/****************************************************************************** The MIT License(MIT) Embedded Template Library. https://github.com/ETLCPP/etl https://www.etlcpp.com Copyright(c) 2022 jwellbelove Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files(the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and / or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions : The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ******************************************************************************/ #include "unit_test_framework.h" #include "etl/bit_stream.h" #include #include #include #include "etl/private/diagnostic_useless_cast_push.h" namespace { //*********************************** struct Object { int16_t s; int32_t i; uint8_t c; }; #include "etl/private/diagnostic_unused_function_push.h" bool operator==(const Object& lhs, const Object& rhs) { return (lhs.s == rhs.s) && (lhs.i == rhs.i) && (lhs.c == rhs.c); } std::ostream& operator<<(std::ostream& os, const Object& object) { os << object.s << "," << object.i << "," << (int)object.c; return os; } #include "etl/private/diagnostic_pop.h" } // namespace namespace etl { //*********************************** bool write(etl::bit_stream_writer& stream, const Object& object) { bool success = true; if (!stream.write(object.s, 14)) { success = false; } if (!stream.write(object.i, 23)) { success = false; } if (!stream.write(object.c)) { success = false; } return success; } } // namespace etl namespace { class Accumulator { public: void Add(etl::bit_stream_writer::callback_parameter_type s) { data.insert(data.end(), s.begin(), s.end()); } void Clear() { data.clear(); } const std::vector& GetData() const { return data; } private: std::vector data; }; SUITE(test_bit_stream_writer_big_endian) { //************************************************************************* TEST(test_bit_stream_writer_construction) { std::array storage; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK_EQUAL(storage.size(), bit_stream.available(CHAR_BIT)); CHECK_EQUAL(storage.size(), bit_stream.available()); CHECK_EQUAL(storage.size(), bit_stream.available()); CHECK_EQUAL(storage.size() * CHAR_BIT, bit_stream.available_bits()); CHECK_EQUAL(0U, bit_stream.size_bits()); CHECK_EQUAL(0U, bit_stream.size_bytes()); CHECK_EQUAL(storage.size(), bit_stream.data().size()); CHECK_EQUAL(0U, bit_stream.used_data().size()); } //************************************************************************* TEST(test_write_bool) { unsigned char storage = 0; unsigned char expected = 0x5AU; etl::bit_stream_writer bit_stream(&storage, 1U, etl::endian::big); CHECK(bit_stream.write(false)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(true)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(false)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(true)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(true)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(false)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(true)); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK(bit_stream.write(false)); CHECK_EQUAL(1U, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(true)); CHECK_EQUAL(1U, bit_stream.data().size()); CHECK_EQUAL(1U, bit_stream.used_data().size()); CHECK_EQUAL(int(expected), int(storage)); } //************************************************************************* TEST(test_write_int8_t) { std::array storage; std::array expected; std::iota(expected.begin(), expected.end(), 0); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); for (size_t i = 0UL; i < 256UL; ++i) { CHECK(bit_stream.write(int8_t(i))); CHECK_EQUAL(i + 1U, bit_stream.used_data().size()); } // One too many. CHECK_FALSE(bit_stream.write(int8_t(0))); CHECK_EQUAL(256U, bit_stream.data().size()); CHECK_EQUAL(256U, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_uint8_t) { std::array storage; std::array