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I was presented with an intriguing problem in c# that I am not sure how to do.

I need to have two tracks playing on top one another. A constant number of beeps need to be played over a set amount of time. One of them will have a set interval( think metronome), but the other needs to be played at random intervals.

I am not sure how to solve that second issue, a set number of beeps played at random intervals over a set amount of time.

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Just take that set amount of time, T. Represent it as some sufficiently-fine-grained structure, say milliseconds. If you need to make N beeps, you need to split the timespan N times. So make a loop that runs N times and in each iteration, selects a random location in the time interval for a beep. Depending on what you are doing with the data after that, you may need to sort the beep points.

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You may also want to verify that you have not selected the same point twice. – Fantius Oct 31 '11 at 20:58
    
The beeps here are the division points, not the chunks, so for N beeps, you'll need N random locations in the time interval. This will result in N + 1 chunks, of course. – phoog Oct 31 '11 at 20:59
    
The OP may also want to insure that beeps are not closer in time than a certain minimum span. For example, if the beep itself requires 500 ms to sound, it may be necessary to keep the beeps at least half a second apart from one another. – phoog Oct 31 '11 at 21:01
    
@phoog: Yeah. I'll edit my post to correct that unclearness. – Fantius Nov 3 '11 at 22:59

Use random number generate to generate a datetime within the the range of the total amount of time. When you are done placing the random beeps then the intervals will of course be random. Something like this:

    List<DateTime> randomBeeps = new List<DateTime>();

    Random rand = new Random();
    for( int j = 0; j < numberBeepsNeeded; j++ )
    {
         int randInt = rand.Next();
         double percent = ((double)randInt) / Int32.MaxValue;
         double randTicksOfTotal = ((double)setAmountOfTime.Ticks) * percent;
         DateTime randomBeep = new DateTime((long)randTicksOfTotal);
         randomBeeps.Add(randomBeep);
    }

You might need to use a Convert.ToLong or something of that sort. Not sure if it will give you an error on converting from double to long as it is rounding it, which is fine here.

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You can implement this as a series of one-shot timers. As each timer expires (or "ticks"), you play the beep and then randomly determine the duration to use for the next one-shot timer. If the duration you choose is some random number between 1 and 1000 (milliseconds), you will average one "tick" every half-second.

Edit: just for fun, I thought I'd mention that this is an old problem for behavioral psychologists running the kinds of experiments inspired by B.F. Skinner. They sometimes use a schedule of reinforcement called "Variable Interval", in which the time between reinforcements varies randomly around some predetermined average interval. See http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1404199/pdf/jeabehav00190-0145.pdf for an egg-headed discussion of the formulae involved.

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Something like this ought to do the trick (this code not tested...but it compiles clean)

using System;
using System.Security.Cryptography;
using System.Threading;

class BeatBox : IDisposable
{
    private RandomNumberGenerator RNG;

    private DateTime dtStarted;
    private TimeSpan TimeElapsed { get { return DateTime.Now - dtStarted; } }

    private TimeSpan  Duration;
    private TimeSpan  BeatInterval;
    private uint      MinRandomInterval;
    private uint      MaxRandomInterval;
    private uint      RandomIntervalDomain;

    private Timer     RegularIntervalTimer;
    private Timer     RandomIntervalTimer;

    public delegate void TickHandler( object sender , bool isRandom );
    public event TickHandler TickEvent;

    private EventWaitHandle CompletionEventWaitHandle;

    public BeatBox( TimeSpan duration , TimeSpan beatInterval , uint minRandomInterval , uint maxRandomInterval )
    {
        this.RNG = RandomNumberGenerator.Create();

        this.Duration             = duration          ;
        this.BeatInterval         = beatInterval      ;
        this.MinRandomInterval    = minRandomInterval ;
        this.MaxRandomInterval    = maxRandomInterval ;
        this.RandomIntervalDomain = ( maxRandomInterval - minRandomInterval ) + 1 ;
        this.dtStarted            = DateTime.MinValue ;

        this.RegularIntervalTimer = null ;
        this.RandomIntervalTimer  = null ;

        return;
    }

    private long NextRandomInterval()
    {
        byte[] entropy = new byte[sizeof(long)] ;

        RNG.GetBytes( entropy );

        long randomValue    = BitConverter.ToInt64( entropy , 0 ) & long.MaxValue; // ensure that its positive
        long randomoffset   = ( randomValue % this.RandomIntervalDomain );
        long randomInterval = this.MinRandomInterval + randomoffset;

        return randomInterval;
    }

    public EventWaitHandle Start()
    {
        long randomInterval = NextRandomInterval();

        this.CompletionEventWaitHandle = new ManualResetEvent( false );
        this.RegularIntervalTimer = new Timer( RegularBeat , null , BeatInterval , BeatInterval );
        this.RandomIntervalTimer = new Timer( RandomBeat , null , randomInterval , Timeout.Infinite );

        return this.CompletionEventWaitHandle;
    }

    private void RegularBeat( object timer )
    {
        if ( this.TimeElapsed >= this.Duration )
        {
            MarkComplete();
        }
        else
        {
            this.TickEvent.Invoke( this , false );
        }
        return;
    }
    private void RandomBeat( object timer )
    {
        if ( this.TimeElapsed >= this.Duration )
        {
            MarkComplete();
        }
        else
        {
            this.TickEvent.Invoke( this , true );

            long nextInterval = NextRandomInterval();
            this.RandomIntervalTimer.Change( nextInterval , Timeout.Infinite );

        }
        return;
    }

    private void MarkComplete()
    {
        lock ( this.CompletionEventWaitHandle )
        {
            bool signaled = this.CompletionEventWaitHandle.WaitOne( 0 );
            if ( !signaled )
            {
                this.RegularIntervalTimer.Change( Timeout.Infinite , Timeout.Infinite );
                this.RandomIntervalTimer.Change( Timeout.Infinite , Timeout.Infinite );
                this.CompletionEventWaitHandle.Set();
            }
        }
        return;
    }

    public void Dispose()
    {
        if ( RegularIntervalTimer != null )
        {
            WaitHandle handle = new ManualResetEvent( false );
            RegularIntervalTimer.Dispose( handle );
            handle.WaitOne();
        }
        if ( RandomIntervalTimer != null )
        {
            WaitHandle handle = new ManualResetEvent( false );
            RegularIntervalTimer.Dispose( handle );
            handle.WaitOne();
        }
        return;
    }
}

class Program
{
    static void Main( string[] args )
    {
        TimeSpan duration          = new TimeSpan( 0 , 5 , 0 ); // run for 5 minutes total
        TimeSpan beatInterval      = new TimeSpan( 0 , 0 , 1 ); // regular beats every 1 second
        uint     minRandomInterval = 5; // minimum random interval is 5ms
        uint     maxRandomInterval = 30; // maximum random interval is 30ms

        using ( BeatBox beatBox = new BeatBox( duration , beatInterval , minRandomInterval , maxRandomInterval ) )
        {
            beatBox.TickEvent += TickHandler;

            EventWaitHandle completionHandle = beatBox.Start();

            completionHandle.WaitOne();

        }
        return;
    }

    static void TickHandler( object sender , bool isRandom )
    {
        Console.WriteLine( isRandom ? "Random Beep!" : "Beep!" );
        return;
    }
}
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