sol2/tests/test_customizations.cpp

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#define SOL_CHECK_ARGUMENTS 1
#define SOL_ENABLE_INTEROP 1
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#include <catch.hpp>
#include <sol.hpp>
#include <unordered_map>
#include <vector>
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struct two_things {
int a;
bool b;
};
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struct number_shim {
double num = 0;
};
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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> {};
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// do note specialize size for this because it is our type
template <>
struct lua_type_of<number_shim> : std::integral_constant<sol::type, sol::type::poly> {};
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// 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,
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// 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;
}
};
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template <>
struct checker<number_shim> {
template <typename Handler>
static bool check(lua_State* L, int index, Handler&& handler, record& tracking) {
// check_usertype is a backdoor for directly checking sol2 usertypes
if (!check_usertype<number_shim>(L, index) && !stack::check<double>(L, index)) {
handler(L, index, type_of(L, index), type::userdata, "expected a number_shim or a number");
return false;
}
tracking.use(1);
return true;
}
};
template <>
struct getter<number_shim> {
static number_shim get(lua_State* L, int index, record& tracking) {
if (check_usertype<number_shim>(L, index)) {
number_shim& ns = get_usertype<number_shim>(L, index, tracking);
return ns;
}
number_shim ns{};
ns.num = stack::get<double>(L, index, tracking);
return ns;
}
};
} // namespace stack
} // namespace sol
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TEST_CASE("customization/split struct", "using the newly documented customization points to handle different kinds of classes") {
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sol::state lua;
// Create a pass-through style of function
lua.safe_script("function f ( a, b, c ) return a + c, b end");
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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);
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REQUIRE(thingsf.a == 25);
REQUIRE(thingsf.b);
REQUIRE(thingsg.a == 27);
REQUIRE_FALSE(thingsg.b);
REQUIRE(d == 36.5);
}
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TEST_CASE("customization/get_ check_usertype", "using the newly documented customization points to handle different kinds of classes") {
sol::state lua;
// Create a pass-through style of function
lua.safe_script("function f ( a ) return a end");
lua.set_function("g", [](double a) {
number_shim ns;
ns.num = a;
return ns;
});
auto result = lua.safe_script("vf = f(25) vg = g(35)", sol::script_pass_on_error);
REQUIRE(result.valid());
number_shim thingsf = lua["vf"];
number_shim thingsg = lua["vg"];
REQUIRE(thingsf.num == 25);
REQUIRE(thingsg.num == 35);
}