expected; std::iota(expected.begin(), expected.end(), 0); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); for (size_t i = 0UL; i < 256UL; ++i) { CHECK(bit_stream.write(uint8_t(i))); CHECK_EQUAL(i + 1U, bit_stream.used_data().size()); } // One too many. CHECK_FALSE(bit_stream.write(int8_t(0))); CHECK_EQUAL(256U, bit_stream.data().size()); CHECK_EQUAL(256U, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_int16_t) { std::array storage; std::array expected = {char(0x00), char(0x01), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xFF), char(0xFF)}; CHECK(expected.size() == storage.size()); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK(bit_stream.write(int16_t(0x0001))); CHECK_EQUAL(sizeof(int16_t) * 1, bit_stream.used_data().size()); CHECK(bit_stream.write(int16_t(0x5AA5))); CHECK_EQUAL(sizeof(int16_t) * 2, bit_stream.used_data().size()); CHECK(bit_stream.write(int16_t(0xA55A))); CHECK_EQUAL(sizeof(int16_t) * 3, bit_stream.used_data().size()); CHECK(bit_stream.write(int16_t(0xFFFF))); CHECK_EQUAL(sizeof(int16_t) * 4, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(int16_t(0))); CHECK_EQUAL(sizeof(int16_t) * 4, bit_stream.data().size()); CHECK_EQUAL(sizeof(int16_t) * 4, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_uint16_t) { std::array storage; std::array expected = {char(0x00), char(0x01), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xFF), char(0xFF)}; CHECK(expected.size() == storage.size()); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK(bit_stream.write(uint16_t(0x0001))); CHECK_EQUAL(sizeof(uint16_t) * 1, bit_stream.used_data().size()); CHECK(bit_stream.write(uint16_t(0x5AA5))); CHECK_EQUAL(sizeof(uint16_t) * 2, bit_stream.used_data().size()); CHECK(bit_stream.write(uint16_t(0xA55A))); CHECK_EQUAL(sizeof(uint16_t) * 3, bit_stream.used_data().size()); CHECK(bit_stream.write(uint16_t(0xFFFF))); CHECK_EQUAL(sizeof(uint16_t) * 4, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(uint16_t(0))); CHECK_EQUAL(sizeof(uint16_t) * 4, bit_stream.data().size()); CHECK_EQUAL(sizeof(uint16_t) * 4, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_int32_t) { std::array storage; std::array expected = {char(0x00), char(0x00), char(0x00), char(0x01), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xA5), char(0x5A), char(0x5A), char(0xA5), char(0xFF), char(0xFF), char(0xFF), char(0xFF)}; CHECK(expected.size() == storage.size()); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK(bit_stream.write(int32_t(0x00000001))); CHECK_EQUAL(sizeof(int32_t) * 1, bit_stream.used_data().size()); CHECK(bit_stream.write(int32_t(0x5AA5A55A))); CHECK_EQUAL(sizeof(int32_t) * 2, bit_stream.used_data().size()); CHECK(bit_stream.write(int32_t(0xA55A5AA5))); CHECK_EQUAL(sizeof(int32_t) * 3, bit_stream.used_data().size()); CHECK(bit_stream.write(int32_t(0xFFFFFFFF))); CHECK_EQUAL(sizeof(int32_t) * 4, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(int32_t(0))); CHECK_EQUAL(sizeof(int32_t) * 4, bit_stream.data().size()); CHECK_EQUAL(sizeof(int32_t) * 4, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_uint32_t) { std::array storage; std::array expected = {char(0x00), char(0x00), char(0x00), char(0x01), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xA5), char(0x5A), char(0x5A), char(0xA5), char(0xFF), char(0xFF), char(0xFF), char(0xFF)}; CHECK(expected.size() == storage.size()); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK(bit_stream.write(uint32_t(0x00000001))); CHECK_EQUAL(sizeof(uint32_t) * 1, bit_stream.used_data().size()); CHECK(bit_stream.write(uint32_t(0x5AA5A55A))); CHECK_EQUAL(sizeof(uint32_t) * 2, bit_stream.used_data().size()); CHECK(bit_stream.write(uint32_t(0xA55A5AA5))); CHECK_EQUAL(sizeof(uint32_t) * 3, bit_stream.used_data().size()); CHECK(bit_stream.write(uint32_t(0xFFFFFFFF))); CHECK_EQUAL(sizeof(uint32_t) * 4, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(uint32_t(0))); CHECK_EQUAL(sizeof(uint32_t) * 