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Which of the following is better?

a instanceof B



The only difference that I know of is, when 'a' is null, the first returns false, while the second throws an exception. Other than that, do they always give the same result?

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For the records, isInstance() is the most convenient method to check whether an object can be casted into a class type (for more details, see: tshikatshikaaa.blogspot.nl/2012/07/…) –  JVerstry Jul 29 '12 at 20:15

11 Answers 11

up vote 266 down vote accepted

When using instanceof, you need to know the class of "B" at compile time. When using isAssignableFrom() it can be dynamic and change during runtime.

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i don't get it - please elaborate on why we can't write a instanceof Bref.getClass(). how can this be the accepted answer with so little explanation (or its lack thereof)? –  Eliran Malka Mar 28 '13 at 12:58
The syntax is a instanceof Bref not a instanceof Bref.class. The second argument to the instanceof operator is a class name, not an expression resolving to a class object instance. –  Brandon Bloom Apr 16 '13 at 14:28
yes "dynamic" goes without saying :) Other than performance, this is a true difference. –  peterk Jun 21 '13 at 15:56

instanceof can only be used with reference types, not primitive types. isAssignableFrom() can be used with any class objects:

a instanceof int  // syntax error
3 instanceof Foo  // syntax error
int.class.isAssignableFrom(int.class)  // true

See http://java.sun.com/javase/6/docs/api/java/lang/Class.html#isAssignableFrom(java.lang.Class).

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well put, this should be the accepted answer. –  Eliran Malka Mar 28 '13 at 13:00

Talking in terms of performance :

class A{}
class B extends A{}

A b = new B();

void execute(){
   boolean test = A.class.isAssignableFrom(b.getClass());
   // boolean test = A.class.isInstance(b);
   // boolean test = b instanceof A;

public void testPerf() {
    // Warmup the code
    for (int i = 0; i < 100; ++i)

    // Time it
    int count = 100000;
    final long start = System.nanoTime();
    for(int i=0; i<count; i++){
    final long elapsed = System.nanoTime() - start;
    System.out.println(count+" iterations took " + TimeUnit.NANOSECONDS.toMillis(elapsed) + "ms.);

It gives :

  • A.class.isAssignableFrom(b.getClass()) : 100000 iterations took 15ms
  • A.class.isInstance(b) : 100000 iterations took 12ms
  • b instanceof A : 100000 iterations took 6ms

So that we can conclude instanceof is faster !

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Yep, instanceof is a bytecode that uses essentially the same logic as checkcast (the bytecode behind casting). It will inherently be faster than the other options, regardless of degree of JITC optimization. –  Hot Licks Jul 5 '13 at 0:11

A more direct equivalent to a instanceof B is


This works (returns false) when a is null too.

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Apart from basic differences mentioned above, there is a core subtle difference between instanceof operator and isAssignableFrom method in Class.

Read instanceof as “is this (the left part) the instance of this or any subclass of this (the right part)” and read x.getClass().isAssignableFrom(Y.class) as “Can I write X x = new Y()”. In other words, instanceof operator checks if the left object is same or subclass of right class, while isAssignableFrom checks if we can assign object of the parameter class (from) to the reference of the class on which the method is called.
Note that both of these consider the actual instance not the reference type.

Consider an example of 3 classes A, B and C where C extends B and B extends A.

B b = new C();

