json/test/unit.cpp

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/*!
@file
@copyright The code is licensed under the MIT License
<http://opensource.org/licenses/MIT>,
Copyright (c) 2013-2015 Niels Lohmann.
@author Niels Lohmann <http://nlohmann.me>
@see https://github.com/nlohmann/json
*/
#define CATCH_CONFIG_MAIN
#include "catch.hpp"
#include <array>
#include <deque>
#include <forward_list>
#include <list>
#include <map>
#include <set>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <vector>
#define private public
#include "json.hpp"
using nlohmann::json;
TEST_CASE("constructors")
{
SECTION("create an empty value with a given type")
{
SECTION("null")
{
auto t = json::value_t::null;
json j(t);
CHECK(j.type() == t);
}
SECTION("discarded")
{
auto t = json::value_t::discarded;
json j(t);
CHECK(j.type() == t);
}
SECTION("object")
{
auto t = json::value_t::object;
json j(t);
CHECK(j.type() == t);
}
SECTION("array")
{
auto t = json::value_t::array;
json j(t);
CHECK(j.type() == t);
}
SECTION("boolean")
{
auto t = json::value_t::boolean;
json j(t);
CHECK(j.type() == t);
}
SECTION("string")
{
auto t = json::value_t::string;
json j(t);
CHECK(j.type() == t);
}
SECTION("number_integer")
{
auto t = json::value_t::number_integer;
json j(t);
CHECK(j.type() == t);
}
SECTION("number_float")
{
auto t = json::value_t::number_float;
json j(t);
CHECK(j.type() == t);
}
}
SECTION("create a null object (implicitly)")
{
SECTION("no parameter")
{
json j{};
CHECK(j.type() == json::value_t::null);
}
}
SECTION("create a null object (explicitly)")
{
SECTION("parameter")
{
json j(nullptr);
CHECK(j.type() == json::value_t::null);
}
}
SECTION("create an object (explicit)")
{
SECTION("empty object")
{
json::object_t o;
json j(o);
CHECK(j.type() == json::value_t::object);
}
SECTION("filled object")
{
json::object_t o {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j(o);
CHECK(j.type() == json::value_t::object);
}
}
SECTION("create an object (implicit)")
{
// reference object
json::object_t o_reference {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j_reference(o_reference);
SECTION("std::map<json::string_t, json>")
{
std::map<json::string_t, json> o {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j(o);
CHECK(j.type() == json::value_t::object);
CHECK(j == j_reference);
}
SECTION("std::map<const char*, json>")
{
std::map<const char*, json> o {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j(o);
CHECK(j.type() == json::value_t::object);
CHECK(j == j_reference);
}
SECTION("std::multimap<json::string_t, json>")
{
std::multimap<json::string_t, json> o {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j(o);
CHECK(j.type() == json::value_t::object);
CHECK(j == j_reference);
}
SECTION("std::unordered_map<json::string_t, json>")
{
std::unordered_map<json::string_t, json> o {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j(o);
CHECK(j.type() == json::value_t::object);
CHECK(j == j_reference);
}
SECTION("std::unordered_multimap<json::string_t, json>")
{
std::unordered_multimap<json::string_t, json> o {{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}};
json j(o);
CHECK(j.type() == json::value_t::object);
CHECK(j == j_reference);
}
SECTION("associative container literal")
{
json j({{"a", json(1)}, {"b", json(2.2)}, {"c", json(false)}, {"d", json("string")}, {"e", json()}});
CHECK(j.type() == json::value_t::object);
CHECK(j == j_reference);
}
}
SECTION("create an array (explicit)")
{
SECTION("empty array")
{
json::array_t a;
json j(a);
CHECK(j.type() == json::value_t::array);
}
SECTION("filled array")
{
json::array_t a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
}
}
SECTION("create an array (implicit)")
{
// reference array
json::array_t a_reference {json(1), json(2.2), json(false), json("string"), json()};
json j_reference(a_reference);
SECTION("std::list<json>")
{
std::list<json> a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
CHECK(j == j_reference);
}
SECTION("std::forward_list<json>")
{
std::forward_list<json> a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
CHECK(j == j_reference);
}
SECTION("std::array<json, 5>")
{
std::array<json, 5> a {{json(1), json(2.2), json(false), json("string"), json()}};
json j(a);
CHECK(j.type() == json::value_t::array);
CHECK(j == j_reference);
}
SECTION("std::vector<json>")
{
std::vector<json> a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
CHECK(j == j_reference);
}
SECTION("std::deque<json>")
{
std::deque<json> a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
CHECK(j == j_reference);
}
SECTION("std::set<json>")
{
std::set<json> a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
// we cannot really check for equality here
}
SECTION("std::unordered_set<json>")
{
std::unordered_set<json> a {json(1), json(2.2), json(false), json("string"), json()};
json j(a);
CHECK(j.type() == json::value_t::array);
// we cannot really check for equality here
}
SECTION("sequence container literal")
{
json j({json(1), json(2.2), json(false), json("string"), json()});
CHECK(j.type() == json::value_t::array);
CHECK(j == j_reference);
}
}
SECTION("create a string (explicit)")
{
SECTION("empty string")
{
json::string_t s;
json j(s);
CHECK(j.type() == json::value_t::string);
}
SECTION("filled string")
{
json::string_t s {"Hello world"};
json j(s);
CHECK(j.type() == json::value_t::string);
}
}
SECTION("create a string (implicit)")
{
// reference string
json::string_t s_reference {"Hello world"};
json j_reference(s_reference);
SECTION("std::string")
{
std::string s {"Hello world"};
json j(s);
CHECK(j.type() == json::value_t::string);
CHECK(j == j_reference);
}
SECTION("char[]")
{
char s[] {"Hello world"};
json j(s);
CHECK(j.type() == json::value_t::string);
CHECK(j == j_reference);
}
SECTION("const char*")
{
const char* s {"Hello world"};
json j(s);
CHECK(j.type() == json::value_t::string);
CHECK(j == j_reference);
}
SECTION("string literal")
{
json j("Hello world");
CHECK(j.type() == json::value_t::string);
CHECK(j == j_reference);
}
}
SECTION("create a boolean (explicit)")
{
SECTION("empty boolean")
{
json::boolean_t b{};
json j(b);
CHECK(j.type() == json::value_t::boolean);
}
SECTION("filled boolean (true)")
{
json j(true);
CHECK(j.type() == json::value_t::boolean);
}
SECTION("filled boolean (false)")
{
json j(false);
CHECK(j.type() == json::value_t::boolean);
}
}
SECTION("create an integer number (explicit)")
{
SECTION("uninitialized value")
{
json::number_integer_t n{};
json j(n);
CHECK(j.type() == json::value_t::number_integer);
}
SECTION("initialized value")
{
json::number_integer_t n(42);
json j(n);
CHECK(j.type() == json::value_t::number_integer);
}
}
SECTION("create an integer number (implicit)")
{
// reference object
json::number_integer_t n_reference = 42;
json j_reference(n_reference);
SECTION("short")
{
short n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("unsigned short")
{
unsigned short n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int")
{
int n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("unsigned int")
{
unsigned int n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("long")
{
long n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("unsigned long")
{
short n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("long long")
{
long long n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("unsigned long long")
{
unsigned long long n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int8_t")
{
int8_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int16_t")
{
int16_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int32_t")
{
int32_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int64_t")
{
int64_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_fast8_t")
{
int_fast8_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_fast16_t")
{
int_fast16_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_fast32_t")
{
int_fast32_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_fast64_t")
{
int_fast64_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_least8_t")
{
int_least8_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_least16_t")
{
int_least16_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_least32_t")
{
int_least32_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("int_least64_t")
{
int_least64_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint8_t")
{
uint8_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint16_t")
{
uint16_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint32_t")
{
uint32_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint64_t")
{
uint64_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_fast8_t")
{
uint_fast8_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_fast16_t")
{
uint_fast16_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_fast32_t")
{
uint_fast32_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_fast64_t")
{
uint_fast64_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_least8_t")
{
uint_least8_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_least16_t")
{
uint_least16_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_least32_t")
{
uint_least32_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("uint_least64_t")
{
uint_least64_t n = 42;
json j(n);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("integer literal without suffix")
{
json j(42);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("integer literal with u suffix")
{
json j(42u);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("integer literal with l suffix")
{
json j(42l);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("integer literal with ul suffix")
{
json j(42ul);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("integer literal with ll suffix")
{
json j(42ll);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
SECTION("integer literal with ull suffix")
{
json j(42ull);
CHECK(j.type() == json::value_t::number_integer);
CHECK(j == j_reference);
}
}
SECTION("create a floating-point number (explicit)")
{
SECTION("uninitialized value")
{
json::number_float_t n{};
json j(n);
CHECK(j.type() == json::value_t::number_float);
}
SECTION("initialized value")
{
json::number_float_t n(42.23);
json j(n);
CHECK(j.type() == json::value_t::number_float);
}
}
SECTION("create a floating-point number (implicit)")
{
// reference object
json::number_float_t n_reference = 42.23;
json j_reference(n_reference);
SECTION("float")
{
float n = 42.23;
json j(n);
CHECK(j.type() == json::value_t::number_float);
CHECK(j.m_value.number_float == Approx(j_reference.m_value.number_float));
}
SECTION("double")
{
double n = 42.23;
json j(n);
CHECK(j.type() == json::value_t::number_float);
CHECK(j.m_value.number_float == Approx(j_reference.m_value.number_float));
}
SECTION("long double")
{
long double n = 42.23;
json j(n);
CHECK(j.type() == json::value_t::number_float);
CHECK(j.m_value.number_float == Approx(j_reference.m_value.number_float));
}
SECTION("floating-point literal without suffix")
{
json j(42.23);
CHECK(j.type() == json::value_t::number_float);
CHECK(j.m_value.number_float == Approx(j_reference.m_value.number_float));
}
SECTION("integer literal with f suffix")
{
json j(42.23f);
CHECK(j.type() == json::value_t::number_float);
CHECK(j.m_value.number_float == Approx(j_reference.m_value.number_float));
}
SECTION("integer literal with l suffix")
{
json j(42.23l);
CHECK(j.type() == json::value_t::number_float);
CHECK(j.m_value.number_float == Approx(j_reference.m_value.number_float));
}
}
SECTION("create a container (array or object) from an initializer list")
{
SECTION("empty initializer list")
{
SECTION("explicit")
{
std::initializer_list<json> l;
json j(l);
CHECK(j.type() == json::value_t::object);
}
SECTION("implicit")
{
json j {};
CHECK(j.type() == json::value_t::null);
}
}
SECTION("one element")
{
SECTION("array")
{
SECTION("explicit")
{
std::initializer_list<json> l = {json(json::array_t())};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {json::array_t()};
CHECK(j.type() == json::value_t::array);
}
}
SECTION("object")
{
SECTION("explicit")
{
std::initializer_list<json> l = {json(json::object_t())};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {json::object_t()};
CHECK(j.type() == json::value_t::array);
}
}
SECTION("string")
{
SECTION("explicit")
{
std::initializer_list<json> l = {json("Hello world")};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {"Hello world"};
CHECK(j.type() == json::value_t::array);
}
}
SECTION("boolean")
{
SECTION("explicit")
{
std::initializer_list<json> l = {json(true)};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {true};
CHECK(j.type() == json::value_t::array);
}
}
SECTION("number (integer)")
{
SECTION("explicit")
{
std::initializer_list<json> l = {json(1)};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {1};
CHECK(j.type() == json::value_t::array);
}
}
SECTION("number (floating-point)")
{
SECTION("explicit")
{
std::initializer_list<json> l = {json(42.23)};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {42.23};
CHECK(j.type() == json::value_t::array);
}
}
}
SECTION("more elements")
{
SECTION("explicit")
{
std::initializer_list<json> l = {1, 42.23, true, nullptr, json::object_t(), json::array_t()};
json j(l);
CHECK(j.type() == json::value_t::array);
}
SECTION("implicit")
{
json j {1, 42.23, true, nullptr, json::object_t(), json::array_t()};
CHECK(j.type() == json::value_t::array);
}
}
SECTION("implicit type deduction")
{
SECTION("object")
{
json j { {"one", 1}, {"two", 2.2}, {"three", false} };
CHECK(j.type() == json::value_t::object);
}
SECTION("array")
{
json j { {"one", 1}, {"two", 2.2}, {"three", false}, 13 };
CHECK(j.type() == json::value_t::array);
}
}
SECTION("explicit type deduction")
{
SECTION("empty object")
{
json j = json::object();
CHECK(j.type() == json::value_t::object);
}
SECTION("object")
{
json j = json::object({ {"one", 1}, {"two", 2.2}, {"three", false} });
CHECK(j.type() == json::value_t::object);
}
SECTION("object with error")
{
CHECK_THROWS_AS(json::object({ {"one", 1}, {"two", 2.2}, {"three", false}, 13 }), std::logic_error);
}
SECTION("empty array")
{
json j = json::array();
CHECK(j.type() == json::value_t::array);
}
SECTION("array")
{
json j = json::array({ {"one", 1}, {"two", 2.2}, {"three", false} });
CHECK(j.type() == json::value_t::array);
}
}
}
SECTION("create an array of n copies of a given value")
{
json v = {1, "foo", 34.23, {1, 2, 3}, {{"A", 1}, {"B", 2}}};
json arr(3, v);
CHECK(arr.size() == 3);
for (auto& x : arr)
{
CHECK(x == v);
}
}
SECTION("create a JSON container from an iterator range")
{
SECTION("object")
{
SECTION("json(begin(), end())")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json j_new(jobject.begin(), jobject.end());
CHECK(j_new == jobject);
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json j_new(jobject.cbegin(), jobject.cend());
CHECK(j_new == jobject);
}
}
SECTION("json(begin(), begin())")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json j_new(jobject.begin(), jobject.begin());
CHECK(j_new == json::object());
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json j_new(jobject.cbegin(), jobject.cbegin());
CHECK(j_new == json::object());
}
}
SECTION("construct from subrange")
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json j_new(jobject.find("b"), jobject.find("e"));
CHECK(j_new == json({{"b", 1}, {"c", 17}, {"d", false}}));
}
SECTION("incompatible iterators")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json jobject2 = {{"a", "a"}, {"b", 1}, {"c", 17}};
CHECK_THROWS_AS(json(jobject.begin(), jobject2.end()), std::domain_error);
CHECK_THROWS_AS(json(jobject2.begin(), jobject.end()), std::domain_error);
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json jobject2 = {{"a", "a"}, {"b", 1}, {"c", 17}};
CHECK_THROWS_AS(json(jobject.cbegin(), jobject2.cend()), std::domain_error);
CHECK_THROWS_AS(json(jobject2.cbegin(), jobject.cend()), std::domain_error);
}
}
}
SECTION("array")
{
SECTION("json(begin(), end())")
{
{
json jarray = {1, 2, 3, 4, 5};
json j_new(jarray.begin(), jarray.end());
CHECK(j_new == jarray);
}
{
json jarray = {1, 2, 3, 4, 5};
json j_new(jarray.cbegin(), jarray.cend());
CHECK(j_new == jarray);
}
}
SECTION("json(begin(), begin())")
{
{
json jarray = {1, 2, 3, 4, 5};
json j_new(jarray.begin(), jarray.begin());
CHECK(j_new == json::array());
}
{
json jarray = {1, 2, 3, 4, 5};
json j_new(jarray.cbegin(), jarray.cbegin());
CHECK(j_new == json::array());
}
}
SECTION("construct from subrange")
{
{
json jarray = {1, 2, 3, 4, 5};
json j_new(jarray.begin() + 1, jarray.begin() + 3);
CHECK(j_new == json({2, 3}));
}
{
json jarray = {1, 2, 3, 4, 5};
json j_new(jarray.cbegin() + 1, jarray.cbegin() + 3);
CHECK(j_new == json({2, 3}));
}
}
SECTION("incompatible iterators")
{
{
json jarray = {1, 2, 3, 4};
json jarray2 = {2, 3, 4, 5};
CHECK_THROWS_AS(json(jarray.begin(), jarray2.end()), std::domain_error);
CHECK_THROWS_AS(json(jarray2.begin(), jarray.end()), std::domain_error);
}
{
json jarray = {1, 2, 3, 4};
json jarray2 = {2, 3, 4, 5};
CHECK_THROWS_AS(json(jarray.cbegin(), jarray2.cend()), std::domain_error);
CHECK_THROWS_AS(json(jarray2.cbegin(), jarray.cend()), std::domain_error);
}
}
}
SECTION("other values")
{
SECTION("construct with two valid iterators")
{
SECTION("null")
{
{
json j;
CHECK_THROWS_AS(json(j.begin(), j.end()), std::domain_error);
}
{
json j;
CHECK_THROWS_AS(json(j.cbegin(), j.cend()), std::domain_error);
}
}
SECTION("string")
{
{
json j = "foo";
json j_new(j.begin(), j.end());
CHECK(j == j_new);
}
{
json j = "bar";
json j_new(j.cbegin(), j.cend());
CHECK(j == j_new);
}
}
SECTION("number (boolean)")
{
{
json j = false;
json j_new(j.begin(), j.end());
CHECK(j == j_new);
}
{
json j = true;
json j_new(j.cbegin(), j.cend());
CHECK(j == j_new);
}
}
SECTION("number (integer)")
{
{
json j = 17;
json j_new(j.begin(), j.end());
CHECK(j == j_new);
}
{
json j = 17;
json j_new(j.cbegin(), j.cend());
CHECK(j == j_new);
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
json j_new(j.begin(), j.end());
CHECK(j == j_new);
}
{
json j = 23.42;
json j_new(j.cbegin(), j.cend());
CHECK(j == j_new);
}
}
}
SECTION("construct with two invalid iterators")
{
SECTION("string")
{
{
json j = "foo";
CHECK_THROWS_AS(json(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(json(j.begin(), j.begin()), std::out_of_range);
}
{
json j = "bar";
CHECK_THROWS_AS(json(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(json(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
SECTION("number (boolean)")
{
{
json j = false;
CHECK_THROWS_AS(json(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(json(j.begin(), j.begin()), std::out_of_range);
}
{
json j = true;
CHECK_THROWS_AS(json(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(json(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
SECTION("number (integer)")
{
{
json j = 17;
CHECK_THROWS_AS(json(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(json(j.begin(), j.begin()), std::out_of_range);
}
{
json j = 17;
CHECK_THROWS_AS(json(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(json(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
CHECK_THROWS_AS(json(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(json(j.begin(), j.begin()), std::out_of_range);
}
{
json j = 23.42;
CHECK_THROWS_AS(json(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(json(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
}
}
}
}
TEST_CASE("other constructors and destructor")
{
SECTION("copy constructor")
{
SECTION("object")
{
json j {{"foo", 1}, {"bar", false}};
json k(j);
CHECK(j == k);
}
SECTION("array")
{
json j {"foo", 1, 42.23, false};
json k(j);
CHECK(j == k);
}
SECTION("null")
{
json j(nullptr);
json k(j);
CHECK(j == k);
}
SECTION("boolean")
{
json j(true);
json k(j);
CHECK(j == k);
}
SECTION("string")
{
json j("Hello world");
json k(j);
CHECK(j == k);
}
SECTION("number (integer)")
{
json j(42);
json k(j);
CHECK(j == k);
}
SECTION("number (floating-point)")
{
json j(42.23);
json k(j);
CHECK(j == k);
}
}
SECTION("move constructor")
{
json j {{"foo", "bar"}, {"baz", {1, 2, 3, 4}}, {"a", 42.23}, {"b", nullptr}};
CHECK(j.type() == json::value_t::object);
json k(std::move(j));
CHECK(k.type() == json::value_t::object);
CHECK(j.type() == json::value_t::null);
}
SECTION("copy assignment")
{
SECTION("object")
{
json j {{"foo", 1}, {"bar", false}};
json k;
k = j;
CHECK(j == k);
}
SECTION("array")
{
json j {"foo", 1, 42.23, false};
json k;
k = j;
CHECK(j == k);
}
SECTION("null")
{
json j(nullptr);
json k;
k = j;
CHECK(j == k);
}
SECTION("boolean")
{
json j(true);
json k;
k = j;
CHECK(j == k);
}
SECTION("string")
{
json j("Hello world");
json k;
k = j;
CHECK(j == k);
}
SECTION("number (integer)")
{
json j(42);
json k;
k = j;
CHECK(j == k);
}
SECTION("number (floating-point)")
{
json j(42.23);
json k;
k = j;
CHECK(j == k);
}
}
SECTION("destructor")
{
SECTION("object")
{
auto j = new json {{"foo", 1}, {"bar", false}};
delete j;
}
SECTION("array")
{
auto j = new json {"foo", 1, false, 23.42};
delete j;
}
SECTION("string")
{
auto j = new json("Hello world");
delete j;
}
}
}
TEST_CASE("object inspection")
{
SECTION("convenience type checker")
{
SECTION("object")
{
json j {{"foo", 1}, {"bar", false}};
CHECK(not j.is_null());
CHECK(not j.is_boolean());
CHECK(not j.is_number());
CHECK(not j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(j.is_object());
CHECK(not j.is_array());
CHECK(not j.is_string());
CHECK(not j.is_discarded());
CHECK(not j.is_primitive());
CHECK(j.is_structured());
}
SECTION("array")
{
json j {"foo", 1, 42.23, false};
CHECK(not j.is_null());
CHECK(not j.is_boolean());
CHECK(not j.is_number());
CHECK(not j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(not j.is_object());
CHECK(j.is_array());
CHECK(not j.is_string());
CHECK(not j.is_discarded());
CHECK(not j.is_primitive());
CHECK(j.is_structured());
}
SECTION("null")
{
json j(nullptr);
CHECK(j.is_null());
CHECK(not j.is_boolean());
CHECK(not j.is_number());
CHECK(not j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(not j.is_object());
CHECK(not j.is_array());
CHECK(not j.is_string());
CHECK(not j.is_discarded());
CHECK(j.is_primitive());
CHECK(not j.is_structured());
}
SECTION("boolean")
{
json j(true);
CHECK(not j.is_null());
CHECK(j.is_boolean());
CHECK(not j.is_number());
CHECK(not j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(not j.is_object());
CHECK(not j.is_array());
CHECK(not j.is_string());
CHECK(not j.is_discarded());
CHECK(j.is_primitive());
CHECK(not j.is_structured());
}
SECTION("string")
{
json j("Hello world");
CHECK(not j.is_null());
CHECK(not j.is_boolean());
CHECK(not j.is_number());
CHECK(not j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(not j.is_object());
CHECK(not j.is_array());
CHECK(j.is_string());
CHECK(not j.is_discarded());
CHECK(j.is_primitive());
CHECK(not j.is_structured());
}
SECTION("number (integer)")
{
json j(42);
CHECK(not j.is_null());
CHECK(not j.is_boolean());
CHECK(j.is_number());
CHECK(j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(not j.is_object());
CHECK(not j.is_array());
CHECK(not j.is_string());
CHECK(not j.is_discarded());
CHECK(j.is_primitive());
CHECK(not j.is_structured());
}
SECTION("number (floating-point)")
{
json j(42.23);
CHECK(not j.is_null());
CHECK(not j.is_boolean());
CHECK(j.is_number());
CHECK(not j.is_number_integer());
CHECK(j.is_number_float());
CHECK(not j.is_object());
CHECK(not j.is_array());
CHECK(not j.is_string());
CHECK(not j.is_discarded());
CHECK(j.is_primitive());
CHECK(not j.is_structured());
}
SECTION("discarded")
{
json j(json::value_t::discarded);
CHECK(not j.is_null());
CHECK(not j.is_boolean());
CHECK(not j.is_number());
CHECK(not j.is_number_integer());
CHECK(not j.is_number_float());
CHECK(not j.is_object());
CHECK(not j.is_array());
CHECK(not j.is_string());
CHECK(j.is_discarded());
CHECK(not j.is_primitive());
CHECK(not j.is_structured());
}
}
SECTION("serialization")
{
json j {{"object", json::object()}, {"array", {1, 2, 3, 4}}, {"number", 42}, {"boolean", false}, {"null", nullptr}, {"string", "Hello world"} };
SECTION("no indent / indent=-1")
{
CHECK(j.dump() ==
"{\"array\":[1,2,3,4],\"boolean\":false,\"null\":null,\"number\":42,\"object\":{},\"string\":\"Hello world\"}");
CHECK(j.dump() == j.dump(-1));
}
SECTION("indent=0")
{
CHECK(j.dump(0) ==
"{\n\"array\": [\n1,\n2,\n3,\n4\n],\n\"boolean\": false,\n\"null\": null,\n\"number\": 42,\n\"object\": {},\n\"string\": \"Hello world\"\n}");
}
SECTION("indent=4")
{
CHECK(j.dump(4) ==
"{\n \"array\": [\n 1,\n 2,\n 3,\n 4\n ],\n \"boolean\": false,\n \"null\": null,\n \"number\": 42,\n \"object\": {},\n \"string\": \"Hello world\"\n}");
}
SECTION("dump and floating-point numbers")
{
auto s = json(42.23).dump();
CHECK(s.find("42.23") != std::string::npos);
}
SECTION("dump and small floating-point numbers")
{
auto s = json(1.23456e-78).dump();
CHECK(s.find("1.23456e-78") != std::string::npos);
}
SECTION("dump and non-ASCII characters")
{
CHECK(json("ä").dump() == "\"ä\"");
CHECK(json("Ö").dump() == "\"Ö\"");
CHECK(json("❤️").dump() == "\"❤️\"");
}
SECTION("serialization of discarded element")
{
json j_discarded(json::value_t::discarded);
