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SqMod/source/Misc/Tasks.hpp
Sandu Liviu Catalin f300e7ff4a Massive code reduction in the binding utility by using variadic templates.
Extensive code refactoring surrounding the StackStrF helper to facilitate the new changes.
Various other miscellaneous changes and code refactoring to facilitate the new changes.
2018-07-30 00:58:27 +03:00

528 lines
18 KiB
C++

#ifndef _TASKS_HPP_
#define _TASKS_HPP_
// ------------------------------------------------------------------------------------------------
#include "Base/Shared.hpp"
// ------------------------------------------------------------------------------------------------
namespace SqMod {
/* ------------------------------------------------------------------------------------------------
* Execute callbacks for specific entities after specific intervals of time.
*/
class Tasks
{
public:
/* --------------------------------------------------------------------------------------------
* Simplify future changes to a single point of change.
*/
typedef Int64 Time;
typedef SQInteger Interval;
typedef Uint32 Iterator;
typedef LightObj Argument;
private:
/* --------------------------------------------------------------------------------------------
* Structure that represents a task and keeps track of the task information.
*/
struct Task
{
// ----------------------------------------------------------------------------------------
SQHash mHash; // The hash of the referenced function object.
String mTag; // An arbitrary string which represents the tag.
LightObj mSelf; // A reference to `this`as a script object.
LightObj mFunc; // A reference to the managed function object.
LightObj mInst; // A reference to the associated entity object.
LightObj mData; // A reference to the arbitrary data associated with this instance.
Iterator mIterations; // Number of iterations before self destruct.
Interval mInterval; // Interval between task invocations.
Int16 mEntity; // The identifier of the entity to which is belongs.
Uint8 mType; // The type of the entity to which is belongs.
Uint8 mArgc; // The number of arguments that the task must forward.
Argument mArgv[8]; // The arguments that the task must forward.
/* ----------------------------------------------------------------------------------------
* Default constructor.
*/
Task()
: mHash(0)
, mTag()
, mSelf()
, mFunc()
, mInst()
, mData()
, mIterations(0)
, mInterval(0)
, mEntity(-1)
, mType(-1)
, mArgc(0)
, mArgv()
{
/* ... */
}
/* ----------------------------------------------------------------------------------------
* Copy constructor. (disabled)
*/
Task(const Task & o) = delete;
/* ----------------------------------------------------------------------------------------
* Move constructor. (disabled)
*/
Task(Task && o) = delete;
/* ----------------------------------------------------------------------------------------
* Release managed script resources.
*/
~Task()
{
Terminate();
}
/* ----------------------------------------------------------------------------------------
* Copy assignment operator. (disabled)
*/
Task & operator = (const Task & o) = delete;
/* ----------------------------------------------------------------------------------------
* Move assignment operator. (disabled)
*/
Task & operator = (Task && o) = delete;
/* ----------------------------------------------------------------------------------------
* Used by the script engine to convert an instance of this type to a string.
*/
const String & ToString() const
{
return mTag;
}
/* ----------------------------------------------------------------------------------------
* Initializes the task parameters. (assumes previous values are already released)
*/
void Init(HSQOBJECT & inst, HSQOBJECT & func, Interval intrv, Iterator itr, Int32 id, Int32 type);
/* ----------------------------------------------------------------------------------------
* Release managed script resources.
*/
void Release();
/* ----------------------------------------------------------------------------------------
* Execute the managed task.
*/
Interval Execute();
/* ----------------------------------------------------------------------------------------
* Clear the arguments.
*/
void Clear()
{
// Now release the arguments
for (auto & a : mArgv)
{
a.Release();
}
// Reset the counter
mArgc = 0;
}
/* ----------------------------------------------------------------------------------------
* Terminate the task.
*/
void Terminate()
{
Release();
Clear();
}
/* ----------------------------------------------------------------------------------------
* Retrieve the associated user tag.
*/
const String & GetTag() const
{
return mTag;
}
/* ----------------------------------------------------------------------------------------
* Modify the associated user tag.
*/
void SetTag(const StackStrF & tag)
{
mTag.assign(tag.mPtr, ClampMin(tag.mLen, 0));
}
/* ----------------------------------------------------------------------------------------
* Retrieve the instance to entity instance.
*/
const LightObj & GetInst() const
{
return mInst;
}
/* ----------------------------------------------------------------------------------------
* Retrieve the function object.
*/
const LightObj & GetFunc() const
{
return mFunc;
}
/* ----------------------------------------------------------------------------------------
* Modify the function object.
