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Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\luabind\src\class_rep.cpp
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// Copyright (c) 2003 Daniel Wallin and Arvid Norberg // 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. #include
#include
#include
#include
using namespace luabind::detail; namespace luabind { namespace detail { struct method_name { method_name(char const* n): name(n) {} bool operator()(method_rep const& o) const { return std::strcmp(o.name, name) == 0; } char const* name; }; }} #ifndef LUABIND_NO_ERROR_CHECKING std::string luabind::detail::get_overload_signatures_candidates( lua_State* L , std::vector
::iterator start , std::vector
::iterator end , std::string name) { std::string s; for (; start != end; ++start) { s += name; (*start)->get_signature(L, s); s += "\n"; } return s; } #endif luabind::detail::class_rep::class_rep(LUABIND_TYPE_INFO type , const char* name , lua_State* L , void(*destructor)(void*) , void(*const_holder_destructor)(void*) , LUABIND_TYPE_INFO holder_type , LUABIND_TYPE_INFO const_holder_type , void*(*extractor)(void*) , const void*(*const_extractor)(void*) , void(*const_converter)(void*,void*) , void(*construct_holder)(void*,void*) , void(*construct_const_holder)(void*,void*) , void(*default_construct_holder)(void*) , void(*default_construct_const_holder)(void*) , void(*adopt_fun)(void*) , int holder_size , int holder_alignment) : m_type(type) , m_holder_type(holder_type) , m_const_holder_type(const_holder_type) , m_extractor(extractor) , m_const_extractor(const_extractor) , m_const_converter(const_converter) , m_construct_holder(construct_holder) , m_construct_const_holder(construct_const_holder) , m_default_construct_holder(default_construct_holder) , m_default_construct_const_holder(default_construct_const_holder) , m_adopt_fun(adopt_fun) , m_holder_size(holder_size) , m_holder_alignment(holder_alignment) , m_name(name) , m_class_type(cpp_class) , m_destructor(destructor) , m_const_holder_destructor(const_holder_destructor) , m_operator_cache(0) { assert(m_holder_alignment >= 1 && "internal error"); lua_newtable(L); handle(L, -1).swap(m_table); lua_newtable(L); handle(L, -1).swap(m_default_table); lua_pop(L, 2); class_registry* r = class_registry::get_registry(L); assert((r->cpp_class() != LUA_NOREF) && "you must call luabind::open()"); detail::getref(L, r->cpp_class()); lua_setmetatable(L, -2); lua_pushvalue(L, -1); // duplicate our user data m_self_ref.set(L); m_instance_metatable = r->cpp_instance(); } luabind::detail::class_rep::class_rep(lua_State* L, const char* name) : m_type(LUABIND_INVALID_TYPE_INFO) , m_holder_type(LUABIND_INVALID_TYPE_INFO) , m_const_holder_type(LUABIND_INVALID_TYPE_INFO) , m_extractor(0) , m_const_extractor(0) , m_const_converter(0) , m_construct_holder(0) , m_construct_const_holder(0) , m_default_construct_holder(0) , m_default_construct_const_holder(0) , m_adopt_fun(0) , m_holder_size(0) , m_holder_alignment(1) , m_name(name) , m_class_type(lua_class) , m_destructor(0) , m_const_holder_destructor(0) , m_operator_cache(0) { lua_newtable(L); handle(L, -1).swap(m_table); lua_newtable(L); handle(L, -1).swap(m_default_table); lua_pop(L, 2); class_registry* r = class_registry::get_registry(L); assert((r->cpp_class() != LUA_NOREF) && "you must call luabind::open()"); detail::getref(L, r->lua_class()); lua_setmetatable(L, -2); lua_pushvalue(L, -1); // duplicate our user data m_self_ref.set(L); m_instance_metatable = r->lua_instance(); } luabind::detail::class_rep::~class_rep() { } // leaves object on lua stack std::pair
luabind::detail::class_rep::allocate(lua_State* L) const { const int overlap = sizeof(object_rep)&(m_holder_alignment-1); const int padding = overlap==0?0:m_holder_alignment-overlap; const int size = sizeof(object_rep) + padding + m_holder_size; char* mem = static_cast
(lua_newuserdata(L, size)); char* ptr = mem + sizeof(object_rep) + padding; return std::pair
(mem,ptr); } /* #include