CHECK(j_discarded.dump() == "<discarded>");
}
}
SECTION("return the type of the object (explicit)")
{
SECTION("null")
{
json j = nullptr;
CHECK(j.type() == json::value_t::null);
}
SECTION("object")
{
json j = {{"foo", "bar"}};
CHECK(j.type() == json::value_t::object);
}
SECTION("array")
{
json j = {1, 2, 3, 4};
CHECK(j.type() == json::value_t::array);
}
SECTION("boolean")
{
json j = true;
CHECK(j.type() == json::value_t::boolean);
}
SECTION("string")
{
json j = "Hello world";
CHECK(j.type() == json::value_t::string);
}
SECTION("number (integer)")
{
json j = 23;
CHECK(j.type() == json::value_t::number_integer);
}
SECTION("number (floating-point)")
{
json j = 42.23;
CHECK(j.type() == json::value_t::number_float);
}
}
SECTION("return the type of the object (implicit)")
{
SECTION("null")
{
json j = nullptr;
json::value_t t = j;
CHECK(t == j.type());
}
SECTION("object")
{
json j = {{"foo", "bar"}};
json::value_t t = j;
CHECK(t == j.type());
}
SECTION("array")
{
json j = {1, 2, 3, 4};
json::value_t t = j;
CHECK(t == j.type());
}
SECTION("boolean")
{
json j = true;
json::value_t t = j;
CHECK(t == j.type());
}
SECTION("string")
{
json j = "Hello world";
json::value_t t = j;
CHECK(t == j.type());
}
SECTION("number (integer)")
{
json j = 23;
json::value_t t = j;
CHECK(t == j.type());
}
SECTION("number (floating-point)")
{
json j = 42.23;
json::value_t t = j;
CHECK(t == j.type());
}
}
}
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<json::object_t>();
CHECK(json(o) == j);
}
SECTION("std::map<json::string_t, json>")
{
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>")
{
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>")
{
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>")
{
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_AS(json(json::value_t::null).get<json::object_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::array).get<json::object_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::string).get<json::object_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::boolean).get<json::object_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_integer).get<json::object_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_float).get<json::object_t>(), std::logic_error);
}
}
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<json::string_t, json>")
{
std::map<json::string_t, json> o = j;
CHECK(json(o) == j);
}
SECTION("std::multimap<json::string_t, json>")
{
std::multimap<json::string_t, json> o = j;
CHECK(json(o) == j);
}
SECTION("std::unordered_map<json::string_t, json>")
{
std::unordered_map<json::string_t, json> o = j;
CHECK(json(o) == j);
}
SECTION("std::unordered_multimap<json::string_t, json>")
{
std::unordered_multimap<json::string_t, json> o = j;
CHECK(json(o) == j);
}
}
SECTION("get an array (explicit)")
{
json::array_t a_reference {json(1), json(2.2), json(false), json("string"), json()};
json j(a_reference);
SECTION("json::array_t")
{
json::array_t a = j.get<json::array_t>();
CHECK(json(a) == j);
}
SECTION("std::list<json>")
{
std::list<json> a = j.get<std::list<json>>();
CHECK(json(a) == j);
}
SECTION("std::forward_list<json>")
{
std::forward_list<json> a = j.get<std::forward_list<json>>();
CHECK(json(a) == j);
}
SECTION("std::vector<json>")
{
std::vector<json> a = j.get<std::vector<json>>();
CHECK(json(a) == j);
}
SECTION("std::deque<json>")
{
std::deque<json> a = j.get<std::deque<json>>();
CHECK(json(a) == j);
}
SECTION("exception in case of a non-array type")
{
CHECK_THROWS_AS(json(json::value_t::null).get<json::array_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::object).get<json::array_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::string).get<json::array_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::boolean).get<json::array_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_integer).get<json::array_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_float).get<json::array_t>(), std::logic_error);
}
}
SECTION("get an array (implicit)")
{
json::array_t a_reference {json(1), 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<json>")
{
std::list<json> a = j;
CHECK(json(a) == j);
}
SECTION("std::forward_list<json>")
{
std::forward_list<json> a = j;
CHECK(json(a) == j);
}
SECTION("std::vector<json>")
{
std::vector<json> a = j;
CHECK(json(a) == j);
}
SECTION("std::deque<json>")
{
std::deque<json> 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<json::string_t>();
CHECK(json(s) == j);
}
SECTION("std::string")
{
std::string s = j.get<std::string>();
CHECK(json(s) == j);
}
SECTION("exception in case of a non-string type")
{
CHECK_THROWS_AS(json(json::value_t::null).get<json::string_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::object).get<json::string_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::array).get<json::string_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::boolean).get<json::string_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_integer).get<json::string_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_float).get<json::string_t>(), std::logic_error);
}
}
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<json::boolean_t>();
CHECK(json(b) == j);
}
SECTION("bool")
{
bool b = j.get<bool>();
CHECK(json(b) == j);
}
SECTION("exception in case of a non-string type")
{
CHECK_THROWS_AS(json(json::value_t::null).get<json::boolean_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::object).get<json::boolean_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::array).get<json::boolean_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::string).get<json::boolean_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_integer).get<json::boolean_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::number_float).get<json::boolean_t>(), std::logic_error);
}
}
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);
SECTION("number_integer_t")
{
json::number_integer_t n = j.get<json::number_integer_t>();
CHECK(json(n) == j);
}
SECTION("short")
{
short n = j.get<short>();
CHECK(json(n) == j);
}
SECTION("unsigned short")
{
unsigned short n = j.get<unsigned short>();
CHECK(json(n) == j);
}
SECTION("int")
{
int n = j.get<int>();
CHECK(json(n) == j);
}
SECTION("unsigned int")
{
unsigned int n = j.get<unsigned int>();
CHECK(json(n) == j);
}
SECTION("long")
{
long n = j.get<long>();
CHECK(json(n) == j);
}
SECTION("unsigned long")
{
unsigned long n = j.get<unsigned long>();
CHECK(json(n) == j);
}
SECTION("long long")
{
long long n = j.get<long long>();
CHECK(json(n) == j);
}
SECTION("unsigned long long")
{
unsigned long long n = j.get<unsigned long long>();
CHECK(json(n) == j);
}
SECTION("int8_t")
{
int8_t n = j.get<int8_t>();
CHECK(json(n) == j);
}
SECTION("int16_t")
{
int16_t n = j.get<int16_t>();
CHECK(json(n) == j);
}
SECTION("int32_t")
{
int32_t n = j.get<int32_t>();
CHECK(json(n) == j);
}
SECTION("int64_t")
{
int64_t n = j.get<int64_t>();
CHECK(json(n) == j);
}
SECTION("int8_fast_t")
{
int_fast8_t n = j.get<int_fast8_t>();
CHECK(json(n) == j);
}
SECTION("int16_fast_t")
{
int_fast16_t n = j.get<int_fast16_t>();
CHECK(json(n) == j);
}
SECTION("int32_fast_t")
{
int_fast32_t n = j.get<int_fast32_t>();
CHECK(json(n) == j);
}
SECTION("int64_fast_t")
{
int_fast64_t n = j.get<int_fast64_t>();
CHECK(json(n) == j);
}
SECTION("int8_least_t")
{
int_least8_t n = j.get<int_least8_t>();
CHECK(json(n) == j);
}
SECTION("int16_least_t")
{
int_least16_t n = j.get<int_least16_t>();
CHECK(json(n) == j);
}
SECTION("int32_least_t")
{
int_least32_t n = j.get<int_least32_t>();
CHECK(json(n) == j);
}
SECTION("int64_least_t")
{
int_least64_t n = j.get<int_least64_t>();
CHECK(json(n) == j);
}
SECTION("uint8_t")
{
uint8_t n = j.get<uint8_t>();
CHECK(json(n) == j);
}
SECTION("uint16_t")
{
uint16_t n = j.get<uint16_t>();
CHECK(json(n) == j);
}
SECTION("uint32_t")
{
uint32_t n = j.get<uint32_t>();
CHECK(json(n) == j);
}
SECTION("uint64_t")
{
uint64_t n = j.get<uint64_t>();
CHECK(json(n) == j);
}
SECTION("uint8_fast_t")
{
uint_fast8_t n = j.get<uint_fast8_t>();
CHECK(json(n) == j);
}
SECTION("uint16_fast_t")
{
uint_fast16_t n = j.get<uint_fast16_t>();
CHECK(json(n) == j);
}
SECTION("uint32_fast_t")
{
uint_fast32_t n = j.get<uint_fast32_t>();
CHECK(json(n) == j);
}
SECTION("uint64_fast_t")
{
uint_fast64_t n = j.get<uint_fast64_t>();
CHECK(json(n) == j);
}
SECTION("uint8_least_t")
{
uint_least8_t n = j.get<uint_least8_t>();
CHECK(json(n) == j);
}
SECTION("uint16_least_t")
{
uint_least16_t n = j.get<uint_least16_t>();
CHECK(json(n) == j);
}
SECTION("uint32_least_t")
{
uint_least32_t n = j.get<uint_least32_t>();
CHECK(json(n) == j);
}
SECTION("uint64_least_t")
{
uint_least64_t n = j.get<uint_least64_t>();
CHECK(json(n) == j);
}
SECTION("exception in case of a non-number type")
{
CHECK_THROWS_AS(json(json::value_t::null).get<json::number_integer_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::object).get<json::number_integer_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::array).get<json::number_integer_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::string).get<json::number_integer_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::boolean).get<json::number_integer_t>(), std::logic_error);
CHECK_NOTHROW(json(json::value_t::number_float).get<json::number_integer_t>());
}
}
SECTION("get an integer number (implicit)")
{
json::number_integer_t n_reference {42};
json j(n_reference);
SECTION("number_integer_t")
{
json::number_integer_t n = j.get<json::number_integer_t>();
CHECK(json(n) == j);
}
SECTION("short")
{
short n = j;
CHECK(json(n) == j);
}
SECTION("unsigned short")
{
unsigned short n = j;
CHECK(json(n) == j);
}
SECTION("int")
{
int n = j;
CHECK(json(n) == j);
}
SECTION("unsigned int")
{
unsigned int n = j;
CHECK(json(n) == j);
}
SECTION("long")
{
long n = j;
CHECK(json(n) == j);
}
SECTION("unsigned long")
{
unsigned long n = j;
CHECK(json(n) == j);
}
SECTION("long long")
{
long long n = j;
CHECK(json(n) == j);
}
SECTION("unsigned long long")
{
unsigned long long n = j;
CHECK(json(n) == j);
}
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;
CHECK(json(n) == j);
}
SECTION("uint16_t")
{
uint16_t n = j;
CHECK(json(n) == j);
}
SECTION("uint32_t")
{
uint32_t n = j;
CHECK(json(n) == j);
}
SECTION("uint64_t")
{
uint64_t n = j;
CHECK(json(n) == j);
}
SECTION("uint8_fast_t")
{
uint_fast8_t n = j;
CHECK(json(n) == j);
}
SECTION("uint16_fast_t")
{
uint_fast16_t n = j;
CHECK(json(n) == j);
}
SECTION("uint32_fast_t")
{
uint_fast32_t n = j;
CHECK(json(n) == j);
}
SECTION("uint64_fast_t")
{
uint_fast64_t n = j;
CHECK(json(n) == j);
}
SECTION("uint8_least_t")
{
uint_least8_t n = j;
CHECK(json(n) == j);
}
SECTION("uint16_least_t")
{
uint_least16_t n = j;
CHECK(json(n) == j);
}
SECTION("uint32_least_t")
{
uint_least32_t n = j;
CHECK(json(n) == j);
}
SECTION("uint64_least_t")
{
uint_least64_t n = j;
CHECK(json(n) == j);
}
}
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<json::number_float_t>();
CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float));
}
SECTION("float")
{
float n = j.get<float>();
CHECK(json(n).m_value.number_float == Approx(j.m_value.number_float));
}
SECTION("double")
{
double n = j.get<double>();
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<json::number_float_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::object).get<json::number_float_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::array).get<json::number_float_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::string).get<json::number_float_t>(), std::logic_error);
CHECK_THROWS_AS(json(json::value_t::boolean).get<json::number_float_t>(), std::logic_error);
CHECK_NOTHROW(json(json::value_t::number_integer).get<json::number_float_t>());
}
}
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", 1.1}, {"two", 2.2}, {"three", 3.3}};
json j3 = {{"one", true}, {"two", false}, {"three", true}};
json j4 = {{"one", "eins"}, {"two", "zwei"}, {"three", "drei"}};
SECTION("std::map")
{
auto m1 = j1.get<std::map<std::string, int>>();
auto m2 = j2.get<std::map<std::string, double>>();
auto m3 = j3.get<std::map<std::string, bool>>();
//auto m4 = j4.get<std::map<std::string, std::string>>();
}
SECTION("std::unordered_map")
{
auto m1 = j1.get<std::unordered_map<std::string, int>>();
auto m2 = j2.get<std::unordered_map<std::string, double>>();
auto m3 = j3.get<std::unordered_map<std::string, bool>>();
//auto m4 = j4.get<std::unordered_map<std::string, std::string>>();
//CHECK(m4["one"] == "eins");
}
SECTION("std::multimap")
{
auto m1 = j1.get<std::multimap<std::string, int>>();
auto m2 = j2.get<std::multimap<std::string, double>>();
auto m3 = j3.get<std::multimap<std::string, bool>>();
//auto m4 = j4.get<std::multimap<std::string, std::string>>();
//CHECK(m4["one"] == "eins");
}
SECTION("std::unordered_multimap")
{
auto m1 = j1.get<std::unordered_multimap<std::string, int>>();
auto m2 = j2.get<std::unordered_multimap<std::string, double>>();
auto m3 = j3.get<std::unordered_multimap<std::string, bool>>();
//auto m4 = j4.get<std::unordered_multimap<std::string, std::string>>();
//CHECK(m4["one"] == "eins");
}
SECTION("exception in case of a non-object type")
{
CHECK_THROWS_AS((json().get<std::map<std::string, int>>()), std::logic_error);
}
}
SECTION("array-like STL containers")
{
json j1 = {1, 2, 3, 4};
json j2 = {1.2, 2.3, 3.4, 4.5};
json j3 = {true, false, true};
json j4 = {"one", "two", "three"};
SECTION("std::list")
{
auto m1 = j1.get<std::list<int>>();
auto m2 = j2.get<std::list<double>>();
auto m3 = j3.get<std::list<bool>>();
auto m4 = j4.get<std::list<std::string>>();
}
//SECTION("std::forward_list")
//{
// auto m1 = j1.get<std::forward_list<int>>();
// auto m2 = j2.get<std::forward_list<double>>();
// auto m3 = j3.get<std::forward_list<bool>>();
// auto m4 = j4.get<std::forward_list<std::string>>();
//}
SECTION("std::vector")
{
auto m1 = j1.get<std::vector<int>>();
auto m2 = j2.get<std::vector<double>>();
auto m3 = j3.get<std::vector<bool>>();
auto m4 = j4.get<std::vector<std::string>>();
}
SECTION("std::deque")
{
auto m1 = j1.get<std::deque<int>>();
auto m2 = j2.get<std::deque<double>>();
auto m3 = j3.get<std::deque<bool>>();
auto m4 = j4.get<std::deque<std::string>>();
}
SECTION("std::set")
{
auto m1 = j1.get<std::set<int>>();
auto m2 = j2.get<std::set<double>>();
auto m3 = j3.get<std::set<bool>>();
auto m4 = j4.get<std::set<std::string>>();
}
SECTION("std::unordered_set")
{
auto m1 = j1.get<std::unordered_set<int>>();
auto m2 = j2.get<std::unordered_set<double>>();
auto m3 = j3.get<std::unordered_set<bool>>();
auto m4 = j4.get<std::unordered_set<std::string>>();
}
SECTION("exception in case of a non-object type")
{
CHECK_THROWS_AS((json().get<std::list<int>>()), std::logic_error);
CHECK_THROWS_AS((json().get<std::vector<int>>()), std::logic_error);
CHECK_THROWS_AS((json().get<std::vector<json>>()), std::logic_error);
CHECK_THROWS_AS((json().get<std::list<json>>()), std::logic_error);
}
}
}
}
TEST_CASE("pointer access")
{
// create a JSON value with different types
json json_types =
{
{"boolean", true},
{
"number", {
{"integer", 42},
{"floating-point", 17.23}
}
},
{"string", "Hello, world!"},
{"array", {1, 2, 3, 4, 5}},
{"null", nullptr}
};
SECTION("pointer access to object_t")
{
using test_type = json::object_t;
json value = {{"one", 1}, {"two", 2}};
// check if pointers are returned correctly
test_type* p1 = value.get_ptr<test_type*>();
CHECK(p1 == value.get_ptr<test_type*>());
CHECK(*p1 == value.get<test_type>());
const test_type* p2 = value.get_ptr<const test_type*>();
CHECK(p1 == value.get_ptr<const test_type*>());
CHECK(*p2 == value.get<test_type>());
const test_type* const p3 = value.get_ptr<const test_type* const>();
CHECK(p1 == value.get_ptr<const test_type* const>());
CHECK(*p3 == value.get<test_type>());
// check if null pointers are returned correctly
CHECK(value.get_ptr<json::object_t*>() != nullptr);
CHECK(value.get_ptr<json::array_t*>() == nullptr);
CHECK(value.get_ptr<json::string_t*>() == nullptr);
CHECK(value.get_ptr<json::boolean_t*>() == nullptr);
CHECK(value.get_ptr<json::number_integer_t*>() == nullptr);
CHECK(value.get_ptr<json::number_float_t*>() == nullptr);
}
SECTION("pointer access to array_t")
{
using test_type = json::array_t;
json value = {1, 2, 3, 4};
// check if pointers are returned correctly
test_type* p1 = value.get_ptr<test_type*>();
CHECK(p1 == value.get_ptr<test_type*>());
CHECK(*p1 == value.get<test_type>());
const test_type* p2 = value.get_ptr<const test_type*>();
CHECK(p1 == value.get_ptr<const test_type*>());
CHECK(*p2 == value.get<test_type>());
const test_type* const p3 = value.get_ptr<const test_type* const>();
CHECK(p1 == value.get_ptr<const test_type* const>());
CHECK(*p3 == value.get<test_type>());
// check if null pointers are returned correctly
CHECK(value.get_ptr<json::object_t*>() == nullptr);
CHECK(value.get_ptr<json::array_t*>() != nullptr);
CHECK(value.get_ptr<json::string_t*>() == nullptr);
CHECK(value.get_ptr<json::boolean_t*>() == nullptr);
CHECK(value.get_ptr<json::number_integer_t*>() == nullptr);
CHECK(value.get_ptr<json::number_float_t*>() == nullptr);
}
SECTION("pointer access to string_t")
{
using test_type = json::string_t;
json value = "hello";
// check if pointers are returned correctly
test_type* p1 = value.get_ptr<test_type*>();
CHECK(p1 == value.get_ptr<test_type*>());
CHECK(*p1 == value.get<test_type>());
const test_type* p2 = value.get_ptr<const test_type*>();
CHECK(p1 == value.get_ptr<const test_type*>());
CHECK(*p2 == value.get<test_type>());
const test_type* const p3 = value.get_ptr<const test_type* const>();
CHECK(p1 == value.get_ptr<const test_type* const>());
CHECK(*p3 == value.get<test_type>());
// check if null pointers are returned correctly
CHECK(value.get_ptr<json::object_t*>() == nullptr);
CHECK(value.get_ptr<json::array_t*>() == nullptr);
CHECK(value.get_ptr<json::string_t*>() != nullptr);
CHECK(value.get_ptr<json::boolean_t*>() == nullptr);
CHECK(value.get_ptr<json::number_integer_t*>() == nullptr);
CHECK(value.get_ptr<json::number_float_t*>() == nullptr);
}
SECTION("pointer access to boolean_t")
{
using test_type = json::boolean_t;
json value = false;
// check if pointers are returned correctly
test_type* p1 = value.get_ptr<test_type*>();
CHECK(p1 == value.get_ptr<test_type*>());
CHECK(*p1 == value.get<test_type>());
const test_type* p2 = value.get_ptr<const test_type*>();
CHECK(p1 == value.get_ptr<const test_type*>());
CHECK(*p2 == value.get<test_type>());
const test_type* const p3 = value.get_ptr<const test_type* const>();
CHECK(p1 == value.get_ptr<const test_type* const>());
CHECK(*p3 == value.get<test_type>());
// check if null pointers are returned correctly
CHECK(value.get_ptr<json::object_t*>() == nullptr);
CHECK(value.get_ptr<json::array_t*>() == nullptr);
CHECK(value.get_ptr<json::string_t*>() == nullptr);
CHECK(value.get_ptr<json::boolean_t*>() != nullptr);
CHECK(value.get_ptr<json::number_integer_t*>() == nullptr);
CHECK(value.get_ptr<json::number_float_t*>() == nullptr);
}
SECTION("pointer access to number_integer_t")
{
using test_type = json::number_integer_t;
json value = 23;
// check if pointers are returned correctly
test_type* p1 = value.get_ptr<test_type*>();
CHECK(p1 == value.get_ptr<test_type*>());
CHECK(*p1 == value.get<test_type>());
const test_type* p2 = value.get_ptr<const test_type*>();
CHECK(p1 == value.get_ptr<const test_type*>());
CHECK(*p2 == value.get<test_type>());
const test_type* const p3 = value.get_ptr<const test_type* const>();
CHECK(p1 == value.get_ptr<const test_type* const>());
CHECK(*p3 == value.get<test_type>());
// check if null pointers are returned correctly
CHECK(value.get_ptr<json::object_t*>() == nullptr);
CHECK(value.get_ptr<json::array_t*>() == nullptr);
CHECK(value.get_ptr<json::string_t*>() == nullptr);
CHECK(value.get_ptr<json::boolean_t*>() == nullptr);
CHECK(value.get_ptr<json::number_integer_t*>() != nullptr);
CHECK(value.get_ptr<json::number_float_t*>() == nullptr);
}
SECTION("pointer access to number_float_t")
{
using test_type = json::number_float_t;
json value = 42.23;
// check if pointers are returned correctly
test_type* p1 = value.get_ptr<test_type*>();
CHECK(p1 == value.get_ptr<test_type*>());
CHECK(*p1 == Approx(value.get<test_type>()));
const test_type* p2 = value.get_ptr<const test_type*>();
CHECK(p1 == value.get_ptr<const test_type*>());
CHECK(*p2 == Approx(value.get<test_type>()));
const test_type* const p3 = value.get_ptr<const test_type* const>();
CHECK(p1 == value.get_ptr<const test_type* const>());
CHECK(*p3 == Approx(value.get<test_type>()));
// check if null pointers are returned correctly
CHECK(value.get_ptr<json::object_t*>() == nullptr);
CHECK(value.get_ptr<json::array_t*>() == nullptr);
CHECK(value.get_ptr<json::string_t*>() == nullptr);
CHECK(value.get_ptr<json::boolean_t*>() == nullptr);
CHECK(value.get_ptr<json::number_integer_t*>() == nullptr);
CHECK(value.get_ptr<json::number_float_t*>() != nullptr);
}
}
TEST_CASE("element access")
{
SECTION("array")
{
json j = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
const json j_const = j;
SECTION("access specified element with bounds checking")
{
SECTION("access within bounds")
{
CHECK(j.at(0) == json(1));
CHECK(j.at(1) == json(true));
CHECK(j.at(2) == json(nullptr));
CHECK(j.at(3) == json("string"));
CHECK(j.at(4) == json(42.23));
CHECK(j.at(5) == json(json::object()));
CHECK(j.at(6) == json({1, 2, 3}));
CHECK(j_const.at(0) == json(1));
CHECK(j_const.at(1) == json(true));
CHECK(j_const.at(2) == json(nullptr));
CHECK(j_const.at(3) == json("string"));
CHECK(j_const.at(4) == json(42.23));
CHECK(j_const.at(5) == json(json::object()));
CHECK(j_const.at(6) == json({1, 2, 3}));
}
SECTION("access outside bounds")
{
CHECK_THROWS_AS(j.at(7), std::out_of_range);
CHECK_THROWS_AS(j_const.at(7), std::out_of_range);
}
SECTION("access on non-array type")
{
SECTION("null")
{
json j_nonarray(json::value_t::null);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray.at(0), std::domain_error);
CHECK_THROWS_AS(j_nonarray_const.at(0), std::domain_error);
}
SECTION("boolean")
{
json j_nonarray(json::value_t::boolean);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray.at(0), std::domain_error);
CHECK_THROWS_AS(j_nonarray_const.at(0), std::domain_error);
}
SECTION("string")
{
json j_nonarray(json::value_t::string);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray.at(0), std::domain_error);
CHECK_THROWS_AS(j_nonarray_const.at(0), std::domain_error);
}
SECTION("object")
{
json j_nonarray(json::value_t::object);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray.at(0), std::domain_error);
CHECK_THROWS_AS(j_nonarray_const.at(0), std::domain_error);
}
SECTION("number (integer)")
{
json j_nonarray(json::value_t::number_integer);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray.at(0), std::domain_error);
CHECK_THROWS_AS(j_nonarray_const.at(0), std::domain_error);
}
SECTION("number (floating-point)")
{
json j_nonarray(json::value_t::number_float);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray.at(0), std::domain_error);
CHECK_THROWS_AS(j_nonarray_const.at(0), std::domain_error);
}
}
}
SECTION("front and back")
{
CHECK(j.front() == json(1));
CHECK(j_const.front() == json(1));
CHECK(j.back() == json({1, 2, 3}));
CHECK(j_const.back() == json({1, 2, 3}));
}
SECTION("access specified element")
{
SECTION("access within bounds")
{
CHECK(j[0] == json(1));
CHECK(j[1] == json(true));
CHECK(j[2] == json(nullptr));
CHECK(j[3] == json("string"));
CHECK(j[4] == json(42.23));
CHECK(j[5] == json(json::object()));
CHECK(j[6] == json({1, 2, 3}));
CHECK(j_const[0] == json(1));
CHECK(j_const[1] == json(true));
CHECK(j_const[2] == json(nullptr));
CHECK(j_const[3] == json("string"));
CHECK(j_const[4] == json(42.23));
CHECK(j_const[5] == json(json::object()));
CHECK(j_const[6] == json({1, 2, 3}));
}
SECTION("access on non-array type")
{
SECTION("null")
{
SECTION("standard tests")
{
json j_nonarray(json::value_t::null);
const json j_nonarray_const(j_nonarray);
CHECK_NOTHROW(j_nonarray[0]);
CHECK_THROWS_AS(j_nonarray_const[0], std::domain_error);
}
SECTION("implicit transformation to properly filled array")
{
json j_nonarray;
j_nonarray[3] = 42;
CHECK(j_nonarray == json({nullptr, nullptr, nullptr, 42}));
}
}
SECTION("boolean")
{
json j_nonarray(json::value_t::boolean);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray[0], std::domain_error);
CHECK_THROWS_AS(j_nonarray_const[0], std::domain_error);
}
SECTION("string")
{
json j_nonarray(json::value_t::string);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray[0], std::domain_error);
CHECK_THROWS_AS(j_nonarray_const[0], std::domain_error);
}
SECTION("object")
{
json j_nonarray(json::value_t::object);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray[0], std::domain_error);
CHECK_THROWS_AS(j_nonarray_const[0], std::domain_error);
}
SECTION("number (integer)")
{
json j_nonarray(json::value_t::number_integer);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray[0], std::domain_error);
CHECK_THROWS_AS(j_nonarray_const[0], std::domain_error);
}
SECTION("number (floating-point)")
{
json j_nonarray(json::value_t::number_float);
const json j_nonarray_const(j_nonarray);
