main
Brett 2024-02-01 18:46:57 -05:00
parent 0e08a15b5e
commit 298c640d03
1 changed files with 52 additions and 30 deletions

View File

@ -228,6 +228,16 @@ class tree
class gp_population
{
public:
enum class crossover_error_t
{
};
struct selection
{
blt::size_t index;
tree* t_ref;
};
struct gp_i
{
std::unique_ptr<tree> t = nullptr;
@ -262,9 +272,10 @@ class gp_population
evaluate_population();
}
[[nodiscard]] static tree* tournament_select(population_storage_t& p)
[[nodiscard]] static selection tournament_select(population_storage_t& p)
{
tree* n = nullptr;
blt::size_t ni = 0;
float fitness = -2 * 8192;
for (int i = 0; i < TOURNAMENT_SIZE; i++)
{
@ -272,18 +283,18 @@ class gp_population
do
{
index = random_individual_index();
} while (n == p[index].t.get());
auto& v = p[index];
if (v.fitness >= fitness)
{
n = v.t.get();
ni = index;
fitness = v.fitness;
}
//BLT_TRACE("%d: %p -> %f ? %p -> %f || %d %d", index, v.t.get(), v.fitness, n, fitness, n != v.t.get(), v.fitness > fitness);
} while (n == p[index].t.get());
}
//BLT_DEBUG("%p -> %f", n, fitness);
BLT_ASSERT(n != nullptr);
return n;
return {ni, n};
}
void run_step()
@ -302,49 +313,41 @@ class gp_population
blt::size_t crossover_count = 0;
blt::size_t mutation_count = 0;
BLT_TRACE("Running Crossover");
for (blt::size_t i = insert_pos; i < POPULATION_SIZE; i++)
for (blt::size_t i = 0; i < POPULATION_SIZE; i++)
{
if (insert_pos >= POPULATION_SIZE)
break;
if (rand(engine) < CROSSOVER_RATE)
{
tree* p1 = select();
tree* p2;
selection p1 = tournament_select(new_pop);
selection p2{};
do
{
p2 = select();
} while (p2 == p1);
p2 = tournament_select(new_pop);
} while (p2.t_ref == p1.t_ref);
if (auto r = tree::crossover(p1, p2))
if (auto r = tree::crossover(p1.t_ref, p2.t_ref))
{
new_pop[insert_pos++] = {std::move(r->c1)};
new_pop[insert_pos++] = {std::move(r->c2)};
new_pop[p1.index] = {std::move(r->c1)};
new_pop[p2.index] = {std::move(r->c2)};
crossover_count++;
}
}
}
BLT_TRACE("Running Mutation");
for (blt::size_t i = insert_pos; i < POPULATION_SIZE; i++)
for (blt::size_t i = 0; i < POPULATION_SIZE; i++)
{
if (insert_pos >= POPULATION_SIZE)
break;
if (rand(engine) < MUTATION_RATE)
{
auto* p1 = select();
auto p1 = tournament_select(new_pop);
if (auto r = tree::mutate(p1))
if (auto r = tree::mutate(p1.t_ref))
{
new_pop[insert_pos++] = gp_i{std::move(r->c), 0};
new_pop[p1.index] = gp_i{std::move(r->c), 0};
mutation_count++;
}
}
}
while (insert_pos < POPULATION_SIZE)
{
new_pop[insert_pos++] = {select()->clone()};
}
pop = std::move(new_pop);
BLT_TRACE("ran %d crossovers and %d mutations", crossover_count, mutation_count);
}
@ -414,6 +417,25 @@ void print_bits(float f)
std::cout << std::endl;
}
enum class error
{
S1, S2, S3
};
struct simple
{
float f;
};
blt::expected<float, error> t1(bool b)
{
float f = 50.0f * b;
if (b)
return f;
else
return error::S1;
}
void init()
{
global_matrices.create_internals();