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Let's say I have a Node class that has a Function as an instance variable.

public class Node {
    private Function<Node, Double> function;

I have a List of these Nodes:

List<Node> nodes = Lists.newLinkedList();
nodes.add(new Node(someFunction));
nodes.add(new Node(someOtherFunction));

I can do this:

public Collection<Double> getValues() {
    SomeFunction f = new SomeFunction(); 
    return Collections2.transform(nodes, f);

Sure enough, transform iterates over the nodes List and applies the function f to each element like mapcar.

What I'm trying to do is to have transform use the function that each node element has.

So I though that the Supplier would help.

class NodeSupplier implements Supplier<Node> {
    Iterator<Node> iterator;

    NodeSupplier(Iterable p) {
        iterator = Iterators.cycle(p);

    public Node get() {

Then a Function to get a Node.

class SupplierGetter implements Function<Supplier<Node>, Node> {
    public Node apply(Supplier<Node> from) {
        return from.get();

Then compose them:

FunctionGetter fg = new FunctionGetter();
NodeSupplier sup = new NodeSupplier(this); // the this class is Iterable
Supplier<Function<Node, Double>> supplier = Suppliers.compose(fg, sup);

But then it gives me a type mismatch when I try to use it:

Collections2.transform(nodes, supplier);

it wants suppler.get() which is called once.

Collections2.transform(nodes, supplier.get());

Is there an easier way?

I saw mention of


but that seem s to not exist in verison r09.

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4 Answers 4

I'm confused by what you're trying to do... Supplier doesn't seem useful here. Each Node has its own Function. You want to transform a collection of Nodes by applying each Node's Function to itself. So why not just give the Node class some method:

// may want a better name
public Double applyFunction() {
  return function.apply(this);

Then you'd just transform using a Function like this:

public Double apply(Node node) {
  return node.applyFunction();
share|improve this answer
+1 beat me to it – Paul Bellora Sep 5 '11 at 16:23
That is what I was doing. (I called it getValue() rather than applyFunction()). Unfortunately in relation to the other classes this broke 2 modeling fiats. So I was looking for help elsewhere. The Supplier isn't a help here. – Gene De Lisa Sep 6 '11 at 15:31

Apart from the fact that I also have my doubts about what you are trying to do, the following should achieve what you are asking for:

class Node {
    private Function<Node, Double> function;

    private static Function<Node,Double> applyFunction = new Function<Node,Double>() {
        public Double apply(final Node input) {
            return input.function.apply(input);

    public static Iterable<Double> transform(final Iterable<Node> nodes) {
        return Iterables.transform(nodes, applyFunction);
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If I understood you correctly, because you seriously confused me by dragging Supplier into this. – jvdneste Sep 5 '11 at 18:54
It is essentially the same as ColinD's reply, just a bit more explicit. – jvdneste Sep 5 '11 at 19:02
Thank you for having doubts. That helped. I just didn't know how to ask a question about the Supplier without dragging the Supplier into the question. – Gene De Lisa Sep 6 '11 at 15:27

There is a third way to do this without modifying the Node class, if we suppose that Node exposes its function through a public getter.

Using an anonymous class :

public Collection<Double> getValues() {
    return Collections2.transform(nodes, new Function<Node, Double>() {
        @Override public Double apply(Node node) {
            return node.getFunction().apply(node);

Using the enum singleton pattern (which I prefer, since it's clearer) :

public Collection<Double> getValues() {
    return Collections2.transform(nodes, ApplyNodeFunction.INSTANCE);

 * A {@link Function} that applies the {@link Node}'s own function on itself.
private enum ApplyNodeFunction implements Function<Node, Double> {

    @Override public Double apply(Node node) {
        return node.getFunction().apply(node);
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The key to my question was this phrase: "So I thought that the Supplier would help." The answer is that it doesn't. I was trying to find a use for it - outside of Map creation which seems to be its main use. There was that one Suppliers method I mentioned but it seems to be MIA. Perhaps this could be an RFI for tranform be overloaded to take an Iterable as the second parameter

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Supplier has some uses (such as lazily constructing a singleton when combined with Suppliers.memoize()), but in your case it would complicate things unnecessarily. You got a type mismatch because you were attempting to pass a Supplier to the transform() method whose argument is supposed to be a Function. Suppliers.compose() doesn't do what you want: it returns a new Supplier, not a Function. What you wanted was Suppliers.supplierFunction(), which does seem to exist in r09:… (last function) – Etienne Neveu Sep 7 '11 at 12:28
Also, the resulting Function would have been stateful, which is dangerous. Each call to "apply()" would change the function's state (by selecting the next element in the Iterable). – Etienne Neveu Sep 7 '11 at 12:31

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