4, bit_stream.data().size()); CHECK_EQUAL(sizeof(uint32_t) * 4, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_int64_t) { std::array storage; std::array expected = { char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x01), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xA5), char(0x5A), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0x5A), char(0xA5), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF)}; CHECK(expected.size() == storage.size()); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK(bit_stream.write(int64_t(0x0000000000000001LL))); CHECK_EQUAL(sizeof(int64_t) * 1, bit_stream.used_data().size()); CHECK(bit_stream.write(int64_t(0x5AA5A55AA55A5AA5LL))); CHECK_EQUAL(sizeof(int64_t) * 2, bit_stream.used_data().size()); CHECK(bit_stream.write(int64_t(0xA55A5AA55AA5A55ALL))); CHECK_EQUAL(sizeof(int64_t) * 3, bit_stream.used_data().size()); CHECK(bit_stream.write(int64_t(0xFFFFFFFFFFFFFFFFLL))); CHECK_EQUAL(sizeof(int64_t) * 4, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(int64_t(0))); CHECK_EQUAL(sizeof(int64_t) * 4, bit_stream.data().size()); CHECK_EQUAL(sizeof(int64_t) * 4, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_uint64_t) { std::array storage; std::array expected = { char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x01), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xA5), char(0x5A), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0x5A), char(0xA5), char(0x5A), char(0xA5), char(0xA5), char(0x5A), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF)}; CHECK(expected.size() == storage.size()); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK(bit_stream.write(uint64_t(0x0000000000000001LL))); CHECK_EQUAL(sizeof(uint64_t) * 1, bit_stream.used_data().size()); CHECK(bit_stream.write(uint64_t(0x5AA5A55AA55A5AA5LL))); CHECK_EQUAL(sizeof(uint64_t) * 2, bit_stream.used_data().size()); CHECK(bit_stream.write(uint64_t(0xA55A5AA55AA5A55ALL))); CHECK_EQUAL(sizeof(uint64_t) * 3, bit_stream.used_data().size()); CHECK(bit_stream.write(uint64_t(0xFFFFFFFFFFFFFFFFLL))); CHECK_EQUAL(sizeof(uint64_t) * 4, bit_stream.used_data().size()); // One too many. CHECK_FALSE(bit_stream.write(uint64_t(0))); CHECK_EQUAL(sizeof(uint64_t) * 4, bit_stream.data().size()); CHECK_EQUAL(sizeof(uint64_t) * 4, bit_stream.used_data().size()); for (size_t i = 0UL; i < storage.size(); ++i) { CHECK_EQUAL(int(expected[i]), int(storage[i])); } } //************************************************************************* TEST(test_write_int8_t_5bits) { std::array storage; std::array write_data = {int8_t(0x01), int8_t(0xF5), int8_t(0x05), int8_t(0xFF)}; // 1, -11, 10, -1 std::array expected = {char(0x0D), char(0x4B), char(0xF0), char(0x00)}; // 1, -11, 10, -1 etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream CHECK(bit_stream.write(write_data[0], 5)); CHECK_EQUAL(1, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[1], 5)); CHECK_EQUAL(2, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[2], 5)); CHECK_EQUAL(2, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[3], 5)); CHECK_EQUAL(3, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); // 4th byte not used. } //************************************************************************* TEST(test_write_int16_t_10bits) { std::array storage; std::array write_data = {int16_t(0x0001), int16_t(0xA55A), int16_t(0x5AA5), int16_t(0xFFFF)}; std::array expected = {char(0x00), char(0x55), char(0xAA), char(0x97), char(0xFF), char(0x00), char(0x00), char(0x00)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream CHECK(bit_stream.write(write_data[0], 10)); CHECK_EQUAL(2, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[1], 10)); CHECK_EQUAL(3, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[2], 10)); CHECK_EQUAL(4, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[3], 10)); CHECK_EQUAL(5, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); // 