sol2/sol/stack_core.hpp

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// The MIT License (MIT)
// Copyright (c) 2013-2016 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.
#ifndef SOL_STACK_CORE_HPP
#define SOL_STACK_CORE_HPP
#include "types.hpp"
#include "reference.hpp"
#include "stack_reference.hpp"
#include "userdata.hpp"
#include "tuple.hpp"
#include "traits.hpp"
#include "tie.hpp"
namespace sol {
namespace detail {
struct as_reference_tag {};
using special_destruct_func = void(*)(void*);
template <typename T, typename Real>
inline void special_destruct(void* memory) {
T** pointerpointer = static_cast<T**>(memory);
special_destruct_func* dx = static_cast<special_destruct_func*>(static_cast<void*>(pointerpointer + 1));
Real* target = static_cast<Real*>(static_cast<void*>(dx + 1));
target->~Real();
}
template <typename T>
inline int unique_destruct(lua_State* L) {
void* memory = lua_touserdata(L, 1);
T** pointerpointer = static_cast<T**>(memory);
special_destruct_func& dx = *static_cast<special_destruct_func*>(static_cast<void*>(pointerpointer + 1));
(dx)(memory);
return 0;
}
} // detail
namespace stack {
template<typename T, bool global = false, bool raw = false, typename = void>
struct field_getter;
template <typename T, bool global = false, bool raw = false, typename = void>
struct probe_field_getter;
template<typename T, bool global = false, bool raw = false, typename = void>
struct field_setter;
template<typename T, typename = void>
struct getter;
template<typename T, typename = void>
struct popper;
template<typename T, typename = void>
struct pusher;
template<typename T, type = lua_type_of<T>::value, typename = void>
struct checker;
template<typename T, typename = void>
struct check_getter;
struct probe {
bool success;
int levels;
probe(bool s, int l) : success(s), levels(l) {}
operator bool() const { return success; };
};
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struct record {
int last;
int used;
record() : last(), used() {}
void use(int count) {
last = count;
used += count;
}
};
namespace stack_detail {
template <typename T>
struct strip {
typedef T type;
};
template <typename T>
struct strip<std::reference_wrapper<T>> {
typedef T& type;
};
template <typename T>
struct strip<user<T>> {
typedef T& type;
};
template <typename T>
struct strip<non_null<T>> {
typedef T type;
};
template <typename T>
using strip_t = typename strip<T>::type;
const bool default_check_arguments =
#ifdef SOL_CHECK_ARGUMENTS
true;
#else
false;
#endif
template<typename T>
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inline decltype(auto) unchecked_get(lua_State* L, int index, record& tracking) {
return getter<meta::unqualified_t<T>>{}.get(L, index, tracking);
}
} // stack_detail
inline bool maybe_indexable(lua_State* L, int index = -1) {
type t = type_of(L, index);
return t == type::userdata || t == type::table;
}
template<typename T, typename... Args>
inline int push(lua_State* L, T&& t, Args&&... args) {
return pusher<meta::unqualified_t<T>>{}.push(L, std::forward<T>(t), std::forward<Args>(args)...);
}
// overload allows to use a pusher of a specific type, but pass in any kind of args
template<typename T, typename Arg, typename... Args, typename = std::enable_if_t<!std::is_same<T, Arg>::value>>
inline int push(lua_State* L, Arg&& arg, Args&&... args) {
return pusher<meta::unqualified_t<T>>{}.push(L, std::forward<Arg>(arg), std::forward<Args>(args)...);
}
template<typename T, typename... Args>
inline int push_reference(lua_State* L, T&& t, Args&&... args) {
typedef meta::all<
std::is_lvalue_reference<T>,
meta::neg<std::is_const<T>>,
meta::neg<is_lua_primitive<meta::unqualified_t<T>>>
> use_reference_tag;
return pusher<std::conditional_t<use_reference_tag::value, detail::as_reference_tag, meta::unqualified_t<T>>>{}.push(L, std::forward<T>(t), std::forward<Args>(args)...);
}
inline int multi_push(lua_State*) {
// do nothing
return 0;
}
template<typename T, typename... Args>
