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move the gp random into blt

v1
Brett 2024-08-27 16:31:27 -04:00
parent 6632d04528
commit b6354bed78
2 changed files with 122 additions and 15 deletions
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2
CMakeLists.txt
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@ -1,6 +1,6 @@
cmake_minimum_required(VERSION 3.20) cmake_minimum_required(VERSION 3.20)
include(cmake/color.cmake) include(cmake/color.cmake)
set(BLT_VERSION 0.19.2) set(BLT_VERSION 0.19.3)
set(BLT_TEST_VERSION 0.0.1) set(BLT_TEST_VERSION 0.0.1)
set(BLT_TARGET BLT) set(BLT_TARGET BLT)

135
include/blt/std/random.h
View File

@ -14,7 +14,7 @@ namespace blt::random
{ {
// https://github.com/avaneev/komihash/tree/main // https://github.com/avaneev/komihash/tree/main
static inline blt::u32 pcg_hash32(blt::u32 input) constexpr static inline blt::u32 pcg_hash32(blt::u32 input)
{ {
blt::u32 state = input * 747796405u + 2891336453u; blt::u32 state = input * 747796405u + 2891336453u;
blt::u32 word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u; blt::u32 word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;
@ -22,7 +22,7 @@ namespace blt::random
} }
//https://lemire.me/blog/2018/08/15/fast-strongly-universal-64-bit-hashing-everywhere/ //https://lemire.me/blog/2018/08/15/fast-strongly-universal-64-bit-hashing-everywhere/
static inline blt::u64 murmur64(blt::u64 h) constexpr static inline blt::u64 murmur64(blt::u64 h)
{ {
h ^= h >> 33; h ^= h >> 33;
h *= 0xff51afd7ed558ccdL; h *= 0xff51afd7ed558ccdL;
@ -32,13 +32,13 @@ namespace blt::random
return h; return h;
} }
static inline double pcg_double32(blt::u32& seed) constexpr static inline double pcg_double32(blt::u32& seed)
{ {
seed = pcg_hash32(seed); seed = pcg_hash32(seed);
return static_cast<double>(seed) / static_cast<double>(std::numeric_limits<blt::u32>::max()); return static_cast<double>(seed) / static_cast<double>(std::numeric_limits<blt::u32>::max());
} }
static inline float pcg_float32(blt::u32& seed) constexpr static inline float pcg_float32(blt::u32& seed)
{ {
return static_cast<float>(pcg_double32(seed)); return static_cast<float>(pcg_double32(seed));
} }
@ -46,12 +46,12 @@ namespace blt::random
/** /**
* @return random float without changing seed * @return random float without changing seed
*/ */
static inline float pcg_float32c(blt::u32 seed) constexpr static inline float pcg_float32c(blt::u32 seed)
{ {
return pcg_float32(seed); return pcg_float32(seed);
} }
static inline double pcg_double32c(blt::u32 seed) constexpr static inline double pcg_double32c(blt::u32 seed)
{ {
return pcg_double32(seed); return pcg_double32(seed);
} }
@ -63,51 +63,158 @@ namespace blt::random
* @return random int between min (inclusive) and max (exclusive) * @return random int between min (inclusive) and max (exclusive)
*/ */
template<typename T = blt::i32> template<typename T = blt::i32>
static inline T pcg_random32(blt::u32& seed, T min = 0, T max = 2) constexpr static inline T pcg_random32(blt::u32& seed, T min = 0, T max = 2)
{ {
return static_cast<T>((pcg_double32(seed) * static_cast<double>(max - min)) + static_cast<double>(min)); return static_cast<T>((pcg_double32(seed) * static_cast<double>(max - min)) + static_cast<double>(min));
} }
template<typename T = blt::i32> template<typename T = blt::i32>
static inline T pcg_random32c(blt::u32 seed, T min = 0, T max = 2) constexpr static inline T pcg_random32c(blt::u32 seed, T min = 0, T max = 2)
{ {
return pcg_random32(seed, min, max); return pcg_random32(seed, min, max);
} }
