee0b,

	0x38cebf03,0x0cbc2e72,0xbf03e704,0x7b3e7a9a,
	0x8e985acd,0x90917617,0x413895f8,0xf11dde04,
	0xc66f8244,0xe5648174,0x6c420271,0x2469d463,
	0x2540b033,0xdc788e7b,0xe4140ded,0x0990630a,
	0xa54abed4,0x6e124829,0xd940155a,0x1c8836f6,
	0x38fda06c,0x5207ab69,0xf8be9342,0x774882a8,
	0x56fc0d7e,0x53a99d6e,0x8241f634,0x9490954d,
	0x447130aa,0x8cc4a81f,0x0868ec83,0xc22c642d,
	0x47880140,0xfbff3bec,0x0f531f41,0xf845a667,
	0x08c15fb7,0x1996cd81,0x86579103,0xe21dd863,
	0x513d7f97,0x3984a1f1,0xdfcdc5f4,0x97766a5e,
	0x37e2b1da,0x41441f3f,0xabd9ddba,0x23b755a9,
	0xda937945,0x103e650e,0x3eef7c8f,0x2760ff8d,
	0x2493a4cd,0x1d671225,0x3bf4bd4c,0xed6e1728,
	0xc70e9e30,0x4e05e529,0x928d5aa6,0x164d0220,
	0xb5184306,0x4bd7efb3,0x63830f11,0xf3a1526c,

	0xf1545450,0xd41d5df5,0x25a5060d,0x77b368da,
	0x4fe33c7e,0xeae09021,0xfdb053c4,0x2930f18d,
	0xd37109ff,0x8511a781,0xc7e7cdd7,0x6aeabc45,
	0xebbeaeaa,0x9a0c4f11,0xda252cbb,0x5b248f41,
	0x5223b5eb,0xe32ab782,0x8e6a1c97,0x11d3f454,
	0x3e05bd16,0x0059001d,0xce13ac97,0xf83b2b4c,
	0x71db5c9a,0xdc8655a6,0x9e98597b,0x3fcae0a2,
	0x75e63ccd,0x076c72df,0x4754c6ad,0x26b5627b,
	0xd818c697,0x998d5f3d,0xe94fc7b2,0x1f49ad1a,
	0xca7ff4ea,0x9fe72c05,0xfbd0cbbf,0xb0388ceb,
	0xb76031e3,0xd0f53973,0xfb17907c,0xa4c4c10f,
	0x9f2d8af9,0xca0e56b0,0xb0d9b689,0xfcbf37a3,
	0xfede8f7d,0xf836511c,0x744003fc,0x89eba576,
	0xcfdcf6a6,0xc2007f52,0xaaaf683f,0x62d2f9ca,
	0xc996f77f,0x77a7b5b3,0x8ba7d0a4,0xef6a0819,
	0xa0d903c0,0x01b27431,0x58fffd4c,0x4827f45c,

	0x44eb5634,0xae70edfc,0x591c740b,0x478bf338,
	0x2f3b513b,0x67bf518e,0x6fef4a0c,0x1e0b6917,
	0x5ac0edc5,0x2e328498,0x077de7d5,0x5726020b,
	0x2aeda888,0x45b637ca,0xcf60858d,0x3dc91ae2,
	0x3e6d5294,0xe6900d39,0x0f634c71,0x827a5fa4,
	0xc713994b,0x1c363494,0x3d43b615,0xe5fe7d15,
	0xf6ada4f2,0x472099d5,0x04360d39,0x7f2a71d0,
	0x88a4f5ff,0x2c28fac5,0x4cd64801,0xfd78dd33,
	0xc9bdd233,0x21e266cc,0x9bbf419d,0xcbf7d81d,
	0x80f15f96,0x04242657,0x53fb0f66,0xded11e46,
	0xf2fdba97,0x8d45c9f1,0x4eeae802,0x17003659,
	0xb9db81a7,0xe734b1b2,0x9503c54e,0xb7c77c3e,
	0x271dd0ab,0xd8b906b5,0x0d540ec6,0xf03b86e0,
	0x0fdb7d18,0x95e261af,0xad9ec04e,0x381f4a64,
	0xfec798d7,0x09ea20be,0x0ef4ca57,0x1e6195bb,
	0xfd0da78b,0xcea1653b,0x157d9777,0xf04af50f,