namespace { void dump_stack(lua_State* L) { for (int i = 1; i <= lua_gettop(L); ++i) { int t = lua_type(L, i); switch (t) { case LUA_TNUMBER: std::cout << "[" << i << "] number: " << lua_tonumber(L, i) << "\n"; break; case LUA_TSTRING: std::cout << "[" << i << "] string: " << lua_tostring(L, i) << "\n"; break; case LUA_TUSERDATA: std::cout << "[" << i << "] userdata: " << lua_touserdata(L, i) << "\n"; break; case LUA_TTABLE: std::cout << "[" << i << "] table:\n"; break; case LUA_TNIL: std::cout << "[" << i << "] nil:\n"; break; } } } } */ void luabind::detail::class_rep::adopt(bool const_obj, void* obj) { if (m_adopt_fun == 0) return; if (m_extractor) { assert(m_const_extractor); if (const_obj) m_adopt_fun(const_cast
(m_const_extractor(obj))); else m_adopt_fun(m_extractor(obj)); } else { m_adopt_fun(obj); } } // lua stack: userdata, key int luabind::detail::class_rep::gettable(lua_State* L) { // if key is nil, return nil if (lua_isnil(L, 2)) { lua_pushnil(L); return 1; } object_rep* obj = static_cast
(lua_touserdata(L, 1)); // we have to ignore the first argument since this may point to // a method that is not present in this class (but in a subclass) const char* key = lua_tostring(L, 2); #ifndef LUABIND_NO_ERROR_CHECKING if (std::strlen(key) != lua_strlen(L, 2)) { { std::string msg("luabind does not support " "member names with extra nulls:\n"); msg += std::string(lua_tostring(L, 2), lua_strlen(L, 2)); lua_pushstring(L, msg.c_str()); } lua_error(L); } #endif // special case to see if this is a null-pointer if (key && !std::strcmp(key, "__ok")) { class_rep* crep = obj->crep(); void* p = crep->extractor() ? crep->extractor()(obj->ptr()) : obj->ptr(); lua_pushboolean(L, p != 0); return 1; } // First, look in the instance's table detail::lua_reference const& tbl = obj->get_lua_table(); if (tbl.is_valid()) { tbl.get(L); lua_pushvalue(L, 2); lua_gettable(L, -2); if (!lua_isnil(L, -1)) { lua_remove(L, -2); // remove table return 1; } lua_pop(L, 2); } // Then look in the class' table for this member obj->crep()->get_table(L); lua_pushvalue(L, 2); lua_gettable(L, -2); if (!lua_isnil(L, -1)) { lua_remove(L, -2); // remove table return 1; } lua_pop(L, 2); std::map
::iterator j = m_getters.find(key); if (j != m_getters.end()) { // the name is a data member return j->second.func(L, j->second.pointer_offset); } lua_pushnil(L); return 1; } // called from the metamethod for __newindex // the object pointer is passed on the lua stack // lua stack: userdata, key, value bool luabind::detail::class_rep::settable(lua_State* L) { // if the key is 'nil' fail if (lua_isnil(L, 2)) return false; // we have to ignore the first argument since this may point to // a method that is not present in this class (but in a subclass) const char* key = lua_tostring(L, 2); if (std::strlen(key) == lua_strlen(L, 2)) { std::map
::iterator j = m_setters.find(key); if (j != m_setters.end()) { // the name is a data member #ifndef LUABIND_NO_ERROR_CHECKING if (j->second.match(L, 3) < 0) { std::string msg("the attribute '"); msg += m_name; msg += "."; msg += key; msg += "' is of type: "; j->second.sig(L, msg); msg += "\nand does not match: ("; msg += stack_content_by_name(L, 3); msg += ")"; lua_pushstring(L, msg.c_str()); return false; } #endif j->second.func(L, j->second.pointer_offset); return true; } if (m_getters.find(key) != m_getters.end()) { // this means that we have a getter but no // setter for an attribute. We will then fail // because that attribute is read-only std::string msg("the attribute '"); msg += m_name; msg += "."; msg += key; msg += "' is read only"; lua_pushstring(L, msg.c_str()); return false; } } // set the attribute to the object's table object_rep* obj = static_cast
(lua_touserdata(L, 1)); detail::lua_reference& tbl = obj->get_lua_table(); if (!tbl.is_valid()) { // this is the first time we are trying to add // a member to this instance, create the table. lua_newtable(L); lua_pushvalue(L, -1); tbl.set(L); } else { tbl.get(L); } lua_pushvalue(L, 2); lua_pushvalue(L, 3); lua_settable(L, 4); lua_pop(L, 3); return true; } int class_rep::gettable_dispatcher(lua_State* L) { object_rep* obj = static_cast
(lua_touserdata(L, 1)); return obj->crep()->gettable(L); } // this is called as __newindex metamethod on every instance of this class int luabind::detail::class_rep::settable_dispatcher(lua_State* L) { object_rep* obj = static_cast
