/* __ _____ _____ _____ __| | __| | | | JSON for Modern C++ (test suite) | | |__ | | | | | | version 2.1.0 |_____|_____|_____|_|___| https://github.com/nlohmann/json Licensed under the MIT License . Copyright (c) 2013-2017 Niels Lohmann . Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "catch.hpp" #define private public #include "json.hpp" using nlohmann::json; #include #include #include #include #include TEST_CASE("value conversion") { SECTION("get an object (explicit)") { json::object_t o_reference = {{"object", json::object()}, {"array", {1, 2, 3, 4}}, {"number", 42}, {"boolean", false}, {"null", nullptr}, {"string", "Hello world"} }; json j(o_reference); SECTION("json::object_t") { json::object_t o = j.get(); CHECK(json(o) == j); } SECTION("std::map") { std::map o = j.get>(); CHECK(json(o) == j); } SECTION("std::multimap") { std::multimap o = j.get>(); CHECK(json(o) == j); } SECTION("std::unordered_map") { std::unordered_map o = j.get>(); CHECK(json(o) == j); } SECTION("std::unordered_multimap") { std::unordered_multimap o = j.get>(); CHECK(json(o) == j); } SECTION("exception in case of a non-object type") { CHECK_THROWS_AS(json(json::value_t::null).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::array).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::string).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::boolean).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_integer).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_unsigned).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_float).get(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get(), "type must be object, but is null"); CHECK_THROWS_WITH(json(json::value_t::array).get(), "type must be object, but is array"); CHECK_THROWS_WITH(json(json::value_t::string).get(), "type must be object, but is string"); CHECK_THROWS_WITH(json(json::value_t::boolean).get(), "type must be object, but is boolean"); CHECK_THROWS_WITH(json(json::value_t::number_integer).get(), "type must be object, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_unsigned).get(), "type must be object, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_float).get(), "type must be object, but is number"); } } SECTION("get an object (implicit)") { json::object_t o_reference = {{"object", json::object()}, {"array", {1, 2, 3, 4}}, {"number", 42}, {"boolean", false}, {"null", nullptr}, {"string", "Hello world"} }; json j(o_reference); SECTION("json::object_t") { json::object_t o = j; CHECK(json(o) == j); } SECTION("std::map") { std::map o = j; CHECK(json(o) == j); } SECTION("std::multimap") { std::multimap o = j; CHECK(json(o) == j); } SECTION("std::unordered_map") { std::unordered_map o = j; CHECK(json(o) == j); } SECTION("std::unordered_multimap") { std::unordered_multimap o = j; CHECK(json(o) == j); } } SECTION("get an array (explicit)") { json::array_t a_reference {json(1), json(1u), json(2.2), json(false), json("string"), json()}; json j(a_reference); SECTION("json::array_t") { json::array_t a = j.get(); CHECK(json(a) == j); } SECTION("std::list") { std::list a = j.get>(); CHECK(json(a) == j); } SECTION("std::forward_list") { std::forward_list a = j.get>(); CHECK(json(a) == j); CHECK_THROWS_AS(json(json::value_t::null).get>(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get>(), "type must be array, but is null"); } SECTION("std::vector") { std::vector a = j.get>(); CHECK(json(a) == j); CHECK_THROWS_AS(json(json::value_t::null).get>(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get>(), "type must be array, but is null"); #if not defined(JSON_NOEXCEPTION) SECTION("reserve is called on containers that supports it") { // making the call to from_json throw in order to check capacity std::vector v; CHECK_THROWS_AS(nlohmann::from_json(j, v), std::logic_error); CHECK(v.capacity() == j.size()); } #endif } SECTION("std::deque") { std::deque a = j.get>(); CHECK(json(a) == j); } SECTION("exception in case of a non-array type") { CHECK_THROWS_AS(json(json::value_t::null).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::object).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::string).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::boolean).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_integer).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_unsigned).