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1 // Copyright 2013 the V8 project authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 #ifndef V8_BASE_UTILS_RANDOM_NUMBER_GENERATOR_H_
6 #define V8_BASE_UTILS_RANDOM_NUMBER_GENERATOR_H_
7 
8 #include <unordered_set>
9 #include <vector>
10 
11 #include "src/base/base-export.h"
12 #include "src/base/macros.h"
13 
14 namespace v8 {
15 namespace base {
16 
17 // -----------------------------------------------------------------------------
18 // RandomNumberGenerator
19 
20 // This class is used to generate a stream of pseudo-random numbers. The class
21 // uses a 64-bit seed, which is passed through MurmurHash3 to create two 64-bit
22 // state values. This pair of state values is then used in xorshift128+.
23 // The resulting stream of pseudo-random numbers has a period length of 2^128-1.
24 // See Marsaglia: http://www.jstatsoft.org/v08/i14/paper
25 // And Vigna: http://vigna.di.unimi.it/ftp/papers/xorshiftplus.pdf
26 // NOTE: Any changes to the algorithm must be tested against TestU01.
27 //       Please find instructions for this in the internal repository.
28 
29 // If two instances of RandomNumberGenerator are created with the same seed, and
30 // the same sequence of method calls is made for each, they will generate and
31 // return identical sequences of numbers.
32 // This class uses (probably) weak entropy by default, but it's sufficient,
33 // because it is the responsibility of the embedder to install an entropy source
34 // using v8::V8::SetEntropySource(), which provides reasonable entropy, see:
35 // https://code.google.com/p/v8/issues/detail?id=2905
36 // This class is neither reentrant nor threadsafe.
37 
38 class V8_BASE_EXPORT RandomNumberGenerator final {
39  public:
40   // EntropySource is used as a callback function when V8 needs a source of
41   // entropy.
42   typedef bool (*EntropySource)(unsigned char* buffer, size_t buflen);
43   static void SetEntropySource(EntropySource entropy_source);
44 
45   RandomNumberGenerator();
RandomNumberGenerator(int64_t seed)46   explicit RandomNumberGenerator(int64_t seed) { SetSeed(seed); }
47 
48   // Returns the next pseudorandom, uniformly distributed int value from this
49   // random number generator's sequence. The general contract of |NextInt()| is
50   // that one int value is pseudorandomly generated and returned.
51   // All 2^32 possible integer values are produced with (approximately) equal
52   // probability.
NextInt()53   V8_INLINE int NextInt() V8_WARN_UNUSED_RESULT { return Next(32); }
54 
55   // Returns a pseudorandom, uniformly distributed int value between 0
56   // (inclusive) and the specified max value (exclusive), drawn from this random
57   // number generator's sequence. The general contract of |NextInt(int)| is that
58   // one int value in the specified range is pseudorandomly generated and
59   // returned. All max possible int values are produced with (approximately)
60   // equal probability.
61   int NextInt(int max) V8_WARN_UNUSED_RESULT;
62 
63   // Returns the next pseudorandom, uniformly distributed boolean value from
64   // this random number generator's sequence. The general contract of
65   // |NextBoolean()| is that one boolean value is pseudorandomly generated and
66   // returned. The values true and false are produced with (approximately) equal
67   // probability.
NextBool()68   V8_INLINE bool NextBool() V8_WARN_UNUSED_RESULT { return Next(1) != 0; }
69 
70   // Returns the next pseudorandom, uniformly distributed double value between
71   // 0.0 and 1.0 from this random number generator's sequence.
72   // The general contract of |NextDouble()| is that one double value, chosen
73   // (approximately) uniformly from the range 0.0 (inclusive) to 1.0
74   // (exclusive), is pseudorandomly generated and returned.
75   double NextDouble() V8_WARN_UNUSED_RESULT;
76 
77   // Returns the next pseudorandom, uniformly distributed int64 value from this
78   // random number generator's sequence. The general contract of |NextInt64()|
79   // is that one 64-bit int value is pseudorandomly generated and returned.
80   // All 2^64 possible integer values are produced with (approximately) equal
81   // probability.
82   int64_t NextInt64() V8_WARN_UNUSED_RESULT;
83 
84   // Fills the elements of a specified array of bytes with random numbers.
85   void NextBytes(void* buffer, size_t buflen);
86 
87   // Returns the next pseudorandom set of n unique uint64 values smaller than
88   // max.
89   // n must be less or equal to max.
90   std::vector<uint64_t> NextSample(uint64_t max,
91                                    size_t n) V8_WARN_UNUSED_RESULT;
92 
93   // Returns the next pseudorandom set of n unique uint64 values smaller than
94   // max.
95   // n must be less or equal to max.
96   // max - |excluded| must be less or equal to n.
97   //
98   // Generates list of all possible values and removes random values from it
99   // until size reaches n.
100   std::vector<uint64_t> NextSampleSlow(
101       uint64_t max, size_t n,
102       const std::unordered_set<uint64_t>& excluded =
103           std::unordered_set<uint64_t>{}) V8_WARN_UNUSED_RESULT;
104 
105   // Override the current ssed.
106   void SetSeed(int64_t seed);
107 
initial_seed()108   int64_t initial_seed() const { return initial_seed_; }
109 
110   // Static and exposed for external use.
ToDouble(uint64_t state0,uint64_t state1)111   static inline double ToDouble(uint64_t state0, uint64_t state1) {
112     // Exponent for double values for [1.0 .. 2.0)
113     static const uint64_t kExponentBits = uint64_t{0x3FF0000000000000};
114     static const uint64_t kMantissaMask = uint64_t{0x000FFFFFFFFFFFFF};
115     uint64_t random = ((state0 + state1) & kMantissaMask) | kExponentBits;
116     return bit_cast<double>(random) - 1;
117   }
118 
119   // Static and exposed for external use.
XorShift128(uint64_t * state0,uint64_t * state1)120   static inline void XorShift128(uint64_t* state0, uint64_t* state1) {
121     uint64_t s1 = *state0;
122     uint64_t s0 = *state1;
123     *state0 = s0;
124     s1 ^= s1 << 23;
125     s1 ^= s1 >> 17;
126     s1 ^= s0;
127     s1 ^= s0 >> 26;
128     *state1 = s1;
129   }
130 
131  private:
132   static const int64_t kMultiplier = V8_2PART_UINT64_C(0x5, deece66d);
133   static const int64_t kAddend = 0xb;
134   static const int64_t kMask = V8_2PART_UINT64_C(0xffff, ffffffff);
135 
136   int Next(int bits) V8_WARN_UNUSED_RESULT;
137 
138   static uint64_t MurmurHash3(uint64_t);
139 
140   int64_t initial_seed_;
141   uint64_t state0_;
142   uint64_t state1_;
143 };
144 
145 }  // namespace base
146 }  // namespace v8
147 
148 #endif  // V8_BASE_UTILS_RANDOM_NUMBER_GENERATOR_H_
149