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java - JIT not optimizing loop that involves Integer.MAX_VALUE

While writing an answer to another question, I noticed a strange border case for JIT optimization.

The following program is not a "Microbenchmark" and not intended to reliably measure an execution time (as pointed out in the answers to the other question). It is solely intended as an MCVE to reproduce the issue:

class MissedLoopOptimization
{
    public static void main(String args[])
    {
        for (int j=0; j<3; j++)
        {
            for (int i=0; i<5; i++)
            {
                long before = System.nanoTime();
                runWithMaxValue();
                long after = System.nanoTime();
                System.out.println("With MAX_VALUE   : "+(after-before)/1e6);
            }
            for (int i=0; i<5; i++)
            {
                long before = System.nanoTime();
                runWithMaxValueMinusOne();
                long after = System.nanoTime();
                System.out.println("With MAX_VALUE-1 : "+(after-before)/1e6);
            }
        }
    }

    private static void runWithMaxValue()
    {
        final int n = Integer.MAX_VALUE;
        int i = 0;
        while (i++ < n) {}
    }

    private static void runWithMaxValueMinusOne()
    {
        final int n = Integer.MAX_VALUE-1;
        int i = 0;
        while (i++ < n) {}
    }
}

It basically runs the same loop, while (i++ < n){}, where the limit n is once set to Integer.MAX_VALUE, and once to Integer.MAX_VALUE-1.

When executing this on Win7/64 with JDK 1.7.0_21 and

java -server MissedLoopOptimization

the timing results are as follows:

...
With MAX_VALUE   : 1285.227081
With MAX_VALUE   : 1274.36311
With MAX_VALUE   : 1282.992203
With MAX_VALUE   : 1292.88246
With MAX_VALUE   : 1280.788994
With MAX_VALUE-1 : 6.96E-4
With MAX_VALUE-1 : 3.48E-4
With MAX_VALUE-1 : 0.0
With MAX_VALUE-1 : 0.0
With MAX_VALUE-1 : 3.48E-4

Obviously, for the case of MAX_VALUE-1, the JIT does what one could expect: It detects that the loop is useless, and completely eliminates it. However, it does not remove the loop when it is running up to MAX_VALUE.

This observation is confirmed by a look at the JIT assembly output when starting with

java -server -XX:+UnlockDiagnosticVMOptions -XX:+TraceClassLoading -XX:+LogCompilation -XX:+PrintAssembly MissedLoopOptimization

The log contains the following assembly for the method that runs up to MAX_VALUE:

Decoding compiled method 0x000000000254fa10:
Code:
[Entry Point]
[Verified Entry Point]
[Constants]
  # {method} &apos;runWithMaxValue&apos; &apos;()V&apos; in &apos;MissedLoopOptimization&apos;
  #           [sp+0x20]  (sp of caller)
  0x000000000254fb40: sub    $0x18,%rsp
  0x000000000254fb47: mov    %rbp,0x10(%rsp)    ;*synchronization entry
                                                ; - MissedLoopOptimization::runWithMaxValue@-1 (line 29)
  0x000000000254fb4c: mov    $0x1,%r11d
  0x000000000254fb52: jmp    0x000000000254fb63
  0x000000000254fb54: nopl   0x0(%rax,%rax,1)
  0x000000000254fb5c: data32 data32 xchg %ax,%ax
  0x000000000254fb60: inc    %r11d              ; OopMap{off=35}
                                                ;*goto
                                                ; - MissedLoopOptimization::runWithMaxValue@11 (line 30)
  0x000000000254fb63: test   %eax,-0x241fb69(%rip)        # 0x0000000000130000
                                                ;*goto
                                                ; - MissedLoopOptimization::runWithMaxValue@11 (line 30)
                                                ;   {poll}
  0x000000000254fb69: cmp    $0x7fffffff,%r11d
  0x000000000254fb70: jl     0x000000000254fb60  ;*if_icmpge
                                                ; - MissedLoopOptimization::runWithMaxValue@8 (line 30)
  0x000000000254fb72: add    $0x10,%rsp
  0x000000000254fb76: pop    %rbp
  0x000000000254fb77: test   %eax,-0x241fb7d(%rip)        # 0x0000000000130000
                                                ;   {poll_return}
  0x000000000254fb7d: retq   
  0x000000000254fb7e: hlt    
  0x000000000254fb7f: hlt    
[Exception Handler]
[Stub Code]
  0x000000000254fb80: jmpq   0x000000000254e820  ;   {no_reloc}
[Deopt Handler Code]
  0x000000000254fb85: callq  0x000000000254fb8a
  0x000000000254fb8a: subq   $0x5,(%rsp)
  0x000000000254fb8f: jmpq   0x0000000002528d00  ;   {runtime_call}
  0x000000000254fb94: hlt    
  0x000000000254fb95: hlt    
  0x000000000254fb96: hlt    
  0x000000000254fb97: hlt    