CHECK_THROWS_AS(j_nonarray[0], std::domain_error);
CHECK_THROWS_AS(j_nonarray_const[0], std::domain_error);
}
}
}
SECTION("remove specified element")
{
SECTION("remove element by index")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(0);
CHECK(jarray == json({true, nullptr, "string", 42.23, json::object(), {1, 2, 3}}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(1);
CHECK(jarray == json({1, nullptr, "string", 42.23, json::object(), {1, 2, 3}}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(2);
CHECK(jarray == json({1, true, "string", 42.23, json::object(), {1, 2, 3}}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(3);
CHECK(jarray == json({1, true, nullptr, 42.23, json::object(), {1, 2, 3}}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(4);
CHECK(jarray == json({1, true, nullptr, "string", json::object(), {1, 2, 3}}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(5);
CHECK(jarray == json({1, true, nullptr, "string", 42.23, {1, 2, 3}}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
jarray.erase(6);
CHECK(jarray == json({1, true, nullptr, "string", 42.23, json::object()}));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
CHECK_THROWS_AS(jarray.erase(7), std::out_of_range);
}
}
SECTION("remove element by iterator")
{
SECTION("erase(begin())")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::iterator it2 = jarray.erase(jarray.begin());
CHECK(jarray == json({true, nullptr, "string", 42.23, json::object(), {1, 2, 3}}));
CHECK(*it2 == json(true));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::const_iterator it2 = jarray.erase(jarray.cbegin());
CHECK(jarray == json({true, nullptr, "string", 42.23, json::object(), {1, 2, 3}}));
CHECK(*it2 == json(true));
}
}
SECTION("erase(begin(), end())")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::iterator it2 = jarray.erase(jarray.begin(), jarray.end());
CHECK(jarray == json::array());
CHECK(it2 == jarray.end());
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::const_iterator it2 = jarray.erase(jarray.cbegin(), jarray.cend());
CHECK(jarray == json::array());
CHECK(it2 == jarray.cend());
}
}
SECTION("erase(begin(), begin())")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::iterator it2 = jarray.erase(jarray.begin(), jarray.begin());
CHECK(jarray == json({1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}}));
CHECK(*it2 == json(1));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::const_iterator it2 = jarray.erase(jarray.cbegin(), jarray.cbegin());
CHECK(jarray == json({1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}}));
CHECK(*it2 == json(1));
}
}
SECTION("erase at offset")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::iterator it = jarray.begin() + 3;
json::iterator it2 = jarray.erase(it);
CHECK(jarray == json({1, true, nullptr, 42.23, json::object(), {1, 2, 3}}));
CHECK(*it2 == json(42.23));
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::const_iterator it = jarray.cbegin() + 3;
json::const_iterator it2 = jarray.erase(it);
CHECK(jarray == json({1, true, nullptr, 42.23, json::object(), {1, 2, 3}}));
CHECK(*it2 == json(42.23));
}
}
SECTION("erase subrange")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::iterator it2 = jarray.erase(jarray.begin() + 2, jarray.begin() + 5);
CHECK(jarray == json({1, true, json::object(), {1, 2, 3}}));
CHECK(*it2 == json::object());
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json::const_iterator it2 = jarray.erase(jarray.cbegin() + 2, jarray.cbegin() + 5);
CHECK(jarray == json({1, true, json::object(), {1, 2, 3}}));
CHECK(*it2 == json::object());
}
}
SECTION("different arrays")
{
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json jarray2 = {"foo", "bar"};
CHECK_THROWS_AS(jarray.erase(jarray2.begin()), std::domain_error);
CHECK_THROWS_AS(jarray.erase(jarray.begin(), jarray2.end()), std::domain_error);
CHECK_THROWS_AS(jarray.erase(jarray2.begin(), jarray.end()), std::domain_error);
CHECK_THROWS_AS(jarray.erase(jarray2.begin(), jarray2.end()), std::domain_error);
}
{
json jarray = {1, true, nullptr, "string", 42.23, json::object(), {1, 2, 3}};
json jarray2 = {"foo", "bar"};
CHECK_THROWS_AS(jarray.erase(jarray2.cbegin()), std::domain_error);
CHECK_THROWS_AS(jarray.erase(jarray.cbegin(), jarray2.cend()), std::domain_error);
CHECK_THROWS_AS(jarray.erase(jarray2.cbegin(), jarray.cend()), std::domain_error);
CHECK_THROWS_AS(jarray.erase(jarray2.cbegin(), jarray2.cend()), std::domain_error);
}
}
}
SECTION("remove element by index in non-array type")
{
SECTION("null")
{
json j_nonobject(json::value_t::null);
CHECK_THROWS_AS(j_nonobject.erase(0), std::domain_error);
}
SECTION("boolean")
{
json j_nonobject(json::value_t::boolean);
CHECK_THROWS_AS(j_nonobject.erase(0), std::domain_error);
}
SECTION("string")
{
json j_nonobject(json::value_t::string);
CHECK_THROWS_AS(j_nonobject.erase(0), std::domain_error);
}
SECTION("object")
{
json j_nonobject(json::value_t::object);
CHECK_THROWS_AS(j_nonobject.erase(0), std::domain_error);
}
SECTION("number (integer)")
{
json j_nonobject(json::value_t::number_integer);
CHECK_THROWS_AS(j_nonobject.erase(0), std::domain_error);
}
SECTION("number (floating-point)")
{
json j_nonobject(json::value_t::number_float);
CHECK_THROWS_AS(j_nonobject.erase(0), std::domain_error);
}
}
}
}
SECTION("object")
{
json j = {{"integer", 1}, {"floating", 42.23}, {"null", nullptr}, {"string", "hello world"}, {"boolean", true}, {"object", json::object()}, {"array", {1, 2, 3}}};
const json j_const = j;
SECTION("access specified element with bounds checking")
{
SECTION("access within bounds")
{
CHECK(j.at("integer") == json(1));
CHECK(j.at("boolean") == json(true));
CHECK(j.at("null") == json(nullptr));
CHECK(j.at("string") == json("hello world"));
CHECK(j.at("floating") == json(42.23));
CHECK(j.at("object") == json(json::object()));
CHECK(j.at("array") == json({1, 2, 3}));
CHECK(j_const.at("integer") == json(1));
CHECK(j_const.at("boolean") == json(true));
CHECK(j_const.at("null") == json(nullptr));
CHECK(j_const.at("string") == json("hello world"));
CHECK(j_const.at("floating") == json(42.23));
CHECK(j_const.at("object") == json(json::object()));
CHECK(j_const.at("array") == json({1, 2, 3}));
}
SECTION("access outside bounds")
{
CHECK_THROWS_AS(j.at("foo"), std::out_of_range);
CHECK_THROWS_AS(j_const.at("foo"), std::out_of_range);
}
SECTION("access on non-object type")
{
SECTION("null")
{
json j_nonobject(json::value_t::null);
const json j_nonobject_const(j_nonobject);
CHECK_THROWS_AS(j_nonobject.at("foo"), std::domain_error);
CHECK_THROWS_AS(j_nonobject_const.at("foo"), std::domain_error);
}
SECTION("boolean")
{
json j_nonobject(json::value_t::boolean);
const json j_nonobject_const(j_nonobject);
CHECK_THROWS_AS(j_nonobject.at("foo"), std::domain_error);
CHECK_THROWS_AS(j_nonobject_const.at("foo"), std::domain_error);
}
SECTION("string")
{
json j_nonobject(json::value_t::string);
const json j_nonobject_const(j_nonobject);
CHECK_THROWS_AS(j_nonobject.at("foo"), std::domain_error);
CHECK_THROWS_AS(j_nonobject_const.at("foo"), std::domain_error);
}
SECTION("array")
{
json j_nonobject(json::value_t::array);
const json j_nonobject_const(j_nonobject);
CHECK_THROWS_AS(j_nonobject.at("foo"), std::domain_error);
CHECK_THROWS_AS(j_nonobject_const.at("foo"), std::domain_error);
}
SECTION("number (integer)")
{
json j_nonobject(json::value_t::number_integer);
const json j_nonobject_const(j_nonobject);
CHECK_THROWS_AS(j_nonobject.at("foo"), std::domain_error);
CHECK_THROWS_AS(j_nonobject_const.at("foo"), std::domain_error);
}
SECTION("number (floating-point)")
{
json j_nonobject(json::value_t::number_float);
const json j_nonobject_const(j_nonobject);
CHECK_THROWS_AS(j_nonobject.at("foo"), std::domain_error);
CHECK_THROWS_AS(j_nonobject_const.at("foo"), std::domain_error);
}
}
}
SECTION("front and back")
{
// "array" is the smallest key
CHECK(j.front() == json({1, 2, 3}));
CHECK(j_const.front() == json({1, 2, 3}));
// "string" is the largest key
CHECK(j.back() == json("hello world"));
CHECK(j_const.back() == json("hello world"));
}
SECTION("access specified element")
{
SECTION("access within bounds")
{
CHECK(j["integer"] == json(1));
CHECK(j[json::object_t::key_type("integer")] == j["integer"]);
CHECK(j["boolean"] == json(true));
CHECK(j[json::object_t::key_type("boolean")] == j["boolean"]);
CHECK(j["null"] == json(nullptr));
CHECK(j[json::object_t::key_type("null")] == j["null"]);
CHECK(j["string"] == json("hello world"));
CHECK(j[json::object_t::key_type("string")] == j["string"]);
CHECK(j["floating"] == json(42.23));
CHECK(j[json::object_t::key_type("floating")] == j["floating"]);
CHECK(j["object"] == json(json::object()));
CHECK(j[json::object_t::key_type("object")] == j["object"]);
CHECK(j["array"] == json({1, 2, 3}));
CHECK(j[json::object_t::key_type("array")] == j["array"]);
}
SECTION("access on non-object type")
{
SECTION("null")
{
json j_nonobject(json::value_t::null);
json j_nonobject2(json::value_t::null);
const json j_const_nonobject(j_nonobject);
CHECK_NOTHROW(j_nonobject["foo"]);
CHECK_NOTHROW(j_nonobject2[json::object_t::key_type("foo")]);
}
SECTION("boolean")
{
json j_nonobject(json::value_t::boolean);
const json j_const_nonobject(j_nonobject);
CHECK_THROWS_AS(j_nonobject["foo"], std::domain_error);
CHECK_THROWS_AS(j_nonobject[json::object_t::key_type("foo")], std::domain_error);
}
SECTION("string")
{
json j_nonobject(json::value_t::string);
const json j_const_nonobject(j_nonobject);
CHECK_THROWS_AS(j_nonobject["foo"], std::domain_error);
CHECK_THROWS_AS(j_nonobject[json::object_t::key_type("foo")], std::domain_error);
}
SECTION("array")
{
json j_nonobject(json::value_t::array);
const json j_const_nonobject(j_nonobject);
CHECK_THROWS_AS(j_nonobject["foo"], std::domain_error);
CHECK_THROWS_AS(j_nonobject[json::object_t::key_type("foo")], std::domain_error);
}
SECTION("number (integer)")
{
json j_nonobject(json::value_t::number_integer);
const json j_const_nonobject(j_nonobject);
CHECK_THROWS_AS(j_nonobject["foo"], std::domain_error);
CHECK_THROWS_AS(j_nonobject[json::object_t::key_type("foo")], std::domain_error);
}
SECTION("number (floating-point)")
{
json j_nonobject(json::value_t::number_float);
const json j_const_nonobject(j_nonobject);
CHECK_THROWS_AS(j_nonobject["foo"], std::domain_error);
CHECK_THROWS_AS(j_nonobject[json::object_t::key_type("foo")], std::domain_error);
}
}
}
SECTION("remove specified element")
{
SECTION("remove element by key")
{
CHECK(j.find("integer") != j.end());
CHECK(j.erase("integer") == 1);
CHECK(j.find("integer") == j.end());
CHECK(j.erase("integer") == 0);
CHECK(j.find("boolean") != j.end());
CHECK(j.erase("boolean") == 1);
CHECK(j.find("boolean") == j.end());
CHECK(j.erase("boolean") == 0);
CHECK(j.find("null") != j.end());
CHECK(j.erase("null") == 1);
CHECK(j.find("null") == j.end());
CHECK(j.erase("null") == 0);
CHECK(j.find("string") != j.end());
CHECK(j.erase("string") == 1);
CHECK(j.find("string") == j.end());
CHECK(j.erase("string") == 0);
CHECK(j.find("floating") != j.end());
CHECK(j.erase("floating") == 1);
CHECK(j.find("floating") == j.end());
CHECK(j.erase("floating") == 0);
CHECK(j.find("object") != j.end());
CHECK(j.erase("object") == 1);
CHECK(j.find("object") == j.end());
CHECK(j.erase("object") == 0);
CHECK(j.find("array") != j.end());
CHECK(j.erase("array") == 1);
CHECK(j.find("array") == j.end());
CHECK(j.erase("array") == 0);
}
SECTION("remove element by iterator")
{
SECTION("erase(begin())")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::iterator it2 = jobject.erase(jobject.begin());
CHECK(jobject == json({{"b", 1}, {"c", 17}}));
CHECK(*it2 == json(1));
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::const_iterator it2 = jobject.erase(jobject.cbegin());
CHECK(jobject == json({{"b", 1}, {"c", 17}}));
CHECK(*it2 == json(1));
}
}
SECTION("erase(begin(), end())")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::iterator it2 = jobject.erase(jobject.begin(), jobject.end());
CHECK(jobject == json::object());
CHECK(it2 == jobject.end());
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::const_iterator it2 = jobject.erase(jobject.cbegin(), jobject.cend());
CHECK(jobject == json::object());
CHECK(it2 == jobject.cend());
}
}
SECTION("erase(begin(), begin())")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::iterator it2 = jobject.erase(jobject.begin(), jobject.begin());
CHECK(jobject == json({{"a", "a"}, {"b", 1}, {"c", 17}}));
CHECK(*it2 == json("a"));
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::const_iterator it2 = jobject.erase(jobject.cbegin(), jobject.cbegin());
CHECK(jobject == json({{"a", "a"}, {"b", 1}, {"c", 17}}));
CHECK(*it2 == json("a"));
}
}
SECTION("erase at offset")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::iterator it = jobject.find("b");
json::iterator it2 = jobject.erase(it);
CHECK(jobject == json({{"a", "a"}, {"c", 17}}));
CHECK(*it2 == json(17));
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}};
json::const_iterator it = jobject.find("b");
json::const_iterator it2 = jobject.erase(it);
CHECK(jobject == json({{"a", "a"}, {"c", 17}}));
CHECK(*it2 == json(17));
}
}
SECTION("erase subrange")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json::iterator it2 = jobject.erase(jobject.find("b"), jobject.find("e"));
CHECK(jobject == json({{"a", "a"}, {"e", true}}));
CHECK(*it2 == json(true));
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json::const_iterator it2 = jobject.erase(jobject.find("b"), jobject.find("e"));
CHECK(jobject == json({{"a", "a"}, {"e", true}}));
CHECK(*it2 == json(true));
}
}
SECTION("different objects")
{
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json jobject2 = {{"a", "a"}, {"b", 1}, {"c", 17}};
CHECK_THROWS_AS(jobject.erase(jobject2.begin()), std::domain_error);
CHECK_THROWS_AS(jobject.erase(jobject.begin(), jobject2.end()), std::domain_error);
CHECK_THROWS_AS(jobject.erase(jobject2.begin(), jobject.end()), std::domain_error);
CHECK_THROWS_AS(jobject.erase(jobject2.begin(), jobject2.end()), std::domain_error);
}
{
json jobject = {{"a", "a"}, {"b", 1}, {"c", 17}, {"d", false}, {"e", true}};
json jobject2 = {{"a", "a"}, {"b", 1}, {"c", 17}};
CHECK_THROWS_AS(jobject.erase(jobject2.cbegin()), std::domain_error);
CHECK_THROWS_AS(jobject.erase(jobject.cbegin(), jobject2.cend()), std::domain_error);
CHECK_THROWS_AS(jobject.erase(jobject2.cbegin(), jobject.cend()), std::domain_error);
CHECK_THROWS_AS(jobject.erase(jobject2.cbegin(), jobject2.cend()), std::domain_error);
}
}
}
SECTION("remove element by key in non-object type")
{
SECTION("null")
{
json j_nonobject(json::value_t::null);
CHECK_THROWS_AS(j_nonobject.erase("foo"), std::domain_error);
}
SECTION("boolean")
{
json j_nonobject(json::value_t::boolean);
CHECK_THROWS_AS(j_nonobject.erase("foo"), std::domain_error);
}
SECTION("string")
{
json j_nonobject(json::value_t::string);
CHECK_THROWS_AS(j_nonobject.erase("foo"), std::domain_error);
}
SECTION("array")
{
json j_nonobject(json::value_t::array);
CHECK_THROWS_AS(j_nonobject.erase("foo"), std::domain_error);
}
SECTION("number (integer)")
{
json j_nonobject(json::value_t::number_integer);
CHECK_THROWS_AS(j_nonobject.erase("foo"), std::domain_error);
}
SECTION("number (floating-point)")
{
json j_nonobject(json::value_t::number_float);
CHECK_THROWS_AS(j_nonobject.erase("foo"), std::domain_error);
}
}
}
SECTION("find an element in an object")
{
SECTION("existing element")
{
for (auto key :
{"integer", "floating", "null", "string", "boolean", "object", "array"
})
{
CHECK(j.find(key) != j.end());
CHECK(*j.find(key) == j.at(key));
CHECK(j_const.find(key) != j_const.end());
CHECK(*j_const.find(key) == j_const.at(key));
}
}
SECTION("nonexisting element")
{
CHECK(j.find("foo") == j.end());
CHECK(j_const.find("foo") == j_const.end());
}
SECTION("all types")
{
SECTION("null")
{
json j_nonarray(json::value_t::null);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
SECTION("string")
{
json j_nonarray(json::value_t::string);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
SECTION("object")
{
json j_nonarray(json::value_t::object);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
SECTION("array")
{
json j_nonarray(json::value_t::array);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
SECTION("boolean")
{
json j_nonarray(json::value_t::boolean);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
SECTION("number (integer)")
{
json j_nonarray(json::value_t::number_integer);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
SECTION("number (floating-point)")
{
json j_nonarray(json::value_t::number_float);
const json j_nonarray_const(j_nonarray);
CHECK(j_nonarray.find("foo") == j_nonarray.end());
CHECK(j_nonarray_const.find("foo") == j_nonarray_const.end());
}
}
}
SECTION("count keys in an object")
{
SECTION("existing element")
{
for (auto key :
{"integer", "floating", "null", "string", "boolean", "object", "array"
})
{
CHECK(j.count(key) == 1);
CHECK(j_const.count(key) == 1);
}
}
SECTION("nonexisting element")
{
CHECK(j.count("foo") == 0);
CHECK(j_const.count("foo") == 0);
}
SECTION("all types")
{
SECTION("null")
{
json j_nonobject(json::value_t::null);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
SECTION("string")
{
json j_nonobject(json::value_t::string);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
SECTION("object")
{
json j_nonobject(json::value_t::object);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
SECTION("array")
{
json j_nonobject(json::value_t::array);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
SECTION("boolean")
{
json j_nonobject(json::value_t::boolean);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
SECTION("number (integer)")
{
json j_nonobject(json::value_t::number_integer);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
SECTION("number (floating-point)")
{
json j_nonobject(json::value_t::number_float);
const json j_nonobject_const(j_nonobject);
CHECK(j_nonobject.count("foo") == 0);
CHECK(j_nonobject_const.count("foo") == 0);
}
}
}
}
SECTION("other values")
{
SECTION("front and back")
{
SECTION("null")
{
{
json j;
CHECK_THROWS_AS(j.front(), std::out_of_range);
CHECK_THROWS_AS(j.back(), std::out_of_range);
}
{
const json j{};
CHECK_THROWS_AS(j.front(), std::out_of_range);
CHECK_THROWS_AS(j.back(), std::out_of_range);
}
}
SECTION("string")
{
{
json j = "foo";
CHECK(j.front() == j);
CHECK(j.back() == j);
}
{
const json j = "bar";
CHECK(j.front() == j);
CHECK(j.back() == j);
}
}
SECTION("number (boolean)")
{
{
json j = false;
CHECK(j.front() == j);
CHECK(j.back() == j);
}
{
const json j = true;
CHECK(j.front() == j);
CHECK(j.back() == j);
}
}
SECTION("number (integer)")
{
{
json j = 17;
CHECK(j.front() == j);
CHECK(j.back() == j);
}
{
const json j = 17;
CHECK(j.front() == j);
CHECK(j.back() == j);
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
CHECK(j.front() == j);
CHECK(j.back() == j);
}
{
const json j = 23.42;
CHECK(j.front() == j);
CHECK(j.back() == j);
}
}
}
SECTION("erase with one valid iterator")
{
SECTION("null")
{
{
json j;
CHECK_THROWS_AS(j.erase(j.begin()), std::domain_error);
}
{
json j;
CHECK_THROWS_AS(j.erase(j.cbegin()), std::domain_error);
}
}
SECTION("string")
{
{
json j = "foo";
json::iterator it = j.erase(j.begin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = "bar";
json::const_iterator it = j.erase(j.cbegin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
SECTION("number (boolean)")
{
{
json j = false;
json::iterator it = j.erase(j.begin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = true;
json::const_iterator it = j.erase(j.cbegin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
SECTION("number (integer)")
{
{
json j = 17;
json::iterator it = j.erase(j.begin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = 17;
json::const_iterator it = j.erase(j.cbegin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
json::iterator it = j.erase(j.begin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = 23.42;
json::const_iterator it = j.erase(j.cbegin());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
}
SECTION("erase with one invalid iterator")
{
SECTION("string")
{
{
json j = "foo";
CHECK_THROWS_AS(j.erase(j.end()), std::out_of_range);
}
{
json j = "bar";
CHECK_THROWS_AS(j.erase(j.cend()), std::out_of_range);
}
}
SECTION("number (boolean)")
{
{
json j = false;
CHECK_THROWS_AS(j.erase(j.end()), std::out_of_range);
}
{
json j = true;
CHECK_THROWS_AS(j.erase(j.cend()), std::out_of_range);
}
}
SECTION("number (integer)")
{
{
json j = 17;
CHECK_THROWS_AS(j.erase(j.end()), std::out_of_range);
}
{
json j = 17;
CHECK_THROWS_AS(j.erase(j.cend()), std::out_of_range);
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
CHECK_THROWS_AS(j.erase(j.end()), std::out_of_range);
}
{
json j = 23.42;
CHECK_THROWS_AS(j.erase(j.cend()), std::out_of_range);
}
}
}
SECTION("erase with two valid iterators")
{
SECTION("null")
{
{
json j;
CHECK_THROWS_AS(j.erase(j.begin(), j.end()), std::domain_error);
}
{
json j;
CHECK_THROWS_AS(j.erase(j.cbegin(), j.cend()), std::domain_error);
}
}
SECTION("string")
{
{
json j = "foo";
json::iterator it = j.erase(j.begin(), j.end());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = "bar";
json::const_iterator it = j.erase(j.cbegin(), j.cend());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
SECTION("number (boolean)")
{
{
json j = false;
json::iterator it = j.erase(j.begin(), j.end());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = true;
json::const_iterator it = j.erase(j.cbegin(), j.cend());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
SECTION("number (integer)")
{
{
json j = 17;
json::iterator it = j.erase(j.begin(), j.end());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = 17;
json::const_iterator it = j.erase(j.cbegin(), j.cend());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
json::iterator it = j.erase(j.begin(), j.end());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
{
json j = 23.42;
json::const_iterator it = j.erase(j.cbegin(), j.cend());
CHECK(j.type() == json::value_t::null);
CHECK(it == j.end());
}
}
}
SECTION("erase with two invalid iterators")
{
SECTION("string")
{
{
json j = "foo";
CHECK_THROWS_AS(j.erase(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.begin(), j.begin()), std::out_of_range);
}
{
json j = "bar";
CHECK_THROWS_AS(j.erase(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
SECTION("number (boolean)")
{
{
json j = false;
CHECK_THROWS_AS(j.erase(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.begin(), j.begin()), std::out_of_range);
}
{
json j = true;
CHECK_THROWS_AS(j.erase(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
SECTION("number (integer)")
{
{
json j = 17;
CHECK_THROWS_AS(j.erase(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.begin(), j.begin()), std::out_of_range);
}
{
json j = 17;
CHECK_THROWS_AS(j.erase(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
SECTION("number (floating point)")
{
{
json j = 23.42;
CHECK_THROWS_AS(j.erase(j.end(), j.end()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.begin(), j.begin()), std::out_of_range);
}
{
json j = 23.42;
CHECK_THROWS_AS(j.erase(j.cend(), j.cend()), std::out_of_range);
CHECK_THROWS_AS(j.erase(j.cbegin(), j.cbegin()), std::out_of_range);
}
}
}
}
}
TEST_CASE("iterators")
{
SECTION("basic behavior")
{
SECTION("uninitialized")
{
json::iterator it;
CHECK(it.m_object == nullptr);
json::const_iterator cit;
CHECK(cit.m_object == nullptr);
}
SECTION("boolean")
{
json j = true;
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it = j.begin();
CHECK(it != j.end());
CHECK(*it == j);
it++;
CHECK(it != j.begin());
CHECK(it == j.end());
it--;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
++it;
CHECK(it != j.begin());
CHECK(it == j.end());
--it;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
}
SECTION("const json + begin/end")
{
json::const_iterator it = j_const.begin();
CHECK(it != j_const.end());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
it--;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
--it;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it = j.cbegin();
CHECK(it != j.cend());
CHECK(*it == j);
it++;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
it--;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
++it;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
--it;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it = j_const.cbegin();
CHECK(it != j_const.cend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
it--;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
--it;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it = j.rbegin();
CHECK(it != j.rend());
CHECK(*it == j);
it++;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
it--;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
++it;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
--it;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it = j.crbegin();
CHECK(it != j.crend());
CHECK(*it == j);
it++;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
it--;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
++it;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
--it;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it = j_const.crbegin();
