// __ _____ _____ _____ // __| | __| | | | JSON for Modern C++ (supporting code) // | | |__ | | | | | | version 3.11.2 // |_____|_____|_____|_|___| https://github.com/nlohmann/json // // SPDX-FileCopyrightText: 2013-2022 Niels Lohmann // SPDX-License-Identifier: MIT #include "doctest_compatibility.h" #include using nlohmann::json; #include #include #include #include "make_test_data_available.hpp" #include "test_utils.hpp" namespace { class SaxCountdown { public: explicit SaxCountdown(const int count) : events_left(count) {} bool null() { return events_left-- > 0; } bool boolean(bool /*unused*/) { return events_left-- > 0; } bool number_integer(json::number_integer_t /*unused*/) { return events_left-- > 0; } bool number_unsigned(json::number_unsigned_t /*unused*/) { return events_left-- > 0; } bool number_float(json::number_float_t /*unused*/, const std::string& /*unused*/) { return events_left-- > 0; } bool string(std::string& /*unused*/) { return events_left-- > 0; } bool binary(std::vector& /*unused*/) { return events_left-- > 0; } bool start_object(std::size_t /*unused*/) { return events_left-- > 0; } bool key(std::string& /*unused*/) { return events_left-- > 0; } bool end_object() { return events_left-- > 0; } bool start_array(std::size_t /*unused*/) { return events_left-- > 0; } bool end_array() { return events_left-- > 0; } bool parse_error(std::size_t /*unused*/, const std::string& /*unused*/, const json::exception& /*unused*/) // NOLINT(readability-convert-member-functions-to-static) { return false; } private: int events_left = 0; }; } // namespace TEST_CASE("UBJSON") { SECTION("individual values") { SECTION("discarded") { // discarded values are not serialized json j = json::value_t::discarded; const auto result = json::to_ubjson(j); CHECK(result.empty()); } SECTION("null") { json j = nullptr; std::vector expected = {'Z'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("boolean") { SECTION("true") { json j = true; std::vector expected = {'T'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("false") { json j = false; std::vector expected = {'F'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("number") { SECTION("signed") { SECTION("-9223372036854775808..-2147483649 (int64)") { std::vector numbers; numbers.push_back((std::numeric_limits::min)()); numbers.push_back(-1000000000000000000LL); numbers.push_back(-100000000000000000LL); numbers.push_back(-10000000000000000LL); numbers.push_back(-1000000000000000LL); numbers.push_back(-100000000000000LL); numbers.push_back(-10000000000000LL); numbers.push_back(-1000000000000LL); numbers.push_back(-100000000000LL); numbers.push_back(-10000000000LL); numbers.push_back(-2147483649LL); for (auto i : numbers) { CAPTURE(i) // create JSON value with integer number json j = i; // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back(static_cast('L')); expected.push_back(static_cast((i >> 56) & 0xff)); expected.push_back(static_cast((i >> 48) & 0xff)); expected.push_back(static_cast((i >> 40) & 0xff)); expected.push_back(static_cast((i >> 32) & 0xff)); expected.push_back(static_cast((i >> 24) & 0xff)); expected.push_back(static_cast((i >> 16) & 0xff)); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 9); // check individual bytes CHECK(result[0] == 'L'); int64_t restored = (static_cast(result[1]) << 070) + (static_cast(result[2]) << 060) + (static_cast(result[3]) << 050) + (static_cast(result[4]) << 040) + (static_cast(result[5]) << 030) + (static_cast(result[6]) << 020) + (static_cast(result[7]) << 010) + static_cast(result[8]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("-2147483648..-32769 (int32)") { std::vector numbers; numbers.push_back(-32769); numbers.push_back(-100000); numbers.push_back(-1000000); numbers.push_back(-10000000); numbers.push_back(-100000000); numbers.push_back(-1000000000); numbers.push_back(-2147483647 - 1); // https://stackoverflow.com/a/29356002/266378 for (auto i : numbers) { CAPTURE(i) // create JSON value with integer number json j = i; // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back(static_cast('l')); expected.push_back(static_cast((i >> 24) & 0xff)); expected.push_back(static_cast((i >> 16) & 0xff)); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 5); // check individual bytes CHECK(result[0] == 'l'); int32_t restored = (static_cast(result[1]) << 030) + (static_cast(result[2]) << 020) + (static_cast(result[3]) << 010) + static_cast(result[4]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("-32768..-129 (int16)") { for (int32_t i = -32768; i <= -129; ++i) { CAPTURE(i) // create JSON value with integer number json j = i; // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back(static_cast('I')); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 3); // check individual bytes CHECK(result[0] == 'I'); auto restored = static_cast(((result[1] << 8) + result[2])); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("-9263 (int16)") { json j = -9263; std::vector expected = {'I', 0xdb, 0xd1}; // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 3); // check individual bytes CHECK(result[0] == 'I'); auto restored = static_cast(((result[1] << 8) + result[2])); CHECK(restored == -9263); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("-128..-1 (int8)") { for (auto i = -128; i <= -1; ++i) { CAPTURE(i) // create JSON value with integer number json j = i; // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back('i'); expected.push_back(static_cast(i)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 2); // check individual bytes CHECK(result[0] == 'i'); CHECK(static_cast(result[1]) == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("0..127 (int8)") { for (size_t i = 0; i <= 127; ++i) { CAPTURE(i) // create JSON value with integer number json j = -1; j.get_ref() = static_cast(i); // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back(static_cast('i')); expected.push_back(static_cast(i)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 2); // check individual bytes CHECK(result[0] == 'i'); CHECK(result[1] == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("128..255 (uint8)") { for (size_t i = 128; i <= 255; ++i) { CAPTURE(i) // create JSON value with integer number json j = -1; j.get_ref() = static_cast(i); // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back(static_cast('U')); expected.push_back(static_cast(i)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 2); // check individual bytes CHECK(result[0] == 'U'); CHECK(result[1] == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("256..32767 (int16)") { for (size_t i = 256; i <= 32767; ++i) { CAPTURE(i) // create JSON value with integer number json j = -1; j.get_ref() = static_cast(i); // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back(static_cast('I')); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 3); // check individual bytes CHECK(result[0] == 'I'); auto restored = static_cast(static_cast(result[1]) * 256 + static_cast(result[2])); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("65536..2147483647 (int32)") { for (uint32_t i : { 65536u, 77777u, 1048576u }) { CAPTURE(i) // create JSON value with integer number json j = -1; j.get_ref() = static_cast(i); // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back('l'); expected.push_back(static_cast((i >> 24) & 0xff)); expected.push_back(static_cast((i >> 16) & 0xff)); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 5); // check individual bytes CHECK(result[0] == 'l'); uint32_t restored = (static_cast(result[1]) << 