I understand now how to create limitless arguments as per Java method with unlimited arguments

But I was wondering what is the syntax to extend this to two arguments, akin to printf?

I want to create unlimited String, int pairs.

The goal would be to display String1 : Int1, String2: Int2 and so on. I'm just not sure what the syntax would be, let alone if it's possible.

  • How is your method going to determine how many inputs are strings and how many are integers? – fajarkoe Jun 23 '14 at 13:23

It's not directly possible but here are some approaches:

  1. If the strings will be unique, you can pass the data as a Map:

    public void method(Map<String,Integer> pairs) {
  2. You can use two separate arrays:

    public void method(String[] strings, int[] ints) {
        if (strings.length != ints.length) throw new IllegalArgumentException();

    Call as:

    method(new String[] { "a", "b", "c" }, new int[] { 1, 2, 3 });
  3. Use Object for everything and sort it out later. This suffers from ugly internals and a lack of compile-time type checking but it has the shortest calling syntax:

    public void method(Object... args) {
        if (args.length % 2 != 0) throw new IllegalArgumentException();
        for (int i = 0; i < args.length; i += 2) {
            String s = (String)args[i + 0];
            int i = (Integer)args[i + 1];
  4. Use a builder-style object:

    public Pairs method() {
        return new Pairs();
    // make the names here meaningful for what your method actually does
    public static class Pairs {
        private static class Pair {
            String s;
            int i;
        private final List<Pair> pairs = new ArrayList<>();
        private Pairs() {}
        public Pairs add(String s, int i) {
            Pair p = new Pair();
            p.s = s;
            p.i = i;
            return this;
        public void run() {
            for (Pair p : pairs) {
                ... do method's work here ...

    Depending on what you want to achieve this might be over-complicating it, but it gives a quite pleasant and fully type-checked syntax for the caller:

        .add("a", 1)
        .add("b", 2)
        .add("c", 3)

Well, firstly, you can't do this:

public void foo(String... strings, int... ints) {

Since you'll get an error that the varargs parameter strings needs to be the last one.

So you'll likely want to make a small wrapper class, say StringWithInt and then do like so:

public void foo(StringWithInt... values) {

I hope this helps!

  • 1
    The invocation of foo becomes quite bulky, though: foo(new StringWithInt("hello", 1), new StringWithInt("world", 2), new StringWithInt("!", 3)). To me, this is a rather heavy price to pay for static type safety. Of course, others may hold a different opinion on this. – dasblinkenlight Jun 23 '14 at 20:12

Make the argument one Object argument, which has its own problems...

public void foo(Object... things)

But probably the best idea is to use a generic list for each argument type :

public void foo(List<String> strings, List<Integer> integers) {}

If the method specifically requires matchigng pairs a Map<String, Integer> could also be used.

(no you can't to original question)


hmmm why don't you just mapping instead?

Something like this

public void foo(Map<String,Integer> map){


Or maybe instead of String and int, just use objects?

 public void foo(Object... args){

  • Map would only allow two types, and well its nto really a map. Use two generic collecitons instead. – NimChimpsky Jun 23 '14 at 13:24
  • Yeah, question is kinda vague, but two generic collection would solve things – nafas Jun 23 '14 at 13:26
  • Map seems valid to me, but I would avoid using Object...... – vikingsteve Jun 23 '14 at 13:26
  • @vikingsteve Why the aversion towards that method? I was leaning towards dasblinkenlight's answer. – Legato Jun 23 '14 at 16:09
  • 1
    Since using Object is generally regarded as bad practise, at least since java 1.5. There is no type safety if someone uses method("a", 1, "b", 2) versus method("a", "b", 1, 2) -> such errors won't be apparent until run-time (and modern thinking is to catch as many errors at compile-time as possible) – vikingsteve Jun 23 '14 at 19:47

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