(lua_touserdata(L, 1)); bool success = obj->crep()->settable(L); #ifndef LUABIND_NO_ERROR_CHECKING if (!success) { // class_rep::settable() will leave // error message on the stack in case // of failure lua_error(L); } #endif return 0; } int luabind::detail::class_rep::operator_dispatcher(lua_State* L) { for (int i = 0; i < 2; ++i) { if (is_class_object(L, 1 + i)) { int nargs = lua_gettop(L); lua_pushvalue(L, lua_upvalueindex(1)); lua_gettable(L, 1 + i); if (lua_isnil(L, -1)) { lua_pop(L, 1); continue; } lua_insert(L, 1); // move the function to the bottom nargs = lua_toboolean(L, lua_upvalueindex(2)) ? 1 : nargs; if (lua_toboolean(L, lua_upvalueindex(2))) // remove trailing nil lua_remove(L, 3); lua_call(L, nargs, 1); return 1; } } lua_pop(L, lua_gettop(L)); lua_pushstring(L, "No such operator defined"); lua_error(L); return 0; } // this is called as metamethod __call on the class_rep. int luabind::detail::class_rep::constructor_dispatcher(lua_State* L) { class_rep* crep = static_cast
(lua_touserdata(L, 1)); construct_rep* rep = &crep->m_constructor; bool ambiguous = false; int match_index = -1; int min_match = std::numeric_limits
::max(); bool found; #ifdef LUABIND_NO_ERROR_CHECKING if (rep->overloads.size() == 1) { match_index = 0; found = true; } else { #endif int num_params = lua_gettop(L) - 1; overload_rep_base const* first = rep->overloads.empty() ? 0 : &rep->overloads.front(); found = find_best_match(L, first, rep->overloads.size(), sizeof(construct_rep::overload_t), ambiguous, min_match, match_index, num_params); #ifdef LUABIND_NO_ERROR_CHECKING } #else if (!found) { { std::string msg("no constructor of '"); msg += crep->name(); msg += "' matched the arguments ("; msg += stack_content_by_name(L, 2); msg += ")\n candidates are:\n"; msg += get_overload_signatures(L, rep->overloads.begin(), rep->overloads.end(), crep->name()); lua_pushstring(L, msg.c_str()); } lua_error(L); } else if (ambiguous) { { std::string msg("call of overloaded constructor '"); msg += crep->m_name; msg += "("; msg += stack_content_by_name(L, 2); msg += ")' is ambiguous\nnone of the overloads have a best conversion:\n"; std::vector
candidates; find_exact_match(L, &rep->overloads.front(), rep->overloads.size(), sizeof(construct_rep::overload_t), min_match, num_params, candidates); msg += get_overload_signatures_candidates(L, candidates.begin(), candidates.end(), crep->name()); lua_pushstring(L, msg.c_str()); } lua_error(L); } #endif #ifndef LUABIND_NO_EXCEPTIONS try { #endif void* obj_rep; void* held; boost::tie(obj_rep,held) = crep->allocate(L); weak_ref backref(L, -1); void* object_ptr = rep->overloads[match_index].construct(L, backref); if (crep->has_holder()) { crep->m_construct_holder(held, object_ptr); object_ptr = held; } new(obj_rep) object_rep(object_ptr, crep, object_rep::owner, crep->destructor()); detail::getref(L, crep->m_instance_metatable); lua_setmetatable(L, -2); return 1; #ifndef LUABIND_NO_EXCEPTIONS } catch(const error&) { } catch(const std::exception& e) { lua_pushstring(L, e.what()); } catch(const char* s) { lua_pushstring(L, s); } catch(...) { { std::string msg = crep->name(); msg += "() threw an exception"; lua_pushstring(L, msg.c_str()); } } // we can only reach this line if an exception was thrown lua_error(L); return 0; // will never be reached #endif } /* the functions dispatcher assumes the following: upvalues: 1: method_rep* method, points to the method_rep that this dispatcher is to call 2: boolean force_static, is true if this is to be a static call and false if it is a normal call (= virtual if possible). stack: 1: object_rep* self, points to the object the call is being made on */ int luabind::detail::class_rep::function_dispatcher(lua_State* L) { #ifndef NDEBUG /* lua_Debug tmp_; assert(lua_getinfo(L, "u", &tmp_)); assert(tmp_.nups == 2);*/ assert(lua_type(L, lua_upvalueindex(1)) == LUA_TLIGHTUSERDATA); assert(lua_type(L, lua_upvalueindex(2)) == LUA_TBOOLEAN); assert(lua_type(L, lua_upvalueindex(3)) == LUA_TLIGHTUSERDATA); assert(lua_touserdata(L, lua_upvalueindex(3)) == reinterpret_cast
(0x1337)); // assert(lua_type(L, 1) == LUA_TUSERDATA); #endif method_rep* rep = static_cast
(lua_touserdata(L, lua_upvalueindex(1))); int force_static_call = lua_toboolean(L, lua_upvalueindex(2)); bool ambiguous = false; int match_index = -1; int min_match = std::numeric_limits
