[yul-phaser] Population: Customizable chromosome length in makeRandom()

This commit is contained in:
Kamil Śliwak 2020-02-06 06:19:55 +01:00
parent e771f00971
commit 806891f494
4 changed files with 96 additions and 10 deletions

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@ -15,6 +15,8 @@
along with solidity. If not, see <http://www.gnu.org/licenses/>. along with solidity. If not, see <http://www.gnu.org/licenses/>.
*/ */
#include <test/yulPhaser/Common.h>
#include <tools/yulPhaser/Chromosome.h> #include <tools/yulPhaser/Chromosome.h>
#include <tools/yulPhaser/Population.h> #include <tools/yulPhaser/Population.h>
#include <tools/yulPhaser/Program.h> #include <tools/yulPhaser/Program.h>
@ -106,10 +108,59 @@ BOOST_FIXTURE_TEST_CASE(constructor_should_copy_chromosomes_and_not_compute_fitn
BOOST_TEST(all_of(population.individuals().begin(), population.individuals().end(), fitnessNotSet)); BOOST_TEST(all_of(population.individuals().begin(), population.individuals().end(), fitnessNotSet));
} }
BOOST_FIXTURE_TEST_CASE(makeRandom_should_get_chromosome_lengths_from_specified_generator, PopulationFixture)
{
size_t chromosomeCount = 30;
size_t maxLength = 5;
assert(chromosomeCount % maxLength == 0);
auto nextLength = [counter = 0, maxLength]() mutable { return counter++ % maxLength; };
auto population = Population::makeRandom(m_program, chromosomeCount, nextLength);
// We can't rely on the order since the population sorts its chromosomes immediately but
// we can check the number of occurrences of each length.
for (size_t length = 0; length < maxLength; ++length)
BOOST_TEST(
count_if(
population.individuals().begin(),
population.individuals().end(),
[&length](auto const& individual) { return individual.chromosome.length() == length; }
) == chromosomeCount / maxLength
);
}
BOOST_FIXTURE_TEST_CASE(makeRandom_should_get_chromosome_lengths_from_specified_range, PopulationFixture)
{
auto population = Population::makeRandom(m_program, 100, 5, 10);
BOOST_TEST(all_of(
population.individuals().begin(),
population.individuals().end(),
[](auto const& individual){ return 5 <= individual.chromosome.length() && individual.chromosome.length() <= 10; }
));
}
BOOST_FIXTURE_TEST_CASE(makeRandom_should_use_random_chromosome_length, PopulationFixture)
{
SimulationRNG::reset(1);
constexpr int populationSize = 200;
constexpr int minLength = 5;
constexpr int maxLength = 10;
constexpr double relativeTolerance = 0.05;
auto population = Population::makeRandom(m_program, populationSize, minLength, maxLength);
vector<size_t> samples = chromosomeLengths(population);
const double expectedValue = (maxLength + minLength) / 2.0;
const double variance = ((maxLength - minLength + 1) * (maxLength - minLength + 1) - 1) / 12.0;
BOOST_TEST(abs(mean(samples) - expectedValue) < expectedValue * relativeTolerance);
BOOST_TEST(abs(meanSquaredError(samples, expectedValue) - variance) < variance * relativeTolerance);
}
BOOST_FIXTURE_TEST_CASE(makeRandom_should_return_population_with_random_chromosomes, PopulationFixture) BOOST_FIXTURE_TEST_CASE(makeRandom_should_return_population_with_random_chromosomes, PopulationFixture)
{ {
auto population1 = Population::makeRandom(m_program, 100); auto population1 = Population::makeRandom(m_program, 100, 30, 30);
auto population2 = Population::makeRandom(m_program, 100); auto population2 = Population::makeRandom(m_program, 100, 30, 30);
BOOST_TEST(population1.individuals().size() == 100); BOOST_TEST(population1.individuals().size() == 100);
BOOST_TEST(population2.individuals().size() == 100); BOOST_TEST(population2.individuals().size() == 100);
@ -127,7 +178,7 @@ BOOST_FIXTURE_TEST_CASE(makeRandom_should_return_population_with_random_chromoso
BOOST_FIXTURE_TEST_CASE(makeRandom_should_not_compute_fitness, PopulationFixture) BOOST_FIXTURE_TEST_CASE(makeRandom_should_not_compute_fitness, PopulationFixture)
{ {
auto population = Population::makeRandom(m_program, 5); auto population = Population::makeRandom(m_program, 3, 5, 10);
BOOST_TEST(all_of(population.individuals().begin(), population.individuals().end(), fitnessNotSet)); BOOST_TEST(all_of(population.individuals().begin(), population.individuals().end(), fitnessNotSet));
} }
@ -135,7 +186,7 @@ BOOST_FIXTURE_TEST_CASE(makeRandom_should_not_compute_fitness, PopulationFixture
BOOST_FIXTURE_TEST_CASE(run_should_evaluate_fitness, PopulationFixture) BOOST_FIXTURE_TEST_CASE(run_should_evaluate_fitness, PopulationFixture)
{ {
stringstream output; stringstream output;
auto population = Population::makeRandom(m_program, 5); auto population = Population::makeRandom(m_program, 5, 5, 10);
assert(all_of(population.individuals().begin(), population.individuals().end(), fitnessNotSet)); assert(all_of(population.individuals().begin(), population.individuals().end(), fitnessNotSet));
population.run(1, output); population.run(1, output);

