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I am wondering whether I am overusing java reflection.
I have a class which is a data holder for a couple of maps. I have public get(...) methods which given a key as input return the value associated with it in the corresponding map.
Since the maps are large I load them only when I actually want to access them. So, in every get(...) methods, I check whether the map is null. If it is, I call the corresponding loadMap(..) method.
Here is a sample code snippet

 public getId(String name)  
 {
     try
     {
     if(nameMap1 == null)
        loadNameMap1();
     } catch(...) {....}

     return nameMap1.getId(name);
 }

The problem is that I have multiple maps. So, for loading each map I have a different loadMap(..) method and the try catch block in the get(...) methods. So, instead of that I wrote a method called loadMap(Object map, String methodName) which uses reflection to call the appropriate method, and handles all exceptions.

private synchronized void loadMap(Object map, String methodName)
{
if (map == null)
    try
    {
    Method method = this.getClass().getDeclaredMethod(methodName, new Class[0]);
    method.invoke(this, new Object[0]);
    } 
    catch (..)
}

Am I overusing reflection here? Is there a better way to do this? Does this qualify as "limited use of reflection" as written in Effective Java by Joshua Bloch
(Side note: I cannot refactor the class into multiple classes )

share|improve this question
    
"I cannot refactor the class into multiple classes". And why is that? You can keep the current interface to the outside, but the implementation can be refactored (into using some MapLoader interface), no? –  Thilo Jan 12 '11 at 7:05
    
@Thilo: I do not have control over the design. –  athena Jan 12 '11 at 7:14
    
If you have no control over the design, how come you can decide to use reflection? Surely adding some private inner classes (i.e. implementation details) do not conflict with the design of things. –  Thilo Jan 12 '11 at 7:17
    
@Thilo: Using reflection is allowed. Private inner classes could be used. But I don't see how that can be done here. –  athena Jan 12 '11 at 7:24
    
My answer uses anonymous inner classes. –  Thilo Jan 12 '11 at 7:54

3 Answers 3

up vote 3 down vote accepted
// could also be static
private Map<String, Callable<Map>> myLoaders;

private synchronized void loadMap(Object map, String mapName)
{
if (map == null)
    try
    {
       Callable<Map> mapLoader = myLoaders.get(mapName);
       map = mapLoader.call();
    } 
    catch (..)
}

// and in the constructor or other init code
myLoaders.put("map1", new Callable<Map>(){
     Map call(){
        // load map 1
     }});

I think, though that if all you are doing is move a common try/catch logic from a couple of methods were it needs to be repeated to a single place, this is the wrong approach. You lose a lot of compiler error checking support this way. Some people would use a tool like Aspect/J for this, but I think you just have to live with the fact that Java has no real facility for this, reduce the clutter to a minimum by using shared private functions, and accept the couple of copy/pasted lines. As long as there is no "real code" in those lines, it is not really harmful code duplication.

So:

 public getId(String name){
     try{
        if (nameMap1 == null)
            loadNameMap1();
        }
      catch (....){
          privateHelperFunctionThatCutsThisDownToOneLine(name, "id", "nameMap1");
      }
  }

  // you are left with the above repetitive three (or seven) lines,
  // but that is Java for you...
  // in return, you get nice, static compile-time error checking


 private void privateHelperFunctionThatCutsThisDownToOneLine(){
      // all the long repeated code in the exception handler
      // goes here.
 }
share|improve this answer
    
Thanks a lot. I have implemented your solution. Just out of curiosity, is this some kind of pattern? –  athena Jan 12 '11 at 10:21
    
In Perl, they call it "dispatch table". In Java, it is probably just bad design (unless you want it configurable/extensible at runtime, then it makes sense). –  Thilo Jan 12 '11 at 10:49
    
Why is it bad design? How can it be improved? ( I probably won't be able to change the design but it will still be great to know ) –  athena Jan 13 '11 at 8:48
    
I'll add an alternative approach. –  Thilo Jan 13 '11 at 8:51

I'd say yes you are overusing reflection.

Perhaps you should take a more OO approach

public interface MapMaker <K,V> {
public Map<K,V> create();
}

public class LazyMap<K,V> implements Map<K,V> {

private MapMaker<K,V> creation;
private Map<K,V> theMap = null;

public LazyMap( MapMaker<K,V> creation) {
  this.creation=creation;
}

protected Map<K,V> getMap() {
  if( theMap == null) {
    synchronized(this) {
      if( theMap == null ) {
         theMap = creation.create();
      }
    }
  }
  return theMap;
}
//Map interface
public V get(Object key) { return getMap().get(key); }
//repeat for all
}
share|improve this answer
1  
Good answer but you are implementing a pattern known as double check locking in getMap() and this pattern is known to fail as described in developerworks –  gabuzo Jan 12 '11 at 7:16
    
I know. There isn't AFAIK, a decent way to do this, even with volatile, in java. –  KitsuneYMG Jan 12 '11 at 7:27
    
I just did some browsing on the subject and since Java 5 has a new memory model the double checked lock should be working on a Java 5 or higher JVM. See also at the end of this article –  gabuzo Jan 12 '11 at 9:32

You don't want to load all the maps because they are too large. But using your method you're gonna end up with everything loaded in memory eventually. You may have a look at ehcache which may be configured a a lazy map system with element eviction when no longer needed.

share|improve this answer
    
+1 for mentioning that an eviction strategy may also be necessary. –  Thilo Jan 12 '11 at 7:53

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