#include #include #include #include "all_cases.h" #include "common_code.h" #include "gtest/gtest.h" #define SHOULD_PANIC(FUNC) \ try { \ FUNC; EXPECT_STREQ("should panic", "but no panic"); \ } catch (...) {} using klotski::RawCode; using klotski::AllCases; using klotski::ShortCode; using klotski::CommonCode; const static uint64_t TEST_CODE = 0x1'A9BF'0C00; const static std::string TEST_CODE_STR = "1A9BF0C00"; TEST(CommonCode, hash) { auto tmp = std::unordered_set{ CommonCode(TEST_CODE) }; EXPECT_EQ(tmp.size(), 1); } TEST(CommonCode, validity) { EXPECT_NE(CommonCode::check(0x3'A9'BF'0C'00), true); // invalid 2x2 block EXPECT_NE(CommonCode::check(0x1'D9'BF'0C'00), true); // invalid block range EXPECT_NE(CommonCode::check(0x1'A9'BF'FC'00), true); // less than 2 space EXPECT_NE(CommonCode::check(0x1'A0'BF'0C'01), true); // low bits not fill zero SHOULD_PANIC(CommonCode::from_string("0123456789")) // length > 9 SHOULD_PANIC(CommonCode::from_string("123J432A9")) // with invalid `J` } TEST(CommonCode, code_verify) { // test all layout std::thread threads[16]; auto test = [](uint64_t head) { for (const auto &range : AllCases::fetch()[head]) { uint64_t code = head << 32 | range; EXPECT_EQ(CommonCode::check(code), true); // test static `check` interface auto tmp = CommonCode::unsafe_create(code); // test dynamic `valid` interface EXPECT_EQ(tmp.valid(), true); } }; for (uint64_t head = 0; head < 16; ++head) { // split into 16 threads threads[head] = std::thread(test, head); } for (auto &t : threads) { t.join(); } } TEST(CommonCode, code_string) { // test all string code std::thread threads[16]; auto test = [](uint64_t head) { for (const auto &range : AllCases::fetch()[head]) { std::string code_str; uint64_t code = head << 32 | range; auto common_code = CommonCode::unsafe_create(code); code_str = common_code.to_string(true); // with shorten EXPECT_LE(code_str.size(), 9); // length -> (0, 9] EXPECT_NE(code_str.size(), 0); if (code != 0) { // skip special code string `0` EXPECT_NE(code_str.back(), '0'); } EXPECT_EQ(CommonCode::from_string(code_str), common_code); code_str = common_code.to_string(false); // without shorten EXPECT_EQ(code_str.size(), 9); // length = 9 for (const auto &c : code_str) { EXPECT_EQ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F'), true); } EXPECT_EQ(CommonCode::from_string(code_str), common_code); // test upper cases std::transform(code_str.begin(), code_str.end(), code_str.begin(), ::tolower); EXPECT_EQ(CommonCode::from_string(code_str), common_code); // test lower cases } }; for (uint64_t head = 0; head < 16; ++head) { // split into 16 threads threads[head] = std::thread(test, head); } for (auto &t : threads) { t.join(); } } TEST(CommonCode, operators) { std::cout.setstate(std::ios::failbit); // hide std::cout content std::cout << "TEST OUTPUT -> " << CommonCode(TEST_CODE) << std::endl; // ostream test std::cout.clear(); EXPECT_EQ((uint64_t)CommonCode(TEST_CODE), TEST_CODE); // convert as uint64_t EXPECT_EQ(TEST_CODE, CommonCode(TEST_CODE)); // uint64_t == CommonCode EXPECT_EQ(CommonCode(TEST_CODE), TEST_CODE); // CommonCode == uint64_t EXPECT_EQ(CommonCode(TEST_CODE), CommonCode(TEST_CODE)); // CommonCode == CommonCode EXPECT_NE(TEST_CODE + 1, CommonCode(TEST_CODE)); // uint64_t != CommonCode EXPECT_NE(CommonCode(TEST_CODE), TEST_CODE + 1); // CommonCode != uint64_t EXPECT_NE(CommonCode(TEST_CODE), CommonCode::unsafe_create(TEST_CODE + 1)); // CommonCode != CommonCode EXPECT_LT(CommonCode(TEST_CODE), CommonCode::unsafe_create(TEST_CODE + 1)); // CommonCode < CommonCode EXPECT_GT(CommonCode::unsafe_create(TEST_CODE + 1), CommonCode(TEST_CODE)); // CommonCode > CommonCode } TEST(CommonCode, code_convert) { EXPECT_STREQ(CommonCode(TEST_CODE).to_string().c_str(), TEST_CODE_STR.c_str()); EXPECT_EQ(CommonCode(CommonCode(TEST_CODE).to_string(true)), CommonCode(TEST_CODE)); EXPECT_EQ(CommonCode(CommonCode(TEST_CODE).to_string(false)), CommonCode(TEST_CODE)); EXPECT_EQ(CommonCode(TEST_CODE).to_raw_code(), RawCode::from_common_code(TEST_CODE)); EXPECT_EQ(CommonCode(TEST_CODE).to_short_code(), ShortCode::from_common_code(TEST_CODE)); EXPECT_EQ(CommonCode(TEST_CODE).unwrap(), TEST_CODE); } TEST(CommonCode, constructors) { EXPECT_EQ(CommonCode(TEST_CODE).unwrap(), TEST_CODE); EXPECT_EQ(CommonCode(TEST_CODE_STR).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode(std::string(TEST_CODE_STR)).unwrap(), TEST_CODE); // r-value auto raw_code = RawCode::from_common_code(TEST_CODE); EXPECT_EQ(CommonCode(raw_code).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode(RawCode::from_common_code(TEST_CODE)).unwrap(), TEST_CODE); // r-value auto short_code = ShortCode::from_common_code(TEST_CODE); EXPECT_EQ(CommonCode(short_code).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode(ShortCode::from_common_code(TEST_CODE)).unwrap(), TEST_CODE); // r-value } TEST(CommonCode, initializate) { EXPECT_EQ(CommonCode::create(TEST_CODE).unwrap(), TEST_CODE); EXPECT_EQ(CommonCode::unsafe_create(TEST_CODE).unwrap(), TEST_CODE); EXPECT_EQ(CommonCode::from_string(TEST_CODE_STR).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode::from_string(std::string(TEST_CODE_STR)).unwrap(), TEST_CODE); // r-value auto raw_code = RawCode::from_common_code(TEST_CODE); EXPECT_EQ(CommonCode::from_raw_code(raw_code.unwrap()).unwrap(), TEST_CODE); EXPECT_EQ(CommonCode::from_raw_code(raw_code).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode::from_raw_code( RawCode::from_common_code(TEST_CODE) // r-value ).unwrap(), TEST_CODE); auto short_code = ShortCode::from_common_code(TEST_CODE); auto short_code_string = short_code.to_string(); EXPECT_EQ(CommonCode::from_short_code(short_code.unwrap()).unwrap(), TEST_CODE); EXPECT_EQ(CommonCode::from_short_code(short_code).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode::from_short_code( ShortCode::from_common_code(TEST_CODE) // r-value ).unwrap(), TEST_CODE); EXPECT_EQ(CommonCode::from_short_code(short_code_string).unwrap(), TEST_CODE); // l-value EXPECT_EQ(CommonCode::from_short_code(short_code.to_string()).unwrap(), TEST_CODE); // r-value }