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unit-comparison.cpp 29.98 KB
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Niels Lohmann 提交于 2025-05-16 01:25 +08:00 . Update to Doctest 2.4.12 (#4771)
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// __ _____ _____ _____
// __| | __| | | | JSON for Modern C++ (supporting code)
// | | |__ | | | | | | version 3.12.0
// |_____|_____|_____|_|___| https://github.com/nlohmann/json
//
// SPDX-FileCopyrightText: 2013 - 2025 Niels Lohmann <https://nlohmann.me>
// SPDX-License-Identifier: MIT
// cmake/test.cmake selects the C++ standard versions with which to build a
// unit test based on the presence of JSON_HAS_CPP_<VERSION> macros.
// When using macros that are only defined for particular versions of the standard
// (e.g., JSON_HAS_FILESYSTEM for C++17 and up), please mention the corresponding
// version macro in a comment close by, like this:
// JSON_HAS_CPP_<VERSION> (do not remove; see note at top of file)
#include "doctest_compatibility.h"
#define JSON_TESTS_PRIVATE
#include <nlohmann/json.hpp>
using nlohmann::json;
#if JSON_HAS_THREE_WAY_COMPARISON
// this can be replaced with the doctest stl extension header in version 2.5
namespace doctest
{
template<> struct StringMaker<std::partial_ordering>
{
static String convert(const std::partial_ordering& order)
{
if (order == std::partial_ordering::less)
{
return "std::partial_ordering::less";
}
if (order == std::partial_ordering::equivalent)
{
return "std::partial_ordering::equivalent";
}
if (order == std::partial_ordering::greater)
{
return "std::partial_ordering::greater";
}
if (order == std::partial_ordering::unordered)
{
return "std::partial_ordering::unordered";
}
return "{?}";
}
};
} // namespace doctest
#endif
namespace
{
// helper function to check std::less<json::value_t>
// see https://en.cppreference.com/w/cpp/utility/functional/less
template <typename A, typename B, typename U = std::less<json::value_t>>
bool f(A a, B b, U u = U())
{
return u(a, b);
}
} // namespace
TEST_CASE("lexicographical comparison operators")
{
constexpr auto f_ = false;
constexpr auto _t = true;
constexpr auto nan = std::numeric_limits<json::number_float_t>::quiet_NaN();
#if JSON_HAS_THREE_WAY_COMPARISON
constexpr auto lt = std::partial_ordering::less;
constexpr auto gt = std::partial_ordering::greater;
constexpr auto eq = std::partial_ordering::equivalent;
constexpr auto un = std::partial_ordering::unordered;
#endif
#if JSON_HAS_THREE_WAY_COMPARISON
INFO("using 3-way comparison");
#endif
#if JSON_USE_LEGACY_DISCARDED_VALUE_COMPARISON
INFO("using legacy comparison");
#endif
//REQUIRE(std::numeric_limits<json::number_float_t>::has_quiet_NaN);
REQUIRE(std::isnan(nan));
SECTION("types")
{
std::vector<json::value_t> j_types =
{
json::value_t::null,
json::value_t::boolean,
json::value_t::number_integer,
json::value_t::number_unsigned,
json::value_t::number_float,
json::value_t::object,
json::value_t::array,
json::value_t::string,
json::value_t::binary,
json::value_t::discarded
};
std::vector<std::vector<bool>> expected_lt =
{
//0 1 2 3 4 5 6 7 8 9
{f_, _t, _t, _t, _t, _t, _t, _t, _t, f_}, // 0
{f_, f_, _t, _t, _t, _t, _t, _t, _t, f_}, // 1
{f_, f_, f_, f_, f_, _t, _t, _t, _t, f_}, // 2
{f_, f_, f_, f_, f_, _t, _t, _t, _t, f_}, // 3
{f_, f_, f_, f_, f_, _t, _t, _t, _t, f_}, // 4
{f_, f_, f_, f_, f_, f_, _t, _t, _t, f_}, // 5
{f_, f_, f_, f_, f_, f_, f_, _t, _t, f_}, // 6
{f_, f_, f_, f_, f_, f_, f_, f_, _t, f_}, // 7
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 8
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 9
};
SECTION("comparison: less")
{
REQUIRE(expected_lt.size() == j_types.size());
for (size_t i = 0; i < j_types.size(); ++i)
{
REQUIRE(expected_lt[i].size() == j_types.size());
for (size_t j = 0; j < j_types.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
// check precomputed values
#if JSON_HAS_THREE_WAY_COMPARISON
// JSON_HAS_CPP_20 (do not remove; see note at top of file)
CHECK((j_types[i] < j_types[j]) == expected_lt[i][j]);
#else
CHECK(operator<(j_types[i], j_types[j]) == expected_lt[i][j]);
#endif
CHECK(f(j_types[i], j_types[j]) == expected_lt[i][j]);
}
}
}
#if JSON_HAS_THREE_WAY_COMPARISON
// JSON_HAS_CPP_20 (do not remove; see note at top of file)
SECTION("comparison: 3-way")
{
std::vector<std::vector<std::partial_ordering>> expected =
{
//0 1 2 3 4 5 6 7 8 9
{eq, lt, lt, lt, lt, lt, lt, lt, lt, un}, // 0
{gt, eq, lt, lt, lt, lt, lt, lt, lt, un}, // 1
{gt, gt, eq, eq, eq, lt, lt, lt, lt, un}, // 2
{gt, gt, eq, eq, eq, lt, lt, lt, lt, un}, // 3
{gt, gt, eq, eq, eq, lt, lt, lt, lt, un}, // 4
{gt, gt, gt, gt, gt, eq, lt, lt, lt, un}, // 5
{gt, gt, gt, gt, gt, gt, eq, lt, lt, un}, // 6
{gt, gt, gt, gt, gt, gt, gt, eq, lt, un}, // 7
{gt, gt, gt, gt, gt, gt, gt, gt, eq, un}, // 8
{un, un, un, un, un, un, un, un, un, un}, // 9
};
// check expected partial_ordering against expected boolean
REQUIRE(expected.size() == expected_lt.size());
for (size_t i = 0; i < expected.size(); ++i)
