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How to generate a random value bigger than value of System.currentTimeInMillis(). I use Random object.how can I obtain a value that have min range as System.currentTimeInMillis()?

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Get a random value... add the current time in ms to it... done –  EEP Jul 13 '12 at 12:30
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The method System.currentTimeInMillis() doesn't exist. Where did you get that? It should be System.currentTimeMillis() instead. –  Lion Jul 13 '12 at 12:39
    
@EEP Possible overflows make it a little more complicated. –  assylias Jul 13 '12 at 12:55
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4 Answers

Doesn't

long value = System.currentTimeMillis() + (long)random.nextInt(range);

work?

If you want to enforce a value that is strictly larger than System.currentTimeMillis() add an additional 1 to it. Set the range accordingly to prevent overflow (see assylias's comment).

Edited according to comments.

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Adding long and int - is that acceptable for this use case? –  duffymo Jul 13 '12 at 12:32
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nextInt() can be any int value (positive or negative or zero) Perhaps you meant nextInt(range) + 1 –  Peter Lawrey Jul 13 '12 at 12:32
    
random.nextInt() could generate 0 value.how can I exclude 0 value? –  user1508419 Jul 13 '12 at 12:39
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@user1508419 add 1 to it –  Baz Jul 13 '12 at 12:40
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Checking for overflow is a little paranoid, unless you are worried about a year 292,278,994 bug. ;) I suspect Java will be dead by then. Never the less Math.min(Long.MAX_VALUE, x) doesn't do anything and is always x –  Peter Lawrey Jul 13 '12 at 12:59
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This is an approach if you want to be able to get numbers distributed across the entire range System.currentTimeMillis()..Long.MAX_VALUE:

long millis = System.currentTimeMillis();    
long l = Math.min(Long.MAX_VALUE - millis, Math.abs(random.nextLong())) + millis;

Long.MAX_VALUE will be much more common than other results here though, in case that matters.

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For a uniform distribution of times between currentTimeMillis and Long.MAX_VALUE, without overflow, you can use:

long time = System.currentTimeMillis();
long randomFutureTime = Math.abs(random.nextLong()) % (Long.MAX_VALUE - time) + time;
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This may is useful to have real time of object creation, and two objects cannot have the same timestamp, so you can order them.

I use as UUID for my objects :

Const.DECAL_BIT = 20;
Const.DECAL_BIT_MASQUE = (Long.size() -1) -  next 20;

private final Long timeCreate = (System.currentTimeMillis() << Const.DECAL_BIT) 
       + (System.nanoTime() & Const.DECAL_BIT_MASQUE);

So you can have valid dates for 100 years : you multiply by 1M the internal datetime and had one second elapse time in nanosecond precision.

To read the date : Date d = Date((Long) timeCreate>> Const.DECAL_BIT);

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