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fuchsia / third_party / json / refs/heads/upstream/master / . / tests / src / unit-conversions.cpp
blob: d7df0bee55bcfe91787f6e59d20cca8bc8c33b6d [file] [log] [blame]
// __ _____ _____ _____
// __| | __| | | | JSON for Modern C++ (supporting code)
// | | |__ | | | | | | version 3.11.3
// |_____|_____|_____|_|___| https://github.com/nlohmann/json
//
// Copyright (c) 2013-2022 Niels Lohmann <http://nlohmann.me>.
// SPDX-FileCopyrightText: 2013-2023 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;
#include <deque>
#include <forward_list>
#include <list>
#include <set>
#include <unordered_map>
#include <unordered_set>
#include <valarray>
// NLOHMANN_JSON_SERIALIZE_ENUM uses a static std::pair
DOCTEST_CLANG_SUPPRESS_WARNING_PUSH
DOCTEST_CLANG_SUPPRESS_WARNING("-Wexit-time-destructors")
TEST_CASE("value conversion")
{
SECTION("get an object (explicit)")
{
const 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 const o = j.get<json::object_t>();
CHECK(json(o) == j);
}
SECTION("std::map<json::string_t, json>")
{
const std::map<json::string_t, json> o =
j.get<std::map<json::string_t, json>>();
CHECK(json(o) == j);
}
SECTION("std::multimap<json::string_t, json>")
{
const std::multimap<json::string_t, json> o =
j.get<std::multimap<json::string_t, json>>();
CHECK(json(o) == j);
}
SECTION("std::unordered_map<json::string_t, json>")
{
const std::unordered_map<json::string_t, json> o =
j.get<std::unordered_map<json::string_t, json>>();
CHECK(json(o) == j);
}
SECTION("std::unordered_multimap<json::string_t, json>")
{
const std::unordered_multimap<json::string_t, json> o =
j.get<std::unordered_multimap<json::string_t, json>>();
CHECK(json(o) == j);
}
SECTION("exception in case of a non-object type")
{
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::array).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::string).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, but is string", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::boolean).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, "
"but is boolean", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_integer).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_unsigned).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_float).get<json::object_t>(),
"[json.exception.type_error.302] type must be object, but is number", json::type_error&);
}
}
SECTION("get an object (explicit, get_to)")
{
const 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 = {{"previous", "value"}};
j.get_to(o);
CHECK(json(o) == j);
}
SECTION("std::map<json::string_t, json>")
{
std::map<json::string_t, json> o{{"previous", "value"}};
j.get_to(o);
CHECK(json(o) == j);
}
SECTION("std::multimap<json::string_t, json>")
{
std::multimap<json::string_t, json> o{{"previous", "value"}};
j.get_to(o);
CHECK(json(o) == j);
}
SECTION("std::unordered_map<json::string_t, json>")
{
std::unordered_map<json::string_t, json> o{{"previous", "value"}};
j.get_to(o);
CHECK(json(o) == j);
}
SECTION("std::unordered_multimap<json::string_t, json>")
{
std::unordered_multimap<json::string_t, json> o{{"previous", "value"}};
j.get_to(o);
CHECK(json(o) == j);
}
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get an object (implicit)")
{
const 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")
{
const json::object_t o = j;
CHECK(json(o) == j);
}
SECTION("std::map<json::string_t, json>")
{
const std::map<json::string_t, json> o = j;
CHECK(json(o) == j);
}
SECTION("std::multimap<json::string_t, json>")
{
const std::multimap<json::string_t, json> o = j;
CHECK(json(o) == j);
}
SECTION("std::unordered_map<json::string_t, json>")
{
const std::unordered_map<json::string_t, json> o = j;
CHECK(json(o) == j);
}
SECTION("std::unordered_multimap<json::string_t, json>")
{
const std::unordered_multimap<json::string_t, json> o = j;
CHECK(json(o) == j);
}
}
#endif
SECTION("get an array (explicit)")
{
const 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")
{
const json::array_t a = j.get<json::array_t>();
CHECK(json(a) == j);
}
SECTION("std::list<json>")
{
const std::list<json> a = j.get<std::list<json>>();
CHECK(json(a) == j);
}
SECTION("std::forward_list<json>")
{
