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I have the stituation that there is an Interface I with a method m, and two implementation classes A and B that behave differently.

the objects of A and B use only memory for their value and reference types, not for their methods. An object of A stored in a variable of type I is stored with a reference (pointer size overhead) plus the size of the object. Now the method m is called. Now where is this one bit of information stored, that method m from class A has to be called instead from class B?

This question also nags me with C++ virtual methods.

interface I { void m(); }
class A implements I { void m(){println("a");} }
class B implements I { void m(){println("b");} }
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Who says that "he objects of A and B use only memory for their value and reference types, not for their methods"? That's a pretty bold assertion (and probably false). –  Kerrek SB May 19 '12 at 19:58
might be true that this assumption might be false, thats exactly why I am asking this question. But my visualVM analysis showed me, that only space for value types and references is used, not for methods. But I am not shure how serious I can take these tests, because I don't know the optimizations that are still made. –  Arne May 20 '12 at 10:02

2 Answers 2

up vote 1 down vote accepted

In C++, each object typically contains a hidden pointer (the vptr) to a table of function addresses (the vtable). There is one vtable per class, containing the addresses of its virtual function implementations. See http://en.wikipedia.org/wiki/Virtual_method_table.

I imagine Java implements things in a similar manner (although I haven't looked into this).

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this means an object of a class with virtual functions is always one size of a pointer bigger than an object without virtual functions? Are there situations, where this overhead might be reduced to one byte? –  Arne May 20 '12 at 9:55
@Arne: I guess it's possible in theory. But I doubt any implementation does so (it would limit the total number of classes in a hierarchy to 256, for a start). –  Oliver Charlesworth May 20 '12 at 11:11

In actual executing code (JIT) at least the Hotspot JVM can sometimes call the correct method directly (effectively de-virtualizing it) if it can be certain of which one it is. As it also handles the class loading the class hierarchy is known so if there are no instances of B around it can be certain it is A for example (monomorphic). If later on instances of B are created it can de-optimize back and still do some optimizations (only two alternatives still, bimorphic).

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I am shure that Hotspot can do a lot of optimization, but lets assume that the jvm has no idea weather the object is from class A or B. –  Arne May 20 '12 at 9:58

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