/*
This file is part of solidity.
solidity is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
solidity is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with solidity. If not, see .
*/
#pragma once
#include
#include
#include
#include
#include
#include
namespace solidity::phaser
{
class Population;
}
// This operator+ must be declared in the global namespace. Otherwise it would shadow global
// operator+ overloads from CommonData.h (e.g. the one for vector) in the namespace it was declared in.
solidity::phaser::Population operator+(solidity::phaser::Population _a, solidity::phaser::Population _b);
namespace solidity::phaser
{
/**
* Information describing the state of an individual member of the population during the course
* of the genetic algorithm.
*/
struct Individual
{
Chromosome chromosome;
size_t fitness;
bool operator==(Individual const& _other) const { return fitness == _other.fitness && chromosome == _other.chromosome; }
bool operator!=(Individual const& _other) const { return !(*this == _other); }
friend std::ostream& operator<<(std::ostream& _stream, Individual const& _individual);
};
/// Determines which individual is better by comparing fitness values. If fitness is the same
/// takes into account all the other properties of the individual to make the comparison
/// deterministic as long as the individuals are not equal.
bool isFitter(Individual const& a, Individual const& b);
/**
* Represents a changing set of individuals undergoing a genetic algorithm.
* Each round of the algorithm involves mutating existing individuals, evaluating their fitness
* and selecting the best ones for the next round.
*
* An individual is a sequence of optimiser steps represented by a @a Chromosome instance.
* Individuals are stored together with a fitness value that can be computed by the fitness metric
* associated with the population.
* The fitness is computed using the metric as soon as an individual is inserted into the population.
*/
class Population
{
public:
static constexpr size_t MaxChromosomeLength = 30;
explicit Population(
std::shared_ptr _fitnessMetric,
std::vector _chromosomes = {}
):
Population(
_fitnessMetric,
chromosomesToIndividuals(*_fitnessMetric, std::move(_chromosomes))
) {}
static Population makeRandom(
std::shared_ptr _fitnessMetric,
size_t _size,
std::function _chromosomeLengthGenerator
);
static Population makeRandom(
std::shared_ptr _fitnessMetric,
size_t _size,
size_t _minChromosomeLength,
size_t _maxChromosomeLength
);
void run(std::optional _numRounds, std::ostream& _outputStream);
friend Population (::operator+)(Population _a, Population _b);
std::shared_ptr fitnessMetric() const { return m_fitnessMetric; }
std::vector const& individuals() const { return m_individuals; }
static size_t uniformChromosomeLength(size_t _min, size_t _max) { return SimulationRNG::uniformInt(_min, _max); }
static size_t binomialChromosomeLength(size_t _max) { return SimulationRNG::binomialInt(_max, 0.5); }
bool operator==(Population const& _other) const;
bool operator!=(Population const& _other) const { return !(*this == _other); }
friend std::ostream& operator<<(std::ostream& _stream, Population const& _population);
private:
explicit Population(std::shared_ptr _fitnessMetric, std::vector _individuals):
m_fitnessMetric(std::move(_fitnessMetric)),
m_individuals{std::move(_individuals)} {}
void doMutation();
void doSelection();
static void randomizeWorstChromosomes(
FitnessMetric const& _fitnessMetric,
std::vector& _individuals,
size_t _count
);
static std::vector chromosomesToIndividuals(
FitnessMetric const& _fitnessMetric,
std::vector _chromosomes
);
static std::vector sortedIndividuals(std::vector _individuals);
std::shared_ptr m_fitnessMetric;
std::vector m_individuals;
};
}