winamp/Src/external_dependencies/openmpt-trunk/common/mptRandom.h

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2024-09-24 13:54:57 +01:00
/*
* mptRandom.h
* -----------
* Purpose: PRNG
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#pragma once
#include "openmpt/all/BuildSettings.hpp"
#include "mpt/base/bit.hpp"
#include "mpt/mutex/mutex.hpp"
#ifdef MODPLUG_TRACKER
#include "mpt/random/crand.hpp"
#endif // MODPLUG_TRACKER
#include "mpt/random/default_engines.hpp"
#include "mpt/random/device.hpp"
#include "mpt/random/engine.hpp"
#include "mpt/random/engine_lcg.hpp"
#include "mpt/random/seed.hpp"
#include <limits>
#include <random>
OPENMPT_NAMESPACE_BEGIN
// NOTE:
// We implement our own PRNG and distribution functions as the implementations
// of std::uniform_int_distribution is either wrong (not uniform in MSVC2010) or
// not guaranteed to be livelock-free for bad PRNGs (in GCC, Clang, boost).
// We resort to a simpler implementation with only power-of-2 result ranges for
// both the underlying PRNG and our interface function. This saves us from
// complicated code having to deal with partial bits of entropy.
// Our interface still somewhat follows the mindset of C++11 <random> (with the
// addition of a simple wrapper function mpt::random which saves the caller from
// instantiating distribution objects for the common uniform distribution case.
// We are still using std::random_device for initial seeding when avalable and
// after working around its set of problems.
namespace mpt
{
template <typename Trng>
class thread_safe_prng
: private Trng
{
private:
mpt::mutex m;
public:
typedef typename Trng::result_type result_type;
public:
template <typename Trd>
explicit thread_safe_prng(Trd & rd)
: Trng(mpt::make_prng<Trng>(rd))
{
return;
}
thread_safe_prng(Trng rng)
: Trng(rng)
{
return;
}
public:
static MPT_CONSTEXPRINLINE typename engine_traits<Trng>::result_type min()
{
return Trng::min();
}
static MPT_CONSTEXPRINLINE typename engine_traits<Trng>::result_type max()
{
return Trng::max();
}
static MPT_CONSTEXPRINLINE int result_bits()
{
return engine_traits<Trng>::result_bits();
}
public:
typename engine_traits<Trng>::result_type operator()()
{
mpt::lock_guard<mpt::mutex> l(m);
return Trng::operator()();
}
};
#ifdef MPT_BUILD_FUZZER
// Use deterministic seeding
using random_device = deterministc_random_device;
#else // !MPT_BUILD_FUZZER
// mpt::random_device always generates 32 bits of entropy
using random_device = mpt::sane_random_device;
#endif // MPT_BUILD_FUZZER
#ifdef MPT_BUILD_FUZZER
// Use fast PRNGs in order to not waste time fuzzing more complex PRNG
// implementations.
using fast_prng = deterministic_fast_engine;
using good_prng = deterministic_good_engine;
#else // !MPT_BUILD_FUZZER
// We cannot use std::minstd_rand here because it has not a power-of-2 sized
// output domain which we rely upon.
using fast_prng = fast_engine; // about 3 ALU operations, ~32bit of state, suited for inner loops
using good_prng = good_engine;
#endif // MPT_BUILD_FUZZER
using default_prng = mpt::good_prng;
mpt::random_device & global_random_device();
mpt::thread_safe_prng<mpt::default_prng> & global_prng();
#if defined(MODPLUG_TRACKER) && !defined(MPT_BUILD_WINESUPPORT)
void set_global_random_device(mpt::random_device *rd);
void set_global_prng(mpt::thread_safe_prng<mpt::default_prng> *rng);
#endif // MODPLUG_TRACKER && !MPT_BUILD_WINESUPPORT
} // namespace mpt
OPENMPT_NAMESPACE_END