#include #include "md5.h" #include "group.h" #include "type_id.h" #include "tiny_pool.h" #include "common_code.h" #include "group_seeds.h" #include "gtest/gtest.h" using klotski::Group; using klotski::GroupCase; using klotski::GroupType; using klotski::RawCode; using klotski::AllCases; using klotski::ShortCode; using klotski::CommonCode; using klotski::GROUP_SEEDS; using klotski::TYPE_ID_SIZE; using klotski::ALL_GROUP_NUM; using klotski::TYPE_ID_LIMIT; using klotski::SHORT_CODE_LIMIT; using klotski::TYPE_ID_GROUP_NUM; using klotski::ALL_CASES_SIZE_SUM; const char GROUP_INFO_MD5[] = "976bf22530085210e68a6a4e67053506"; TEST(Group, all_cases) { std::vector all_cases[TYPE_ID_LIMIT]; auto build = [&all_cases](GroupType type_id) { auto cases = type_id.cases(); // build test data EXPECT_EQ(cases.size(), TYPE_ID_SIZE[type_id.unwrap()]); // verify cases number for (auto &&common_code : cases) { EXPECT_EQ(GroupType(common_code), type_id); // verify type id } EXPECT_EQ(std::is_sorted(cases.begin(), cases.end()), true); // verify data order all_cases[type_id.unwrap()] = cases; }; auto pool = TinyPool(); for (uint32_t type_id = 0; type_id < TYPE_ID_LIMIT; ++type_id) { pool.submit(build, GroupType(type_id)); } pool.boot().join(); // wait data build complete std::vector combine; combine.reserve(ALL_CASES_SIZE_SUM); for (auto &&cases : all_cases) { combine.insert(combine.end(), cases.begin(), cases.end()); } EXPECT_EQ(combine.size(), ALL_CASES_SIZE_SUM); // verify sum auto all_cases_release = AllCases::release(); std::stable_sort(combine.begin(), combine.end()); EXPECT_EQ(combine, all_cases_release); // verify combined cases } TEST(Group, group_cases) { auto build = [](CommonCode seed) -> std::vector { auto group = Group(seed); auto cases = CommonCode::convert(group.cases()); // convert as CommonCodes EXPECT_EQ(seed, std::min_element(cases.begin(), cases.end())->unwrap()); // confirm min seed EXPECT_EQ(cases.size(), group.size()); // verify group size EXPECT_EQ(seed, group.seed()); // verify group seed uint32_t type_id = GroupType(seed).unwrap(); // current type id for (auto &&elem : cases) { EXPECT_EQ(GroupType(elem).unwrap(), type_id); // verify type id of group cases } return cases; }; auto pool = TinyPool(); std::vector>> futures; for (auto &&seed : GROUP_SEEDS) { futures.emplace_back( pool.submit(build, CommonCode::unsafe_create(seed)) ); } pool.boot(); std::vector all_cases; all_cases.reserve(ALL_CASES_SIZE_SUM); for (auto &&tmp : futures) { auto cases = tmp.get(); all_cases.insert(all_cases.end(), cases.begin(), cases.end()); // combine build result } std::sort(all_cases.begin(), all_cases.end()); EXPECT_EQ(all_cases, AllCases::release()); // verify all released cases } TEST(Group, group_seeds) { std::vector all_seeds; all_seeds.reserve(ALL_GROUP_NUM); for (uint32_t type_id = 0; type_id < TYPE_ID_LIMIT; ++type_id) { auto seeds = GroupType(type_id).seeds(); for (auto &&seed : seeds) { EXPECT_EQ(GroupType(seed).unwrap(), type_id); // verify type id of seeds } all_seeds.insert(all_seeds.end(), seeds.begin(), seeds.end()); std::vector sub_seeds; sub_seeds.reserve(TYPE_ID_GROUP_NUM[type_id]); for (uint32_t group_id = 0; group_id < TYPE_ID_GROUP_NUM[type_id]; ++group_id) { sub_seeds.emplace_back(Group(type_id, group_id).seed()); } std::sort(seeds.begin(), seeds.end()); std::sort(sub_seeds.begin(), sub_seeds.end()); // don't verify seeds order for now EXPECT_EQ(seeds, sub_seeds); // verify group seeds } std::vector group_seeds(GROUP_SEEDS, GROUP_SEEDS + ALL_GROUP_NUM); EXPECT_EQ(all_seeds, group_seeds); // verify group seeds } TEST(Group, build_groups) { std::vector all_cases(SHORT_CODE_LIMIT); auto test = [&all_cases](GroupType type_id) { auto groups = type_id.groups(); EXPECT_EQ(groups.size(), TYPE_ID_GROUP_NUM[type_id.unwrap()]); // verify groups num EXPECT_EQ(groups.size(), type_id.group_num()); // verify groups num std::vector group_sizes; std::map> group_seeds; // for (uint32_t group_id = 0; group_id < groups.size(); ++group_id) { auto group = CommonCode::convert(Group(type_id, group_id).cases()); std::sort(group.begin(), group.end()); std::sort(groups[group_id].begin(), groups[group_id].end()); EXPECT_EQ(groups[group_id], group); // verify group cases EXPECT_EQ(group.size(), Group(type_id, group_id).size()); // verify group size EXPECT_EQ(*group.begin(), Group(type_id, group_id).seed()); // verify group seed EXPECT_EQ(Group(*group.begin()).unwrap(), group_id); // build from CommonCode EXPECT_EQ(Group(group.begin()->to_raw_code()).unwrap(), group_id); // build from RawCode for (uint32_t index = 0; index < group.size(); ++index) { all_cases[group[index].to_short_code().unwrap()] = { // storage group info .type_id = 0, .group_id = static_cast(group_id), .group_index = index, }; EXPECT_EQ(GroupType(group[index]), type_id); // verify released type id } group_seeds[group.size()].emplace_back(*group.begin()); // storage group seeds group_sizes.emplace_back(group.size()); // storage group size } EXPECT_EQ(std::is_sorted(group_sizes.rbegin(), group_sizes.rend()), true); // verify group size order for (auto &&tmp : group_seeds) { EXPECT_EQ(std::is_sorted(tmp.second.begin(), tmp.second.end()), true); // verify group cases order } }; auto pool = TinyPool(); ShortCode::speed_up(ShortCode::FAST); for (uint32_t type_id = 0; type_id < TYPE_ID_LIMIT; ++type_id) { pool.submit(test, GroupType(type_id)); } pool.boot().join(); char buffer[9]; std::string group_info_str; for (auto &&tmp : all_cases) { sprintf(buffer, "%d,%d\n", tmp.group_id, tmp.group_index); group_info_str += buffer; } auto group_info_md5 = md5(group_info_str.c_str(), group_info_str.size()); EXPECT_STREQ(group_info_md5.c_str(), GROUP_INFO_MD5); // verify all group info }