030) + (static_cast(result[2]) << 020) + (static_cast(result[3]) << 010) + static_cast(result[4]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("2147483648..9223372036854775807 (int64)") { std::vector v = {2147483648ul, 9223372036854775807ul}; for (uint64_t i : v) { CAPTURE(i) // create JSON value with integer number json j = -1; j.get_ref() = static_cast(i); // check type CHECK(j.is_number_integer()); // create expected byte vector std::vector expected; expected.push_back('L'); expected.push_back(static_cast((i >> 070) & 0xff)); expected.push_back(static_cast((i >> 060) & 0xff)); expected.push_back(static_cast((i >> 050) & 0xff)); expected.push_back(static_cast((i >> 040) & 0xff)); expected.push_back(static_cast((i >> 030) & 0xff)); expected.push_back(static_cast((i >> 020) & 0xff)); expected.push_back(static_cast((i >> 010) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 9); // check individual bytes CHECK(result[0] == 'L'); uint64_t restored = (static_cast(result[1]) << 070) + (static_cast(result[2]) << 060) + (static_cast(result[3]) << 050) + (static_cast(result[4]) << 040) + (static_cast(result[5]) << 030) + (static_cast(result[6]) << 020) + (static_cast(result[7]) << 010) + static_cast(result[8]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } } SECTION("unsigned") { SECTION("0..127 (int8)") { for (size_t i = 0; i <= 127; ++i) { CAPTURE(i) // create JSON value with unsigned integer number json j = i; // check type CHECK(j.is_number_unsigned()); // create expected byte vector std::vector expected; expected.push_back('i'); expected.push_back(static_cast(i)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 2); // check individual bytes CHECK(result[0] == 'i'); auto restored = static_cast(result[1]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("128..255 (uint8)") { for (size_t i = 128; i <= 255; ++i) { CAPTURE(i) // create JSON value with unsigned integer number json j = i; // check type CHECK(j.is_number_unsigned()); // create expected byte vector std::vector expected; expected.push_back('U'); expected.push_back(static_cast(i)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 2); // check individual bytes CHECK(result[0] == 'U'); auto restored = static_cast(result[1]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("256..32767 (int16)") { for (size_t i = 256; i <= 32767; ++i) { CAPTURE(i) // create JSON value with unsigned integer number json j = i; // check type CHECK(j.is_number_unsigned()); // create expected byte vector std::vector expected; expected.push_back('I'); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 3); // check individual bytes CHECK(result[0] == 'I'); auto restored = static_cast(static_cast(result[1]) * 256 + static_cast(result[2])); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("65536..2147483647 (int32)") { for (uint32_t i : { 65536u, 77777u, 1048576u }) { CAPTURE(i) // create JSON value with unsigned integer number json j = i; // check type CHECK(j.is_number_unsigned()); // create expected byte vector std::vector expected; expected.push_back('l'); expected.push_back(static_cast((i >> 24) & 0xff)); expected.push_back(static_cast((i >> 16) & 0xff)); expected.push_back(static_cast((i >> 8) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 5); // check individual bytes CHECK(result[0] == 'l'); uint32_t restored = (static_cast(result[1]) << 030) + (static_cast(result[2]) << 020) + (static_cast(result[3]) << 010) + static_cast(result[4]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("2147483648..9223372036854775807 (int64)") { std::vector v = {2147483648ul, 9223372036854775807ul}; for (uint64_t i : v) { CAPTURE(i) // create JSON value with integer number json j = i; // check type CHECK(j.is_number_unsigned()); // create expected byte vector std::vector expected; expected.push_back('L'); expected.push_back(static_cast((i >> 070) & 0xff)); expected.push_back(static_cast((i >> 060) & 0xff)); expected.push_back(static_cast((i >> 050) & 0xff)); expected.push_back(static_cast((i >> 040) & 0xff)); expected.push_back(static_cast((i >> 030) & 0xff)); expected.push_back(static_cast((i >> 020) & 0xff)); expected.push_back(static_cast((i >> 010) & 0xff)); expected.push_back(static_cast(i & 0xff)); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == 9); // check individual bytes CHECK(result[0] == 'L'); uint64_t restored = (static_cast(result[1]) << 070) + (static_cast(result[2]) << 060) + (static_cast(result[3]) << 050) + (static_cast(result[4]) << 040) + (static_cast(result[5]) << 030) + (static_cast(result[6]) << 020) + (static_cast(result[7]) << 010) + static_cast(result[8]); CHECK(restored == i); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } } SECTION("float64") { SECTION("3.1415925") { double v = 3.1415925; json j = v; std::vector expected = { 'D', 0x40, 0x09, 0x21, 0xfb, 0x3f, 0xa6, 0xde, 0xfc }; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result) == v); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("high-precision number") { SECTION("unsigned integer number") { std::vector vec = {'H', 'i', 0x14, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '0'}; const auto j = json::from_ubjson(vec); CHECK(j.is_number_unsigned()); CHECK(j.dump() == "12345678901234567890"); } SECTION("signed integer number") { std::vector vec = {'H', 'i', 0x13, '-', '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '1', '2', '3', '4', '5', '6', '7', '8'}; const auto j = json::from_ubjson(vec); CHECK(j.is_number_integer()); CHECK(j.dump() == "-123456789012345678"); } SECTION("floating-point number") { std::vector vec = {'H', 'i', 0x16, '3', '.', '1', '4', '1', '5', '9', '2', '6', '5', '3', '5', '8', '9', '7', '9', '3', '2', '3', '8', '4', '6'}; const auto j = json::from_ubjson(vec); CHECK(j.is_number_float()); CHECK(j.dump() == "3.141592653589793"); } SECTION("errors") { // error while parsing length std::vector vec0 = {'H', 'i'}; CHECK(json::from_ubjson(vec0, true, false).is_discarded()); // error while parsing string std::vector vec1 = {'H', 'i', '1'}; CHECK(json::from_ubjson(vec1, true, false).is_discarded()); json _; std::vector vec2 = {'H', 'i', 2, '1', 'A', '3'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vec2), "[json.exception.parse_error.115] parse error at byte 5: syntax error while parsing UBJSON high-precision number: invalid number text: 1A", json::parse_error); std::vector vec3 = {'H', 'i', 2, '1', '.'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vec3), "[json.exception.parse_error.115] parse error at byte 5: syntax error while parsing UBJSON high-precision number: invalid number text: 1.", json::parse_error); std::vector vec4 = {'H', 2, '1', '0'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vec4), "[json.exception.parse_error.113] parse error at byte 2: syntax error while parsing UBJSON size: expected length type specification (U, i, I, l, L) after '#'; last byte: 0x02", json::parse_error); } SECTION("serialization") { // number that does not fit int64 json j = 11111111111111111111ULL; CHECK(j.is_number_unsigned()); // number will be serialized to high-precision number const auto vec = json::to_ubjson(j); std::vector expected = {'H', 'i', 0x14, '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1', '1'}; CHECK(vec == expected); // roundtrip CHECK(json::from_ubjson(vec) == j); } } } SECTION("string") { SECTION("N = 0..127") { for (size_t N = 0; N <= 127; ++N) { CAPTURE(N) // create JSON value with string containing of N * 'x' const auto s = std::string(N, 'x'); json j = s; // create expected byte vector