// sol3

// The MIT License (MIT)

// Copyright (c) 2013-2020 Rapptz, ThePhD and contributors

// Permission is hereby granted, free of charge, to any person obtaining a copy of
// this software and associated documentation files (the "Software"), to deal in
// the Software without restriction, including without limitation the rights to
// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
// the Software, and to permit persons to whom the Software is furnished to do so,
// subject to the following conditions:

// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.

// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
// FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
// COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
// IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
// CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

#include "sol_test.hpp"

#include <catch.hpp>

#include <iostream>
#include <fstream>
#include <chrono>
#include <thread>
#include <mutex>
#include <atomic>

template <typename Name, typename Data>
void write_file_attempt(Name&& filename, Data&& data) {
	bool success = false;
	for (std::size_t i = 0; i < 20; ++i) {
		try {
			std::ofstream file(std::forward<Name>(filename), std::ios::out);
			file.exceptions(std::ios_base::badbit | std::ios_base::failbit);
			file << std::forward<Data>(data) << std::endl;
			file.close();
		}
		catch (const std::exception&) {
			std::this_thread::sleep_for(std::chrono::milliseconds(10));
			continue;
		}
		success = true;
		break;
	}
	if (!success) {
		throw std::runtime_error("cannot open file or write out");
	}
}

struct write_file_attempt_object {
	template <typename... Args>
	void operator()(Args&&... args) {
		write_file_attempt(std::forward<Args>(args)...);
	}
};

struct string_reader_load {
	const std::string& str;
	std::size_t reads;

	string_reader_load(const std::string& s) : str(s), reads(0) {
	}
};

const char* string_reader(lua_State* L, void* vpstr, size_t* sz) {
	(void)L;
	string_reader_load& srl = *static_cast<string_reader_load*>(vpstr);
	if (srl.reads++ > 0) {
		*sz = 0;
		return NULL;
	}
	*sz = static_cast<size_t>(srl.str.size());
	return srl.str.c_str();
}

TEST_CASE("state/require_file", "opening files as 'requires'") {
	static const char file_require_file[] = "./tmp_thingy.lua";
	static const char file_require_file_user[] = "./tmp_thingy_user.lua";
	static const char require_file_code[] = "return { modfunc = function () return 221 end }";
	static const char require_file_user_code[] = "return { modfunc = function () return foo.new(221) end }";
	static std::atomic<int> finished(0);
	static std::once_flag flag_file = {}, flag_file_user = {};
	std::call_once(flag_file, write_file_attempt_object(), file_require_file, require_file_code);
	std::call_once(flag_file_user, write_file_attempt_object(), file_require_file_user, require_file_user_code);

	auto clean_files = []() {
		if (finished.fetch_add(1) < 1) {
			return;
		}
		std::remove(file_require_file);
		std::remove(file_require_file_user);
	};

	SECTION("with usertypes") {
		struct foo {
			foo(int bar) : bar(bar) {
			}

			const int bar;
		};

		sol::state lua;
		lua.open_libraries(sol::lib::base);

		lua.new_usertype<foo>("foo", sol::constructors<sol::types<int>> {}, "bar", &foo::bar);

		const sol::table thingy1 = lua.require_file("thingy", file_require_file_user);

		REQUIRE(thingy1.valid());

		const foo foo_v = thingy1["modfunc"]();

		int val1 = foo_v.bar;

		REQUIRE(val1 == 221);
		clean_files();
	}

	SECTION("simple") {
		sol::state lua;
		lua.open_libraries(sol::lib::base);

		const sol::table thingy1 = lua.require_file("thingy", file_require_file);
		const sol::table thingy2 = lua.require_file("thingy", file_require_file);

		REQUIRE(thingy1.valid());
		REQUIRE(thingy2.valid());

		int val1 = thingy1["modfunc"]();
		int val2 = thingy2["modfunc"]();

		REQUIRE(val1 == 221);
		REQUIRE(val2 == 221);
		// must have loaded the same table
		REQUIRE((thingy1 == thingy2));
		clean_files();
	}
}

