sol2/examples/interop/luwra.cpp
ThePhD 002303d52b update tests and single again
add assert.hpp for better code understanding
prepare to rewrite all the damn docs, and update the tutorials...
2017-12-25 23:27:22 -05:00

117 lines
3.0 KiB
C++

#define SOL_CHECK_ARGUMENTS 1
#define SOL_ENABLE_INTEROP 1 // MUST be defined to use interop features
#include <sol.hpp>
#include <luwra.hpp>
#include <iostream>
#include "assert.hpp"
// luwra,
// another C++ wrapper library:
// https://github.com/vapourismo/luwra
struct ABC {
ABC()
: v_(0) {
}
ABC(int value)
: v_(value) {
}
int value() const {
return v_;
}
void setValue(int v) {
v_ = v;
}
void overload1() {
std::cout << "call overload1" << std::endl;
}
void overload2(int) {
std::cout << "call overload2" << std::endl;
}
private:
int v_;
};
namespace sol {
namespace stack {
template <typename T>
struct userdata_checker<extensible<T>> {
template <typename Handler>
static bool check(lua_State* L, int relindex, type index_type, Handler&& handler, record& tracking) {
// just marking unused parameters for no compiler warnings
(void)index_type;
(void)handler;
// using 1 element
tracking.use(1);
int index = lua_absindex(L, relindex);
if (lua_getmetatable(L, index) == 1) {
luaL_getmetatable(L, luwra::internal::UserTypeReg<T>::name.c_str());
bool is_correct_type = lua_rawequal(L, -2, -1) == 1;
lua_pop(L, 2);
return is_correct_type;
}
return false;
}
};
template <typename T>
struct userdata_getter<extensible<T>> {
static std::pair<bool, T*> get(lua_State* L, int relindex, void* unadjusted_pointer, record& tracking) {
// you may not need to specialize this method every time:
// some libraries are compatible with sol2's layout
int index = lua_absindex(L, relindex);
if (!userdata_checker<extensible<T>>::check(L, index, type::userdata, no_panic, tracking)) {
return { false, nullptr };
}
tracking.use(1);
return { true, static_cast<T*>(unadjusted_pointer) };
}
};
}
} // namespace sol::stack
void register_sol_stuff(lua_State* L) {
// grab raw state and put into state_view
// state_view is cheap to construct
sol::state_view lua(L);
// bind and set up your things: everything is entirely self-contained
lua["f"] = sol::overload(
[](ABC& from_luwra) {
std::cout << "calling 1-argument version with luwra-created ABC {" << from_luwra.value() << "}" << std::endl;
},
[](ABC& from_luwra, int second_arg) {
std::cout << "calling 2-argument version with luwra-created ABC {" << from_luwra.value() << "} and integer argument of " << second_arg << std::endl;
});
}
void check_with_sol(lua_State* L) {
sol::state_view lua(L);
ABC& obj = lua["obj"];
(void)obj;
c_assert(obj.value() == 24);
}
int main(int, char* []) {
std::cout << "=== interop example (luwra) ===" << std::endl;
std::cout << "code modified from luwra's documentation examples: https://github.com/vapourismo/luwra" << std::endl;
luwra::StateWrapper state;
state.registerUserType<ABC(int)>("ABC", { LUWRA_MEMBER(ABC, value), LUWRA_MEMBER(ABC, setValue) }, {});
register_sol_stuff(state);
state.runString(R"(
obj = ABC(24)
f(obj) -- call 1 argument version
f(obj, 5) -- call 2 argument version
)");
check_with_sol(state);
return 0;
}