const std::forward_list<json> a = j.get<std::forward_list<json>>();
CHECK(json(a) == j);
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<std::forward_list<json>>(),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
}
SECTION("std::vector<json>")
{
const std::vector<json> a = j.get<std::vector<json>>();
CHECK(json(a) == j);
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<std::vector<json>>(),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
#if !defined(JSON_NOEXCEPTION)
SECTION("reserve is called on containers that supports it")
{
// make sure all values are properly copied
const json j2({1, 2, 3, 4, 5, 6, 7, 8, 9, 10});
auto v2 = j2.get<std::vector<int>>();
CHECK(v2.size() == 10);
}
#endif
}
SECTION("built-in arrays")
{
const char str[] = "a string"; // NOLINT(cppcoreguidelines-avoid-c-arrays,hicpp-avoid-c-arrays,modernize-avoid-c-arrays)
const int nbs[] = {0, 1, 2}; // NOLINT(cppcoreguidelines-avoid-c-arrays,hicpp-avoid-c-arrays,modernize-avoid-c-arrays)
const json j2 = nbs;
const json j3 = str;
auto v = j2.get<std::vector<int>>();
auto s = j3.get<std::string>();
CHECK(std::equal(v.begin(), v.end(), std::begin(nbs)));
CHECK(s == str);
}
SECTION("std::deque<json>")
{
const std::deque<json> a = j.get<std::deque<json>>();
CHECK(json(a) == j);
}
SECTION("exception in case of a non-array type")
{
CHECK_THROWS_WITH_AS(
json(json::value_t::object).get<std::vector<int>>(),
"[json.exception.type_error.302] type must be array, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::object).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::string).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is string", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::boolean).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is boolean", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_integer).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_unsigned).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_float).get<json::array_t>(),
"[json.exception.type_error.302] type must be array, but is number", json::type_error&);
}
}
SECTION("get an array (explicit, get_to)")
{
const 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{"previous", "value"};
j.get_to(a);
CHECK(json(a) == j);
}
SECTION("std::valarray<json>")
{
std::valarray<json> a{"previous", "value"};
j.get_to(a);
CHECK(json(a) == j);
}
SECTION("std::list<json>")
{
std::list<json> a{"previous", "value"};
j.get_to(a);
CHECK(json(a) == j);
}
SECTION("std::forward_list<json>")
{
std::forward_list<json> a{"previous", "value"};
j.get_to(a);
CHECK(json(a) == j);
}
SECTION("std::vector<json>")
{
std::vector<json> a{"previous", "value"};
j.get_to(a);
CHECK(json(a) == j);
}
SECTION("built-in arrays")
{
const int nbs[] = {0, 1, 2}; // NOLINT(cppcoreguidelines-avoid-c-arrays,hicpp-avoid-c-arrays,modernize-avoid-c-arrays)
int nbs2[] = {0, 0, 0}; // NOLINT(cppcoreguidelines-avoid-c-arrays,hicpp-avoid-c-arrays,modernize-avoid-c-arrays)
const json j2 = nbs;
j2.get_to(nbs2);
CHECK(std::equal(std::begin(nbs), std::end(nbs), std::begin(nbs2)));
}
SECTION("std::deque<json>")
{
std::deque<json> a{"previous", "value"};
j.get_to(a);
CHECK(json(a) == j);
}
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get an array (implicit)")
{
const 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")
{
const json::array_t a = j;
CHECK(json(a) == j);
}
SECTION("std::list<json>")
{
const std::list<json> a = j;
CHECK(json(a) == j);
}
SECTION("std::forward_list<json>")
{
const std::forward_list<json> a = j;
CHECK(json(a) == j);
}
SECTION("std::vector<json>")
{
const std::vector<json> a = j;
CHECK(json(a) == j);
}
SECTION("std::deque<json>")
{
const std::deque<json> a = j;
CHECK(json(a) == j);
}
}
#endif
SECTION("get a string (explicit)")
{
const json::string_t s_reference{"Hello world"};
json j(s_reference);
SECTION("string_t")
{
const json::string_t s = j.get<json::string_t>();
CHECK(json(s) == j);
}
SECTION("std::string")
{
const std::string s = j.get<std::string>();
CHECK(json(s) == j);
}
#if defined(JSON_HAS_CPP_17)
SECTION("std::string_view")
{
std::string_view const s = j.get<std::string_view>();
CHECK(json(s) == j);
}
#endif
SECTION("exception in case of a non-string type")
{