6th to 8th bytes not used. } //************************************************************************* TEST(test_write_uint32_t_22bits) { std::array storage; std::array write_data = {uint32_t(0x00000001UL), uint32_t(0xA55AA55AUL), uint32_t(0x5AA55AA5UL), uint32_t(0xFFFFFFFFUL)}; std::array expected = {char(0x00), char(0x00), char(0x05), char(0xAA), char(0x55), char(0xA9), char(0x56), char(0xA9), char(0x7F), char(0xFF), char(0xFF), char(0x00), char(0x00), char(0x00), char(0x00), char(0x00)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream CHECK(bit_stream.write(write_data[0], 22)); CHECK_EQUAL(3, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[1], 22)); CHECK_EQUAL(6, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[2], 22)); CHECK_EQUAL(9, bit_stream.used_data().size()); CHECK(bit_stream.write(write_data[3], 22)); CHECK_EQUAL(11, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); CHECK_EQUAL((int)expected[5], (int)storage[5]); CHECK_EQUAL((int)expected[6], (int)storage[6]); CHECK_EQUAL((int)expected[7], (int)storage[7]); CHECK_EQUAL((int)expected[8], (int)storage[8]); CHECK_EQUAL((int)expected[9], (int)storage[9]); CHECK_EQUAL((int)expected[10], (int)storage[10]); // 12th to 16th to bytes not used. } //************************************************************************* TEST(test_write_int64_t_47bits) { std::array storage; std::array write_data = {int64_t(0x0000000000000001LL), int64_t(0xA55AA55AA55AA55ALL), int64_t(0x5AA55AA55AA55AA5LL), int64_t(0xFFFFFFFFFFFFFFFFLL)}; std::array expected = {char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x02), char(0x95), char(0x6A), char(0x95), char(0x6A), char(0x95), char(0x6A), char(0xD5), char(0x2A), char(0xD5), char(0x2A), char(0xD5), char(0x2F), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xF0)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream bit_stream.write(write_data[0], 47); CHECK_EQUAL(6, bit_stream.used_data().size()); bit_stream.write(write_data[1], 47); CHECK_EQUAL(12, bit_stream.used_data().size()); bit_stream.write(write_data[2], 47); CHECK_EQUAL(18, bit_stream.used_data().size()); bit_stream.write(write_data[3], 47); CHECK_EQUAL(24, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); CHECK_EQUAL((int)expected[5], (int)storage[5]); CHECK_EQUAL((int)expected[6], (int)storage[6]); CHECK_EQUAL((int)expected[7], (int)storage[7]); CHECK_EQUAL((int)expected[8], (int)storage[8]); CHECK_EQUAL((int)expected[9], (int)storage[9]); CHECK_EQUAL((int)expected[10], (int)storage[10]); CHECK_EQUAL((int)expected[11], (int)storage[11]); CHECK_EQUAL((int)expected[12], (int)storage[12]); CHECK_EQUAL((int)expected[13], (int)storage[13]); CHECK_EQUAL((int)expected[14], (int)storage[14]); CHECK_EQUAL((int)expected[15], (int)storage[15]); CHECK_EQUAL((int)expected[16], (int)storage[16]); CHECK_EQUAL((int)expected[17], (int)storage[17]); CHECK_EQUAL((int)expected[18], (int)storage[18]); CHECK_EQUAL((int)expected[19], (int)storage[19]); CHECK_EQUAL((int)expected[20], (int)storage[20]); CHECK_EQUAL((int)expected[21], (int)storage[21]); CHECK_EQUAL((int)expected[22], (int)storage[22]); CHECK_EQUAL((int)expected[23], (int)storage[23]); // 25th to 32nd bytes not used. } //************************************************************************* TEST(test_write_uint64_t_47bits) { std::array storage; std::array write_data = {uint64_t(0x0000000000000001ULL), uint64_t(0xA55AA55AA55AA55AULL), uint64_t(0x5AA55AA55AA55AA5ULL), uint64_t(0xFFFFFFFFFFFFFFFFULL)}; std::array expected = {char(0x00), char(0x00), char(0x00), char(0x00), char(0x00), char(0x02), char(0x95), char(0x6A), char(0x95), char(0x6A), char(0x95), char(0x6A), char(0xD5), char(0x2A), char(0xD5), char(0x2A), char(0xD5), char(0x2F), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xFF), char(0xF0)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream bit_stream.write(write_data[0], 