Over the years, I've been working on dates and times using different computer languages. Sometimes, the date times were stored as local times, other times as UTC. There are advantages and disadvantages with both methods.
This is typical Java code that I would use when working with UTC and Java.
The following files could run in any java ide:
JUnit will need to be installed and included in the classpath in order to run the junit tests.
Add gradle dependency to handle JSONObjects
1. UtcUtils.java java class with date time methods
2. UtcUtilsTest junit tests
I'm a developer that started a while back using different programming languages.
The method for handling UTC in each language is the same.
You would imagine that using date and times would be straight forward, and it can be, but some concepts need to be understood beforehand.
For a hobby, I flew light aircraft. UTC is used as convention in the aviation industry, so I am comfortable with it.
I once went on holiday from Ireland to Spain (which is one hour ahead). It was on the weekend of time change for daylight saving time (+1 hour). One of the party asked, did Spain also have a DST time change that weekend ? and what time is it now ?
Millions of date time computer transactions happen every day, using UTC to deal with scenarios like this.
Whether you should store date and time in UTC (Coordinated Universal Time) or local time depends on your specific use case and requirements. Here are some considerations for each option:
-
UTC (Coordinated Universal Time):
- Consistency: UTC is a standardized time that doesn't observe daylight saving time or time zone changes making it consistent and reliable for international applications and databases.
- Global Operations: If the application is used across different time zones or locations, storing data in UTC can simplify time calculations and prevent confusion.
- Data Integrity: Storing data in UTC can help maintain data integrity, as local time changes due to daylight saving time transitions or changes in time zones won't affect the stored values.
-
Local Time:
- User Experience: If the application is primarily used in a specific time zone or region, storing data in local time can provide a more intuitive user experience.
- Contextual Information: In some cases, it may be important to capture the local time to provide context or details about when an event occurred in a particular location.
- Complexity Reduction: For simple applications that don't need to deal with time zone conversions, storing data in local time might be simpler.
In many cases, a hybrid approach can be beneficial. Store timestamps in UTC to ensure consistency and global compatibility, but also store the corresponding time zone information or user preferences. This allows you to display times in local time when needed, based on the user's location or preferences.
Ultimately, the choice between UTC and local time should align with your application's requirements, user base, and the potential need for internationalization. It's also important to consider how you handle time zone conversions and daylight saving time transitions when presenting the data to users or performing calculations.
The code in the Java classs is readily available on the internet. Use it as you wish.
[timeanddate][8] Website
GMT used to be the forerunner for timekeeping and was popular in the 1950's when aviation began to take off. GMT is a time zone whereas UTC is a time standard. GMT is based on astrology whereas UTC is based on international atomic time (TAI) using hundreds of atomic clocks in many countries. GMT is widely used today, but industry sectors use UTC as the preferred time choice.
UTC is now the time of choice used by the aviation industry, United Nations, NASA, the International Space Station, satellite technology, weather stations etc.
[GMT replaced by UTC, National Hurricane Center][7]: "Prior to 1972, this time was called Greenwich Mean Time (GMT) but is now referred to as Coordinated Universal Time or Universal Time Coordinated (UTC). It is a coordinated timescale, maintained by the Bureau International des Poids et Mesures (BIPM)."
There are many timezones around the world. Some have regional variations e.g. daylight saving time. This can make using times confusing.
UTC is the primary global standard, adopted by the scientific community, it's the same time everywhere, no regional variations, no daylight saving time changes. 6pm UTC in New York is 6pm UTC in Australia.
Time Zones are geographical areas of the world, delimited by longitude, that observe UTC time, but with or without a regional variation. GMT is a time zone, but not all countries in a region observe the same time and may be observing daylight saving time. Pacific, Mountain, Central and Eastern are time zones that observe daylight saving time.
Because UTC is the primary standard, databases will store dates as UTC dates, indeed some by default.
Having stored the date time as UTC, depending on the use case, displaying UTC time back to the user will not be desirable in most cases, therefore conversion back to local time will be required.
Take Local time as seen by user --> store it as UTC --> convert it back to Local time for user
Developers all over the world use UTC dates, a "data contract" or standard was made so that developers know the correct format of a UTC date time.
valid formats:
YYYY-MM-DDThh:mm:ss.SSSZ
YYYY-MM-DDThh:mm:ss.SSS+00:00
YYYY-MM-DDThh:mm:ss.SSS-00:00
[ISO 8601 global standard][2]: is the industry accepted standard used to handle the prossing of UTC formatted dates in program code.
UTC formatted dates, can come in different variations, as Z(zulu) dates or offset date times
2022-10-15T09:45:00.000Z example utc string using "z" format
YYYY-MM-DDThh:mm:ss.SSSZ break down format
2022-10-15T09:45:00.000+00:00 same utc string using offset format
YYYY-MM-DDThh:mm:ss.SSS+00:00 break down format, the offset may be negative -00:00 from -12:00 to +12:00
Most maps showing UTC will show offsets of between +12:00 to -12:00
The most advanced time in the world at +14:00 is Kiribati ,island in Oceania, Pacific Ocean
Kiribati has a zone id of Kiritimati, with a UTC+14:00 is the most advanced time zone in the world, meaning that Kiribati is one of the first countries to celebrate a New Year,
The following UTC time (or z time)
2022-10-15T09:45:00.000Z
has a local time in Kiritimati of:
2022-10-15T23:45+14:00[Pacific/Kiritimati]
YYYY = four-digit year
MM = two-digit month (01=January, etc.)
