I wanted to know if there is some way to have the 64bit VM use 8byte object headers instead of 12byte object headers if the usable RAM for the JVM is 4GB anyway.

Or is it like that on Linux, if not on windows? Could someone test this with this code?

import java.lang.reflect.Field;
import sun.misc.Unsafe;
public class ObjectSizes {
    String s1;
    String s2;
    public static void main(String[] args) throws Exception {
        Unsafe unsafe;
        try {
            Field field = Unsafe.class.getDeclaredField("theUnsafe");
            unsafe = (Unsafe)field.get(null);
        } catch (Exception ex) {
            throw new RuntimeException("Can't get Unsafe instance.", ex);
        Field s1Field = ObjectSizes.class.getDeclaredField("s1");
        Field s2Field = ObjectSizes.class.getDeclaredField("s2");
        long s1OffSet = unsafe.objectFieldOffset(s1Field);
        long s2OffSet = unsafe.objectFieldOffset(s2Field);
        System.out.println("We are running "+System.getProperty("java.version"));
        System.out.println("Object header size is "+s1OffSet+" bytes.");
        System.out.println("Object reference size is "+(s2OffSet-s1OffSet)+" bytes.");

It doesn't look like it's possible to have an 8-byte object header on a 64-bit JVM. The header consists of a "mark word", a pointer to the object's class, array size in case of an array, and padding to reach the next 8-byte boundary.

  ,------------------+------------------+------------------ +---------------.
  |    mark word     |   klass pointer  |  array size (opt) |    padding    |

Therefore the object header on a 64-bit system can occupy as little as 8 + 4 = 12 bytes, but not less.


For 64 bit VMs there are options:

  1. Using compressed pointers via -XX:+UseCompressedOops (enabled by default on Java 6)

In that case: object headers will be 12 bytes, array headers will be 16 bytes (last 4 byte for size of array)

2.Not using compressed pointers via -XX:-UseCompressedOops

In that case: object headers will be 16 bytes, array headers will be 20 bytes (last 4 byte for size of array)

The code given above is not VM bit-size independent and will give different results for 32-bit and 64-bit vms. You need to consider bit-ness and compressed oops factors to compute correct size.


Using compressed pointers via -XX:+UseCompressedOops (enabled by default on Java 6)

This is not true for all version of Java 6. -XX:+UseCompressedOops is enabled by default starting with Java 6u25

  • As you refer to @NitinS answer, you can use comments instead of posting a answers. – Philipp Claßen May 13 '16 at 20:16

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