When I compile this snippet.

public class InternTest {
    public static void main(String...strings ){
        final String str1="str";
        final String str2="ing";
        String str= str1+str2;


Which produces the following byte code

public static void main(java.lang.String...);
     stack=1, locals=4, args_size=1
        0: ldc           #16                 // String str
        2: astore_1
        3: ldc           #18                 // String ing
        5: astore_2
        6: ldc           #20                 // String string
        8: astore_3
        9: return

so string literal "string" is already there in the constant pool which gets pushed 6: ldc #20 // String string on stack at this line.

Quoting JSL

From JLS §4.12.4 - final Variables:

A variable of primitive type or type String, that is final and initialized with a compile-time constant expression (§15.28), is called a constant variable.

Also from JLS §15.28 - ConstantExpression:

Compile-time constant expressions of type String are always "interned" so as to share unique instances, using the method String#intern().

So i know str1 and str2 will be interned the moment it has been created."str" and "ing" will share the same memory at line String str= str1+str2; But how str1+str2 directly produces "string" in the constant string pool. Without invoking any String Builder class like it does when i don't write final. ? To see if it has got anything to do with intern things

I wrote this snippet

public class IntermTest {
    public static void main(String...strings ){
         String str1=("str").intern();
        String str2=("ing").intern();
        String str= str1+str2;


But when i generated the byte code i got this

public static void main(java.lang.String...);
      stack=3, locals=4, args_size=1
         0: ldc           #16                 // String str
         2: invokevirtual #18                 // Method java/lang/String.intern:
         5: astore_1
         6: ldc           #24                 // String ing
         8: invokevirtual #18                 // Method java/lang/String.intern:
        11: astore_2
        12: new           #26                 // class java/lang/StringBuilder
        15: dup
        16: aload_1
        17: invokestatic  #28                 // Method java/lang/String.valueOf
        20: invokespecial #32                 // Method java/lang/StringBuilder.
        23: aload_2
        24: invokevirtual #35                 // Method java/lang/StringBuilder.
        27: invokevirtual #39                 // Method java/lang/StringBuilder.
        30: astore_3
        31: return

Indeed it also uses stringBuilder for concatenation. So it has do something with final. Is there something special about final Strings that I'm definitely not aware of ?

  • Something tells me that this will be answer to your next question: stackoverflow.com/a/19418517/1393766
    – Pshemo
    Commented Apr 26, 2015 at 18:38
  • @Pshemo when this has become clear ..i don't think that would have caused any problem.. Anyway thanks for such nice question .. :) every question is great learning curve ! Commented Apr 26, 2015 at 18:57

1 Answer 1


http://docs.oracle.com/javase/specs/jls/se8/html/jls-15.html#jls-15.28 says that

Simple names (§ that refer to constant variables (§4.12.4) are constant expressions.

http://docs.oracle.com/javase/specs/jls/se8/html/jls-15.html#jls-15.28 also says:

A constant expression is an expression denoting a value of primitive type or a String that does not complete abruptly and is composed using only the following:

  • Literals of primitive type and literals of type String (§3.10.1, §3.10.2, §3.10.3, §3.10.4, §3.10.5)
  • [...]
  • The additive operators + and - (§15.18)
  • [...]
  • Simple names (§ that refer to constant variables (§4.12.4).

Example 15.28-1. Constant Expressions


"The integer " + Long.MAX_VALUE + " is mighty big."

Since those two variables are constant expressions, the compiler does the concatenation:

String str = str1 + str2;

is compiled the same way as

String str = "str" + "ing";

which is compiled the same way as

String str = "string";
  • if compiler does it why it remains hidden in byte code or does it do it somewhere else because if i'm not wrong Modern Java compiler convert my + operations by StringBuilder's append. ? Commented Apr 26, 2015 at 18:35
  • 6
    As I said, the concatenation is done by the compiler itself, and not at runtime. The byte-code generated for the line String str = str1 + str2 is exactly the same byte-code as the one generated for the line String str = "string", because str1 + str2is a constant expression.
    – JB Nizet
    Commented Apr 26, 2015 at 18:37
  • 3
    "because str1 + str2 is a constant expression" or to be more precise because str1 and str2 are not just any constants, but compile time constants which allows compiler to calculate it once and place result in code instead of recalculating it at runtime each time we execute this code.
    – Pshemo
    Commented Apr 26, 2015 at 19:19

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