sol2/include/sol/protected_function.hpp

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// sol3
// The MIT License (MIT)
// Copyright (c) 2013-2019 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_PROTECTED_FUNCTION_HPP
#define SOL_PROTECTED_FUNCTION_HPP
#include "reference.hpp"
#include "object.hpp"
#include "stack.hpp"
#include "protected_function_result.hpp"
#include "unsafe_function.hpp"
#include "protected_handler.hpp"
#include "bytecode.hpp"
#include "dump_handler.hpp"
#include <cstdint>
#include <algorithm>
namespace sol {
namespace detail {
template <bool b, typename handler_t>
inline void handle_protected_exception(lua_State* L, optional<const std::exception&> maybe_ex, const char* error, detail::protected_handler<b, handler_t>& h) {
h.stackindex = 0;
if (b) {
h.target.push();
detail::call_exception_handler(L, maybe_ex, error);
lua_call(L, 1, 1);
}
else {
detail::call_exception_handler(L, maybe_ex, error);
}
}
}
template <typename ref_t, bool aligned = false, typename handler_t = reference>
class basic_protected_function : public basic_object<ref_t> {
private:
using base_t = basic_object<ref_t>;
public:
typedef is_stack_based<handler_t> is_stack_handler;
static handler_t get_default_handler(lua_State* L) {
return detail::get_default_handler<handler_t, is_main_threaded<base_t>::value>(L);
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}
template <typename T>
static void set_default_handler(const T& ref) {
detail::set_default_handler(ref.lua_state(), ref);
}
private:
template <bool b>
call_status luacall(std::ptrdiff_t argcount, std::ptrdiff_t resultcount, detail::protected_handler<b, handler_t>& h) const {
return static_cast<call_status>(lua_pcall(lua_state(), static_cast<int>(argcount), static_cast<int>(resultcount), h.stackindex));
}
template <std::size_t... I, bool b, typename... Ret>
auto invoke(types<Ret...>, std::index_sequence<I...>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const {
luacall(n, sizeof...(Ret), h);
return stack::pop<std::tuple<Ret...>>(lua_state());
}
template <std::size_t I, bool b, typename Ret>
Ret invoke(types<Ret>, std::index_sequence<I>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const {
luacall(n, 1, h);
return stack::pop<Ret>(lua_state());
}
template <std::size_t I, bool b>
void invoke(types<void>, std::index_sequence<I>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const {
luacall(n, 0, h);
}
template <bool b>
protected_function_result invoke(types<>, std::index_sequence<>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const {
int stacksize = lua_gettop(lua_state());
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int poststacksize = stacksize;
int firstreturn = 1;
int returncount = 0;
call_status code = call_status::ok;
#if !defined(SOL_NO_EXCEPTIONS) || !SOL_NO_EXCEPTIONS
#if (!defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) || !SOL_NO_EXCEPTIONS_SAFE_PROPAGATION) || (defined(SOL_LUAJIT) && SOL_LUAJIT)
try {
#endif // Safe Exception Propagation
#endif // No Exceptions
firstreturn = (std::max)(1, static_cast<int>(stacksize - n - static_cast<int>(h.valid())));
code = luacall(n, LUA_MULTRET, h);
poststacksize = lua_gettop(lua_state()) - static_cast<int>(h.valid());
returncount = poststacksize - (firstreturn - 1);
#ifndef SOL_NO_EXCEPTIONS
#if (!defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) || !SOL_NO_EXCEPTIONS_SAFE_PROPAGATION) || (defined(SOL_LUAJIT) && SOL_LUAJIT)
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}
// Handle C++ errors thrown from C++ functions bound inside of lua
catch (const char* error) {
detail::handle_protected_exception(lua_state(), optional<const std::exception&>(nullopt), error, h);
firstreturn = lua_gettop(lua_state());
return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime);
}
catch (const std::string& error) {
detail::handle_protected_exception(lua_state(), optional<const std::exception&>(nullopt), error.c_str(), h);
firstreturn = lua_gettop(lua_state());
return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime);
}
catch (const std::exception& error) {
detail::handle_protected_exception(lua_state(), optional<const std::exception&>(error), error.what(), h);
firstreturn = lua_gettop(lua_state());
return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime);
}
