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Sprout/sprout/random/linear_congruential.hpp

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/*=============================================================================
Copyright (c) 2011-2017 Bolero MURAKAMI
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https://github.com/bolero-MURAKAMI/Sprout
Distributed under the Boost Software License, Version 1.0. (See accompanying
file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
=============================================================================*/
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#ifndef SPROUT_RANDOM_LINEAR_CONGRUENTIAL_HPP
#define SPROUT_RANDOM_LINEAR_CONGRUENTIAL_HPP
#include <cstdint>
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#include <istream>
#include <ostream>
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#include <type_traits>
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#include <sprout/config.hpp>
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#include <sprout/limits.hpp>
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#include <sprout/random/detail/const_mod.hpp>
#include <sprout/random/detail/seed_impl.hpp>
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#include <sprout/random/random_result.hpp>
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#include <sprout/random/type_traits.hpp>
#include <sprout/random/results.hpp>
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#include <sprout/type_traits/enabler_if.hpp>
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#include <sprout/math/greater_equal.hpp>
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#include <sprout/utility/while_loop.hpp>
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#include <sprout/assert.hpp>
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namespace sprout {
namespace random {
//
// linear_congruential_engine
//
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template<typename UIntType, UIntType a, UIntType c, UIntType m>
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class linear_congruential_engine {
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static_assert(sprout::numeric_limits<UIntType>::is_integer, "sprout::numeric_limits<UIntType>::is_integer");
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static_assert(m == 0 || a < m, "m == 0 || a < m");
static_assert(m == 0 || c < m, "m == 0 || c < m");
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public:
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typedef UIntType result_type;
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private:
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struct private_construct_t {};
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public:
SPROUT_STATIC_CONSTEXPR result_type multiplier = a;
SPROUT_STATIC_CONSTEXPR result_type increment = c;
SPROUT_STATIC_CONSTEXPR result_type modulus = m;
SPROUT_STATIC_CONSTEXPR result_type default_seed = 1;
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public:
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static SPROUT_CONSTEXPR result_type static_min() SPROUT_NOEXCEPT {
return increment == 0 ? 1 : 0;
}
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static SPROUT_CONSTEXPR result_type static_max() SPROUT_NOEXCEPT {
return modulus - 1;
}
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private:
static SPROUT_CONSTEXPR result_type init_seed_3(result_type x0) {
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return SPROUT_ASSERT(sprout::math::greater_equal(x0, static_min())), SPROUT_ASSERT(x0 <= static_max()), x0;
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}
static SPROUT_CONSTEXPR result_type init_seed_2(result_type x0) {
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return init_seed_3(increment == 0 && x0 == 0 ? 1 : x0);
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}
static SPROUT_CONSTEXPR result_type init_seed_1(result_type x0) {
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return init_seed_2(x0 <= 0 && x0 != 0 ? x0 + modulus : x0);
}
static SPROUT_CONSTEXPR result_type init_seed(result_type x0 = default_seed) {
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return init_seed_1(modulus == 0 ? x0 : x0 % modulus);
}
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template<typename Sseq, typename sprout::enabler_if<sprout::random::is_seed_seq<Sseq>::value>::type = sprout::enabler>
static SPROUT_CXX14_CONSTEXPR result_type init_seed(Sseq& seq) {
