// ------------------------------------------------------------------------------------------------ #include "Routine.hpp" #include "Library/Chrono.hpp" // ------------------------------------------------------------------------------------------------ #include #include #include // ------------------------------------------------------------------------------------------------ #include // ------------------------------------------------------------------------------------------------ namespace SqMod { // ------------------------------------------------------------------------------------------------ SQMODE_DECL_TYPENAME(Typename, _SC("SqRoutineBase")) // ------------------------------------------------------------------------------------------------ Routine::Time Routine::s_Last = 0; Routine::Time Routine::s_Prev = 0; Routine::Interval Routine::s_Intervals[SQMOD_MAX_ROUTINES]; Routine::Instance Routine::s_Instances[SQMOD_MAX_ROUTINES]; // ------------------------------------------------------------------------------------------------ void Routine::Process() { // Is this the first call? if (s_Last == 0) { s_Last = Chrono::GetCurrentSysTime(); // We'll do it text time return; } // Backup the last known time-stamp s_Prev = s_Last; // Get the current time-stamp s_Last = Chrono::GetCurrentSysTime(); // Calculate the elapsed time const Int32 delta = Int32((s_Last - s_Prev) / 1000L); // Process all active routines for (Interval * itr = s_Intervals; itr != (s_Intervals + SQMOD_MAX_ROUTINES); ++itr) { // Is this routine valid? if (*itr) { // Decrease the elapsed time (*itr) -= delta; // Have we completed the routine interval? if ((*itr) <= 0) { // Execute and reset the elapsed time (*itr) = s_Instances[itr - s_Intervals].Execute(); } } } } // ------------------------------------------------------------------------------------------------ void Routine::Initialize() { std::memset(s_Intervals, 0, sizeof(s_Intervals)); } // ------------------------------------------------------------------------------------------------ void Routine::Deinitialize() { // Release any script resources that the routines might store for (auto & r : s_Instances) { r.Terminate(); } } // ------------------------------------------------------------------------------------------------ SQInteger Routine::Create(HSQUIRRELVM vm) { // Locate the identifier of a free slot const SQInteger slot = FindUnused(); // See if we have where to store this routine if (slot < 0) { return sq_throwerror(vm, "Reached the maximum number of active routines"); } // Grab the top of the stack const SQInteger top = sq_gettop(vm); // See if too many arguments were specified if (top >= 20) /* 5 base + 14 parameters = 19 */ { return sq_throwerror(vm, "Too many parameters specified"); } // Was there was an environment specified? else if (top <= 1) { return sq_throwerror(vm, "Missing routine environment"); } // Was there was a callback specified? else if (top <= 2) { return sq_throwerror(vm, "Missing routine callback"); } // Validate the callback type else if (sq_gettype(vm, 3) != OT_CLOSURE && sq_gettype(vm, 3) != OT_NATIVECLOSURE) { return sq_throwerror(vm, "Invalid callback type"); } SQRESULT res = SQ_OK; // Prepare an object for the environment HSQOBJECT env; // Is the specified environment a null value? if (sq_gettype(vm, 2) == OT_NULL) { // Preserve the stack state const StackGuard sg(vm); // Push the root table on the stack sq_pushroottable(vm); // Attempt to retrieve the table object res = sq_getstackobj(vm, -1, &env); } else { sq_getstackobj(vm, 2, &env); // Just retrieve the specified environment } // Validate the result if (SQ_FAILED(res)) { return res; // Propagate the error } // Prepare an object for the function HSQOBJECT func; // Fetch the specified callback object res = sq_getstackobj(vm, 3, &func); // Validate the result if (SQ_FAILED(res)) { return res; // Propagate the error } // The number of iterations and interval to execute the routine SQInteger intrv = 0, itr = 0; // Was there an interval specified? if (top > 3) { // Grab the interval from the stack res = sq_getinteger(vm, 4, &intrv); // Validate the result if (SQ_FAILED(res)) { return res; // Propagate the error } } // Was there a number of iterations specified? if (top > 4) { // Grab the iterations from the stack res = sq_getinteger(vm, 5, &itr); // Validate the result if (SQ_FAILED(res)) { return res; // Propagate the error } } // Attempt to create a routine instance try { ClassType< Routine >::PushInstance(vm, new Routine()); } catch (const Sqrat::Exception & e) { return sq_throwerror(vm, "Unable to create the routine instance"); } // Prepare an object for the routine HSQOBJECT obj; // Fetch the created routine object res = sq_getstackobj(vm, -1, &obj); // Validate the result if (SQ_FAILED(res)) { return res; // Propagate the error } // At this point we can grab a reference to our slot Instance & inst = s_Instances[slot]; // Were there any arguments specified? if (top > 5) { // Grab a pointer to the arguments array Argument * args = inst.mArgv; // Reset the argument counter inst.mArgc = 0; // Grab the specified arguments from the stack for (SQInteger i = 6; i <= top; ++i) { res = sq_getstackobj(vm, i, &(args[inst.mArgc].mObj)); // Validate the result if (SQ_FAILED(res)) { // Clear previous arguments inst.Clear(); // Propagate the error return res; } // Keep a strong reference to the argument sq_addref(vm, &(args[inst.mArgc].mObj)); // Increase the argument counter ++inst.mArgc; } } // Attempt to retrieve the routine from the stack and associate it with the slot try { Var< Routine * >(vm, -1).value->m_Slot = ConvTo< Uint32 >::From(slot); } catch (const Sqrat::Exception & e) { // Clear extracted arguments inst.Clear(); // Now it's safe to throw the error return sq_throwerror(vm, "Unable to create the routine instance"); } // Alright, at this point we can initialize the slot inst.Init(env, func, obj, intrv, itr); // Now initialize the timer s_Intervals[slot] = intrv; // We have the created routine on the stack, so let's return it return 1; } /* ------------------------------------------------------------------------------------------------ * Forward the call to process routines. */ void ProcessRoutines() { Routine::Process(); } /* ------------------------------------------------------------------------------------------------ * Forward the call to initialize routines. */ void InitializeRoutines() { Routine::Initialize(); } /* ------------------------------------------------------------------------------------------------ * Forward the call to terminate routines. */ void TerminateRoutines() { Routine::Deinitialize(); } // ================================================================================================ void Register_Routine(HSQUIRRELVM vm) { RootTable(vm).Bind(Typename::Str, Class< Routine, NoConstructor< Routine > >(vm, Typename::Str) // Meta-methods .SquirrelFunc(_SC("_typename"), &Typename::Fn) .Func(_SC("_tostring"), &Routine::ToString) // Properties .Prop(_SC("Tag"), &Routine::GetTag, &Routine::SetTag) .Prop(_SC("Env"), &Routine::GetEnv, &Routine::SetEnv) .Prop(_SC("Func"), &Routine::GetFunc, &Routine::SetFunc) .Prop(_SC("Data"), &Routine::GetData, &Routine::SetData) .Prop(_SC("Interval"), &Routine::GetInterval, &Routine::SetInterval) .Prop(_SC("Iterations"), &Routine::GetIterations, &Routine::SetIterations) .Prop(_SC("Suspended"), &Routine::GetSuspended, &Routine::SetSuspended) .Prop(_SC("Quiet"), &Routine::GetQuiet, &Routine::SetQuiet) .Prop(_SC("Endure"), &Routine::GetEndure, &Routine::SetEndure) .Prop(_SC("Arguments"), &Routine::GetArguments) // Member Methods .FmtFunc(_SC("SetTag"), &Routine::SetTag) .Func(_SC("Terminate"), &Routine::Terminate) .Func(_SC("GetArgument"), &Routine::GetArgument) ); // Global functions RootTable(vm).SquirrelFunc(_SC("SqRoutine"), &Routine::Create); RootTable(vm).FmtFunc(_SC("SqFindRoutineByTag"), &Routine::FindByTag); } } // Namespace:: SqMod