TEST_CASE("state/require_script", "opening strings as 'requires' clauses") {
	std::string code = "return { modfunc = function () return 221 end }";

	sol::state lua;
	sol::stack_guard luasg(lua);
	sol::table thingy1 = lua.require_script("thingy", code);
	sol::table thingy2 = lua.require_script("thingy", code);

	int val1 = thingy1["modfunc"]();
	int val2 = thingy2["modfunc"]();
	REQUIRE(val1 == 221);
	REQUIRE(val2 == 221);
	// must have loaded the same table
	REQUIRE((thingy1 == thingy2));
}

TEST_CASE("state/require", "require using a function") {
	struct open {
		static int open_func(lua_State* L) {
			sol::state_view lua = L;
			return sol::stack::push(L, lua.create_table_with("modfunc", sol::as_function([]() { return 221; })));
		}
	};

	sol::state lua;
	sol::stack_guard luasg(lua);
	sol::table thingy1 = lua.require("thingy", open::open_func);
	sol::table thingy2 = lua.require("thingy", open::open_func);

	int val1 = thingy1["modfunc"]();
	int val2 = thingy2["modfunc"]();
	REQUIRE(val1 == 221);
	REQUIRE(val2 == 221);
	// THIS IS ONLY REQUIRED IN LUA 5.3, FOR SOME REASON
	// must have loaded the same table
	// REQUIRE(thingy1 == thingy2);
}

TEST_CASE("state/multi require", "make sure that requires transfers across hand-rolled script implementation and standard requiref") {
	struct open {
		static int open_func(lua_State* L) {
			sol::state_view lua = L;
			return sol::stack::push(L, lua.create_table_with("modfunc", sol::as_function([]() { return 221; })));
		}
	};

	std::string code = "return { modfunc = function () return 221 end }";
	sol::state lua;
	sol::table thingy1 = lua.require("thingy", open::open_func);
	sol::table thingy2 = lua.require("thingy", open::open_func);
	sol::table thingy3 = lua.require_script("thingy", code);

	int val1 = thingy1["modfunc"]();
	int val2 = thingy2["modfunc"]();
	int val3 = thingy3["modfunc"]();
	REQUIRE(val1 == 221);
	REQUIRE(val2 == 221);
	REQUIRE(val3 == 221);
	// must have loaded the same table
	// Lua is not obliged to give a shit. Thanks, Lua
	// REQUIRE(thingy1 == thingy2);
	// But we care, thankfully
	// REQUIRE(thingy1 == thingy3);
	REQUIRE((thingy2 == thingy3));
}

TEST_CASE("state/require-safety", "make sure unrelated modules aren't harmed in using requires") {
	sol::state lua;
	lua.open_libraries();
	std::string t1 = lua.safe_script(R"(require 'io'
return 'test1')");
	sol::object ot2 = lua.require_script("test2", R"(require 'io'
return 'test2')");
	std::string t2 = ot2.as<std::string>();
	std::string t3 = lua.safe_script(R"(require 'io'
return 'test3')");
	REQUIRE(t1 == "test1");
	REQUIRE(t2 == "test2");
	REQUIRE(t3 == "test3");
}

TEST_CASE("state/leak check", "make sure there are no humongous memory leaks in iteration") {
#if 0
	sol::state lua;
	lua.safe_script(R"(
record = {}
for i=1,256 do
	record[i] = i
end
function run()
	for i=1,25000 do
		fun(record)
	end
end
function run2()
	for i=1,50000 do
		fun(record)
	end
end
)");

	lua["fun"] = [](const sol::table &t) {
		//removing the for loop fixes the memory leak
		auto b = t.begin();
		auto e = t.end();
		for (; b != e; ++b) {

		}
	};

	size_t beforewarmup = lua.memory_used();
	lua["run"]();

	size_t beforerun = lua.memory_used();
	lua["run"]();
	size_t afterrun = lua.memory_used();
	lua["run2"]();
	size_t afterrun2 = lua.memory_used();

