Your second example is exactly how you would do this. It is intentionally verbose. See Noda Time's design philosophy.
Think of it in three parts:
Get the current moment in time:
Instant now = SystemClock.Instance.Now;
Get the system's time zone. (This is the preferred syntax)
DateTimeZone tz = DateTimeZoneProviders.Bcl.GetSystemDefault();
Apply the time zone to the instant:
ZonedDateTime zdt = now.InZone(tz);
Your last step of getting a
LocalDateTime is trivial, but recognize that when you do it, you are stripping away any time zone information. "Local" in NodaTime does not mean "local to the computer where the code is running". (In other words, it's not like
Additional things to think about:
You may prefer to abstract the clock using the
IClock clock = SystemClock.Instance;
Instant now = clock.Now;
Then you could pass the clock in as a method parameter, or inject it with your favorite DI/IoC framework. (Autofac, Ninject, StructureMap, whatever...). The advantage is then you could use a
NodaTime.Testing.FakeClock during your unit tests. See Unit Testing with Noda Time for more details.
You might also prefer to pass in the
DateTimeZone so you can run your code anywhere without being tied to the system time zone. This is important for server applications, but less so for desktop/mobile apps.
If you have other work that's using IANA time zones, then change step 2 to use that provider:
DateTimeZone tz = DateTimeZoneProviders.Tzdb.GetSystemDefault();
The TZDB zones are much more accurate than the BCL zones. Noda Time will map your system's Windows (BCL) time zone to an IANA (TZDB) time zone in this initial call.
If you have curiosity into why
DateTime.Now is so compact while Noda Time is so verbose, try decompiling
DateTime.Now or looking at the MS reference sources. You'll see that it's doing essentially the same steps under the hood.