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I'm writing a method that doubles the size of the data in every node in a tree. I think I have the algorithm down for writing it, but I'm having trouble figuring out how to multiply a generic type by 2.

So essentially I want to take a data that is type T and convert it to an integer, multiply it by two, and store it as type T. I've played around with some options but none have worked. Any help on how I should do this would be helpful. If you need any other info let me know. Thanks.

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What if T is Exception? –  SLaks Oct 14 '12 at 15:50
    
What knows how to do this conversion to integer? Java doesn't just know how to arbitrarily intify an object other than via hashCode, and the results of doubling that wouldn't make sense. –  cHao Oct 14 '12 at 15:57

2 Answers 2

up vote 1 down vote accepted

Because of type erasure, you cannot do this directly. One approach is is to define a generic interface for objects that "know" how to double themselves:

public interface Doubler<T> {
    T doubled(T arg);
}

Then you can make each node (that knows how to double itself) implement the Doubler interface.

There are other approaches (factory methods, factory objects, passing around Class<T> instances, etc.) that might work just as well (or better). But the one thing you can't do is create an instance of a generic type in code that just knows the generic type and nothing else.

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1  
Also, what is T? T doesn't extend Doubler so it's not doubling itself. –  Mike Samuel Oct 15 '12 at 4:08
    
@MikeSamuel - Good catch about the reserved word. T is the type parameter that OP described as being the data in each node. I was proposing as one approach that his generic node class could be declared with a type parameter <T extends Doubler<T> (or, perhaps better, <T extends Doubler<? super T>>). –  Ted Hopp Oct 15 '12 at 5:03

When you declare your generic class / tree instance / generic method, don't leave generic type parameter T totally unconstrained, but make it a number (either a Long or a Double, depending on whether you need to handle integer or floating-point numbers:

Instead of:

public class DoubleTree<T> {
    private TreeSet<T> myTree;
    public void doubleTree() {
         // ...
         for (T treeElement: myTree) {
               // no way to double element because 
               // "minimum guaranteed base type of T" is Object!!
         } 
    }
}

Try T extends Long as generic type param on first line:

public class DoubleTree<T extends Long> {
    private TreeSet<T> myTree;
    public void doubleTree() {
         // ...
         for (T treeElement: myTree) {
               // Element has the Long interface - guaranteed
               T doubleIt = 2 * treeElement;

               // Note - you should really prevent numerical overflow in the above
               // e.g. if (treeElement < Long.MAX_VALUE / 2) {
               //            T doubleIt = 2 * treeElement; 
               //      } else { // Overflow error }
         } 
    }
}

For more generality, you could use "Number" instead of "Long". But Number is an abstract type, that doesn't directly support multiplication by constants! You work-around this by checking for the actual class at runtime via instanceof something like:

if (treeElement instanceof Long) {
      Long doubleIt = 2 * treeElement.longValue();
} else if (treeElement instanceof Integer) {
      Integer doubleIt = 2 * treeElement.intValue();
} else if (treeElement isntanceof Float) {
      Float doubleIt = 2.0 * treeElement.floatValue();
} // ..... etc
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