::max(); bool found; #ifdef LUABIND_NO_ERROR_CHECKING if (rep->overloads().size() == 1) { match_index = 0; } else { #endif int num_params = lua_gettop(L) /*- 1*/; found = find_best_match(L, &rep->overloads().front(), rep->overloads().size() , sizeof(overload_rep), ambiguous, min_match, match_index, num_params); #ifdef LUABIND_NO_ERROR_CHECKING } #else if (!found) { { std::string msg = "no overload of '"; msg += rep->crep->name(); msg += ":"; msg += rep->name; msg += "' matched the arguments ("; msg += stack_content_by_name(L, 1); msg += ")\ncandidates are:\n"; std::string function_name; function_name += rep->crep->name(); function_name += ":"; function_name += rep->name; msg += get_overload_signatures(L, rep->overloads().begin() , rep->overloads().end(), function_name); lua_pushstring(L, msg.c_str()); } lua_error(L); } else if (ambiguous) { { std::string msg = "call of overloaded '"; msg += rep->crep->name(); msg += ":"; msg += rep->name; msg += "("; msg += stack_content_by_name(L, 1); msg += ")' is ambiguous\nnone of the overloads have a best conversion:\n"; std::vector
candidates; find_exact_match(L, &rep->overloads().front(), rep->overloads().size() , sizeof(overload_rep), min_match, num_params, candidates); std::string function_name; function_name += rep->crep->name(); function_name += ":"; function_name += rep->name; msg += get_overload_signatures_candidates(L, candidates.begin() , candidates.end(), function_name); lua_pushstring(L, msg.c_str()); } lua_error(L); } #endif #ifndef LUABIND_NO_EXCEPTIONS try { #endif const overload_rep& o = rep->overloads()[match_index]; if (force_static_call && !o.has_static()) { lua_pushstring(L, "pure virtual function called"); } else { return o.call(L, force_static_call != 0); } #ifndef LUABIND_NO_EXCEPTIONS } catch(const error&) { } catch(const std::exception& e) { lua_pushstring(L, e.what()); } catch (const char* s) { lua_pushstring(L, s); } catch(...) { std::string msg = rep->crep->name(); msg += ":"; msg += rep->name; msg += "() threw an exception"; lua_pushstring(L, msg.c_str()); } #endif // we can only reach this line if an error occured lua_error(L); return 0; // will never be reached } #ifndef NDEBUG #ifndef BOOST_NO_STRINGSTREAM #include
#else #include
#endif namespace { std::string to_string(luabind::object const& o) { using namespace luabind; if (type(o) == LUA_TSTRING) return object_cast
(o); lua_State* L = o.interpreter(); LUABIND_CHECK_STACK(L); #ifdef BOOST_NO_STRINGSTREAM std::strstream s; #else std::stringstream s; #endif if (type(o) == LUA_TNUMBER) { s << object_cast
(o); return s.str(); } s << "<" << lua_typename(L, type(o)) << ">"; #ifdef BOOST_NO_STRINGSTREAM s << std::ends; #endif return s.str(); } std::string member_to_string(luabind::object const& e) { #if !defined(LUABIND_NO_ERROR_CHECKING) using namespace luabind; lua_State* L = e.interpreter(); LUABIND_CHECK_STACK(L); if (type(e) == LUA_TFUNCTION) { e.push(L); detail::stack_pop p(L, 1); { if (lua_getupvalue(L, -1, 3) == 0) return to_string(e); detail::stack_pop p2(L, 1); if (lua_touserdata(L, -1) != reinterpret_cast
(0x1337)) return to_string(e); } #ifdef BOOST_NO_STRINGSTREAM std::strstream s; #else std::stringstream s; #endif { lua_getupvalue(L, -1, 2); detail::stack_pop p2(L, 1); int b = lua_toboolean(L, -1); s << "
"; } { lua_getupvalue(L, -1, 1); detail::stack_pop p2(L, 1); method_rep* m = static_cast
(lua_touserdata(L, -1)); s << m << "\n"; for (std::vector
::const_iterator i = m->overloads().begin(); i != m->overloads().end(); ++i) { std::string str; i->get_signature(L, str); s << " " << str << "\n"; } } #ifdef BOOST_NO_STRINGSTREAM s << std::ends; #endif return s.str(); } return to_string(e); #else return ""; #endif } } std::string luabind::detail::class_rep::class_info_string(lua_State* L) const { #ifdef BOOST_NO_STRINGSTREAM std::strstream ret; #else std::stringstream ret; #endif ret << "CLASS: " << m_name << "\n"; ret << "dynamic dispatch functions:\n------------------\n"; for (luabind::iterator i(m_table), end; i != end; ++i) { luabind::object e = *i; ret << " " << to_string(i.key()) << ": " << member_to_string(e) << "\n"; } ret << "default implementations:\n------------------\n"; for (luabind::iterator i(m_default_table), end; i != end; ++i) { luabind::object e = *i; ret << " " << to_string(i.key()) << ": " << member_to_string(e) << "\n"; } #ifdef BOOST_NO_STRINGSTREAM ret << std::ends; #endif return ret.str(); } #endif void luabind::detail::class_rep::add_base_class(const luabind::detail::class_rep::base_info& binfo) { // If you hit this assert you are deriving from a type that is not registered // in lua. That is, in the class_<> you are giving a baseclass that isn't registered. // Please note that if you don't need to have access to the base class or the // conversion from the derived class to the base class, you don't need // to tell luabind that it derives. assert(binfo.base && "You cannot derive from an unregistered type"); class_rep* bcrep = binfo.base; // import all functions from the base typedef std::list
