Merge branch 'dev'
commit
d69c45a82b
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@ -1,5 +1,5 @@
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cmake_minimum_required(VERSION 3.25)
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cmake_minimum_required(VERSION 3.25)
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project(blt-gp VERSION 0.1.37)
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project(blt-gp VERSION 0.1.40)
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include(CTest)
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include(CTest)
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@ -106,35 +106,15 @@ int main()
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{
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{
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BLT_TRACE("------------{Begin Generation %ld}------------", program.get_current_generation());
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BLT_TRACE("------------{Begin Generation %ld}------------", program.get_current_generation());
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BLT_TRACE("Creating next generation");
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BLT_TRACE("Creating next generation");
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#ifdef BLT_TRACK_ALLOCATIONS
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auto gen_alloc = blt::gp::tracker.start_measurement();
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#endif
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BLT_START_INTERVAL("Symbolic Regression", "Gen");
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BLT_START_INTERVAL("Symbolic Regression", "Gen");
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program.create_next_generation();
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program.create_next_generation();
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BLT_END_INTERVAL("Symbolic Regression", "Gen");
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BLT_END_INTERVAL("Symbolic Regression", "Gen");
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#ifdef BLT_TRACK_ALLOCATIONS
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blt::gp::tracker.stop_measurement(gen_alloc);
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BLT_TRACE("Generation Allocated %ld times with a total of %s", gen_alloc.getAllocationDifference(),
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blt::byte_convert_t(gen_alloc.getAllocatedByteDifference()).convert_to_nearest_type().to_pretty_string().c_str());
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auto fitness_alloc = blt::gp::tracker.start_measurement();
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#endif
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BLT_TRACE("Move to next generation");
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BLT_TRACE("Move to next generation");
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BLT_START_INTERVAL("Symbolic Regression", "Fitness");
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BLT_START_INTERVAL("Symbolic Regression", "Fitness");
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program.next_generation();
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program.next_generation();
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BLT_TRACE("Evaluate Fitness");
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BLT_TRACE("Evaluate Fitness");
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program.evaluate_fitness();
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program.evaluate_fitness();
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BLT_END_INTERVAL("Symbolic Regression", "Fitness");
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BLT_END_INTERVAL("Symbolic Regression", "Fitness");
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#ifdef BLT_TRACK_ALLOCATIONS
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blt::gp::tracker.stop_measurement(fitness_alloc);
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BLT_TRACE("Fitness Allocated %ld times with a total of %s", fitness_alloc.getAllocationDifference(),
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blt::byte_convert_t(fitness_alloc.getAllocatedByteDifference()).convert_to_nearest_type().to_pretty_string().c_str());
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#endif
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BLT_TRACE("----------------------------------------------");
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BLT_TRACE("----------------------------------------------");
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std::cout << std::endl;
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std::cout << std::endl;
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}
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}
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@ -164,6 +144,24 @@ int main()
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#ifdef BLT_TRACK_ALLOCATIONS
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#ifdef BLT_TRACK_ALLOCATIONS
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BLT_TRACE("Total Allocations: %ld times with a total of %s", blt::gp::tracker.getAllocations(),
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BLT_TRACE("Total Allocations: %ld times with a total of %s", blt::gp::tracker.getAllocations(),
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blt::byte_convert_t(blt::gp::tracker.getAllocatedBytes()).convert_to_nearest_type().to_pretty_string().c_str());
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blt::byte_convert_t(blt::gp::tracker.getAllocatedBytes()).convert_to_nearest_type().to_pretty_string().c_str());
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auto crossover_calls_v = blt::gp::crossover_calls.get_calls();
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auto crossover_allocations_v = blt::gp::crossover_allocations.get_calls();
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auto mutation_calls_v = blt::gp::mutation_calls.get_calls();
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auto mutation_allocations_v = blt::gp::mutation_allocations.get_calls();
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auto reproduction_calls_v = blt::gp::reproduction_calls.get_calls();
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auto reproduction_allocations_v = blt::gp::reproduction_allocations.get_calls();
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BLT_TRACE("Total Crossover Calls: %ld Bytes %s", crossover_calls_v, blt::byte_convert_t(blt::gp::crossover_calls.get_value()).convert_to_nearest_type().to_pretty_string().c_str());
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BLT_TRACE("Total Mutation Calls: %ld Bytes %s", mutation_calls_v, blt::byte_convert_t(blt::gp::mutation_calls.get_value()).convert_to_nearest_type().to_pretty_string().c_str());
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BLT_TRACE("Total Reproduction Calls: %ld Bytes %s", reproduction_calls_v, blt::byte_convert_t(blt::gp::reproduction_calls.get_value()).convert_to_nearest_type().to_pretty_string().c_str());
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BLT_TRACE("Total Crossover Allocations: %ld Bytes %s", crossover_allocations_v, blt::byte_convert_t(blt::gp::crossover_allocations.get_value()).convert_to_nearest_type().to_pretty_string().c_str());
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BLT_TRACE("Total Mutation Allocations: %ld Bytes %s", mutation_allocations_v, blt::byte_convert_t(blt::gp::mutation_allocations.get_value()).convert_to_nearest_type().to_pretty_string().c_str());
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BLT_TRACE("Total Reproduction Allocations: %ld Bytes %s", reproduction_allocations_v, blt::byte_convert_t(blt::gp::reproduction_allocations.get_value()).convert_to_nearest_type().to_pretty_string().c_str());
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BLT_TRACE("Percent Crossover calls allocate? %lf%%",
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static_cast<double>(crossover_allocations_v) / static_cast<double>(crossover_calls_v == 0 ? 1 : crossover_calls_v) * 100);