return init_seed(sprout::random::detail::seed_one_int<result_type, modulus>(seq));
}
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template<typename Sseq, typename sprout::enabler_if<sprout::random::is_seed_seq<Sseq>::value>::type = sprout::enabler>
static SPROUT_CONSTEXPR result_type init_seed(Sseq const& seq) {
return init_seed(sprout::random::detail::seed_one_int<result_type, modulus>(seq));
}
template<typename InputIterator>
static SPROUT_CONSTEXPR result_type init_seed(InputIterator first, InputIterator last) {
return init_seed(sprout::random::detail::get_one_int<result_type, modulus>(first, last));
}
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private:
result_type x_;
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private:
SPROUT_CONSTEXPR linear_congruential_engine(result_type x, private_construct_t)
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: x_(x)
{}
SPROUT_CONSTEXPR sprout::random::random_result<linear_congruential_engine> generate(result_type result) const {
return sprout::random::random_result<linear_congruential_engine>(
result,
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linear_congruential_engine(result, private_construct_t())
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);
}
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struct discard_init {
public:
unsigned long long exponent;
result_type b_gcd;
result_type a_zm1_over_gcd;
result_type a_km1_over_gcd;
};
struct discard_pred {
public:
SPROUT_CONSTEXPR bool operator()(discard_init const& init) const {
return static_cast<bool>(init.exponent);
}
};
struct discard_op {
public:
SPROUT_CONSTEXPR discard_init operator()(discard_init const& init) const {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
return discard_init{
init.exponent / 2,
init.b_gcd,
!(init.exponent % 2 == 1) ? init.a_zm1_over_gcd
: mod_type::mult_add(
init.b_gcd,
mod_type::mult(init.a_zm1_over_gcd, init.a_km1_over_gcd),
mod_type::add(init.a_zm1_over_gcd, init.a_km1_over_gcd)
)
,
mod_type::mult_add(
init.b_gcd,
mod_type::mult(init.a_km1_over_gcd, init.a_km1_over_gcd),
mod_type::add(init.a_km1_over_gcd, init.a_km1_over_gcd)
)
};
}
};
SPROUT_CONSTEXPR linear_congruential_engine const discard_impl_1_2(result_type b_gcd, result_type a_zm1_over_gcd) const {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
return linear_congruential_engine(
mod_type::mult_add(
mod_type::mult_add(b_gcd, a_zm1_over_gcd, 1),
x_,
mod_type::mult(mod_type::invert((multiplier - 1) / b_gcd), mod_type::mult(increment, a_zm1_over_gcd))
),
private_construct_t()
);
}
SPROUT_CONSTEXPR linear_congruential_engine const discard_impl_1_1(result_type b_inv, result_type a_z) const {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
return linear_congruential_engine(
mod_type::mult_add(a_z, x_, mod_type::mult(mod_type::mult(increment, b_inv), a_z - 1)),
private_construct_t()
);
}
SPROUT_CONSTEXPR linear_congruential_engine const discard_impl_1(unsigned long long z, result_type b_inv, result_type b_gcd) const {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
return b_gcd == 1 ? discard_impl_1_1(b_inv, mod_type::pow(multiplier, z))
: discard_impl_1_2(
b_gcd,
sprout::while_loop(
discard_init{z, b_gcd, 0, (multiplier - 1) / b_gcd},
discard_pred(),
discard_op()
).a_zm1_over_gcd
)
;
}
SPROUT_CONSTEXPR linear_congruential_engine const discard_impl(unsigned long long z, result_type b_inv) const {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
return discard_impl_1(
z, b_inv,
mod_type::mult(multiplier - 1, b_inv)
);
}
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public:
SPROUT_CONSTEXPR linear_congruential_engine()
: x_(init_seed())
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{}
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linear_congruential_engine(linear_congruential_engine const&) = default;
explicit SPROUT_CONSTEXPR linear_congruential_engine(result_type x0)
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: x_(init_seed(x0))
{}
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template<typename Sseq, typename sprout::enabler_if<sprout::random::is_seed_seq<Sseq>::value>::type = sprout::enabler>
explicit SPROUT_CXX14_CONSTEXPR linear_congruential_engine(Sseq& seq)
: x_(init_seed(seq))
{}
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template<typename Sseq, typename sprout::enabler_if<sprout::random::is_seed_seq<Sseq>::value>::type = sprout::enabler>
explicit SPROUT_CONSTEXPR linear_congruential_engine(Sseq const& seq)
: x_(init_seed(seq))
{}
template<typename InputIterator>