#if (!defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) || !SOL_NO_EXCEPTIONS_SAFE_PROPAGATION)
// LuaJIT cannot have the catchall when the safe propagation is on
// but LuaJIT will swallow all C++ errors
// if we don't at least catch std::exception ones
catch (...) {
detail::handle_protected_exception(lua_state(), optional<const std::exception&>(nullopt), detail::protected_function_error, h);
firstreturn = lua_gettop(lua_state());
return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime);
}
#endif // LuaJIT
#else
// do not handle exceptions: they can be propogated into C++ and keep all type information / rich information
#endif // Safe Exception Propagation
#endif // Exceptions vs. No Exceptions
return protected_function_result(lua_state(), firstreturn, returncount, returncount, code);
}
public:
using base_t::lua_state;
handler_t error_handler;
basic_protected_function() = default;
template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_protected_function>>, meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<T>>>, meta::neg<std::is_same<base_t, stack_reference>>, meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler>
basic_protected_function(T&& r) noexcept
: base_t(std::forward<T>(r)), error_handler(get_default_handler(r.lua_state())) {
#if defined(SOL_SAFE_REFERENCES) && SOL_SAFE_REFERENCES
if (!is_function<meta::unqualified_t<T>>::value) {
auto pp = stack::push_pop(*this);
constructor_handler handler{};
stack::check<basic_protected_function>(lua_state(), -1, handler);
}
#endif // Safety
}
basic_protected_function(const basic_protected_function&) = default;
basic_protected_function& operator=(const basic_protected_function&) = default;
basic_protected_function(basic_protected_function&&) = default;
basic_protected_function& operator=(basic_protected_function&&) = default;
basic_protected_function(const basic_function<base_t>& b)
: basic_protected_function(b, get_default_handler(b.lua_state())) {
}
basic_protected_function(basic_function<base_t>&& b)
: basic_protected_function(std::move(b), get_default_handler(b.lua_state())) {
}
basic_protected_function(const basic_function<base_t>& b, handler_t eh)
: base_t(b), error_handler(std::move(eh)) {
}
basic_protected_function(basic_function<base_t>&& b, handler_t eh)
: base_t(std::move(b)), error_handler(std::move(eh)) {
}
basic_protected_function(const stack_reference& r)
: basic_protected_function(r.lua_state(), r.stack_index(), get_default_handler(r.lua_state())) {
}
basic_protected_function(stack_reference&& r)
: basic_protected_function(r.lua_state(), r.stack_index(), get_default_handler(r.lua_state())) {
}
basic_protected_function(const stack_reference& r, handler_t eh)
: basic_protected_function(r.lua_state(), r.stack_index(), std::move(eh)) {
}
basic_protected_function(stack_reference&& r, handler_t eh)
: basic_protected_function(r.lua_state(), r.stack_index(), std::move(eh)) {
}
template <typename Super>
basic_protected_function(const proxy_base<Super>& p)
: basic_protected_function(p, get_default_handler(p.lua_state())) {
}
template <typename Super>
basic_protected_function(proxy_base<Super>&& p)
: basic_protected_function(std::move(p), get_default_handler(p.lua_state())) {
}
template <typename Proxy, typename Handler, meta::enable<std::is_base_of<proxy_base_tag, meta::unqualified_t<Proxy>>, meta::neg<is_lua_index<meta::unqualified_t<Handler>>>> = meta::enabler>
basic_protected_function(Proxy&& p, Handler&& eh)
: basic_protected_function(detail::force_cast<base_t>(p), std::forward<Handler>(eh)) {
}
template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler>
basic_protected_function(lua_State* L, T&& r)
: basic_protected_function(L, std::forward<T>(r), get_default_handler(L)) {
}
template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler>
basic_protected_function(lua_State* L, T&& r, handler_t eh)
: base_t(L, std::forward<T>(r)), error_handler(std::move(eh)) {
#if defined(SOL_SAFE_REFERENCES) && SOL_SAFE_REFERENCES
auto pp = stack::push_pop(*this);
constructor_handler handler{};
stack::check<basic_protected_function>(lua_state(), -1, handler);
#endif // Safety
}
basic_protected_function(lua_nil_t n)
: base_t(n), error_handler(n) {
}
basic_protected_function(lua_State* L, int index = -1)
: basic_protected_function(L, index, get_default_handler(L)) {
}
basic_protected_function(lua_State* L, int index, handler_t eh)
