tests/src/unit-alt-string.cpp - third_party/json - Git at Google

 //     __ _____ _____ _____
 //  __|  |   __|     |   | |  JSON for Modern C++ (supporting code)
 // |  |  |__   |  |  | | | |  version 3.11.3
 // |_____|_____|_____|_|___|  https://github.com/nlohmann/json
 //
 // SPDX-FileCopyrightText: 2013-2023 Niels Lohmann <https://nlohmann.me>
 // SPDX-FileCopyrightText: 2018 Vitaliy Manushkin <agri@akamo.info>
 // SPDX-License-Identifier: MIT

 #include "doctest_compatibility.h"

 #include <nlohmann/json.hpp>

 #include <string>
 #include <utility>

 /* forward declarations */
 class alt_string;
 bool operator<(const char* op1, const alt_string& op2) noexcept;
 void int_to_string(alt_string& target, std::size_t value);

 /*
  * This is virtually a string class.
  * It covers std::string under the hood.
  */
 class alt_string
 {
   public:
     using value_type = std::string::value_type;

     static constexpr auto npos = static_cast<std::size_t>(-1);

     alt_string(const char* str): str_impl(str) {}
     alt_string(const char* str, std::size_t count): str_impl(str, count) {}
     alt_string(size_t count, char chr): str_impl(count, chr) {}
     alt_string() = default;

     template <typename...TParams>
     alt_string& append(TParams&& ...params)
     {
         str_impl.append(std::forward<TParams>(params)...);
         return *this;
     }

     void push_back(char c)
     {
         str_impl.push_back(c);
     }

     template <typename op_type>
     bool operator==(const op_type& op) const
     {
         return str_impl == op;
     }

     bool operator==(const alt_string& op) const
     {
         return str_impl == op.str_impl;
     }

     template <typename op_type>
     bool operator!=(const op_type& op) const
     {
         return str_impl != op;
     }

     bool operator!=(const alt_string& op) const
     {
         return str_impl != op.str_impl;
     }

     std::size_t size() const noexcept
     {
         return str_impl.size();
     }

     void resize (std::size_t n)
     {
         str_impl.resize(n);
     }

     void resize (std::size_t n, char c)
     {
         str_impl.resize(n, c);
     }

     template <typename op_type>
     bool operator<(const op_type& op) const noexcept
     {
         return str_impl < op;
     }

     bool operator<(const alt_string& op) const noexcept
     {
         return str_impl < op.str_impl;
     }

     const char* c_str() const
     {
         return str_impl.c_str();
     }

     char& operator[](std::size_t index)
     {
         return str_impl[index];
     }

     const char& operator[](std::size_t index) const
     {
         return str_impl[index];
     }

     char& back()
     {
         return str_impl.back();
     }

     const char& back() const
     {
         return str_impl.back();
     }

     void clear()
     {
         str_impl.clear();
     }

     const value_type* data() const
     {
         return str_impl.data();
     }

     bool empty() const
     {
         return str_impl.empty();
     }

     std::size_t find(const alt_string& str, std::size_t pos = 0) const
     {
         return str_impl.find(str.str_impl, pos);
     }

     std::size_t find_first_of(char c, std::size_t pos = 0) const
     {
         return str_impl.find_first_of(c, pos);
     }

     alt_string substr(std::size_t pos = 0, std::size_t count = npos) const
     {
         const std::string s = str_impl.substr(pos, count);
         return {s.data(), s.size()};
     }

     alt_string& replace(std::size_t pos, std::size_t count, const alt_string& str)
     {
         str_impl.replace(pos, count, str.str_impl);
         return *this;
     }

   private:
     std::string str_impl {};

     friend bool operator<(const char* /*op1*/, const alt_string& /*op2*/) noexcept;
 };

 void int_to_string(alt_string& target, std::size_t value)
 {
     target = std::to_string(value).c_str();
 }

 using alt_json = nlohmann::basic_json <
                  std::map,
                  std::vector,
                  alt_string,
                  bool,
                  std::int64_t,
                  std::uint64_t,
                  double,
                  std::allocator,
                  nlohmann::adl_serializer >;

 bool operator<(const char* op1, const alt_string& op2) noexcept
 {
     return op1 < op2.str_impl;
 }