47); CHECK_EQUAL(6, bit_stream.used_data().size()); bit_stream.write(write_data[1], 47); CHECK_EQUAL(12, bit_stream.used_data().size()); bit_stream.write(write_data[2], 47); CHECK_EQUAL(18, bit_stream.used_data().size()); bit_stream.write(write_data[3], 47); CHECK_EQUAL(24, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); CHECK_EQUAL((int)expected[5], (int)storage[5]); CHECK_EQUAL((int)expected[6], (int)storage[6]); CHECK_EQUAL((int)expected[7], (int)storage[7]); CHECK_EQUAL((int)expected[8], (int)storage[8]); CHECK_EQUAL((int)expected[9], (int)storage[9]); CHECK_EQUAL((int)expected[10], (int)storage[10]); CHECK_EQUAL((int)expected[11], (int)storage[11]); CHECK_EQUAL((int)expected[12], (int)storage[12]); CHECK_EQUAL((int)expected[13], (int)storage[13]); CHECK_EQUAL((int)expected[14], (int)storage[14]); CHECK_EQUAL((int)expected[15], (int)storage[15]); CHECK_EQUAL((int)expected[16], (int)storage[16]); CHECK_EQUAL((int)expected[17], (int)storage[17]); CHECK_EQUAL((int)expected[18], (int)storage[18]); CHECK_EQUAL((int)expected[19], (int)storage[19]); CHECK_EQUAL((int)expected[20], (int)storage[20]); CHECK_EQUAL((int)expected[21], (int)storage[21]); CHECK_EQUAL((int)expected[22], (int)storage[22]); CHECK_EQUAL((int)expected[23], (int)storage[23]); // 25th to 32nd bytes not used. } //************************************************************************* TEST(test_write_multiple_full_size) { char c1 = 90; // 0x5A char c2 = static_cast(-91); // 0xA5 unsigned short s1 = 4660; // 0x1234 unsigned short s2 = 22136; // 0x5678 int32_t i1 = static_cast(0x89ABCDEFU); // 0x89ABCDEF int32_t i2 = static_cast(0xFEDCBA98U); // 0xFEDCBA98 std::array storage; std::array expected = {char(0x5A), char(0x12), char(0x34), char(0x89), char(0xAB), char(0xCD), char(0xEF), char(0xFE), char(0xDC), char(0xBA), char(0x98), char(0x56), char(0x78), char(0xA5)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream. bit_stream.write(c1); CHECK_EQUAL(1, bit_stream.used_data().size()); bit_stream.write(s1); CHECK_EQUAL(3, bit_stream.used_data().size()); bit_stream.write(i1); CHECK_EQUAL(7, bit_stream.used_data().size()); bit_stream.write(i2); CHECK_EQUAL(11, bit_stream.used_data().size()); bit_stream.write(s2); CHECK_EQUAL(13, bit_stream.used_data().size()); bit_stream.write(c2); CHECK_EQUAL(14, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); CHECK_EQUAL((int)expected[5], (int)storage[5]); CHECK_EQUAL((int)expected[6], (int)storage[6]); CHECK_EQUAL((int)expected[7], (int)storage[7]); CHECK_EQUAL((int)expected[8], (int)storage[8]); CHECK_EQUAL((int)expected[9], (int)storage[9]); CHECK_EQUAL((int)expected[10], (int)storage[10]); CHECK_EQUAL((int)expected[11], (int)storage[11]); CHECK_EQUAL((int)expected[12], (int)storage[12]); CHECK_EQUAL((int)expected[13], (int)storage[13]); } //************************************************************************* TEST(test_write_multiple_variable_size) { char c1 = 90; // 0x5A 6 bits char c2 = static_cast(-91); // 0xA5 7 bits unsigned short s1 = 4660; // 0x1234 13 bits unsigned short s2 = 22136; // 0x5678 11 bits int32_t i1 = static_cast(0x89ABCDEFU); // 0x89ABCDEF 23 bits int32_t i2 = static_cast(0xFEDCBA98U); // 0xFEDCBA98 25 bits std::array storage; std::array expected = {char(0x6A), char(0x46), char(0x8A), char(0xF3), char(0x7B), char(0xDB), char(0x97), char(0x53), char(0x19), char(0xE1), char(0x28)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); // Insert into the stream. bit_stream.write(c1, 6); CHECK_EQUAL(1, bit_stream.used_data().size()); bit_stream.write(s1, 13); CHECK_EQUAL(3, bit_stream.used_data().size()); bit_stream.write(i1, 23); CHECK_EQUAL(6, bit_stream.used_data().size()); bit_stream.write(i2, 25); CHECK_EQUAL(9, bit_stream.used_data().size()); bit_stream.write(s2, 11); CHECK_EQUAL(10, bit_stream.used_data().size()); bit_stream.write(c2, 