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_float).get(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::object).get>(), "type must be array, but is object"); CHECK_THROWS_WITH(json(json::value_t::null).get(), "type must be array, but is null"); CHECK_THROWS_WITH(json(json::value_t::object).get(), "type must be array, but is object"); CHECK_THROWS_WITH(json(json::value_t::string).get(), "type must be array, but is string"); CHECK_THROWS_WITH(json(json::value_t::boolean).get(), "type must be array, but is boolean"); CHECK_THROWS_WITH(json(json::value_t::number_integer).get(), "type must be array, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_unsigned).get(), "type must be array, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_float).get(), "type must be array, but is number"); } } SECTION("get an array (implicit)") { json::array_t a_reference {json(1), json(1u), json(2.2), json(false), json("string"), json()}; json j(a_reference); SECTION("json::array_t") { json::array_t a = j; CHECK(json(a) == j); } SECTION("std::list") { std::list a = j; CHECK(json(a) == j); } SECTION("std::forward_list") { std::forward_list a = j; CHECK(json(a) == j); } SECTION("std::vector") { std::vector a = j; CHECK(json(a) == j); } SECTION("std::deque") { std::deque a = j; CHECK(json(a) == j); } } SECTION("get a string (explicit)") { json::string_t s_reference {"Hello world"}; json j(s_reference); SECTION("string_t") { json::string_t s = j.get(); CHECK(json(s) == j); } SECTION("std::string") { std::string s = j.get(); CHECK(json(s) == j); } SECTION("exception in case of a non-string type") { CHECK_THROWS_AS(json(json::value_t::null).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::object).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::array).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::boolean).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_integer).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_unsigned).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_float).get(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get(), "type must be string, but is null"); CHECK_THROWS_WITH(json(json::value_t::object).get(), "type must be string, but is object"); CHECK_THROWS_WITH(json(json::value_t::array).get(), "type must be string, but is array"); CHECK_THROWS_WITH(json(json::value_t::boolean).get(), "type must be string, but is boolean"); CHECK_THROWS_WITH(json(json::value_t::number_integer).get(), "type must be string, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_unsigned).get(), "type must be string, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_float).get(), "type must be string, but is number"); } } SECTION("get a string (implicit)") { json::string_t s_reference {"Hello world"}; json j(s_reference); SECTION("string_t") { json::string_t s = j; CHECK(json(s) == j); } SECTION("std::string") { std::string s = j; CHECK(json(s) == j); } } SECTION("get a boolean (explicit)") { json::boolean_t b_reference {true}; json j(b_reference); SECTION("boolean_t") { json::boolean_t b = j.get(); CHECK(json(b) == j); } SECTION("bool") { bool b = j.get(); CHECK(json(b) == j); } SECTION("exception in case of a non-string type") { CHECK_THROWS_AS(json(json::value_t::null).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::object).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::array).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::string).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_integer).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_unsigned).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::number_float).get(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get(), "type must be boolean, but is null"); CHECK_THROWS_WITH(json(json::value_t::object).get(), "type must be boolean, but is object"); CHECK_THROWS_WITH(json(json::value_t::array).get(), "type must be boolean, but is array"); CHECK_THROWS_WITH(json(json::value_t::string).get(), "type must be boolean, but is string"); CHECK_THROWS_WITH(json(json::value_t::number_integer).get(), "type must be boolean, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_unsigned).get(), "type must be boolean, but is number"); CHECK_THROWS_WITH(json(json::value_t::number_float).get(), "type must be boolean, but is number"); } } SECTION("get a boolean (implicit)") { json::boolean_t b_reference {true}; json j(b_reference); SECTION("boolean_t") { json::boolean_t b = j; CHECK(json(b) == j); } SECTION("bool") { bool b = j; CHECK(json(b) == j); } } SECTION("get an integer number (explicit)") { json::number_integer_t n_reference {42}; json j(n_reference); json::number_unsigned_t n_unsigned_reference {42u}; json j_unsigned(n_unsigned_reference); SECTION("number_integer_t") { json::number_integer_t n = j.get(); CHECK(json(n) == j); } SECTION("number_unsigned_t") { json::number_unsigned_t n = j_unsigned.get(); CHECK(json(n) == j_unsigned); } SECTION("short") { short n = j.get(); CHECK(json(n) == j); } SECTION("unsigned short") { unsigned short n = j.get(); CHECK(json(n) == j); } SECTION("int") { int n = j.get(); CHECK(json(n) == j); } SECTION("unsigned int") { unsigned int n = j.get(); CHECK(json(n) == j); } SECTION("long") { long n = j.get(); CHECK(json(n) == j); } SECTION("unsigned long") { unsigned long n = j.get(); CHECK(json(n) == j); } SECTION("long long") { long long n = j.get(); CHECK(json(n) == j); } SECTION("unsigned long long") { unsigned long long n = j.get(); CHECK(json(n) == j); } SECTION("int8_t") { int8_t