std::vector expected; expected.push_back('S'); expected.push_back('i'); expected.push_back(static_cast(N)); for (size_t i = 0; i < N; ++i) { expected.push_back('x'); } // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == N + 3); // check that no null byte is appended if (N > 0) { CHECK(result.back() != '\x00'); } // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("N = 128..255") { for (size_t N = 128; N <= 255; ++N) { CAPTURE(N) // create JSON value with string containing of N * 'x' const auto s = std::string(N, 'x'); json j = s; // create expected byte vector std::vector expected; expected.push_back('S'); expected.push_back('U'); expected.push_back(static_cast(N)); for (size_t i = 0; i < N; ++i) { expected.push_back('x'); } // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == N + 3); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("N = 256..32767") { for (size_t N : { 256u, 999u, 1025u, 3333u, 2048u, 32767u }) { CAPTURE(N) // create JSON value with string containing of N * 'x' const auto s = std::string(N, 'x'); json j = s; // create expected byte vector (hack: create string first) std::vector expected(N, 'x'); // reverse order of commands, because we insert at begin() expected.insert(expected.begin(), static_cast(N & 0xff)); expected.insert(expected.begin(), static_cast((N >> 8) & 0xff)); expected.insert(expected.begin(), 'I'); expected.insert(expected.begin(), 'S'); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == N + 4); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("N = 65536..2147483647") { for (size_t N : { 65536u, 77777u, 1048576u }) { CAPTURE(N) // create JSON value with string containing of N * 'x' const auto s = std::string(N, 'x'); json j = s; // create expected byte vector (hack: create string first) std::vector expected(N, 'x'); // reverse order of commands, because we insert at begin() expected.insert(expected.begin(), static_cast(N & 0xff)); expected.insert(expected.begin(), static_cast((N >> 8) & 0xff)); expected.insert(expected.begin(), static_cast((N >> 16) & 0xff)); expected.insert(expected.begin(), static_cast((N >> 24) & 0xff)); expected.insert(expected.begin(), 'l'); expected.insert(expected.begin(), 'S'); // compare result + size const auto result = json::to_ubjson(j); CHECK(result == expected); CHECK(result.size() == N + 6); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } } SECTION("binary") { SECTION("N = 0..127") { for (std::size_t N = 0; N <= 127; ++N) { CAPTURE(N) // create JSON value with byte array containing of N * 'x' const auto s = std::vector(N, 'x'); json j = json::binary(s); // create expected byte vector std::vector expected; expected.push_back(static_cast('[')); if (N != 0) { expected.push_back(static_cast('$')); expected.push_back(static_cast('U')); } expected.push_back(static_cast('#')); expected.push_back(static_cast('i')); expected.push_back(static_cast(N)); for (size_t i = 0; i < N; ++i) { expected.push_back(0x78); } // compare result + size const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); if (N == 0) { CHECK(result.size() == N + 4); } else { CHECK(result.size() == N + 6); } // check that no null byte is appended if (N > 0) { CHECK(result.back() != '\x00'); } // roundtrip only works to an array of numbers json j_out = s; CHECK(json::from_ubjson(result) == j_out); CHECK(json::from_ubjson(result, true, false) == j_out); } } SECTION("N = 128..255") { for (std::size_t N = 128; N <= 255; ++N) { CAPTURE(N) // create JSON value with byte array containing of N * 'x' const auto s = std::vector(N, 'x'); json j = json::binary(s); // create expected byte vector std::vector expected; expected.push_back(static_cast('[')); expected.push_back(static_cast('$')); expected.push_back(static_cast('U')); expected.push_back(static_cast('#')); expected.push_back(static_cast('U')); expected.push_back(static_cast(N)); for (size_t i = 0; i < N; ++i) { expected.push_back(0x78); } // compare result + size const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); CHECK(result.size() == N + 6); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip only works to an array of numbers json j_out = s; CHECK(json::from_ubjson(result) == j_out); CHECK(json::from_ubjson(result, true, false) == j_out); } } SECTION("N = 256..32767") { for (std::size_t N : { 256u, 999u, 1025u, 3333u, 2048u, 32767u }) { CAPTURE(N) // create JSON value with byte array containing of N * 'x' const auto s = std::vector(N, 'x'); json j = json::binary(s); // create expected byte vector std::vector expected(N + 7, 'x'); expected[0] = '['; expected[1] = '$'; expected[2] = 'U'; expected[3] = '#'; expected[4] = 'I'; expected[5] = static_cast((N >> 8) & 0xFF); expected[6] = static_cast(N & 0xFF); // compare result + size const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); CHECK(result.size() == N + 7); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip only works to an array of numbers json j_out = s; CHECK(json::from_ubjson(result) == j_out); CHECK(json::from_ubjson(result, true, false) == j_out); } } SECTION("N = 32768..2147483647") { for (std::size_t N : { 32768u, 77777u, 1048576u }) { CAPTURE(N) // create JSON value with byte array containing of N * 'x' const auto s = std::vector(N, 'x'); json j = json::binary(s); // create expected byte vector std::vector expected(N + 9, 'x'); expected[0] = '['; expected[1] = '$'; expected[2] = 'U'; expected[3] = '#'; expected[4] = 'l'; expected[5] = static_cast((N >> 24) & 0xFF); expected[6] = static_cast((N >> 16) & 0xFF); expected[7] = static_cast((N >> 8) & 0xFF); expected[8] = static_cast(N & 0xFF); // compare result + size const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); CHECK(result.size() == N + 9); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip only works to an array of numbers json j_out = s; CHECK(json::from_ubjson(result) == j_out); CHECK(json::from_ubjson(result, true, false) == j_out); } } SECTION("Other Serializations") { const std::size_t N = 10; const auto s = std::vector(N, 'x'); json j = json::binary(s); SECTION("No Count No Type") { std::vector expected; expected.push_back(static_cast('[')); for (std::size_t i = 0; i < N; ++i) { expected.push_back(static_cast('U')); expected.push_back(static_cast(0x78)); } expected.push_back(static_cast(']')); // compare result + size const auto result = json::to_ubjson(j, false, false); CHECK(result == expected); CHECK(result.size() == N + 12); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip only works to an array of numbers json j_out = s; CHECK(json::from_ubjson(result) == j_out); CHECK(json::from_ubjson(result, true, false) == j_out); } SECTION("Yes Count No Type") { std::vector expected; expected.push_back(static_cast('[')); expected.push_back(static_cast('#')); expected.push_back(static_cast('i')); expected.push_back(static_cast(N)); for (size_t i = 0; i < N; ++i) { expected.push_back(static_cast('U')); expected.push_back(static_cast(0x78)); } // compare result + size const auto result = json::to_ubjson(j, true, false); CHECK(result == expected); CHECK(result.size() == N + 14); // check that no null byte is appended CHECK(result.back() != '\x00'); // roundtrip only works to an array of numbers json j_out = s; CHECK(json::from_ubjson(result) == j_out); CHECK(json::from_ubjson(result, true, false) == j_out); } } } SECTION("array") { SECTION("empty") { SECTION("size=false type=false") { json j = json::array(); std::vector expected = {'[', ']'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = json::array(); std::vector expected = {'[', '#', 'i', 