{
REQUIRE(expected[i].size() == expected_lt[i].size());
for (size_t j = 0; j < expected[i].size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK(std::is_lt(expected[i][j]) == expected_lt[i][j]);
}
}
// check 3-way comparison against expected partial_ordering
REQUIRE(expected.size() == j_types.size());
for (size_t i = 0; i < j_types.size(); ++i)
{
REQUIRE(expected[i].size() == j_types.size());
for (size_t j = 0; j < j_types.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK((j_types[i] <=> j_types[j]) == expected[i][j]); // *NOPAD*
}
}
}
#endif
}
SECTION("values")
{
json j_values =
{
nullptr, nullptr, // 0 1
-17, 42, // 2 3
8u, 13u, // 4 5
3.14159, 23.42, // 6 7
nan, nan, // 8 9
"foo", "bar", // 10 11
true, false, // 12 13
{1, 2, 3}, {"one", "two", "three"}, // 14 15
{{"first", 1}, {"second", 2}}, {{"a", "A"}, {"b", {"B"}}}, // 16 17
json::binary({1, 2, 3}), json::binary({1, 2, 4}), // 18 19
json(json::value_t::discarded), json(json::value_t::discarded) // 20 21
};
std::vector<std::vector<bool>> expected_eq =
{
//0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
{_t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 0
{_t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 1
{f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 2
{f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 3
{f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 4
{f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 5
{f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 6
{f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 7
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 8
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 9
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 10
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 11
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 12
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, f_}, // 13
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_}, // 14
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_}, // 15
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_}, // 16
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_}, // 17
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_}, // 18
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_}, // 19
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 20
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 21
};
std::vector<std::vector<bool>> expected_lt =
{
//0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_}, // 0
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_}, // 1
{f_, f_, f_, _t, _t, _t, _t, _t, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 2
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 3
{f_, f_, f_, _t, f_, _t, f_, _t, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 4
{f_, f_, f_, _t, f_, f_, f_, _t, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 5
{f_, f_, f_, _t, _t, _t, f_, _t, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 6
{f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 7
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 8
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 9
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_}, // 10
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_}, // 11
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 12
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, f_, _t, _t, _t, _t, _t, _t, f_, f_}, // 13
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, _t, f_, f_, _t, _t, f_, f_}, // 14
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_}, // 15
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, _t, _t, f_, f_, _t, _t, f_, f_}, // 16
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, _t, _t, _t, f_, _t, _t, f_, f_}, // 17
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, f_, f_}, // 18
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 19
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 20
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 21
};
SECTION("compares unordered")
{
std::vector<std::vector<bool>> expected =
{
//0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 0
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 1
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 2
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 3
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 4
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 5
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 6
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 7
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 8
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 9
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 10
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 11
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 12
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 13
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 14