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@ -55,15 +55,33 @@ Population::Population(Program _program, vector<Chromosome> const& _chromosomes)
m_individuals.push_back({chromosome}); m_individuals.push_back({chromosome});
} }
Population Population::makeRandom(Program _program, size_t _size) Population Population::makeRandom(
Program _program,
size_t _size,
function<size_t()> _chromosomeLengthGenerator
)
{ {
vector<Individual> individuals; vector<Individual> individuals;
for (size_t i = 0; i < _size; ++i) for (size_t i = 0; i < _size; ++i)
individuals.push_back({Chromosome::makeRandom(randomChromosomeLength())}); individuals.push_back({Chromosome::makeRandom(_chromosomeLengthGenerator())});
return Population(move(_program), individuals); return Population(move(_program), individuals);
} }
Population Population::makeRandom(
Program _program,
size_t _size,
size_t _minChromosomeLength,
size_t _maxChromosomeLength
)
{
return makeRandom(
move(_program),
_size,
std::bind(uniformChromosomeLength, _minChromosomeLength, _maxChromosomeLength)
);
}
size_t Population::measureFitness(Chromosome const& _chromosome, Program const& _program) size_t Population::measureFitness(Chromosome const& _chromosome, Program const& _program)
{ {
Program programCopy = _program; Program programCopy = _program;
@ -130,6 +148,6 @@ void Population::randomizeWorstChromosomes(
auto individual = _individuals.begin() + (_individuals.size() - _count); auto individual = _individuals.begin() + (_individuals.size() - _count);
for (; individual != _individuals.end(); ++individual) for (; individual != _individuals.end(); ++individual)
{ {
*individual = {Chromosome::makeRandom(randomChromosomeLength())}; *individual = {Chromosome::makeRandom(binomialChromosomeLength(MaxChromosomeLength))};
} }
} }

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@ -55,13 +55,25 @@ public:
static constexpr size_t MaxChromosomeLength = 30; static constexpr size_t MaxChromosomeLength = 30;
explicit Population(Program _program, std::vector<Chromosome> const& _chromosomes = {}); explicit Population(Program _program, std::vector<Chromosome> const& _chromosomes = {});
static Population makeRandom(Program _program, size_t _size);
static Population makeRandom(
Program _program,
size_t _size,
std::function<size_t()> _chromosomeLengthGenerator
);
static Population makeRandom(
Program _program,
size_t _size,
size_t _minChromosomeLength,
size_t _maxChromosomeLength
);
void run(std::optional<size_t> _numRounds, std::ostream& _outputStream); void run(std::optional<size_t> _numRounds, std::ostream& _outputStream);
std::vector<Individual> const& individuals() const { return m_individuals; } std::vector<Individual> const& individuals() const { return m_individuals; }
static size_t randomChromosomeLength() { return SimulationRNG::binomialInt(MaxChromosomeLength, 0.5); } 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); }
static size_t measureFitness(Chromosome const& _chromosome, Program const& _program); static size_t measureFitness(Chromosome const& _chromosome, Program const& _program);
friend std::ostream& operator<<(std::ostream& _stream, Population const& _population); friend std::ostream& operator<<(std::ostream& _stream, Population const& _population);

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@ -28,6 +28,7 @@
#include <boost/program_options.hpp> #include <boost/program_options.hpp>
#include <iostream> #include <iostream>
#include <functional>
#include <string> #include <string>
using namespace std; using namespace std;
@ -70,7 +71,11 @@ CharStream loadSource(string const& _sourcePath)
void runAlgorithm(string const& _sourcePath) void runAlgorithm(string const& _sourcePath)
{ {
CharStream sourceCode = loadSource(_sourcePath); CharStream sourceCode = loadSource(_sourcePath);
auto population = Population::makeRandom(Program::load(sourceCode), 10); auto population = Population::makeRandom(
Program::load(sourceCode),
10,
bind(Population::binomialChromosomeLength, Population::MaxChromosomeLength)
);
population.run(nullopt, cout); population.run(nullopt, cout);
} }