inline int multi_push(lua_State* L, T&& t, Args&&... args) {
int pushcount = push(L, std::forward<T>(t));
void(sol::detail::swallow{ (pushcount += sol::stack::push(L, std::forward<Args>(args)), 0)... });
return pushcount;
}
inline int multi_push_reference(lua_State*) {
// do nothing
return 0;
}
template<typename T, typename... Args>
inline int multi_push_reference(lua_State* L, T&& t, Args&&... args) {
int pushcount = push_reference(L, std::forward<T>(t));
void(sol::detail::swallow{ (pushcount += sol::stack::push_reference(L, std::forward<Args>(args)), 0)... });
return pushcount;
}
template <typename T, typename Handler>
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bool check(lua_State* L, int index, Handler&& handler, record& tracking) {
typedef meta::unqualified_t<T> Tu;
checker<Tu> c;
// VC++ has a bad warning here: shut it up
(void)c;
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return c.check(L, index, std::forward<Handler>(handler), tracking);
}
template <typename T, typename Handler>
bool check(lua_State* L, int index, Handler&& handler) {
record tracking{};
return check<T>(L, index, std::forward<Handler>(handler), tracking);
}
template <typename T>
bool check(lua_State* L, int index = -1) {
auto handler = no_panic;
return check<T>(L, index, handler);
}
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template<typename T, typename Handler>
inline decltype(auto) check_get(lua_State* L, int index, Handler&& handler, record& tracking) {
return check_getter<meta::unqualified_t<T>>{}.get(L, index, std::forward<Handler>(handler), tracking);
}
template<typename T, typename Handler>
inline decltype(auto) check_get(lua_State* L, int index, Handler&& handler) {
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record tracking{};
return check_get<T>(L, index, handler, tracking);
}
template<typename T>
inline decltype(auto) check_get(lua_State* L, int index = -1) {
auto handler = no_panic;
return check_get<T>(L, index, handler);
}
namespace stack_detail {
#ifdef SOL_CHECK_ARGUMENTS
template <typename T>
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inline auto tagged_get(types<T>, lua_State* L, int index, record& tracking) -> decltype(stack_detail::unchecked_get<T>(L, index, tracking)) {
auto op = check_get<T>(L, index, type_panic, tracking);
return *op;
}
#else
template <typename T>
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inline decltype(auto) tagged_get(types<T>, lua_State* L, int index, record& tracking) {
return stack_detail::unchecked_get<T>(L, index, tracking);
}
#endif
template <typename T>
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inline decltype(auto) tagged_get(types<optional<T>>, lua_State* L, int index, record& tracking) {
return stack_detail::unchecked_get<optional<T>>(L, index, tracking);
}
template <typename T>
inline int alloc_destroy(lua_State* L) {
void* rawdata = lua_touserdata(L, upvalue_index(1));
T* data = static_cast<T*>(rawdata);
std::allocator<T> alloc;
alloc.destroy(data);
return 0;
}
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template <bool b>
struct check_types {
template <typename T, typename... Args, typename Handler>
static bool check(types<T, Args...>, lua_State* L, int firstargument, Handler&& handler, record& tracking) {
if (!stack::check<T>(L, firstargument + tracking.used, handler, tracking))
return false;
return check(types<Args...>(), L, firstargument, std::forward<Handler>(handler), tracking);
}
template <typename Handler>
static bool check(types<>, lua_State*, int, Handler&&, record&) {
return true;
}
};
template <>
struct check_types<false> {
template <typename... Args, typename Handler>
static bool check(types<Args...>, lua_State*, int, Handler&&, record&) {
return true;
}
};
} // stack_detail
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template <bool b, typename... Args, typename Handler>
bool multi_check(lua_State* L, int index, Handler&& handler, record& tracking) {
return stack_detail::check_types<b>{}.check(types<meta::unqualified_t<Args>...>(), L, index, std::forward<Handler>(handler), tracking);