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::object).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::array).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::boolean).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, "
"but is boolean", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_integer).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_unsigned).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_float).get<json::string_t>(),
"[json.exception.type_error.302] type must be string, but is number", json::type_error&);
}
#if defined(JSON_HAS_CPP_17)
SECTION("exception in case of a non-string type using string_view")
{
CHECK_THROWS_WITH_AS(json(json::value_t::null).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::object).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::array).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::boolean).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is boolean", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::number_integer).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::number_unsigned).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::number_float).get<std::string_view>(),
"[json.exception.type_error.302] type must be string, but is number", json::type_error&);
}
#endif
}
SECTION("get a string (explicit, get_to)")
{
const json::string_t s_reference{"Hello world"};
json j(s_reference);
SECTION("string_t")
{
json::string_t s = "previous value";
j.get_to(s);
CHECK(json(s) == j);
}
SECTION("std::string")
{
std::string s = "previous value";
j.get_to(s);
CHECK(json(s) == j);
}
#if defined(JSON_HAS_CPP_17)
SECTION("std::string_view")
{
std::string const s = "previous value";
std::string_view sv = s;
j.get_to(sv);
CHECK(json(sv) == j);
}
#endif
}
SECTION("get null (explicit)")
{
std::nullptr_t n = nullptr;
const json j(n);
auto n2 = j.get<std::nullptr_t>();
CHECK(n2 == n);
CHECK_THROWS_WITH_AS(json(json::value_t::string).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is string", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::object).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::array).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::boolean).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is boolean", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::number_integer).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::number_unsigned).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is number", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::number_float).get<std::nullptr_t>(),
"[json.exception.type_error.302] type must be null, but is number", json::type_error&);
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get a string (implicit)")
{
const json::string_t s_reference{"Hello world"};
json j(s_reference);
SECTION("string_t")
{
const json::string_t s = j;
CHECK(json(s) == j);
}
#if defined(JSON_HAS_CPP_17)
SECTION("std::string_view")
{
std::string_view const s = j.get<std::string_view>();
CHECK(json(s) == j);
}
#endif
SECTION("std::string")
{
const std::string s = j;
CHECK(json(s) == j);
}
}
#endif
SECTION("get a boolean (explicit)")
{
const json::boolean_t b_reference{true};
json j(b_reference);
SECTION("boolean_t")
{
auto b = j.get<json::boolean_t>();
CHECK(json(b) == j);
}
SECTION("uint8_t")
{
auto n = j.get<uint8_t>();
CHECK(n == 1);
}
SECTION("bool")
{
const bool b = j.get<bool>();
CHECK(json(b) == j);
}
SECTION("exception in case of a non-number type")
{
CHECK_THROWS_AS(json(json::value_t::string).get<uint8_t>(),
json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::object).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, "
"but is object", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::array).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(json(json::value_t::string).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, "
"but is string", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_integer).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, but is "
"number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_unsigned).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, but is "
"number", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::number_float).get<json::boolean_t>(),