	// Less memory used before the warmup
	REQUIRE(beforewarmup <= beforerun);
	// Iteration size and such does not bloat or affect memory
	// (these are weak checks but they'll warn us nonetheless if something goes wrong)
	REQUIRE(beforerun == afterrun);
	REQUIRE(afterrun == afterrun2);
#else
	REQUIRE(true);
#endif
}

TEST_CASE("state/script returns", "make sure script returns are done properly") {
	std::string script =
	     R"(
local example = 
{
	str = "this is a string",
	num = 1234,

	func = function(self)
		print(self.str)
		return "fstr"
	end
}

return example;
)";

	auto bar = [&script](sol::this_state l) {
		sol::state_view lua = l;
		sol::table data = lua.safe_script(script);

		std::string str = data["str"];
		int num = data["num"];
		std::string fstr = data["func"](data);
		REQUIRE(str == "this is a string");
		REQUIRE(fstr == "fstr");
		REQUIRE(num == 1234);
	};

	auto foo = [&script](int, sol::this_state l) {
		sol::state_view lua = l;
		sol::table data = lua.safe_script(script);

		std::string str = data["str"];
		int num = data["num"];
		std::string fstr = data["func"](data);
		REQUIRE(str == "this is a string");
		REQUIRE(fstr == "fstr");
		REQUIRE(num == 1234);
	};

	auto bar2 = [&script](sol::this_state l) {
		sol::state_view lua = l;
		sol::table data = lua.do_string(script);

		std::string str = data["str"];
		int num = data["num"];
		std::string fstr = data["func"](data);
		REQUIRE(str == "this is a string");
		REQUIRE(fstr == "fstr");
		REQUIRE(num == 1234);
	};

	auto foo2 = [&script](int, sol::this_state l) {
		sol::state_view lua = l;
		sol::table data = lua.do_string(script);

		std::string str = data["str"];
		int num = data["num"];
		std::string fstr = data["func"](data);
		REQUIRE(str == "this is a string");
		REQUIRE(fstr == "fstr");
		REQUIRE(num == 1234);
	};

	sol::state lua;
	sol::stack_guard luasg(lua);
	lua.open_libraries();

	lua.set_function("foo", foo);
	lua.set_function("foo2", foo2);
	lua.set_function("bar", bar);
	lua.set_function("bar2", bar2);

	lua.safe_script("bar() bar2() foo(1) foo2(1)");
}

TEST_CASE("state/copy and move", "ensure state can be properly copied and moved") {
	sol::state lua;
	lua["a"] = 1;

	sol::state lua2(std::move(lua));
	int a2 = lua2["a"];
	REQUIRE(a2 == 1);
	lua = std::move(lua2);
	int a = lua["a"];
	REQUIRE(a == 1);
}

TEST_CASE("state/requires-reload", "ensure that reloading semantics do not cause a crash") {
	sol::state lua;
	sol::stack_guard luasg(lua);
	lua.open_libraries();
	lua.safe_script("require 'io'\nreturn 'test1'");
	lua.require_script("test2", "require 'io'\nreturn 'test2'");
	lua.safe_script("require 'io'\nreturn 'test3'");
}

TEST_CASE("state/script, do, and load", "test success and failure cases for loading and running scripts") {
	const static std::string bad_syntax = "weird\n%$@symb\nols";
	static const char file_bad_syntax[] = "./temp.bad_syntax.lua";
	const static std::string bad_runtime = "bad.code = 20";
	static const char file_bad_runtime[] = "./temp.bad_runtime.lua";
	const static std::string good = "a = 21\nreturn a";
	static const char file_good[] = "./temp.good.lua";
	static std::once_flag flag_file_bs = {}, flag_file_br = {}, flag_file_g = {};
	static std::atomic<int> finished(0);
	std::call_once(flag_file_bs, write_file_attempt_object(), file_bad_syntax, bad_syntax);
	std::call_once(flag_file_br, write_file_attempt_object(), file_bad_runtime, bad_runtime);
	std::call_once(flag_file_g, write_file_attempt_object(), file_good, good);

	auto clean_files = []() {
		if (finished.fetch_add(1) < 14) {
			return;
		}
		std::remove(file_bad_syntax);
		std::remove(file_bad_runtime);
		std::remove(file_good);
	};

