Question Not Clear
Your question is not clear. (a) Question fails to address issue of time zones. Are these date-times all in UTC/GMT? (b) Your example dates seem to be 3 days apart, yet your code returns only hours and minutes.
Trying to roll your own date-time calculations usually leads to trouble and frustration. See if a good date-time library can help you, such as Joda-Time or the new java.time.* classes bundled with Java 8.
ISO 8601 Duration
The international standard for date and time, ISO 8601, defines a way to work with what it calls durations. Historically, the concept has also been called periods. A duration tracks the concept of elapsed time in terms of years, months, days, hours, and minutes.
A value is represented as a string in the format of
PnYnMnDTnHnMnS. The 'P' indicates the beginning of a duration (Period) string. A 'T' indicates the time portion. Each number precedes its element designator. For example, "P3Y6M4DT12H30M5S" represents a duration of "three years, six months, four days, twelve hours, thirty minutes, and five seconds".
Joda-Time is ISO 8601 savvy, offering the Period class to represent an ISO duration. A Period can be constructed by passing an ISO duration string. Likewise, the default
toString implementation on Period outputs an ISO duration string. You could store that ISO duration string in your database. Joda-Time Period instances can be added together by calling the
Here's example code using Joda-Time 2.3 in Java 7. I sourced the two date-time strings from your question. To demonstrate addition, I add an extra 5 minutes.
Good practice dictates being explicit about time zones rather than rely on defaults. Here I use Paris, choosing so arbitrarily. You may well be using UTC/GMT (no time zone offset), in which case you may pass the pre-defined time zone
// © 2013 Basil Bourque. This source code may be used freely forever by anyone taking full responsibility for doing so.
// import org.joda.time.*;
// import org.joda.time.format.*;
DateTimeZone timeZone_Paris = DateTimeZone.forID( "Europe/Paris" ); // Or for UTC/GMT, use: DateTimeZone.UTC
DateTimeFormatter formatter = DateTimeFormat.forPattern( "dd/MM/yyyy HH:mm:ss" ).withZone( timeZone_Paris );
DateTime start = formatter.parseDateTime( "10/10/2013 11:30:10" );
DateTime stop = formatter.parseDateTime( "13/10/2013 20:55:55" );
Period period = new Period( start, stop );
DateTime now = new DateTime( timeZone_Paris );
Period period2 = new Period( now , now.plusMinutes( 5 ));
Period total = period.plus( period2 );
Dump to console…
System.out.println( "start: " + start.toString() );
System.out.println( "stop: " + stop.toString() );
System.out.println( "period: " + period.toString() );
System.out.println( "now: " + now.toString() );
System.out.println( "period2: " + period2.toString() );
System.out.println( "total: " + total.toString() );
Note how the
25M increased to
Tip: If you control those date-time strings as shown in your example code, your work will be easier if you switched to using the standard ISO 8601 format. For example:
Using the "dd/M/yyyy hh:mm:ss" format is ambiguous. No reason to use that rather than the standard format. A bonus: The standard format gives a chronological order when sorting alphabetically.