"[json.exception.type_error.302] type must be boolean, but is "
"number", json::type_error&);
}
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get a boolean (implicit)")
{
const json::boolean_t b_reference{true};
json j(b_reference);
SECTION("boolean_t")
{
const json::boolean_t b = j;
CHECK(json(b) == j);
}
SECTION("bool")
{
const bool b = j;
CHECK(json(b) == j);
}
}
#endif
SECTION("get an integer number (explicit)")
{
const json::number_integer_t n_reference{42};
json j(n_reference);
const json::number_unsigned_t n_unsigned_reference{42u};
json j_unsigned(n_unsigned_reference);
SECTION("number_integer_t")
{
auto n = j.get<json::number_integer_t>();
CHECK(json(n) == j);
}
SECTION("number_unsigned_t")
{
auto n = j_unsigned.get<json::number_unsigned_t>();
CHECK(json(n) == j_unsigned);
}
SECTION("short")
{
auto n = j.get<short>();
CHECK(json(n) == j);
}
SECTION("unsigned short")
{
auto n = j.get<unsigned short>();
CHECK(json(n) == j);
}
SECTION("int")
{
const int n = j.get<int>();
CHECK(json(n) == j);
}
SECTION("unsigned int")
{
auto n = j.get<unsigned int>();
CHECK(json(n) == j);
}
SECTION("long")
{
const long n = j.get<long>();
CHECK(json(n) == j);
}
SECTION("unsigned long")
{
auto n = j.get<unsigned long>();
CHECK(json(n) == j);
}
SECTION("long long")
{
auto n = j.get<long long>();
CHECK(json(n) == j);
}
SECTION("unsigned long long")
{
auto n = j.get<unsigned long long>();
CHECK(json(n) == j);
}
SECTION("int8_t")
{
auto n = j.get<int8_t>();
CHECK(json(n) == j);
}
SECTION("int16_t")
{
auto n = j.get<int16_t>();
CHECK(json(n) == j);
}
SECTION("int32_t")
{
auto n = j.get<int32_t>();
CHECK(json(n) == j);
}
SECTION("int64_t")
{
auto n = j.get<int64_t>();
CHECK(json(n) == j);
}
SECTION("int8_fast_t")
{
auto n = j.get<int_fast8_t>();
CHECK(json(n) == j);
}
SECTION("int16_fast_t")
{
auto n = j.get<int_fast16_t>();
CHECK(json(n) == j);
}
SECTION("int32_fast_t")
{
auto n = j.get<int_fast32_t>();
CHECK(json(n) == j);
}
SECTION("int64_fast_t")
{
auto n = j.get<int_fast64_t>();
CHECK(json(n) == j);
}
SECTION("int8_least_t")
{
auto n = j.get<int_least8_t>();
CHECK(json(n) == j);
}
SECTION("int16_least_t")
{
auto n = j.get<int_least16_t>();
CHECK(json(n) == j);
}
SECTION("int32_least_t")
{
auto n = j.get<int_least32_t>();
CHECK(json(n) == j);
}
SECTION("int64_least_t")
{
auto n = j.get<int_least64_t>();
CHECK(json(n) == j);
}
SECTION("uint8_t")
{
auto n = j.get<uint8_t>();
CHECK(json(n) == j);
}
SECTION("uint16_t")
{
auto n = j.get<uint16_t>();
CHECK(json(n) == j);
}
SECTION("uint32_t")
{
auto n = j.get<uint32_t>();
CHECK(json(n) == j);
}
SECTION("uint64_t")
{
auto n = j.get<uint64_t>();
CHECK(json(n) == j);
}
SECTION("uint8_fast_t")
{
auto n = j.get<uint_fast8_t>();
CHECK(json(n) == j);
}
SECTION("uint16_fast_t")
{
auto n = j.get<uint_fast16_t>();
CHECK(json(n) == j);
}
SECTION("uint32_fast_t")
{
auto n = j.get<uint_fast32_t>();
CHECK(json(n) == j);
}
SECTION("uint64_fast_t")
{
auto n = j.get<uint_fast64_t>();
CHECK(json(n) == j);
}
SECTION("uint8_least_t")
{
auto n = j.get<uint_least8_t>();
CHECK(json(n) == j);
}
SECTION("uint16_least_t")
{
auto n = j.get<uint_least16_t>();
CHECK(json(n) == j);
}
SECTION("uint32_least_t")
{
auto n = j.get<uint_least32_t>();
CHECK(json(n) == j);
}
SECTION("uint64_least_t")
{
auto n = j.get<uint_least64_t>();
CHECK(json(n) == j);
}
SECTION("exception in case of a non-number type")
{
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<json::number_integer_t>(),
"[json.exception.type_error.302] type must be number, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::object).get<json::number_integer_t>(),
"[json.exception.type_error.302] type must be number, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::array).get<json::number_integer_t>(),
"[json.exception.type_error.302] type must be number, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::string).get<json::number_integer_t>(),
"[json.exception.type_error.302] type must be number, but is string", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::boolean).get<json::number_integer_t>(),
"[json.exception.type_error.302] type must be number, but is "
"boolean", json::type_error&);
CHECK_NOTHROW(
json(json::value_t::number_float).get<json::number_integer_t>());