	SECTION("script") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		int ar = lua.safe_script(good);
		int a = lua["a"];
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("unsafe_script") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		int ar = lua.unsafe_script(good);
		int a = lua["a"];
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("script-handler") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbs = lua.safe_script(bad_syntax, sol::script_pass_on_error);
		REQUIRE(!errbs.valid());

		auto errbr = lua.safe_script(bad_runtime, sol::script_pass_on_error);
		REQUIRE(!errbr.valid());

		auto result = lua.safe_script(good, sol::script_pass_on_error);
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("do_string") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbs = lua.do_string(bad_syntax);
		REQUIRE(!errbs.valid());

		auto errbr = lua.do_string(bad_runtime);
		REQUIRE(!errbr.valid());

		auto result = lua.do_string(good);
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("load_string") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbsload = lua.load(bad_syntax);
		REQUIRE(!errbsload.valid());

		sol::load_result errbrload = lua.load(bad_runtime);
		REQUIRE(errbrload.valid());
		sol::protected_function errbrpf = errbrload.get<sol::protected_function>();
		auto errbr = errbrpf();
		REQUIRE(!errbr.valid());

		sol::load_result resultload = lua.load(good);
		REQUIRE(resultload.valid());
		sol::protected_function resultpf = resultload.get<sol::protected_function>();
		auto result = resultpf();
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("load") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		string_reader_load bssrl(bad_syntax);
		void* vpbssrl = static_cast<void*>(&bssrl);
		auto errbsload = lua.load(&string_reader, vpbssrl, bad_syntax);
		REQUIRE(!errbsload.valid());

		string_reader_load brsrl(bad_runtime);
		void* vpbrsrl = static_cast<void*>(&brsrl);
		sol::load_result errbrload = lua.load(&string_reader, vpbrsrl, bad_runtime);
		REQUIRE(errbrload.valid());
		sol::protected_function errbrpf = errbrload.get<sol::protected_function>();
		auto errbr = errbrpf();
		REQUIRE(!errbr.valid());

		string_reader_load gsrl(good);
		void* vpgsrl = static_cast<void*>(&gsrl);
		sol::load_result resultload = lua.load(&string_reader, vpgsrl, good);
		REQUIRE(resultload.valid());
		sol::protected_function resultpf = resultload.get<sol::protected_function>();
		auto result = resultpf();
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("load_string (text)") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbsload = lua.load(bad_syntax, bad_syntax, sol::load_mode::text);
		REQUIRE(!errbsload.valid());

		sol::load_result errbrload = lua.load(bad_runtime, bad_runtime, sol::load_mode::text);
		REQUIRE(errbrload.valid());
		sol::protected_function errbrpf = errbrload.get<sol::protected_function>();
		auto errbr = errbrpf();
		REQUIRE(!errbr.valid());

		sol::load_result resultload = lua.load(good, good, sol::load_mode::text);
		REQUIRE(resultload.valid());
		sol::protected_function resultpf = resultload.get<sol::protected_function>();
		auto result = resultpf();
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("load (text)") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		string_reader_load bssrl(bad_syntax);
		void* vpbssrl = static_cast<void*>(&bssrl);
		auto errbsload = lua.load(&string_reader, vpbssrl, bad_syntax, sol::load_mode::text);
		REQUIRE(!errbsload.valid());

		string_reader_load brsrl(bad_runtime);
		void* vpbrsrl = static_cast<void*>(&brsrl);
		sol::load_result errbrload = lua.load(&string_reader, vpbrsrl, bad_runtime, sol::load_mode::text);
		REQUIRE(errbrload.valid());
		sol::protected_function errbrpf = errbrload.get<sol::protected_function>();
		auto errbr = errbrpf();
		REQUIRE(!errbr.valid());