 TEST_CASE("alternative string type")
 {
     SECTION("dump")
     {
         {
             alt_json doc;
             doc["pi"] = 3.141;
             alt_string dump = doc.dump();
             CHECK(dump == R"({"pi":3.141})");
         }

         {
             alt_json doc;
             doc["happy"] = true;
             alt_string dump = doc.dump();
             CHECK(dump == R"({"happy":true})");
         }

         {
             alt_json doc;
             doc["name"] = "I'm Batman";
             alt_string dump = doc.dump();
             CHECK(dump == R"({"name":"I'm Batman"})");
         }

         {
             alt_json doc;
             doc["nothing"] = nullptr;
             alt_string dump = doc.dump();
             CHECK(dump == R"({"nothing":null})");
         }

         {
             alt_json doc;
             doc["answer"]["everything"] = 42;
             alt_string dump = doc.dump();
             CHECK(dump == R"({"answer":{"everything":42}})");
         }

         {
             alt_json doc;
             doc["list"] = { 1, 0, 2 };
             alt_string dump = doc.dump();
             CHECK(dump == R"({"list":[1,0,2]})");
         }

         {
             alt_json doc;
             doc["object"] = { {"currency", "USD"}, {"value", 42.99} };
             alt_string dump = doc.dump();
             CHECK(dump == R"({"object":{"currency":"USD","value":42.99}})");
         }
     }

     SECTION("parse")
     {
         auto doc = alt_json::parse(R"({"foo": "bar"})");
         alt_string dump = doc.dump();
         CHECK(dump == R"({"foo":"bar"})");
     }

     SECTION("items")
     {
         auto doc = alt_json::parse(R"({"foo": "bar"})");

         for (const auto& item : doc.items())
         {
             CHECK(item.key() == "foo");
             CHECK(item.value() == "bar");
         }

         auto doc_array = alt_json::parse(R"(["foo", "bar"])");

         for (const auto& item : doc_array.items())
         {
             if (item.key() == "0" )
             {
                 CHECK( item.value() == "foo" );
             }
             else if (item.key() == "1" )
             {
                 CHECK(item.value() == "bar");
             }
             else
             {
                 CHECK(false);
             }
         }
     }

     SECTION("equality")
     {
         alt_json doc;
         doc["Who are you?"] = "I'm Batman";

         CHECK("I'm Batman" == doc["Who are you?"]);
         CHECK(doc["Who are you?"]  == "I'm Batman");
         CHECK_FALSE("I'm Batman" != doc["Who are you?"]);
         CHECK_FALSE(doc["Who are you?"]  != "I'm Batman");

         CHECK("I'm Bruce Wayne" != doc["Who are you?"]);
         CHECK(doc["Who are you?"]  != "I'm Bruce Wayne");
         CHECK_FALSE("I'm Bruce Wayne" == doc["Who are you?"]);
         CHECK_FALSE(doc["Who are you?"]  == "I'm Bruce Wayne");

         {
             const alt_json& const_doc = doc;

             CHECK("I'm Batman" == const_doc["Who are you?"]);
             CHECK(const_doc["Who are you?"] == "I'm Batman");
             CHECK_FALSE("I'm Batman" != const_doc["Who are you?"]);
             CHECK_FALSE(const_doc["Who are you?"] != "I'm Batman");

             CHECK("I'm Bruce Wayne" != const_doc["Who are you?"]);
             CHECK(const_doc["Who are you?"] != "I'm Bruce Wayne");
             CHECK_FALSE("I'm Bruce Wayne" == const_doc["Who are you?"]);
             CHECK_FALSE(const_doc["Who are you?"] == "I'm Bruce Wayne");
         }
     }

     SECTION("JSON pointer")
     {
         // conversion from json to alt_json fails to compile (see #3425);
         // attempted fix(*) produces: [[['b','a','r'],['b','a','z']]] (with each char being an integer)
         // (*) disable implicit conversion for json_refs of any basic_json type
         // alt_json j = R"(
         // {
         //     "foo": ["bar", "baz"]
         // }
         // )"_json;
         auto j = alt_json::parse(R"({"foo": ["bar", "baz"]})");

