sol2/test_customizations.cpp

#define SOL_CHECK_ARGUMENTS

#include <catch.hpp>
#include <sol.hpp>

#include <unordered_map>
#include <vector>

struct two_things {
	int a;
	bool b;
};

namespace sol {

	// First, the expected size
	// Specialization of a struct
	template <>
	struct lua_size<two_things> : std::integral_constant<int, 2> {};

	// Then, the expected type
	template <>
	struct lua_type_of<two_things> : std::integral_constant<sol::type, sol::type::poly> {};

	// Now, specialize various stack structures
	namespace stack {

		template <>
		struct checker<two_things> {
			template <typename Handler>
			static bool check(lua_State* L, int index, Handler&& handler, record& tracking) {
				// Check first and second second index for being the proper types
				bool success = stack::check<int>(L, index, handler)
					&& stack::check<bool>(L, index + 1, handler);
				tracking.use(2);
				return success;
			}
		};

		template <>
		struct getter<two_things> {
			static two_things get(lua_State* L, int index, record& tracking) {
				// Get the first element
				int a = stack::get<int>(L, index);
				// Get the second element, 
				// in the +1 position from the first
				bool b = stack::get<bool>(L, index + 1);
				// we use 2 slots, each of the previous takes 1
				tracking.use(2);
				return two_things{ a, b };
			}
		};

		template <>
		struct pusher<two_things> {
			static int push(lua_State* L, const two_things& things) {
				int amount = stack::push(L, things.a);
				amount += stack::push(L, things.b);
				// Return 2 things
				return amount;
			}
		};

	}
}

TEST_CASE("customization/split struct", "using the newly documented customization points to handle different kinds of classes") {
	sol::state lua;

	// Create a pass-through style of function
	lua.script("function f ( a, b, c ) return a + c, b end");
	lua.set_function("g", [](int a, bool b, int c, double d) {
		return std::make_tuple(a + c, b, d + 2.5);
	});

	// get the function out of Lua
	sol::function f = lua["f"];
	sol::function g = lua["g"];

	two_things thingsf = f(two_things{ 24, true }, 1);
	two_things thingsg;
	double d;
	sol::tie( thingsg, d ) = g(two_things{ 25, false }, 2, 34.0);
	REQUIRE(thingsf.a == 25);
	REQUIRE(thingsf.b);

	REQUIRE(thingsg.a == 27);
	REQUIRE_FALSE(thingsg.b);
	REQUIRE(d == 36.5);
}
customization points are now live 2016-07-29 12:57:47 +08:00			`#define SOL_CHECK_ARGUMENTS`

			`#include <catch.hpp>`
			`#include <sol.hpp>`

V E T T E D Slight breaking change, but at the source level almost nothing changes (ipairs is the only thing that changes because for some reason it checks if what is passed is a table and that really doesn't make any fucking sense) Closes #195 Closes #196 2016-08-24 09:42:27 +08:00			`#include <unordered_map>`
			`#include <vector>`

customization points are now live 2016-07-29 12:57:47 +08:00			`struct two_things {`
			`int a;`
			`bool b;`
			`};`

			`namespace sol {`

			`// First, the expected size`
			`// Specialization of a struct`
			`template <>`
			`struct lua_size<two_things> : std::integral_constant<int, 2> {};`

C++17 additions: std::variant, string_views of all types, checker for if we have the right version added variadic_results, to return a variable number of arguments to Lua added variadic_results and as_results added improved function examples (for multiple results and split overloading out) added tests for variadics added tests for C++17 utilities added a forwarding header added a specific `unsafe_function` header added and improved documetation pages 2017-07-10 00:00:57 +08:00			`// Then, the expected type`
			`template <>`
			`struct lua_type_of<two_things> : std::integral_constant<sol::type, sol::type::poly> {};`

customization points are now live 2016-07-29 12:57:47 +08:00			`// Now, specialize various stack structures`
			`namespace stack {`

			`template <>`
			`struct checker<two_things> {`
			`template <typename Handler>`
			`static bool check(lua_State* L, int index, Handler&& handler, record& tracking) {`
			`// Check first and second second index for being the proper types`
			`bool success = stack::check<int>(L, index, handler)`
			`&& stack::check<bool>(L, index + 1, handler);`
			`tracking.use(2);`
			`return success;`
			`}`
			`};`

			`template <>`
			`struct getter<two_things> {`
			`static two_things get(lua_State* L, int index, record& tracking) {`
			`// Get the first element`
			`int a = stack::get<int>(L, index);`
			`// Get the second element,`
			`// in the +1 position from the first`
			`bool b = stack::get<bool>(L, index + 1);`
			`// we use 2 slots, each of the previous takes 1`
			`tracking.use(2);`
			`return two_things{ a, b };`
			`}`
			`};`

			`template <>`
			`struct pusher<two_things> {`
			`static int push(lua_State* L, const two_things& things) {`
			`int amount = stack::push(L, things.a);`
			`amount += stack::push(L, things.b);`
			`// Return 2 things`
			`return amount;`
			`}`
			`};`

			`}`
			`}`

C++17 additions: std::variant, string_views of all types, checker for if we have the right version added variadic_results, to return a variable number of arguments to Lua added variadic_results and as_results added improved function examples (for multiple results and split overloading out) added tests for variadics added tests for C++17 utilities added a forwarding header added a specific `unsafe_function` header added and improved documetation pages 2017-07-10 00:00:57 +08:00			`TEST_CASE("customization/split struct", "using the newly documented customization points to handle different kinds of classes") {`
customization points are now live 2016-07-29 12:57:47 +08:00			`sol::state lua;`

			`// Create a pass-through style of function`
			`lua.script("function f ( a, b, c ) return a + c, b end");`
			`lua.set_function("g", [](int a, bool b, int c, double d) {`
			`return std::make_tuple(a + c, b, d + 2.5);`
			`});`

			`// get the function out of Lua`
			`sol::function f = lua["f"];`
			`sol::function g = lua["g"];`

			`two_things thingsf = f(two_things{ 24, true }, 1);`
			`two_things thingsg;`
			`double d;`
			`sol::tie( thingsg, d ) = g(two_things{ 25, false }, 2, 34.0);`
			`REQUIRE(thingsf.a == 25);`
			`REQUIRE(thingsf.b);`

			`REQUIRE(thingsg.a == 27);`
			`REQUIRE_FALSE(thingsg.b);`
			`REQUIRE(d == 36.5);`
			`}`