*/
void SetFunc(const Function & func)
{
// Validate the specified
if (!sq_isclosure(func.GetFunc()) && !sq_isnativeclosure(func.GetFunc()))
{
STHROWF("Invalid callback type %s", SqTypeName(mFunc.GetType()));
}
// Grab the virtual machine once
HSQUIRRELVM vm = DefaultVM::Get();
// Remember the current stack size
const StackGuard sg(vm);
// Push the callback on the stack
sq_pushobject(vm, func.GetFunc());
// Grab the hash of the callback object
mHash = sq_gethash(vm, -1);
// Now store the function without the environment
mFunc = LightObj(func.GetFunc());
}
/* ----------------------------------------------------------------------------------------
* Retrieve the arbitrary user data object.
*/
const LightObj & GetData() const
{
return mData;
}
/* ----------------------------------------------------------------------------------------
* Modify the arbitrary user data object.
*/
void SetData(const LightObj & data)
{
mData = data;
}
/* ----------------------------------------------------------------------------------------
* Retrieve the execution interval.
*/
SQInteger GetInterval() const
{
return ConvTo< SQInteger >::From(mInterval);
}
/* ----------------------------------------------------------------------------------------
* Modify the execution interval.
*/
void SetInterval(SQInteger itr)
{
mInterval = ClampMin(ConvTo< Interval >::From(itr), static_cast< Interval >(0));
}
/* ----------------------------------------------------------------------------------------
* Retrieve the number of iterations.
*/
SQInteger GetIterations() const
{
return ConvTo< SQInteger >::From(mIterations);
}
/* ----------------------------------------------------------------------------------------
* Modify the number of iterations.
*/
void SetIterations(SQInteger itr)
{
mIterations = ConvTo< Iterator >::From(itr);
}
/* ----------------------------------------------------------------------------------------
* Retrieve the number of arguments to be forwarded.
*/
SQInteger GetArguments() const
{
return ConvTo< SQInteger >::From(mArgc);
}
/* ----------------------------------------------------------------------------------------
* Retrieve a certain argument.
*/
const Argument & GetArgument(SQInteger arg) const
{
constexpr Uint32 argvn = (sizeof(mArgv) / sizeof(mArgv[0]));
// Cast the index to the proper value
Uint8 idx = ConvTo< Uint8 >::From(arg);
// Validate the specified index
if (idx >= argvn)
{
STHROWF("The specified index is out of range: %u >= %u", idx, argvn);
}
// Return the requested argument
return mArgv[idx];
}
};
// --------------------------------------------------------------------------------------------
static Time s_Last; // Last time point.
static Time s_Prev; // Previous time point.
static Interval s_Intervals[SQMOD_MAX_TASKS]; // List of intervals to be processed.
static Task s_Tasks[SQMOD_MAX_TASKS]; // List of tasks to be executed.
/* --------------------------------------------------------------------------------------------
* Default constructor. (disabled)
*/
Tasks() = delete;
/* --------------------------------------------------------------------------------------------
* Copy constructor. (disabled)
*/
Tasks(const Tasks & o) = delete;
/* --------------------------------------------------------------------------------------------
* Move constructor. (disabled)
*/
Tasks(Tasks && o) = delete;
/* --------------------------------------------------------------------------------------------
* Destructor. (disabled)
*/
~Tasks() = delete;
/* --------------------------------------------------------------------------------------------
* Copy assignment operator. (disabled)
*/
Tasks & operator = (const Tasks & o) = delete;
/* --------------------------------------------------------------------------------------------
* Move assignment operator. (disabled)
*/
Tasks & operator = (Tasks && o) = delete;
public:
/* --------------------------------------------------------------------------------------------
* Process all active tasks and update elapsed time.
*/
static void Process();
/* --------------------------------------------------------------------------------------------
* Initialize all resources and prepare for startup.
*/
static void Initialize();
/* --------------------------------------------------------------------------------------------
* Register the task class.
*/
static void Register(HSQUIRRELVM vm);
/* --------------------------------------------------------------------------------------------
* Release all resources and prepare for shutdown.
*/
static void Deinitialize();
protected:
/* --------------------------------------------------------------------------------------------
* Retrieve the instance of the specified entity.
*/
static LightObj & FindEntity(Int32 id, Int32 type);
/* --------------------------------------------------------------------------------------------
* Find an unoccupied task slot.
*/
static SQInteger FindUnused();
/* --------------------------------------------------------------------------------------------
* Locate the first task with the specified parameters.
