json/test/src/unit-udt.cpp

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/*
__ _____ _____ _____
__| | __| | | | JSON for Modern C++ (test suite)
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| | |__ | | | | | | version 2.0.7
|_____|_____|_____|_|___| https://github.com/nlohmann/json
Licensed under the MIT License <http://opensource.org/licenses/MIT>.
Copyright (c) 2013-2016 Niels Lohmann <http://nlohmann.me>.
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 <string>
#include <memory>
#include "catch.hpp"
#include "json.hpp"
using nlohmann::json;
namespace udt
{
struct empty_type {};
struct pod_type {
int a;
char b;
short c;
};
struct bit_more_complex_type {
pod_type a;
pod_type b;
std::string c;
};
// best optional implementation ever
template <typename T>
class optional_type
{
public:
optional_type() = default;
explicit optional_type(T val) : _val(std::make_shared<T>(std::move(val))) {}
explicit operator bool() const noexcept { return _val != nullptr; }
T const &operator*() const { return *_val; }
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optional_type& operator=(T const& t)
{
_val = std::make_shared<T>(t);
return *this;
}
private:
std::shared_ptr<T> _val;
};
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// free to/from_json functions
void to_json(json& j, empty_type)
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{
j = json::object();
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}
void to_json(json& j, pod_type const& p)
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{
j = json{{"a", p.a}, {"b", p.b}, {"c", p.c}};
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}
void to_json(json& j, bit_more_complex_type const& p)
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{
j = json{{"a", json(p.a)}, {"b", json(p.b)}, {"c", p.c}};
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}
template <typename T>
void to_json(json& j, optional_type<T> const& opt)
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{
if (!opt)
j = nullptr;
else
j = json(*opt);
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}
void from_json(json const& j, empty_type& t)
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{
assert(j.empty());
t = empty_type{};
}
void from_json(json const&j, pod_type& t)
{
t = {j["a"].get<int>(), j["b"].get<char>(), j["c"].get<short>()};
}
void from_json(json const&j, bit_more_complex_type& t)
{
// relying on json_traits struct here..
t = {j["a"].get<udt::pod_type>(), j["b"].get<udt::pod_type>(),
j["c"].get<std::string>()};
}
template <typename T>
void from_json(json const& j, optional_type<T>& t)
{
if (j.is_null())
t = optional_type<T>{};
else
t = j.get<T>();
}
inline bool operator==(pod_type const& lhs, pod_type const& rhs) noexcept
{
return std::tie(lhs.a, lhs.b, lhs.c) == std::tie(rhs.a, rhs.b, rhs.c);
}
inline bool operator==(bit_more_complex_type const &lhs,
bit_more_complex_type const &rhs) noexcept {
return std::tie(lhs.a, lhs.b, lhs.c) == std::tie(rhs.a, rhs.b, rhs.c);
}
template <typename T>
inline bool operator==(optional_type<T> const& lhs, optional_type<T> const& rhs)
{
if (!lhs && !rhs)
return true;
if (!lhs || !rhs)
return false;
return *lhs == *rhs;
}
}
TEST_CASE("constructors for user-defined types", "[udt]")
{
SECTION("empty type")
{
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udt::empty_type const e{};
auto const j = json{e};
auto k = json::object();
CHECK(j == k);
}
SECTION("pod type")
{
auto const e = udt::pod_type{42, 42, 42};
auto j = json{e};
auto k = json{{"a", 42}, {"b", 42}, {"c", 42}};
CHECK(j == k);
}
SECTION("bit more complex type")
{
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
auto j = json{e};
auto k = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
CHECK(j == k);
}
SECTION("vector of udt")
{
std::vector<udt::bit_more_complex_type> v;
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
v.emplace_back(e);
v.emplace_back(e);
v.emplace_back(e);
json j = v;
auto k = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
auto l = json{k, k, k};
CHECK(j == l);
}
SECTION("optional type") {
SECTION("regular case") {
udt::optional_type<int> u{3};
CHECK(json{u} == json(3));
}
SECTION("nullopt case") {
udt::optional_type<float> v;
CHECK(json{v} == json{});
}
SECTION("optional of json convertible type")
{
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
udt::optional_type<udt::bit_more_complex_type> o{e};
auto k = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
CHECK(json{o} == k);
}
SECTION("optional of vector of json convertible type")
{
std::vector<udt::bit_more_complex_type> v;
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
v.emplace_back(e);
v.emplace_back(e);
v.emplace_back(e);
udt::optional_type<std::vector<udt::bit_more_complex_type>> o{v};
