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Let's say I have a method with the following signature:

public int indexOf(byte[] bytes, byte toFind, int offset, int length) {

This method does something simple like look for the byte toFind in the range [offset, offset+length) in bytes. I want to check up-front whether offset and length are valid for bytes. That is, that offset and offset + length fall in bytes.

The explicit check would look something like:

if (offset < 0 || offset > bytes.length - length) {
  throw ...;  // bad santa!

It seems that I can perform this more cheaply (in terms of emitted bytecode, and perhaps runtime performance) by performing "dummy" array access instead:

public int indexOf(byte[] bytes, byte toFind, int offset, int length) {
  int dummy = bytes[offset] + bytes[offset + length - 1];

I'd like to get rid of the int dummy and + if I could, or reduce their cost. The compiler doesn't like standalone accesses like bytes[offset];, presumably because an expression like this usually doesn't have side effects and is pointless (but not so in this case). Using the dummy int also causes a compiler warning which must be suppressed.

Any suggestions on how I can make the change with a minimum amount of bytecode (runtime performance is important here too, but I suspect that most solutions are optimized to the same thing as unused portions are dropped).

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Comments of the form "have you profiled this?", "is this really the bottleneck in your application", "will a few bytes/nanoseconds matter here", "smells like premature optimization" will be ignored. – BeeOnRope Jan 3 '13 at 22:59
Can you directly manipulate bytecode? Or are you limited to emitting Java code? – templatetypedef Jan 3 '13 at 23:03
@templatetypedef - .java code only. – BeeOnRope Jan 3 '13 at 23:07
Are you trying to minimize generated bytecode? Or minimize runtime? – templatetypedef Jan 3 '13 at 23:09
@BeeOnRope Note that your 2 examples are not equivalent. In particular, for offset = 3 and length = -1 for example, the first throws an exception but not the second. – assylias Jan 3 '13 at 23:09
up vote 2 down vote accepted

How about this ?

if ((bytes[offset] | bytes[offset+length-1])==0) { }
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I hope that just executing bytes[offset] and bytes[offset + length - 1] is the cheapest way. The shortest way in JVM bytecode would be just to execute these expressions and leave it on the operand stack.

However, you can't do it in Java. You also can't use pop2 instruction (or two pop instructions), because bytes[something] is not a valid Java command. There are three potentially best ways:

  1. Use a method call like int java.lang.Math.max(int, int). This adds one 3-byte invokestatic instruction and one 1-byte pop instruction. So, it is a 4-byte overhead. You can save one byte, if you write a static dummy method with two int arguments and void result. An intelligent JVM optimizer would probably reduce this code to one pop2 instruction, since Math.max(...) has no side effect and you discard the result by pop instruction. However, I am not sure if this applies for Hotspot.
  2. Assign it to a local variable. One assign means one istore instruction. If you have five parameters (including this, because the method is not static), you use the generic 2-byte istore version instead of 1-byte istore_<n> (for n in {0, 1, 2, 3}). If you had at most three parameters, you would probably save something by reducing scope of the dummy variable.
  3. Compare it (=> generate boolean) and use an empty branch, i.e. if ((bytes[offset] == bytes[offset+length-1])) { }. In this case, you don't need any extra method (like max or pop2) or any extra local variable (which enlarges local variable table).

If you don't use any further optimizer and you don't modify the method signature to use less variables, the third way is probably a winner. In my simple test, it requires only 16 bytes for instrutions (some other implementations are equal, but not better) and does not require anything more in local variable table or constant pool. You probably can save several bytes by manual bytecode optimisations or by Proguard. But be careful, Proguard may optimize it too much and remove the array access. (I am not sure, but it claims in documentation that it may remove some NullPointerExceptions.)


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Not sure about the bytecode length, but how about:

bytes[offset] |= bytes[offset];
bytes[offset + length - 1] |= bytes[offset + length - 1];
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