// // SqratOverloadMethods: Overload Methods // // // Copyright (c) 2009 Brandon Jones // // This software is provided 'as-is', without any express or implied // warranty. In no event will the authors be held liable for any damages // arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it // freely, subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; you must not // claim that you wrote the original software. If you use this software // in a product, an acknowledgment in the product documentation would be // appreciated but is not required. // // 2. Altered source versions must be plainly marked as such, and must not be // misrepresented as being the original software. // // 3. This notice may not be removed or altered from any source // distribution. // #pragma once #include #include "sqratTypes.h" #include "sqratUtil.h" #include "sqratGlobalMethods.h" #include "sqratMemberMethods.h" namespace Sqrat { /// @cond DEV // // Overload name generator // class SqOverloadName { public: static void Get(const SQChar* name, int args, string & out) { SQChar buf[16] = {'_', 'o'}; unsigned l = I32ToA(args, &buf[2]); out.append(buf, l+2); out.push_back('_'); out.append(name); } static string Get(const SQChar* name, int args) { string out; out.reserve(15); Get(name, args, out); return out; } }; // // Don't include the overloaded call forwarder into the templated class // to avoid duplicating code that doesn't need to be specialized. // inline SQInteger OverloadExecutionForwarder(HSQUIRRELVM vm) { const SQInteger top = sq_gettop(vm); // Get the argument count const int argCount = static_cast(top - 2); // Subtract environment and base name in free variable^ const SQChar* funcName; SQInteger funcNameSize; // Get the un-mangled function name (free variable) sq_getstringandsize(vm, -1, &funcName, &funcNameSize); // Generate the overload mangled name string overloadName; overloadName.reserve(static_cast< size_t >(funcNameSize)+5); SqOverloadName::Get(funcName, argCount, overloadName); // Pop the un-mangled closure name from the stack so we can replace it later sq_poptop(vm); // `funcName` becomes invalid after this // Push the overload mangled name on the stack sq_pushstring(vm, overloadName.c_str(), static_cast(overloadName.size())); // Lookup the proper overload and get it on the stack #if !defined (SCRAT_NO_ERROR_CHECKING) if (SQ_FAILED(sq_get(vm, 1))) { sq_settop(vm, top); // keep the stack size intact return sq_throwerror(vm, _SC("wrong number of parameters")); } #else sq_get(vm, 1); #endif SQFUNCTION f = nullptr; // Get the native closure pointer that we must invoke SQRESULT res = sq_getnativeclosurepointer(vm, -1, &f); if (SQ_FAILED(res)) { return res; // Make sure a native closure pointer is available } else if (!f) { return sq_throwerror(vm, _SC("unable to acquire the proper overload closure")); } // Attempt to get the free variable containing the native closure pointer on the stack sq_getonefreevariable(vm, 0); // This is simply a hack to implement a direct call and gain some performance // Since both closures expect a free variable we simply replace the free variable // containing closure name with the free variable containing the closure pointer sq_settop(vm, top); // keep the stack size intact before invoking the overload // Perform a direct call and return the result back to the caller return f(vm); } // // Don't include the overloaded call forwarder into the templated class // to avoid duplicating code that doesn't need to be specialized. // inline SQInteger OverloadConstructionForwarder(HSQUIRRELVM vm) { const SQInteger top = sq_gettop(vm); // Get the argument count const int argCount = static_cast(top - 2); // Subtract environment and base name in free variable^ const SQChar* funcName; SQInteger funcNameSize; // Get the un-mangled function name (free variable) sq_getstringandsize(vm, -1, &funcName, &funcNameSize); // Generate the overload mangled name string