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 15
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 16
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 17
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 18
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, _t, _t}, // 19
{_t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t}, // 20
{_t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t, _t}, // 21
};
// check if two values compare unordered as expected
REQUIRE(expected.size() == j_values.size());
for (size_t i = 0; i < j_values.size(); ++i)
{
REQUIRE(expected[i].size() == j_values.size());
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK(json::compares_unordered(j_values[i], j_values[j]) == expected[i][j]);
}
}
}
#if JSON_USE_LEGACY_DISCARDED_VALUE_COMPARISON
SECTION("compares unordered (inverse)")
{
std::vector<std::vector<bool>> expected =
{
//0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 0
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 1
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 2
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 3
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 4
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 5
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 6
{f_, f_, f_, f_, f_, f_, f_, f_, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 7
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 8
{f_, f_, _t, _t, _t, _t, _t, _t, _t, _t, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 9
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 10
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 11
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 12
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 13
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 14
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 15
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 16
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 17
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 18
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 19
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 20
{f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_, f_}, // 21
};
// check that two values compare unordered as expected (with legacy-mode enabled)
REQUIRE(expected.size() == j_values.size());
for (size_t i = 0; i < j_values.size(); ++i)
{
REQUIRE(expected[i].size() == j_values.size());
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CAPTURE(j_values[i])
CAPTURE(j_values[j])
CHECK(json::compares_unordered(j_values[i], j_values[j], true) == expected[i][j]);
}
}
}
#endif
SECTION("comparison: equal")
{
// check that two values compare equal
REQUIRE(expected_eq.size() == j_values.size());
for (size_t i = 0; i < j_values.size(); ++i)
{
REQUIRE(expected_eq[i].size() == j_values.size());
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK((j_values[i] == j_values[j]) == expected_eq[i][j]);
}
}
// compare with null pointer
json j_null;
CHECK(j_null == nullptr);
CHECK(nullptr == j_null);
}
SECTION("comparison: not equal")
{
// check that two values compare unequal as expected
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
if (json::compares_unordered(j_values[i], j_values[j], true))
{
// if two values compare unordered,
// check that the boolean comparison result is always false
CHECK_FALSE(j_values[i] != j_values[j]);
}
else
{
// otherwise, check that they compare according to their definition
// as the inverse of equal
CHECK((j_values[i] != j_values[j]) == !(j_values[i] == j_values[j]));
}
}
}
// compare with null pointer
const json j_null;
CHECK((j_null != nullptr) == false);
CHECK((nullptr != j_null) == false);
CHECK((j_null != nullptr) == !(j_null == nullptr));
CHECK((nullptr != j_null) == !(nullptr == j_null));
}
SECTION("comparison: less")
{
// check that two values compare less than as expected
REQUIRE(expected_lt.size() == j_values.size());
for (size_t i = 0; i < j_values.size(); ++i)
{
REQUIRE(expected_lt[i].size() == j_values.size());
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK((j_values[i] < j_values[j]) == expected_lt[i][j]);
}
}
}
SECTION("comparison: less than or equal equal")
{
// check that two values compare less than or equal as expected
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
if (json::compares_unordered(j_values[i], j_values[j], true))
{
// if two values compare unordered,
// check that the boolean comparison result is always false
CHECK_FALSE(j_values[i] <= j_values[j]);
}
else
{
// otherwise, check that they compare according to their definition
// as the inverse of less than with the operand order reversed
CHECK((j_values[i] <= j_values[j]) == !(j_values[j] < j_values[i]));
}
}
}
}
SECTION("comparison: greater than")
{
// check that two values compare greater than as expected
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
if (json::compares_unordered(j_values[i], j_values[j]))
{
// if two values compare unordered,
