#include #include #include #include constexpr auto TEST_ID = dp::structure_id_t(1, 2); class TestDatasetSmall : public hk::Dataset { public: TestDatasetSmall() : hk::Dataset(TEST_ID, false) {} hk::lvar_u8 test0{*this}; hk::lvar_u32 test1{*this}; }; class TestDatasetLarger : public hk::Dataset { public: TestDatasetLarger() : hk::Dataset(TEST_ID, false) {} hk::lvar_u8 test0{*this}; hk::lvar_u32 test1{*this}; hk::lvar_u16 test2{*this}; hk::lvar_i32 test3{*this}; hk::lvar_f32 test4{*this}; hk::lvar_f64 test5{*this}; hk::lvar_u8 test6{*this}; hk::lvar_i16 test7{*this}; hk::lvec_u16<2> test8{*this}; }; TEST_CASE("Pool Dataset Test", "[datapool]") { TestDatasetSmall dataset; CHECK(dataset.getStructureId() == TEST_ID); CHECK(!dataset.test0.isValid()); dataset.test0.setValid(true); CHECK(dataset.test0.isValid()); SECTION("Pool Dataset Serialization Test 1") { uint8_t buf[64]{}; dataset.test0 = 55; dataset.test1 = 502392; size_t serLen = 0; CHECK(dataset.serialize(buf, serLen, sizeof(buf), SerializeIF::Endianness::NETWORK) == returnvalue::OK); CHECK(buf[0] == 55); CHECK(serLen == 5); uint32_t readBack = 0; size_t dummy = 0; CHECK(SerializeAdapter::deSerialize(&readBack, buf + 1, &dummy, SerializeIF::Endianness::NETWORK) == returnvalue::OK); CHECK(readBack == 502392); CHECK(buf[5] == 0); } SECTION("Pool Dataset Serialization With Validity") { uint8_t buf[64]{}; dataset.test0 = 55; dataset.test1 = 502392; dataset.test0.setValid(true); dataset.test1.setValid(true); size_t serLen = 0; uint8_t* dataPtr = buf; dataset.serializeWithValidityBlob = true; CHECK(dataset.serialize(&dataPtr, &serLen, sizeof(buf), SerializeIF::Endianness::NETWORK) == returnvalue::OK); CHECK(buf[5] == 0b11000000); } SECTION("Larger Pool Dataset Serialization With Validity") { uint8_t buf[64]{}; TestDatasetLarger datasetLarge; datasetLarge.setAllChildrenValidity(true); size_t serLen = 0; uint8_t* dataPtr = buf; datasetLarge.serializeWithValidityBlob = true; CHECK(datasetLarge.serialize(&dataPtr, &serLen, sizeof(buf), SerializeIF::Endianness::NETWORK) == returnvalue::OK); CHECK(serLen == 32); CHECK(buf[30] == 0b11111111); CHECK(buf[31] == 0b10000000); CHECK(buf[32] == 0); } }