Bug 1772603 [wpt PR 34303] - Add WPT test writing and reading back a 0.5 alpha fillSt...
[gecko.git] / mfbt / XorShift128PlusRNG.h
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1 /* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
2 /* vim: set ts=8 sts=2 et sw=2 tw=80: */
3 /* This Source Code Form is subject to the terms of the Mozilla Public
4 * License, v. 2.0. If a copy of the MPL was not distributed with this
5 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
7 /* The xorshift128+ pseudo-random number generator. */
9 #ifndef mozilla_XorShift128Plus_h
10 #define mozilla_XorShift128Plus_h
12 #include "mozilla/Assertions.h"
13 #include "mozilla/Attributes.h"
14 #include "mozilla/FloatingPoint.h"
16 #include <inttypes.h>
18 namespace mozilla {
19 namespace non_crypto {
22 * A stream of pseudo-random numbers generated using the xorshift+ technique
23 * described here:
25 * Vigna, Sebastiano (2014). "Further scramblings of Marsaglia's xorshift
26 * generators". arXiv:1404.0390 (http://arxiv.org/abs/1404.0390)
28 * That paper says:
30 * In particular, we propose a tightly coded xorshift128+ generator that
31 * does not fail systematically any test from the BigCrush suite of TestU01
32 * (even reversed) and generates 64 pseudorandom bits in 1.10 ns on an
33 * Intel(R) Core(TM) i7-4770 CPU @3.40GHz (Haswell). It is the fastest
34 * generator we are aware of with such empirical statistical properties.
36 * The stream of numbers produced by this method repeats every 2**128 - 1 calls
37 * (i.e. never, for all practical purposes). Zero appears 2**64 - 1 times in
38 * this period; all other numbers appear 2**64 times. Additionally, each *bit*
39 * in the produced numbers repeats every 2**128 - 1 calls.
41 * This generator is not suitable as a cryptographically secure random number
42 * generator.
44 class XorShift128PlusRNG {
45 uint64_t mState[2];
47 public:
49 * Construct a xorshift128+ pseudo-random number stream using |aInitial0| and
50 * |aInitial1| as the initial state. These MUST NOT both be zero.
52 * If the initial states contain many zeros, for a few iterations you'll see
53 * many zeroes in the generated numbers. It's suggested to seed a SplitMix64
54 * generator <http://xorshift.di.unimi.it/splitmix64.c> and use its first two
55 * outputs to seed xorshift128+.
57 XorShift128PlusRNG(uint64_t aInitial0, uint64_t aInitial1) {
58 setState(aInitial0, aInitial1);
61 /**
62 * Return a pseudo-random 64-bit number.
64 MOZ_NO_SANITIZE_UNSIGNED_OVERFLOW
65 uint64_t next() {
67 * The offsetOfState*() methods below are provided so that exceedingly-rare
68 * callers that want to observe or poke at RNG state in C++ type-system-
69 * ignoring means can do so. Don't change the next() or nextDouble()
70 * algorithms without altering code that uses offsetOfState*()!
72 uint64_t s1 = mState[0];
73 const uint64_t s0 = mState[1];
74 mState[0] = s0;
75 s1 ^= s1 << 23;
76 mState[1] = s1 ^ s0 ^ (s1 >> 17) ^ (s0 >> 26);
77 return mState[1] + s0;
81 * Return a pseudo-random floating-point value in the range [0, 1). More
82 * precisely, choose an integer in the range [0, 2**53) and divide it by
83 * 2**53. Given the 2**128 - 1 period noted above, the produced doubles are
84 * all but uniformly distributed in this range.
86 double nextDouble() {
88 * Because the IEEE 64-bit floating point format stores the leading '1' bit
89 * of the mantissa implicitly, it effectively represents a mantissa in the
90 * range [0, 2**53) in only 52 bits. FloatingPoint<double>::kExponentShift
91 * is the width of the bitfield in the in-memory format, so we must add one
92 * to get the mantissa's range.
94 static constexpr int kMantissaBits =
95 mozilla::FloatingPoint<double>::kExponentShift + 1;
96 uint64_t mantissa = next() & ((UINT64_C(1) << kMantissaBits) - 1);
97 return double(mantissa) / (UINT64_C(1) << kMantissaBits);
101 * Set the stream's current state to |aState0| and |aState1|. These must not
102 * both be zero; ideally, they should have an almost even mix of zero and one
103 * bits.
105 void setState(uint64_t aState0, uint64_t aState1) {
106 MOZ_ASSERT(aState0 || aState1);
107 mState[0] = aState0;
108 mState[1] = aState1;
111 static size_t offsetOfState0() {
112 return offsetof(XorShift128PlusRNG, mState[0]);
114 static size_t offsetOfState1() {
115 return offsetof(XorShift128PlusRNG, mState[1]);
119 } // namespace non_crypto
120 } // namespace mozilla
122 #endif // mozilla_XorShift128Plus_h