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With this C code:

int a = time(NULL);
_daylight = 0;
_timezone = 0;
int b = time(NULL);
assert(a != b);

"a" and "b" will have different values (and not just because they are called a few milliseconds apart). The difference will be whatever the offset of your PC's timezone is from UTC time. Also, changing the _daylight and _timezone values effect pretty much every other function I might use in my C app -- I assume because they all respect that value.

Is there anything like that in Java, or specifically for Java on Android OS? I tried TimeZone.setDefault(), but that didn't change the value that System.currentTimeMillis() returned, so I assume it isn't going to have a "global" effect like the C variables.

I understand that System.currentTimeMillis() is different than time(), in that it "always" returns the number of millis since now and epoch, and the time() function allows you to get "false" (fudged) values that are adjusted according to these global variables you can set.

Just trying to emulate a legacy C app on Android OS. It clears those _timezone and _daylight values which pretty much means it ignores any timezones. So if a user running the app on the west coast enters a time of 3pm, and then they change their timezone settings, or a user on the est coast views that item, it will still show as 3pm.

I know I can use the Calendar object and other methods to make sure I do the proper conversions, but I'd rather just have an easy "I don't care about timezones" settings like I did in the C app and then truely not have to worry about them.

Edit: I would still like to hear what other options I have, but for now I came up with this Java code that I'll do my best to always use for any code that needs to mimic the C app:

// IMPORTANT: Use this function everywhere a Calendar object is needed, instead of calling
//  Calendar.getInstance() directly.  This returns the correct kludged time that matches
//  what our PC application uses (_daylight=0, _timezone=0, time(NULL) in C)
public static Calendar GetCalendarInstance()
    // Get the current UTC time
    Calendar cal = Calendar.getInstance(TimeZone.getTimeZone("UTC"));

    // Offset it by the system time zone offset.
    //  This mimics what the C time(NULL) function does when you set _timezone=0 and _daylight=0
    cal.add(Calendar.MILLISECOND, TimeZone.getDefault().getOffset(cal.getTimeInMillis()));


Also, I did already find one place in my Android app that I need the real, not adjusted, system time (when using AlarmManager to schedule a PendingIntent). So I guess "global" could be dangerous either way. I still think 95% of my code will be using the version that mimics the C app though, so if possible I'd like to default to that and then only have to do special handling for the other few places.

share|improve this question
_timezone and _daylight aren't part of standard C. Where did those come from? – Carl Norum Jan 18 '12 at 19:29
I guess I never knew that. They must be an extension for Borland's C RTL then. They are in the Borland C RTL help file, but now that I look they say they are Win32 only, and not POSIX or ANSI C portable. – eselk Jan 18 '12 at 19:32
The standards say that time(NULL) returns the number of seconds since the start of the epoch. Not number of seconds between UTC and some other timezone. Whatever the implementation is that you are using, it doesn't appear to follow any standards for C time(). The fac is - java does not work that way, it does conform. – jim mcnamara Jan 19 '12 at 4:01

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