Is there a "typeof" like function in Java that returns the type of a primitive data type (PDT) variable or an expression of operands PDTs?

instanceof seems to work for class types only.

  • 1
    Are you looking for a Class that represents int, long and so on? Sep 11, 2012 at 1:23
  • 3
    You can't have a primitive data type without knowing the type of it. It would have to be boxed in to a Number type in order for you not to know it, in which case you can use instanceof.
    – Thor84no
    Sep 11, 2012 at 1:25
  • @Thor84no yeah you can with reflection
    – Bohemian
    Sep 11, 2012 at 1:47
  • @Bohemian I think reflection also uses wrapper classes automatically, though I haven't tested it.
    – Thor84no
    Sep 11, 2012 at 1:49
  • 1
    Possible duplicate of Determining if an Object is of primitive type
    – Abhijeet
    Aug 15, 2016 at 5:48

4 Answers 4


Try the following:

int i = 20;
float f = 20.2f;

It will print:


As for instanceof, you could use its dynamic counterpart Class#isInstance:

Integer.class.isInstance(20);  // true
Integer.class.isInstance(20f); // false
Integer.class.isInstance("s"); // false
  • 4
    unfortunately, that's not the primitive type. that's just the boxed type.
    – dtc
    Mar 12, 2020 at 17:55
  • 3
    @dtc It works transitively and I have yet to find an instance where it does not work. It works for boolean even. So if object can box up your primitive correctly every time then what's the difference?
    – chrips
    Dec 27, 2020 at 18:51
  • Very clever, thanks! :D
    – Makc
    Mar 15 at 16:49

There's an easy way that doesn't necessitate the implicit boxing, so you won't get confused between primitives and their wrappers. You can't use isInstance for primitive types -- e.g. calling Integer.TYPE.isInstance(5) (Integer.TYPE is equivalent to int.class) will return false as 5 is autoboxed into an Integer before hand.

The easiest way to get what you want (note - it's technically done at compile-time for primitives, but it still requires evaluation of the argument) is via overloading. See my ideone paste.


public static Class<Integer> typeof(final int expr) {
  return Integer.TYPE;

public static Class<Long> typeof(final long expr) {
  return Long.TYPE;


This can be used as follows, for example:

System.out.println(typeof(500 * 3 - 2)); /* int */
System.out.println(typeof(50 % 3L)); /* long */

This relies on the compiler's ability to determine the type of the expression and pick the right overload.


You can use the following class.

class TypeResolver
    public static String Long = "long";
    public static String Int = "int";
    public static String Float = "float";
    public static String Double = "double";
    public static String Char = "char";
    public static String Boolean = "boolean";
    public static String Short = "short";
    public static String Byte = "byte";

    public static void main(String[] args)
        //all true
        TypeResolver resolver = new TypeResolver();
        System.out.println(resolver.getType(1) == TypeResolver.Int); 
        System.out.println(resolver.getType(1f) == TypeResolver.Float); 
        System.out.println(resolver.getType(1.0) == TypeResolver.Double);
        System.out.println(resolver.getType('a') == TypeResolver.Char); 
        System.out.println(resolver.getType((short) 1) == TypeResolver.Short); 
        System.out.println(resolver.getType((long) 1000) == TypeResolver.Long);
        System.out.println(resolver.getType(false) == TypeResolver.Boolean); 
        System.out.println(resolver.getType((byte) 2) == TypeResolver.Byte);

    public String getType(int x)
        return TypeResolver.Int;

    public String getType(byte x)
        return TypeResolver.Byte;

    public String getType(float x)
        return TypeResolver.Float;

    public String getType(double x)
        return TypeResolver.Double;

    public String getType(boolean x)
        return TypeResolver.Boolean;

    public String getType(short x)
        return TypeResolver.Short;

    public String getType(long x)
        return TypeResolver.Long;

    public String getType(char x)
        return TypeResolver.Char;
  • That's pretty ingenious considering you are using function overloading to do the task for you.
    – BEWARB
    Dec 13, 2019 at 11:14
  • just calling out for the downsides: it will need a steady watch out for new additions - and thus will not cover "new" items automatically. - maintaining coding language infrastructure services is a thing rather being resolved in the realm of the language developers. thus forth developing the language itself will not have extra impacts on existing project codes. by doing so any code using the related environmental features will instantly profit on such features just when compiled/interpreted next. Jan 28, 2021 at 13:51
  • This is essentially the same answer as what obataku gave 8 years earlier, except that obataku reuses Class<>.TYPE instead of defining all the type names again. So actually this answer is not as elegant.
    – trincot
    Jun 19, 2021 at 20:19

There are two ways that you can use to determine the type of the Primitive type.

package com.company;

public class Testing {
public static void main(String[] args) {
    int x;
    // the first method 
    if (((Object)x).getClass().getName()=="java.lang.Integer")
        System.out.println("i am int");
   // the second method it will either return true or false


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