CHECK_NOTHROW(
json(json::value_t::number_float).get<json::number_unsigned_t>());
}
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get an integer number (implicit)")
{
json::number_integer_t const n_reference{42};
json j(n_reference);
json::number_unsigned_t const n_unsigned_reference{42u};
json j_unsigned(n_unsigned_reference);
SECTION("number_integer_t")
{
auto n = j.get<json::number_integer_t>();
CHECK(json(n) == j);
}
SECTION("number_unsigned_t")
{
auto n = j_unsigned.get<json::number_unsigned_t>();
CHECK(json(n) == j_unsigned);
}
SECTION("short")
{
short const n = j;
CHECK(json(n) == j);
}
SECTION("unsigned short")
{
unsigned short const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("int")
{
int const n = j;
CHECK(json(n) == j);
}
SECTION("unsigned int")
{
unsigned int const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("long")
{
long const n = j;
CHECK(json(n) == j);
}
SECTION("unsigned long")
{
unsigned long const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("long long")
{
long long const n = j;
CHECK(json(n) == j);
}
SECTION("unsigned long long")
{
unsigned long long const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("int8_t")
{
int8_t const n = j;
CHECK(json(n) == j);
}
SECTION("int16_t")
{
int16_t const n = j;
CHECK(json(n) == j);
}
SECTION("int32_t")
{
int32_t const n = j;
CHECK(json(n) == j);
}
SECTION("int64_t")
{
int64_t const n = j;
CHECK(json(n) == j);
}
SECTION("int8_fast_t")
{
int_fast8_t const n = j;
CHECK(json(n) == j);
}
SECTION("int16_fast_t")
{
int_fast16_t const n = j;
CHECK(json(n) == j);
}
SECTION("int32_fast_t")
{
int_fast32_t const n = j;
CHECK(json(n) == j);
}
SECTION("int64_fast_t")
{
int_fast64_t const n = j;
CHECK(json(n) == j);
}
SECTION("int8_least_t")
{
int_least8_t const n = j;
CHECK(json(n) == j);
}
SECTION("int16_least_t")
{
int_least16_t const n = j;
CHECK(json(n) == j);
}
SECTION("int32_least_t")
{
int_least32_t const n = j;
CHECK(json(n) == j);
}
SECTION("int64_least_t")
{
int_least64_t const n = j;
CHECK(json(n) == j);
}
SECTION("uint8_t")
{
uint8_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint16_t")
{
uint16_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint32_t")
{
uint32_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint64_t")
{
uint64_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint8_fast_t")
{
uint_fast8_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint16_fast_t")
{
uint_fast16_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint32_fast_t")
{
uint_fast32_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint64_fast_t")
{
uint_fast64_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint8_least_t")
{
uint_least8_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint16_least_t")
{
uint_least16_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint32_least_t")
{
uint_least32_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
SECTION("uint64_least_t")
{
uint_least64_t const n = j_unsigned;
CHECK(json(n) == j_unsigned);
}
}
#endif
SECTION("get a floating-point number (explicit)")
{
json::number_float_t const n_reference{42.23};
json const j(n_reference);
SECTION("number_float_t")
{
auto n = j.get<json::number_float_t>();
CHECK(json(n).m_data.m_value.number_float == Approx(j.m_data.m_value.number_float));
}
SECTION("float")
{
auto n = j.get<float>();
CHECK(json(n).m_data.m_value.number_float == Approx(j.m_data.m_value.number_float));
}
SECTION("double")
{
auto n = j.get<double>();
CHECK(json(n).m_data.m_value.number_float == Approx(j.m_data.m_value.number_float));
}
SECTION("exception in case of a non-string type")
{
CHECK_THROWS_WITH_AS(
json(json::value_t::null).get<json::number_float_t>(),
"[json.exception.type_error.302] type must be number, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::object).get<json::number_float_t>(),
"[json.exception.type_error.302] type must be number, but is object", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::array).get<json::number_float_t>(),
"[json.exception.type_error.302] type must be number, but is array", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::string).get<json::number_float_t>(),
"[json.exception.type_error.302] type must be number, but is string", json::type_error&);
