public void Change(float value)
{
time += value;
if (time <= 0)
{
time = 0;
TimeEnd?.Invoke();
}
TimeChangeEvent?.Invoke(time);
}
private bool Tick()
{
if (lockCount > 0)
{
return(false);
}
Actor actor = Queue[0];
if (actor == null)
{
return(false);
}
if (currentActorRemoved)
{
currentActorRemoved = false;
return(true);
}
while (actor.Energy > 0)
{
Profiler.BeginSample("Scheduler: Act()");
currentActor = actor;
int actionCost = actor.Act();
currentActor = null;
Profiler.EndSample();
if (currentActorRemoved)
{
currentActorRemoved = false;
return(true);
}
if (actionCost == 0)
{
UnityEngine.Debug.LogWarning(
"A command with 0 energy cost was scheduled.");
}
SendActorDebugEvent(actor);
// Handle asynchronous input by returning -1
if (actionCost < 0)
{
return(false);
}
// An action has just been done
actor.Energy -= actionCost;
ActionDoneEvent?.Invoke();
Profiler.BeginSample("Scheduler: Draw Dirty");
actor.Entity.Level.Draw(dirtyCells);
dirtyCells.Clear();
Profiler.EndSample();
Profiler.BeginSample("Scheduler: Player");
if (actor.Control == ActorControl.Player)
{
FOV.RefreshFOV(player.Entity.Level, player.Entity.Cell, true);
float speedFactor = actor.Speed / TurnTime;
turnProgress += Mathf.FloorToInt(actionCost / speedFactor);
if (turnProgress >= TurnTime)
{
int turnsPassed = turnProgress / TurnTime;
turns += turnsPassed;
turnProgress %= TurnTime;
for (int i = 0; i < turnsPassed; i++)
{
ClockTickEvent?.Invoke();
}
TimeChangeEvent?.Invoke(turns);
}
// Signals a successful player action to HUD
PlayerActionEvent?.Invoke(actor.Energy);
}
Profiler.EndSample();
// Action may have added a lock
if (lockCount > 0)
{
return(false);
}
}
// Give the actor their speed value's worth of energy back
actor.Energy += actor.Speed;
// Update HUD again to reflect refill
if (actor.Control == ActorControl.Player)
{
PlayerActionEvent?.Invoke(actor.Energy);
}
Actor dequeued = Queue[0];
Queue.RemoveAt(0);
Queue.Add(dequeued);
return(true);
}
private bool Tick()
{
if (lockCount > 0)
{
return(false);
}
Actor actor = Queue[0];
if (actor == null)
{
return(false);
}
if (currentActorRemoved)
{
currentActorRemoved = false;
return(true);
}
Profiler.BeginSample("Scheduler: Act");
if (actor.Control == ActorControl.Player)
{
currentActor = actor;
int actionCost = actor.Act();
currentActor = null;
// Handle asynchronous input by returning -1
if (actionCost < 0)
{
Profiler.EndSample();
return(false);
}
timeConsumed = actionCost;
time += timeConsumed;
TimeChangeEvent?.Invoke(time, timeConsumed);
turnProgress += Mathf.FloorToInt(actionCost);
if (turnProgress >= TurnTime)
{
int turnsPassed = turnProgress / TurnTime;
turnProgress %= TurnTime;
for (int i = 0; i < turnsPassed; i++)
{
ClockTickEvent?.Invoke();
}
}
FOV.RefreshFOV(player.Entity.Level, player.Entity.Cell, true);
}
else // TODO: Handle ActorControl.None
{
if (actor.Command == null)
{
actor.Entity.GetComponent <AI>().DecideCommand();
}
actor.Progress += timeConsumed;
if (actor.Progress >= actor.Threshold)
{
currentActor = actor;
actor.Act();
currentActor = null;
actor.Progress = 0;
}
}
Profiler.EndSample();
if (currentActorRemoved)
{
currentActorRemoved = false;
return(true);
}
SendActorDebugEvent(actor);
Profiler.BeginSample("Scheduler: Draw Dirty");
RedrawDirtyCells(actor.Entity.Level);
Profiler.EndSample();
Actor dequeued = Queue[0];
Queue.RemoveAt(0);
Queue.Add(dequeued);
return(true);
}
public void RefreshTime()
{
time = 0;
TimeChangeEvent?.Invoke(time);
}
public GameTime()
{
time = 0;
TimeChangeEvent?.Invoke(time);
}