n = j.get(); CHECK(json(n) == j); } SECTION("int16_t") { int16_t n = j.get(); CHECK(json(n) == j); } SECTION("int32_t") { int32_t n = j.get(); CHECK(json(n) == j); } SECTION("int64_t") { int64_t n = j.get(); CHECK(json(n) == j); } SECTION("int8_fast_t") { int_fast8_t n = j.get(); CHECK(json(n) == j); } SECTION("int16_fast_t") { int_fast16_t n = j.get(); CHECK(json(n) == j); } SECTION("int32_fast_t") { int_fast32_t n = j.get(); CHECK(json(n) == j); } SECTION("int64_fast_t") { int_fast64_t n = j.get(); CHECK(json(n) == j); } SECTION("int8_least_t") { int_least8_t n = j.get(); CHECK(json(n) == j); } SECTION("int16_least_t") { int_least16_t n = j.get(); CHECK(json(n) == j); } SECTION("int32_least_t") { int_least32_t n = j.get(); CHECK(json(n) == j); } SECTION("int64_least_t") { int_least64_t n = j.get(); CHECK(json(n) == j); } SECTION("uint8_t") { uint8_t n = j.get(); CHECK(json(n) == j); } SECTION("uint16_t") { uint16_t n = j.get(); CHECK(json(n) == j); } SECTION("uint32_t") { uint32_t n = j.get(); CHECK(json(n) == j); } SECTION("uint64_t") { uint64_t n = j.get(); CHECK(json(n) == j); } SECTION("uint8_fast_t") { uint_fast8_t n = j.get(); CHECK(json(n) == j); } SECTION("uint16_fast_t") { uint_fast16_t n = j.get(); CHECK(json(n) == j); } SECTION("uint32_fast_t") { uint_fast32_t n = j.get(); CHECK(json(n) == j); } SECTION("uint64_fast_t") { uint_fast64_t n = j.get(); CHECK(json(n) == j); } SECTION("uint8_least_t") { uint_least8_t n = j.get(); CHECK(json(n) == j); } SECTION("uint16_least_t") { uint_least16_t n = j.get(); CHECK(json(n) == j); } SECTION("uint32_least_t") { uint_least32_t n = j.get(); CHECK(json(n) == j); } SECTION("uint64_least_t") { uint_least64_t n = j.get(); CHECK(json(n) == j); } SECTION("exception in case of a non-number type") { CHECK_THROWS_AS(json(json::value_t::null).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::object).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::array).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::string).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::boolean).get(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get(), "type must be number, but is null"); CHECK_THROWS_WITH(json(json::value_t::object).get(), "type must be number, but is object"); CHECK_THROWS_WITH(json(json::value_t::array).get(), "type must be number, but is array"); CHECK_THROWS_WITH(json(json::value_t::string).get(), "type must be number, but is string"); CHECK_THROWS_WITH(json(json::value_t::boolean).get(), "type must be number, but is boolean"); CHECK_NOTHROW(json(json::value_t::number_float).get()); CHECK_NOTHROW(json(json::value_t::number_float).get()); } } SECTION("get an integer number (implicit)") { json::number_integer_t n_reference {42}; json j(n_reference); json::number_unsigned_t n_unsigned_reference {42u}; json j_unsigned(n_unsigned_reference); SECTION("number_integer_t") { json::number_integer_t n = j.get(); CHECK(json(n) == j); } SECTION("number_unsigned_t") { json::number_unsigned_t n = j_unsigned.get(); CHECK(json(n) == j_unsigned); } SECTION("short") { short n = j; CHECK(json(n) == j); } SECTION("unsigned short") { unsigned short n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("int") { int n = j; CHECK(json(n) == j); } SECTION("unsigned int") { unsigned int n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("long") { long n = j; CHECK(json(n) == j); } SECTION("unsigned long") { unsigned long n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("long long") { long long n = j; CHECK(json(n) == j); } SECTION("unsigned long long") { unsigned long long n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("int8_t") { int8_t n = j; CHECK(json(n) == j); } SECTION("int16_t") { int16_t n = j; CHECK(json(n) == j); } SECTION("int32_t") { int32_t n = j; CHECK(json(n) == j); } SECTION("int64_t") { int64_t n = j; CHECK(json(n) == j); } SECTION("int8_fast_t") { int_fast8_t n = j; CHECK(json(n) == j); } SECTION("int16_fast_t") { int_fast16_t n = j; CHECK(json(n) == j); } SECTION("int32_fast_t") { int_fast32_t n = j; CHECK(json(n) == j); } SECTION("int64_fast_t") { int_fast64_t n = j; CHECK(json(n) == j); } SECTION("int8_least_t") { int_least8_t n = j; CHECK(json(n) == j); } SECTION("int16_least_t") { int_least16_t n = j; CHECK(json(n) == j); } SECTION("int32_least_t") { int_least32_t n = j; CHECK(json(n) == j); } SECTION("int64_least_t") { int_least64_t n = j; CHECK(json(n) == j); } SECTION("uint8_t") { uint8_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint16_t") { uint16_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint32_t") { uint32_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint64_t") { uint64_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint8_fast_t") { uint_fast8_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint16_fast_t") { uint_fast16_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint32_fast_t") { uint_fast32_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint64_fast_t") { uint_fast64_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint8_least_t") { uint_least8_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint16_least_t") { uint_least16_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint32_least_t") { uint_least32_t