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Recently I refactored the code of a 3rd party hash function from C++ to C. The process was relatively painless, with only a few changes of note. Now I want to write the same function in Java and I came upon a slight issue.

In the C/C++ code there is a C preprocessor macro that takes a few integer variables names as arguments and performs a bunch of bitwise operations with their contents and a few constants. That macro is used in several different places, therefore its presence avoids a fair bit of code duplication.

In Java, however, there is no equivalent for the C preprocessor. There is also no way to affect any basic type passed as an argument to a method - even autoboxing produces immutable objects. Coupled with the fact that Java methods return a single value, I can't seem to find a simple way to rewrite the macro.

Avenues that I considered:

  • Expand the macro by hand everywhere: It would work, but the code duplication could make things interesting in the long run.

  • Write a method that returns an array: This would also work, but it would repeatedly result into code like this:

    long tmp[] = bitops(k, l, m, x, y, z);
    
    k = tmp[0];
    l = tmp[1];
    m = tmp[2];
    x = tmp[3];
    y = tmp[4];
    z = tmp[5];
    
  • Write a method that takes an array as an argument: This would mean that all variable names would be reduced to array element references - it would be rather hard to keep track of which index corresponds to which variable.

  • Create a separate class e.g. State with public fields of the appropriate type and use that as an argument to a method: This is my current solution. It allows the method to alter the variables, while still keeping their names. It has the disadvantage, however, that the State class will get more and more complex, as more macros and variables are added, in order to avoid copying values back and forth among different State objects.

How would you rewrite such a C macro in Java? Is there a more appropriate way to deal with this, using the facilities provided by the standard Java 6 Development Kit (i.e. without 3rd party libraries or a separate preprocessor)?

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1  
Use macros, and run the C pre-processor on your code =). –  Conrad Meyer Mar 17 '11 at 23:51
    
I would just use the State objects as you do. –  Gabe Mar 17 '11 at 23:51
    
"it would be rather hard to keep track of which index corresponds to which variable." - there's always final int variables for that kind of thing. So it's probably not that bad, since if you squint a bit state[k] looks a lot like state.k, but obviously still not preferred. –  Steve Jessop Mar 18 '11 at 0:03
    
I love my Java, but it does have some serious shortcomings :/ –  Matt Crinklaw-Vogt Mar 18 '11 at 0:05

2 Answers 2

up vote 3 down vote accepted

Option 3, create you own MutableInteger wrapper class.

struct MutableInteger{
  public MutableInteger(int v) { this.value = value;}
  public int value;
}

public void swap3( MutableInteger k, MutableInteger l, MutableInteger m) {
  int t = m.value;
  m.value = l.value
  l.value=k.value;
  k.value=t;
}
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+1 Considering that I have already written a whole bunch of Mutable* classes, I don't know why I didn't think about this. I should probably bang (softly) my head on the desk and get either more sleep or more coffee... –  thkala Mar 18 '11 at 0:03
5  
The "sleep" option is highly recommended. –  Stephen C Mar 18 '11 at 0:06
5  
@Stephen my sleep method throws CryingBabyInterruptedException ;-( –  corsiKa Mar 18 '11 at 0:07
    
There was a time we used arrays of size 1 for pointer-like uses (such as capturing non-final variables in anonymous inner classes). I don't really do Java any more, I guess now a Mutable<T> generic class would be the way to go? –  Steve Jessop Mar 18 '11 at 0:20
    
@Steve Jessop: Generics do not work for primitive types. Using a generic class for such a type would imply using e.g. Integer, with all the performance issues of autoboxing... –  thkala Mar 18 '11 at 0:48

Create a separate class e.g. State with public fields of the appropriate type and use that as an argument to a method

This, but as an intermediate step. Then continue refactoring - ideally class State should have private fields. Replace the macros with methods to update this state. Then replace all the rest of your code with methods that update the state, until eventually your program looks like:

System.out.println(State(System.in).hexDigest());

Finally, rename State to SHA1 or whatever ;-)

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+1 This would definitely work, as long as the State class is not static. I guess the context switch from C to Java has left me a little confused, because I was set on the hash methods being all static for no reason whatsoever... –  thkala Mar 18 '11 at 0:07
    
@thkala: it does depend a bit whether you want the Java code to look like the C code or not. For instance if the author of the C code will make changes in future, and you'll have to update the Java code to match, then you might not want to rewrite it in a more OO way, because in that particular case it would actually impede maintenance rather than assisting it. But if this is a one-off rewrite, definitely refactor as far away from the original source as you need. –  Steve Jessop Mar 18 '11 at 0:16

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