SPROUT_CONSTEXPR linear_congruential_engine(InputIterator first, InputIterator last)
: x_(init_seed(first, last))
{}
SPROUT_CXX14_CONSTEXPR void seed(result_type x0 = default_seed) {
x_ = init_seed(x0);
}
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template<typename Sseq, typename sprout::enabler_if<sprout::random::is_seed_seq<Sseq>::value>::type = sprout::enabler>
SPROUT_CXX14_CONSTEXPR void seed(Sseq& seq) {
x_ = init_seed(seq);
}
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template<typename Sseq, typename sprout::enabler_if<sprout::random::is_seed_seq<Sseq>::value>::type = sprout::enabler>
SPROUT_CXX14_CONSTEXPR void seed(Sseq const& seq) {
x_ = init_seed(seq);
}
template<typename InputIterator>
SPROUT_CXX14_CONSTEXPR void seed(InputIterator first, InputIterator last) {
x_ = init_seed(first, last);
}
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SPROUT_CONSTEXPR result_type min() const SPROUT_NOEXCEPT {
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return static_min();
}
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SPROUT_CONSTEXPR result_type max() const SPROUT_NOEXCEPT {
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return static_max();
}
SPROUT_CXX14_CONSTEXPR result_type operator()() {
x_ = sprout::random::detail::const_mod<result_type, modulus>::mult_add(a, x_, c);
return x_;
}
SPROUT_CONSTEXPR sprout::random::random_result<linear_congruential_engine> const operator()() const {
return generate(sprout::random::detail::const_mod<result_type, modulus>::mult_add(a, x_, c));
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}
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SPROUT_CONSTEXPR linear_congruential_engine const discard(unsigned long long z) const {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
return discard_impl(z, mod_type::invert(multiplier - 1));
}
SPROUT_CXX14_CONSTEXPR void discard(unsigned long long z) {
typedef sprout::random::detail::const_mod<result_type, modulus> mod_type;
result_type b_inv = mod_type::invert(multiplier - 1);
result_type b_gcd = mod_type::mult(multiplier - 1, b_inv);
if (b_gcd == 1) {
result_type a_z = mod_type::pow(multiplier, z);
x_ = mod_type::mult_add(a_z, x_, mod_type::mult(mod_type::mult(increment, b_inv), a_z - 1));
} else {
result_type a_zm1_over_gcd = 0;
result_type a_km1_over_gcd = (multiplier - 1) / b_gcd;
unsigned long long exponent = z;
while (exponent) {
if (exponent % 2 == 1) {
a_zm1_over_gcd = mod_type::mult_add(
b_gcd,
mod_type::mult(a_zm1_over_gcd, a_km1_over_gcd),
mod_type::add(a_zm1_over_gcd, a_km1_over_gcd)
);
}
a_km1_over_gcd = mod_type::mult_add(
b_gcd,
mod_type::mult(a_km1_over_gcd, a_km1_over_gcd),
mod_type::add(a_km1_over_gcd, a_km1_over_gcd)
);
exponent /= 2;
}
x_ = mod_type::mult_add(
mod_type::mult_add(b_gcd, a_zm1_over_gcd, 1),
x_,
mod_type::mult(mod_type::invert((multiplier - 1) / b_gcd), mod_type::mult(increment, a_zm1_over_gcd))
);
}
}
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friend SPROUT_CONSTEXPR bool operator==(linear_congruential_engine const& lhs, linear_congruential_engine const& rhs) SPROUT_NOEXCEPT {
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return lhs.x_ == rhs.x_;
}
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friend SPROUT_CONSTEXPR bool operator!=(linear_congruential_engine const& lhs, linear_congruential_engine const& rhs) SPROUT_NOEXCEPT {
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return !(lhs == rhs);
}
template<typename Elem, typename Traits>
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friend SPROUT_NON_CONSTEXPR std::basic_istream<Elem, Traits>& operator>>(
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std::basic_istream<Elem, Traits>& lhs,
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linear_congruential_engine& rhs
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)
{
result_type x;
if (lhs >> x) {
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if (sprout::math::greater_equal(x, static_min()) && x <= static_max()) {
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rhs.x_ = x;
} else {
lhs.setstate(std::ios_base::failbit);
}
}
return lhs;
}
template<typename Elem, typename Traits>
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friend SPROUT_NON_CONSTEXPR std::basic_ostream<Elem, Traits>& operator<<(
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std::basic_ostream<Elem, Traits>& lhs,
linear_congruential_engine const& rhs
)
{
return lhs << rhs.x_;
}
};
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template<typename UIntType, UIntType a, UIntType c, UIntType m>
