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I'm writing an adapter framework where I need to convert a list of objects from one class to another. I can iterate through the source list to do this as in

http://stackoverflow.com/questions/18524/java-best-way-of-converting-listinteger-to-liststring

However, I'm wondering if there is a way to do this on the fly when the target list is being iterated, so I don't have to iterate through the list twice.

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7 Answers 7

My answer to that question applies to your case:

import com.google.common.collect.Lists;
import com.google.common.base.Functions

List<Integer> integers = Arrays.asList(1, 2, 3, 4);

List<String> strings = Lists.transform(integers, Functions.toStringFunction());

The transformed list is a view on the original collection, so the transformation happens when the destination List is accessed.

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As an alternative to the iterator pattern, you can use a abstract generic mapper class, and only override the transform method:

  1. create a generic collection mapper for any data type
  2. [optional] create a library of methods that transform between different data types (and override the method)
  3. use that library

the implementation:

// Generic class to transform collections
public abstract class CollectionTransformer<E, F> {

    abstract F transform(E e);

    public List<F> transform(List<E> list) {
        List<F> newList = new ArrayList<F>();
        for (E e : list) {
            newList.add(transform(e));
        }
        return newList;
    }
}

// Method that transform Integer to String
// this override the transform method to specify the transformation
public static List<String> mapIntegerToStringCollection(List<Integer> list) {

    CollectionTransformer transformer = new CollectionTransformer<Integer, String>() {
        @Override  
        String transform(Integer e) {
            return e.toString();
        }
    };
    return transformer.transform(list);
}

// Example Usage
List<Integer> integers = Arrays.asList(1,2);
List<String> strings = mapIntegerToStringCollection(integers);

This would be useful is you have to use transformations every time, encapsulating the process. So you can make a library of collection mappers very easy.

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You can write a mapping iterator that decorates an existing iterator and applies a function on it. In this case, the function transforms the objects from one type to another "on-the-fly".

Something like this:

import java.util.*;

abstract class Transformer<T, U> implements Iterable<U>, Iterator<U> {
    public abstract U apply(T object);  

    final Iterator<T> source;       
    Transformer(Iterable<T> source)    { this.source = source.iterator(); }

    @Override public boolean hasNext() { return source.hasNext(); }
    @Override public U next()          { return apply(source.next()); }
    @Override public void remove()     { source.remove(); } 

    public Iterator<U> iterator()      { return this; }
}

public class TransformingIterator { 
    public static void main(String args[]) {
        List<String> list = Arrays.asList("1", "2", "3");
        Iterable<Integer> it = new Transformer<String, Integer>(list) {
            @Override public Integer apply(String s) {
                return Integer.parseInt(s);
            }
        };
        for (int i : it) {
            System.out.println(i);
        }
    }
}
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This looks close to what I'm looking for. As per the similar response, does doing this on the fly give me much advantage? –  user288140 Mar 7 '10 at 11:08
    
Honestly, I think the Google Collections solution (Ben Lings') might be better. Their design is a lot more mature, and their implementation is more robust. Frankly I just whipped that code up in 15 minutes without putting too much thought into it. –  polygenelubricants Mar 7 '10 at 11:25
1  
I mean, the class implements Iterator<U> and Iterable<U>. I'm not sure if that's kosher. –  polygenelubricants Mar 7 '10 at 11:27
    
Indeed, a bad idea for generalized collections. –  Barett Jan 18 '13 at 21:42

Lambdaj allows to do that in a very simple and readable way. For example, supposing you have a list of Integer and you want to convert them in the corresponding String representation you could write something like that;

List<Integer> ints = asList(1, 2, 3, 4);
Iterator<String> stringIterator = convertIterator(ints, new Converter<Integer, String> {
    public String convert(Integer i) { return Integer.toString(i); }
});

Lambdaj applies the conversion function only while you're iterating on the result. There is also a more concise way to use the same feature. The next example works supposing that you have a list of persons with a name property and you want to convert that list in an iterator of person's names.

Iterator<String> namesIterator = convertIterator(persons, on(Person.class).getName());

Pretty easy. Isn't it?

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That question does not iterate through the list twice. It just iterates once and by far is the only known method.

Also you could use some transformer classes in commons-collections of google-collections but they all do the same thing under the hood :) the following being one way

CollectionUtils.collect(collectionOfIntegers, new org.apache.commons.collections.functors.StringValueTransformer());
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Isn't the list iterated (at least) twice; once on the original list when the conversion is done and then again when the target list is iterated over? –  user288140 Mar 7 '10 at 11:01

Well, you could create your own iterator wrapper class to do this. But I doubt that you would save much by doing this.

Here's a simple example that wraps any iterator to a String iterator, using Object.toString() to do the mapping.

public MyIterator implements Iterator<String> {

    private Iterator<? extends Object> it;

    public MyIterator(Iterator<? extends Object> it) {
        this.it = it;
    }

    public boolean hasNext() {
        return it.hasNext();
    }

    public String next() {
        return it.next().toString();
    }

    public void remove() {
        it.remove();
    }
}
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I think you would either have to create a custom List (implementing the List interface) or a custom Iterator. For example:

ArrayList<String> targetList = new ArrayList<String>();
ConvertingIterator<String> iterator = new ConvertingIterator<String>(targetList);
// and here you would have to use a custom List implementation as a source List
// using the Iterator created above

But I doubt that this approach would save you much.

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