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BLT_TRACE("Percent Mutation calls allocate? %lf%%",
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static_cast<double>(mutation_allocations_v) / static_cast<double>(mutation_calls_v == 0 ? 1 : mutation_calls_v) * 100);
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BLT_TRACE("Percent Reproduction calls allocate? %lf%%",
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static_cast<double>(reproduction_allocations_v) / static_cast<double>(reproduction_calls_v == 0 ? 1 : reproduction_calls_v) * 100);
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#endif
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#endif
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return 0;
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return 0;
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@ -28,7 +28,15 @@
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namespace blt::gp
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namespace blt::gp
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{
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{
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#ifdef BLT_TRACK_ALLOCATIONS
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inline allocation_tracker_t tracker;
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inline allocation_tracker_t tracker;
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inline call_tracker_t crossover_calls;
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inline call_tracker_t mutation_calls;
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inline call_tracker_t reproduction_calls;
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inline call_tracker_t crossover_allocations;
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inline call_tracker_t mutation_allocations;
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inline call_tracker_t reproduction_allocations;
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#endif
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class gp_program;
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class gp_program;
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@ -61,8 +69,13 @@ namespace blt::gp
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template<typename T>
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template<typename T>
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class tracked_allocator_t;
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class tracked_allocator_t;
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#ifdef BLT_TRACK_ALLOCATIONS
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template<typename T>
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template<typename T>
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using tracked_vector = std::vector<T, tracked_allocator_t<T>>;
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using tracked_vector = std::vector<T, tracked_allocator_t<T>>;
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#else
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template<typename T>
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using tracked_vector = std::vector<T>;
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#endif
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// using operation_vector_t = tracked_vector<op_container_t>;
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// using operation_vector_t = tracked_vector<op_container_t>;
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// using individual_vector_t = tracked_vector<individual_t, tracked_allocator_t<individual_t>>;
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// using individual_vector_t = tracked_vector<individual_t, tracked_allocator_t<individual_t>>;
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@ -362,10 +362,6 @@ namespace blt::gp
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#ifdef BLT_TRACK_ALLOCATIONS
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#ifdef BLT_TRACK_ALLOCATIONS
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auto gen_alloc = blt::gp::tracker.start_measurement();
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auto gen_alloc = blt::gp::tracker.start_measurement();
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#endif
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#endif
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BLT_ASSERT_MSG(current_pop.get_individuals().size() == config.population_size,
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("cur pop size: " + std::to_string(current_pop.get_individuals().size())).c_str());
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BLT_ASSERT_MSG(next_pop.get_individuals().size() == config.population_size,
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("next pop size: " + std::to_string(next_pop.get_individuals().size())).c_str());
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// should already be empty
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// should already be empty
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thread_helper.next_gen_left.store(config.population_size, std::memory_order_release);
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thread_helper.next_gen_left.store(config.population_size, std::memory_order_release);
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(*thread_execution_service)(0);
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(*thread_execution_service)(0);
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@ -378,10 +374,6 @@ namespace blt::gp
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void next_generation()
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void next_generation()
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{
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{
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BLT_ASSERT_MSG(current_pop.get_individuals().size() == config.population_size,
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("cur pop size: " + std::to_string(current_pop.get_individuals().size())).c_str());
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BLT_ASSERT_MSG(next_pop.get_individuals().size() == config.population_size,
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("next pop size: " + std::to_string(next_pop.get_individuals().size())).c_str());
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std::swap(current_pop, next_pop);
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std::swap(current_pop, next_pop);
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current_generation++;
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current_generation++;
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}
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}
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@ -406,6 +398,10 @@ namespace blt::gp
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current_pop = config.pop_initializer.get().generate(
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current_pop = config.pop_initializer.get().generate(
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{*this, root_type, config.population_size, config.initial_min_tree_size, config.initial_max_tree_size});
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{*this, root_type, config.population_size, config.initial_min_tree_size, config.initial_max_tree_size});
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next_pop = population_t(current_pop);
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next_pop = population_t(current_pop);
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BLT_ASSERT_MSG(current_pop.get_individuals().size() == config.population_size,
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("cur pop size: " + std::to_string(current_pop.get_individuals().size())).c_str());
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BLT_ASSERT_MSG(next_pop.get_individuals().size() == config.population_size,
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("next pop size: " + std::to_string(next_pop.get_individuals().size())).c_str());
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if (eval_fitness_now)