DD = two-digit day of month (01 through 31)
T = indicates that the time value is to follow
hh = two digits of hour (00 through 23) (am/pm NOT allowed)
mm = two digits of minute (00 through 59)
ss = two digits of second (00 through 59)
SSS = one or more digits representing a decimal fraction of a second
TZD = time zone designator (Z or +hh:mm or -hh:mm)
While the world operates on UTC time, displaying the UTC time back to the user in the majority of situations will not be helpful or desireable. It will need to be converted back to time zones, that may be using daylight saving time.
Converting back from UTC to local time needs a time zone and its associated offset. What is local to the developer, may not be local to where the data is stored and processed. It is not unusual for data to be stored and processed offsite, possibly in a different country. For this reason, the offset in minutes may be stored with the date time.
These are just an example of some java time zone id's, at time of writing there are 628.
America/Juneau
America/Kentucky/Louisville
America/Kentucky/Monticello
America/Knox_IN
America/Kralendijk
America/La_Paz
America/Lima
America/Los_Angeles
America/Louisville
America/Lower_Princes
America/Maceio
America/Managua
America/Manaus
America/Marigot
America/Martinique
America/Matamoros
America/Mazatlan
America/Mendoza
America/Menominee
The full list of time zones id's can be found using:
public static String[] getTimeZoneIds() { return TimeZone.getAvailableIDs(); }
With the UTC and time zone id, the local time can be derived:
UTC and Time Zone = Local Time
Often, the explicit time zone is not required or even known by the user, the system default time zone can be used. Java reads the time zone information from the device operating system to get the default.
e.g.If a web page user was prompted with, "what's your time zone id ?", they would understandably not know it in the majority of cases. To avoid explaining the concept of UTC to the user and why a zone id is required the system default time zone is used .
ZoneId zoneid = ZoneId.systemDefault();
As a developer, there may be times when specific time zone id's will be required to use local times in a different region. For example, if an airline ticket was being purchased in the US for a flight in Sydney Australia, the specific time zone of Sydney Australia would be required to print local times for Sydney on the ticket. The system default time (somewhere in the USA) could not be used as the time in Sydney, Australia is needed. Therefore, an explicit time zone id will be required:
ZoneId zoneid = ZoneId.of("Australia/Sydney");
When dealing with Java Strings, there is the potential to make typing errors e.g. Australia/Sidney. Best practice is to catch typo's which generate parsing exceptions, and deal with them. Typical catch blocks would be:
- ParseException
- DateTimeParseException
- ZoneRulesException
an example of ZoneRulesException, where Sydney is spelled incorrectly:
try {
ZoneId zoneid = ZoneId.of("Australia/Sidney");
// other code
} catch (ZoneRulesException zre) {
System.out.println("ZoneRulesException: " + zre.getMessage());
}
}
Milliseconds are often seen in time conversions.
January 1st, 1970 at 00:00:00 UTC is referred to as the Unix or Java epoch. Unix engineers picked that date arbitrarily because they needed to set a uniform date for the start of time in the Unix world.
From that date, the milliseconds will count up and be positive, prior to that date, the milliseconds will count backwards and be negative.
Instant instant = Instant.ofEpochMilli(milliseconds);
The range of an instant requires the storage of a number larger than a long. To achieve this, the class stores a long representing epoch-seconds and an int representing nanosecond-of-second, which will always be between 0 and 999,999,999. The epoch-seconds are measured from the standard Java epoch of 1970-01-01T00:00:00Z where instants after the epoch have positive values, and earlier instants have negative values. For both the epoch-second and nanosecond parts, a larger value is always later on the time-line than a smaller value.
Official documentation: Java 8 Oracle Docs [localdatetime][1]
Java [Date Time Tutorial][6]
Java Classes tables used in the tutorial
This is an example regex that I use to locate ±00:00 and 00:00Z string patterns
([-+]\d{2}:\d{2}|\d{2}:\d{2}Z)
see in action on [regex101.com][9]
The following are code snippets. The full code is available in the Java classes.
JSONObject jsonObject = new JSONObject();
jsonObject.put("name", g3);
jsonObject.put("offset", g2);
if (g2.contains("Z")) {
jsonObject.put("Zulu", true);
} else {
jsonObject.put("Zulu", false);
}
return jsonObject.toString();
an example jsonObject string:
{"offset":"09:45Z","name":"[Africa/Abidjan]","Zulu":true}
// get JSON string
String jsonString = utcUtils.getRegex_json(actualValue);
// make a JSONObject
var utcJSON = new JSONObject(jsonString);
String name = (String) utcJSON.get("name");
String offset = (String) utcJSON.get("offset");
Boolean isZuluTime = (Boolean) utcJSON.get("Zulu");
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[1]: https://docs.oracle.com/javase/8/docs/api/java/time/LocalDateTime.html "Oracle docs: Java 8 Localdatetime"
[2]: https://en.wikipedia.org/wiki/ISO_8601 "ISO 8601"
[3]: https://en.wikipedia.org/wiki/List_of_time_zones_by_country "Time Zones by country"
[4]: https://en.wikipedia.org/wiki/Coordinated_Universal_Time "Coordinated Universal Time"
[5]: https://docs.oracle.com/javase/8/docs/api/java/time/Instant.html "Java Instant"
[6]: https://docs.oracle.com/javase/tutorial/datetime/index.html "Java Tutorial"
[7]: https://www.nhc.noaa.gov/aboututc.shtml#:~:text=Prior%20to%201972%2C%20this%20time,%22%20or%20%22Zulu%20Time%22. "National Hurricane Center"
[8]: https://www.timeanddate.com/time/aboututc.html "timeanddate"
[9]: https://regex101.com/r/jdAyxT/1 "regex example"