methods_t; for (methods_t::const_iterator i = bcrep->m_methods.begin(); i != bcrep->m_methods.end(); ++i) { add_method(*i); } // import all getters from the base for (std::map
::const_iterator i = bcrep->m_getters.begin(); i != bcrep->m_getters.end(); ++i) { callback& m = m_getters[i->first]; m.pointer_offset = i->second.pointer_offset + binfo.pointer_offset; m.func = i->second.func; #ifndef LUABIND_NO_ERROR_CHECKING m.match = i->second.match; m.sig = i->second.sig; #endif } // import all setters from the base for (std::map
::const_iterator i = bcrep->m_setters.begin(); i != bcrep->m_setters.end(); ++i) { callback& m = m_setters[i->first]; m.pointer_offset = i->second.pointer_offset + binfo.pointer_offset; m.func = i->second.func; #ifndef LUABIND_NO_ERROR_CHECKING m.match = i->second.match; m.sig = i->second.sig; #endif } // import all static constants for (std::map
::const_iterator i = bcrep->m_static_constants.begin(); i != bcrep->m_static_constants.end(); ++i) { int& v = m_static_constants[i->first]; v = i->second; } // import all operators for (int i = 0; i < number_of_operators; ++i) { for (std::vector
::const_iterator j = bcrep->m_operators[i].begin(); j != bcrep->m_operators[i].end(); ++j) m_operators[i].push_back(*j); } // also, save the baseclass info to be used for typecasts m_bases.push_back(binfo); } int luabind::detail::class_rep::super_callback(lua_State* L) { int args = lua_gettop(L); object_rep* obj = static_cast
(lua_touserdata(L, lua_upvalueindex(2))); class_rep* crep = static_cast
(lua_touserdata(L, lua_upvalueindex(1))); class_rep* base = crep->bases()[0].base; if (base->get_class_type() == class_rep::lua_class) { if (base->bases().empty()) { obj->set_flags(obj->flags() & ~object_rep::call_super); lua_pushstring(L, "super"); lua_pushnil(L); lua_settable(L, LUA_GLOBALSINDEX); } else { lua_pushstring(L, "super"); lua_pushlightuserdata(L, base); lua_pushvalue(L, lua_upvalueindex(2)); lua_pushcclosure(L, super_callback, 2); lua_settable(L, LUA_GLOBALSINDEX); } base->get_table(L); lua_pushstring(L, "__init"); lua_gettable(L, -2); lua_insert(L, 1); lua_pop(L, 1); lua_pushvalue(L, lua_upvalueindex(2)); lua_insert(L, 2); lua_call(L, args + 1, 0); // TODO: instead of clearing the global variable "super" // store it temporarily in the registry. maybe we should // have some kind of warning if the super global is used? lua_pushstring(L, "super"); lua_pushnil(L); lua_settable(L, LUA_GLOBALSINDEX); } else { obj->set_flags(obj->flags() & ~object_rep::call_super); // we need to push some garbage at index 1 to make the construction work lua_pushboolean(L, 1); lua_insert(L, 1); construct_rep* rep = &base->m_constructor; bool ambiguous = false; int match_index = -1; int min_match = std::numeric_limits
::max(); bool found; #ifdef LUABIND_NO_ERROR_CHECKING if (rep->overloads.size() == 1) { match_index = 0; } else { #endif int num_params = lua_gettop(L) - 1; found = find_best_match(L, &rep->overloads.front(), rep->overloads.size(), sizeof(construct_rep::overload_t), ambiguous, min_match, match_index, num_params); #ifdef LUABIND_NO_ERROR_CHECKING } #else if (!found) { { std::string msg = "no constructor of '"; msg += base->m_name; msg += "' matched the arguments ("; msg += stack_content_by_name(L, 2); msg += ")"; lua_pushstring(L, msg.c_str()); } lua_error(L); } else if (ambiguous) { { std::string msg = "call of overloaded constructor '"; msg += base->m_name; msg += "("; msg += stack_content_by_name(L, 2); msg += ")' is ambiguous"; lua_pushstring(L, msg.c_str()); } lua_error(L); } // TODO: should this be a warning or something? /* // since the derived class is a lua class // it may have reimplemented virtual functions // therefore, we have to instantiate the Basewrapper // if there is no basewrapper, throw a run-time error if (!rep->overloads[match_index].has_wrapped_construct()) { { std::string msg = "Cannot derive from C++ class '"; msg += base->name(); msg += "'. It does not have a wrapped type"; lua_pushstring(L, msg.c_str()); } lua_error(L); } */ #endif #ifndef LUABIND_NO_EXCEPTIONS try { #endif lua_pushvalue(L, lua_upvalueindex(2)); weak_ref backref(L, -1); lua_pop(L, 1); void* storage_ptr = obj->ptr(); if (!rep->overloads[match_index].has_wrapped_construct()) { // if the type doesn't have a wrapped type, use the ordinary constructor void* instance = rep->overloads[match_index].construct(L, backref); if (crep->has_holder()) { crep->m_construct_holder(storage_ptr, instance); } else { obj->set_object(instance); } } else { // get reference to lua object /* lua_pushvalue(L, lua_upvalueindex(2)); detail::lua_reference ref; ref.set(L); void* instance = rep->overloads[match_index].construct_wrapped(L, ref);*/ void* instance = rep->overloads[match_index].construct_wrapped(L, backref); if (crep->has_holder()) { crep->m_construct_holder(storage_ptr, instance); } else { obj->set_object(instance); } } // TODO: is the wrapped type destructed correctly? // it should, since the destructor is either the wrapped type's // destructor or the base type's destructor, depending on wether // the type has a wrapped type or not. obj->set_destructor(base->destructor()); return 0; #ifndef LUABIND_NO_EXCEPTIONS } catch(const error&) { } catch(const std::exception& e) { lua_pushstring(L, e.what()); } catch(const char* s) { lua_pushstring(L, s); } catch(...) { std::string msg = base->m_name; msg += "() threw an exception"; lua_pushstring(L, msg.c_str()); } // can only be reached if an exception was thrown lua_error(L); #endif } return 0; } int luabind::detail::class_rep::lua_settable_dispatcher(lua_State* L) { class_rep* crep = static_cast
(lua_touserdata(L, 1)); // get first table crep->get_table(L); // copy key, value lua_pushvalue(L, -3); lua_pushvalue(L, -3); lua_rawset(L, -3); // pop table lua_pop(L, 1); // get default table crep->get_default_table(L); lua_replace(L, 1); lua_rawset(L, -3); crep->m_operator_cache = 0; // invalidate cache return 0; } int luabind::detail::class_rep::construct_lua_class_callback(lua_State* L) { class_rep* crep = static_cast
(lua_touserdata(L, 1)); int args = lua_gettop(L); // lua stack: crep
lua_newtable(L); detail::lua_reference ref; ref.set(L); bool has_bases = !crep->bases().empty(); if (has_bases) { lua_pushstring(L, "super"); lua_pushvalue(L, 1); // crep } // lua stack: crep
"super" crep // or // lua stack: crep
// if we have a baseclass we set the flag to say that the super has not yet been called // we will use this flag later to check that it actually was called from __init() int flags = object_rep::lua_class | object_rep::owner | (has_bases ? object_rep::call_super : 0); // void* obj_ptr = lua_newuserdata(L, sizeof(object_rep)); void* obj_ptr; void* held_storage; boost::tie(obj_ptr, held_storage) = crep->allocate(L); (new(obj_ptr) object_rep(crep, flags, ref))->set_object(held_storage); detail::getref(L, crep->metatable_ref()); lua_setmetatable(L, -2); // lua stack: crep
"super" crep obj_ptr // or // lua stack: crep
obj_ptr if (has_bases) lua_pushvalue(L, -1); // obj_ptr lua_replace(L, 1); // obj_ptr // lua stack: obj_ptr
"super" crep obj_ptr // or // lua stack: obj_ptr
if (has_bases) { lua_pushcclosure(L, super_callback, 2); // lua stack: crep
"super" function lua_settable(L, LUA_GLOBALSINDEX); } // lua stack: crep
lua_pushvalue(L, 1); lua_insert(L, 1); crep->get_table(L); lua_pushstring(L, "__init"); lua_gettable(L, -2); #ifndef LUABIND_NO_ERROR_CHECKING // TODO: should this be a run-time error? // maybe the default behavior should be to just call // the base calss' constructor. We should register // the super callback funktion as __init if (!lua_isfunction(L, -1)) { { std::string msg = crep->name(); msg += ":__init is not defined"; lua_pushstring(L, msg.c_str()); } lua_error(L); } #endif lua_insert(L, 2); // function first on stack lua_pop(L, 1); // TODO: lua_call may invoke longjump! make sure we don't have any memory leaks! // we don't have any stack objects here lua_call(L, args, 0); #ifndef LUABIND_NO_ERROR_CHECKING object_rep* obj = static_cast
(obj_ptr); if (obj->flags() & object_rep::call_super) { lua_pushstring(L, "derived class must call super on base"); lua_error(L); } #endif return 1; } // called from the metamethod for __index // obj is the object pointer int luabind::detail::class_rep::lua_class_gettable(lua_State* L) { object_rep* obj = static_cast