	0xad7baa23,0xd181714a,0x9bbdab78,0x6c7d1577,
	0x645eb1e7,0xa0648264,0x35839ca6,0x2287ef45,
	0x32a64ca3,0x26111f6f,0x64814946,0xb0cddaf1,
	0x4351c59e,0x1b30471c,0xb970788a,0x30e9f597,
	0xd7e58df1,0xc6d2b953,0xf5f37cf4,0x3d7c419e,
	0xf91ecb2d,0x9c87fd5d,0xb22384ce,0x8c7ac51c,
	0x62c96801,0x57e54091,0x964536fe,0x13d3b189,
	0x4afd1580,0xeba62239,0xb82ea667,0xae18d43a,
	0xbef04402,0x1942534f,0xc54bf260,0x3c8267f5,
	0xa1020ddd,0x112fcc8a,0xde596266,0xe91d0856,
	0xf300c914,0xed84478e,0x5b65009e,0x4764da16,
	0xaf8e07a2,0x4088dc2c,0x9a0cad41,0x2c3f179b,
	0xa67b83f7,0xf27eab09,0xdbe10e28,0xf04c911f,
	0xd1169f87,0x8e1e4976,0x17f57744,0xe4f5a33f,
	0x27c2e04b,0x0b7523bd,0x07305776,0xc6be7503,
	0x918fa7c9,0xaf2e2cd9,0x82046f8e,0xcc1c8250
	};

	uint8_t buf[BUFSIZE];
	uint32_t saw[BUFSIZE];
	for (int i=0; i<BUFSIZE; ++i)
	{
	buf[i] = i+128;
	saw[i] = SpookyHashV2::Hash32(buf, i, 0);
	if (saw[i] != expected[i])
	{
	printf("%3d: saw 0x%.8x, expected 0x%.8" PRIx64 "\n", i, saw[i],
	expected[i]);
	failed = true;
	}
	}
	}
	#undef BUFSIZE


	#define NUMBUF (1<<8)
	#define BUFSIZE (1<<21)
	void DoTimingBig(int seed)
	{
	printf("\ntesting time to hash 512M bytes ...\n");

	char *buf[NUMBUF];
	for (int i=0; i<NUMBUF; ++i)
	{
	buf[i] = (char *)malloc(BUFSIZE);
	memset(buf[i], (char)seed, BUFSIZE);
	}

	uint64_t a = GetTickCount();
	uint64_t hash1 = seed;
	uint64_t hash2 = seed;
	for (uint64_t i=0; i<NUMBUF; ++i)
	{
	SpookyHashV2::Hash128(buf[i], BUFSIZE, &hash1, &hash2);
	}
	uint64_t z = GetTickCount();
	printf("SpookyHashV2::Hash128, uncached: time is "
	"%4" PRId64 " milliseconds\n", z-a);

	a = GetTickCount();
	for (uint64_t i=0; i<NUMBUF; ++i)
	{
	Add(buf[i], BUFSIZE, &hash1, &hash2);
	}
	z = GetTickCount();
	printf("Addition , uncached: time is %4" PRId64 " milliseconds\n",
	z-a);

	a = GetTickCount();
	for (uint64_t i=0; i<NUMBUF*BUFSIZE/1024; ++i)
	{
	SpookyHashV2::Hash128(buf[0], 1024, &hash1, &hash2);
	}
	z = GetTickCount();
	printf("SpookyHashV2::Hash128, cached: time is "
	"%4" PRId64 " milliseconds\n", z-a);

	a = GetTickCount();
	for (uint64_t i=0; i<NUMBUF*BUFSIZE/1024; ++i)
	{
	Add(buf[0], 1024, &hash1, &hash2);
	}
	z = GetTickCount();
	printf("Addition , cached: time is %4" PRId64 " milliseconds\n",
	z-a);

	for (int i=0; i<NUMBUF; ++i)
	{
	free(buf[i]);
	buf[i] = 0;
	}
	}
	#undef NUMBUF
	#undef BUFSIZE


	#define BUFSIZE (1<<14)
	#define NUMITER 10000000
	void DoTimingSmall(int seed)
	{
	printf("\ntesting timing of hashing up to %d cached aligned bytes %d "
	"times ...\n", BUFSIZE, NUMITER);

	uint64_t buf[BUFSIZE/8];
	for (int i=0; i<BUFSIZE/8; ++i)
	{
	buf[i] = i+seed;
	}

	for (int i=1; i <= BUFSIZE; i <<= 1)
	{
	uint64_t a = GetTickCount();
	uint64_t hash1 = seed;
	uint64_t hash2 = seed+i;
	for (int j=0; j<NUMITER; ++j)
	{
	SpookyHashV2::Hash128((char *)buf, i, &hash1, &hash2);
	}
	uint64_t z = GetTickCount();
	printf("%d bytes: hash is %.16" PRIx64 " %.16" PRIx64 ", "
	"time is %" PRId64 "\n", i, hash1, hash2, z-a);
	}
	}
	#undef BUFSIZE

	#define BUFSIZE 1024
	void TestAlignment()
	{
	printf("\ntesting alignment ...\n");

	char buf[BUFSIZE];
	uint64_t hash[8];
	for (int i=0; i<BUFSIZE-16; ++i)
	{
	for (int j=0; j<8; ++j)
	{
	buf[j] = (char)i+j;
	for (int k=1; k<=i; ++k)
	{
	buf[j+k] = k;
	}
	buf[j+i+1] = (char)i+j;
	hash[j] = SpookyHashV2::Hash64((const void *)(buf+j+1), i, 0);
	}
	for (int j=1; j<8; ++j)
	{
	if (hash[0] != hash[j])
	{
	printf("alignment problems: %d %d\n", i, j);
	failed = true;
	}
	}
	}
	}
	#undef BUFSIZE