0}; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = json::array(); std::vector expected = {'[', '#', 'i', 0}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("[null]") { SECTION("size=false type=false") { json j = {nullptr}; std::vector expected = {'[', 'Z', ']'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = {nullptr}; std::vector expected = {'[', '#', 'i', 1, 'Z'}; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = {nullptr}; std::vector expected = {'[', '$', 'Z', '#', 'i', 1}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("[1,2,3,4,5]") { SECTION("size=false type=false") { json j = json::parse("[1,2,3,4,5]"); std::vector expected = {'[', 'i', 1, 'i', 2, 'i', 3, 'i', 4, 'i', 5, ']'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = json::parse("[1,2,3,4,5]"); std::vector expected = {'[', '#', 'i', 5, 'i', 1, 'i', 2, 'i', 3, 'i', 4, 'i', 5}; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = json::parse("[1,2,3,4,5]"); std::vector expected = {'[', '$', 'i', '#', 'i', 5, 1, 2, 3, 4, 5}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("[[[[]]]]") { SECTION("size=false type=false") { json j = json::parse("[[[[]]]]"); std::vector expected = {'[', '[', '[', '[', ']', ']', ']', ']'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = json::parse("[[[[]]]]"); std::vector expected = {'[', '#', 'i', 1, '[', '#', 'i', 1, '[', '#', 'i', 1, '[', '#', 'i', 0}; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = json::parse("[[[[]]]]"); std::vector expected = {'[', '$', '[', '#', 'i', 1, '$', '[', '#', 'i', 1, '$', '[', '#', 'i', 1, '#', 'i', 0}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("array with uint16_t elements") { SECTION("size=false type=false") { json j(257, nullptr); std::vector expected(j.size() + 2, 'Z'); // all null expected[0] = '['; // opening array expected[258] = ']'; // closing array const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j(257, nullptr); std::vector expected(j.size() + 5, 'Z'); // all null expected[0] = '['; // opening array expected[1] = '#'; // array size expected[2] = 'I'; // int16 expected[3] = 0x01; // 0x0101, first byte expected[4] = 0x01; // 0x0101, second byte const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j(257, nullptr); std::vector expected = {'[', '$', 'Z', '#', 'I', 0x01, 0x01}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("array with uint32_t elements") { SECTION("size=false type=false") { json j(65793, nullptr); std::vector expected(j.size() + 2, 'Z'); // all null expected[0] = '['; // opening array expected[65794] = ']'; // closing array const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j(65793, nullptr); std::vector expected(j.size() + 7, 'Z'); // all null expected[0] = '['; // opening array expected[1] = '#'; // array size expected[2] = 'l'; // int32 expected[3] = 0x00; // 0x00010101, first byte expected[4] = 0x01; // 0x00010101, second byte expected[5] = 0x01; // 0x00010101, third byte expected[6] = 0x01; // 0x00010101, fourth byte const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j(65793, nullptr); std::vector expected = {'[', '$', 'Z', '#', 'l', 0x00, 0x01, 0x01, 0x01}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } } SECTION("object") { SECTION("empty") { SECTION("size=false type=false") { json j = json::object(); std::vector expected = {'{', '}'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = json::object(); std::vector expected = {'{', '#', 'i', 0}; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = json::object(); std::vector expected = {'{', '#', 'i', 0}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("{\"\":null}") { SECTION("size=false type=false") { json j = {{"", nullptr}}; std::vector expected = {'{', 'i', 0, 'Z', '}'}; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = {{"", nullptr}}; std::vector expected = {'{', '#', 'i', 1, 'i', 0, 'Z'}; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = {{"", nullptr}}; std::vector expected = {'{', '$', 'Z', '#', 'i', 1, 'i', 0}; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } SECTION("{\"a\": {\"b\": {\"c\": {}}}}") { SECTION("size=false type=false") { json j = json::parse(R"({"a": {"b": {"c": {}}}})"); std::vector expected = { '{', 'i', 1, 'a', '{', 'i', 1, 'b', '{', 'i', 1, 'c', '{', '}', '}', '}', '}' }; const auto result = json::to_ubjson(j); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=false") { json j = json::parse(R"({"a": {"b": {"c": {}}}})"); std::vector expected = { '{', '#', 'i', 1, 'i', 1, 'a', '{', '#', 'i', 1, 'i', 1, 'b', '{', '#', 'i', 1, 'i', 1, 'c', '{', '#', 'i', 0 }; const auto result = json::to_ubjson(j, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } SECTION("size=true type=true") { json j = json::parse(R"({"a": {"b": {"c": {}}}})"); std::vector expected = { '{', '$', '{', '#', 'i', 1, 'i', 1, 'a', '$', '{', '#', 'i', 1, 'i', 1, 'b', '$', '{', '#', 'i', 1, 'i', 1, 'c', '#', 'i', 0 }; const auto result = json::to_ubjson(j, true, true); CHECK(result == expected); // roundtrip CHECK(json::from_ubjson(result) == j); CHECK(json::from_ubjson(result, true, false) == j); } } } } SECTION("errors") { SECTION("strict mode") { std::vector vec = {'Z', 'Z'}; SECTION("non-strict mode") { const auto result = json::from_ubjson(vec, false); CHECK(result == json()); } SECTION("strict mode") { json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vec), "[json.exception.parse_error.110] parse error at byte 2: syntax error while parsing UBJSON value: expected end of input; last byte: 0x5A", json::parse_error&); } } SECTION("excessive size") { SECTION("array") { std::vector v_ubjson = {'[', '$', 'Z', '#', 'L', 0x78, 0x28, 0x00, 0x68, 0x28, 0x69, 0x69, 0x17}; json _; CHECK_THROWS_AS(_ = json::from_ubjson(v_ubjson), json::out_of_range&); json j; nlohmann::detail::json_sax_dom_callback_parser scp(j, [](int /*unused*/, json::parse_event_t /*unused*/, const json& /*unused*/) noexcept { return true; }); CHECK_THROWS_AS(_ = json::sax_parse(v_ubjson, &scp, json::input_format_t::ubjson), json::out_of_range&); } SECTION("object") { std::vector v_ubjson = {'{', '$', 'Z', '#', 'L', 0x78, 0x28, 0x00, 0x68, 0x28, 0x69, 0x69, 0x17}; json _; CHECK_THROWS_AS(_ = json::from_ubjson(v_ubjson), json::out_of_range&); json j; nlohmann::detail::json_sax_dom_callback_parser scp(j, [](int /*unused*/, json::parse_event_t /*unused*/, const json& /*unused*/) noexcept { return true; }); CHECK_THROWS_AS(_ = json::sax_parse(v_ubjson, &scp, json::input_format_t::ubjson), json::out_of_range&); } } } SECTION("SAX aborts") { SECTION("start_array()") { std::vector v = {'[', 'T', 'F', ']'}; SaxCountdown scp(0); CHECK(!json::sax_parse(v, &scp, json::input_format_t::ubjson)); } SECTION("start_object()") { std::vector v = {'{', 'i', 3, 'f', 'o', 'o', 'F', '}'}; SaxCountdown scp(0); CHECK(!json::sax_parse(v, &scp, json::input_format_t::ubjson)); } SECTION("key() in object") { std::vector v = {'{', 'i', 3, 'f', 'o', 'o', 'F', '}'}; SaxCountdown scp(1); CHECK(!json::sax_parse(v, &scp, json::input_format_t::ubjson)); } SECTION("start_array(len)") { std::vector v = {'[', '#', 'i', '2', 'T', 'F'}; SaxCountdown scp(0); CHECK(!json::sax_parse(v, &scp, json::input_format_t::ubjson)); } SECTION("start_object(len)") { std::vector v = {'{', '#', 'i', '1', 3, 'f', 'o', 'o', 'F'}; SaxCountdown scp(0); CHECK(!json::sax_parse(v, &scp, json::input_format_t::ubjson)); } SECTION("key() in object with length") { std::vector v = {'{', 'i', 3, 'f', 'o', 'o', 'F', '}'}; SaxCountdown scp(1); CHECK(!json::sax_parse(v, &scp, json::input_format_t::ubjson)); } } SECTION("parsing