auto k = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
auto l = json{k, k, k};
CHECK(json{o} == l);
}
}
}
TEST_CASE("get<> for user-defined types", "[udt]")
{
SECTION("pod type")
{
auto const e = udt::pod_type{42, 42, 42};
auto const j = json{{"a", 42}, {"b", 42}, {"c", 42}};
auto const obj = j.get<udt::pod_type>();
CHECK(e == obj);
}
SECTION("bit more complex type")
{
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
auto const j = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
auto const obj = j.get<udt::bit_more_complex_type>();
CHECK(e == obj);
}
SECTION("vector of udt")
{
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
std::vector<udt::bit_more_complex_type> v{e, e, e};
auto const j = json(v);
auto const obj = j.get<decltype(v)>();
CHECK(v == obj);
}
SECTION("optional")
{
SECTION("from null")
{
udt::optional_type<int> o;
json j;
CHECK(j.get<decltype(o)>() == o);
}
SECTION("from value")
{
json j{{"a", 42}, {"b", 42}, {"c", 42}};
auto v = j.get<udt::optional_type<udt::pod_type>>();
auto expected = udt::pod_type{42,42,42};
REQUIRE(v);
CHECK(*v == expected);
}
}
}
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TEST_CASE("to_json free function", "[udt]")
{
SECTION("pod_type")
{
auto const e = udt::pod_type{42, 42, 42};
auto const expected = json{{"a", 42}, {"b", 42}, {"c", 42}};
json j;
nlohmann::to_json(j, e);
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CHECK(j == expected);
}
SECTION("bit_more_complex_type")
{
auto const e =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
auto const expected = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
json j;
nlohmann::to_json(j, e);
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CHECK(j == expected);
}
SECTION("optional_type")
{
SECTION("from null")
{
udt::optional_type<udt::pod_type> o;
json expected;
json j;
nlohmann::to_json(j, o);
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CHECK(expected == j);
}
SECTION("from value")
{
udt::optional_type<udt::pod_type> o{{42, 42, 42}};
auto const expected = json{{"a", 42}, {"b", 42}, {"c", 42}};
json j;
nlohmann::to_json(j, o);
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CHECK(expected == j);
}
}
}
TEST_CASE("from_json free function", "[udt]")
{
SECTION("pod_type")
{
auto const expected = udt::pod_type{42, 42, 42};
auto const j = json{{"a", 42}, {"b", 42}, {"c", 42}};
udt::pod_type p;
nlohmann::from_json(j, p);
CHECK(p == expected);
}
SECTION("bit_more_complex_type")
{
auto const expected =
udt::bit_more_complex_type{{42, 42, 42}, {41, 41, 41}, "forty"};
auto const j = json{{"a", {{"a", 42}, {"b", 42}, {"c", 42}}},
{"b", {{"a", 41}, {"b", 41}, {"c", 41}}},
{"c", "forty"}};
udt::bit_more_complex_type p;
nlohmann::from_json(j, p);
CHECK(p == expected);
}
SECTION("optional_type")
{
SECTION("from null")
{
udt::optional_type<udt::pod_type> expected;
json j;
udt::optional_type<udt::pod_type> o;
nlohmann::from_json(j, o);
CHECK(expected == o);
}
SECTION("from value")
{
udt::optional_type<udt::pod_type> expected{{42, 42, 42}};
auto const j = json{{"a", 42}, {"b", 42}, {"c", 42}};
udt::optional_type<udt::pod_type> o;
nlohmann::from_json(j, o);
CHECK(expected == o);
}
}
}
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// custom serializer, uses adl by default
template <typename T, typename = void>
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struct my_serializer
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{
template <typename Json>
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static void from_json(Json const& j, T& val)
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{
nlohmann::from_json(j, val);
}
template <typename Json>
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static void to_json(Json& j, T const& val)
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{
nlohmann::to_json(j, val);
}
};
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/*using my_json = nlohmann::basic_json<std::map, std::vector, std::string, bool,
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std::int64_t, std::uint64_t, double,
std::allocator, my_serializer>;
namespace udt
{
void to_json(my_json& j, pod_type const& val)
{
j = my_json{{"a", val.a}, {"b", val.b}, {"c", val.c}};
}
void from_json(my_json const& j, pod_type& val)
{
val = {j["a"].get<int>(), j["b"].get<char>(), j["c"].get<short>()};
}
}
TEST_CASE("custom serializer")
{
SECTION("default use works like default serializer")
{
udt::pod_type pod{1, 2, 3};
auto const j = my_json{pod};
auto const j2 = json{pod};
CHECK(j.dump() == j2.dump());
auto const pod2 = j.get<udt::pod_type>();
auto const pod3 = j2.get<udt::pod_type>();
CHECK(pod2 == pod3);
CHECK(pod2 == pod);
}
}
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*/