// check that the boolean comparison result is always false
CHECK_FALSE(j_values[i] > j_values[j]);
}
else
{
// otherwise, check that they compare according to their definition
// as the inverse of less than or equal which is defined as
// the inverse of less than with the operand order reversed
CHECK((j_values[i] > j_values[j]) == !(j_values[i] <= j_values[j]));
CHECK((j_values[i] > j_values[j]) == !!(j_values[j] < j_values[i]));
}
}
}
}
SECTION("comparison: greater than or equal")
{
// check that two values compare greater than or equal as expected
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
if (json::compares_unordered(j_values[i], j_values[j], true))
{
// if two values compare unordered,
// check that the boolean result is always false
CHECK_FALSE(j_values[i] >= j_values[j]);
}
else
{
// otherwise, check that they compare according to their definition
// as the inverse of less than
CHECK((j_values[i] >= j_values[j]) == !(j_values[i] < j_values[j]));
}
}
}
}
#if JSON_HAS_THREE_WAY_COMPARISON
// JSON_HAS_CPP_20 (do not remove; see note at top of file)
SECTION("comparison: 3-way")
{
std::vector<std::vector<std::partial_ordering>> expected =
{
//0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
{eq, eq, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, un, un}, // 0
{eq, eq, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, un, un}, // 1
{gt, gt, eq, lt, lt, lt, lt, lt, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 2
{gt, gt, gt, eq, gt, gt, gt, gt, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 3
{gt, gt, gt, lt, eq, lt, gt, lt, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 4
{gt, gt, gt, lt, gt, eq, gt, lt, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 5
{gt, gt, gt, lt, lt, lt, eq, lt, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 6
{gt, gt, gt, lt, gt, gt, gt, eq, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 7
{gt, gt, un, un, un, un, un, un, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 8
{gt, gt, un, un, un, un, un, un, un, un, lt, lt, gt, gt, lt, lt, lt, lt, lt, lt, un, un}, // 9
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, eq, gt, gt, gt, gt, gt, gt, gt, lt, lt, un, un}, // 10
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, lt, eq, gt, gt, gt, gt, gt, gt, lt, lt, un, un}, // 11
{gt, gt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, eq, gt, lt, lt, lt, lt, lt, lt, un, un}, // 12
{gt, gt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, lt, eq, lt, lt, lt, lt, lt, lt, un, un}, // 13
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, lt, lt, gt, gt, eq, lt, gt, gt, lt, lt, un, un}, // 14
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, lt, lt, gt, gt, gt, eq, gt, gt, lt, lt, un, un}, // 15
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, lt, lt, gt, gt, lt, lt, eq, gt, lt, lt, un, un}, // 16
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, lt, lt, gt, gt, lt, lt, lt, eq, lt, lt, un, un}, // 17
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, eq, lt, un, un}, // 18
{gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, gt, eq, un, un}, // 19
{un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un}, // 20
{un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un, un}, // 21
};
// check expected partial_ordering against expected booleans
REQUIRE(expected.size() == expected_eq.size());
REQUIRE(expected.size() == expected_lt.size());
for (size_t i = 0; i < expected.size(); ++i)
{
REQUIRE(expected[i].size() == expected_eq[i].size());
REQUIRE(expected[i].size() == expected_lt[i].size());
for (size_t j = 0; j < expected[i].size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK(std::is_eq(expected[i][j]) == expected_eq[i][j]);
CHECK(std::is_lt(expected[i][j]) == expected_lt[i][j]);
if (std::is_gt(expected[i][j]))
{
CHECK((!expected_eq[i][j] && !expected_lt[i][j]));
}
}
}
// check that two values compare according to their expected ordering
REQUIRE(expected.size() == j_values.size());
for (size_t i = 0; i < j_values.size(); ++i)
{
REQUIRE(expected[i].size() == j_values.size());
for (size_t j = 0; j < j_values.size(); ++j)
{
CAPTURE(i)
CAPTURE(j)
CHECK((j_values[i] <=> j_values[j]) == expected[i][j]); // *NOPAD*
}
}
}
#endif
}
#if JSON_USE_LEGACY_DISCARDED_VALUE_COMPARISON
SECTION("parser callback regression")
{
SECTION("filter specific element")
{
const auto* s_object = R"(
{
"foo": 2,
"bar": {
"baz": 1
}
}
)";
const auto* s_array = R"(
[1,2,[3,4,5],4,5]
)";
const json j_object = json::parse(s_object, [](int /*unused*/, json::parse_event_t /*unused*/, const json & j) noexcept
{
// filter all number(2) elements
return j != json(2);
});
CHECK (j_object == json({{"bar", {{"baz", 1}}}}));
const json j_array = json::parse(s_array, [](int /*unused*/, json::parse_event_t /*unused*/, const json & j) noexcept
{
return j != json(2);
});
CHECK (j_array == json({1, {3, 4, 5}, 4, 5}));
}
}
#endif
}
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