values") { SECTION("strings") { // create a single-character string for all number types std::vector s_i = {'S', 'i', 1, 'a'}; std::vector s_U = {'S', 'U', 1, 'a'}; std::vector s_I = {'S', 'I', 0, 1, 'a'}; std::vector s_l = {'S', 'l', 0, 0, 0, 1, 'a'}; std::vector s_L = {'S', 'L', 0, 0, 0, 0, 0, 0, 0, 1, 'a'}; // check if string is parsed correctly to "a" CHECK(json::from_ubjson(s_i) == "a"); CHECK(json::from_ubjson(s_U) == "a"); CHECK(json::from_ubjson(s_I) == "a"); CHECK(json::from_ubjson(s_l) == "a"); CHECK(json::from_ubjson(s_L) == "a"); // roundtrip: output should be optimized CHECK(json::to_ubjson(json::from_ubjson(s_i)) == s_i); CHECK(json::to_ubjson(json::from_ubjson(s_U)) == s_i); CHECK(json::to_ubjson(json::from_ubjson(s_I)) == s_i); CHECK(json::to_ubjson(json::from_ubjson(s_l)) == s_i); CHECK(json::to_ubjson(json::from_ubjson(s_L)) == s_i); } SECTION("number") { SECTION("float") { // float32 std::vector v_d = {'d', 0x40, 0x49, 0x0f, 0xd0}; CHECK(json::from_ubjson(v_d) == 3.14159f); // float64 std::vector v_D = {'D', 0x40, 0x09, 0x21, 0xf9, 0xf0, 0x1b, 0x86, 0x6e}; CHECK(json::from_ubjson(v_D) == 3.14159); // float32 is serialized as float64 as the library does not support float32 CHECK(json::to_ubjson(json::from_ubjson(v_d)) == json::to_ubjson(3.14159f)); } } SECTION("array") { SECTION("optimized version (length only)") { // create vector with two elements of the same type std::vector v_TU = {'[', '#', 'U', 2, 'T', 'T'}; std::vector v_T = {'[', '#', 'i', 2, 'T', 'T'}; std::vector v_F = {'[', '#', 'i', 2, 'F', 'F'}; std::vector v_Z = {'[', '#', 'i', 2, 'Z', 'Z'}; std::vector v_i = {'[', '#', 'i', 2, 'i', 0x7F, 'i', 0x7F}; std::vector v_U = {'[', '#', 'i', 2, 'U', 0xFF, 'U', 0xFF}; std::vector v_I = {'[', '#', 'i', 2, 'I', 0x7F, 0xFF, 'I', 0x7F, 0xFF}; std::vector v_l = {'[', '#', 'i', 2, 'l', 0x7F, 0xFF, 0xFF, 0xFF, 'l', 0x7F, 0xFF, 0xFF, 0xFF}; std::vector v_L = {'[', '#', 'i', 2, 'L', 0x7F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 'L', 0x7F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; std::vector v_D = {'[', '#', 'i', 2, 'D', 0x40, 0x09, 0x21, 0xfb, 0x4d, 0x12, 0xd8, 0x4a, 'D', 0x40, 0x09, 0x21, 0xfb, 0x4d, 0x12, 0xd8, 0x4a}; std::vector v_S = {'[', '#', 'i', 2, 'S', 'i', 1, 'a', 'S', 'i', 1, 'a'}; std::vector v_C = {'[', '#', 'i', 2, 'C', 'a', 'C', 'a'}; // check if vector is parsed correctly CHECK(json::from_ubjson(v_TU) == json({true, true})); CHECK(json::from_ubjson(v_T) == json({true, true})); CHECK(json::from_ubjson(v_F) == json({false, false})); CHECK(json::from_ubjson(v_Z) == json({nullptr, nullptr})); CHECK(json::from_ubjson(v_i) == json({127, 127})); CHECK(json::from_ubjson(v_U) == json({255, 255})); CHECK(json::from_ubjson(v_I) == json({32767, 32767})); CHECK(json::from_ubjson(v_l) == json({2147483647, 2147483647})); CHECK(json::from_ubjson(v_L) == json({9223372036854775807, 9223372036854775807})); CHECK(json::from_ubjson(v_D) == json({3.1415926, 3.1415926})); CHECK(json::from_ubjson(v_S) == json({"a", "a"})); CHECK(json::from_ubjson(v_C) == json({"a", "a"})); // roundtrip: output should be optimized CHECK(json::to_ubjson(json::from_ubjson(v_T), true) == v_T); CHECK(json::to_ubjson(json::from_ubjson(v_F), true) == v_F); CHECK(json::to_ubjson(json::from_ubjson(v_Z), true) == v_Z); CHECK(json::to_ubjson(json::from_ubjson(v_i), true) == v_i); CHECK(json::to_ubjson(json::from_ubjson(v_U), true) == v_U); CHECK(json::to_ubjson(json::from_ubjson(v_I), true) == v_I); CHECK(json::to_ubjson(json::from_ubjson(v_l), true) == v_l); CHECK(json::to_ubjson(json::from_ubjson(v_L), true) == v_L); CHECK(json::to_ubjson(json::from_ubjson(v_D), true) == v_D); CHECK(json::to_ubjson(json::from_ubjson(v_S), true) == v_S); CHECK(json::to_ubjson(json::from_ubjson(v_C), true) == v_S); // char is serialized to string } SECTION("optimized version (type and length)") { // create vector with two elements of the same type std::vector v_N = {'[', '$', 'N', '#', 'i', 2}; std::vector v_T = {'[', '$', 'T', '#', 'i', 2}; std::vector v_F = {'[', '$', 'F', '#', 'i', 2}; std::vector v_Z = {'[', '$', 'Z', '#', 'i', 2}; std::vector v_i = {'[', '$', 'i', '#', 'i', 2, 0x7F, 0x7F}; std::vector v_U = {'[', '$', 'U', '#', 'i', 2, 0xFF, 0xFF}; std::vector v_I = {'[', '$', 'I', '#', 'i', 2, 0x7F, 0xFF, 0x7F, 0xFF}; std::vector v_l = {'[', '$', 'l', '#', 'i', 2, 0x7F, 0xFF, 0xFF, 0xFF, 0x7F, 0xFF, 0xFF, 0xFF}; std::vector v_L = {'[', '$', 'L', '#', 'i', 2, 0x7F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x7F, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; std::vector v_D = {'[', '$', 'D', '#', 'i', 2, 0x40, 0x09, 0x21, 0xfb, 0x4d, 0x12, 0xd8, 0x4a, 0x40, 0x09, 0x21, 0xfb, 0x4d, 0x12, 0xd8, 0x4a}; std::vector v_S = {'[', '$', 'S', '#', 'i', 2, 'i', 1, 'a', 'i', 1, 'a'}; std::vector v_C = {'[', '$', 'C', '#', 'i', 2, 'a', 'a'}; // check if vector is parsed correctly CHECK(json::from_ubjson(v_N) == json::array()); CHECK(json::from_ubjson(v_T) == json({true, true})); CHECK(json::from_ubjson(v_F) == json({false, false})); CHECK(json::from_ubjson(v_Z) == json({nullptr, nullptr})); CHECK(json::from_ubjson(v_i) == json({127, 127})); CHECK(json::from_ubjson(v_U) == json({255, 255})); CHECK(json::from_ubjson(v_I) == json({32767, 32767})); CHECK(json::from_ubjson(v_l) == json({2147483647, 2147483647})); CHECK(json::from_ubjson(v_L) == json({9223372036854775807, 9223372036854775807})); CHECK(json::from_ubjson(v_D) == json({3.1415926, 3.1415926})); CHECK(json::from_ubjson(v_S) == json({"a", "a"})); CHECK(json::from_ubjson(v_C) == json({"a", "a"})); // roundtrip: output should be optimized std::vector v_empty = {'[', '#', 'i', 0}; CHECK(json::to_ubjson(json::from_ubjson(v_N), true, true) == v_empty); CHECK(json::to_ubjson(json::from_ubjson(v_T), true, true) == v_T); CHECK(json::to_ubjson(json::from_ubjson(v_F), true, true) == v_F); CHECK(json::to_ubjson(json::from_ubjson(v_Z), true, true) == v_Z); CHECK(json::to_ubjson(json::from_ubjson(v_i), true, true) == v_i); CHECK(json::to_ubjson(json::from_ubjson(v_U), true, true) == v_U); CHECK(json::to_ubjson(json::from_ubjson(v_I), true, true) == v_I); CHECK(json::to_ubjson(json::from_ubjson(v_l), true, true) == v_l); CHECK(json::to_ubjson(json::from_ubjson(v_L), true, true) == v_L); CHECK(json::to_ubjson(json::from_ubjson(v_D), true, true) == v_D); CHECK(json::to_ubjson(json::from_ubjson(v_S), true, true) == v_S); CHECK(json::to_ubjson(json::from_ubjson(v_C), true, true) == v_S); // char is serialized to string } } } SECTION("parse errors") { SECTION("empty byte vector") { json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(std::vector()), "[json.exception.parse_error.110] parse error at byte 1: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); } SECTION("char") { SECTION("eof after C byte") { std::vector v = {'C'}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.110] parse error at byte 2: syntax error while parsing UBJSON char: unexpected end of input", json::parse_error&); } SECTION("byte out of range") { std::vector v = {'C', 130}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.113] parse error at byte 2: syntax error while parsing UBJSON char: byte after 'C' must be in range 0x00..0x7F; last byte: 0x82", json::parse_error&); } } SECTION("strings") { SECTION("eof after S byte") { std::vector v = {'S'}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.110] parse error at byte 2: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); } SECTION("invalid byte") { std::vector v = {'S', '1', 