/* 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 . */ // SPDX-License-Identifier: GPL-3.0 #include #include #include #include #include #include #include using namespace std; using namespace solidity::langutil; using namespace solidity::util; using namespace solidity::yul; namespace solidity::phaser::test { class DummyProgramBasedMetric: public ProgramBasedMetric { public: using ProgramBasedMetric::ProgramBasedMetric; size_t evaluate(Chromosome const&) override { return 0; } }; class ProgramBasedMetricFixture { protected: static constexpr char SampleSourceCode[] = "{\n" " function foo() -> result\n" " {\n" " let x := 1\n" " result := 15\n" " }\n" " function bar() -> result\n" " {\n" " result := 15\n" " }\n" " mstore(foo(), bar())\n" "}\n"; Program optimisedProgram(Program _program) const { [[maybe_unused]] size_t originalSize = _program.codeSize(m_weights); Program result = move(_program); result.optimise(m_chromosome.optimisationSteps()); // Make sure that the program and the chromosome we have chosen are suitable for the test assert(result.codeSize(m_weights) != originalSize); return result; } CharStream m_sourceStream = CharStream(SampleSourceCode, ""); Chromosome m_chromosome{vector{UnusedPruner::name, EquivalentFunctionCombiner::name}}; Program m_program = get(Program::load(m_sourceStream)); Program m_optimisedProgram = optimisedProgram(m_program); shared_ptr m_programCache = make_shared(m_program); static constexpr CodeWeights m_weights{}; }; class FitnessMetricCombinationFixture: public ProgramBasedMetricFixture { protected: vector> m_simpleMetrics = { make_shared(m_program, nullptr, m_weights, 1), make_shared(m_program, nullptr, m_weights, 2), make_shared(m_program, nullptr, m_weights, 3), }; vector m_fitness = { m_simpleMetrics[0]->evaluate(m_chromosome), m_simpleMetrics[1]->evaluate(m_chromosome), m_simpleMetrics[2]->evaluate(m_chromosome), }; }; BOOST_AUTO_TEST_SUITE(Phaser, *boost::unit_test::label("nooptions")) BOOST_AUTO_TEST_SUITE(FitnessMetricsTest) BOOST_AUTO_TEST_SUITE(ProgramBasedMetricTest) BOOST_FIXTURE_TEST_CASE(optimisedProgram_should_return_optimised_program_even_if_cache_not_available, ProgramBasedMetricFixture) { string code = toString(DummyProgramBasedMetric(m_program, nullptr, m_weights).optimisedProgram(m_chromosome)); BOOST_TEST(code != toString(m_program)); BOOST_TEST(code == toString(m_optimisedProgram)); } BOOST_FIXTURE_TEST_CASE(optimisedProgram_should_use_cache_if_available, ProgramBasedMetricFixture) { string code = toString(DummyProgramBasedMetric(nullopt, m_programCache, m_weights).optimisedProgram(m_chromosome)); BOOST_TEST(code != toString(m_program)); BOOST_TEST(code == toString(m_optimisedProgram)); BOOST_TEST(m_programCache->size() == m_chromosome.length()); } BOOST_FIXTURE_TEST_CASE(optimisedProgramNoCache_should_return_optimised_program_even_if_cache_not_available, ProgramBasedMetricFixture) { string code = toString(DummyProgramBasedMetric(m_program, nullptr, m_weights).optimisedProgramNoCache(m_chromosome)); BOOST_TEST(code != toString(m_program)); BOOST_TEST(code == toString(m_optimisedProgram)); } BOOST_FIXTURE_TEST_CASE(optimisedProgramNoCache_should_not_use_cache_even_if_available, ProgramBasedMetricFixture) { string code = toString(DummyProgramBasedMetric(nullopt, m_programCache, m_weights).optimisedProgramNoCache(m_chromosome)); BOOST_TEST(code != toString(m_program)); BOOST_TEST(code == toString(m_optimisedProgram)); BOOST_TEST(m_programCache->size() == 0); } BOOST_AUTO_TEST_SUITE_END() BOOST_AUTO_TEST_SUITE(ProgramSizeTest) BOOST_FIXTURE_TEST_CASE(evaluate_should_compute_size_of_the_optimised_program, ProgramBasedMetricFixture) { size_t fitness = ProgramSize(m_program, nullptr, m_weights).evaluate(m_chromosome); BOOST_TEST(fitness != m_program.codeSize(m_weights)); BOOST_TEST(fitness == m_optimisedProgram.codeSize(m_weights)); } BOOST_FIXTURE_TEST_CASE(evaluate_should_be_able_to_use_program_cache_if_available, ProgramBasedMetricFixture) { size_t fitness = ProgramSize(nullopt, m_programCache, m_weights).evaluate(m_chromosome); BOOST_TEST(fitness != m_program.codeSize(m_weights)); BOOST_TEST(fitness == m_optimisedProgram.codeSize(m_weights)); BOOST_TEST(m_programCache->size() == m_chromosome.length()); } BOOST_FIXTURE_TEST_CASE(evaluate_should_repeat_the_optimisation_specified_number_of_times, ProgramBasedMetricFixture) { Program const& programOptimisedOnce = m_optimisedProgram; Program programOptimisedTwice = optimisedProgram(programOptimisedOnce); ProgramSize metric(m_program, nullptr, m_weights, 2); size_t fitness = metric.evaluate(m_chromosome); BOOST_TEST(fitness != m_program.codeSize(m_weights)); BOOST_TEST(fitness != programOptimisedOnce.codeSize(m_weights)); BOOST_TEST(fitness == programOptimisedTwice.codeSize(m_weights)); } BOOST_FIXTURE_TEST_CASE(evaluate_should_not_optimise_if_number_of_repetitions_is_zero, ProgramBasedMetricFixture) { ProgramSize metric(m_program, nullptr, m_weights, 0); size_t fitness = metric.evaluate(m_chromosome); BOOST_TEST(fitness == m_program.codeSize(m_weights)); BOOST_TEST(fitness != m_optimisedProgram.codeSize(m_weights)); } BOOST_AUTO_TEST_SUITE_END() BOOST_AUTO_TEST_SUITE(RelativeProgramSizeTest) BOOST_FIXTURE_TEST_CASE(evaluate_should_compute_the_size_ratio_between_optimised_program_and_original_program, ProgramBasedMetricFixture) { BOOST_TEST( RelativeProgramSize(m_program, nullptr, 3, m_weights).evaluate(m_chromosome) == round(1000.0 * double(m_optimisedProgram.codeSize(m_weights)) / double(m_program.codeSize(m_weights))) ); } BOOST_FIXTURE_TEST_CASE(evaluate_should_be_able_to_use_program_cache_if_available, ProgramBasedMetricFixture) { BOOST_TEST( RelativeProgramSize(nullopt, m_programCache, 3, m_weights).evaluate(m_chromosome) == round(1000.0 * double(m_optimisedProgram.codeSize(m_weights)) / double(m_program.codeSize(m_weights))) ); BOOST_TEST(m_programCache->size() == m_chromosome.length()); } BOOST_FIXTURE_TEST_CASE(evaluate_should_repeat_the_optimisation_specified_number_of_times, ProgramBasedMetricFixture) { Program const& programOptimisedOnce = m_optimisedProgram; Program programOptimisedTwice = optimisedProgram(programOptimisedOnce); RelativeProgramSize metric(m_program, nullptr, 3, m_weights, 2); size_t fitness = metric.evaluate(m_chromosome); BOOST_TEST(fitness != 1000); BOOST_TEST(fitness != RelativeProgramSize(programOptimisedTwice, nullptr, 3, m_weights, 1).evaluate(m_chromosome)); BOOST_TEST(fitness == round(1000.0 * double(programOptimisedTwice.codeSize(m_weights)) / double(m_program.codeSize(m_weights)))); } BOOST_FIXTURE_TEST_CASE(evaluate_should_return_one_if_number_of_repetitions_is_zero, ProgramBasedMetricFixture) { RelativeProgramSize metric(m_program, nullptr, 3, m_weights, 0); BOOST_TEST(metric.evaluate(m_chromosome) == 1000); } BOOST_FIXTURE_TEST_CASE(evaluate_should_return_one_if_the_original_program_size_is_zero, ProgramBasedMetricFixture) { CharStream sourceStream = CharStream("{}", ""); Program program = get(Program::load(sourceStream)); RelativeProgramSize metric(program, nullptr, 3, m_weights); BOOST_TEST(metric.evaluate(m_chromosome) == 1000); BOOST_TEST(metric.evaluate(Chromosome("")) == 1000); BOOST_TEST(metric.evaluate(Chromosome("afcxjLTLTDoO")) == 1000); } BOOST_FIXTURE_TEST_CASE(evaluate_should_multiply_the_result_by_scaling_factor, ProgramBasedMetricFixture) { double sizeRatio = double(m_optimisedProgram.codeSize(m_weights)) / double(m_program.codeSize(m_weights)); BOOST_TEST(RelativeProgramSize(m_program, nullptr, 0, m_weights).evaluate(m_chromosome) == round(1.0 * sizeRatio)); BOOST_TEST(RelativeProgramSize(m_program, nullptr, 1, m_weights).evaluate(m_chromosome) == round(10.0 * sizeRatio)); BOOST_TEST(RelativeProgramSize(m_program, nullptr, 2, m_weights).evaluate(m_chromosome) == round(100.0 * sizeRatio)); BOOST_TEST(RelativeProgramSize(m_program, nullptr, 3, m_weights).evaluate(m_chromosome) == round(1000.0 * sizeRatio)); BOOST_TEST(RelativeProgramSize(m_program, nullptr, 4, m_weights).evaluate(m_chromosome) == round(10000.0 * sizeRatio)); } BOOST_AUTO_TEST_SUITE_END() BOOST_AUTO_TEST_SUITE(FitnessMetricCombinationTest) BOOST_FIXTURE_TEST_CASE(FitnessMetricAverage_evaluate_should_compute_average_of_values_returned_by_metrics_passed_to_it, FitnessMetricCombinationFixture) { FitnessMetricAverage metric(m_simpleMetrics); assert(m_simpleMetrics.size() == 3); BOOST_TEST(metric.evaluate(m_chromosome) == (m_fitness[0] + m_fitness[1] + m_fitness[2]) / 3); BOOST_TEST(metric.metrics() == m_simpleMetrics); } BOOST_FIXTURE_TEST_CASE(FitnessMetricSum_evaluate_should_compute_sum_of_values_returned_by_metrics_passed_to_it, FitnessMetricCombinationFixture) { FitnessMetricSum metric(m_simpleMetrics); assert(m_simpleMetrics.size() == 3); BOOST_TEST(metric.evaluate(m_chromosome) == m_fitness[0] + m_fitness[1] + m_fitness[2]); BOOST_TEST(metric.metrics() == m_simpleMetrics); } BOOST_FIXTURE_TEST_CASE(FitnessMetricMaximum_evaluate_should_compute_maximum_of_values_returned_by_metrics_passed_to_it, FitnessMetricCombinationFixture) { FitnessMetricMaximum metric(m_simpleMetrics); assert(m_simpleMetrics.size() == 3); BOOST_TEST(metric.evaluate(m_chromosome) == max(m_fitness[0], max(m_fitness[1], m_fitness[2]))); BOOST_TEST(metric.metrics() == m_simpleMetrics); } BOOST_FIXTURE_TEST_CASE(FitnessMetricMinimum_evaluate_should_compute_minimum_of_values_returned_by_metrics_passed_to_it, FitnessMetricCombinationFixture) { FitnessMetricMinimum metric(m_simpleMetrics); assert(m_simpleMetrics.size() == 3); BOOST_TEST(metric.evaluate(m_chromosome) == min(m_fitness[0], min(m_fitness[1], m_fitness[2]))); BOOST_TEST(metric.metrics() == m_simpleMetrics); } BOOST_AUTO_TEST_SUITE_END() BOOST_AUTO_TEST_SUITE_END() BOOST_AUTO_TEST_SUITE_END() }