CHECK(it != j_const.crend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
it--;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
--it;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK_THROWS_AS(it.key(), std::domain_error);
CHECK(it.value() == json(true));
CHECK_THROWS_AS(cit.key(), std::domain_error);
CHECK(cit.value() == json(true));
auto rit = j.rend();
auto crit = j.crend();
CHECK_THROWS_AS(rit.key(), std::domain_error);
CHECK_THROWS_AS(rit.value(), std::out_of_range);
CHECK_THROWS_AS(crit.key(), std::domain_error);
CHECK_THROWS_AS(crit.value(), std::out_of_range);
}
}
SECTION("string")
{
json j = "hello world";
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it = j.begin();
CHECK(it != j.end());
CHECK(*it == j);
it++;
CHECK(it != j.begin());
CHECK(it == j.end());
it--;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
++it;
CHECK(it != j.begin());
CHECK(it == j.end());
--it;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
}
SECTION("const json + begin/end")
{
json::const_iterator it = j_const.begin();
CHECK(it != j_const.end());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
it--;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
--it;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it = j.cbegin();
CHECK(it != j.cend());
CHECK(*it == j);
it++;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
it--;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
++it;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
--it;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it = j_const.cbegin();
CHECK(it != j_const.cend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
it--;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
--it;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it = j.rbegin();
CHECK(it != j.rend());
CHECK(*it == j);
it++;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
it--;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
++it;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
--it;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it = j.crbegin();
CHECK(it != j.crend());
CHECK(*it == j);
it++;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
it--;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
++it;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
--it;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it = j_const.crbegin();
CHECK(it != j_const.crend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
it--;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
--it;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK_THROWS_AS(it.key(), std::domain_error);
CHECK(it.value() == json("hello world"));
CHECK_THROWS_AS(cit.key(), std::domain_error);
CHECK(cit.value() == json("hello world"));
auto rit = j.rend();
auto crit = j.crend();
CHECK_THROWS_AS(rit.key(), std::domain_error);
CHECK_THROWS_AS(rit.value(), std::out_of_range);
CHECK_THROWS_AS(crit.key(), std::domain_error);
CHECK_THROWS_AS(crit.value(), std::out_of_range);
}
}
SECTION("array")
{
json j = {1, 2, 3};
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it_begin = j.begin();
json::iterator it_end = j.end();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j[0]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[2]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("const json + begin/end")
{
json::const_iterator it_begin = j_const.begin();
json::const_iterator it_end = j_const.end();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j_const[0]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j_const[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j_const[2]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it_begin = j.cbegin();
json::const_iterator it_end = j.cend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j[0]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[2]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it_begin = j_const.cbegin();
json::const_iterator it_end = j_const.cend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j[0]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[2]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it_begin = j.rbegin();
json::reverse_iterator it_end = j.rend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j[2]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[0]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it_begin = j.crbegin();
json::const_reverse_iterator it_end = j.crend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j[2]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[0]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it_begin = j_const.crbegin();
json::const_reverse_iterator it_end = j_const.crend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j[2]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[1]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j[0]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK_THROWS_AS(it.key(), std::domain_error);
CHECK(it.value() == json(1));
CHECK_THROWS_AS(cit.key(), std::domain_error);
CHECK(cit.value() == json(1));
}
}
SECTION("object")
{
json j = {{"A", 1}, {"B", 2}, {"C", 3}};
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it_begin = j.begin();
json::iterator it_end = j.end();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j["A"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["C"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("const json + begin/end")
{
json::const_iterator it_begin = j_const.begin();
json::const_iterator it_end = j_const.end();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j_const["A"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j_const["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j_const["C"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it_begin = j.cbegin();
json::const_iterator it_end = j.cend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j["A"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["C"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it_begin = j_const.cbegin();
json::const_iterator it_end = j_const.cend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j_const["A"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j_const["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j_const["C"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it_begin = j.rbegin();
json::reverse_iterator it_end = j.rend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j["C"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["A"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it_begin = j.crbegin();
json::const_reverse_iterator it_end = j.crend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j["C"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["A"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it_begin = j_const.crbegin();
json::const_reverse_iterator it_end = j_const.crend();
auto it = it_begin;
CHECK(it != it_end);
CHECK(*it == j["C"]);
it++;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["B"]);
++it;
CHECK(it != it_begin);
CHECK(it != it_end);
CHECK(*it == j["A"]);
++it;
CHECK(it != it_begin);
CHECK(it == it_end);
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK(it.key() == "A");
CHECK(it.value() == json(1));
CHECK(cit.key() == "A");
CHECK(cit.value() == json(1));
}
}
SECTION("number (integer)")
{
json j = 23;
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it = j.begin();
CHECK(it != j.end());
CHECK(*it == j);
it++;
CHECK(it != j.begin());
CHECK(it == j.end());
it--;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
++it;
CHECK(it != j.begin());
CHECK(it == j.end());
--it;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
}
SECTION("const json + begin/end")
{
json::const_iterator it = j_const.begin();
CHECK(it != j_const.end());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
it--;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
--it;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it = j.cbegin();
CHECK(it != j.cend());
CHECK(*it == j);
it++;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
it--;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
++it;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
--it;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it = j_const.cbegin();
CHECK(it != j_const.cend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
it--;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
--it;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it = j.rbegin();
CHECK(it != j.rend());
CHECK(*it == j);
it++;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
it--;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
++it;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
--it;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it = j.crbegin();
CHECK(it != j.crend());
CHECK(*it == j);
it++;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
it--;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
++it;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
--it;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it = j_const.crbegin();
CHECK(it != j_const.crend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
it--;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
--it;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK_THROWS_AS(it.key(), std::domain_error);
CHECK(it.value() == json(23));
CHECK_THROWS_AS(cit.key(), std::domain_error);
CHECK(cit.value() == json(23));
auto rit = j.rend();
auto crit = j.crend();
CHECK_THROWS_AS(rit.key(), std::domain_error);
CHECK_THROWS_AS(rit.value(), std::out_of_range);
CHECK_THROWS_AS(crit.key(), std::domain_error);
CHECK_THROWS_AS(crit.value(), std::out_of_range);
}
}
SECTION("number (float)")
{
json j = 23.42;
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it = j.begin();
CHECK(it != j.end());
CHECK(*it == j);
it++;
CHECK(it != j.begin());
CHECK(it == j.end());
it--;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
++it;
CHECK(it != j.begin());
CHECK(it == j.end());
--it;
CHECK(it == j.begin());
CHECK(it != j.end());
CHECK(*it == j);
}
SECTION("const json + begin/end")
{
json::const_iterator it = j_const.begin();
CHECK(it != j_const.end());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
it--;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.begin());
CHECK(it == j_const.end());
--it;
CHECK(it == j_const.begin());
CHECK(it != j_const.end());
CHECK(*it == j_const);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it = j.cbegin();
CHECK(it != j.cend());
CHECK(*it == j);
it++;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
it--;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
++it;
CHECK(it != j.cbegin());
CHECK(it == j.cend());
--it;
CHECK(it == j.cbegin());
CHECK(it != j.cend());
CHECK(*it == j);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it = j_const.cbegin();
CHECK(it != j_const.cend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
it--;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.cbegin());
CHECK(it == j_const.cend());
--it;
CHECK(it == j_const.cbegin());
CHECK(it != j_const.cend());
CHECK(*it == j_const);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it = j.rbegin();
CHECK(it != j.rend());
CHECK(*it == j);
it++;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
it--;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
++it;
CHECK(it != j.rbegin());
CHECK(it == j.rend());
--it;
CHECK(it == j.rbegin());
CHECK(it != j.rend());
CHECK(*it == j);
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it = j.crbegin();
CHECK(it != j.crend());
CHECK(*it == j);
it++;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
it--;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
++it;
CHECK(it != j.crbegin());
CHECK(it == j.crend());
--it;
CHECK(it == j.crbegin());
CHECK(it != j.crend());
CHECK(*it == j);
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it = j_const.crbegin();
CHECK(it != j_const.crend());
CHECK(*it == j_const);
it++;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
it--;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
++it;
CHECK(it != j_const.crbegin());
CHECK(it == j_const.crend());
--it;
CHECK(it == j_const.crbegin());
CHECK(it != j_const.crend());
CHECK(*it == j_const);
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK_THROWS_AS(it.key(), std::domain_error);
CHECK(it.value() == json(23.42));
CHECK_THROWS_AS(cit.key(), std::domain_error);
CHECK(cit.value() == json(23.42));
auto rit = j.rend();
auto crit = j.crend();
CHECK_THROWS_AS(rit.key(), std::domain_error);
CHECK_THROWS_AS(rit.value(), std::out_of_range);
CHECK_THROWS_AS(crit.key(), std::domain_error);
CHECK_THROWS_AS(crit.value(), std::out_of_range);
}
}
SECTION("null")
{
json j = nullptr;
json j_const(j);
SECTION("json + begin/end")
{
json::iterator it = j.begin();
CHECK(it == j.end());
}
SECTION("const json + begin/end")
{
json::const_iterator it_begin = j_const.begin();
json::const_iterator it_end = j_const.end();
CHECK(it_begin == it_end);
}
SECTION("json + cbegin/cend")
{
json::const_iterator it_begin = j.cbegin();
json::const_iterator it_end = j.cend();
CHECK(it_begin == it_end);
}
SECTION("const json + cbegin/cend")
{
json::const_iterator it_begin = j_const.cbegin();
json::const_iterator it_end = j_const.cend();
CHECK(it_begin == it_end);
}
SECTION("json + rbegin/rend")
{
json::reverse_iterator it = j.rbegin();
CHECK(it == j.rend());
}
SECTION("json + crbegin/crend")
{
json::const_reverse_iterator it = j.crbegin();
CHECK(it == j.crend());
}
SECTION("const json + crbegin/crend")
{
json::const_reverse_iterator it = j_const.crbegin();
CHECK(it == j_const.crend());
}
SECTION("key/value")
{
auto it = j.begin();
auto cit = j_const.cbegin();
CHECK_THROWS_AS(it.key(), std::domain_error);
CHECK_THROWS_AS(it.value(), std::out_of_range);
CHECK_THROWS_AS(cit.key(), std::domain_error);
CHECK_THROWS_AS(cit.value(), std::out_of_range);
auto rit = j.rend();
auto crit = j.crend();
CHECK_THROWS_AS(rit.key(), std::domain_error);
CHECK_THROWS_AS(rit.value(), std::out_of_range);
CHECK_THROWS_AS(crit.key(), std::domain_error);
CHECK_THROWS_AS(crit.value(), std::out_of_range);
}
}
}
SECTION("iterator comparisons")
{
json j_values = {nullptr, true, 42, 23.23, {{"one", 1}, {"two", 2}}, {1, 2, 3, 4, 5}, "Hello, world"};
for (json& j : j_values)
{
auto it1 = j.begin();
auto it2 = j.begin();
auto it3 = j.begin();
++it2;
++it3;
++it3;
auto it1_c = j.cbegin();
auto it2_c = j.cbegin();
auto it3_c = j.cbegin();
++it2_c;
++it3_c;
++it3_c;
// comparison: equal
{
CHECK(it1 == it1);
CHECK(not (it1 == it2));
CHECK(not (it1 == it3));
CHECK(not (it2 == it3));
CHECK(it1_c == it1_c);
CHECK(not (it1_c == it2_c));
CHECK(not (it1_c == it3_c));
CHECK(not (it2_c == it3_c));
}
// comparison: not equal
{
// check definition
CHECK( (it1 != it1) == not(it1 == it1) );
CHECK( (it1 != it2) == not(it1 == it2) );
CHECK( (it1 != it3) == not(it1 == it3) );
CHECK( (it2 != it3) == not(it2 == it3) );
CHECK( (it1_c != it1_c) == not(it1_c == it1_c) );
CHECK( (it1_c != it2_c) == not(it1_c == it2_c) );
CHECK( (it1_c != it3_c) == not(it1_c == it3_c) );
CHECK( (it2_c != it3_c) == not(it2_c == it3_c) );
}
// comparison: smaller
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 < it1, std::domain_error);
CHECK_THROWS_AS(it1 < it2, std::domain_error);
CHECK_THROWS_AS(it2 < it3, std::domain_error);
CHECK_THROWS_AS(it1 < it3, std::domain_error);
CHECK_THROWS_AS(it1_c < it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c < it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c < it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c < it3_c, std::domain_error);
}
else
{
CHECK(not (it1 < it1));
CHECK(it1 < it2);
CHECK(it1 < it3);
CHECK(it2 < it3);
CHECK(not (it1_c < it1_c));
CHECK(it1_c < it2_c);
CHECK(it1_c < it3_c);
CHECK(it2_c < it3_c);
}
}
// comparison: less than or equal
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 <= it1, std::domain_error);
CHECK_THROWS_AS(it1 <= it2, std::domain_error);
CHECK_THROWS_AS(it2 <= it3, std::domain_error);
CHECK_THROWS_AS(it1 <= it3, std::domain_error);
CHECK_THROWS_AS(it1_c <= it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c <= it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c <= it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c <= it3_c, std::domain_error);
}
else
{
// check definition
CHECK( (it1 <= it1) == not(it1 < it1) );
CHECK( (it1 <= it2) == not(it2 < it1) );
CHECK( (it1 <= it3) == not(it3 < it1) );
CHECK( (it2 <= it3) == not(it3 < it2) );
CHECK( (it1_c <= it1_c) == not(it1_c < it1_c) );
CHECK( (it1_c <= it2_c) == not(it2_c < it1_c) );
CHECK( (it1_c <= it3_c) == not(it3_c < it1_c) );
CHECK( (it2_c <= it3_c) == not(it3_c < it2_c) );
}
}
// comparison: greater than
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 > it1, std::domain_error);
CHECK_THROWS_AS(it1 > it2, std::domain_error);
CHECK_THROWS_AS(it2 > it3, std::domain_error);
CHECK_THROWS_AS(it1 > it3, std::domain_error);
CHECK_THROWS_AS(it1_c > it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c > it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c > it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c > it3_c, std::domain_error);
}
else
{
// check definition
CHECK( (it1 > it1) == (it1 < it1) );
CHECK( (it1 > it2) == (it2 < it1) );
CHECK( (it1 > it3) == (it3 < it1) );
CHECK( (it2 > it3) == (it3 < it2) );
CHECK( (it1_c > it1_c) == (it1_c < it1_c) );
CHECK( (it1_c > it2_c) == (it2_c < it1_c) );
CHECK( (it1_c > it3_c) == (it3_c < it1_c) );
CHECK( (it2_c > it3_c) == (it3_c < it2_c) );
}
}
// comparison: greater than or equal
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 >= it1, std::domain_error);
CHECK_THROWS_AS(it1 >= it2, std::domain_error);
CHECK_THROWS_AS(it2 >= it3, std::domain_error);
CHECK_THROWS_AS(it1 >= it3, std::domain_error);
CHECK_THROWS_AS(it1_c >= it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c >= it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c >= it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c >= it3_c, std::domain_error);
}
else
{
// check definition
CHECK( (it1 >= it1) == not(it1 < it1) );
CHECK( (it1 >= it2) == not(it1 < it2) );
CHECK( (it1 >= it3) == not(it1 < it3) );
CHECK( (it2 >= it3) == not(it2 < it3) );
CHECK( (it1_c >= it1_c) == not(it1_c < it1_c) );
CHECK( (it1_c >= it2_c) == not(it1_c < it2_c) );
CHECK( (it1_c >= it3_c) == not(it1_c < it3_c) );
CHECK( (it2_c >= it3_c) == not(it2_c < it3_c) );
}
}
}
// check exceptions if different objects are compared
for (auto j : j_values)
{
for (auto k : j_values)
{
if (j != k)
{
CHECK_THROWS_AS(j.begin() == k.begin(), std::domain_error);
CHECK_THROWS_AS(j.cbegin() == k.cbegin(), std::domain_error);
CHECK_THROWS_AS(j.begin() < k.begin(), std::domain_error);
CHECK_THROWS_AS(j.cbegin() < k.cbegin(), std::domain_error);
}
}
}
}
SECTION("iterator arithmetic")
{
json j_object = {{"one", 1}, {"two", 2}, {"three", 3}};
json j_array = {1, 2, 3, 4, 5, 6};
json j_null = nullptr;
json j_value = 42;
SECTION("addition and subtraction")
{
SECTION("object")
{
{
auto it = j_object.begin();
CHECK_THROWS_AS(it += 1, std::domain_error);
}
{
auto it = j_object.cbegin();
CHECK_THROWS_AS(it += 1, std::domain_error);
}
{
auto it = j_object.begin();
CHECK_THROWS_AS(it + 1, std::domain_error);
}
{
auto it = j_object.cbegin();
CHECK_THROWS_AS(it + 1, std::domain_error);
}
{
auto it = j_object.begin();
CHECK_THROWS_AS(it -= 1, std::domain_error);
}
{
auto it = j_object.cbegin();
CHECK_THROWS_AS(it -= 1, std::domain_error);
}
{
auto it = j_object.begin();
CHECK_THROWS_AS(it - 1, std::domain_error);
}
{
auto it = j_object.cbegin();
CHECK_THROWS_AS(it - 1, std::domain_error);
}
{
auto it = j_object.begin();
CHECK_THROWS_AS(it - it, std::domain_error);
}
{
auto it = j_object.cbegin();
CHECK_THROWS_AS(it - it, std::domain_error);
}
}
SECTION("array")
{
{
auto it = j_array.begin();
it += 3;
CHECK((j_array.begin() + 3) == it);
CHECK((it - 3) == j_array.begin());
CHECK((it - j_array.begin()) == 3);
CHECK(*it == json(4));
it -= 2;
CHECK(*it == json(2));
}
{
auto it = j_array.cbegin();
it += 3;
CHECK((j_array.cbegin() + 3) == it);
CHECK((it - 3) == j_array.cbegin());
CHECK((it - j_array.cbegin()) == 3);
CHECK(*it == json(4));
it -= 2;
CHECK(*it == json(2));
}
}
SECTION("null")
{
{
auto it = j_null.begin();
it += 3;
CHECK((j_null.begin() + 3) == it);
CHECK((it - 3) == j_null.begin());
CHECK((it - j_null.begin()) == 3);
CHECK(it != j_null.end());
it -= 3;
CHECK(it == j_null.end());
}
{
auto it = j_null.cbegin();
it += 3;
CHECK((j_null.cbegin() + 3) == it);
CHECK((it - 3) == j_null.cbegin());
CHECK((it - j_null.cbegin()) == 3);
CHECK(it != j_null.cend());
it -= 3;
CHECK(it == j_null.cend());
}
}
SECTION("value")
{
{
auto it = j_value.begin();
it += 3;
CHECK((j_value.begin() + 3) == it);
CHECK((it - 3) == j_value.begin());
CHECK((it - j_value.begin()) == 3);
CHECK(it != j_value.end());
it -= 3;
CHECK(*it == json(42));
}
{
auto it = j_value.cbegin();
it += 3;
CHECK((j_value.cbegin() + 3) == it);
CHECK((it - 3) == j_value.cbegin());
CHECK((it - j_value.cbegin()) == 3);
CHECK(it != j_value.cend());
it -= 3;
CHECK(*it == json(42));
}
}
}
SECTION("subscript operator")
{
SECTION("object")
{
{
auto it = j_object.begin();
CHECK_THROWS_AS(it[0], std::domain_error);
CHECK_THROWS_AS(it[1], std::domain_error);
}
{
auto it = j_object.cbegin();
CHECK_THROWS_AS(it[0], std::domain_error);
CHECK_THROWS_AS(it[1], std::domain_error);
}
}
SECTION("array")
{
{
auto it = j_array.begin();
CHECK(it[0] == json(1));
CHECK(it[1] == json(2));
CHECK(it[2] == json(3));
CHECK(it[3] == json(4));
CHECK(it[4] == json(5));
CHECK(it[5] == json(6));
}
{
auto it = j_array.cbegin();
CHECK(it[0] == json(1));
CHECK(it[1] == json(2));
CHECK(it[2] == json(3));
CHECK(it[3] == json(4));
CHECK(it[4] == json(5));
CHECK(it[5] == json(6));
}
}
SECTION("null")
{
{
auto it = j_null.begin();
CHECK_THROWS_AS(it[0], std::out_of_range);
CHECK_THROWS_AS(it[1], std::out_of_range);
}
{
auto it = j_null.cbegin();
CHECK_THROWS_AS(it[0], std::out_of_range);
CHECK_THROWS_AS(it[1], std::out_of_range);
}
}
SECTION("value")
{
{
auto it = j_value.begin();
CHECK(it[0] == json(42));
CHECK_THROWS_AS(it[1], std::out_of_range);
}
{
auto it = j_value.cbegin();
CHECK(it[0] == json(42));
CHECK_THROWS_AS(it[1], std::out_of_range);
}
}
}
}
SECTION("reverse iterator comparisons")
{
json j_values = {nullptr, true, 42, 23.23, {{"one", 1}, {"two", 2}}, {1, 2, 3, 4, 5}, "Hello, world"};
for (json& j : j_values)
{
auto it1 = j.rbegin();
auto it2 = j.rbegin();
auto it3 = j.rbegin();
++it2;
++it3;
++it3;
auto it1_c = j.crbegin();
auto it2_c = j.crbegin();
auto it3_c = j.crbegin();
++it2_c;
++it3_c;
++it3_c;
// comparison: equal
{
CHECK(it1 == it1);
CHECK(not (it1 == it2));
CHECK(not (it1 == it3));
CHECK(not (it2 == it3));
CHECK(it1_c == it1_c);
CHECK(not (it1_c == it2_c));
CHECK(not (it1_c == it3_c));
CHECK(not (it2_c == it3_c));
}
// comparison: not equal
{
// check definition
CHECK( (it1 != it1) == not(it1 == it1) );
CHECK( (it1 != it2) == not(it1 == it2) );
CHECK( (it1 != it3) == not(it1 == it3) );
CHECK( (it2 != it3) == not(it2 == it3) );
CHECK( (it1_c != it1_c) == not(it1_c == it1_c) );
CHECK( (it1_c != it2_c) == not(it1_c == it2_c) );
CHECK( (it1_c != it3_c) == not(it1_c == it3_c) );
CHECK( (it2_c != it3_c) == not(it2_c == it3_c) );
}
// comparison: smaller
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 < it1, std::domain_error);
CHECK_THROWS_AS(it1 < it2, std::domain_error);
CHECK_THROWS_AS(it2 < it3, std::domain_error);
CHECK_THROWS_AS(it1 < it3, std::domain_error);
CHECK_THROWS_AS(it1_c < it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c < it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c < it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c < it3_c, std::domain_error);
}
else
{
CHECK(not (it1 < it1));
CHECK(it1 < it2);
CHECK(it1 < it3);
CHECK(it2 < it3);
CHECK(not (it1_c < it1_c));
CHECK(it1_c < it2_c);
CHECK(it1_c < it3_c);
CHECK(it2_c < it3_c);
}
}
// comparison: less than or equal
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 <= it1, std::domain_error);
CHECK_THROWS_AS(it1 <= it2, std::domain_error);
CHECK_THROWS_AS(it2 <= it3, std::domain_error);
CHECK_THROWS_AS(it1 <= it3, std::domain_error);
CHECK_THROWS_AS(it1_c <= it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c <= it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c <= it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c <= it3_c, std::domain_error);
}
else
{
// check definition
CHECK( (it1 <= it1) == not(it1 < it1) );
CHECK( (it1 <= it2) == not(it2 < it1) );
CHECK( (it1 <= it3) == not(it3 < it1) );
CHECK( (it2 <= it3) == not(it3 < it2) );
CHECK( (it1_c <= it1_c) == not(it1_c < it1_c) );
CHECK( (it1_c <= it2_c) == not(it2_c < it1_c) );
CHECK( (it1_c <= it3_c) == not(it3_c < it1_c) );
CHECK( (it2_c <= it3_c) == not(it3_c < it2_c) );
}
}
// comparison: greater than
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 > it1, std::domain_error);
CHECK_THROWS_AS(it1 > it2, std::domain_error);
CHECK_THROWS_AS(it2 > it3, std::domain_error);
CHECK_THROWS_AS(it1 > it3, std::domain_error);
CHECK_THROWS_AS(it1_c > it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c > it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c > it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c > it3_c, std::domain_error);
