I am a software developer from Poland, currently working in banking industry. For the past few years I have been writing software in Java, however I actively seek for a close alternative. Certified in SCJP, SCJD, SCWCD and SCBCD, used to be active on StackOverflow. I feel comfortable at the back-end, however recently rediscovered front-end development. In spare time I love cycling. Tomasz is a DZone MVB and is not an employee of DZone and has posted 86 posts at DZone. You can read more from them at their website. View Full User Profile

String Memory Internals

08.07.2012
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This article is based on my answer on StackOverflow. I am trying to explain how String class stores the texts, how interning and constant pool works.

The main point to understand here is the distinction between String Java object and its contents - char[] under private value field. String is basically a wrapper around char[] array, encapsulating it and making it impossible to modify so the String can remain immutable. Also the String class remembers which parts of this array is actually used (see below). This all means that you can have two different String objects (quite lightweight) pointing to the same char[].

I will show you few examples, together with hashCode() of each String and hashCode() of internal char[] value field (I will call it text to distinguish it from string). Finally I'll show javap -c -verbose output, together with constant pool for my test class. Please do not confuse class constant pool with string literal pool. They are not quite the same. See also Understanding javap's output for the Constant Pool

Prerequisites

For the purpose of testing I created such a utility method that breaks String encapsulation:

private int showInternalCharArrayHashCode(String s) {
    final Field value = String.class.getDeclaredField("value");
    value.setAccessible(true);
    return value.get(s).hashCode();
}

It will print hashCode() of char[] value, effectively helping us understand whether this particular String points to the same char[] text or not.

Two string literals in a class

Let's start from the simplest example.

Java code

String one = "abc";
String two = "abc";

BTW if you simply write "ab" + "c", Java compiler will perform concatenation at compile time and the generated code will be exactly the same. This only works if all strings are known at compile time.

Class constant pool

Each class has its own constant pool - a list of constant values that can be reused if they occur several times in the source code. It includes common strings, numbers, method names, etc.

Here are the contents of the constant pool in our example above:

const #2 = String   #38;    //  abc
//...
const #38 = Asciz   abc;

The important thing to note is the distinction between String constant object (#2) and Unicode encoded text "abc" (#38) that the string points to.

Byte code

Here is generated byte code. Note that both one and two references are assigned with the same #2 constant pointing to "abc" string:

ldc #2; //String abc
astore_1    //one
ldc #2; //String abc
astore_2    //two 

Output

For each example I am printing the following values:

System.out.println("one.value: " + showInternalCharArrayHashCode(one));
System.out.println("two.value: " + showInternalCharArrayHashCode(two));
System.out.println("one" + System.identityHashCode(one));
System.out.println("two" + System.identityHashCode(two));

No surprise that both pairs are equal:

one.value: 23583040
two.value: 23583040
one: 8918249
two: 8918249

Which means that not only both objects point to the same char[] (the same text underneath) so equals() test will pass. But even more, one and two are the exact same references! So one == two is true as well. Obviously if one and two point to the same object then one.value and two.value must be equal.

Literal and new String()

Java code

Now the example we all waited for - one string literal and one new String using the same literal. How will this work?

String one = "abc";
String two = new String("abc");

The fact that "abc" constant is used two times in the source code should give you some hint...

Class constant pool

Same as above.

Byte code

ldc #2; //String abc
astore_1    //one
 
new #3; //class java/lang/String
dup
ldc #2; //String abc
invokespecial   #4; //Method java/lang/String."<init>":(Ljava/lang/String;)V
astore_2    //two

Look carefully! The first object is created the same way as above, no surprise. It just takes a constant reference to already created String (#2) from the constant pool. However the second object is created via normal constructor call. But! The first String is passed as an argument. This can be decompiled to:

String two = new String(one); 

Output

The output is a bit surprising. The second pair, representing references to String object is understandable - we created two String objects - one was created for us in the constant pool and the second one was created manually for two. But why, on earth the first pair suggests that both String objects point to the same char[] value array?!

one.value: 41771
two.value: 41771
one: 8388097
two: 16585653

It becomes clear when you look at how String(String) constructor works (greatly simplified here):

public String(String original) {
    this.offset = original.offset;
    this.count = original.count;
    this.value = original.value;
}

See? When you are creating new String object based on existing one, it reuses char[] value. Strings are immutable, there is no need to copy data structure that is known to be never modified. Moreover, since new String(someString) creates an exact copy of existing string and strings are immutable, there is clearly no reason for the two to exist at the same time.

I think this is the clue of some misunderstandings: even if you have two String objects, they might still point to the same contents. And as you can see the String object itself is quite small.

Runtime modification and intern()

Java code

Let's say you initially used two different strings but after some modifications they are all the same:

String one = "abc";
String two = "?abc".substring(1);  //also two = "abc"

The Java compiler (at least mine) is not clever enough to perform such operation at compile time, have a look:

Class constant pool

Suddenly we ended up with two constant strings pointing to two different constant texts:

const #2 = String   #44;    //  abc
const #3 = String   #45;    //  ?abc
const #44 = Asciz   abc;
const #45 = Asciz   ?abc;

Byte Code

ldc #2; //String abc
astore_1    //one
 
ldc #3; //String ?abc
iconst_1
invokevirtual   #4; //Method String.substring:(I)Ljava/lang/String;
astore_2    //two

The fist string is constructed as usual. The second is created by first loading the constant "?abc" string and then calling substring(1) on it.

Output

No surprise here - we have two different strings, pointing to two different char[] texts in memory:

one.value: 27379847
two.value: 7615385
one: 8388097
two: 16585653

Well, the texts aren't really different, equals() method will still yield true. We have two unnecessary copies of the same text.

Now we should run two exercises. First, try running:

two = two.intern();

before printing hash codes. Not only both one and two point to the same text, but they are the same reference!

one.value: 11108810
two.value: 11108810
one: 15184449
two: 15184449

This means both one.equals(two) and one == two tests will pass. Also we saved some memory because "abc" text appears only once in memory (the second copy will be garbage collected).

The second exercise is slightly different, check out this:

String one = "abc";
String two = "abc".substring(1);

Obviously one and two are two different objects, pointing to two different texts. But how come the output suggests that they both point to the same char[] array?!?

one.value: 23583040
two.value: 23583040
one: 11108810
two: 8918249

I'll leave the answer to you. It'll teach you how substring() works, what are the advantages of such approach and when it can lead to big troubles.

Lessons learnt
  • String object itself is rather cheap. It's the text it points to that consumes most of the memory
  • String is just a thin wrapper around char[] to preserve immutability
  • new String("abc") isn't really that expensive as the internal text representation is reused. But still avoid such construct.
  • When String is concatenated from constant values known at compile time, concatenation is done by the compiler, not by the JVM
  • substring() is tricky, but most importantly, it is very cheap, both in terms of used memory and run time (constant in both cases)
Published at DZone with permission of Tomasz Nurkiewicz, author and DZone MVB. (source)

(Note: Opinions expressed in this article and its replies are the opinions of their respective authors and not those of DZone, Inc.)

Comments

Tao Wu replied on Thu, 2012/08/09 - 2:14am

perfect,thanks

Gundar Abella Posse replied on Thu, 2012/09/06 - 10:20am

Obviously one and two are two different objects, pointing to two different texts. But how come the output suggests that they both point to the same char[] array?!?

 I think in last example the values are misplaced: the strings have the same reference and values are different.

 Great article.

Tomasz Nurkiewicz replied on Sat, 2012/10/20 - 2:30pm in response to: Gundar Abella Posse

Thanks, fixed!

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