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I decompiled Java (actually Dalvik) bytecode. In the beginning of a method, I access a field of an instance member directly (i.e. not through a getter).

It seems tha Java calls Object.getClass() on the accessed instance member (mOther), but doesn't use the result anywhere. Is this some sort of check? Why is this call needed? I suspect it is because I access a field directly (which is defined in that class), but I don't see the connection.

The Java code and the decompiled bytecode are as follows.

(Note that the last instruction loads lifeTime as constant 0x0001 because in MyOtherClass, I have lifeTime as a public final field, and is currently initialized from code.)

MyOtherClass other = mOther;
if (mAge >= other.lifeTime) { // lifeTime is initialized to 0x0001
   end();
   return;
}

.line 53
move-object/from16 v0, p0
iget-object v0, v0, Lcom/example/engine/MyClass1;->mOther:Lcom/example/engine/MyOtherClass;
move-object/from16 v16, v0

.line 54
.local v16, other:Lcom/example/engine/MyOtherClass;
move-object/from16 v0, p0

iget v0, v0, Lcom/example/engine/MyClass1;->mAge:I
move/from16 v18, v0

// Why is Object->getClass() called?
invoke-virtual/range {v16 .. v16}, Ljava/lang/Object;->getClass()Ljava/lang/Class;

const/16 v19, 0x0001

UPDATE:

It was requested in comments that I provide the method's full source code. Note that mOther is a final field (for performance reasons). Here you're:

@Override
public void doStep() {
    MyOtherClass other = mOther;
    if (mAge >= other.lifeTime) {
        end();
        return;
    }
    mAge += TICK_TIME;      

    boolean isSurrounded = false;
    if (mAge > mLastSurroundTime + other.surroundingTime) {
        int distance = (int)other.maxSurroundDistance;          

        for (int bx = bx0; bx <= bx1; ++bx) {
            if (bx < 0 || bx >= mSize) { continue; }
            for (int by = by0; by <= by1; ++by) {
                if (by < 0 || by >= mSize) { continue; }
                ArrayList<WorldObject> candidates = getCandidatesAtPos(bx, by);
                for (int i = 0; i < candidates.size(); ++i) {
                    WorldObject obj = candidates.get(i);
                    if (mSelf!= obj && mSelf.getDistanceFrom(obj) <= other.maxSurroundDistance) {
                        obj.notifyDangerImminent(mSelf);
                        isSurrounded = true;
                    }
                }
            }
        }
        if (isSurrounded) { mLastSurroundTime = mAge; }
    }
}
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Can you supply the full source for the function that you're decompiling, including its declaration? I think you're omitting some details that are salient to your question. –  danfuzz Oct 29 '12 at 5:19
    
@danfuzz ha. you beat me to it :) –  JesusFreke Oct 29 '12 at 5:29
    
@danfuzz: done. –  Thomas Calc Oct 29 '12 at 5:57
    
Hrm, still unclear (sorry). Can you also include the rest of the decompilation of the function? Even better, maybe you can pare down the function (e.g. get rid of the loops and maybe even one of the if statements), and decompile that. Might still have the curiosity you're interested in. –  danfuzz Oct 29 '12 at 6:04
    
It might be important to note that it's Dalvik VM, not JVM. I'm developing for Android 2.2 (and above). I am using the popular baksmali disassembler for DEX files. Today, I'll try to pare down the function iteratively and will also check how it changes the decompiled bytecode (and whether the getClass() still remains or not). –  Thomas Calc Oct 29 '12 at 6:19

1 Answer 1

I'm assuming lifeTime is a final field that is assigned upon declaration:

 final int lifeTime = 0x0001;

If so, the bytecode is optimized in the following way (it has next to nothing to do with the VM, pure compiler magic):

  • There's no need to really fetch data from memory: all that's needed is to load a constant 1.
  • But what if the owner of the field happens to be null? In this case a NullPointerException must be thrown. To guarantee such behavior compilers emit calls to getClass(), because
    • actually checking for null, constructing a new instance of NullPointerException and throwing it is a lot more byte code,
    • such calls are very optimized in the VM,
    • this method is always available,
    • it takes no arguments.

A simpler example:

class Test {
    private final int myFinalField = 1;

    int test(Test t) {
        return t.myFinalField;
    }
}

If we look at the byte codes of the test() method (JVM this time, but should you translate it to Dalvik, it will be essentially the same), here is a call to getClass() too:

 // access flags 0x0
  test(LTest;)I
   L0
    LINENUMBER 5 L0

    // load t
    ALOAD 1

    // if (t == null) throw new NullPointerException(); compressed in only two instructions
    INVOKEVIRTUAL java/lang/Object.getClass ()Ljava/lang/Class;
    POP

    // the actual value of myFinalField
    ICONST_1

    IRETURN
   L1
    LOCALVARIABLE this LTest; L0 L1 0
    LOCALVARIABLE t LTest; L0 L1 1
    MAXSTACK = 1
    MAXLOCALS = 2
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