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This question already has an answer here:

I have a colleague here in my project who is deeply against the use of instanceof operator because it "generates a lot of overhead", what is the reason for that ? is it true ?

Is there another way to check the type of the Object instead of using it ?

Because I find it very useful in some occasions.

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marked as duplicate by Ted Hopp May 13 '14 at 20:29

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I highly doubt it, since it is a keyword the compiler can often make static inferences about the type, and even if it can't it only has to read from a table somewhere of loaded classes to see if the current class is a subclass. – gubby Feb 11 '11 at 19:55
up vote 11 down vote accepted

It does generate some overhead, combined with the subsequent casting. With recent version of Java the overhead has decreased. But anyway that's microoptimization - i.e. you should not worry about it in the general case.

The real argument against instanceof is that in many cases there are better OOP ways to achieve the desired behaviour.

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+1 for the real reason why instanceof is to be carefully thought through before use. I see lots of code where a big set of if instanceof statements should have been implemented using OO paradigms. – Kevin Day Feb 12 '11 at 5:18
@Bozho,Could you provide an alternate way instead of using instanceof which could be used in reducing the overhead ? – Deepak Feb 12 '11 at 13:57
@Deepak - polymorphism. The Visitor pattern sometimes. – Bozho Feb 12 '11 at 14:03
@Bozho,Any working example where you can show that indeed instanceOf has generated do i simulate it against polymorphic behaviour – Deepak Feb 12 '11 at 14:16
@to anyone, do not think of such optimizations, the compilers are very decent at optimizing your code, do not write micro-benchmarks to test unless you are perfectly sure you understand why kind of optimzation the micro-benchmark might 'suffer'. – bestsss Feb 12 '11 at 15:03

It may or may NOT generate any overhead if the compiler can prove the instance. Even if the compiler can not prove the target immediately the overhead is very little. A few cpu clocks (esp. if instanceof jump is properly predicted).

Following casts after instanceof are usually free.

(note: by the compiler I mean the JIT one)

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+1, but why community wiki? – Bozho Feb 11 '11 at 20:46
:) got more rep. than I can use, so people can fix typos, errors if they please so. I tend to post under community wiki unless I forget. Btw, iirc, an instanceof can be as cheap as a single CPU clock for classes w/o subclasses (Long/Double/String/URL and the like) – bestsss Feb 11 '11 at 21:03
people can still edit your posts. So feel free to post regular answers ;) – Bozho Feb 11 '11 at 21:40
nay, you need quite high rep. to do so and few would dare, either way. rep is overrated :) – bestsss Feb 11 '11 at 21:41
you can suggest an edit regardless of the rep. – Bozho Feb 11 '11 at 23:07

There is no serious overhead. It's almost certainly cheaper than a home-grown getType()-style solution. Casting, while not free, is also very cheap.

As noted by Bozho it can be indicative of a flawed design, but in some situations it is the most pragmatic choice and so shouldn't be disregarded out of hand.

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Casting, while not free, is also very cheap. it is free after instanceof – bestsss Feb 11 '11 at 20:00

The main issue is that it generates code smell. If you use polymorphism instead this is a better design approach. The performance cost can be around 10 to 100 nano-seconds depending on the complexity of the call and how many implementing method you call from that line of code.

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How did you calculated the 10 nanosecond overhead? Is there another more known operation taking about the same time? – Louis CAD Mar 2 at 16:26
@LouisCAD it is an estimated average. Note: this will depend on many factors so it could me much more. – Peter Lawrey Mar 2 at 20:08

Actually, instanceof returning true and a cast to this type succeeding are not totally equivalent - the latter may succeed when the former returns false. So, even when there is something like this,

String s = someMethodReturningString();
Object o = s;
if (o instanceof String) {

the compiler has to generate at least a check o != null here.

In practice, it is neglectable, though.

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not to go into an argument but how did you assign integer to a string and if the method doesn't return null (ever) instanceof is a dead code. usually null checks are 1cpu clock, btw – bestsss Feb 12 '11 at 17:22
@bestsss: Ah, I first wrote the example with Integer, and then changed to object to get not into the wrapping/unwrapping-hassle. Thanks for pointing out, I'll correct this. – Paŭlo Ebermann Feb 12 '11 at 18:46
if the JIT can inline the code (not some multi-target virtual code) and if the end result is never null the (o instanceof String) will be omitted, I tried to explain it: the only operation ppl should really consider in terms of performance is accessing memory, the rest is well optimized. – bestsss Feb 12 '11 at 20:18

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