'a'}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.113] parse error at byte 2: syntax error while parsing UBJSON string: expected length type specification (U, i, I, l, L); last byte: 0x31", json::parse_error&); } } SECTION("array") { SECTION("optimized array: no size following type") { std::vector v = {'[', '$', 'i', 2}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.112] parse error at byte 4: syntax error while parsing UBJSON size: expected '#' after type information; last byte: 0x02", json::parse_error&); } } SECTION("strings") { std::vector vS = {'S'}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vS), "[json.exception.parse_error.110] parse error at byte 2: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vS, true, false).is_discarded()); std::vector v = {'S', 'i', '2', 'a'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.110] parse error at byte 5: syntax error while parsing UBJSON string: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(v, true, false).is_discarded()); std::vector vC = {'C'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vC), "[json.exception.parse_error.110] parse error at byte 2: syntax error while parsing UBJSON char: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vC, true, false).is_discarded()); } SECTION("sizes") { std::vector vU = {'[', '#', 'U'}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vU), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vU, true, false).is_discarded()); std::vector vi = {'[', '#', 'i'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vi), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vi, true, false).is_discarded()); std::vector vI = {'[', '#', 'I'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vI), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vI, true, false).is_discarded()); std::vector vl = {'[', '#', 'l'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vl), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vl, true, false).is_discarded()); std::vector vL = {'[', '#', 'L'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vL), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vL, true, false).is_discarded()); std::vector v0 = {'[', '#', 'T', ']'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v0), "[json.exception.parse_error.113] parse error at byte 3: syntax error while parsing UBJSON size: expected length type specification (U, i, I, l, L) after '#'; last byte: 0x54", json::parse_error&); CHECK(json::from_ubjson(v0, true, false).is_discarded()); } SECTION("types") { std::vector v0 = {'[', '$'}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v0), "[json.exception.parse_error.110] parse error at byte 3: syntax error while parsing UBJSON type: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(v0, true, false).is_discarded()); std::vector vi = {'[', '$', '#'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vi), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vi, true, false).is_discarded()); std::vector vT = {'[', '$', 'T'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vT), "[json.exception.parse_error.110] parse error at byte 4: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vT, true, false).is_discarded()); } SECTION("arrays") { std::vector vST = {'[', '$', 'i', '#', 'i', 2, 1}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vST), "[json.exception.parse_error.110] parse error at byte 8: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vST, true, false).is_discarded()); std::vector vS = {'[', '#', 'i', 2, 'i', 1}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vS), "[json.exception.parse_error.110] parse error at byte 7: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vS, true, false).is_discarded()); std::vector v = {'[', 'i', 2, 'i', 1}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.110] parse error at byte 6: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(v, true, false).is_discarded()); } SECTION("objects") { std::vector vST = {'{', '$', 'i', '#', 'i', 2, 'i', 1, 'a', 1}; json _; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vST), "[json.exception.parse_error.110] parse error at byte 11: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vST, true, false).is_discarded()); std::vector vT = {'{', '$', 'i', 'i', 1, 'a', 1}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vT), "[json.exception.parse_error.112] parse error at byte 4: syntax error while parsing UBJSON size: expected '#' after type information; last byte: 0x69", json::parse_error&); CHECK(json::from_ubjson(vT, true, false).is_discarded()); std::vector vS = {'{', '#', 'i', 2, 'i', 1, 'a', 'i', 1}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vS), "[json.exception.parse_error.110] parse error at byte 10: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vS, true, false).is_discarded()); std::vector v = {'{', 'i', 1, 'a', 'i', 1}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v), "[json.exception.parse_error.110] parse error at byte 7: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(v, true, false).is_discarded()); std::vector v2 = {'{', 'i', 1, 'a', 'i', 1, 'i'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v2), "[json.exception.parse_error.110] parse error at byte 8: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(v2, true, false).is_discarded()); std::vector v3 = {'{', 'i', 1, 'a'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(v3), "[json.exception.parse_error.110] parse error at byte 5: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(v3, true, false).is_discarded()); std::vector vST1 = {'{', '$', 'd', '#', 'i', 2, 'i', 1, 'a'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vST1), "[json.exception.parse_error.110] parse error at byte 10: syntax error while parsing UBJSON number: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vST1, true, false).is_discarded()); std::vector vST2 = {'{', '#', 'i', 2, 'i', 1, 'a'}; CHECK_THROWS_WITH_AS(_ = json::from_ubjson(vST2), "[json.exception.parse_error.110] parse error at byte 8: syntax error while parsing UBJSON value: unexpected end of input", json::parse_error&); CHECK(json::from_ubjson(vST2, true, false).is_discarded()); } } SECTION("writing optimized values") { SECTION("integer") { SECTION("array of i") { json j = {1, -1}; std::vector expected = {'[', '$', 'i', '#', 'i', 2, 1, 0xff}; CHECK(json::to_ubjson(j, true, true) == expected); } SECTION("array of U") { json j = {200, 201}; std::vector expected = {'[', '$', 'U', '#', 'i', 2, 0xC8, 0xC9}; CHECK(json::to_ubjson(j, true, true) == expected); } SECTION("array of I") { json j = {30000, -30000}; std::vector expected = {'[', '$', 'I', '#', 'i', 2, 0x75, 0x30, 0x8a, 0xd0}; CHECK(json::to_ubjson(j, true, true) == expected); } SECTION("array of l") { json j = {70000, -70000}; std::vector expected = {'[', '$', 'l', '#', 'i', 2, 0x00, 0x01, 0x11, 0x70, 0xFF, 0xFE, 0xEE, 0x90}; CHECK(json::to_ubjson(j, true, true) == expected); } SECTION("array of L") { json j = {5000000000, -5000000000}; std::vector expected = {'[', '$', 'L', '#', 'i', 2, 0x00, 0x00, 0x00, 0x01, 0x2A, 0x05, 0xF2, 0x00, 0xFF, 0xFF, 0xFF, 0xFE, 0xD5, 0xFA, 0x0E, 0x00}; CHECK(json::to_ubjson(j, true, true) == expected); } } SECTION("unsigned integer") { SECTION("array of i") { json j = {1u, 2u}; std::vector expected = {'[', '$', 'i', '#', 'i', 2, 1, 2}; std::vector expected_size = {'[', '#', 'i', 2, 'i', 1, 'i', 2}; CHECK(json::to_ubjson(j, true, true) == expected); CHECK(json::to_ubjson(j, true) == expected_size); } SECTION("array of U") { json j = {200u, 201u}; std::vector expected = {'[', '$', 'U', '#', 'i', 2, 0xC8, 0xC9}; std::vector expected_size = {'[', '#', 'i', 2, 'U', 0xC8, 'U', 0xC9}; CHECK(json::to_ubjson(j, true, true) == expected); CHECK(json::to_ubjson(j, true) == expected_size); } SECTION("array of I") { json j = {30000u, 30001u}; std::vector expected = {'[', '$', 'I', '#', 'i', 2, 0x75, 0x30, 0x75, 0x31}; std::vector expected_size = {'[', '#', 'i', 2, 'I', 0x75, 0x30, 'I', 0x75, 0x31}; CHECK(json::to_ubjson(j, true, true) == expected); CHECK(json::to_ubjson(j, true) == expected_size); } SECTION("array of l") { json j = {70000u, 70001u}; std::vector expected = {'[', '$', 'l', '#', 'i', 2, 0x00, 0x01, 0x11, 0x70, 0x00, 0x01, 0x11, 0x71}; std::vector expected_size = {'[', '#', 'i', 2, 'l', 0x00, 0x01, 0x11, 0x70, 'l', 0x00, 0x01, 0x11, 0x71}; CHECK(json::to_ubjson(j, true, true) == expected); CHECK(json::to_ubjson(j, true) == expected_size); } SECTION("array of L") { json j = {5000000000u, 5000000001u}; std::vector expected = {'[', '$', 'L', '#', 'i', 2, 0x00, 0x00, 0x00, 0x01, 0x2A, 0x05, 0xF2, 0x00, 0x00, 0x00, 0x00, 0x01, 0x2A, 0x05, 0xF2, 0x01}; std::vector expected_size = {'[', '#', 'i', 2, 'L', 0x00, 0x00, 0x00, 0x01, 0x2A, 0x05, 0xF2, 0x00, 'L', 0x00, 0x00, 0x00, 0x01, 0x2A, 0x05, 0xF2, 0x01}; CHECK(json::to_ubjson(j, true, true) == expected); CHECK(json::to_ubjson(j, true) == expected_size); } } SECTION("discarded") { json j = {json::value_t::discarded, json::value_t::discarded}; std::vector expected = {'[', '$', 'N', '#', 'i', 2}; CHECK(json::to_ubjson(j, true, true) == expected); } } } TEST_CASE("Universal Binary JSON Specification Examples 1") { SECTION("Null Value") { json j = {{"passcode", nullptr}}; std::vector v = {'{', 'i', 8, 'p', 'a', 's', 's', 'c', 'o', 'd', 'e', 'Z', '}'}; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("No-Op Value") { json j = {"foo", "bar", "baz"}; std::vector v = {'[', 'S', 'i', 3, 'f', 'o', 'o', 'S', 'i', 3, 'b', 'a', 'r', 'S', 'i', 3, 'b', 'a', 'z', ']' }; std::vector v2 = {'[', 'S', 'i', 3, 'f', 'o', 'o', 'N', 'S', 'i', 3, 'b', 'a', 'r', 'N', 'N', 'N', 'S', 'i', 3, 'b', 'a', 'z', 'N', 'N', ']' }; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); CHECK(json::from_ubjson(v2) == j); } SECTION("Boolean Types") { json j = {{"authorized", true}, {"verified", false}}; std::vector v = {'{', 'i', 10, 'a', 'u', 't', 'h', 'o', 'r', 'i', 'z', 'e', 'd', 'T', 'i', 8, 'v', 'e', 'r', 'i', 'f', 'i', 'e', 'd', 'F', '}' }; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Numeric Types") { json j = { {"int8", 16}, {"uint8", 255}, {"int16", 32767}, {"int32", 2147483647}, {"int64", 9223372036854775807}, {"float64", 113243.7863123} }; std::vector v = {'{', 'i', 7, 'f', 'l', 'o', 'a', 't', '6', '4', 'D', 0x40, 0xfb, 0xa5, 0xbc, 0x94, 0xbc, 0x34, 0xcf, 'i', 5, 'i', 'n', 't', '1', '6', 'I', 0x7f, 0xff, 'i', 5, 'i', 'n', 't', '3', '2', 'l', 0x7f, 0xff, 0xff, 0xff, 'i', 5, 'i', 'n', 't', '6', '4', 'L', 0x7f, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 'i', 4, 'i', 'n', 't', '8', 'i', 16, 'i', 5, 'u', 'i', 'n', 't', '8', 'U', 0xff, '}' }; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Char Type") { json j = {{"rolecode", "a"}, {"delim", ";"}}; std::vector v = {'{', 'i', 5, 'd', 'e', 'l', 'i', 'm', 'C', ';', 'i', 8, 'r', 'o', 'l', 'e', 'c', 'o', 'd', 'e', 'C', 'a', '}'}; //CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("String Type") { SECTION("English") { json j = "hello"; std::vector v = {'S', 'i', 5, 'h', 'e', 'l', 'l', 'o'}; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Russian") { json j = "привет"; std::vector v = {'S', 'i', 12, 0xD0, 0xBF, 0xD1, 0x80, 0xD0, 0xB8, 0xD0, 0xB2, 0xD0, 0xB5, 0xD1, 0x82}; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Russian") { json j = "مرحبا"; std::vector v = {'S', 'i', 10, 0xD9, 0x85, 0xD8, 0xB1, 0xD8, 0xAD, 0xD8, 0xA8, 0xD8, 0xA7}; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } } SECTION("Array Type") { SECTION("size=false type=false") { // note the float has been replaced by a double json j = {nullptr, true, false, 4782345193, 153.132, "ham"}; std::vector v = {'[', 'Z', 'T', 'F', 'L', 0x00, 0x00, 0x00, 0x01, 0x1D, 0x0C, 0xCB, 0xE9, 'D', 0x40, 0x63, 0x24, 0x39, 0x58, 0x10, 0x62, 0x4e, 'S', 'i', 3, 'h', 'a', 'm', ']'}; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("size=true type=false") { // note the float has been replaced by a double json j = {nullptr, true, false, 4782345193, 153.132, "ham"}; std::vector v = {'[', '#', 'i', 6, 'Z', 'T', 'F', 'L', 0x00, 0x00, 0x00, 0x01, 0x1D, 0x0C, 0xCB, 0xE9, 'D', 0x40, 0x63, 0x24, 0x39, 0x58, 0x10, 0x62, 0x4e, 'S', 'i', 3, 'h', 'a', 'm'}; CHECK(json::to_ubjson(j, true) == v); CHECK(json::from_ubjson(v) == j); } SECTION("size=true type=true") { // note the float has been replaced by a double json j = {nullptr, true, false, 4782345193, 153.132, "ham"}; std::vector v = {'[', '#', 'i', 6, 'Z', 'T', 'F', 'L', 0x00, 0x00, 0x00, 0x01, 0x1D, 0x0C, 0xCB, 0xE9, 'D', 0x40, 0x63, 0x24, 0x39, 0x58, 0x10, 0x62, 0x4e, 'S', 'i', 3, 'h', 'a', 'm'}; CHECK(json::to_ubjson(j, true, true) == v); CHECK(json::from_ubjson(v) == j); } } SECTION("Object Type") { SECTION("size=false type=false") { json j = { { "post", { {"id", 1137}, {"author", "rkalla"}, {"timestamp", 1364482090592}, {"body", "I totally agree!"} } } }; std::vector v = {'{', 'i', 4, 'p', 'o', 's', 't', '{', 'i', 6, 'a', 'u', 't', 'h', 'o', 'r', 'S', 'i', 6, 'r', 'k', 'a', 'l', 'l', 'a', 'i', 4, 'b', 'o', 'd', 'y', 'S', 'i', 16, 'I', ' ', 't', 'o', 't', 'a', 'l', 'l', 'y', ' ', 'a', 'g', 'r', 'e', 'e', '!', 'i', 2, 'i', 'd', 'I', 0x04, 0x71, 'i', 9, 't', 'i', 'm', 'e', 's', 't', 'a', 'm', 'p', 'L', 0x00, 0x00, 0x01, 0x3D, 0xB1, 0x78, 0x66, 0x60, '}', '}' }; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("size=true type=false") { json j = { { "post", { {"id", 1137}, {"author", "rkalla"}, {"timestamp", 1364482090592}, {"body", "I totally agree!"} } } }; std::vector v = {'{', '#', 'i', 1, 'i', 4, 'p', 'o', 's', 't', '{', '#', 'i', 4, 'i', 6, 'a', 'u', 't', 'h', 'o', 'r', 'S', 'i', 6, 'r', 'k', 'a', 'l', 'l', 'a', 'i', 4, 'b', 'o', 'd', 'y', 'S', 'i', 16, 'I', ' ', 't', 'o', 't', 'a', 'l', 'l', 'y', ' ', 'a', 'g', 'r', 'e', 'e', '!', 'i', 2, 'i', 'd', 'I', 0x04, 0x71, 'i', 9, 't', 'i', 'm', 'e', 's', 't', 'a', 'm', 'p', 'L', 0x00, 0x00, 0x01, 0x3D, 0xB1, 0x78, 0x66, 0x60 }; CHECK(json::to_ubjson(j, true) == v); CHECK(json::from_ubjson(v) == j); } SECTION("size=true type=true") { json j = { { "post", { {"id", 1137}, {"author", "rkalla"}, {"timestamp", 1364482090592}, {"body", "I totally agree!"