CHECK_THROWS_WITH_AS(
json(json::value_t::boolean).get<json::number_float_t>(),
"[json.exception.type_error.302] type must be number, but is "
"boolean", json::type_error&);
CHECK_NOTHROW(
json(json::value_t::number_integer).get<json::number_float_t>());
CHECK_NOTHROW(
json(json::value_t::number_unsigned).get<json::number_float_t>());
}
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get a floating-point number (implicit)")
{
json::number_float_t const n_reference{42.23};
json const j(n_reference);
SECTION("number_float_t")
{
json::number_float_t const n = j;
CHECK(json(n).m_data.m_value.number_float == Approx(j.m_data.m_value.number_float));
}
SECTION("float")
{
float const n = j;
CHECK(json(n).m_data.m_value.number_float == Approx(j.m_data.m_value.number_float));
}
SECTION("double")
{
double const n = j;
CHECK(json(n).m_data.m_value.number_float == Approx(j.m_data.m_value.number_float));
}
}
#endif
SECTION("get a binary value (explicit)")
{
json::binary_t const n_reference{{1, 2, 3}};
json j(n_reference);
SECTION("binary_t")
{
json::binary_t const b = j.get<json::binary_t>();
CHECK(*json(b).m_data.m_value.binary == *j.m_data.m_value.binary);
}
SECTION("get_binary()")
{
SECTION("non-const")
{
auto& b = j.get_binary();
CHECK(*json(b).m_data.m_value.binary == *j.m_data.m_value.binary);
}
SECTION("non-const")
{
const json j_const = j;
const auto& b = j_const.get_binary();
CHECK(*json(b).m_data.m_value.binary == *j.m_data.m_value.binary);
}
}
SECTION("exception in case of a non-string type")
{
json j_null(json::value_t::null);
json j_object(json::value_t::object);
json j_array(json::value_t::array);
json j_string(json::value_t::string);
json j_boolean(json::value_t::boolean);
const json j_null_const(json::value_t::null);
const json j_object_const(json::value_t::object);
const json j_array_const(json::value_t::array);
const json j_string_const(json::value_t::string);
const json j_boolean_const(json::value_t::boolean);
CHECK_THROWS_WITH_AS(j_null.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is null",
json::type_error&);
CHECK_THROWS_WITH_AS(j_object.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is object",
json::type_error&);
CHECK_THROWS_WITH_AS(j_array.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is array",
json::type_error&);
CHECK_THROWS_WITH_AS(j_string.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is string",
json::type_error&);
CHECK_THROWS_WITH_AS(j_boolean.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is boolean",
json::type_error&);
CHECK_THROWS_WITH_AS(j_null_const.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is null",
json::type_error&);
CHECK_THROWS_WITH_AS(j_object_const.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is object",
json::type_error&);
CHECK_THROWS_WITH_AS(j_array_const.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is array",
json::type_error&);
CHECK_THROWS_WITH_AS(j_string_const.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is string",
json::type_error&);
CHECK_THROWS_WITH_AS(j_boolean_const.get<json::binary_t>(),
"[json.exception.type_error.302] type must be binary, but is boolean",
json::type_error&);
CHECK_THROWS_WITH_AS(j_null.get_binary(),
"[json.exception.type_error.302] type must be binary, but is null",
json::type_error&);
CHECK_THROWS_WITH_AS(j_object.get_binary(),
"[json.exception.type_error.302] type must be binary, but is object",
json::type_error&);
CHECK_THROWS_WITH_AS(j_array.get_binary(),
"[json.exception.type_error.302] type must be binary, but is array",
json::type_error&);
CHECK_THROWS_WITH_AS(j_string.get_binary(),
"[json.exception.type_error.302] type must be binary, but is string",
json::type_error&);
CHECK_THROWS_WITH_AS(j_boolean.get_binary(),
"[json.exception.type_error.302] type must be binary, but is boolean",
json::type_error&);
CHECK_THROWS_WITH_AS(j_null_const.get_binary(),
"[json.exception.type_error.302] type must be binary, but is null",
json::type_error&);
CHECK_THROWS_WITH_AS(j_object_const.get_binary(),
"[json.exception.type_error.302] type must be binary, but is object",
json::type_error&);
CHECK_THROWS_WITH_AS(j_array_const.get_binary(),
"[json.exception.type_error.302] type must be binary, but is array",