7); CHECK_EQUAL(11, bit_stream.used_data().size()); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); CHECK_EQUAL((int)expected[5], (int)storage[5]); CHECK_EQUAL((int)expected[6], (int)storage[6]); CHECK_EQUAL((int)expected[7], (int)storage[7]); CHECK_EQUAL((int)expected[8], (int)storage[8]); CHECK_EQUAL((int)expected[9], (int)storage[9]); CHECK_EQUAL((int)expected[10], (int)storage[10]); } //************************************************************************* TEST(test_write_multiple_variable_size_with_callback) { Accumulator accumulator; char c1 = 90; // 0x5A 6 bits char c2 = static_cast(-91); // 0xA5 7 bits unsigned short s1 = 4660U; // 0x1234 13 bits unsigned short s2 = 22136U; // 0x5678 11 bits int32_t i1 = static_cast(0x89ABCDEFU); // 0x89ABCDEF 23 bits int32_t i2 = static_cast(0xFEDCBA98U); // 0xFEDCBA98 25 bits std::array storage; storage.fill(0); std::array expected = {char(0x6A), char(0x46), char(0x8A), char(0xF3), char(0x7B), char(0xDB), char(0x97), char(0x53), char(0x19), char(0xE1), char(0x28)}; auto callback = etl::bit_stream_writer::callback_type::create< Accumulator, &Accumulator::Add>(accumulator); etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big, callback); // Insert into the stream. bit_stream.write(c1, 6); bit_stream.write(s1, 13); bit_stream.write(i1, 23); bit_stream.write(i2, 25); bit_stream.write(s2, 11); bit_stream.write(c2, 7); bit_stream.flush(); CHECK_EQUAL(bit_stream.capacity_bytes(), bit_stream.available()); CHECK_EQUAL(11U, accumulator.GetData().size()); CHECK_EQUAL((int)expected[0], (int)accumulator.GetData()[0]); CHECK_EQUAL((int)expected[1], (int)accumulator.GetData()[1]); CHECK_EQUAL((int)expected[2], (int)accumulator.GetData()[2]); CHECK_EQUAL((int)expected[3], (int)accumulator.GetData()[3]); CHECK_EQUAL((int)expected[4], (int)accumulator.GetData()[4]); CHECK_EQUAL((int)expected[5], (int)accumulator.GetData()[5]); CHECK_EQUAL((int)expected[6], (int)accumulator.GetData()[6]); CHECK_EQUAL((int)expected[7], (int)accumulator.GetData()[7]); CHECK_EQUAL((int)expected[8], (int)accumulator.GetData()[8]); CHECK_EQUAL((int)expected[9], (int)accumulator.GetData()[9]); CHECK_EQUAL((int)expected[10], (int)accumulator.GetData()[10]); } //************************************************************************* TEST(test_write_object) { std::array storage; storage.fill(0); std::array expected{char(0xEC), char(0xBA), char(0xDE), char(0x68), char(0xAF), char(0xD2), char(0xC5), char(0xC8), char(0x65), char(0xD3), char(0xDF), char(0x80)}; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); Object object1 = {-1234, 123456789, 250}; Object object2 = {5678, -987654321, 126}; CHECK(etl::write(bit_stream, object1)); CHECK(etl::write(bit_stream, object2)); CHECK_EQUAL((int)expected[0], (int)storage[0]); CHECK_EQUAL((int)expected[1], (int)storage[1]); CHECK_EQUAL((int)expected[2], (int)storage[2]); CHECK_EQUAL((int)expected[3], (int)storage[3]); CHECK_EQUAL((int)expected[4], (int)storage[4]); CHECK_EQUAL((int)expected[5], (int)storage[5]); CHECK_EQUAL((int)expected[6], (int)storage[6]); CHECK_EQUAL((int)expected[7], (int)storage[7]); CHECK_EQUAL((int)expected[8], (int)storage[8]); CHECK_EQUAL((int)expected[9], (int)storage[9]); CHECK_EQUAL((int)expected[10], (int)storage[10]); CHECK_EQUAL((int)expected[11], (int)storage[11]); } //************************************************************************* TEST(test_full_empty_issue_1095_bit_stream_writer_empty_compares_the_wrong_values_to_determine_empty) { std::array storage; etl::bit_stream_writer bit_stream(storage.data(), storage.size(), etl::endian::big); CHECK_EQUAL(bit_stream.empty(), true); CHECK_EQUAL(bit_stream.full(), false); bit_stream.write(int8_t(1)); CHECK_EQUAL(bit_stream.empty(), false); CHECK_EQUAL(bit_stream.full(), false); bit_stream.write(int8_t(2)); CHECK_EQUAL(bit_stream.empty(), false); CHECK_EQUAL(bit_stream.full(), true); } } } // namespace #include "etl/private/diagnostic_pop.h"