: base_t(L, index), error_handler(std::move(eh)) {
#if defined(SOL_SAFE_REFERENCES) && SOL_SAFE_REFERENCES
constructor_handler handler{};
stack::check<basic_protected_function>(L, index, handler);
#endif // Safety
}
basic_protected_function(lua_State* L, absolute_index index)
: basic_protected_function(L, index, get_default_handler(L)) {
}
basic_protected_function(lua_State* L, absolute_index index, handler_t eh)
: base_t(L, index), error_handler(std::move(eh)) {
#if defined(SOL_SAFE_REFERENCES) && SOL_SAFE_REFERENCES
constructor_handler handler{};
stack::check<basic_protected_function>(L, index, handler);
#endif // Safety
}
basic_protected_function(lua_State* L, raw_index index)
: basic_protected_function(L, index, get_default_handler(L)) {
}
basic_protected_function(lua_State* L, raw_index index, handler_t eh)
: base_t(L, index), error_handler(std::move(eh)) {
#if defined(SOL_SAFE_REFERENCES) && SOL_SAFE_REFERENCES
constructor_handler handler{};
stack::check<basic_protected_function>(L, index, handler);
#endif // Safety
}
basic_protected_function(lua_State* L, ref_index index)
: basic_protected_function(L, index, get_default_handler(L)) {
}
basic_protected_function(lua_State* L, ref_index index, handler_t eh)
: base_t(L, index), error_handler(std::move(eh)) {
#if defined(SOL_SAFE_REFERENCES) && SOL_SAFE_REFERENCES
auto pp = stack::push_pop(*this);
constructor_handler handler{};
stack::check<basic_protected_function>(lua_state(), -1, handler);
#endif // Safety
}
template <typename Fx>
int dump(lua_Writer writer, void* userdata, bool strip, Fx&& on_error) const {
this->push();
auto ppn = stack::push_popper_n<false>(this->lua_state(), 1);
int r = lua_dump(this->lua_state(), writer, userdata, strip ? 1 : 0);
if (r != 0) {
return on_error(this->lua_state(), r, writer, userdata, strip);
}
return r;
}
int dump(lua_Writer writer, void* userdata, bool strip = false) const {
return dump(writer, userdata, strip, &dump_pass_on_error);
}
template <typename Container = bytecode>
Container dump() const {
Container bc;
(void)dump(static_cast<lua_Writer>(&basic_insert_dump_writer<Container>), static_cast<void*>(&bc), false, &dump_throw_on_error);
return bc;
}
template <typename Container = bytecode, typename Fx>
Container dump(Fx&& on_error) const {
Container bc;
(void)dump(static_cast<lua_Writer>(&basic_insert_dump_writer<Container>), static_cast<void*>(&bc), false, std::forward<Fx>(on_error));
return bc;
}
template <typename... Args>
protected_function_result operator()(Args&&... args) const {
return call<>(std::forward<Args>(args)...);
}
template <typename... Ret, typename... Args>
decltype(auto) operator()(types<Ret...>, Args&&... args) const {
return call<Ret...>(std::forward<Args>(args)...);
}
template <typename... Ret, typename... Args>
decltype(auto) call(Args&&... args) const {
if (!aligned) {
// we do not expect the function to already be on the stack: push it
if (error_handler.valid()) {
detail::protected_handler<true, handler_t> h(error_handler);
base_t::push();
int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...);
return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h);
}
else {
detail::protected_handler<false, handler_t> h(error_handler);
base_t::push();
int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...);
return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h);
}
}
else {
// the function is already on the stack at the right location
if (error_handler.valid()) {
// the handler will be pushed onto the stack manually,
// since it's not already on the stack this means we need to push our own
// function on the stack too and swap things to be in-place
if (!is_stack_handler::value) {
// so, we need to remove the function at the top and then dump the handler out ourselves
base_t::push();
}
detail::protected_handler<true, handler_t> h(error_handler);
if (!is_stack_handler::value) {
lua_replace(lua_state(), -3);
h.stackindex = lua_absindex(lua_state(), -2);
}
int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...);
return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h);
}
else {
detail::protected_handler<false, handler_t> h(error_handler);
int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...);
return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h);
}
}
}
};
} // namespace sol
#endif // SOL_FUNCTION_HPP