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if (eval_fitness_now)
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evaluate_fitness_internal();
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evaluate_fitness_internal();
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}
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}
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@ -434,6 +430,10 @@ namespace blt::gp
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current_pop = config.pop_initializer.get().generate(
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current_pop = config.pop_initializer.get().generate(
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{*this, root_type, config.population_size, config.initial_min_tree_size, config.initial_max_tree_size});
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{*this, root_type, config.population_size, config.initial_min_tree_size, config.initial_max_tree_size});
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next_pop = population_t(current_pop);
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next_pop = population_t(current_pop);
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BLT_ASSERT_MSG(current_pop.get_individuals().size() == config.population_size,
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("cur pop size: " + std::to_string(current_pop.get_individuals().size())).c_str());
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BLT_ASSERT_MSG(next_pop.get_individuals().size() == config.population_size,
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("next pop size: " + std::to_string(next_pop.get_individuals().size())).c_str());
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if (config.threads == 1)
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if (config.threads == 1)
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{
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{
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BLT_INFO("Starting with single thread variant!");
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BLT_INFO("Starting with single thread variant!");
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@ -593,7 +593,7 @@ namespace blt::gp
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auto index = config.elites + begin;
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auto index = config.elites + begin;
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tree_t& c1 = next_pop.get_individuals()[index].tree;
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tree_t& c1 = next_pop.get_individuals()[index].tree;
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tree_t* c2 = nullptr;
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tree_t* c2 = nullptr;
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if (index + 1 < end)
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if (begin + 1 < end)
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c2 = &next_pop.get_individuals()[index + 1].tree;
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c2 = &next_pop.get_individuals()[index + 1].tree;
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begin += func(args, crossover_selection, mutation_selection, reproduction_selection, c1, c2);
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begin += func(args, crossover_selection, mutation_selection, reproduction_selection, c1, c2);
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}
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}
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@ -88,7 +88,9 @@ namespace blt::gp
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// everyone gets a chance once per loop.
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// everyone gets a chance once per loop.
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if (random.choice(config.crossover_chance))
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if (random.choice(config.crossover_chance))
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{
|
{
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// auto state = tracker.start_measurement();
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#ifdef BLT_TRACK_ALLOCATIONS
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auto state = tracker.start_measurement();
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|
#endif
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// crossover
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// crossover
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const tree_t* p1;
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const tree_t* p1;
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const tree_t* p2;
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const tree_t* p2;
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|
@ -97,37 +99,54 @@ namespace blt::gp
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p1 = &crossover_selection.select(program, current_pop);
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p1 = &crossover_selection.select(program, current_pop);
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p2 = &crossover_selection.select(program, current_pop);
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p2 = &crossover_selection.select(program, current_pop);
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} while (!config.crossover.get().apply(program, *p1, *p2, c1, *c2));
|
} while (!config.crossover.get().apply(program, *p1, *p2, c1, *c2));
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// tracker.stop_measurement(state);
|
#ifdef BLT_TRACK_ALLOCATIONS
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// BLT_TRACE("Crossover Allocated %ld times with a total of %s", state.getAllocationDifference(),
|
tracker.stop_measurement(state);
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// blt::byte_convert_t(state.getAllocatedByteDifference()).convert_to_nearest_type().to_pretty_string().c_str());
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crossover_calls.call(state.getAllocatedByteDifference());
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|
if (state.getAllocationDifference() != 0)
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|
crossover_allocations.call(state.getAllocatedByteDifference());
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|
#endif
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return 2;
|
return 2;
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}
|
}
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break;
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break;
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case 1:
|
case 1:
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if (random.choice(config.mutation_chance))
|
if (random.choice(config.mutation_chance))
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{
|
{
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// auto state = tracker.start_measurement();
|
#ifdef BLT_TRACK_ALLOCATIONS
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|
auto state = tracker.start_measurement();
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|
#endif
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// mutation
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// mutation
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const tree_t* p;
|
const tree_t* p;
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do
|
do
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{
|
{
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p = &mutation_selection.select(program, current_pop);
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p = &mutation_selection.select(program, current_pop);
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} while (!config.mutator.get().apply(program, *p, c1));
|
} while (!config.mutator.get().apply(program, *p, c1));
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// tracker.stop_measurement(state);
|
#ifdef BLT_TRACK_ALLOCATIONS
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// BLT_TRACE("Mutation Allocated %ld times with a total of %s", state.getAllocationDifference(),
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tracker.stop_measurement(state);