}
template <bool b, typename... Args, typename Handler>
bool multi_check(lua_State* L, int index, Handler&& handler) {
record tracking{};
return multi_check<b, Args...>(L, index, std::forward<Handler>(handler), tracking);
}
template <bool b, typename... Args>
bool multi_check(lua_State* L, int index) {
auto handler = no_panic;
return multi_check<b, Args...>(L, index, handler);
}
template <typename... Args, typename Handler>
bool multi_check(lua_State* L, int index, Handler&& handler, record& tracking) {
return multi_check<true, Args...>(L, index, std::forward<Handler>(handler), tracking);
}
template <typename... Args, typename Handler>
bool multi_check(lua_State* L, int index, Handler&& handler) {
return multi_check<true, Args...>(L, index, std::forward<Handler>(handler));
}
template <typename... Args>
bool multi_check(lua_State* L, int index) {
return multi_check<true, Args...>(L, index);
}
template<typename T>
inline decltype(auto) get(lua_State* L, int index, record& tracking) {
return stack_detail::tagged_get(types<T>(), L, index, tracking);
}
template<typename T>
inline decltype(auto) get(lua_State* L, int index = -1) {
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record tracking{};
return get<T>(L, index, tracking);
}
template<typename T>
inline decltype(auto) pop(lua_State* L) {
return popper<meta::unqualified_t<T>>{}.pop(L);
}
template <bool global = false, bool raw = false, typename Key>
void get_field(lua_State* L, Key&& key) {
field_getter<meta::unqualified_t<Key>, global, raw>{}.get(L, std::forward<Key>(key));
}
template <bool global = false, bool raw = false, typename Key>
void get_field(lua_State* L, Key&& key, int tableindex) {
field_getter<meta::unqualified_t<Key>, global, raw>{}.get(L, std::forward<Key>(key), tableindex);
}
template <bool global = false, typename Key>
void raw_get_field(lua_State* L, Key&& key) {
get_field<global, true>(L, std::forward<Key>(key));
}
template <bool global = false, typename Key>
void raw_get_field(lua_State* L, Key&& key, int tableindex) {
get_field<global, true>(L, std::forward<Key>(key), tableindex);
}
template <bool global = false, bool raw = false, typename Key>
probe probe_get_field(lua_State* L, Key&& key) {
return probe_field_getter<meta::unqualified_t<Key>, global, raw>{}.get(L, std::forward<Key>(key));
}
template <bool global = false, bool raw = false, typename Key>
probe probe_get_field(lua_State* L, Key&& key, int tableindex) {
return probe_field_getter<meta::unqualified_t<Key>, global, raw>{}.get(L, std::forward<Key>(key), tableindex);
}
template <bool global = false, typename Key>
probe probe_raw_get_field(lua_State* L, Key&& key) {
return probe_get_field<global, true>(L, std::forward<Key>(key));
}
template <bool global = false, typename Key>
probe probe_raw_get_field(lua_State* L, Key&& key, int tableindex) {
return probe_get_field<global, true>(L, std::forward<Key>(key), tableindex);
}
template <bool global = false, bool raw = false, typename Key, typename Value>
void set_field(lua_State* L, Key&& key, Value&& value) {
field_setter<meta::unqualified_t<Key>, global, raw>{}.set(L, std::forward<Key>(key), std::forward<Value>(value));
}
template <bool global = false, bool raw = false, typename Key, typename Value>
void set_field(lua_State* L, Key&& key, Value&& value, int tableindex) {
field_setter<meta::unqualified_t<Key>, global, raw>{}.set(L, std::forward<Key>(key), std::forward<Value>(value), tableindex);
}
template <bool global = false, typename Key, typename Value>
void raw_set_field(lua_State* L, Key&& key, Value&& value) {
set_field<global, true>(L, std::forward<Key>(key), std::forward<Value>(value));
}
template <bool global = false, typename Key, typename Value>
void raw_set_field(lua_State* L, Key&& key, Value&& value, int tableindex) {
set_field<global, true>(L, std::forward<Key>(key), std::forward<Value>(value), tableindex);
}
} // stack
} // sol
#endif // SOL_STACK_CORE_HPP