         CHECK(j.at(alt_json::json_pointer("/foo/0")) == j["foo"][0]);
         CHECK(j.at(alt_json::json_pointer("/foo/1")) == j["foo"][1]);
     }
 }
	// __ _____ _____ _____
	// __\| \| __\| \| \| \| JSON for Modern C++ (supporting code)
	// \| \| \|__ \| \| \| \| \| \| version 3.11.3
	// \|_____\|_____\|_____\|_\|___\| https://github.com/nlohmann/json
	//
	// SPDX-FileCopyrightText: 2013-2023 Niels Lohmann <https://nlohmann.me>
	// SPDX-FileCopyrightText: 2018 Vitaliy Manushkin <agri@akamo.info>
	// SPDX-License-Identifier: MIT

	#include "doctest_compatibility.h"

	#include <nlohmann/json.hpp>

	#include <string>
	#include <utility>

	/* forward declarations */
	class alt_string;
	bool operator<(const char* op1, const alt_string& op2) noexcept;
	void int_to_string(alt_string& target, std::size_t value);

	/*
	* This is virtually a string class.
	* It covers std::string under the hood.
	*/
	class alt_string
	{
	public:
	using value_type = std::string::value_type;

	static constexpr auto npos = static_cast<std::size_t>(-1);

	alt_string(const char* str): str_impl(str) {}
	alt_string(const char* str, std::size_t count): str_impl(str, count) {}
	alt_string(size_t count, char chr): str_impl(count, chr) {}
	alt_string() = default;

	template <typename...TParams>
	alt_string& append(TParams&& ...params)
	{
	str_impl.append(std::forward<TParams>(params)...);
	return *this;
	}

	void push_back(char c)
	{
	str_impl.push_back(c);
	}

	template <typename op_type>
	bool operator==(const op_type& op) const
	{
	return str_impl == op;
	}

	bool operator==(const alt_string& op) const
	{
	return str_impl == op.str_impl;
	}

	template <typename op_type>
	bool operator!=(const op_type& op) const
	{
	return str_impl != op;
	}

	bool operator!=(const alt_string& op) const
	{
	return str_impl != op.str_impl;
	}

	std::size_t size() const noexcept
	{
	return str_impl.size();
	}

	void resize (std::size_t n)
	{
	str_impl.resize(n);
	}

	void resize (std::size_t n, char c)
	{
	str_impl.resize(n, c);
	}

	template <typename op_type>
	bool operator<(const op_type& op) const noexcept
	{
	return str_impl < op;
	}

	bool operator<(const alt_string& op) const noexcept
	{
	return str_impl < op.str_impl;
	}

	const char* c_str() const
	{
	return str_impl.c_str();
	}

	char& operator[](std::size_t index)
	{
	return str_impl[index];
	}

	const char& operator[](std::size_t index) const
	{
	return str_impl[index];
	}

	char& back()
	{
	return str_impl.back();
	}

	const char& back() const
	{
	return str_impl.back();
	}

	void clear()
	{
	str_impl.clear();
	}

	const value_type* data() const
	{
	return str_impl.data();
	}

	bool empty() const
	{
	return str_impl.empty();
	}

	std::size_t find(const alt_string& str, std::size_t pos = 0) const
	{
	return str_impl.find(str.str_impl, pos);
	}

	std::size_t find_first_of(char c, std::size_t pos = 0) const
	{
	return str_impl.find_first_of(c, pos);
	}

	alt_string substr(std::size_t pos = 0, std::size_t count = npos) const
	{
	const std::string s = str_impl.substr(pos, count);
	return {s.data(), s.size()};
	}

	alt_string& replace(std::size_t pos, std::size_t count, const alt_string& str)
	{
	str_impl.replace(pos, count, str.str_impl);
	return *this;
	}

	private:
	std::string str_impl {};

	friend bool operator<(const char* /op1/, const alt_string& /op2/) noexcept;
	};

	void int_to_string(alt_string& target, std::size_t value)
	{
	target = std::to_string(value).c_str();
	}

	using alt_json = nlohmann::basic_json <
	std::map,
	std::vector,
	alt_string,
	bool,
	std::int64_t,
	std::uint64_t,
	double,
	std::allocator,
	nlohmann::adl_serializer >;

	bool operator<(const char* op1, const alt_string& op2) noexcept
	{
	return op1 < op2.str_impl;
	}

