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I am trying to find out how JVM Heap Size would differ with Object creation .

For example if you see my below program , i am creating 10000 String Objects with in a for loop , but still there is no difference in Heap Size on to my JVM Environment .

public class One {

    public static void main(String args[]) {

        long heapSizebefore = Runtime.getRuntime().totalMemory();
        System.out.println("heapSizebefore" + heapSizebefore);

        for (int i = 0; i <= 10000; i++) {
            String str = new String();


        long heapSizeafter = Runtime.getRuntime().totalMemory();
        System.out.println("heapSizeafter" + heapSizeafter);


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Most OO programs use lots of member methods because you can't access the member variables or implement interfaces with static methods. But if you don't need to do those things, then static method makes sense. It tells the caller "I'm just a function; I don't require an object to do anything". However there's no reason to make methods static because of memory only--you'd probably just end up creating an object to pass as an argument anyway, so no savings. – Dax Fohl Jun 14 '12 at 15:46
If you wanted to know why we use static methods in Java, why not ask that question? Or even better, think about asking it, then search for "java static methods", and read one of the many, many, duplicates of it. – Andrzej Doyle Jun 14 '12 at 16:21
Note that along those lines I've removed the part of your question where you're asking about static methods. StackOverflow works better with only one question per question, and IMHO this page is now a better example of a concrete, searchable question with a valid answer. If you want to ask questions about static methods that aren't covered by existing questions, feel free to create a new one. – Andrzej Doyle Jun 14 '12 at 16:24

4 Answers 4

The call to totalMemory just gives you the amount of memory that's reserved by the Java process. It doesn't mean that it's actively being filled by objects on the heap. As the javadocs say, it is the total amount of memory available for current and future objects.

In fact Java will prefer to request memory in large chunks from the underlying operating system, rather than having to call malloc (or equivalent) every time a new object is created.

If you want to keep track of the actual size of the heap, you can do this simply in realtime by using a tool such as JConsole/JVisualVM, or in much more detail by using a memory profiler. If you want to do it programmatically, you'll need to register an agent for the complex stuff, but heap details are exposed through JMX. Have a look at the java.lang:Memory MBean's HeapMemoryUsage attribute (which is what JConsole uses to display the memory chart).

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The JIT is also likely optimizing away that entire for loop since it has no side-effects.

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Two reasons:

  1. You are measuring the amount of memory reserved for the heap, not the sum of the sizes of live objects.
  2. You don't keep references to the allocated strings anyway, so the JVM is free to garbage collect them whenever it wants.
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Basically i wanted to know why we use Static Methods in Java.

Because static methods are simpler than instance methods.

so my question is to save memory (from object creation ) we use static Methods ??

No. You should code with purpose and only create things you actually need. You create an instance when you need to, and don't create one when you don't. This is not for performance reasons but to reduce the conceptual weight of your code. If you have to maintain your code, or some elses code, you need to find why is something being done and it takes alot longer to determine that pointless code really is pointless. i.e. It takes longer to look for something which is not there, than something which is.

To support multi-threaded memory allocation, each thread has a thread local allocation buffer or TLAB.

The free space only shows you how much is free in the common pool, but doesn't could the size available in each thread's TLAB. If you allocate enough strings, you will see a sudden jump in memory usage as it loads another block.

What you can do is turn this off with -XX:-UseTLAB

// -XX:+UseTLAB heapUsedBefore: 5,368,848 heapUsedAfter: 5,368,848
// -XX:-UseTLAB heapUsedBefore: 535,048 heapUsedAfter: 535,096

public class One {
    public static void main(String... args) {
        Runtime runtime = Runtime.getRuntime();
        long heapUsedBefore = runtime.totalMemory() - runtime.freeMemory();

        String str = new String();

        long heapUsedAfter = runtime.totalMemory() - runtime.freeMemory();
        System.out.printf("heapUsedBefore: %,d heapUsedAfter: %,d%n", 
                           heapUsedBefore, heapUsedAfter);
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