I already search this question but unfortunately couldn't find proper answer.

I want to calculate the average of time spent on doing something in 10 different day and I have 10 datetimepicker for start time and also 10 datetimepicker for end time for each day (in total 20 datetimepicker).

now I want to get the average of time spent for work in these 10 days.

this is what I've done for calculating timespan in each day and now I don't know how to calculate average if these timespans

of course I want to know is there any shorter way to get the job done?

DateTime Dt1 = dateTimePicker1.Value;
DateTime Dt2 = dateTimePicker2.Value;
DateTime Dt20 = dateTimePicker20.Value;

TimeSpan Day1 = DateTime.Parse(Dt11.TimeOfDay.ToString()).Subtract(DateTime.Parse(Dt1.TimeOfDay.ToString()));
TimeSpan Day2 = DateTime.Parse(Dt12.TimeOfDay.ToString()).Subtract(DateTime.Parse(Dt2.TimeOfDay.ToString()));

TimeSpan Day10 = DateTime.Parse(Dt20.TimeOfDay.ToString()).Subtract(DateTime.Parse(Dt10.TimeOfDay.ToString()));

I want to find average of Day1 to Day10

  • 7
    Well it would be a lot easier if you had an array or a List instead of 20 separate variables, to start with. (It's not clear why you're formatting TimeSpan values and then reparsing them, either.) – Jon Skeet Nov 10 '17 at 16:56
  • add them all up and divide by the number. And as skeet says - put them in an array – pm100 Nov 10 '17 at 17:00
  • 1
    I'm curious. Why did you decide to create a string just to parse it back again? I'm really interested on your motivation on that, because I see that approach all the time and it's never required, nor desirable. – Matt Johnson-Pint Nov 10 '17 at 17:04
  • Also, are you guaranteed that all pairs of values are on the same date? Or could you have a pair that spans midnight, such as two hours between 11pm and 1am? – Matt Johnson-Pint Nov 10 '17 at 17:05
  • 1
    If all DateTimes have the same Date, why strip it off? You are only interested in the differences anyway. So var MyTimeSpan = myDateTime1 - myDateTime2; seems to do the trick without TimeOfDay or ToString() (that last one is really amazingly useless but incredibly common for some reason). – oerkelens Nov 10 '17 at 17:18

Given an IEnumerable<TimeSpan> you can average them with this extension method:

public static TimeSpan Average(this IEnumerable<TimeSpan> spans) => TimeSpan.FromSeconds(spans.Select(s => s.TotalSeconds).Average());

So, convert your results to a List:

var durs = new List<TimeSpan>();


Now compute the average:

var avgDurs = durs.Average();

PS: Created an Aggregate version of @MattJohnson's answer:

public static TimeSpan Mean(this IEnumerable<TimeSpan> source) => TimeSpan.FromTicks(source.Aggregate((m: 0L, r: 0L, n: source.Count()), (tm, s) => {
        var r = tm.r + s.Ticks % tm.n;
        return (tm.m + s.Ticks / tm.n + r / tm.n, r % tm.n, tm.n);
| improve this answer | |
  • 2
    It would be better to use ticks instead of seconds, to not lose any information in the finer precision. Though probably doesn't matter in the OP's case, coming from a picker control, if one is going to keep an extension method around, one would want it to be usable in a variety of scenarios. – Matt Johnson-Pint Nov 10 '17 at 17:08
  • @MattJohnson Adding ticks can become a problem when overflowing. Seconds is a better option then. – Patrick Hofman Nov 10 '17 at 17:16
  • thanks but I get this errore: 'List<TimeSpan>' does not contain a definition for 'Average' and the best extension method overload 'Queryable.Average(IQueryable<int>)' requires a receiver of type 'IQueryable<int> – SaraniO Nov 10 '17 at 17:38
  • 2
    add this using System.Linq; – Saif Nov 10 '17 at 17:41
  • @PatrickHofman - true, but there are other averaging methods that can be used to overcome that. Though I do agree with you in this particular case. :) – Matt Johnson-Pint Nov 10 '17 at 17:46

You can find average by instantiating a new TimeSpan based on number of ticks.

    var time_spans = new List<TimeSpan>() { new TimeSpan(24, 10, 0), new TimeSpan(12, 0, 45), new TimeSpan(23, 30, 0), new TimeSpan(11, 34, 0) };

    var average = new TimeSpan(Convert.ToInt64(time_spans.Average(t => t.Ticks)));


result 17:48:41.2500000

| improve this answer | |

Just to follow up on NetMage's perfectly good answer, note that his Average extension method is using .TotalSeconds, which returns a double of whole and fractional seconds, with millisecond precision. That is probably fine if you are taking values from time-pickers, but in the general case it will result in a small loss of precision.

Additionally, the TimeSpan.FromSeconds method can overflow when dealing with large values. This can be reproduced even when not averaging:

TimeSpan.FromSeconds(TimeSpan.MaxValue.TotalSeconds)  // will throw an OverflowException

Patrick Hofman made a good point in the comments that just switching from seconds to ticks could also result in overflow, and thus another solution is needed.

Adapting the technique given in this answer, we can compute the average of a collection of TimeSpan values using an arithmetic mean approach, without loss of precision and without overflowing:

public static TimeSpan Mean(this ICollection<TimeSpan> source)
    if (source == null)
        throw new ArgumentNullException(nameof(source));

    long mean = 0L;
    long remainder = 0L;
    int n = source.Count;
    foreach (var item in source)
        long ticks = item.Ticks;
        mean += ticks / n;
        remainder += ticks % n;
        mean += remainder / n;
        remainder %= n;

    return TimeSpan.FromTicks(mean);

Use it similarly to other extension methods, such as:

TimeSpan average = mylistoftimespans.Mean();
| improve this answer | |
  • thanks what should I do for negative ticks? how could I check them and multiply them in -1 if they are negative? – SaraniO Nov 10 '17 at 18:28
  • 1
    There's no extra code needed to handle negative values. Everything here is signed. – Matt Johnson-Pint Nov 10 '17 at 18:29
  • Seems like a good time for a complicated Aggregate. BTW, why us ICollection instead of IEnumerable? – NetMage Nov 10 '17 at 18:41
  • To avoid possible two enumerations due to having to call .Count() – Matt Johnson-Pint Nov 10 '17 at 18:56
  • I created an Aggregate version over IEnumerable (not all IEnumerable implement ICollection) and interestingly Mean of (5,10,15) seconds returns a slightly bad result versus Average, though over a sample of 7 TimeSpans, Mean is more accurate. Note that TimeSpan seconds is accurate to the millisecond. – NetMage Nov 10 '17 at 19:03

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