SPROUT_CONSTEXPR_OR_CONST UIntType sprout::random::linear_congruential_engine<UIntType, a, c, m>::multiplier;
template<typename UIntType, UIntType a, UIntType c, UIntType m>
SPROUT_CONSTEXPR_OR_CONST UIntType sprout::random::linear_congruential_engine<UIntType, a, c, m>::increment;
template<typename UIntType, UIntType a, UIntType c, UIntType m>
SPROUT_CONSTEXPR_OR_CONST UIntType sprout::random::linear_congruential_engine<UIntType, a, c, m>::modulus;
template<typename UIntType, UIntType a, UIntType c, UIntType m>
SPROUT_CONSTEXPR_OR_CONST UIntType sprout::random::linear_congruential_engine<UIntType, a, c, m>::default_seed;
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//
// minstd_rand0
// minstd_rand
//
typedef sprout::random::linear_congruential_engine<std::uint_fast32_t, 16807, 0, 2147483647> minstd_rand0;
typedef sprout::random::linear_congruential_engine<std::uint_fast32_t, 48271, 0, 2147483647> minstd_rand;
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//
// rand48
//
class rand48 {
public:
typedef std::uint32_t result_type;
private:
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struct private_construct_t {};
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typedef sprout::random::linear_congruential_engine<
std::uint64_t,
std::uint64_t(0xDEECE66DUL) | (std::uint64_t(0x5) << 32),
0xB,
std::uint64_t(1) << 48
> lcf_type;
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private:
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static SPROUT_CONSTEXPR result_type static_min() {
return 0;
}
static SPROUT_CONSTEXPR result_type static_max() {
return 0x7FFFFFFF;
}
static SPROUT_CONSTEXPR std::uint64_t cnv(std::uint32_t x) {
return (static_cast<std::uint64_t>(x) << 16) | 0x330e;
}
private:
lcf_type lcf_;
private:
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SPROUT_CONSTEXPR rand48(lcf_type const& lcf, private_construct_t)
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: lcf_(lcf)
{}
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template<typename EngineResult>
SPROUT_CONSTEXPR sprout::random::random_result<rand48> generate(EngineResult const& rnd) const {
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return sprout::random::random_result<rand48>(
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static_cast<result_type>(sprout::random::result(rnd)) >> 17,
rand48(sprout::random::next(rnd), private_construct_t())
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);
}
public:
SPROUT_CONSTEXPR rand48()
: lcf_(cnv(static_cast<std::uint32_t>(1)))
{}
explicit SPROUT_CONSTEXPR rand48(result_type x0)
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: lcf_(cnv(x0))
{}
SPROUT_CONSTEXPR result_type min() const {
return static_min();
}
SPROUT_CONSTEXPR result_type max() const {
return static_max();
}
SPROUT_CXX14_CONSTEXPR result_type operator()() {
return static_cast<result_type>(static_cast<result_type>(lcf_()) >> 17);
}
SPROUT_CONSTEXPR sprout::random::random_result<rand48> const operator()() const {
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return generate(lcf_());
}
friend SPROUT_CONSTEXPR bool operator==(rand48 const& lhs, rand48 const& rhs) {
return lhs.lcf_ == rhs.lcf_;
}
friend SPROUT_CONSTEXPR bool operator!=(rand48 const& lhs, rand48 const& rhs) {
return !(lhs == rhs);
}
template<typename Elem, typename Traits>
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friend SPROUT_NON_CONSTEXPR std::basic_istream<Elem, Traits>& operator>>(
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std::basic_istream<Elem, Traits>& lhs,
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rand48& rhs
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)
{
return lhs >> rhs.lcf_;
}
template<typename Elem, typename Traits>
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friend SPROUT_NON_CONSTEXPR std::basic_ostream<Elem, Traits>& operator<<(
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std::basic_ostream<Elem, Traits>& lhs,
rand48 const& rhs
)
{
return lhs << rhs.lcf_;
}
};
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} // namespace random
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using sprout::random::linear_congruential_engine;
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using sprout::random::minstd_rand0;
using sprout::random::minstd_rand;
using sprout::random::rand48;
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} // namespace sprout
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#endif // #ifndef SPROUT_RANDOM_LINEAR_CONGRUENTIAL_HPP