If I have two constants known at compile time, the Java compiler will fold them.

final static int foo = 2;
final static int bar = 17;
int myVariable;

int myFunction(){
    return foo*bar + myVariable;

At runtime, myFunction will return 34 + myVariable, and won't need to calculate 2*17 as that was done at compile time.

My question is: would it do the same if the constants aren't known until runtime? I believe this is called runtime code specialization.

final int foo;
final int bar;
int myVariable;

int myFunction(){
    return foo*bar + myVariable;

If foo and bar were initialised as 2 and 17 in the object's constructor, would myFunction be specialised to return 34 + myVariable, or would it still calculate foo*bar every time the function was called, even though foo*bar would never change?

*Edit: I'm referring to the newest version of the JVM, 1.7.0_45.

  • For which JVM, for which version, and on what platform(s)? – Elliott Frisch Jan 4 '14 at 2:14
  • 3
    A nitpick: the JVM is what runs your program. The compiler is what compiles it. – ruakh Jan 4 '14 at 2:18
  • Right, fixed that thanks. – LogicChains Jan 4 '14 at 2:44
  • @ruakh You are correct - but things like JIT, Hotspot etc happens at the JVM stage, not at the compiler stage and they can be described as compilation. – Tim B Jan 4 '14 at 14:44
  • @TimB: "HotSpot" doesn't mean what you think it does: it's just the name of a certain JVM (so named because it performs JIT compilation at "hot spots"), it's not something that "happens". But yes, the JIT compiler runs in the JVM at runtime. – ruakh Jan 4 '14 at 17:47

Hotspot Compiled Assembler

mov r10d,DWORD PTR [rsi+0x8]
shl    r10,0x3
cmp    rax,r10
jne    0x00007fb509045b60        ;   {runtime_call}
data32 xchg ax,ax
nop    WORD PTR [rax+rax*1+0x0]
nop    WORD PTR [rax+rax*1+0x0]
[Verified Entry Point]
sub    rsp,0x18
mov    QWORD PTR [rsp+0x10],rbp  ;*synchronization entry
                                 ;- Main$TestClass::myFunction@-1 (line 25)

mov    eax,DWORD PTR [rsi+0x10]
imul   eax,DWORD PTR [rsi+0xc]
add    eax,DWORD PTR [rsi+0x14]  ;*iadd 
                                 ;- Main$TestClass::myFunction@13 (line 25)
add    rsp,0x10
pop    rbp
test   DWORD PTR [rip+0x15f7a8bf],eax        # 0x00007fb51f087000 

Java Code

public class Main {
    public static void main(String... args) {
        int accm = 0;
        TestClass t = new TestClass(542,452);
            t.myVariable = accm;
            accm += t.myFunction();
            if(false) break;

    public static class TestClass{
        final int foo;
        final int bar;
        public int myVariable = 2;

        public TestClass(int foo, int bar){
            this.foo = foo;
            this.bar = bar;

        int myFunction(){
            return foo*bar + myVariable;

Java Version

java version "1.8.0-ea"
Java(TM) SE Runtime Environment (build 1.8.0-ea-b124)
Java HotSpot(TM) 64-Bit Server VM (build 25.0-b66, mixed mode)


No, it can't.

While I do not understand most of what is going on there, it appears that the function has been inlined into the loop at [Verified Entry Point], but that the constants are not folded because there is a multiplication is still occurring at imul eax,DWORD PTR [rsi+0xc].

  • Thank you for that! I'm surprised that it uses stack allocation rather than storing foo, bar and myVariable in registers, as I believe the latter would be faster. – LogicChains Jan 27 '14 at 2:27

Foo and Bar would never change in that instance they could well be different in different instances though and the system doesn't compile the code separately for every instance of every object. The overhead from doing so would be terrible.

It's possible that the system may detect this but its unlikely, and you certainly couldn't expect all or even most environments to do so. Your best bet will be to store foobar = foo*bar yourself and use that if you think the multiplication is going to have a significant performance impact. (Which is unlikely).

  • What about if the was only going to be one instance of the object; is there still nothing I could do to make it specialise for those values? – LogicChains Jan 4 '14 at 2:49
  • The only way would be to use dynamic code generation and create a class with those two values as static and final. Honestly if this is an issue the foobar route will be much simpler :) – Tim B Jan 4 '14 at 11:14

I have JDK 1.7.0_45 and I compiled this code

class X {
    final int foo;
    final int bar;

    X() {
        foo = 2;
        bar = 17;

    int myVariable;

    int myFunction() {
        return foo * bar + myVariable;

and got this bytecote for myFunction

    ALOAD 0
    GETFIELD test/X.foo : I         <-- load 2
    ALOAD 0
    GETFIELD test/X.bar : I         <-- load 17
    IMUL                            <-- 2 x 17
    ALOAD 0
    GETFIELD test/X.myVariable : I

so answer to "would it calculate foo*bar every time the function was called?" is yes (unless JVM optimizes it)

  • decompiling gives zero info on how JIT potentially will optimize a method though – Eugene Sep 18 '18 at 20:00

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