		string_reader_load gsrl(good);
		void* vpgsrl = static_cast<void*>(&gsrl);
		sol::load_result resultload = lua.load(&string_reader, vpgsrl, good, sol::load_mode::text);
		REQUIRE(resultload.valid());
		sol::protected_function resultpf = resultload.get<sol::protected_function>();
		auto result = resultpf();
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("script_file") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		int ar = lua.safe_script_file(file_good);
		int a = lua["a"];
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("unsafe_script_file") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		int ar = lua.unsafe_script_file(file_good);
		int a = lua["a"];
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("script_file-handler") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbs = lua.safe_script_file(file_bad_syntax, sol::script_pass_on_error);
		REQUIRE(!errbs.valid());

		auto errbr = lua.safe_script_file(file_bad_runtime, sol::script_pass_on_error);
		REQUIRE(!errbr.valid());

		auto result = lua.safe_script_file(file_good, sol::script_pass_on_error);
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("safe_script_file-handler") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbs = lua.safe_script_file(file_bad_syntax, sol::script_pass_on_error);
		REQUIRE(!errbs.valid());

		auto errbr = lua.safe_script_file(file_bad_runtime, sol::script_pass_on_error);
		REQUIRE(!errbr.valid());

		auto result = lua.safe_script_file(file_good, sol::script_pass_on_error);
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("do_file") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbs = lua.do_file(file_bad_syntax);
		REQUIRE(!errbs.valid());

		auto errbr = lua.do_file(file_bad_runtime);
		REQUIRE(!errbr.valid());

		auto result = lua.do_file(file_good);
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("load_file") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbsload = lua.load_file(file_bad_syntax);
		REQUIRE(!errbsload.valid());

		sol::load_result errbrload = lua.load_file(file_bad_runtime);
		REQUIRE(errbrload.valid());
		sol::protected_function errbrpf = errbrload.get<sol::protected_function>();
		auto errbr = errbrpf();
		REQUIRE(!errbr.valid());

		sol::load_result resultload = lua.load_file(file_good);
		REQUIRE(resultload.valid());
		sol::protected_function resultpf = resultload.get<sol::protected_function>();
		auto result = resultpf();
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
	SECTION("load_file (text)") {
		sol::state lua;
		sol::stack_guard luasg(lua);
		auto errbsload = lua.load_file(file_bad_syntax, sol::load_mode::text);
		REQUIRE(!errbsload.valid());

		sol::load_result errbrload = lua.load_file(file_bad_runtime, sol::load_mode::text);
		REQUIRE(errbrload.valid());
		sol::protected_function errbrpf = errbrload.get<sol::protected_function>();
		auto errbr = errbrpf();
		REQUIRE(!errbr.valid());

		sol::load_result resultload = lua.load_file(file_good, sol::load_mode::text);
		REQUIRE(resultload.valid());
		sol::protected_function resultpf = resultload.get<sol::protected_function>();
		auto result = resultpf();
		int a = lua["a"];
		int ar = result;
		REQUIRE(result.valid());
		REQUIRE(a == 21);
		REQUIRE(ar == 21);
		clean_files();
	}
}

TEST_CASE("state/script return converts", "make sure that script return values are convertable from one to another") {
	sol::state lua;

	sol::protected_function_result r1 = lua.unsafe_script("return 2");
	sol::unsafe_function_result r2 = lua.safe_script("return 3");

	int v1 = r1;
	int v2 = r2;
	REQUIRE(v1 == 2);
	REQUIRE(v2 == 3);
}

TEST_CASE("state/script function returns", "make sure that returned functions are converitble from a result to a function") {
	SECTION("from result move constructor") {
		sol::state lua;

		sol::protected_function pf = lua.safe_script("return function () return 2 end", sol::script_pass_on_error);
		REQUIRE(pf.valid());

		int v1 = pf();
		REQUIRE(v1 == 2);
	}
	SECTION("from result operator=") {
		sol::state lua;

		sol::protected_function_result r1 = lua.safe_script("return function () return 1 end", sol::script_pass_on_error);
		REQUIRE(r1.valid());

		sol::protected_function pf = r1.get<sol::protected_function>();
		int v1 = pf();
		REQUIRE(v1 == 1);
	}
}