One can clearly see the loop, with the comparison to 0x7fffffff and the jump back to inc. In contrast to that, the assembly for the case where it is running up to MAX_VALUE-1:

Decoding compiled method 0x000000000254f650:
Code:
[Entry Point]
[Verified Entry Point]
[Constants]
  # {method} &apos;runWithMaxValueMinusOne&apos; &apos;()V&apos; in &apos;MissedLoopOptimization&apos;
  #           [sp+0x20]  (sp of caller)
  0x000000000254f780: sub    $0x18,%rsp
  0x000000000254f787: mov    %rbp,0x10(%rsp)    ;*synchronization entry
                                                ; - MissedLoopOptimization::runWithMaxValueMinusOne@-1 (line 36)
  0x000000000254f78c: add    $0x10,%rsp
  0x000000000254f790: pop    %rbp
  0x000000000254f791: test   %eax,-0x241f797(%rip)        # 0x0000000000130000
                                                ;   {poll_return}
  0x000000000254f797: retq   
  0x000000000254f798: hlt    
  0x000000000254f799: hlt    
  0x000000000254f79a: hlt    
  0x000000000254f79b: hlt    
  0x000000000254f79c: hlt    
  0x000000000254f79d: hlt    
  0x000000000254f79e: hlt    
  0x000000000254f79f: hlt    
[Exception Handler]
[Stub Code]
  0x000000000254f7a0: jmpq   0x000000000254e820  ;   {no_reloc}
[Deopt Handler Code]
  0x000000000254f7a5: callq  0x000000000254f7aa
  0x000000000254f7aa: subq   $0x5,(%rsp)
  0x000000000254f7af: jmpq   0x0000000002528d00  ;   {runtime_call}
  0x000000000254f7b4: hlt    
  0x000000000254f7b5: hlt    
  0x000000000254f7b6: hlt    
  0x000000000254f7b7: hlt    

So my question is: What is so special about the Integer.MAX_VALUE that prevents the JIT from optimizing it in the same way as it does for Integer.MAX_VALUE-1? My guess would be that has to do with the cmp instruction, which is intended for signed arithmetic, but that alone is not really a convincing reason. Can anybody explain this, and maybe even give a pointer to the OpenJDK HotSpot code where this case is treated?

(An aside: I hope that the answer will also explain the different behavior between i++ and ++i that was asked for in the other question, assuming that the reason for the missing optimization is (obviously) actually caused by the Integer.MAX_VALUE loop limit)

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1 Answer

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I have not dug up the Java Language Specification, but I'd guess that it has to do with this difference:

  • i++ < (Integer.MAX_VALUE - 1) never overflows. Once i reaches Integer.MAX_VALUE - 1 it is incremented to Integer.MAX_VALUE and then the loop terminates.

  • i++ < Integer.MAX_VALUE contains an integer overflow. Once i reaches Integer.MAX_VALUE, it is incremented by one causing an overflow and then the loop terminates.

I assume that the JIT compiler is "reluctant" to optimize-out loops with such corner conditions - there was a whole bunch of bugs w.r.t. loop optimization in integer overflow conditions, so that reluctance is probably quite warranted.

There may also be some hard requirement that does not allow integer overflows to be optimized-out, although I somehow doubt that since integer overflows are not directly detectable or otherwise handled in Java.


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