	// test that all deltas of one or two input bits affect all output bits
	#define BUFSIZE 256
	#define TRIES 50
	#define MEASURES 6
	void TestDeltas(int seed)
	{
	printf("\nall 1 or 2 bit input deltas get %d tries to flip every output "
	"bit ...\n", TRIES);

	Random random;
	random.Init((uint64_t)seed);

	// for messages 0..BUFSIZE-1 bytes
	for (int h=0; h<BUFSIZE; ++h)
	{
	int maxk = 0;
	// first bit to set
	for (int i=0; i<h*8; ++i)
	{
	// second bit to set, or don't have a second bit
	for (int j=0; j<=i; ++j)
	{
	uint64_t measure[MEASURES][2];
	uint64_t counter[MEASURES][2];
	for (int l=0; l<2; ++l)
	{
	for (int m=0; m<MEASURES; ++m)
	{
	counter[m][l] = 0;
	}
	}

	// try to hit every output bit TRIES times
	int k;
	for (k=0; k<TRIES; ++k)
	{
	uint8_t buf1[BUFSIZE];
	uint8_t buf2[BUFSIZE];
	int done = 1;
	for (int l=0; l<h; ++l)
	{
	buf1[l] = buf2[l] = random.Value();
	}
	buf1[i/8] ^= (1 << (i%8));
	if (j != i)
	{
	buf1[j/8] ^= (1 << (j%8));
	}
	SpookyHashV2::Hash128(buf1, h,
	&measure[0][0], &measure[0][1]);
	SpookyHashV2::Hash128(buf2, h,
	&measure[1][0], &measure[1][1]);
	for (int l=0; l<2; ++l) {
	measure[2][l] = measure[0][l] ^ measure[1][l];
	measure[3][l] = ~(measure[0][l] ^ measure[1][l]);
	measure[4][l] = measure[0][l] - measure[1][l];
	measure[4][l] ^= (measure[4][l]>>1);
	measure[5][l] = measure[0][l] + measure[1][l];
	measure[5][l] ^= (measure[4][l]>>1);
	}
	for (int l=0; l<2; ++l)
	{
	for (int m=0; m<MEASURES; ++m)
	{
	counter[m][l] \|= measure[m][l];
	if (~counter[m][l]) done = 0;
	}
	}
	if (done) break;
	}
	if (k == TRIES)
	{
	printf("failed %d %d %d\n", h, i, j);
	failed = true;
	}
	else if (k > maxk)
	{
	maxk = k;
	}
	}
	}
	printf("passed for buffer size %d max %d\n", h, maxk);
	}
	}
	#undef BUFSIZE
	#undef TRIES
	#undef MEASURES


	// test that hashing pieces has the same behavior as hashing the whole
	#define BUFSIZE 1024
	void TestPieces()
	{
	printf("\ntesting pieces ...\n");
	char buf[BUFSIZE];
	for (int i=0; i<BUFSIZE; ++i)
	{
	buf[i] = i;
	}
	for (int i=0; i<BUFSIZE; ++i)
	{
	uint64_t a,b,c,d,seed1=1,seed2=2;
	SpookyHashV2 state;

	// all as one call
	a = seed1;
	b = seed2;
	SpookyHashV2::Hash128(buf, i, &a, &b);

	// all as one piece
	c = 0xdeadbeefdeadbeef;
	d = 0xbaceba11baceba11;
	state.Init(seed1, seed2);
	state.Update(buf, i);
	state.Final(&c, &d);

	if (a != c)
	{
	printf("wrong a %d: %.16" PRIx64 " %.16" PRIx64 "\n", i, a,c);
	failed = true;
	}
	if (b != d)
	{
	printf("wrong b %d: %.16" PRIx64 " %.16" PRIx64 "\n", i, b,d);
	failed = true;
	}

	// all possible two consecutive pieces
	for (int j=0; j<i; ++j)
	{
	c = seed1;
	d = seed2;
	state.Init(c, d);
	state.Update(&buf[0], j);
	state.Update(&buf[j], i-j);
	state.Final(&c, &d);
	if (a != c)
	{
	printf("wrong a %d %d: %.16" PRIx64 " %.16" PRIx64 "\n",
	j, i, a,c);
	failed = true;
	}
	if (b != d)
	{
	printf("wrong b %d %d: %.16" PRIx64 " %.16" PRIx64 "\n",
	j, i, b,d);
	failed = true;
	}
	}
	}
	}
	#undef BUFSIZE

	TEST(SpookyHashV2, Main) {
	TestResults();
	TestAlignment();
	TestPieces();
	DoTimingBig(1);
	// tudorb@fb.com: Commented out slow tests
	#if 0
	DoTimingSmall(argc);
	TestDeltas(argc);
	#endif
	CHECK_EQ(failed, 0);
	}