}
else
{
// check definition
CHECK( (it1 > it1) == (it1 < it1) );
CHECK( (it1 > it2) == (it2 < it1) );
CHECK( (it1 > it3) == (it3 < it1) );
CHECK( (it2 > it3) == (it3 < it2) );
CHECK( (it1_c > it1_c) == (it1_c < it1_c) );
CHECK( (it1_c > it2_c) == (it2_c < it1_c) );
CHECK( (it1_c > it3_c) == (it3_c < it1_c) );
CHECK( (it2_c > it3_c) == (it3_c < it2_c) );
}
}
// comparison: greater than or equal
{
if (j.type() == json::value_t::object)
{
CHECK_THROWS_AS(it1 >= it1, std::domain_error);
CHECK_THROWS_AS(it1 >= it2, std::domain_error);
CHECK_THROWS_AS(it2 >= it3, std::domain_error);
CHECK_THROWS_AS(it1 >= it3, std::domain_error);
CHECK_THROWS_AS(it1_c >= it1_c, std::domain_error);
CHECK_THROWS_AS(it1_c >= it2_c, std::domain_error);
CHECK_THROWS_AS(it2_c >= it3_c, std::domain_error);
CHECK_THROWS_AS(it1_c >= it3_c, std::domain_error);
}
else
{
// check definition
CHECK( (it1 >= it1) == not(it1 < it1) );
CHECK( (it1 >= it2) == not(it1 < it2) );
CHECK( (it1 >= it3) == not(it1 < it3) );
CHECK( (it2 >= it3) == not(it2 < it3) );
CHECK( (it1_c >= it1_c) == not(it1_c < it1_c) );
CHECK( (it1_c >= it2_c) == not(it1_c < it2_c) );
CHECK( (it1_c >= it3_c) == not(it1_c < it3_c) );
CHECK( (it2_c >= it3_c) == not(it2_c < it3_c) );
}
}
}
// check exceptions if different objects are compared
for (auto j : j_values)
{
for (auto k : j_values)
{
if (j != k)
{
CHECK_THROWS_AS(j.rbegin() == k.rbegin(), std::domain_error);
CHECK_THROWS_AS(j.crbegin() == k.crbegin(), std::domain_error);
CHECK_THROWS_AS(j.rbegin() < k.rbegin(), std::domain_error);
CHECK_THROWS_AS(j.crbegin() < k.crbegin(), std::domain_error);
}
}
}
}
SECTION("reverse iterator arithmetic")
{
json j_object = {{"one", 1}, {"two", 2}, {"three", 3}};
json j_array = {1, 2, 3, 4, 5, 6};
json j_null = nullptr;
json j_value = 42;
SECTION("addition and subtraction")
{
SECTION("object")
{
{
auto it = j_object.rbegin();
CHECK_THROWS_AS(it += 1, std::domain_error);
}
{
auto it = j_object.crbegin();
CHECK_THROWS_AS(it += 1, std::domain_error);
}
{
auto it = j_object.rbegin();
CHECK_THROWS_AS(it + 1, std::domain_error);
}
{
auto it = j_object.crbegin();
CHECK_THROWS_AS(it + 1, std::domain_error);
}
{
auto it = j_object.rbegin();
CHECK_THROWS_AS(it -= 1, std::domain_error);
}
{
auto it = j_object.crbegin();
CHECK_THROWS_AS(it -= 1, std::domain_error);
}
{
auto it = j_object.rbegin();
CHECK_THROWS_AS(it - 1, std::domain_error);
}
{
auto it = j_object.crbegin();
CHECK_THROWS_AS(it - 1, std::domain_error);
}
{
auto it = j_object.rbegin();
CHECK_THROWS_AS(it - it, std::domain_error);
}
{
auto it = j_object.crbegin();
CHECK_THROWS_AS(it - it, std::domain_error);
}
}
SECTION("array")
{
{
auto it = j_array.rbegin();
it += 3;
CHECK((j_array.rbegin() + 3) == it);
CHECK((it - 3) == j_array.rbegin());
CHECK((j_array.rbegin() - it) == 3);
CHECK(*it == json(3));
it -= 2;
CHECK(*it == json(5));
}
{
auto it = j_array.crbegin();
it += 3;
CHECK((j_array.crbegin() + 3) == it);
CHECK((it - 3) == j_array.crbegin());
CHECK((j_array.crbegin() - it) == 3);
CHECK(*it == json(3));
it -= 2;
CHECK(*it == json(5));
}
}
SECTION("null")
{
{
auto it = j_null.rbegin();
it += 3;
CHECK((j_null.rbegin() + 3) == it);
CHECK((it - 3) == j_null.rbegin());
CHECK((j_null.rbegin() - it) == 3);
CHECK(it != j_null.rend());
it -= 3;
CHECK(it == j_null.rend());
}
{
auto it = j_null.crbegin();
it += 3;
CHECK((j_null.crbegin() + 3) == it);
CHECK((it - 3) == j_null.crbegin());
CHECK((j_null.crbegin() - it) == 3);
CHECK(it != j_null.crend());
it -= 3;
CHECK(it == j_null.crend());
}
}
SECTION("value")
{
{
auto it = j_value.rbegin();
it += 3;
CHECK((j_value.rbegin() + 3) == it);
CHECK((it - 3) == j_value.rbegin());
CHECK((j_value.rbegin() - it) == 3);
CHECK(it != j_value.rend());
it -= 3;
CHECK(*it == json(42));
}
{
auto it = j_value.crbegin();
it += 3;
CHECK((j_value.crbegin() + 3) == it);
CHECK((it - 3) == j_value.crbegin());
CHECK((j_value.crbegin() - it) == 3);
CHECK(it != j_value.crend());
it -= 3;
CHECK(*it == json(42));
}
}
}
SECTION("subscript operator")
{
SECTION("object")
{
{
auto it = j_object.rbegin();
CHECK_THROWS_AS(it[0], std::domain_error);
CHECK_THROWS_AS(it[1], std::domain_error);
}
{
auto it = j_object.crbegin();
CHECK_THROWS_AS(it[0], std::domain_error);
CHECK_THROWS_AS(it[1], std::domain_error);
}
}
SECTION("array")
{
{
auto it = j_array.rbegin();
CHECK(it[0] == json(6));
CHECK(it[1] == json(5));
CHECK(it[2] == json(4));
CHECK(it[3] == json(3));
CHECK(it[4] == json(2));
CHECK(it[5] == json(1));
}
{
auto it = j_array.crbegin();
CHECK(it[0] == json(6));
CHECK(it[1] == json(5));
CHECK(it[2] == json(4));
CHECK(it[3] == json(3));
CHECK(it[4] == json(2));
CHECK(it[5] == json(1));
}
}
SECTION("null")
{
{
auto it = j_null.rbegin();
CHECK_THROWS_AS(it[0], std::out_of_range);
CHECK_THROWS_AS(it[1], std::out_of_range);
}
{
auto it = j_null.crbegin();
CHECK_THROWS_AS(it[0], std::out_of_range);
CHECK_THROWS_AS(it[1], std::out_of_range);
}
}
SECTION("value")
{
{
auto it = j_value.rbegin();
CHECK(it[0] == json(42));
CHECK_THROWS_AS(it[1], std::out_of_range);
}
{
auto it = j_value.crbegin();
CHECK(it[0] == json(42));
CHECK_THROWS_AS(it[1], std::out_of_range);
}
}
}
}
}
TEST_CASE("capacity")
{
SECTION("empty()")
{
SECTION("boolean")
{
json j = true;
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == false);
CHECK(j_const.empty() == false);
}
SECTION("definition of empty")
{
CHECK(j.begin() != j.end());
CHECK(j_const.begin() != j_const.end());
}
}
SECTION("string")
{
json j = "hello world";
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == false);
CHECK(j_const.empty() == false);
}
SECTION("definition of empty")
{
CHECK(j.begin() != j.end());
CHECK(j_const.begin() != j_const.end());
}
}
SECTION("array")
{
SECTION("empty array")
{
json j = json::array();
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == true);
CHECK(j_const.empty() == true);
}
SECTION("definition of empty")
{
CHECK(j.begin() == j.end());
CHECK(j_const.begin() == j_const.end());
}
}
SECTION("filled array")
{
json j = {1, 2, 3};
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == false);
CHECK(j_const.empty() == false);
}
SECTION("definition of empty")
{
CHECK(j.begin() != j.end());
CHECK(j_const.begin() != j_const.end());
}
}
}
SECTION("object")
{
SECTION("empty object")
{
json j = json::object();
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == true);
CHECK(j_const.empty() == true);
}
SECTION("definition of empty")
{
CHECK(j.begin() == j.end());
CHECK(j_const.begin() == j_const.end());
}
}
SECTION("filled object")
{
json j = {{"one", 1}, {"two", 2}, {"three", 3}};
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == false);
CHECK(j_const.empty() == false);
}
SECTION("definition of empty")
{
CHECK(j.begin() != j.end());
CHECK(j_const.begin() != j_const.end());
}
}
}
SECTION("number (integer)")
{
json j = 23;
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == false);
CHECK(j_const.empty() == false);
}
SECTION("definition of empty")
{
CHECK(j.begin() != j.end());
CHECK(j_const.begin() != j_const.end());
}
}
SECTION("number (float)")
{
json j = 23.42;
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == false);
CHECK(j_const.empty() == false);
}
SECTION("definition of empty")
{
CHECK(j.begin() != j.end());
CHECK(j_const.begin() != j_const.end());
}
}
SECTION("null")
{
json j = nullptr;
json j_const(j);
SECTION("result of empty")
{
CHECK(j.empty() == true);
CHECK(j_const.empty() == true);
}
SECTION("definition of empty")
{
CHECK(j.begin() == j.end());
CHECK(j_const.begin() == j_const.end());
}
}
}
SECTION("size()")
{
SECTION("boolean")
{
json j = true;
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 1);
CHECK(j_const.size() == 1);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
SECTION("string")
{
json j = "hello world";
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 1);
CHECK(j_const.size() == 1);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
SECTION("array")
{
SECTION("empty array")
{
json j = json::array();
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 0);
CHECK(j_const.size() == 0);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
SECTION("filled array")
{
json j = {1, 2, 3};
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 3);
CHECK(j_const.size() == 3);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
}
SECTION("object")
{
SECTION("empty object")
{
json j = json::object();
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 0);
CHECK(j_const.size() == 0);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
SECTION("filled object")
{
json j = {{"one", 1}, {"two", 2}, {"three", 3}};
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 3);
CHECK(j_const.size() == 3);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
}
SECTION("number (integer)")
{
json j = 23;
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 1);
CHECK(j_const.size() == 1);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
SECTION("number (float)")
{
json j = 23.42;
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 1);
CHECK(j_const.size() == 1);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
SECTION("null")
{
json j = nullptr;
json j_const(j);
SECTION("result of size")
{
CHECK(j.size() == 0);
CHECK(j_const.size() == 0);
}
SECTION("definition of size")
{
CHECK(std::distance(j.begin(), j.end()) == j.size());
CHECK(std::distance(j_const.begin(), j_const.end()) == j_const.size());
CHECK(std::distance(j.rbegin(), j.rend()) == j.size());
CHECK(std::distance(j_const.crbegin(), j_const.crend()) == j_const.size());
}
}
}
SECTION("max_size()")
{
SECTION("boolean")
{
json j = true;
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() == 1);
CHECK(j_const.max_size() == 1);
}
}
SECTION("string")
{
json j = "hello world";
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() == 1);
CHECK(j_const.max_size() == 1);
}
}
SECTION("array")
{
SECTION("empty array")
{
json j = json::array();
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() >= j.size());
CHECK(j_const.max_size() >= j_const.size());
}
}
SECTION("filled array")
{
json j = {1, 2, 3};
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() >= j.size());
CHECK(j_const.max_size() >= j_const.size());
}
}
}
SECTION("object")
{
SECTION("empty object")
{
json j = json::object();
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() >= j.size());
CHECK(j_const.max_size() >= j_const.size());
}
}
SECTION("filled object")
{
json j = {{"one", 1}, {"two", 2}, {"three", 3}};
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() >= j.size());
CHECK(j_const.max_size() >= j_const.size());
}
}
}
SECTION("number (integer)")
{
json j = 23;
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() == 1);
CHECK(j_const.max_size() == 1);
}
}
SECTION("number (float)")
{
json j = 23.42;
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() == 1);
CHECK(j_const.max_size() == 1);
}
}
SECTION("null")
{
json j = nullptr;
json j_const(j);
SECTION("result of max_size")
{
CHECK(j.max_size() == 0);
CHECK(j_const.max_size() == 0);
}
}
}
}
TEST_CASE("modifiers")
{
SECTION("clear()")
{
SECTION("boolean")
{
json j = true;
j.clear();
CHECK(j == json(json::value_t::boolean));
}
SECTION("string")
{
json j = "hello world";
j.clear();
CHECK(j == json(json::value_t::string));
}
SECTION("array")
{
SECTION("empty array")
{
json j = json::array();
j.clear();
CHECK(j.empty());
CHECK(j == json(json::value_t::array));
}
SECTION("filled array")
{
json j = {1, 2, 3};
j.clear();
CHECK(j.empty());
CHECK(j == json(json::value_t::array));
}
}
SECTION("object")
{
SECTION("empty object")
{
json j = json::object();
j.clear();
CHECK(j.empty());
CHECK(j == json(json::value_t::object));
}
SECTION("filled object")
{
json j = {{"one", 1}, {"two", 2}, {"three", 3}};
j.clear();
CHECK(j.empty());
CHECK(j == json(json::value_t::object));
}
}
SECTION("number (integer)")
{
json j = 23;
j.clear();
CHECK(j == json(json::value_t::number_integer));
}
SECTION("number (float)")
{
json j = 23.42;
j.clear();
CHECK(j == json(json::value_t::number_float));
}
SECTION("null")
{
json j = nullptr;
j.clear();
CHECK(j == json(json::value_t::null));
}
}
SECTION("push_back()")
{
SECTION("to array")
{
SECTION("json&&")
{
SECTION("null")
{
json j;
j.push_back(1);
j.push_back(2);
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 2}));
}
SECTION("array")
{
json j = {1, 2, 3};
j.push_back("Hello");
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 2, 3, "Hello"}));
}
SECTION("other type")
{
json j = 1;
CHECK_THROWS_AS(j.push_back("Hello"), std::domain_error);
}
}
SECTION("const json&")
{
SECTION("null")
{
json j;
json k(1);
j.push_back(k);
j.push_back(k);
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 1}));
}
SECTION("array")
{
json j = {1, 2, 3};
json k("Hello");
j.push_back(k);
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 2, 3, "Hello"}));
}
SECTION("other type")
{
json j = 1;
json k("Hello");
CHECK_THROWS_AS(j.push_back(k), std::domain_error);
}
}
}
SECTION("to object")
{
SECTION("null")
{
json j;
j.push_back(json::object_t::value_type({"one", 1}));
j.push_back(json::object_t::value_type({"two", 2}));
CHECK(j.type() == json::value_t::object);
CHECK(j.size() == 2);
CHECK(j["one"] == json(1));
CHECK(j["two"] == json(2));
}
SECTION("object")
{
json j(json::value_t::object);
j.push_back(json::object_t::value_type({"one", 1}));
j.push_back(json::object_t::value_type({"two", 2}));
CHECK(j.size() == 2);
CHECK(j["one"] == json(1));
CHECK(j["two"] == json(2));
}
SECTION("other type")
{
json j = 1;
json k("Hello");
CHECK_THROWS_AS(j.push_back(json::object_t::value_type({"one", 1})), std::domain_error);
}
}
}
SECTION("operator+=")
{
SECTION("to array")
{
SECTION("json&&")
{
SECTION("null")
{
json j;
j += 1;
j += 2;
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 2}));
}
SECTION("array")
{
json j = {1, 2, 3};
j += "Hello";
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 2, 3, "Hello"}));
}
SECTION("other type")
{
json j = 1;
CHECK_THROWS_AS(j += "Hello", std::domain_error);
}
}
SECTION("const json&")
{
SECTION("null")
{
json j;
json k(1);
j += k;
j += k;
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 1}));
}
SECTION("array")
{
json j = {1, 2, 3};
json k("Hello");
j += k;
CHECK(j.type() == json::value_t::array);
CHECK(j == json({1, 2, 3, "Hello"}));
}
SECTION("other type")
{
json j = 1;
json k("Hello");
CHECK_THROWS_AS(j += k, std::domain_error);
}
}
}
SECTION("to object")
{
SECTION("null")
{
json j;
j += json::object_t::value_type({"one", 1});
j += json::object_t::value_type({"two", 2});
CHECK(j.type() == json::value_t::object);
CHECK(j.size() == 2);
CHECK(j["one"] == json(1));
CHECK(j["two"] == json(2));
}
SECTION("object")
{
json j(json::value_t::object);
j += json::object_t::value_type({"one", 1});
j += json::object_t::value_type({"two", 2});
CHECK(j.size() == 2);
CHECK(j["one"] == json(1));
CHECK(j["two"] == json(2));
}
SECTION("other type")
{
json j = 1;
json k("Hello");
CHECK_THROWS_AS(j += json::object_t::value_type({"one", 1}), std::domain_error);
}
}
}
SECTION("insert")
{
json j_array = {1, 2, 3, 4};
json j_value = 5;
SECTION("value at position")
{
SECTION("insert before begin()")
{
auto it = j_array.insert(j_array.begin(), j_value);
CHECK(j_array.size() == 5);
CHECK(*it == j_value);
CHECK(j_array.begin() == it);
CHECK(j_array == json({5, 1, 2, 3, 4}));
}
SECTION("insert in the middle")
{
auto it = j_array.insert(j_array.begin() + 2, j_value);
CHECK(j_array.size() == 5);
CHECK(*it == j_value);
CHECK((it - j_array.begin()) == 2);
CHECK(j_array == json({1, 2, 5, 3, 4}));
}
SECTION("insert before end()")
{
auto it = j_array.insert(j_array.end(), j_value);
CHECK(j_array.size() == 5);
CHECK(*it == j_value);
CHECK((j_array.end() - it) == 1);
CHECK(j_array == json({1, 2, 3, 4, 5}));
}
}
SECTION("rvalue at position")
{
SECTION("insert before begin()")
{
auto it = j_array.insert(j_array.begin(), 5);
CHECK(j_array.size() == 5);
CHECK(*it == j_value);
CHECK(j_array.begin() == it);
CHECK(j_array == json({5, 1, 2, 3, 4}));
}
SECTION("insert in the middle")
{
auto it = j_array.insert(j_array.begin() + 2, 5);
CHECK(j_array.size() == 5);
CHECK(*it == j_value);
CHECK((it - j_array.begin()) == 2);
CHECK(j_array == json({1, 2, 5, 3, 4}));
}
SECTION("insert before end()")
{
auto it = j_array.insert(j_array.end(), 5);
CHECK(j_array.size() == 5);
CHECK(*it == j_value);
CHECK((j_array.end() - it) == 1);
CHECK(j_array == json({1, 2, 3, 4, 5}));
}
}
SECTION("copies at position")
{
SECTION("insert before begin()")
{
auto it = j_array.insert(j_array.begin(), 3, 5);
CHECK(j_array.size() == 7);
CHECK(*it == j_value);
CHECK(j_array.begin() == it);
CHECK(j_array == json({5, 5, 5, 1, 2, 3, 4}));
}
SECTION("insert in the middle")
{
auto it = j_array.insert(j_array.begin() + 2, 3, 5);
CHECK(j_array.size() == 7);
CHECK(*it == j_value);
CHECK((it - j_array.begin()) == 2);
CHECK(j_array == json({1, 2, 5, 5, 5, 3, 4}));
}
SECTION("insert before end()")
{
auto it = j_array.insert(j_array.end(), 3, 5);
CHECK(j_array.size() == 7);
CHECK(*it == j_value);
CHECK((j_array.end() - it) == 3);
CHECK(j_array == json({1, 2, 3, 4, 5, 5, 5}));
}
SECTION("insert nothing (count = 0)")
{
auto pos = j_array.end();
auto it = j_array.insert(j_array.end(), 0, 5);
CHECK(j_array.size() == 4);
CHECK(it == pos);
CHECK(j_array == json({1, 2, 3, 4}));
}
}
SECTION("range")
{
json j_other_array = {"first", "second"};
SECTION("proper usage")
{
auto it = j_array.insert(j_array.end(), j_other_array.begin(), j_other_array.end());
CHECK(j_array.size() == 6);
CHECK(*it == *j_other_array.begin());
CHECK((j_array.end() - it) == 2);
CHECK(j_array == json({1, 2, 3, 4, "first", "second"}));
}
SECTION("empty range")
{
auto it = j_array.insert(j_array.end(), j_other_array.begin(), j_other_array.begin());
CHECK(j_array.size() == 4);
CHECK(it == j_array.end());
CHECK(j_array == json({1, 2, 3, 4}));
}
SECTION("invalid iterators")
{
json j_other_array2 = {"first", "second"};
CHECK_THROWS_AS(j_array.insert(j_array.end(), j_array.begin(), j_array.end()), std::domain_error);
CHECK_THROWS_AS(j_array.insert(j_array.end(), j_other_array.begin(), j_other_array2.end()),
std::domain_error);
}
}
SECTION("initializer list at position")
{
SECTION("insert before begin()")
{
auto it = j_array.insert(j_array.begin(), {7, 8, 9});
CHECK(j_array.size() == 7);
CHECK(*it == json(7));
CHECK(j_array.begin() == it);
CHECK(j_array == json({7, 8, 9, 1, 2, 3, 4}));
}
SECTION("insert in the middle")
{
auto it = j_array.insert(j_array.begin() + 2, {7, 8, 9});
CHECK(j_array.size() == 7);
CHECK(*it == json(7));
CHECK((it - j_array.begin()) == 2);
CHECK(j_array == json({1, 2, 7, 8, 9, 3, 4}));
}
SECTION("insert before end()")
{
auto it = j_array.insert(j_array.end(), {7, 8, 9});
CHECK(j_array.size() == 7);
CHECK(*it == json(7));
CHECK((j_array.end() - it) == 3);
CHECK(j_array == json({1, 2, 3, 4, 7, 8, 9}));
}
}
SECTION("invalid iterator")
{
// pass iterator to a different array
json j_another_array = {1, 2};
json j_yet_another_array = {"first", "second"};
CHECK_THROWS_AS(j_array.insert(j_another_array.end(), 10), std::domain_error);
CHECK_THROWS_AS(j_array.insert(j_another_array.end(), j_value), std::domain_error);
CHECK_THROWS_AS(j_array.insert(j_another_array.end(), 10, 11), std::domain_error);
CHECK_THROWS_AS(j_array.insert(j_another_array.end(), j_yet_another_array.begin(),
j_yet_another_array.end()), std::domain_error);
CHECK_THROWS_AS(j_array.insert(j_another_array.end(), {1, 2, 3, 4}), std::domain_error);
}
SECTION("non-array type")
{
// call insert on a non-array type
json j_nonarray = 3;
json j_yet_another_array = {"first", "second"};
CHECK_THROWS_AS(j_nonarray.insert(j_nonarray.end(), 10), std::domain_error);
CHECK_THROWS_AS(j_nonarray.insert(j_nonarray.end(), j_value), std::domain_error);
CHECK_THROWS_AS(j_nonarray.insert(j_nonarray.end(), 10, 11), std::domain_error);
CHECK_THROWS_AS(j_nonarray.insert(j_nonarray.end(), j_yet_another_array.begin(),
j_yet_another_array.end()), std::domain_error);
CHECK_THROWS_AS(j_nonarray.insert(j_nonarray.end(), {1, 2, 3, 4}), std::domain_error);
}
}
SECTION("swap()")
{
SECTION("json")
{
SECTION("member swap")
{
json j("hello world");
json k(42.23);
j.swap(k);
CHECK(j == json(42.23));
CHECK(k == json("hello world"));
}
SECTION("nonmember swap")
{
json j("hello world");
json k(42.23);
std::swap(j, k);
CHECK(j == json(42.23));
CHECK(k == json("hello world"));
}
}
SECTION("array_t")
{
SECTION("array_t type")
{
json j = {1, 2, 3, 4};
json::array_t a = {"foo", "bar", "baz"};
j.swap(a);
CHECK(j == json({"foo", "bar", "baz"}));
j.swap(a);
CHECK(j == json({1, 2, 3, 4}));
}
SECTION("non-array_t type")
{
json j = 17;
json::array_t a = {"foo", "bar", "baz"};
CHECK_THROWS_AS(j.swap(a), std::domain_error);
}
}
SECTION("object_t")
{
SECTION("object_t type")
{
json j = {{"one", 1}, {"two", 2}};
json::object_t o = {{"cow", "Kuh"}, {"chicken", "Huhn"}};
j.swap(o);
CHECK(j == json({{"cow", "Kuh"}, {"chicken", "Huhn"}}));
j.swap(o);
CHECK(j == json({{"one", 1}, {"two", 2}}));
}
SECTION("non-object_t type")
{
json j = 17;
json::object_t o = {{"cow", "Kuh"}, {"chicken", "Huhn"}};
CHECK_THROWS_AS(j.swap(o), std::domain_error);
}
}
SECTION("string_t")
{
SECTION("string_t type")
{
json j = "Hello world";
json::string_t s = "Hallo Welt";
j.swap(s);
CHECK(j == json("Hallo Welt"));
j.swap(s);
CHECK(j == json("Hello world"));
}
SECTION("non-string_t type")
{
json j = 17;
json::string_t s = "Hallo Welt";
CHECK_THROWS_AS(j.swap(s), std::domain_error);
}
}
}
}
TEST_CASE("lexicographical comparison operators")
{
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_float,
json::value_t::object,
json::value_t::array,
json::value_t::string
};
SECTION("comparison: less")
{
std::vector<std::vector<bool>> expected =
{
{false, true, true, true, true, true, true},
{false, false, true, true, true, true, true},
{false, false, false, false, true, true, true},
{false, false, false, false, true, true, true},
{false, false, false, false, false, true, true},
{false, false, false, false, false, false, true},
{false, false, false, false, false, false, false}
};
for (size_t i = 0; i < j_types.size(); ++i)
{
for (size_t j = 0; j < j_types.size(); ++j)
{
CAPTURE(i);
CAPTURE(j);
// check precomputed values
CHECK(operator<(j_types[i], j_types[j]) == expected[i][j]);
}
}
}
}
SECTION("values")
{
json j_values =
{
nullptr, nullptr,
17, 42,
3.14159, 23.42,
"foo", "bar",
true, false,
{1, 2, 3}, {"one", "two", "three"},
{{"first", 1}, {"second", 2}}, {{"a", "A"}, {"b", {"B"}}}
};
SECTION("comparison: equal")
{
std::vector<std::vector<bool>> expected =
{
{true, true, false, false, false, false, false, false, false, false, false, false, false, false},
{true, true, false, false, false, false, false, false, false, false, false, false, false, false},
{false, false, true, false, false, false, false, false, false, false, false, false, false, false},
{false, false, false, true, false, false, false, false, false, false, false, false, false, false},
{false, false, false, false, true, false, false, false, false, false, false, false, false, false},
{false, false, false, false, false, true, false, false, false, false, false, false, false, false},
{false, false, false, false, false, false, true, false, false, false, false, false, false, false},
{false, false, false, false, false, false, false, true, false, false, false, false, false, false},
{false, false, false, false, false, false, false, false, true, false, false, false, false, false},
{false, false, false, false, false, false, false, false, false, true, false, false, false, false},
{false, false, false, false, false, false, false, false, false, false, true, false, false, false},
{false, false, false, false, false, false, false, false, false, false, false, true, false, false},
{false, false, false, false, false, false, false, false, false, false, false, false, true, false},
{false, false, false, false, false, false, false, false, false, false, false, false, false, true}
};
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
// check precomputed values
CHECK( (j_values[i] == j_values[j]) == expected[i][j] );
}
}
// comparison with discarded elements
json j_discarded(json::value_t::discarded);
for (size_t i = 0; i < j_values.size(); ++i)
{
CHECK( (j_values[i] == j_discarded) == false);
CHECK( (j_discarded == j_values[i]) == false);
CHECK( (j_discarded == j_discarded) == false);
}
// compare with null pointer
json j_null;
CHECK(j_null == nullptr);
CHECK(nullptr == j_null);
}
SECTION("comparison: not equal")
{
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
// check definition
CHECK( (j_values[i] != j_values[j]) == not(j_values[i] == j_values[j]) );
}
}
// compare with null pointer
json j_null;
CHECK( (j_null != nullptr) == false);
CHECK( (nullptr != j_null) == false);
CHECK( (j_null != nullptr) == not(j_null == nullptr));
CHECK( (nullptr != j_null) == not(nullptr == j_null));
}
SECTION("comparison: less")
{
std::vector<std::vector<bool>> expected =
{
{false, false, true, true, true, true, true, true, true, true, true, true, true, true},
{false, false, true, true, true, true, true, true, true, true, true, true, true, true},