	TEST_CASE("alternative string type")
	{
	SECTION("dump")
	{
	{
	alt_json doc;
	doc["pi"] = 3.141;
	alt_string dump = doc.dump();
	CHECK(dump == R"({"pi":3.141})");
	}

	{
	alt_json doc;
	doc["happy"] = true;
	alt_string dump = doc.dump();
	CHECK(dump == R"({"happy":true})");
	}

	{
	alt_json doc;
	doc["name"] = "I'm Batman";
	alt_string dump = doc.dump();
	CHECK(dump == R"({"name":"I'm Batman"})");
	}

	{
	alt_json doc;
	doc["nothing"] = nullptr;
	alt_string dump = doc.dump();
	CHECK(dump == R"({"nothing":null})");
	}

	{
	alt_json doc;
	doc["answer"]["everything"] = 42;
	alt_string dump = doc.dump();
	CHECK(dump == R"({"answer":{"everything":42}})");
	}

	{
	alt_json doc;
	doc["list"] = { 1, 0, 2 };
	alt_string dump = doc.dump();
	CHECK(dump == R"({"list":[1,0,2]})");
	}

	{
	alt_json doc;
	doc["object"] = { {"currency", "USD"}, {"value", 42.99} };
	alt_string dump = doc.dump();
	CHECK(dump == R"({"object":{"currency":"USD","value":42.99}})");
	}
	}

	SECTION("parse")
	{
	auto doc = alt_json::parse(R"({"foo": "bar"})");
	alt_string dump = doc.dump();
	CHECK(dump == R"({"foo":"bar"})");
	}

	SECTION("items")
	{
	auto doc = alt_json::parse(R"({"foo": "bar"})");

	for (const auto& item : doc.items())
	{
	CHECK(item.key() == "foo");
	CHECK(item.value() == "bar");
	}

	auto doc_array = alt_json::parse(R"(["foo", "bar"])");

	for (const auto& item : doc_array.items())
	{
	if (item.key() == "0" )
	{
	CHECK( item.value() == "foo" );
	}
	else if (item.key() == "1" )
	{
	CHECK(item.value() == "bar");
	}
	else
	{
	CHECK(false);
	}
	}
	}

	SECTION("equality")
	{
	alt_json doc;
	doc["Who are you?"] = "I'm Batman";

	CHECK("I'm Batman" == doc["Who are you?"]);
	CHECK(doc["Who are you?"] == "I'm Batman");
	CHECK_FALSE("I'm Batman" != doc["Who are you?"]);
	CHECK_FALSE(doc["Who are you?"] != "I'm Batman");

	CHECK("I'm Bruce Wayne" != doc["Who are you?"]);
	CHECK(doc["Who are you?"] != "I'm Bruce Wayne");
	CHECK_FALSE("I'm Bruce Wayne" == doc["Who are you?"]);
	CHECK_FALSE(doc["Who are you?"] == "I'm Bruce Wayne");

	{
	const alt_json& const_doc = doc;

	CHECK("I'm Batman" == const_doc["Who are you?"]);
	CHECK(const_doc["Who are you?"] == "I'm Batman");
	CHECK_FALSE("I'm Batman" != const_doc["Who are you?"]);
	CHECK_FALSE(const_doc["Who are you?"] != "I'm Batman");

	CHECK("I'm Bruce Wayne" != const_doc["Who are you?"]);
	CHECK(const_doc["Who are you?"] != "I'm Bruce Wayne");
	CHECK_FALSE("I'm Bruce Wayne" == const_doc["Who are you?"]);
	CHECK_FALSE(const_doc["Who are you?"] == "I'm Bruce Wayne");
	}
	}

	SECTION("JSON pointer")
	{
	// conversion from json to alt_json fails to compile (see #3425);
	// attempted fix(*) produces: [[['b','a','r'],['b','a','z']]] (with each char being an integer)
	// (*) disable implicit conversion for json_refs of any basic_json type
	// alt_json j = R"(
	// {
	// "foo": ["bar", "baz"]
	// }
	// )"_json;
	auto j = alt_json::parse(R"({"foo": ["bar", "baz"]})");

	CHECK(j.at(alt_json::json_pointer("/foo/0")) == j["foo"][0]);
	CHECK(j.at(alt_json::json_pointer("/foo/1")) == j["foo"][1]);
	}
	}