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Can typedef FooBar Bar; and the access to the type FooBar through the expression Foo::Bar in the code

#include <typeinfo>
#include <iostream>

class FooBar {};
class FooBat {};

class Foo
    typedef FooBar Bar;
    typedef FooBat Bat;

int main()
    if( typeid(Foo::Bar) == typeid(FooBar) && 
        typeid(Foo::Bat) == typeid(FooBat) )
        std::cout << "All is well." << std::endl;

be translated to Java?

What would be the Java equivalent for an indirect reference to a type?

The STL and boost are filled with code such as

typedef T              value_type;
typedef T*             iterator;

and I am wondering whether Java supports a similar generic programming idiom. I am still interested in an answer even if the type indirection cannot be done at compile time.

Edit The question (how to do nontrivial generic programming in Java) is not getting any interest from those conversant in Java. I am now adding "C++" as a tag.

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Maybe this will help stackoverflow.com/questions/1195206/… –  lawrencexu Nov 9 '12 at 2:40

2 Answers 2

You can compare classes with:

Object a = . . .;
Object b = . . .;
if (a.getClass().equals(b.getClass())) {
    // a and b are instances of the same class
if (a.getClass().isAssignableFrom(b.getClass())) {
    // the class of a is a superclass of b's class

However, Java does not have anything like typedef that allows you to use one type name as an alias for another.

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The methods get_bar() and get_bat() are an example of how I am hoping Java can facilitate generic programming. Could you look at the class Foo and critique it? –  Calaf Nov 28 '12 at 21:23
up vote 0 down vote accepted

The C++ program in the question translates to the following Java code:

public class FooBat {}
public class FooBar {}

public class Foo {
    public static Class get_Bar() { return FooBar.class; }
    public static Class get_Bat() { return FooBat.class; }

public class Introspect {
    public static void main(String[] args) {
        if( Foo.get_Bar() == FooBar.class &&
            Foo.get_Bat() == FooBat.class )
            System.out.println( "All is well.\n" );

This is not as efficient as the C++ code. The types are determined in the C++ version during compilation. In the Java version they are determined at run-time.

A better answer that remedies this issue is most welcome.

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What are you trying to accomplish with this code? –  Ted Hopp Nov 28 '12 at 21:28
Say you are implementing a graph class. You want it to be parameterized by a vertex and an edge, but you don't want just any pair of classes to be allowed. So you write a class (such as Foo) that acts as graph traits. Bar and Bat are the generic vertex and edge. In place of Introspect, we would have a (rather longer) class that uses the two actual classes FooBat and FooBar. –  Calaf Nov 28 '12 at 21:43

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