{false, false, false, true, false, true, true, true, false, false, true, true, true, true},
{false, false, false, false, false, false, true, true, false, false, true, true, true, true},
{false, false, true, true, false, true, true, true, false, false, true, true, true, true},
{false, false, false, true, false, false, true, true, false, false, true, true, true, true},
{false, false, false, false, false, false, false, false, false, false, false, false, false, false},
{false, false, false, false, false, false, true, false, false, false, false, false, false, false},
{false, false, true, true, true, true, true, true, false, false, true, true, true, true},
{false, false, true, true, true, true, true, true, true, false, true, true, true, true},
{false, false, false, false, false, false, true, true, false, false, false, true, false, false},
{false, false, false, false, false, false, true, true, false, false, false, false, false, false},
{false, false, false, false, false, false, true, true, false, false, true, true, false, false},
{false, false, false, false, false, false, true, true, false, false, true, true, true, false}
};
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
// check precomputed values
CHECK( (j_values[i] < j_values[j]) == expected[i][j] );
}
}
// comparison with discarded elements
json j_discarded(json::value_t::discarded);
for (size_t i = 0; i < j_values.size(); ++i)
{
CHECK( (j_values[i] < j_discarded) == false);
CHECK( (j_discarded < j_values[i]) == false);
CHECK( (j_discarded < j_discarded) == false);
}
}
SECTION("comparison: less than or equal equal")
{
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
// check definition
CHECK( (j_values[i] <= j_values[j]) == not(j_values[j] < j_values[i]) );
}
}
}
SECTION("comparison: greater than")
{
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
// check definition
CHECK( (j_values[i] > j_values[j]) == (j_values[j] < j_values[i]) );
}
}
}
SECTION("comparison: greater than or equal")
{
for (size_t i = 0; i < j_values.size(); ++i)
{
for (size_t j = 0; j < j_values.size(); ++j)
{
// check definition
CHECK( (j_values[i] >= j_values[j]) == not(j_values[i] < j_values[j]) );
}
}
}
}
}
TEST_CASE("serialization")
{
SECTION("operator<<")
{
SECTION("no given width")
{
std::stringstream ss;
json j = {"foo", 1, 2, 3, false, {{"one", 1}}};
ss << j;
CHECK(ss.str() == "[\"foo\",1,2,3,false,{\"one\":1}]");
}
SECTION("given width")
{
std::stringstream ss;
json j = {"foo", 1, 2, 3, false, {{"one", 1}}};
ss << std::setw(4) << j;
CHECK(ss.str() ==
"[\n \"foo\",\n 1,\n 2,\n 3,\n false,\n {\n \"one\": 1\n }\n]");
}
}
SECTION("operator>>")
{
SECTION("no given width")
{
std::stringstream ss;
json j = {"foo", 1, 2, 3, false, {{"one", 1}}};
j >> ss;
CHECK(ss.str() == "[\"foo\",1,2,3,false,{\"one\":1}]");
}
SECTION("given width")
{
std::stringstream ss;
json j = {"foo", 1, 2, 3, false, {{"one", 1}}};
ss.width(4);
j >> ss;
CHECK(ss.str() ==
"[\n \"foo\",\n 1,\n 2,\n 3,\n false,\n {\n \"one\": 1\n }\n]");
}
}
}
TEST_CASE("deserialization")
{
SECTION("stream")
{
std::stringstream ss;
ss << "[\"foo\",1,2,3,false,{\"one\":1}]";
json j = json::parse(ss);
CHECK(j == json({"foo", 1, 2, 3, false, {{"one", 1}}}));
}
SECTION("string")
{
auto s = "[\"foo\",1,2,3,false,{\"one\":1}]";
json j = json::parse(s);
CHECK(j == json({"foo", 1, 2, 3, false, {{"one", 1}}}));
}
SECTION("operator<<")
{
std::stringstream ss;
ss << "[\"foo\",1,2,3,false,{\"one\":1}]";
json j;
j << ss;
CHECK(j == json({"foo", 1, 2, 3, false, {{"one", 1}}}));
}
SECTION("operator>>")
{
std::stringstream ss;
ss << "[\"foo\",1,2,3,false,{\"one\":1}]";
json j;
ss >> j;
CHECK(j == json({"foo", 1, 2, 3, false, {{"one", 1}}}));
}
SECTION("user-defined string literal")
{
CHECK("[\"foo\",1,2,3,false,{\"one\":1}]"_json == json({"foo", 1, 2, 3, false, {{"one", 1}}}));
}
}
TEST_CASE("iterator class")
{
SECTION("construction")
{
SECTION("constructor")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it(&j);
}
SECTION("object")
{
json j(json::value_t::object);
json::iterator it(&j);
}
SECTION("array")
{
json j(json::value_t::array);
json::iterator it(&j);
}
}
SECTION("copy assignment")
{
json j(json::value_t::null);
json::iterator it(&j);
json::iterator it2(&j);
it2 = it;
}
}
SECTION("initialization")
{
SECTION("set_begin")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it(&j);
it.set_begin();
CHECK(it == j.begin());
}
SECTION("object")
{
json j(json::value_t::object);
json::iterator it(&j);
it.set_begin();
CHECK(it == j.begin());
}
SECTION("array")
{
json j(json::value_t::array);
json::iterator it(&j);
it.set_begin();
CHECK(it == j.begin());
}
}
SECTION("set_end")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it(&j);
it.set_end();
CHECK(it == j.end());
}
SECTION("object")
{
json j(json::value_t::object);
json::iterator it(&j);
it.set_end();
CHECK(it == j.end());
}
SECTION("array")
{
json j(json::value_t::array);
json::iterator it(&j);
it.set_end();
CHECK(it == j.end());
}
}
}
SECTION("element access")
{
SECTION("operator*")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it = j.begin();
CHECK_THROWS_AS(*it, std::out_of_range);
}
SECTION("number")
{
json j(17);
json::iterator it = j.begin();
CHECK(*it == json(17));
it = j.end();
CHECK_THROWS_AS(*it, std::out_of_range);
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::iterator it = j.begin();
CHECK(*it == json("bar"));
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::iterator it = j.begin();
CHECK(*it == json(1));
}
}
SECTION("operator->")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it = j.begin();
CHECK_THROWS_AS(it->type_name(), std::out_of_range);
}
SECTION("number")
{
json j(17);
json::iterator it = j.begin();
CHECK(it->type_name() == "number");
it = j.end();
CHECK_THROWS_AS(it->type_name(), std::out_of_range);
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::iterator it = j.begin();
CHECK(it->type_name() == "string");
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::iterator it = j.begin();
CHECK(it->type_name() == "number");
}
}
}
SECTION("increment/decrement")
{
SECTION("post-increment")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it = j.begin();
CHECK(it.m_it.primitive_iterator == 1);
it++;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("number")
{
json j(17);
json::iterator it = j.begin();
CHECK(it.m_it.primitive_iterator == 0);
it++;
CHECK(it.m_it.primitive_iterator == 1);
it++;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::iterator it = j.begin();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
it++;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::iterator it = j.begin();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
}
}
SECTION("pre-increment")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it = j.begin();
CHECK(it.m_it.primitive_iterator == 1);
++it;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("number")
{
json j(17);
json::iterator it = j.begin();
CHECK(it.m_it.primitive_iterator == 0);
++it;
CHECK(it.m_it.primitive_iterator == 1);
++it;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::iterator it = j.begin();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
++it;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::iterator it = j.begin();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
}
}
SECTION("post-decrement")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it = j.end();
CHECK(it.m_it.primitive_iterator == 1);
}
SECTION("number")
{
json j(17);
json::iterator it = j.end();
CHECK(it.m_it.primitive_iterator == 1);
it--;
CHECK(it.m_it.primitive_iterator == 0);
it--;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::iterator it = j.end();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
it--;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::iterator it = j.end();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
}
}
SECTION("pre-decrement")
{
SECTION("null")
{
json j(json::value_t::null);
json::iterator it = j.end();
CHECK(it.m_it.primitive_iterator == 1);
}
SECTION("number")
{
json j(17);
json::iterator it = j.end();
CHECK(it.m_it.primitive_iterator == 1);
--it;
CHECK(it.m_it.primitive_iterator == 0);
--it;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::iterator it = j.end();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
--it;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::iterator it = j.end();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
}
}
}
}
TEST_CASE("const_iterator class")
{
SECTION("construction")
{
SECTION("constructor")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it(&j);
}
SECTION("object")
{
json j(json::value_t::object);
json::const_iterator it(&j);
}
SECTION("array")
{
json j(json::value_t::array);
json::const_iterator it(&j);
}
}
SECTION("copy assignment")
{
json j(json::value_t::null);
json::const_iterator it(&j);
json::const_iterator it2(&j);
it2 = it;
}
}
SECTION("initialization")
{
SECTION("set_begin")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it(&j);
it.set_begin();
CHECK(it == j.cbegin());
}
SECTION("object")
{
json j(json::value_t::object);
json::const_iterator it(&j);
it.set_begin();
CHECK(it == j.cbegin());
}
SECTION("array")
{
json j(json::value_t::array);
json::const_iterator it(&j);
it.set_begin();
CHECK(it == j.cbegin());
}
}
SECTION("set_end")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it(&j);
it.set_end();
CHECK(it == j.cend());
}
SECTION("object")
{
json j(json::value_t::object);
json::const_iterator it(&j);
it.set_end();
CHECK(it == j.cend());
}
SECTION("array")
{
json j(json::value_t::array);
json::const_iterator it(&j);
it.set_end();
CHECK(it == j.cend());
}
}
}
SECTION("element access")
{
SECTION("operator*")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it = j.cbegin();
CHECK_THROWS_AS(*it, std::out_of_range);
}
SECTION("number")
{
json j(17);
json::const_iterator it = j.cbegin();
CHECK(*it == json(17));
it = j.cend();
CHECK_THROWS_AS(*it, std::out_of_range);
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::const_iterator it = j.cbegin();
CHECK(*it == json("bar"));
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::const_iterator it = j.cbegin();
CHECK(*it == json(1));
}
}
SECTION("operator->")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it = j.cbegin();
CHECK_THROWS_AS(it->type_name(), std::out_of_range);
}
SECTION("number")
{
json j(17);
json::const_iterator it = j.cbegin();
CHECK(it->type_name() == "number");
it = j.cend();
CHECK_THROWS_AS(it->type_name(), std::out_of_range);
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::const_iterator it = j.cbegin();
CHECK(it->type_name() == "string");
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::const_iterator it = j.cbegin();
CHECK(it->type_name() == "number");
}
}
}
SECTION("increment/decrement")
{
SECTION("post-increment")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it = j.cbegin();
CHECK(it.m_it.primitive_iterator == 1);
it++;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("number")
{
json j(17);
json::const_iterator it = j.cbegin();
CHECK(it.m_it.primitive_iterator == 0);
it++;
CHECK(it.m_it.primitive_iterator == 1);
it++;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::const_iterator it = j.cbegin();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
it++;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::const_iterator it = j.cbegin();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it++;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
}
}
SECTION("pre-increment")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it = j.cbegin();
CHECK(it.m_it.primitive_iterator == 1);
++it;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("number")
{
json j(17);
json::const_iterator it = j.cbegin();
CHECK(it.m_it.primitive_iterator == 0);
++it;
CHECK(it.m_it.primitive_iterator == 1);
++it;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::const_iterator it = j.cbegin();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
++it;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::const_iterator it = j.cbegin();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
++it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
}
}
SECTION("post-decrement")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it = j.cend();
CHECK(it.m_it.primitive_iterator == 1);
}
SECTION("number")
{
json j(17);
json::const_iterator it = j.cend();
CHECK(it.m_it.primitive_iterator == 1);
it--;
CHECK(it.m_it.primitive_iterator == 0);
it--;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::const_iterator it = j.cend();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
it--;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::const_iterator it = j.cend();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
it--;
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
}
}
SECTION("pre-decrement")
{
SECTION("null")
{
json j(json::value_t::null);
json::const_iterator it = j.cend();
CHECK(it.m_it.primitive_iterator == 1);
}
SECTION("number")
{
json j(17);
json::const_iterator it = j.cend();
CHECK(it.m_it.primitive_iterator == 1);
--it;
CHECK(it.m_it.primitive_iterator == 0);
--it;
CHECK((it.m_it.primitive_iterator != 0 and it.m_it.primitive_iterator != 1));
}
SECTION("object")
{
json j({{"foo", "bar"}});
json::const_iterator it = j.cend();
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->end());
--it;
CHECK(it.m_it.object_iterator == it.m_object->m_value.object->begin());
}
SECTION("array")
{
json j({1, 2, 3, 4});
json::const_iterator it = j.cend();
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
--it;
CHECK(it.m_it.array_iterator == it.m_object->m_value.array->begin());
CHECK(it.m_it.array_iterator != it.m_object->m_value.array->end());
}
}
}
}
TEST_CASE("convenience functions")
{
SECTION("type name as string")
{
CHECK(json(json::value_t::null).type_name() == "null");
CHECK(json(json::value_t::object).type_name() == "object");
CHECK(json(json::value_t::array).type_name() == "array");
CHECK(json(json::value_t::number_integer).type_name() == "number");
CHECK(json(json::value_t::number_float).type_name() == "number");
CHECK(json(json::value_t::boolean).type_name() == "boolean");
CHECK(json(json::value_t::string).type_name() == "string");
CHECK(json(json::value_t::discarded).type_name() == "discarded");
}
SECTION("string escape")
{
CHECK(json::escape_string("\"") == "\\\"");
CHECK(json::escape_string("\\") == "\\\\");
CHECK(json::escape_string("\b") == "\\b");
CHECK(json::escape_string("\f") == "\\f");
CHECK(json::escape_string("\n") == "\\n");
CHECK(json::escape_string("\r") == "\\r");
CHECK(json::escape_string("\t") == "\\t");
CHECK(json::escape_string("\x01") == "\\u0001");
CHECK(json::escape_string("\x02") == "\\u0002");
CHECK(json::escape_string("\x03") == "\\u0003");
CHECK(json::escape_string("\x04") == "\\u0004");
CHECK(json::escape_string("\x05") == "\\u0005");
CHECK(json::escape_string("\x06") == "\\u0006");
CHECK(json::escape_string("\x07") == "\\u0007");
CHECK(json::escape_string("\x08") == "\\b");
CHECK(json::escape_string("\x09") == "\\t");
CHECK(json::escape_string("\x0a") == "\\n");
CHECK(json::escape_string("\x0b") == "\\u000b");
CHECK(json::escape_string("\x0c") == "\\f");
CHECK(json::escape_string("\x0d") == "\\r");
CHECK(json::escape_string("\x0e") == "\\u000e");
CHECK(json::escape_string("\x0f") == "\\u000f");
CHECK(json::escape_string("\x10") == "\\u0010");
CHECK(json::escape_string("\x11") == "\\u0011");
CHECK(json::escape_string("\x12") == "\\u0012");
CHECK(json::escape_string("\x13") == "\\u0013");
CHECK(json::escape_string("\x14") == "\\u0014");
CHECK(json::escape_string("\x15") == "\\u0015");
CHECK(json::escape_string("\x16") == "\\u0016");
CHECK(json::escape_string("\x17") == "\\u0017");
CHECK(json::escape_string("\x18") == "\\u0018");
CHECK(json::escape_string("\x19") == "\\u0019");
CHECK(json::escape_string("\x1a") == "\\u001a");
CHECK(json::escape_string("\x1b") == "\\u001b");
CHECK(json::escape_string("\x1c") == "\\u001c");
CHECK(json::escape_string("\x1d") == "\\u001d");
CHECK(json::escape_string("\x1e") == "\\u001e");
CHECK(json::escape_string("\x1f") == "\\u001f");
}
}
TEST_CASE("lexer class")
{
SECTION("scan")
{
SECTION("structural characters")
{
CHECK(json::lexer("[").scan() == json::lexer::token_type::begin_array);
CHECK(json::lexer("]").scan() == json::lexer::token_type::end_array);
CHECK(json::lexer("{").scan() == json::lexer::token_type::begin_object);
CHECK(json::lexer("}").scan() == json::lexer::token_type::end_object);
CHECK(json::lexer(",").scan() == json::lexer::token_type::value_separator);
CHECK(json::lexer(":").scan() == json::lexer::token_type::name_separator);
}
SECTION("literal names")
{
CHECK(json::lexer("null").scan() == json::lexer::token_type::literal_null);
CHECK(json::lexer("true").scan() == json::lexer::token_type::literal_true);
CHECK(json::lexer("false").scan() == json::lexer::token_type::literal_false);
}
SECTION("numbers")
{
CHECK(json::lexer("0").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("1").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("2").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("3").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("4").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("5").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("6").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("7").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("8").scan() == json::lexer::token_type::value_number);
CHECK(json::lexer("9").scan() == json::lexer::token_type::value_number);
}
SECTION("whitespace")
{
// result is end_of_input, because not token is following
CHECK(json::lexer(" ").scan() == json::lexer::token_type::end_of_input);
CHECK(json::lexer("\t").scan() == json::lexer::token_type::end_of_input);
CHECK(json::lexer("\n").scan() == json::lexer::token_type::end_of_input);
CHECK(json::lexer("\r").scan() == json::lexer::token_type::end_of_input);
CHECK(json::lexer(" \t\n\r\n\t ").scan() == json::lexer::token_type::end_of_input);
}
}
SECTION("token_type_name")
{
CHECK(json::lexer::token_type_name(json::lexer::token_type::uninitialized) == "<uninitialized>");
CHECK(json::lexer::token_type_name(json::lexer::token_type::literal_true) == "true literal");
CHECK(json::lexer::token_type_name(json::lexer::token_type::literal_false) == "false literal");
CHECK(json::lexer::token_type_name(json::lexer::token_type::literal_null) == "null literal");
CHECK(json::lexer::token_type_name(json::lexer::token_type::value_string) == "string literal");
CHECK(json::lexer::token_type_name(json::lexer::token_type::value_number) == "number literal");
CHECK(json::lexer::token_type_name(json::lexer::token_type::begin_array) == "[");
CHECK(json::lexer::token_type_name(json::lexer::token_type::begin_object) == "{");
CHECK(json::lexer::token_type_name(json::lexer::token_type::end_array) == "]");
CHECK(json::lexer::token_type_name(json::lexer::token_type::end_object) == "}");
CHECK(json::lexer::token_type_name(json::lexer::token_type::name_separator) == ":");
CHECK(json::lexer::token_type_name(json::lexer::token_type::value_separator) == ",");
CHECK(json::lexer::token_type_name(json::lexer::token_type::parse_error) == "<parse error>");
CHECK(json::lexer::token_type_name(json::lexer::token_type::end_of_input) == "<end of input>");
}
SECTION("parse errors on first character")
{
for (int c = 1; c < 128; ++c)
{
auto s = std::string(1, c);
switch (c)
{
// single characters that are valid tokens
case ('['):
case (']'):
case ('{'):
case ('}'):
case (','):
case (':'):
case ('0'):
case ('1'):
case ('2'):
case ('3'):
case ('4'):
case ('5'):
case ('6'):
case ('7'):
case ('8'):
case ('9'):
{
CHECK(json::lexer(s.c_str()).scan() != json::lexer::token_type::parse_error);
break;
}
// whitespace
case (' '):
case ('\t'):
case ('\n'):
case ('\r'):
{
CHECK(json::lexer(s.c_str()).scan() == json::lexer::token_type::end_of_input);
break;
}
// anything else is not expected
default:
{
CHECK(json::lexer(s.c_str()).scan() == json::lexer::token_type::parse_error);
break;
}
}
}
}
SECTION("to_unicode")
{
CHECK(json::lexer::to_unicode(0x1F4A9) == "💩");
CHECK_THROWS_AS(json::lexer::to_unicode(0x200000), std::out_of_range);
}
}
TEST_CASE("parser class")
{
SECTION("parse")
{
SECTION("null")
{
CHECK(json::parser("null").parse() == json(nullptr));
}
SECTION("true")
{
CHECK(json::parser("true").parse() == json(true));
}
SECTION("false")
{
CHECK(json::parser("false").parse() == json(false));
}
SECTION("array")
{
SECTION("empty array")
{
CHECK(json::parser("[]").parse() == json(json::value_t::array));
CHECK(json::parser("[ ]").parse() == json(json::value_t::array));
}
SECTION("nonempty array")
{
CHECK(json::parser("[true, false, null]").parse() == json({true, false, nullptr}));
}
}
SECTION("object")
{
SECTION("empty object")
{
CHECK(json::parser("{}").parse() == json(json::value_t::object));
CHECK(json::parser("{ }").parse() == json(json::value_t::object));
}
SECTION("nonempty object")
{
CHECK(json::parser("{\"\": true, \"one\": 1, \"two\": null}").parse() == json({{"", true}, {"one", 1}, {"two", nullptr}}));
}
}
SECTION("string")
{
// empty string
CHECK(json::parser("\"\"").parse() == json(json::value_t::string));
SECTION("errors")
{
// error: tab in string
CHECK_THROWS_AS(json::parser("\"\t\"").parse(), std::invalid_argument);
// error: newline in string
CHECK_THROWS_AS(json::parser("\"\n\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("\"\r\"").parse(), std::invalid_argument);
// error: backspace in string
CHECK_THROWS_AS(json::parser("\"\b\"").parse(), std::invalid_argument);
}
SECTION("escaped")
{
// quotation mark "\""
auto r1 = R"("\"")"_json;
CHECK(json::parser("\"\\\"\"").parse() == r1);
// reverse solidus "\\"
auto r2 = R"("\\")"_json;
CHECK(json::parser("\"\\\\\"").parse() == r2);
// solidus
CHECK(json::parser("\"\\/\"").parse() == R"("/")"_json);
// backspace
CHECK(json::parser("\"\\b\"").parse() == json("\b"));
// formfeed
CHECK(json::parser("\"\\f\"").parse() == json("\f"));
// newline
CHECK(json::parser("\"\\n\"").parse() == json("\n"));
// carriage return
CHECK(json::parser("\"\\r\"").parse() == json("\r"));
// horizontal tab
CHECK(json::parser("\"\\t\"").parse() == json("\t"));
CHECK(json::parser("\"\\u0001\"").parse().get<json::string_t>() == "\x01");
CHECK(json::parser("\"\\u000a\"").parse().get<json::string_t>() == "\n");
CHECK(json::parser("\"\\u00b0\"").parse().get<json::string_t>() == "°");
CHECK(json::parser("\"\\u0c00\"").parse().get<json::string_t>() == "");
CHECK(json::parser("\"\\ud000\"").parse().get<json::string_t>() == "퀀");
CHECK(json::parser("\"\\u000E\"").parse().get<json::string_t>() == "\x0E");
CHECK(json::parser("\"\\u00F0\"").parse().get<json::string_t>() == "ð");
CHECK(json::parser("\"\\u0100\"").parse().get<json::string_t>() == "Ā");
CHECK(json::parser("\"\\u2000\"").parse().get<json::string_t>() == " ");
CHECK(json::parser("\"\\uFFFF\"").parse().get<json::string_t>() == "￿");
CHECK(json::parser("\"\\u20AC\"").parse().get<json::string_t>() == "");
CHECK(json::parser("\"\"").parse().get<json::string_t>() == "");
CHECK(json::parser("\"🎈\"").parse().get<json::string_t>() == "🎈");
CHECK(json::parse("\"\\ud80c\\udc60\"").get<json::string_t>() == u8"\U00013060");
CHECK(json::parse("\"\\ud83c\\udf1e\"").get<json::string_t>() == "🌞");
}
}
SECTION("number")
{
SECTION("integers")
{
SECTION("without exponent")
{
CHECK(json::parser("-128").parse() == json(-128));
CHECK(json::parser("-0").parse() == json(-0));
CHECK(json::parser("0").parse() == json(0));
CHECK(json::parser("128").parse() == json(128));
}
SECTION("with exponent")
{
CHECK(json::parser("0e1").parse() == json(0e1));
CHECK(json::parser("0E1").parse() == json(0e1));
CHECK(json::parser("10000E-4").parse() == json(10000e-4));
CHECK(json::parser("10000E-3").parse() == json(10000e-3));
CHECK(json::parser("10000E-2").parse() == json(10000e-2));
CHECK(json::parser("10000E-1").parse() == json(10000e-1));
CHECK(json::parser("10000E0").parse() == json(10000e0));
CHECK(json::parser("10000E1").parse() == json(10000e1));
CHECK(json::parser("10000E2").parse() == json(10000e2));
CHECK(json::parser("10000E3").parse() == json(10000e3));
CHECK(json::parser("10000E4").parse() == json(10000e4));
CHECK(json::parser("10000e-4").parse() == json(10000e-4));
CHECK(json::parser("10000e-3").parse() == json(10000e-3));
CHECK(json::parser("10000e-2").parse() == json(10000e-2));
CHECK(json::parser("10000e-1").parse() == json(10000e-1));
CHECK(json::parser("10000e0").parse() == json(10000e0));
CHECK(json::parser("10000e1").parse() == json(10000e1));
CHECK(json::parser("10000e2").parse() == json(10000e2));
CHECK(json::parser("10000e3").parse() == json(10000e3));
CHECK(json::parser("10000e4").parse() == json(10000e4));
CHECK(json::parser("-0e1").parse() == json(-0e1));
CHECK(json::parser("-0E1").parse() == json(-0e1));
CHECK(json::parser("-0E123").parse() == json(-0e123));
}
SECTION("edge cases")
{
// From RFC7159, Section 6:
// Note that when such software is used, numbers that are
// integers and are in the range [-(2**53)+1, (2**53)-1]
// are interoperable in the sense that implementations will
// agree exactly on their numeric values.