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// blt::byte_convert_t(state.getAllocatedByteDifference()).convert_to_nearest_type().to_pretty_string().c_str());
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mutation_calls.call(state.getAllocatedByteDifference());
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if (state.getAllocationDifference() != 0)
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{
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mutation_allocations.call(state.getAllocatedByteDifference());
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}
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#endif
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return 1;
|
return 1;
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}
|
}
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break;
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break;
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case 2:
|
case 2:
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if (config.reproduction_chance > 0 && random.choice(config.reproduction_chance))
|
if (config.reproduction_chance > 0 && random.choice(config.reproduction_chance))
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{
|
{
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// auto state = tracker.start_measurement();
|
#ifdef BLT_TRACK_ALLOCATIONS
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auto state = tracker.start_measurement();
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#endif
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// reproduction
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// reproduction
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c1 = reproduction_selection.select(program, current_pop);
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c1 = reproduction_selection.select(program, current_pop);
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// tracker.stop_measurement(state);
|
#ifdef BLT_TRACK_ALLOCATIONS
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// BLT_TRACE("Reproduction Allocated %ld times with a total of %s", state.getAllocationDifference(),
|
tracker.stop_measurement(state);
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// blt::byte_convert_t(state.getAllocatedByteDifference()).convert_to_nearest_type().to_pretty_string().c_str());
|
reproduction_calls.call(state.getAllocatedByteDifference());
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|
if (state.getAllocationDifference() != 0)
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|
{
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reproduction_allocations.call(state.getAllocatedByteDifference());
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|
}
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|
#endif
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return 1;
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return 1;
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}
|
}
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break;
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break;
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|
|
@ -129,6 +129,68 @@ namespace blt::gp
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std::atomic_uint64_t deallocated_bytes = 0;
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std::atomic_uint64_t deallocated_bytes = 0;
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};
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};
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|
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class call_tracker_t
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|
{
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|
public:
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|
struct call_data_t
|
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|
{
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|
blt::u64 start_calls = 0;
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|
blt::u64 start_value = 0;
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|
blt::u64 end_calls = 0;
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|
blt::u64 end_value = 0;
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|
|
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[[nodiscard]] inline auto get_call_difference() const
|
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|
{
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|
return end_calls - start_calls;
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|
}
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|
|
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[[nodiscard]] inline auto get_value_difference() const
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|
{
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|
return end_value - start_value;
|
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|
}
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|
};
|
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|
|
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|
void value(blt::u64 value)
|
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|
{
|
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|
secondary_value += value;
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|
}
|
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|
|
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|
void call()
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|
{
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|
primary_calls++;
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|
}
|
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|
|
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|
void call(blt::u64 v)
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|
{
|
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|
primary_calls++;
|
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|
value(v);
|
||||||
|
}
|
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|
|
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|
[[nodiscard]] auto get_calls() const
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|
{
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|
return primary_calls.load();
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||||||
|
}
|
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|
|
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|
[[nodiscard]] auto get_value() const
|
||||||
|
{
|
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|
return secondary_value.load();
|
||||||
|
}
|
||||||
|
|
||||||
|
call_data_t start_measurement()
|
||||||
|
{
|
||||||
|
return {primary_calls.load(), 0};
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||||||
|
}
|
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|
|
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|
void stop_measurement(call_data_t& data)
|
||||||
|
{
|
||||||
|
data.end_calls = primary_calls.load();
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||||||
|
}
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||||||
|
|
||||||
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private:
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||||||
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std::atomic_uint64_t primary_calls = 0;
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||||||
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std::atomic_uint64_t secondary_value = 0;
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||||||
|
};
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||||||
|
|
||||||
}
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}
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||||||
|
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||||||
#endif //BLT_GP_STATS_H
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#endif //BLT_GP_STATS_H
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||||||
|
|
2
lib/blt
2
lib/blt
|
@ -1 +1 @@
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||||||
Subproject commit 79e080cfd34fb47342f67f19b95ffa27efb0f715
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Subproject commit ab482f1a1c5782bd3501428f26c02f0bb4729946
|
Loading…
Reference in New Issue