I came across an interesting problem and was wondering if and how could this be done in Java: Create a method which can memoize any function/method . The method has the following arguments : the method/function and the argument(s) for it.

For example let's say i have this method :

int addOne(int a) { return a + 1;}

and i call my memoization method two times with the same arguments : addOne and 5 for example, the first call should actually call the addOne method and return the result and also store that result for that given argument. The second time when i call it should know this has been called before and just look up the previous answer.

My idea would be to have something like a HashMap<Callable,HashMap<List<Objects>,Object>> where you would store the previous answers and look them up later on.I think this can be somehow done with lambda expressions but i'm not that familiar with them.I'm not quite sure how to write this method and would appreciate some help.

Can this be done with this approach?

  • 1
    possible duplicate of What are the different techniques for memoization in Java? – tddmonkey Dec 18 '14 at 15:20
  • 1
    Look into proxying mechanisms with Java. You can create a proxy of an object which intercepts method calls, storing the return value. If you call the method with the same arguments as a previous invocation, you'd get the same result without having to invoke the underlying method. Spring caching does this for you. – Sotirios Delimanolis Dec 18 '14 at 15:20

In Java 8 you can do it like that:

Map<Integer, Integer> cache = new ConcurrentHashMap<>();

Integer addOne(Integer x) {
    return cache.computeIfAbsent(x -> x + 1);

This is a good tutorial. There it is made for any method.

From the tutorial:

The Memoizer class:

public class Memoizer<T, U> {
    private final Map<T, U> cache = new ConcurrentHashMap<>();

    private Memoizer() {}
    private Function<T, U> doMemoize(final Function<T, U> function) {
        return input -> cache.computeIfAbsent(input, function::apply);

    public static <T, U> Function<T, U> memoize(final Function<T, U> function) {
        return new Memoizer<T, U>().doMemoize(function);

How to use the class:

Integer longCalculation(Integer x) {
    try {
    } catch (InterruptedException ignored) {
    return x * 2;
Function<Integer, Integer> f = this::longCalculation;
Function<Integer, Integer> g = Memoizer.memoize(f);

public void automaticMemoizationExample() {
    long startTime = System.currentTimeMillis();
    Integer result1 = g.apply(1);
    long time1 = System.currentTimeMillis() - startTime;
    startTime = System.currentTimeMillis();
    Integer result2 = g.apply(1);
    long time2 = System.currentTimeMillis() - startTime;


  • 1
    Although that is a nice snippet it doesn't answer the OPs question which was how to memoize any function – tddmonkey Dec 18 '14 at 15:27
  • @MrWiggles You didn't read the link, right? I edited my post so that it is clearer. – code monkey Dec 19 '14 at 8:11
  • 1
    You're right, I didn't, thanks for clarifying, I've removed the -1 – tddmonkey Dec 19 '14 at 12:00
  • computeIfAbsent(key, function::apply) is functionally equivalent to just using function as computeIfAbsent(key, function). Except latter creates one less lambda instance. – M. Prokhorov Oct 24 '19 at 11:12

You can memoize any function with Java 8's MethodHandles and lambdas if you're willing to give up type safety on the parameters:

public interface MemoizedFunction<V> {
    V call(Object... args);

private static class ArgList {
    public Object[] args;

    public boolean equals(Object o) {
        if (this == o) {
            return true;
        if (!(o instanceof ArgList)) {
            return false;

        ArgList argList = (ArgList) o;

        // Probably incorrect - comparing Object[] arrays with Arrays.equals
        return Arrays.equals(args, argList.args);

    public int hashCode() {
        return args != null ? Arrays.hashCode(args) : 0;

public static <V> MemoizedFunction<V> memoizeFunction(Class<? super V> returnType, Method method) throws
                                                                                                  IllegalAccessException {
    final Map<ArgList, V> memoizedCalls = new HashMap<>();
    MethodHandles.Lookup lookup = MethodHandles.lookup();
    MethodHandle methodHandle = lookup.unreflect(method)
                                      .asSpreader(Object[].class, method.getParameterCount());
    return args -> {
        ArgList argList = new ArgList();
        argList.args = args;
        return memoizedCalls.computeIfAbsent(argList, argList2 -> {
            try {
                //noinspection unchecked
                return (V) methodHandle.invoke(args);
            } catch (Throwable throwable) {
                throw new RuntimeException(throwable);

Working Example

This creates a variable-arity lambda that encloses the function and is almost as fast as calling the function directly (i.e., no reflection happens inside of call(Object...args)) after the lambda is constructed since we're using MethodHandle.invoke() instead of Method.invoke().

You can still do this without lambdas (replace with anonymous classes) and MethodHandles (replace with Method.invoke), but there will be performance penalties that make this less attractive for performance-conscious code.

  • Nice one! Was there some plan to use the returnType argument which is currently unused? – user3284549 Apr 28 '18 at 19:52
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    I think it was meant to be used to validate the return type of the Method, and was simply forgot. – Darth Android May 2 '18 at 17:26
  • @DarthAndroid, shouldn't return type be bound as ? extends V instead? If method actually returns something that is ? super V, then it's not really an args -> V lambda, and casting returned value like that is not safe. – M. Prokhorov Oct 24 '19 at 11:16
  • It's a trade-off with generics. If we don't ? super, then V is at most a raw type (Because Class<List<String>>, for example, is unfortunately not a thing in java), so the caller can't specify the actual return type of method in a way the compiler can understand. All we can do is tighten V down to its raw type, but that still loses type safety with generic return types. No matter what you do, the compiler won't be able to enforce type safety for generic return types, and if we don't use the ? super V bit, it'll throw warnings about using raw types even when all the types are correct – Darth Android Oct 30 '19 at 16:09

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