// -(2**53)+1
CHECK(json::parser("-9007199254740991").parse().get<int64_t>() == -9007199254740991);
// (2**53)-1
CHECK(json::parser("9007199254740991").parse().get<int64_t>() == 9007199254740991);
}
}
SECTION("floating-point")
{
SECTION("without exponent")
{
CHECK(json::parser("-128.5").parse() == json(-128.5));
CHECK(json::parser("0.999").parse() == json(0.999));
CHECK(json::parser("128.5").parse() == json(128.5));
CHECK(json::parser("-0.0").parse() == json(-0.0));
}
SECTION("with exponent")
{
CHECK(json::parser("-128.5E3").parse() == json(-128.5E3));
CHECK(json::parser("-128.5E-3").parse() == json(-128.5E-3));
CHECK(json::parser("-0.0e1").parse() == json(-0.0e1));
CHECK(json::parser("-0.0E1").parse() == json(-0.0e1));
}
}
SECTION("invalid numbers")
{
CHECK_THROWS_AS(json::parser("01").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("--1").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1E").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1E-").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1.E1").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-1E").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0E#").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0E-#").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0#").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0.0:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0.0Z").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0E123:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0e0-:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0e-:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0f").parse(), std::invalid_argument);
}
}
}
SECTION("parse errors")
{
// unexpected end of number
CHECK_THROWS_AS(json::parser("0.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("--").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-0.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("-:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("0.:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("e.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1e.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1e/").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1e:").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1E.").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1E/").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("1E:").parse(), std::invalid_argument);
// unexpected end of null
CHECK_THROWS_AS(json::parser("n").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("n").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("nu").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("nul").parse(), std::invalid_argument);
// unexpected end of true
CHECK_THROWS_AS(json::parser("t").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("t").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("tr").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("tru").parse(), std::invalid_argument);
// unexpected end of false
CHECK_THROWS_AS(json::parser("f").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("fa").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("fal").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("fals").parse(), std::invalid_argument);
// unexpected end of array
CHECK_THROWS_AS(json::parser("[").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("[1").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("[1,").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("[1,]").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("]").parse(), std::invalid_argument);
// unexpected end of object
CHECK_THROWS_AS(json::parser("{").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("{\"foo\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("{\"foo\":").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("{\"foo\":}").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("{\"foo\":1,}").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("}").parse(), std::invalid_argument);
// unexpected end of string
CHECK_THROWS_AS(json::parser("\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("\"\\\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("\"\\u\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("\"\\u0\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("\"\\u01\"").parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser("\"\\u012\"").parse(), std::invalid_argument);
// invalid escapes
for (int c = 1; c < 128; ++c)
{
auto s = std::string("\"\\") + std::string(1, c) + "\"";
switch (c)
{
// valid escapes
case ('"'):
case ('\\'):
case ('/'):
case ('b'):
case ('f'):
case ('n'):
case ('r'):
case ('t'):
{
CHECK_NOTHROW(json::parser(s).parse());
break;
}
// \u must be followed with four numbers, so we skip it here
case ('u'):
{
break;
}
// any other combination of backslash and character is invalid
default:
{
CHECK_THROWS_AS(json::parser(s).parse(), std::invalid_argument);
break;
}
}
}
// invalid \uxxxx escapes
{
// check whether character is a valid hex character
const auto valid = [](int c)
{
switch (c)
{
case ('0'):
case ('1'):
case ('2'):
case ('3'):
case ('4'):
case ('5'):
case ('6'):
case ('7'):
case ('8'):
case ('9'):
case ('a'):
case ('b'):
case ('c'):
case ('d'):
case ('e'):
case ('f'):
case ('A'):
case ('B'):
case ('C'):
case ('D'):
case ('E'):
case ('F'):
{
return true;
}
default:
{
return false;
}
}
};
for (int c = 1; c < 128; ++c)
{
std::string s = "\"\\u";
// create a string with the iterated character at each position
auto s1 = s + "000" + std::string(1, c) + "\"";
auto s2 = s + "00" + std::string(1, c) + "0\"";
auto s3 = s + "0" + std::string(1, c) + "00\"";
auto s4 = s + std::string(1, c) + "000\"";
if (valid(c))
{
CHECK_NOTHROW(json::parser(s1).parse());
CHECK_NOTHROW(json::parser(s2).parse());
CHECK_NOTHROW(json::parser(s3).parse());
CHECK_NOTHROW(json::parser(s4).parse());
}
else
{
CHECK_THROWS_AS(json::parser(s1).parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser(s2).parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser(s3).parse(), std::invalid_argument);
CHECK_THROWS_AS(json::parser(s4).parse(), std::invalid_argument);
}
}
}
// missing part of a surrogate pair
CHECK_THROWS_AS(json::parse("\"\\uD80C\""), std::invalid_argument);
// invalid surrogate pair
CHECK_THROWS_AS(json::parse("\"\\uD80C\\uD80C\""), std::invalid_argument);
CHECK_THROWS_AS(json::parse("\"\\uD80C\\u0000\""), std::invalid_argument);
CHECK_THROWS_AS(json::parse("\"\\uD80C\\uFFFF\""), std::invalid_argument);
}
SECTION("callback function")
{
auto s_object = R"(
{
"foo": 2,
"bar": {
"baz": 1
}
}
)";
auto s_array = R"(
[1,2,[3,4,5],4,5]
)";
SECTION("filter nothing")
{
json j_object = json::parse(s_object, [](int, json::parse_event_t, const json&)
{
return true;
});
CHECK (j_object == json({{"foo", 2}, {"bar", {{"baz", 1}}}}));
json j_array = json::parse(s_array, [](int, json::parse_event_t, const json&)
{
return true;
});
CHECK (j_array == json({1, 2, {3, 4, 5}, 4, 5}));
}
SECTION("filter everything")
{
json j_object = json::parse(s_object, [](int, json::parse_event_t, const json&)
{
return false;
});
// the top-level object will be discarded, leaving a null
CHECK (j_object.is_null());
json j_array = json::parse(s_array, [](int, json::parse_event_t, const json&)
{
return false;
});
// the top-level array will be discarded, leaving a null
CHECK (j_array.is_null());
}
SECTION("filter specific element")
{
json j_object = json::parse(s_object, [](int, json::parse_event_t, const json & j)
{
// filter all number(2) elements
if (j == json(2))
{
return false;
}
else
{
return true;
}
});
CHECK (j_object == json({{"bar", {{"baz", 1}}}}));
json j_array = json::parse(s_array, [](int, json::parse_event_t, const json & j)
{
if (j == json(2))
{
return false;
}
else
{
return true;
}
});
CHECK (j_array == json({1, {3, 4, 5}, 4, 5}));
}
SECTION("filter specific events")
{
SECTION("first closing event")
{
{
json j_object = json::parse(s_object, [](int, json::parse_event_t e, const json&)
{
static bool first = true;
if (e == json::parse_event_t::object_end and first)
{
first = false;
return false;
}
else
{
return true;
}
});
// the first completed object will be discarded
CHECK (j_object == json({{"foo", 2}}));
}
{
json j_array = json::parse(s_array, [](int, json::parse_event_t e, const json&)
{
static bool first = true;
if (e == json::parse_event_t::array_end and first)
{
first = false;
return false;
}
else
{
return true;
}
});
// the first completed array will be discarded
CHECK (j_array == json({1, 2, 4, 5}));
}
}
}
SECTION("special cases")
{
// the following test cases cover the situation in which an empty
// object and array is discarded only after the closing character
// has been read
json j_empty_object = json::parse("{}", [](int, json::parse_event_t e, const json&)
{
if (e == json::parse_event_t::object_end)
{
return false;
}
else
{
return true;
}
});
CHECK(j_empty_object == json());
json j_empty_array = json::parse("[]", [](int, json::parse_event_t e, const json&)
{
if (e == json::parse_event_t::array_end)
{
return false;
}
else
{
return true;
}
});
CHECK(j_empty_array == json());
}
}
}
TEST_CASE("README", "[hide]")
{
{
// create an empty structure (null)
json j;
// add a number that is stored as double (note the implicit conversion of j to an object)
j["pi"] = 3.141;
// add a Boolean that is stored as bool
j["happy"] = true;
// add a string that is stored as std::string
j["name"] = "Niels";
// add another null object by passing nullptr
j["nothing"] = nullptr;
// add an object inside the object
j["answer"]["everything"] = 42;
// add an array that is stored as std::vector (using an initializer list)
j["list"] = { 1, 0, 2 };
// add another object (using an initializer list of pairs)
j["object"] = { {"currency", "USD"}, {"value", 42.99} };
// instead, you could also write (which looks very similar to the JSON above)
json j2 =
{
{"pi", 3.141},
{"happy", true},
{"name", "Niels"},
{"nothing", nullptr},
{
"answer", {
{"everything", 42}
}
},
{"list", {1, 0, 2}},
{
"object", {
{"currency", "USD"},
{"value", 42.99}
}
}
};
}
{
// ways to express the empty array []
json empty_array_implicit = {{}};
json empty_array_explicit = json::array();
// a way to express the empty object {}
json empty_object_explicit = json::object();
// a way to express an _array_ of key/value pairs [["currency", "USD"], ["value", 42.99]]
json array_not_object = { json::array({"currency", "USD"}), json::array({"value", 42.99}) };
}
{
// create object from string literal
json j = "{ \"happy\": true, \"pi\": 3.141 }"_json;
// or even nicer (thanks http://isocpp.org/blog/2015/01/json-for-modern-cpp)
auto j2 = R"(
{
"happy": true,
"pi": 3.141
}
)"_json;
// or explicitly
auto j3 = json::parse("{ \"happy\": true, \"pi\": 3.141 }");
// explicit conversion to string
std::string s = j.dump(); // {\"happy\":true,\"pi\":3.141}
// serialization with pretty printing
// pass in the amount of spaces to indent
std::cout << j.dump(4) << std::endl;
// {
// "happy": true,
// "pi": 3.141
// }
std::cout << std::setw(2) << j << std::endl;
}
{
// create an array using push_back
json j;
j.push_back("foo");
j.push_back(1);
j.push_back(true);
// iterate the array
for (json::iterator it = j.begin(); it != j.end(); ++it)
{
std::cout << *it << '\n';
}
// range-based for
for (auto element : j)
{
std::cout << element << '\n';
}
// getter/setter
const std::string tmp = j[0];
j[1] = 42;
bool foo = j.at(2);
// other stuff
j.size(); // 3 entries
j.empty(); // false
j.type(); // json::value_t::array
j.clear(); // the array is empty again
// comparison
j == "[\"foo\", 1, true]"_json; // true
// create an object
json o;
o["foo"] = 23;
o["bar"] = false;
o["baz"] = 3.141;
// find an entry
if (o.find("foo") != o.end())
{
// there is an entry with key "foo"
}
}
{
std::vector<int> c_vector {1, 2, 3, 4};
json j_vec(c_vector);
// [1, 2, 3, 4]
std::deque<float> c_deque {1.2f, 2.3f, 3.4f, 5.6f};
json j_deque(c_deque);
// [1.2, 2.3, 3.4, 5.6]
std::list<bool> c_list {true, true, false, true};
json j_list(c_list);
// [true, true, false, true]
std::forward_list<int64_t> c_flist {12345678909876, 23456789098765, 34567890987654, 45678909876543};
json j_flist(c_flist);
// [12345678909876, 23456789098765, 34567890987654, 45678909876543]
std::array<unsigned long, 4> c_array {{1, 2, 3, 4}};
json j_array(c_array);
// [1, 2, 3, 4]
std::set<std::string> c_set {"one", "two", "three", "four", "one"};
json j_set(c_set); // only one entry for "one" is used
// ["four", "one", "three", "two"]
std::unordered_set<std::string> c_uset {"one", "two", "three", "four", "one"};
json j_uset(c_uset); // only one entry for "one" is used
// maybe ["two", "three", "four", "one"]
std::multiset<std::string> c_mset {"one", "two", "one", "four"};
json j_mset(c_mset); // only one entry for "one" is used
// maybe ["one", "two", "four"]
std::unordered_multiset<std::string> c_umset {"one", "two", "one", "four"};
json j_umset(c_umset); // both entries for "one" are used
// maybe ["one", "two", "one", "four"]
}
{
std::map<std::string, int> c_map { {"one", 1}, {"two", 2}, {"three", 3} };
json j_map(c_map);
// {"one": 1, "two": 2, "three": 3}
std::unordered_map<const char*, float> c_umap { {"one", 1.2f}, {"two", 2.3f}, {"three", 3.4f} };
json j_umap(c_umap);
// {"one": 1.2, "two": 2.3, "three": 3.4}
std::multimap<std::string, bool> c_mmap { {"one", true}, {"two", true}, {"three", false}, {"three", true} };
json j_mmap(c_mmap); // only one entry for key "three" is used
// maybe {"one": true, "two": true, "three": true}
std::unordered_multimap<std::string, bool> c_ummap { {"one", true}, {"two", true}, {"three", false}, {"three", true} };
json j_ummap(c_ummap); // only one entry for key "three" is used
// maybe {"one": true, "two": true, "three": true}
}
{
/// strings
std::string s1 = "Hello, world!";
json js = s1;
std::string s2 = js;
// Booleans
bool b1 = true;
json jb = b1;
bool b2 = jb;
// numbers
int i = 42;
json jn = i;
double f = jn;
// etc.
std::string vs = js.get<std::string>();
bool vb = jb.get<bool>();
int vi = jn.get<int>();
// etc.
}
}
TEST_CASE("algorithms")
{
json j_array = {13, 29, 3, {{"one", 1}, {"two", 2}}, true, false, {1, 2, 3}, "foo", "baz"};
json j_object = {{"one", 1}, {"two", 2}};
SECTION("non-modifying sequence operations")
{
SECTION("std::all_of")
{
CHECK(std::all_of(j_array.begin(), j_array.end(), [](const json & value)
{
return value.size() > 0;
}));
CHECK(std::all_of(j_object.begin(), j_object.end(), [](const json & value)
{
return value.type() == json::value_t::number_integer;
}));
}
SECTION("std::any_of")
{
CHECK(std::any_of(j_array.begin(), j_array.end(), [](const json & value)
{
return value.is_string() and value.get<std::string>() == "foo";
}));
CHECK(std::any_of(j_object.begin(), j_object.end(), [](const json & value)
{
return value.get<int>() > 1;
}));
}
SECTION("std::none_of")
{
CHECK(std::none_of(j_array.begin(), j_array.end(), [](const json & value)
{
return value.size() == 0;
}));
CHECK(std::none_of(j_object.begin(), j_object.end(), [](const json & value)
{
return value.get<int>() <= 0;
}));
}
SECTION("std::for_each")
{
SECTION("reading")
{
int sum = 0;
std::for_each(j_array.cbegin(), j_array.cend(), [&sum](const json & value)
{
if (value.is_number())
{
sum += static_cast<int>(value);
}
});
CHECK(sum == 45);
}
SECTION("writing")
{
auto add17 = [](json & value)
{
if (value.is_array())
{
value.push_back(17);
}
};
std::for_each(j_array.begin(), j_array.end(), add17);
CHECK(j_array[6] == json({1, 2, 3, 17}));
}
}
SECTION("std::count")
{
CHECK(std::count(j_array.begin(), j_array.end(), json(true)) == 1);
}
SECTION("std::count_if")
{
CHECK(std::count_if(j_array.begin(), j_array.end(), [](const json & value)
{
return (value.is_number());
}) == 3);
CHECK(std::count_if(j_array.begin(), j_array.end(), [](const json&)
{
return true;
}) == 9);
}
SECTION("std::mismatch")
{
json j_array2 = {13, 29, 3, {{"one", 1}, {"two", 2}, {"three", 3}}, true, false, {1, 2, 3}, "foo", "baz"};
auto res = std::mismatch(j_array.begin(), j_array.end(), j_array2.begin());
CHECK(*res.first == json({{"one", 1}, {"two", 2}}));
CHECK(*res.second == json({{"one", 1}, {"two", 2}, {"three", 3}}));
}
SECTION("std::equal")
{
SECTION("using operator==")
{
CHECK(std::equal(j_array.begin(), j_array.end(), j_array.begin()));
CHECK(std::equal(j_object.begin(), j_object.end(), j_object.begin()));
CHECK(not std::equal(j_array.begin(), j_array.end(), j_object.begin()));
}
SECTION("using user-defined comparison")
{
// compare objects only by size of its elements
json j_array2 = {13, 29, 3, {"Hello", "World"}, true, false, {{"one", 1}, {"two", 2}, {"three", 3}}, "foo", "baz"};
CHECK(not std::equal(j_array.begin(), j_array.end(), j_array2.begin()));
CHECK(std::equal(j_array.begin(), j_array.end(), j_array2.begin(),
[](const json & a, const json & b)
{
return (a.size() == b.size());
}));
}
}
SECTION("std::find")
{
auto it = std::find(j_array.begin(), j_array.end(), json(false));
CHECK(std::distance(j_array.begin(), it) == 5);
}
SECTION("std::find_if")
{
auto it = std::find_if(j_array.begin(), j_array.end(),
[](const json & value)
{
return value.is_boolean();
});
CHECK(std::distance(j_array.begin(), it) == 4);
}
SECTION("std::find_if_not")
{
auto it = std::find_if_not(j_array.begin(), j_array.end(),
[](const json & value)
{
return value.is_number();
});
CHECK(std::distance(j_array.begin(), it) == 3);
}
SECTION("std::adjacent_find")
{
CHECK(std::adjacent_find(j_array.begin(), j_array.end()) == j_array.end());
CHECK(std::adjacent_find(j_array.begin(), j_array.end(),
[](const json & v1, const json & v2)
{
return v1.type() == v2.type();
}) == j_array.begin());
}
}
SECTION("modifying sequence operations")
{
SECTION("std::reverse")
{
std::reverse(j_array.begin(), j_array.end());
CHECK(j_array == json({"baz", "foo", {1, 2, 3}, false, true, {{"one", 1}, {"two", 2}}, 3, 29, 13}));
}
SECTION("std::rotate")
{
std::rotate(j_array.begin(), j_array.begin() + 1, j_array.end());
CHECK(j_array == json({29, 3, {{"one", 1}, {"two", 2}}, true, false, {1, 2, 3}, "foo", "baz", 13}));
}
SECTION("std::partition")
{
auto it = std::partition(j_array.begin(), j_array.end(), [](const json & v)
{
return v.is_string();
});
CHECK(std::distance(j_array.begin(), it) == 2);
CHECK(not it[2].is_string());
}
}
SECTION("sorting operations")
{
SECTION("std::sort")
{
SECTION("with standard comparison")
{
json j = {13, 29, 3, {{"one", 1}, {"two", 2}}, true, false, {1, 2, 3}, "foo", "baz", nullptr};
std::sort(j.begin(), j.end());
CHECK(j == json({nullptr, false, true, 3, 13, 29, {{"one", 1}, {"two", 2}}, {1, 2, 3}, "baz", "foo"}));
}
SECTION("with user-defined comparison")
{
json j = {3, {{"one", 1}, {"two", 2}}, {1, 2, 3}, nullptr};
std::sort(j.begin(), j.end(), [](const json & a, const json & b)
{
return a.size() < b.size();
});
CHECK(j == json({nullptr, 3, {{"one", 1}, {"two", 2}}, {1, 2, 3}}));
}
SECTION("sorting an object")
{
json j({{"one", 1}, {"two", 2}});
CHECK_THROWS_AS(std::sort(j.begin(), j.end()), std::domain_error);
}
}
SECTION("std::partial_sort")
{
json j = {13, 29, 3, {{"one", 1}, {"two", 2}}, true, false, {1, 2, 3}, "foo", "baz", nullptr};
std::partial_sort(j.begin(), j.begin() + 4, j.end());
CHECK(j == json({nullptr, false, true, 3, {{"one", 1}, {"two", 2}}, 29, {1, 2, 3}, "foo", "baz", 13}));
}
}
SECTION("set operations")
{
SECTION("std::merge")
{
{
json j1 = {2, 4, 6, 8};
json j2 = {1, 2, 3, 5, 7};
json j3;
std::merge(j1.begin(), j1.end(), j2.begin(), j2.end(), std::back_inserter(j3));
CHECK(j3 == json({1, 2, 2, 3, 4, 5, 6, 7, 8}));
}
}
SECTION("std::set_difference")
{
json j1 = {1, 2, 3, 4, 5, 6, 7, 8};
json j2 = {1, 2, 3, 5, 7};
json j3;
std::set_difference(j1.begin(), j1.end(), j2.begin(), j2.end(), std::back_inserter(j3));
CHECK(j3 == json({4, 6, 8}));
}
SECTION("std::set_intersection")
{
json j1 = {1, 2, 3, 4, 5, 6, 7, 8};
json j2 = {1, 2, 3, 5, 7};
json j3;
std::set_intersection(j1.begin(), j1.end(), j2.begin(), j2.end(), std::back_inserter(j3));
CHECK(j3 == json({1, 2, 3, 5, 7}));
}
SECTION("std::set_union")
{
json j1 = {2, 4, 6, 8};
json j2 = {1, 2, 3, 5, 7};
json j3;
std::set_union(j1.begin(), j1.end(), j2.begin(), j2.end(), std::back_inserter(j3));
CHECK(j3 == json({1, 2, 3, 4, 5, 6, 7, 8}));
}
SECTION("std::set_symmetric_difference")
{
json j1 = {2, 4, 6, 8};
json j2 = {1, 2, 3, 5, 7};
json j3;
std::set_symmetric_difference(j1.begin(), j1.end(), j2.begin(), j2.end(), std::back_inserter(j3));
CHECK(j3 == json({1, 3, 4, 5, 6, 7, 8}));
}
}
SECTION("heap operations")
{
std::make_heap(j_array.begin(), j_array.end());
CHECK(std::is_heap(j_array.begin(), j_array.end()));
std::sort_heap(j_array.begin(), j_array.end());
CHECK(j_array == json({false, true, 3, 13, 29, {{"one", 1}, {"two", 2}}, {1, 2, 3}, "baz", "foo"}));
}
}
TEST_CASE("concepts")
{
SECTION("container requirements for json")
{
// X: container class: json
// T: type of objects: json
// a, b: values of type X: json
// TABLE 96 - Container Requirements
// X::value_type must return T
CHECK((std::is_same<json::value_type, json>::value));
// X::reference must return lvalue of T
CHECK((std::is_same<json::reference, json&>::value));
// X::const_reference must return const lvalue of T
CHECK((std::is_same<json::const_reference, const json&>::value));
// X::iterator must return iterator whose value_type is T
CHECK((std::is_same<json::iterator::value_type, json>::value));
// X::iterator must meet the forward iterator requirements
CHECK((std::is_base_of<std::forward_iterator_tag, typename std::iterator_traits<json::iterator>::iterator_category>::value));
// X::iterator must be convertible to X::const_iterator
CHECK((std::is_convertible<json::iterator, json::const_iterator>::value));
// X::const_iterator must return iterator whose value_type is T
CHECK((std::is_same<json::const_iterator::value_type, json>::value));
// X::const_iterator must meet the forward iterator requirements
CHECK((std::is_base_of<std::forward_iterator_tag, typename std::iterator_traits<json::const_iterator>::iterator_category>::value));
// X::difference_type must return a signed integer
CHECK((std::is_signed<json::difference_type>::value));
// X::difference_type must be identical to X::iterator::difference_type
CHECK((std::is_same<json::difference_type, json::iterator::difference_type>::value));
// X::difference_type must be identical to X::const_iterator::difference_type
CHECK((std::is_same<json::difference_type, json::const_iterator::difference_type>::value));
// X::size_type must return an unsigned integer
CHECK((std::is_unsigned<json::size_type>::value));
// X::size_type can represent any non-negative value of X::difference_type
CHECK(std::numeric_limits<json::difference_type>::max() <=
std::numeric_limits<json::size_type>::max());
// the expression "X u" has the post-condition "u.empty()"
{
json u;
CHECK(u.empty());
}
// the expression "X()" has the post-condition "X().empty()"
CHECK(json().empty());
}
SECTION("class json")
{
SECTION("DefaultConstructible")
{
CHECK(std::is_nothrow_default_constructible<json>::value);
}