(lua_touserdata(L, 1)); class_rep* crep = obj->crep(); #ifndef LUABIND_NO_ERROR_CHECKING if (obj->flags() & object_rep::call_super) { lua_pushstring(L, "derived class must call super on base"); lua_error(L); } #endif // we have to ignore the first argument since this may point to // a method that is not present in this class (but in a subclass) // BUG: This might catch members called "__ok\0foobar" const char* key = lua_tostring(L, 2); if (key && !std::strcmp(key, "__ok")) { class_rep* crep = obj->crep(); void* p = crep->extractor() ? crep->extractor()(obj->ptr()) : obj->ptr(); lua_pushboolean(L, p != 0); return 1; } // first look in the instance's table detail::lua_reference const& tbl = obj->get_lua_table(); assert(tbl.is_valid()); tbl.get(L); lua_pushvalue(L, 2); lua_gettable(L, -2); if (!lua_isnil(L, -1)) { lua_remove(L, -2); // remove table return 1; } lua_pop(L, 2); // then look in the class' table crep->get_table(L); lua_pushvalue(L, 2); lua_gettable(L, -2); if (!lua_isnil(L, -1)) { lua_remove(L, -2); // more table return 1; } lua_pop(L, 2); if (lua_isnil(L, 2)) { lua_pushnil(L); return 1; } std::map
::iterator j = crep->m_getters.find(key); if (j != crep->m_getters.end()) { // the name is a data member return j->second.func(L, j->second.pointer_offset); } lua_pushnil(L); return 1; } // called from the metamethod for __newindex // obj is the object pointer int luabind::detail::class_rep::lua_class_settable(lua_State* L) { object_rep* obj = static_cast
(lua_touserdata(L, 1)); class_rep* crep = obj->crep(); #ifndef LUABIND_NO_ERROR_CHECKING if (obj->flags() & object_rep::call_super) { // this block makes sure the std::string is destructed // before lua_error is called { std::string msg = "derived class '"; msg += crep->name(); msg += "'must call super on base"; lua_pushstring(L, msg.c_str()); } lua_error(L); } #endif // we have to ignore the first argument since this may point to // a method that is not present in this class (but in a subclass) // BUG: This will not work with keys with extra nulls in them const char* key = lua_tostring(L, 2); std::map
::iterator j = crep->m_setters.find(key); // if the strlen(key) is not the true length, // it means that the member-name contains // extra nulls. luabind does not support such // names as member names. So, use the lua // table as fall-back if (j == crep->m_setters.end() || std::strlen(key) != lua_strlen(L, 2)) { std::map
::iterator k = crep->m_getters.find(key); #ifndef LUABIND_NO_ERROR_CHECKING if (k != crep->m_getters.end()) { { std::string msg = "cannot set property '"; msg += crep->name(); msg += "."; msg += key; msg += "', because it's read only"; lua_pushstring(L, msg.c_str()); } lua_error(L); } #endif detail::lua_reference const& tbl = obj->get_lua_table(); assert(tbl.is_valid()); tbl.get(L); lua_replace(L, 1); lua_settable(L, 1); } else { // the name is a data member j->second.func(L, j->second.pointer_offset); } return 0; } /* stack: 1: class_rep 2: member name */ int luabind::detail::class_rep::static_class_gettable(lua_State* L) { class_rep* crep = static_cast
(lua_touserdata(L, 1)); // look in the static function table crep->get_default_table(L); lua_pushvalue(L, 2); lua_gettable(L, -2); if (!lua_isnil(L, -1)) return 1; else lua_pop(L, 2); const char* key = lua_tostring(L, 2); if (std::strlen(key) != lua_strlen(L, 2)) { lua_pushnil(L); return 1; } std::map
::const_iterator j = crep->m_static_constants.find(key); if (j != crep->m_static_constants.end()) { lua_pushnumber(L, j->second); return 1; } #ifndef LUABIND_NO_ERROR_CHECKING { std::string msg = "no static '"; msg += key; msg += "' in class '"; msg += crep->name(); msg += "'"; lua_pushstring(L, msg.c_str()); } lua_error(L); #endif lua_pushnil(L); return 1; } bool luabind::detail::is_class_rep(lua_State* L, int index) { if (lua_getmetatable(L, index) == 0) return false; lua_pushstring(L, "__luabind_classrep"); lua_gettable(L, -2); if (lua_toboolean(L, -1)) { lua_pop(L, 2); return true; } lua_pop(L, 2); return false; } void luabind::detail::finalize(lua_State* L, class_rep* crep) { if (crep->get_class_type() != class_rep::lua_class) return; // lua_pushvalue(L, -1); // copy the object ref crep->get_table(L); lua_pushstring(L, "__finalize"); lua_gettable(L, -2); lua_remove(L, -2); if (lua_isnil(L, -1)) { lua_pop(L, 1); } else { lua_pushvalue(L, -2); lua_call(L, 1, 0); } for (std::vector