overloadName; overloadName.reserve(static_cast< size_t >(funcNameSize)+5); SqOverloadName::Get(funcName, argCount, overloadName); // Push the overload mangled name on the stack sq_pushstring(vm, overloadName.c_str(), static_cast(overloadName.size())); // Lookup the proper overload and get it on the stack #if !defined (SCRAT_NO_ERROR_CHECKING) if (SQ_FAILED(sq_get(vm, 1))) { sq_settop(vm, top); // keep the stack size intact return sq_throwerrorf(vm, _SC("wrong number of parameters. no such constructor overload: `%s`"), overloadName.data()); } #else sq_get(vm, 1); #endif SQFUNCTION f = nullptr; // Get the native closure pointer that we must invoke SQRESULT res = sq_getnativeclosurepointer(vm, -1, &f); if (SQ_FAILED(res)) { return res; // Make sure a native closure pointer is available } else if (!f) { return sq_throwerror(vm, _SC("unable to acquire the proper overload closure")); } // Restore the stack size by removing the overload closure object sq_poptop(vm); // Pop the un-mangled closure name from the stack // The constructor doesn't expect any free variables //sq_poptop(vm); // `funcName` becomes invalid after this // Perform a direct call and store the result SQRESULT r = f(vm); // Keep the stack size intact before leaving sq_settop(vm, top); // Return the result back to the caller return r; } // // Squirrel Overload Functions // template class SqOverload { public: static SQInteger Func(HSQUIRRELVM vm) { return OverloadExecutionForwarder(vm); } }; // // void return specialization // template <> class SqOverload { public: static SQInteger Func(HSQUIRRELVM vm) { return OverloadExecutionForwarder(vm); } }; // Global Overloaded Function Resolver template SQFUNCTION SqGlobalOverloadedFunc(R (* /*method*/)(A...)) { return SqGlobal::template GetProxy<2, true, A...>(); } // Global Overloaded Function Resolver template SQFUNCTION SqGlobalOverloadedFunc(R& (* /*method*/)(A...)) { return SqGlobal::template GetProxy<2, true, A...>(); } // Member Global Overloaded Function Resolver template SQFUNCTION SqMemberGlobalOverloadedFunc(R (* /*method*/)(T, A...)) { return SqGlobal::template GetProxy<1, true, T, A...>(); } // Member Global Overloaded Function Resolver template SQFUNCTION SqMemberGlobalOverloadedFunc(R& (* /*method*/)(T, A...)) { return SqGlobal::template GetProxy<1, true, T, A...>(); } // Member Overloaded Function Resolver template SQFUNCTION SqMemberOverloadedFunc(R (C::* /*method*/)(A...)) { return SqMember::template GetProxy(); } // Member Overloaded Function Resolver template SQFUNCTION SqMemberOverloadedFunc(R (C::* /*method*/)(A...) const) { return SqMember::template GetProxyC(); } // Member Overloaded Function Resolver template SQFUNCTION SqMemberOverloadedFunc(R& (C::* /*method*/)(A...)) { return SqMember::template GetProxy(); } // Member Overloaded Function Resolver template SQFUNCTION SqMemberOverloadedFunc(R& (C::* /*method*/)(A...) const) { return SqMember::template GetProxyC(); } // // Overload handler resolver // template inline SQFUNCTION SqOverloadFunc(R (* /*method*/)) { return &SqOverload::Func; } template inline SQFUNCTION SqOverloadFunc(R (* /*method*/)(A...)) { return &SqOverload::Func; } template inline SQFUNCTION SqOverloadFunc(R (C::* /*method*/)) { return &SqOverload::Func; } template inline SQFUNCTION SqOverloadFunc(R (C::* /*method*/)() const ) { return &SqOverload::Func; } template inline SQFUNCTION SqOverloadFunc(R (C::* /*method*/)(A...) ) { return &SqOverload::Func; } template inline SQFUNCTION SqOverloadFunc(R (C::* /*method*/)(A...) const ) { return &SqOverload::Func; } // // Query argument count // template inline int SqGetArgCount(R (* /*method*/)(Args...)) { return sizeof...(Args); } // // Query member function argument count // template inline int SqGetArgCount(R (C::* /*method*/)(Args...)) { return sizeof...(Args); } // // Query const member function argument count // template inline int SqGetArgCount(R (C::* /*method*/)(Args...) const) { return sizeof...(Args); } /// @endcond }