We have an application related to aviation, and specifically flights.

Times have to be stored in local, so I chose to use UTC Time + an offset, but then now I realize it is a bad choice:

By storing the timezone as an offset, I lose track of the original timezone and this has implications when dealing with daylight savings.

For example I can store a time in Alpine, UT as UTC time and a -6 offset and also a time in Phoenix, AZ as UTC time and a -6 offset.

But when daylight saving comes, the time will change in Alpine, but not in Phoenix.

So, I need to store the proper timezone and I have seen that there are also different lists with a different syntax, so I am assuming there are different standards.

In C#, what would be the best option to store a local time with the local time zone to make it work with daylight saving changes?

  • As you have too mentioned that storing local time is a bad choice , and I also agree with it. I would suggest that if you can start working changing your current program to store the UTC time zone (to have backward compatibility) you can store both UTC and local time zone value. That would you don't require to work on all the edge cases for what country has day light saving and when. You can rely on system dlls to convert the UTC value to local value based on regional settings of user. Apr 22 '18 at 11:00
  • 2
    "Times have to be stored in local". I'm really sorry for you. This right there is the gate to madness. Having to deal with daylight savings only makes the trip to madness faster. Please, take the advice of someone that have walked this road before, and for your own sanity - reconsider that approach. Apr 22 '18 at 11:05
  • The regional settings of the user are not relevant here because, in aviation, times displayed are always local to the location of the airport. The issue is that if the time is stored in UTC + Offset and the daylight saving kicks in, I can't do the correction since I don't know what zone that time belongs to if I only store an offset.
    – Thomas
    Apr 22 '18 at 11:05
  • 2
    Store them in UTC, display them in local time. Convert when needed.
    – Marvin
    Apr 22 '18 at 11:07
  • 1
    Not in aviation: if you are looking for a LA -> NY flight, the flight departure is LA time, the flight arrival is written as NY time, this is not related to the client.
    – Thomas
    Apr 22 '18 at 11:36

From the discussion in the question's comments, I understand that you are working with flight time schedules - that is, the time a future flight is intended to depart. This is indeed a case where the local time is more important than the UTC time.

Since you have the local time and location of departure (ex: 5:00 PM in Salt Lake City), then you should be storing in your database of scheduled departure times two values:

  • 17:00 - The relevant local time of the departure
  • SLC - The location where the time is relevant

If this is a specific occurrence of this flight, then you should store the date as well:

  • 2018-06-01T17:00 - The specific relevant local time of the departure
  • SLC - The location where the local time is relevent

These are the details that are contextually relevant to your business use case. Do not lose sight of them by converting them to UTC.

That said, you might consider storing them as a DateTimeOffset (2018-06-01T17:00-06:00), which makes converting to UTC trivial for a given instance. However there are two problems with this approach:

  • It cannot work with recurrences, because the offset may change.
  • Even for a single instance, the offset might change - if the government controlling the time zone decides to change their standard offset or daylight saving time rules before that occurrence takes effect. If you do take a DateTimeOffset approach, or a UTC-based approach, you must be prepared to recalculate future events in the face of such changes. (For more on this, see my blog articles: On the Timing of Time Zone Changes and Time Zone Chaos Inevitable in Egypt. There are countless other examples.)

With regards to the location - because you are working with data that is contextually applicable to the airline industry, I recommend using IATA airport codes like the SLC that I showed above. In other contexts, one might store an IANA time zones identifier like America/Denver, or a Windows time zone identifier like Mountain Standard Time.

You may find my "Airport Time Zones" gist (code and output table) useful for working with IATA airport codes. You'll have to decide how that data will flow through your system. If you are running on Windows and want to use the TimeZoneInfo class to convert times to different time zones, then use the Windows time zone IDs shown there. If you want to use the IANA time zone IDs instead, consider using Noda Time, or you can use my TimeZoneConverter library. There are several different options here, so explore them all carefully and pick ones that make sense to you.

Noda Time would be a great choice, IMHO. Not only would you get excellent time zone support, but you'd also be able to use types like LocalTime or LocalDateTime which align well with the scenarios described.

  • Well, I have to admit that this seems like it might be a better solution then what I'm suggesting. +1. One point for storing datetime in UTC is it simplifies the calculation of flight duration. I'm sure it can also be done if stored as local datetime, but it will probably be more complicated. Apr 23 '18 at 17:35
  • Indeed, by the time you get to calculating with these values, you must know the offset from UTC - which you can get through the GetUtcOffset or ConvertTime* methods on TimeZoneInfo, or through various Noda Time APIs. However, from experience with these things, I'd suggest that in the airline industry one has to be careful about calculating the flight duration. Instead, decide whether the departure time or the arrival time is authoritative, and apply the known flight duration to achieve the other. In other words, departure + duration = arrival, not arrival - departure = duration. Apr 23 '18 at 17:49
  • Consider also the references I gave in the fifth update at the bottom of my blog about the Egypt time zone changes in 2016. Emirates Airlines flight 926 left an hour early stranding 18 passengers. Being a Dubai owned airline, they considered their arrival time to be more important, and did the math as arrival - duration = departure. Since Egypt had modified their time zone DST rules at the last minute, the Dubai-based airline couldn't update their schedule in time. Apr 23 '18 at 17:54
  • Egyptian Air flights that day departed on time, but arrived an hour later than expected. For either, online sites that had the old data and did arrival - departure = duration ended up calculating the flight time an hour short. Apr 23 '18 at 17:54
  • I often find it funny how regular math rules don't apply in real life... I have to admit that my advice is more general, as I have never worked on anything related to airline traffic (I did work on some international systems that takes data from many different sources all over the globe and had to synchronize all that salad into a well formed single framework though - and that's when UTC saved my sanity). Anyway, as I wrote in my previous comment, I think your answer is better than mine on this question. Apr 23 '18 at 17:55

As I wrote in my comment, do not store local dates. Instead, store datetime values as UTC, and convert to local datetime when you need to display it.
You can use the ConvertTimeFromUtc method of the TimeZoneInfo class for that.

This means you will have to also keep a list of locations and whatever TimeZoneInfo they are associated in - For example,
Jerusalem would be associated with Israel Standard Time,
Rome with W. Europe Standard Time,
Hawaii with Hawaiian Standard Time
and so on. (I'll bet you can find such a list online somewhere.)
Please note that the ConvertTimeFromUtc method handles the daylight savings problem for you as well.

Then you can do something like this to get the local time by location:

DateTime GetLocalDateByCityName(DateTime utc, string cityName)
    var timeZoneInfoId = GetTimeZoneInfoIdByCityName(string cityName);
    return TimeZoneInfo.ConvertTimeFromUtc(utc, TimeZoneInfo.FindSystemTimeZoneById(timeZoneInfoId);

And of course, in GetTimeZoneInfoIdByCityName you get the TimeZoneInfoId for the specific city.

  • Let me give that a try; I need to check how extensive the city list is
    – Thomas
    Apr 22 '18 at 12:04
  • And as Marvin wrote in his comment, there are websites dedicated to dealing with the timezone problem, Perhaps you can use a 3rd party API for that. Apr 22 '18 at 12:06
  • 1
    I was looking at NodaTime, as it seems like it could be helping in my situation.
    – Thomas
    Apr 22 '18 at 12:08
  • Perhaps; I have no experience with NodaTime but I've been reading good things about it. Apr 22 '18 at 12:09
  • Noda Time would allow you to use standard IANA time zone identifiers, such as "America/Los_Angeles" or "Asia/Jerusalem". See "Time Zone Databases" in the timezone tag wiki for more details. Apr 23 '18 at 16:51

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.