} } } }; std::vector v = {'{', '$', '{', '#', 'i', 1, 'i', 4, 'p', 'o', 's', 't', '#', 'i', 4, 'i', 6, 'a', 'u', 't', 'h', 'o', 'r', 'S', 'i', 6, 'r', 'k', 'a', 'l', 'l', 'a', 'i', 4, 'b', 'o', 'd', 'y', 'S', 'i', 16, 'I', ' ', 't', 'o', 't', 'a', 'l', 'l', 'y', ' ', 'a', 'g', 'r', 'e', 'e', '!', 'i', 2, 'i', 'd', 'I', 0x04, 0x71, 'i', 9, 't', 'i', 'm', 'e', 's', 't', 'a', 'm', 'p', 'L', 0x00, 0x00, 0x01, 0x3D, 0xB1, 0x78, 0x66, 0x60 }; CHECK(json::to_ubjson(j, true, true) == v); CHECK(json::from_ubjson(v) == j); } } SECTION("Optimized Format") { SECTION("Array Example") { SECTION("No Optimization") { // note the floats have been replaced by doubles json j = {29.97, 31.13, 67.0, 2.113, 23.888}; std::vector v = {'[', 'D', 0x40, 0x3d, 0xf8, 0x51, 0xeb, 0x85, 0x1e, 0xb8, 'D', 0x40, 0x3f, 0x21, 0x47, 0xae, 0x14, 0x7a, 0xe1, 'D', 0x40, 0x50, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 'D', 0x40, 0x00, 0xe7, 0x6c, 0x8b, 0x43, 0x95, 0x81, 'D', 0x40, 0x37, 0xe3, 0x53, 0xf7, 0xce, 0xd9, 0x17, ']' }; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Optimized with count") { // note the floats have been replaced by doubles json j = {29.97, 31.13, 67.0, 2.113, 23.888}; std::vector v = {'[', '#', 'i', 5, 'D', 0x40, 0x3d, 0xf8, 0x51, 0xeb, 0x85, 0x1e, 0xb8, 'D', 0x40, 0x3f, 0x21, 0x47, 0xae, 0x14, 0x7a, 0xe1, 'D', 0x40, 0x50, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 'D', 0x40, 0x00, 0xe7, 0x6c, 0x8b, 0x43, 0x95, 0x81, 'D', 0x40, 0x37, 0xe3, 0x53, 0xf7, 0xce, 0xd9, 0x17 }; CHECK(json::to_ubjson(j, true) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Optimized with type & count") { // note the floats have been replaced by doubles json j = {29.97, 31.13, 67.0, 2.113, 23.888}; std::vector v = {'[', '$', 'D', '#', 'i', 5, 0x40, 0x3d, 0xf8, 0x51, 0xeb, 0x85, 0x1e, 0xb8, 0x40, 0x3f, 0x21, 0x47, 0xae, 0x14, 0x7a, 0xe1, 0x40, 0x50, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x40, 0x00, 0xe7, 0x6c, 0x8b, 0x43, 0x95, 0x81, 0x40, 0x37, 0xe3, 0x53, 0xf7, 0xce, 0xd9, 0x17 }; CHECK(json::to_ubjson(j, true, true) == v); CHECK(json::from_ubjson(v) == j); } } SECTION("Object Example") { SECTION("No Optimization") { // note the floats have been replaced by doubles json j = { {"lat", 29.976}, {"long", 31.131}, {"alt", 67.0} }; std::vector v = {'{', 'i', 3, 'a', 'l', 't', 'D', 0x40, 0x50, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 'i', 3, 'l', 'a', 't', 'D', 0x40, 0x3d, 0xf9, 0xdb, 0x22, 0xd0, 0xe5, 0x60, 'i', 4, 'l', 'o', 'n', 'g', 'D', 0x40, 0x3f, 0x21, 0x89, 0x37, 0x4b, 0xc6, 0xa8, '}' }; CHECK(json::to_ubjson(j) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Optimized with count") { // note the floats have been replaced by doubles json j = { {"lat", 29.976}, {"long", 31.131}, {"alt", 67.0} }; std::vector v = {'{', '#', 'i', 3, 'i', 3, 'a', 'l', 't', 'D', 0x40, 0x50, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 'i', 3, 'l', 'a', 't', 'D', 0x40, 0x3d, 0xf9, 0xdb, 0x22, 0xd0, 0xe5, 0x60, 'i', 4, 'l', 'o', 'n', 'g', 'D', 0x40, 0x3f, 0x21, 0x89, 0x37, 0x4b, 0xc6, 0xa8 }; CHECK(json::to_ubjson(j, true) == v); CHECK(json::from_ubjson(v) == j); } SECTION("Optimized with type & count") { // note the floats have been replaced by doubles json j = { {"lat", 29.976}, {"long", 31.131}, {"alt", 67.0} }; std::vector v = {'{', '$', 'D', '#', 'i', 3, 'i', 3, 'a', 'l', 't', 0x40, 0x50, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 'i', 3, 'l', 'a', 't', 0x40, 0x3d, 0xf9, 0xdb, 0x22, 0xd0, 0xe5, 0x60, 'i', 4, 'l', 'o', 'n', 'g', 0x40, 0x3f, 0x21, 0x89, 0x37, 0x4b, 0xc6, 0xa8 }; CHECK(json::to_ubjson(j, true, true) == v); CHECK(json::from_ubjson(v) == j); } } SECTION("Special Cases (Null, No-Op and Boolean)") { SECTION("Array") { std::vector v = {'[', '$', 'N', '#', 'I', 0x02, 0x00}; CHECK(json::from_ubjson(v) == json::array()); } SECTION("Object") { std::vector v = {'{', '$', 'Z', '#', 'i', 3, 'i', 4, 'n', 'a', 'm', 'e', 'i', 8, 'p', 'a', 's', 's', 'w', 'o', 'r', 'd', 'i', 5, 'e', 'm', 'a', 'i', 'l'}; CHECK(json::from_ubjson(v) == json({ {"name", nullptr}, {"password", nullptr}, {"email", nullptr} })); } } } } #if !defined(JSON_NOEXCEPTION) TEST_CASE("all UBJSON first bytes") { // these bytes will fail immediately with exception parse_error.112 std::set supported = { 'T', 'F', 'Z', 'U', 'i', 'I', 'l', 'L', 'd', 'D', 'C', 'S', '[', '{', 'N', 'H' }; for (auto i = 0; i < 256; ++i) { const auto byte = static_cast(i); CAPTURE(byte) try { auto res = json::from_ubjson(std::vector(1, byte)); } catch (const json::parse_error& e) { // check that parse_error.112 is only thrown if the // first byte is not in the supported set INFO_WITH_TEMP(e.what()); if (supported.find(byte) == supported.end()) { CHECK(e.id == 112); } else { CHECK(e.id != 112); } } } } #endif TEST_CASE("UBJSON roundtrips" * doctest::skip()) { SECTION("input from self-generated UBJSON files") { for (std::string filename : { TEST_DATA_DIRECTORY "/json_nlohmann_tests/all_unicode.json", TEST_DATA_DIRECTORY "/json.org/1.json", TEST_DATA_DIRECTORY "/json.org/2.json", TEST_DATA_DIRECTORY "/json.org/3.json", TEST_DATA_DIRECTORY "/json.org/4.json", TEST_DATA_DIRECTORY "/json.org/5.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip01.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip02.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip03.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip04.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip05.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip06.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip07.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip08.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip09.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip10.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip11.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip12.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip13.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip14.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip15.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip16.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip17.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip18.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip19.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip20.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip21.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip22.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip23.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip24.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip25.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip26.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip27.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip28.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip29.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip30.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip31.json", TEST_DATA_DIRECTORY "/json_roundtrip/roundtrip32.json", TEST_DATA_DIRECTORY "/json_testsuite/sample.json", TEST_DATA_DIRECTORY "/json_tests/pass1.json", TEST_DATA_DIRECTORY "/json_tests/pass2.json", TEST_DATA_DIRECTORY "/json_tests/pass3.json" }) { CAPTURE(filename) { INFO_WITH_TEMP(filename + ": std::vector"); // parse JSON file std::ifstream f_json(filename); json j1 = json::parse(f_json); // parse UBJSON file auto packed = utils::read_binary_file(filename + ".ubjson"); json j2; CHECK_NOTHROW(j2 = json::from_ubjson(packed)); // compare parsed JSON values CHECK(j1 == j2); } { INFO_WITH_TEMP(filename + ": std::ifstream"); // parse JSON file std::ifstream f_json(filename); json j1 = json::parse(f_json); // parse UBJSON file std::ifstream f_ubjson(filename + ".ubjson", std::ios::binary); json j2; CHECK_NOTHROW(j2 = json::from_ubjson(f_ubjson)); // compare parsed JSON values CHECK(j1 == j2); } { INFO_WITH_TEMP(filename + ": uint8_t* and size"); // parse JSON file std::ifstream f_json(filename); json j1 = json::parse(f_json); // parse UBJSON file auto packed = utils::read_binary_file(filename + ".ubjson"); json j2; CHECK_NOTHROW(j2 = json::from_ubjson({packed.data(), packed.size()})); // compare parsed JSON values CHECK(j1 == j2); } { INFO_WITH_TEMP(filename + ": output to output adapters"); // parse JSON file std::ifstream f_json(filename); json j1 = json::parse(f_json); // parse UBJSON file auto packed = utils::read_binary_file(filename + ".ubjson"); { INFO_WITH_TEMP(filename + ": output adapters: std::vector"); std::vector vec; json::to_ubjson(j1, vec); CHECK(vec == packed); } } } } }