*/
static SQInteger Find(Int32 id, Int32 type, SQInteger & pos, HSQUIRRELVM vm);
/* --------------------------------------------------------------------------------------------
* Attempt to create a task with the specified parameters.
*/
static SQInteger Create(Int32 id, Int32 type, HSQUIRRELVM vm);
/* --------------------------------------------------------------------------------------------
* Attempt to remove the task with the specified parameters.
*/
static SQInteger Remove(Int32 id, Int32 type, HSQUIRRELVM vm);
/* --------------------------------------------------------------------------------------------
* See if a task with the specified parameters exists.
*/
static SQInteger Exists(Int32 id, Int32 type, HSQUIRRELVM vm);
/* --------------------------------------------------------------------------------------------
* Cleanup all tasks associated with the specified entity.
*/
static const Task & FindByTag(Int32 id, Int32 type, const StackStrF & tag);
public:
/* --------------------------------------------------------------------------------------------
* Retrieve the number of used tasks slots.
*/
static SQInteger GetUsed()
{
SQInteger n = 0;
// Iterate task list
for (const auto & t : s_Tasks)
{
if (VALID_ENTITY(t.mEntity))
{
++n;
}
}
// Return the final count
return n;
}
/* --------------------------------------------------------------------------------------------
* Cleanup all tasks associated with the specified entity.
*/
static void Cleanup(Int32 id, Int32 type);
/* --------------------------------------------------------------------------------------------
* Forwards calls to create tasks.
*/
template < typename Entity, Int32 Type > static SQInteger MakeTask(HSQUIRRELVM vm)
{
// The entity instance
const Entity * inst = nullptr;
// Attempt to extract the instance
try
{
// Fetch the instance from the stack
inst = Var< const Entity * >(vm, 1).value;
// Do we have a valid instance?
if (!inst)
{
STHROWF("Invalid entity instance");
}
// Validate the actual entity instance
inst->Validate();
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Forward the call and return the result
return Create(inst->GetID(), Type, vm);
}
/* --------------------------------------------------------------------------------------------
* Forwards calls to remove tasks.
*/
template < typename Entity, Int32 Type > static SQInteger DropTask(HSQUIRRELVM vm)
{
// The entity instance
const Entity * inst = nullptr;
// Attempt to extract the instance
try
{
// Fetch the instance from the stack
inst = Var< const Entity * >(vm, 1).value;
// Do we have a valid instance?
if (!inst)
{
STHROWF("Invalid entity instance");
}
// Validate the actual entity instance
inst->Validate();
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Forward the call and return the result
return Remove(inst->GetID(), Type, vm);
}
/* --------------------------------------------------------------------------------------------
* Forwards calls to check tasks.
*/
template < typename Entity, Int32 Type > static SQInteger DoesTask(HSQUIRRELVM vm)
{
// The entity instance
const Entity * inst = nullptr;
// Attempt to extract the instance
try
{
// Fetch the instance from the stack
inst = Var< const Entity * >(vm, 1).value;
// Do we have a valid instance?
if (!inst)
{
STHROWF("Invalid entity instance");
}
// Validate the actual entity instance
inst->Validate();
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Forward the call and return the result
return Exists(inst->GetID(), Type, vm);
}
/* --------------------------------------------------------------------------------------------
* Forwards calls to find tasks.
*/
template < typename Entity, Int32 Type > static SQInteger FindTask(HSQUIRRELVM vm)
{
// Was the tag string specified?
if (sq_gettop(vm) <= 1)
{
return sq_throwerror(vm, "Missing tag string");
}
// The entity instance
const Entity * inst = nullptr;
// Attempt to extract the instance
try
{
// Fetch the instance from the stack
inst = Var< const Entity * >(vm, 1).value;
// Do we have a valid instance?
if (!inst)
{
STHROWF("Invalid entity instance");
}
// Validate the actual entity instance
inst->Validate();
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Attempt to generate the string value
StackStrF tag(vm, 2);
// Have we failed to retrieve the string?
if (SQ_FAILED(tag.Proc(true)))
{
return tag.mRes; // Propagate the error!
}
// Attempt to find the specified task
try
{
// Perform the search
const Task & task = FindByTag(inst->GetID(), Type, tag);
// Now push the instance on the stack
sq_pushobject(vm, task.mSelf.mObj);
}
catch (const Sqrat::Exception & e)
{
return sq_throwerror(vm, e.what());
}
// Specify that this function returns a value
return 1;
}
};
} // Namespace:: SqMod
#endif // _TASKS_HPP_