SECTION("MoveConstructible")
{
CHECK(std::is_nothrow_move_constructible<json>::value);
}
SECTION("CopyConstructible")
{
CHECK(std::is_copy_constructible<json>::value);
}
SECTION("MoveAssignable")
{
CHECK(std::is_nothrow_move_assignable<json>::value);
}
SECTION("CopyAssignable")
{
CHECK(std::is_copy_assignable<json>::value);
}
SECTION("Destructible")
{
CHECK(std::is_nothrow_destructible<json>::value);
}
SECTION("StandardLayoutType")
{
CHECK(std::is_standard_layout<json>::value);
}
}
SECTION("class iterator")
{
SECTION("CopyConstructible")
{
CHECK(std::is_nothrow_copy_constructible<json::iterator>::value);
CHECK(std::is_nothrow_copy_constructible<json::const_iterator>::value);
}
SECTION("CopyAssignable")
{
// STL iterators used by json::iterator don't pass this test in Debug mode
#if !defined(_MSC_VER) || (_ITERATOR_DEBUG_LEVEL == 0)
CHECK(std::is_nothrow_copy_assignable<json::iterator>::value);
CHECK(std::is_nothrow_copy_assignable<json::const_iterator>::value);
#endif
}
SECTION("Destructible")
{
CHECK(std::is_nothrow_destructible<json::iterator>::value);
CHECK(std::is_nothrow_destructible<json::const_iterator>::value);
}
SECTION("Swappable")
{
{
json j {1, 2, 3};
json::iterator it1 = j.begin();
json::iterator it2 = j.end();
std::swap(it1, it2);
CHECK(it1 == j.end());
CHECK(it2 == j.begin());
}
{
json j {1, 2, 3};
json::const_iterator it1 = j.cbegin();
json::const_iterator it2 = j.cend();
std::swap(it1, it2);
CHECK(it1 == j.end());
CHECK(it2 == j.begin());
}
}
}
}
TEST_CASE("iterator_wrapper")
{
SECTION("object")
{
SECTION("value")
{
json j = {{"A", 1}, {"B", 2}};
int counter = 1;
for (auto i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "A");
CHECK(i.value() == json(1));
break;
}
case 2:
{
CHECK(i.key() == "B");
CHECK(i.value() == json(2));
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
SECTION("reference")
{
json j = {{"A", 1}, {"B", 2}};
int counter = 1;
for (auto& i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "A");
CHECK(i.value() == json(1));
break;
}
case 2:
{
CHECK(i.key() == "B");
CHECK(i.value() == json(2));
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
SECTION("const value")
{
json j = {{"A", 1}, {"B", 2}};
int counter = 1;
for (const auto i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "A");
CHECK(i.value() == json(1));
break;
}
case 2:
{
CHECK(i.key() == "B");
CHECK(i.value() == json(2));
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
SECTION("const reference")
{
json j = {{"A", 1}, {"B", 2}};
int counter = 1;
for (const auto& i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "A");
CHECK(i.value() == json(1));
break;
}
case 2:
{
CHECK(i.key() == "B");
CHECK(i.value() == json(2));
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
}
SECTION("array")
{
SECTION("value")
{
json j = {"A", "B"};
int counter = 1;
for (auto i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "0");
CHECK(i.value() == "A");
break;
}
case 2:
{
CHECK(i.key() == "1");
CHECK(i.value() == "B");
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
SECTION("reference")
{
json j = {"A", "B"};
int counter = 1;
for (auto& i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "0");
CHECK(i.value() == "A");
break;
}
case 2:
{
CHECK(i.key() == "1");
CHECK(i.value() == "B");
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
SECTION("const value")
{
json j = {"A", "B"};
int counter = 1;
for (const auto i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "0");
CHECK(i.value() == "A");
break;
}
case 2:
{
CHECK(i.key() == "1");
CHECK(i.value() == "B");
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
SECTION("const reference")
{
json j = {"A", "B"};
int counter = 1;
for (const auto& i : json::iterator_wrapper(j))
{
switch (counter++)
{
case 1:
{
CHECK(i.key() == "0");
CHECK(i.value() == "A");
break;
}
case 2:
{
CHECK(i.key() == "1");
CHECK(i.value() == "B");
break;
}
default:
{
break;
}
}
}
CHECK(counter == 3);
}
}
SECTION("primitive")
{
SECTION("value")
{
json j = 1;
int counter = 1;
for (auto i : json::iterator_wrapper(j))
{
++counter;
CHECK(i.key() == "");
CHECK(i.value() == json(1));
}
CHECK(counter == 2);
}
SECTION("reference")
{
json j = 1;
int counter = 1;
for (auto& i : json::iterator_wrapper(j))
{
++counter;
CHECK(i.key() == "");
CHECK(i.value() == json(1));
}
CHECK(counter == 2);
}
SECTION("const value")
{
json j = 1;
int counter = 1;
for (const auto i : json::iterator_wrapper(j))
{
++counter;
CHECK(i.key() == "");
CHECK(i.value() == json(1));
}
CHECK(counter == 2);
}
SECTION("reference")
{
json j = 1;
int counter = 1;
for (const auto& i : json::iterator_wrapper(j))
{
++counter;
CHECK(i.key() == "");
CHECK(i.value() == json(1));
}
CHECK(counter == 2);
}
}
}
TEST_CASE("compliance tests from json.org")
{
// test cases are from http://json.org/JSON_checker/
SECTION("expected failures")
{
for (auto filename :
{
//"test/json_tests/fail1.json",
"test/json_tests/fail2.json",
"test/json_tests/fail3.json",
"test/json_tests/fail4.json",
"test/json_tests/fail5.json",
"test/json_tests/fail6.json",
"test/json_tests/fail7.json",
"test/json_tests/fail8.json",
"test/json_tests/fail9.json",
"test/json_tests/fail10.json",
"test/json_tests/fail11.json",
"test/json_tests/fail12.json",
"test/json_tests/fail13.json",
"test/json_tests/fail14.json",
"test/json_tests/fail15.json",
"test/json_tests/fail16.json",
"test/json_tests/fail17.json",
//"test/json_tests/fail18.json",
"test/json_tests/fail19.json",
"test/json_tests/fail20.json",
"test/json_tests/fail21.json",
"test/json_tests/fail22.json",
"test/json_tests/fail23.json",
"test/json_tests/fail24.json",
"test/json_tests/fail25.json",
"test/json_tests/fail26.json",
"test/json_tests/fail27.json",
"test/json_tests/fail28.json",
"test/json_tests/fail29.json",
"test/json_tests/fail30.json",
"test/json_tests/fail31.json",
"test/json_tests/fail32.json",
"test/json_tests/fail33.json"
})
{
CAPTURE(filename);
json j;
std::ifstream f(filename);
CHECK_THROWS_AS(j << f, std::invalid_argument);
}
}
SECTION("expected passes")
{
for (auto filename :
{
"test/json_tests/pass1.json",
"test/json_tests/pass2.json",
"test/json_tests/pass3.json"
})
{
CAPTURE(filename);
json j;
std::ifstream f(filename);
CHECK_NOTHROW(j << f);
}
}
}
TEST_CASE("compliance tests from nativejson-benchmark")
{
// test cases from https://github.com/miloyip/nativejson-benchmark/blob/master/src/main.cpp
SECTION("doubles")
{
auto TEST_DOUBLE = [](const std::string & json_string, const double expected)
{
CAPTURE(json_string);
CAPTURE(expected);
CHECK(json::parse(json_string)[0].get<double>() == Approx(expected));
};
TEST_DOUBLE("[0.0]", 0.0);
TEST_DOUBLE("[-0.0]", -0.0);
TEST_DOUBLE("[1.0]", 1.0);
TEST_DOUBLE("[-1.0]", -1.0);
TEST_DOUBLE("[1.5]", 1.5);
TEST_DOUBLE("[-1.5]", -1.5);
TEST_DOUBLE("[3.1416]", 3.1416);
TEST_DOUBLE("[1E10]", 1E10);
TEST_DOUBLE("[1e10]", 1e10);
TEST_DOUBLE("[1E+10]", 1E+10);
TEST_DOUBLE("[1E-10]", 1E-10);
TEST_DOUBLE("[-1E10]", -1E10);
TEST_DOUBLE("[-1e10]", -1e10);
TEST_DOUBLE("[-1E+10]", -1E+10);
TEST_DOUBLE("[-1E-10]", -1E-10);
TEST_DOUBLE("[1.234E+10]", 1.234E+10);
TEST_DOUBLE("[1.234E-10]", 1.234E-10);
TEST_DOUBLE("[1.79769e+308]", 1.79769e+308);
TEST_DOUBLE("[2.22507e-308]", 2.22507e-308);
TEST_DOUBLE("[-1.79769e+308]", -1.79769e+308);
TEST_DOUBLE("[-2.22507e-308]", -2.22507e-308);
TEST_DOUBLE("[4.9406564584124654e-324]", 4.9406564584124654e-324); // minimum denormal
TEST_DOUBLE("[2.2250738585072009e-308]", 2.2250738585072009e-308); // Max subnormal double
TEST_DOUBLE("[2.2250738585072014e-308]", 2.2250738585072014e-308); // Min normal positive double
TEST_DOUBLE("[1.7976931348623157e+308]", 1.7976931348623157e+308); // Max double
TEST_DOUBLE("[1e-10000]", 0.0); // must underflow
TEST_DOUBLE("[18446744073709551616]",
18446744073709551616.0); // 2^64 (max of uint64_t + 1, force to use double)
TEST_DOUBLE("[-9223372036854775809]",
-9223372036854775809.0); // -2^63 - 1(min of int64_t + 1, force to use double)
TEST_DOUBLE("[0.9868011474609375]",
0.9868011474609375); // https://github.com/miloyip/rapidjson/issues/120
TEST_DOUBLE("[123e34]", 123e34); // Fast Path Cases In Disguise
TEST_DOUBLE("[45913141877270640000.0]", 45913141877270640000.0);
TEST_DOUBLE("[2.2250738585072011e-308]",
2.2250738585072011e-308);
//TEST_DOUBLE("[1e-00011111111111]", 0.0);
//TEST_DOUBLE("[-1e-00011111111111]", -0.0);
TEST_DOUBLE("[1e-214748363]", 0.0);
TEST_DOUBLE("[1e-214748364]", 0.0);
//TEST_DOUBLE("[1e-21474836311]", 0.0);
TEST_DOUBLE("[0.017976931348623157e+310]", 1.7976931348623157e+308); // Max double in another form
// Since
// abs((2^-1022 - 2^-1074) - 2.2250738585072012e-308) = 3.109754131239141401123495768877590405345064751974375599... ¡Á 10^-324
// abs((2^-1022) - 2.2250738585072012e-308) = 1.830902327173324040642192159804623318305533274168872044... ¡Á 10 ^ -324
// So 2.2250738585072012e-308 should round to 2^-1022 = 2.2250738585072014e-308
TEST_DOUBLE("[2.2250738585072012e-308]",
2.2250738585072014e-308);
// More closer to normal/subnormal boundary
// boundary = 2^-1022 - 2^-1075 = 2.225073858507201136057409796709131975934819546351645648... ¡Á 10^-308
TEST_DOUBLE("[2.22507385850720113605740979670913197593481954635164564e-308]",
2.2250738585072009e-308);
TEST_DOUBLE("[2.22507385850720113605740979670913197593481954635164565e-308]",
2.2250738585072014e-308);
// 1.0 is in (1.0 - 2^-54, 1.0 + 2^-53)
// 1.0 - 2^-54 = 0.999999999999999944488848768742172978818416595458984375
TEST_DOUBLE("[0.999999999999999944488848768742172978818416595458984375]", 1.0); // round to even
TEST_DOUBLE("[0.999999999999999944488848768742172978818416595458984374]",
0.99999999999999989); // previous double
TEST_DOUBLE("[0.999999999999999944488848768742172978818416595458984376]", 1.0); // next double
// 1.0 + 2^-53 = 1.00000000000000011102230246251565404236316680908203125
TEST_DOUBLE("[1.00000000000000011102230246251565404236316680908203125]", 1.0); // round to even
TEST_DOUBLE("[1.00000000000000011102230246251565404236316680908203124]", 1.0); // previous double
TEST_DOUBLE("[1.00000000000000011102230246251565404236316680908203126]",
1.00000000000000022); // next double
// Numbers from https://github.com/floitsch/double-conversion/blob/master/test/cctest/test-strtod.cc
TEST_DOUBLE("[72057594037927928.0]", 72057594037927928.0);
TEST_DOUBLE("[72057594037927936.0]", 72057594037927936.0);
TEST_DOUBLE("[72057594037927932.0]", 72057594037927936.0);
TEST_DOUBLE("[7205759403792793199999e-5]", 72057594037927928.0);
TEST_DOUBLE("[7205759403792793200001e-5]", 72057594037927936.0);
TEST_DOUBLE("[9223372036854774784.0]", 9223372036854774784.0);
TEST_DOUBLE("[9223372036854775808.0]", 9223372036854775808.0);
TEST_DOUBLE("[9223372036854775296.0]", 9223372036854775808.0);
TEST_DOUBLE("[922337203685477529599999e-5]", 9223372036854774784.0);
TEST_DOUBLE("[922337203685477529600001e-5]", 9223372036854775808.0);
TEST_DOUBLE("[10141204801825834086073718800384]", 10141204801825834086073718800384.0);
TEST_DOUBLE("[10141204801825835211973625643008]", 10141204801825835211973625643008.0);
TEST_DOUBLE("[10141204801825834649023672221696]", 10141204801825835211973625643008.0);
TEST_DOUBLE("[1014120480182583464902367222169599999e-5]", 10141204801825834086073718800384.0);
TEST_DOUBLE("[1014120480182583464902367222169600001e-5]", 10141204801825835211973625643008.0);
TEST_DOUBLE("[5708990770823838890407843763683279797179383808]",
5708990770823838890407843763683279797179383808.0);
TEST_DOUBLE("[5708990770823839524233143877797980545530986496]",
5708990770823839524233143877797980545530986496.0);
TEST_DOUBLE("[5708990770823839207320493820740630171355185152]",
5708990770823839524233143877797980545530986496.0);
TEST_DOUBLE("[5708990770823839207320493820740630171355185151999e-3]",
5708990770823838890407843763683279797179383808.0);
TEST_DOUBLE("[5708990770823839207320493820740630171355185152001e-3]",
5708990770823839524233143877797980545530986496.0);
{
char n1e308[312]; // '1' followed by 308 '0'
n1e308[0] = '[';
n1e308[1] = '1';
for (int j = 2; j < 310; j++)
{
n1e308[j] = '0';
}
n1e308[310] = ']';
n1e308[311] = '\0';
TEST_DOUBLE(n1e308, 1E308);
}
// Cover trimming
TEST_DOUBLE(
"[2.22507385850720113605740979670913197593481954635164564802342610972482222202107694551652952390813508"
"7914149158913039621106870086438694594645527657207407820621743379988141063267329253552286881372149012"
"9811224514518898490572223072852551331557550159143974763979834118019993239625482890171070818506906306"
"6665599493827577257201576306269066333264756530000924588831643303777979186961204949739037782970490505"
"1080609940730262937128958950003583799967207254304360284078895771796150945516748243471030702609144621"
"5722898802581825451803257070188608721131280795122334262883686223215037756666225039825343359745688844"
"2390026549819838548794829220689472168983109969836584681402285424333066033985088644580400103493397042"
"7567186443383770486037861622771738545623065874679014086723327636718751234567890123456789012345678901"
"e-308]",
2.2250738585072014e-308);
}
SECTION("strings")
{
auto TEST_STRING = [](const std::string & json_string, const std::string & expected)
{
CAPTURE(json_string);
CAPTURE(expected);
CHECK(json::parse(json_string)[0].get<std::string>() == expected);
};
TEST_STRING("[\"\"]", "");
TEST_STRING("[\"Hello\"]", "Hello");
TEST_STRING("[\"Hello\\nWorld\"]", "Hello\nWorld");
//TEST_STRING("[\"Hello\\u0000World\"]", "Hello\0World");
TEST_STRING("[\"\\\"\\\\/\\b\\f\\n\\r\\t\"]", "\"\\/\b\f\n\r\t");
TEST_STRING("[\"\\u0024\"]", "\x24"); // Dollar sign U+0024
TEST_STRING("[\"\\u00A2\"]", "\xC2\xA2"); // Cents sign U+00A2
TEST_STRING("[\"\\u20AC\"]", "\xE2\x82\xAC"); // Euro sign U+20AC
TEST_STRING("[\"\\uD834\\uDD1E\"]", "\xF0\x9D\x84\x9E"); // G clef sign U+1D11E
}
SECTION("roundtrip")
{
// test cases are from https://github.com/miloyip/nativejson-benchmark/tree/master/data/roundtrip
for (auto filename :
{
"test/json_roundtrip/roundtrip01.json",
"test/json_roundtrip/roundtrip02.json",
"test/json_roundtrip/roundtrip03.json",
"test/json_roundtrip/roundtrip04.json",
"test/json_roundtrip/roundtrip05.json",
"test/json_roundtrip/roundtrip06.json",
"test/json_roundtrip/roundtrip07.json",
"test/json_roundtrip/roundtrip08.json",
"test/json_roundtrip/roundtrip09.json",
"test/json_roundtrip/roundtrip10.json",
"test/json_roundtrip/roundtrip11.json",
"test/json_roundtrip/roundtrip12.json",
//"test/json_roundtrip/roundtrip13.json",
"test/json_roundtrip/roundtrip14.json",
"test/json_roundtrip/roundtrip15.json",
"test/json_roundtrip/roundtrip16.json",
"test/json_roundtrip/roundtrip17.json",
//"test/json_roundtrip/roundtrip18.json",
//"test/json_roundtrip/roundtrip19.json",
//"test/json_roundtrip/roundtrip20.json",
//"test/json_roundtrip/roundtrip21.json",
"test/json_roundtrip/roundtrip22.json",
"test/json_roundtrip/roundtrip23.json",
//"test/json_roundtrip/roundtrip24.json",
//"test/json_roundtrip/roundtrip25.json",
//"test/json_roundtrip/roundtrip26.json",
//"test/json_roundtrip/roundtrip27.json"
})
{
CAPTURE(filename);
std::ifstream f(filename);
std::string json_string( (std::istreambuf_iterator<char>(f) ),
(std::istreambuf_iterator<char>()) );
json j = json::parse(json_string);
CHECK(j.dump() == json_string);
}
}
}
TEST_CASE("test suite from json-test-suite")
{
SECTION("read all sample.json")
{
// read a file with all unicode characters stored as single-character
// strings in a JSON array
std::ifstream f("test/json_testsuite/sample.json");
json j;
CHECK_NOTHROW(j << f);
// the array has 3 elements
CHECK(j.size() == 3);
}
}
TEST_CASE("json.org examples")
{
// here, we list all JSON values from http://json.org/example
SECTION("1.json")
{
std::ifstream f("test/json.org/1.json");
json j;
CHECK_NOTHROW(j << f);
}
SECTION("2.json")
{
std::ifstream f("test/json.org/2.json");
json j;
CHECK_NOTHROW(j << f);
}
SECTION("3.json")
{
std::ifstream f("test/json.org/3.json");
json j;
CHECK_NOTHROW(j << f);
}
SECTION("4.json")
{
std::ifstream f("test/json.org/4.json");
json j;
CHECK_NOTHROW(j << f);
}
SECTION("5.json")
{
std::ifstream f("test/json.org/5.json");
json j;
CHECK_NOTHROW(j << f);
}
}
TEST_CASE("RFC 7159 examples")
{
// here, we list all JSON values from the RFC 7159 document
SECTION("7. Strings")
{
CHECK(json::parse("\"\\u005C\"") == json("\\"));
CHECK(json::parse("\"\\uD834\\uDD1E\"") == json("𝄞"));
CHECK(json::parse("\"𝄞\"") == json("𝄞"));
}
SECTION("8.3 String Comparison")
{
CHECK(json::parse("\"a\\b\"") == json::parse("\"a\u005Cb\""));
}
SECTION("13 Examples")
{
{
CHECK_NOTHROW(json(R"(
{
"Image": {
"Width": 800,
"Height": 600,
"Title": "View from 15th Floor",
"Thumbnail": {
"Url": "http://www.example.com/image/481989943",
"Height": 125,
"Width": 100
},
"Animated" : false,
"IDs": [116, 943, 234, 38793]
}
}
)"));
}
{
CHECK_NOTHROW(json(R"(
[
{
"precision": "zip",
"Latitude": 37.7668,
"Longitude": -122.3959,
"Address": "",
"City": "SAN FRANCISCO",
"State": "CA",
"Zip": "94107",
"Country": "US"
},
{
"precision": "zip",
"Latitude": 37.371991,
"Longitude": -122.026020,
"Address": "",
"City": "SUNNYVALE",
"State": "CA",
"Zip": "94085",
"Country": "US"
}
])"));
}
CHECK(json::parse("\"Hello world!\"") == json("Hello world!"));
CHECK(json::parse("42") == json(42));
CHECK(json::parse("true") == json(true));
}
}
TEST_CASE("Unicode", "[hide]")
{
SECTION("full enumeration of Unicode codepoints")
{
// create a string from a codepoint
auto codepoint_to_unicode = [](std::size_t cp)
{
char* buffer = new char[10];
sprintf(buffer, "\\u%04lx", cp);
std::string result(buffer);
delete[] buffer;
return result;
};
// generate all codepoints
for (std::size_t cp = 0; cp <= 0x10FFFFu; ++cp)
{
// The Unicode standard permanently reserves these code point
// values for UTF-16 encoding of the high and low surrogates, and
// they will never be assigned a character, so there should be no
// reason to encode them. The official Unicode standard says that
// no UTF forms, including UTF-16, can encode these code points.
if (cp >= 0xD800u and cp <= 0xDFFFu)
{
continue;
}
std::string res;
if (cp < 0x10000u)
{
// codepoint can be represented with 16 bit
res += codepoint_to_unicode(cp);
}
else
{
// codepoint can be represented with a pair
res += codepoint_to_unicode(0xd800u + (((cp - 0x10000u) >> 10) & 0x3ffu));
res += codepoint_to_unicode(0xdc00u + ((cp - 0x10000u) & 0x3ffu));
}
try
{
json j1, j2;
CHECK_NOTHROW(j1 = json::parse("\"" + res + "\""));
CHECK_NOTHROW(j2 = json::parse(j1.dump()));
CHECK(j1 == j2);
}
catch (std::invalid_argument)
{
// we ignore parsing errors
}
}
}
SECTION("read all unicode characters")
{
// read a file with all unicode characters stored as single-character
// strings in a JSON array
std::ifstream f("test/json_nlohmann_tests/all_unicode.json");
json j;
CHECK_NOTHROW(j << f);
// the array has 1112064 + 1 elemnts (a terminating "null" value)
CHECK(j.size() == 1112065);
}
SECTION("ignore byte-order-mark")
{
// read a file with a UTF-8 BOM
std::ifstream f("test/json_nlohmann_tests/bom.json");
json j;
CHECK_NOTHROW(j << f);
}
}
TEST_CASE("regression tests")
{
SECTION("issue #60 - Double quotation mark is not parsed correctly")
{
SECTION("escape_dobulequote")
{
auto s = "[\"\\\"foo\\\"\"]";
json j = json::parse(s);
auto expected = R"(["\"foo\""])"_json;
CHECK(j == expected);
}
}
SECTION("issue #70 - Handle infinity and NaN cases")
{
SECTION("NAN value")
{
CHECK(json(NAN) == json());
CHECK(json(json::number_float_t(NAN)) == json());
}
SECTION("infinity")
{
CHECK(json(INFINITY) == json());
CHECK(json(json::number_float_t(INFINITY)) == json());
}
}
SECTION("pull request #71 - handle enum type")
{
enum { t = 0 };
json j = json::array();
j.push_back(t);
j.push_back(json::object(
{
{"game_type", t}
}));
}
SECTION("issue #76 - dump() / parse() not idempotent")
{
// create JSON object
json fields;
fields["one"] = std::string("one");
fields["two"] = std::string("two three");
fields["three"] = std::string("three \"four\"");
// create another JSON object by deserializing the serialization
std::string payload = fields.dump();
json parsed_fields = json::parse(payload);
// check individual fields to match both objects
CHECK(parsed_fields["one"] == fields["one"]);
CHECK(parsed_fields["two"] == fields["two"]);
CHECK(parsed_fields["three"] == fields["three"]);
// check individual fields to match original input
CHECK(parsed_fields["one"] == std::string("one"));
CHECK(parsed_fields["two"] == std::string("two three"));
CHECK(parsed_fields["three"] == std::string("three \"four\""));
// check equality of the objects
CHECK(parsed_fields == fields);
// check equality of the serialized objects
CHECK(fields.dump() == parsed_fields.dump());
// check everything in one line
CHECK(fields == json::parse(fields.dump()));
}
SECTION("issue #82 - lexer::get_number return NAN")
{
const auto content = R"(
{
"Test":"Test1",
"Number":100,
"Foo":42.42
})";
std::stringstream ss;
ss << content;
json j;
ss >> j;
std::string test = j["Test"];
CHECK(test == "Test1");
int number = j["Number"];
CHECK(number == 100);
float foo = j["Foo"];
CHECK(foo == Approx(42.42));
}
SECTION("issue #89 - nonstandard integer type")
{
// create JSON class with nonstandard integer number type
nlohmann::basic_json<std::map, std::vector, std::string, bool, int32_t, float> j;
j["int_1"] = 1;
// we need to cast to int to compile with Catch - the value is int32_t
CHECK(static_cast<int>(j["int_1"]) == 1);
}
SECTION("issue #93 reverse_iterator operator inheritance problem")
{
{
json a = {1, 2, 3};
json::reverse_iterator rit = a.rbegin();
++rit;
CHECK(*rit == json(2));
CHECK(rit.value() == json(2));
}
{
json a = {1, 2, 3};
json::reverse_iterator rit = ++a.rbegin();
}
{
json a = {1, 2, 3};
json::reverse_iterator rit = a.rbegin();
++rit;
json b = {0, 0, 0};
std::transform(rit, a.rend(), b.rbegin(), [](json el)
{
return el;
});
CHECK(b == json({0, 1, 2}));
}
{
json a = {1, 2, 3};
json b = {0, 0, 0};
std::transform(++a.rbegin(), a.rend(), b.rbegin(), [](json el)
{
return el;
});
CHECK(b == json({0, 1, 2}));
}
}
SECTION("issue #100 - failed to iterator json object with reverse_iterator")
{
json config =
{
{ "111", 111 },
{ "112", 112 },
{ "113", 113 }
};
std::stringstream ss;
for (auto it = config.begin(); it != config.end(); ++it)
{
ss << it.key() << ": " << it.value() << '\n';
}
for (auto it = config.rbegin(); it != config.rend(); ++it)
{
ss << it.key() << ": " << it.value() << '\n';
}
CHECK(ss.str() == "111: 111\n112: 112\n113: 113\n113: 113\n112: 112\n111: 111\n");
}
SECTION("issue #101 - binary string causes numbers to be dumped as hex")
{
int64_t number = 10;
std::string bytes{"\x00" "asdf\n", 6};
json j;
j["int64"] = number;
j["binary string"] = bytes;
// make sure the number is really printed as decimal "10" and not as
// hexadecimal "a"
CHECK(j.dump() == "{\"binary string\":\"\\u0000asdf\\n\",\"int64\":10}");
}
SECTION("issue #111 - subsequent unicode chars")
{
std::string bytes{0x7, 0x7};
json j;
j["string"] = bytes;
CHECK(j["string"] == "\u0007\u0007");
}
SECTION("character following a surrogate pair is skipped")
{
CHECK(json::parse("\"\\ud80c\\udc60abc\"").get<json::string_t>() == u8"\U00013060abc");
}
}