json::type_error&);
CHECK_THROWS_WITH_AS(j_string_const.get_binary(),
"[json.exception.type_error.302] type must be binary, but is string",
json::type_error&);
CHECK_THROWS_WITH_AS(j_boolean_const.get_binary(),
"[json.exception.type_error.302] type must be binary, but is boolean",
json::type_error&);
}
}
#if JSON_USE_IMPLICIT_CONVERSIONS
SECTION("get a binary value (implicit)")
{
json::binary_t const n_reference{{1, 2, 3}};
json const j(n_reference);
SECTION("binary_t")
{
json::binary_t const b = j;
CHECK(*json(b).m_data.m_value.binary == *j.m_data.m_value.binary);
}
}
#endif
SECTION("get an enum")
{
enum c_enum { value_1, value_2 };
enum class cpp_enum { value_1, value_2 };
CHECK(json(value_1).get<c_enum>() == value_1);
CHECK(json(cpp_enum::value_1).get<cpp_enum>() == cpp_enum::value_1);
}
SECTION("more involved conversions")
{
SECTION("object-like STL containers")
{
json const j1 = {{"one", 1}, {"two", 2}, {"three", 3}};
json const j2 = {{"one", 1u}, {"two", 2u}, {"three", 3u}};
json const j3 = {{"one", 1.1}, {"two", 2.2}, {"three", 3.3}};
json const j4 = {{"one", true}, {"two", false}, {"three", true}};
json const j5 = {{"one", "eins"}, {"two", "zwei"}, {"three", "drei"}};
SECTION("std::map")
{
j1.get<std::map<std::string, int>>();
j2.get<std::map<std::string, unsigned int>>();
j3.get<std::map<std::string, double>>();
j4.get<std::map<std::string, bool>>();
j5.get<std::map<std::string, std::string>>();
}
SECTION("std::unordered_map")
{
j1.get<std::unordered_map<std::string, int>>();
j2.get<std::unordered_map<std::string, unsigned int>>();
j3.get<std::unordered_map<std::string, double>>();
j4.get<std::unordered_map<std::string, bool>>();
j5.get<std::unordered_map<std::string, std::string>>();
// CHECK(m5["one"] == "eins");
}
SECTION("std::multimap")
{
j1.get<std::multimap<std::string, int>>();
j2.get<std::multimap<std::string, unsigned int>>();
j3.get<std::multimap<std::string, double>>();
j4.get<std::multimap<std::string, bool>>();
j5.get<std::multimap<std::string, std::string>>();
// CHECK(m5["one"] == "eins");
}
SECTION("std::unordered_multimap")
{
j1.get<std::unordered_multimap<std::string, int>>();
j2.get<std::unordered_multimap<std::string, unsigned int>>();
j3.get<std::unordered_multimap<std::string, double>>();
j4.get<std::unordered_multimap<std::string, bool>>();
j5.get<std::unordered_multimap<std::string, std::string>>();
// CHECK(m5["one"] == "eins");
}
SECTION("exception in case of a non-object type")
{
CHECK_THROWS_WITH_AS(
(json().get<std::map<std::string, int>>()),
"[json.exception.type_error.302] type must be object, but is null", json::type_error&);
}
}
SECTION("array-like STL containers")
{
json const j1 = {1, 2, 3, 4};
json const j2 = {1u, 2u, 3u, 4u};
json const j3 = {1.2, 2.3, 3.4, 4.5};
json const j4 = {true, false, true};
json const j5 = {"one", "two", "three"};
SECTION("std::list")
{
j1.get<std::list<int>>();
j2.get<std::list<unsigned int>>();
j3.get<std::list<double>>();
j4.get<std::list<bool>>();
j5.get<std::list<std::string>>();
}
SECTION("std::forward_list")
{
j1.get<std::forward_list<int>>();
j2.get<std::forward_list<unsigned int>>();
j3.get<std::forward_list<double>>();
j4.get<std::forward_list<bool>>();
j5.get<std::forward_list<std::string>>();
}
SECTION("std::array")
{
j1.get<std::array<int, 4>>();
j2.get<std::array<unsigned int, 3>>();
j3.get<std::array<double, 4>>();
j4.get<std::array<bool, 3>>();
j5.get<std::array<std::string, 3>>();
SECTION("std::array is larger than JSON")
{
std::array<int, 6> arr6 = {{1, 2, 3, 4, 5, 6}};
CHECK_THROWS_WITH_AS(j1.get_to(arr6), "[json.exception.out_of_range.401] "
"array index 4 is out of range", json::out_of_range&);
}
SECTION("std::array is smaller than JSON")
{
std::array<int, 2> arr2 = {{8, 9}};
j1.get_to(arr2);
CHECK(arr2[0] == 1);
CHECK(arr2[1] == 2);
}
}
SECTION("std::valarray")
{
j1.get<std::valarray<int>>();
j2.get<std::valarray<unsigned int>>();
j3.get<std::valarray<double>>();
j4.get<std::valarray<bool>>();
j5.get<std::valarray<std::string>>();
}
SECTION("std::vector")
{
j1.get<std::vector<int>>();
j2.get<std::vector<unsigned int>>();
j3.get<std::vector<double>>();
j4.get<std::vector<bool>>();
j5.get<std::vector<std::string>>();
}
SECTION("std::deque")
{
j1.get<std::deque<int>>();