::const_iterator i = crep->bases().begin(); i != crep->bases().end(); ++i) { if (i->base) finalize(L, i->base); } } void* luabind::detail::class_rep::convert_to( LUABIND_TYPE_INFO target_type , const object_rep* obj , void* target_memory) const { // TODO: since this is a member function, we don't have to use the accesor functions for // the types and the extractor assert(obj == 0 || obj->crep() == this); int steps = 0; int offset = 0; if (!(LUABIND_TYPE_INFO_EQUAL(holder_type(), target_type)) && !(LUABIND_TYPE_INFO_EQUAL(const_holder_type(), target_type))) { steps = implicit_cast(this, target_type, offset); } // should never be called with a type that can't be cast assert((steps >= 0) && "internal error, please report"); if (LUABIND_TYPE_INFO_EQUAL(target_type, holder_type())) { if (obj == 0) { // we are trying to convert nil to a holder type m_default_construct_holder(target_memory); return target_memory; } // if the type we are trying to convert to is the holder_type // it means that his crep has a holder_type (since it would have // been invalid otherwise, and T cannot be invalid). It also means // that we need no conversion, since the holder_type is what the // object points to. return obj->ptr(); } if (LUABIND_TYPE_INFO_EQUAL(target_type, const_holder_type())) { if (obj == 0) { // we are trying to convert nil to a const holder type m_default_construct_const_holder(target_memory); return target_memory; } if (obj->flags() & object_rep::constant) { // we are holding a constant return obj->ptr(); } else { // we are holding a non-constant, we need to convert it // to a const_holder. m_const_converter(obj->ptr(), target_memory); return target_memory; } } void* raw_pointer; if (has_holder()) { assert(obj); // this means that we have a holder type where the // raw-pointer needs to be extracted raw_pointer = extractor()(obj->ptr()); } else { if (obj == 0) raw_pointer = 0; else raw_pointer = obj->ptr(); } return static_cast
(raw_pointer) + offset; } void luabind::detail::class_rep::cache_operators(lua_State* L) { m_operator_cache = 0x1; for (int i = 0; i < number_of_operators; ++i) { get_table(L); lua_pushstring(L, get_operator_name(i)); lua_rawget(L, -2); if (lua_isfunction(L, -1)) m_operator_cache |= 1 << (i + 1); lua_pop(L, 2); } } bool luabind::detail::class_rep::has_operator_in_lua(lua_State* L, int id) { if ((m_operator_cache & 0x1) == 0) cache_operators(L); const int mask = 1 << (id + 1); return (m_operator_cache & mask) != 0; } // this will merge all overloads of fun into the list of // overloads in this class void luabind::detail::class_rep::add_method(luabind::detail::method_rep const& fun) { typedef std::list
methods_t; methods_t::iterator m = std::find_if( m_methods.begin() , m_methods.end() , method_name(fun.name)); if (m == m_methods.end()) { m_methods.push_back(method_rep()); m = m_methods.end(); std::advance(m, -1); m->name = fun.name; } m->crep = this; typedef std::vector
overloads_t; for (overloads_t::const_iterator j = fun.overloads().begin(); j != fun.overloads().end(); ++j) { detail::overload_rep o = *j; m->add_overload(o); } } // this function will add all the overloads in method rep to // this class' lua tables. If there already are overloads with this // name, thses will simply be appended to the overload list void luabind::detail::class_rep::register_methods(lua_State* L) { LUABIND_CHECK_STACK(L); // insert the function in the normal member table // and in the default member table m_default_table.push(L); m_table.push(L); // pops the tables detail::stack_pop pop_tables(L, 2); for (std::list
::const_iterator m = m_methods.begin(); m != m_methods.end(); ++m) { // create the function closure in m_table lua_pushstring(L, m->name); lua_pushlightuserdata(L, const_cast
((const void*)&(*m))); lua_pushboolean(L, 0); lua_pushlightuserdata(L, reinterpret_cast
(0x1337)); lua_pushcclosure(L, function_dispatcher, 3); lua_settable(L, -3); // create the function closure in m_default_table lua_pushstring(L, m->name); lua_pushlightuserdata(L, const_cast
((const void*)&(*m))); lua_pushboolean(L, 1); lua_pushlightuserdata(L, reinterpret_cast
(0x1337)); lua_pushcclosure(L, function_dispatcher, 3); lua_settable(L, -4); } } const class_rep::property_map& luabind::detail::class_rep::properties() const { return m_getters; }
class_rep.cpp
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