System.out.println(b instanceof A); //is b (which is actually class C object) instance of A, yes. This will return true.  
System.out.println(b instanceof B); // is b (which is actually class C object) instance of B, yes. This will return true.  
System.out.println(b instanceof C); // is b (which is actually class C object) instance of C, yes. This will return true. If the first statement would be B b = new B(), this would have been false.
System.out.println(b.getClass().isAssignableFrom(A.class));//Can I write C c = new A(), no. So this is false.
System.out.println(b.getClass().isAssignableFrom(B.class)); //Can I write C c = new B(), no. So this is false.
System.out.println(b.getClass().isAssignableFrom(C.class)); //Can I write C c = new C(), Yes. So this is true.
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You got it wrong, see this code pastebin.com/tfCFs0QY –  Maxim Veksler Sep 9 '10 at 20:15
b instanceof A is equivalent to A.class.isAssignableFrom(b.getClass()) (as the OP noticed). Your example is correct but irrelevant. –  Karu Apr 12 '12 at 3:11
Since new Y() may not be legal if Y is abstract or without public default constructor, you can say X x = (Y)null is legal if and only if x.getClass().isAssignableFrom(Y.class) is true. –  Earth Engine Jul 26 '13 at 0:17
Why 'b.getClass().isAssignableFrom(A.class)' in this example? I guess example should be reverse A.class.isAssignableFrom(b.getClass()). –  loshad vtapkah Dec 5 '14 at 10:45

There is also another difference:

null instanceof X is false no matter what X is

null.getClass().isAssignableFrom(X) will throw a NullPointerException

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-1, incorrect: null instanceof X (where X is some class known at compile time) will always return false. –  Caspar Jul 4 '11 at 4:19
@Caspar while you are correct, the basic idea was a good point. I edited the post so that it is correct. –  erickson Nov 1 '11 at 17:00
this is helpful, the edge case is always important :). –  trillions Aug 13 '12 at 22:56

There is yet another difference. If the type (Class) to test against is dynamic, e.g. passed as a method parameter, then instanceof won't cut it for you.

boolean test(Class clazz) {
   return (this instanceof clazz); // clazz cannot be resolved to a type.

but you can do:

boolean test(Class clazz) {
   return (clazz.isAssignableFrom(this.getClass())); // okidoki

Oops, I see this answer is already covered. Maybe this example is helpful to someone.

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actually no answer is really correct isAssignableFrom work w/ classes, Class.isInstance is the analog of 'instanceof' –  bestsss Jan 25 '11 at 16:23

Consider following situation. Suppose you want to check whether type A is a super class of the type of obj, you can go either

... A.class.isAssignableFrom(obj.getClass()) ...


... obj instanceof A ...

But the isAssignableFrom solution requires that the type of obj be visible here. If this is not the case (e.g., the type of obj might be of a private inner class), this option is out. However, the instanceof solution would always work.

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That is not true. Please see "Adam Rosenfield" comment stackoverflow.com/questions/496928/… –  Maxim Veksler Sep 9 '10 at 20:05
Could you elaborate "That is not true"? The comment you refer to has nothing to do with the scenario in my post. I do have some test code that backs up my explanation. –  algebra Sep 10 '10 at 16:18

This thread provided me some insight into how instanceof differed from isAssignableFrom, so I thought I'd share something of my own.

I have found that using isAssignableFrom to be the only (probably not the only, but possibly the easiest) way to ask one's self if a reference of one class can take instances of another, when one has instances of neither class to do the comparison.

Hence, I didn't find using the instanceof operator to compare assignability to be a good idea when all I had were classes, unless I contemplated creating an instance from one of the classes; I thought this would be sloppy.

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some tests we did in our team show that A.class.isAssignableFrom(B.getClass()) works faster than B instanceof A. this can be very useful if you need to check this on large number of elements.

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Hm, if you have a bottleneck in instanceof, I believe you have serious design problems... –  sleske May 27 '11 at 14:16
The answer by JBE presents a hypothesis which differs from your hypothesis. –  Alastor Moody May 15 '14 at 16:37

instanceof cannot be used with primitive types or generic types either. As in the following code:

//Define Class< T > type ...

Object e = new Object();

if(e instanceof T) {
  // Do something.

The error is: Cannot perform instanceof check against type parameter T. Use it's erasure Object instead since further generic type information will be erased at runtime.

Does not compile due to type erasure removing the runtime reference. However, the code below will compile:

if( type.isAssignableFrom(e.getClass())){
  // Do something.
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