n = j_unsigned; CHECK(json(n) == j_unsigned); } SECTION("uint64_least_t") { uint_least64_t n = j_unsigned; CHECK(json(n) == j_unsigned); } } SECTION("get a floating-point number (explicit)") { json::number_float_t n_reference {42.23}; json j(n_reference); SECTION("number_float_t") { json::number_float_t n = j.get(); CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float)); } SECTION("float") { float n = j.get(); CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float)); } SECTION("double") { double n = j.get(); CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float)); } SECTION("exception in case of a non-string type") { CHECK_THROWS_AS(json(json::value_t::null).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::object).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::array).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::string).get(), std::logic_error); CHECK_THROWS_AS(json(json::value_t::boolean).get(), std::logic_error); CHECK_THROWS_WITH(json(json::value_t::null).get(), "type must be number, but is null"); CHECK_THROWS_WITH(json(json::value_t::object).get(), "type must be number, but is object"); CHECK_THROWS_WITH(json(json::value_t::array).get(), "type must be number, but is array"); CHECK_THROWS_WITH(json(json::value_t::string).get(), "type must be number, but is string"); CHECK_THROWS_WITH(json(json::value_t::boolean).get(), "type must be number, but is boolean"); CHECK_NOTHROW(json(json::value_t::number_integer).get()); CHECK_NOTHROW(json(json::value_t::number_unsigned).get()); } } SECTION("get a floating-point number (implicit)") { json::number_float_t n_reference {42.23}; json j(n_reference); SECTION("number_float_t") { json::number_float_t n = j; CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float)); } SECTION("float") { float n = j; CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float)); } SECTION("double") { double n = j; CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float)); } } SECTION("more involved conversions") { SECTION("object-like STL containers") { json j1 = {{"one", 1}, {"two", 2}, {"three", 3}}; json j2 = {{"one", 1u}, {"two", 2u}, {"three", 3u}}; json j3 = {{"one", 1.1}, {"two", 2.2}, {"three", 3.3}}; json j4 = {{"one", true}, {"two", false}, {"three", true}}; json j5 = {{"one", "eins"}, {"two", "zwei"}, {"three", "drei"}}; SECTION("std::map") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); //auto m5 = j5.get>(); } SECTION("std::unordered_map") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); //auto m5 = j5.get>(); //CHECK(m5["one"] == "eins"); } SECTION("std::multimap") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); //auto m5 = j5.get>(); //CHECK(m5["one"] == "eins"); } SECTION("std::unordered_multimap") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); //auto m5 = j5.get>(); //CHECK(m5["one"] == "eins"); } SECTION("exception in case of a non-object type") { CHECK_THROWS_AS((json().get>()), std::logic_error); CHECK_THROWS_WITH((json().get>()), "type must be object, but is null"); } } SECTION("array-like STL containers") { json j1 = {1, 2, 3, 4}; json j2 = {1u, 2u, 3u, 4u}; json j3 = {1.2, 2.3, 3.4, 4.5}; json j4 = {true, false, true}; json j5 = {"one", "two", "three"}; SECTION("std::list") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); auto m5 = j5.get>(); } SECTION("std::forward_list") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); auto m5 = j5.get>(); } SECTION("std::vector") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); auto m5 = j5.get>(); } SECTION("std::deque") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j2.get>(); auto m4 = j4.get>(); auto m5 = j5.get>(); } SECTION("std::set") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); auto m5 = j5.get>(); } SECTION("std::unordered_set") { auto m1 = j1.get>(); auto m2 = j2.get>(); auto m3 = j3.get>(); auto m4 = j4.get>(); auto m5 = j5.get>(); } SECTION("exception in case of a non-object type") { CHECK_THROWS_AS((json().get>()), std::logic_error); CHECK_THROWS_AS((json().get>()), std::logic_error); CHECK_THROWS_AS((json().get>()), std::logic_error); CHECK_THROWS_AS((json().get>()), std::logic_error); // does type really must be an array? or it rather must not be null? // that's what I thought when other test like this one broke CHECK_THROWS_WITH((json().get>()), "type must be array, but is null"); CHECK_THROWS_WITH((json().get>()), "type must be array, but is null"); CHECK_THROWS_WITH((json().get>()), "type must be array, but is null"); CHECK_THROWS_WITH((json().get>()), "type must be array, but is null"); } } } }