j2.get<std::deque<unsigned int>>();
j2.get<std::deque<double>>();
j4.get<std::deque<bool>>();
j5.get<std::deque<std::string>>();
}
SECTION("std::set")
{
j1.get<std::set<int>>();
j2.get<std::set<unsigned int>>();
j3.get<std::set<double>>();
j4.get<std::set<bool>>();
j5.get<std::set<std::string>>();
}
SECTION("std::unordered_set")
{
j1.get<std::unordered_set<int>>();
j2.get<std::unordered_set<unsigned int>>();
j3.get<std::unordered_set<double>>();
j4.get<std::unordered_set<bool>>();
j5.get<std::unordered_set<std::string>>();
}
SECTION("std::map (array of pairs)")
{
std::map<int, int> m{{0, 1}, {1, 2}, {2, 3}};
json const j6 = m;
auto m2 = j6.get<std::map<int, int>>();
CHECK(m == m2);
json const j7 = {0, 1, 2, 3};
json const j8 = 2;
CHECK_THROWS_WITH_AS((j7.get<std::map<int, int>>()),
"[json.exception.type_error.302] type must be array, "
"but is number", json::type_error&);
CHECK_THROWS_WITH_AS((j8.get<std::map<int, int>>()),
"[json.exception.type_error.302] type must be array, "
"but is number", json::type_error&);
SECTION("superfluous entries")
{
json const j9 = {{0, 1, 2}, {1, 2, 3}, {2, 3, 4}};
m2 = j9.get<std::map<int, int>>();
CHECK(m == m2);
}
}
SECTION("std::unordered_map (array of pairs)")
{
std::unordered_map<int, int> m{{0, 1}, {1, 2}, {2, 3}};
json const j6 = m;
auto m2 = j6.get<std::unordered_map<int, int>>();
CHECK(m == m2);
json const j7 = {0, 1, 2, 3};
json const j8 = 2;
CHECK_THROWS_WITH_AS((j7.get<std::unordered_map<int, int>>()),
"[json.exception.type_error.302] type must be array, "
"but is number", json::type_error&);
CHECK_THROWS_WITH_AS((j8.get<std::unordered_map<int, int>>()),
"[json.exception.type_error.302] type must be array, "
"but is number", json::type_error&);
SECTION("superfluous entries")
{
json const j9{{0, 1, 2}, {1, 2, 3}, {2, 3, 4}};
m2 = j9.get<std::unordered_map<int, int>>();
CHECK(m == m2);
}
}
SECTION("exception in case of a non-object type")
{
// 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_AS(
(json().get<std::list<int>>()),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
(json().get<std::vector<int>>()),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
(json().get<std::vector<json>>()),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
(json().get<std::list<json>>()),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
(json().get<std::valarray<int>>()),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
CHECK_THROWS_WITH_AS(
(json().get<std::map<int, int>>()),
"[json.exception.type_error.302] type must be array, but is null", json::type_error&);
}
}
}
}
enum class cards {kreuz, pik, herz, karo};
// NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,hicpp-avoid-c-arrays,modernize-avoid-c-arrays) - false positive
NLOHMANN_JSON_SERIALIZE_ENUM(cards,
{
{cards::kreuz, "kreuz"},
{cards::pik, "pik"},
{cards::pik, "puk"}, // second entry for cards::puk; will not be used
{cards::herz, "herz"},
{cards::karo, "karo"}
})
enum TaskState
{
TS_STOPPED,
TS_RUNNING,
TS_COMPLETED,
TS_INVALID = -1,
};
// NOLINTNEXTLINE(cppcoreguidelines-avoid-c-arrays,hicpp-avoid-c-arrays,modernize-avoid-c-arrays) - false positive
NLOHMANN_JSON_SERIALIZE_ENUM(TaskState,
{
{TS_INVALID, nullptr},
{TS_STOPPED, "stopped"},
{TS_RUNNING, "running"},
{TS_COMPLETED, "completed"},
})
TEST_CASE("JSON to enum mapping")
{
SECTION("enum class")
{
// enum -> json
CHECK(json(cards::kreuz) == "kreuz");
CHECK(json(cards::pik) == "pik");
CHECK(json(cards::herz) == "herz");
CHECK(json(cards::karo) == "karo");
// json -> enum
CHECK(cards::kreuz == json("kreuz"));
CHECK(cards::pik == json("pik"));
CHECK(cards::herz == json("herz"));
CHECK(cards::karo == json("karo"));
// invalid json -> first enum
CHECK(cards::kreuz == json("what?").get<cards>());
}
SECTION("traditional enum")
{
// enum -> json
CHECK(json(TS_STOPPED) == "stopped");
CHECK(json(TS_RUNNING) == "running");
CHECK(json(TS_COMPLETED) == "completed");
CHECK(json(TS_INVALID) == json());
// json -> enum
CHECK(TS_STOPPED == json("stopped"));
CHECK(TS_RUNNING == json("running"));
CHECK(TS_COMPLETED == json("completed"));
CHECK(TS_INVALID == json());
// invalid json -> first enum
CHECK(TS_INVALID == json("what?").get<TaskState>());
}
}
DOCTEST_CLANG_SUPPRESS_WARNING_POP