static inline double murmur_double64(blt::u64& seed) constexpr static inline double murmur_double64(blt::u64& seed)
{ {
seed = murmur64(seed); seed = murmur64(seed);
return static_cast<double>(seed) / static_cast<double>(std::numeric_limits<blt::u64>::max()); return static_cast<double>(seed) / static_cast<double>(std::numeric_limits<blt::u64>::max());
} }
static inline float murmur_float64(blt::u64& seed) constexpr static inline float murmur_float64(blt::u64& seed)
{ {
return static_cast<float>(murmur_double64(seed)); return static_cast<float>(murmur_double64(seed));
} }
static inline float murmur_float64c(blt::u64 seed) constexpr static inline float murmur_float64c(blt::u64 seed)
{ {
return murmur_float64(seed); return murmur_float64(seed);
} }
static inline double murmur_double64c(blt::u64 seed) constexpr static inline double murmur_double64c(blt::u64 seed)
{ {
return murmur_double64(seed); return murmur_double64(seed);
} }
template<typename T = blt::i32> template<typename T = blt::i32>
static inline T murmur_random64(blt::u64& seed, T min = 0, T max = 2) constexpr static inline T murmur_random64(blt::u64& seed, T min = 0, T max = 2)
{ {
return static_cast<T>((murmur_double64(seed) * static_cast<double>(max - min)) + static_cast<double>(min)); return static_cast<T>((murmur_double64(seed) * static_cast<double>(max - min)) + static_cast<double>(min));
} }
template<typename T = blt::i32> template<typename T = blt::i32>
static inline T murmur_random64c(blt::u64 seed, T min = 0, T max = 2) constexpr static inline T murmur_random64c(blt::u64 seed, T min = 0, T max = 2)
{ {
return murmur_random64(seed, min, max); return murmur_random64(seed, min, max);
} }
#define BLT_RANDOM_FUNCTION blt::random::murmur_random64
#define BLT_RANDOM_FLOAT blt::random::murmur_float64
#define BLT_RANDOM_DOUBLE blt::random::murmur_double64
class random_t
{
public:
using result_type = blt::u64;
constexpr static result_type MIN = std::numeric_limits<result_type>::min();
constexpr static result_type MAX = std::numeric_limits<result_type>::max() - 1;
explicit constexpr random_t(blt::u64 seed): seed(seed)
{}
constexpr void set_seed(blt::u64 s)
{
seed = s;
}
constexpr float get_float()
{
return BLT_RANDOM_FLOAT(seed);
}
constexpr double get_double()
{
return BLT_RANDOM_DOUBLE(seed);
}
// [min, max)
constexpr double get_double(double min, double max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
// [min, max)
constexpr float get_float(float min, float max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
constexpr i32 get_i32(i32 min, i32 max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
constexpr u32 get_u32(u32 min, u32 max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
constexpr i64 get_i64(i64 min, i64 max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
constexpr u64 get_u64(u64 min, u64 max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
constexpr blt::size_t get_size_t(blt::size_t min, blt::size_t max)
{
return BLT_RANDOM_FUNCTION(seed, min, max);
}
constexpr bool choice()
{
return BLT_RANDOM_DOUBLE(seed) < 0.5;
}
constexpr bool choice(double cutoff)
{
return BLT_RANDOM_DOUBLE(seed) <= cutoff;
}
template<typename Container>
constexpr auto& select(Container& container)
{
return container[get_u64(0, container.size())];
}
template<typename Container>
constexpr const auto& select(const Container& container)
{
return container[get_u64(0, container.size())];
}
constexpr static result_type min()
{
return MIN;
}
constexpr static result_type max()
{
return MAX;
}
constexpr result_type operator()()
{
return get_u64(min(), max());
}
private:
blt::u64 seed;
};
} }
#endif //BLT_RANDOM_H #endif //BLT_RANDOM_H