There are myriad ways you could approach this. The first thing that comes to mind for me would be to use a Stopwatch object or a Timer object that starts on a background thread, and then write an event handler that can subscribe to the event in which you're interested. As the event occurs, your handler fires, allowing you to suspend the timer and query the time elapsed, and make your increment/reset decision accordingly.
That's merely a very rough sketch of one notion, but should give you some ideas moving forward. Good luck.
Per the comment made by @hatchet above, this almost starts to sound like a queue with "expiring" members or a "sliding window" event horizon you'd have to capture should that comment accurately reflect your problem.
EDIT Being the borderline obsessive-compulsive that I am, I gave your original problem some thought and came up with a concept that may or may not be relevant to your problem, but at least for the academic exercise I'm going to post what I did. What caught my attention in your original post was the notion of an expiring or timed variable which I thought was quite novel. Your problem specified that you want to do something specific when a given interval elapses.
I tried to abstract that idea into a generic form, thinking of a few ways such an idea might be useful. One idea that came to mind was in a game environment, where (for example) a message might only be available to the player for 20 seconds before "self-destructing." I could imagine how having the expiration "plumbing" wired into a type might prove very convenient. Another scenario could be in a CAI environment where a System.Drawing.Image should only be displayed for a fixed time, then disappear - again, a scenario where having the expiration and timing code built-in could be useful.
So, with at least that much notional practicality in mind, I set to work, and what I threw together (and I won't pretend that its comprehensive or complete) is a generic for an Expiring type, expressed as
Expiring<T>. The baseline code I've put together is as follows:
// First stab at an "expiring" type that is only valid for a set interval.
public class Expiring<T>
public delegate void ExpiredHandler(object sender, EventArgs e);
public event ExpiredHandler OnExpired;
int signaledCount = 0;
long milliseconds = 0;
bool isExpired = false;
bool exceptOnExpiredReference = true;
System.Timers.Timer lapseTimer = new System.Timers.Timer();
public Expiring(T value)
instance = value;
public virtual void TimerElapsed(object sender, System.Timers.ElapsedEventArgs args)
if (OnExpired != null)
isExpired = true;
public Expiring(T startValue, long expirationInterval, bool throwElapsedReferenceException):this(startValue)
milliseconds = expirationInterval;
lapseTimer.AutoReset = true;
lapseTimer.Interval = milliseconds;
exceptOnExpiredReference = throwElapsedReferenceException;
public void Set()
public T Value
if (!isExpired || !exceptOnExpiredReference)
throw new InvalidOperationException("Reference to an expired value.");
instance = value;
The idea here is that someone could declare an
Expiring<int>, specify its initial value, expiration time, and a value to indicate whether an attempt to access the value of an instance after the expiration interval has passed should throw an exception. When the expirationInterval passes, the OnExpired event is raised, allowing the declarer to specify a custom event handler to provide custom actions when the value expires.
If the caller wishes to reset the expiration timer, he need only call the Set() method of the object. That also increments an internal "signaledCount" value that I ultimately did not use, but was thinking of in terms of determining how many times the expiration timer has been reset. If the Value property of the object is accessed after the expiration interval passes, an InvalidOperationException is thrown with a "Value has expired" message.
This idea, unfortunately, has more notional/academic value than practical, I'm afraid. It would have a great deal more utility if it were possible to overload all the arithmetic operators to the implementations of the native value types, but I discovered quickly that C# doesn't like this notion at all (and found that out right here on a rather extensive post on the subject here on SO). Ideally, I'd love to be able to say something like:
Expired<Int32> foo = new Expired<Int32>(5,10000,true);
Expired<Int32> bar = new Expired<Int32>(10,10000,true);
Expired<Int32> baz = foo+bar; // can't make that work
There was some notion that this problem could be overcome with dynamic types, but I opted not to pursue it at this point. The idea, as I hammered it out, is offered for discussion as it applies to a generic view of the OP's "timed variable" notion. Constructive comments/criticism/refinements encouraged and welcome.