Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I need a data structure which behaves like a Map, but uses multiple (differently-typed) keys to access its values.
(Let's don't be too general, let's say two keys)

Keys are guaranteed to be unique.

Something like:

MyMap<K1,K2,V> ...

With methods like:

getByKey1(K1 key)...
getByKey2(K2 key)...
containsKey1(K1 key)...
containsKey2(K2 key)...

Do you have any suggestions?

The only thing I can think of is:
Write a class which uses two Maps internally.

EDIT Some people suggest me to use a tuple, a pair, or similar as a key for Java's Map, but this would not work for me:
I have to be able, as written above, to search values by only one of the two keys specified.
Map uses hashcodes of keys and checks for their equality.

share|improve this question

24 Answers 24

up vote 53 down vote accepted

Two maps. One Map<K1, V> and one Map<K2, V>. If you must have a single interface, write a wrapper class that implements said methods.

share|improve this answer
4  
Er, yeah, this is exactly what you proposed. Two Maps is the way to go. To extend to an arbitrary number of keys, have a method like getByKey(MetaKey mk, Object k) and then a Map<MetaKey, Map<Object, V>> internally. –  Jeremy Huiskamp May 4 '09 at 22:21

Commons-collections provides just what you are looking for: http://commons.apache.org/proper/commons-collections/javadocs/api-release/index.html

Looks like now the commons-collections is typed.

A typed version can be found at: https://github.com/megamattron/collections-generic

This will exactly support your use case:

 MultiKeyMap<k1,k2,...,kn,v> multiMap = ??
share|improve this answer
    
I believe using generics (with the alternate collections lib) is only possible if all of your keys are of the same type. MultiKeyMap<k1,k2,v> simply does not compile. –  gdw2 Aug 16 '12 at 11:42
    
+1 for Apache, please update your broken link –  klerik Feb 5 at 22:07
6  
I think this unswer is wrong. There is no way to get a value from commons MultiKeyMap just by using a second key. You always need to specify both key1 and key2. Why did this answer get so many up votes??? –  Dime Jun 25 at 7:02
    
@Dime idioms / shorter / simpler coding is often seen as universally better than any other solution. Have seen many answers where the best solution (imo) was technical and lower level, but a recommendation to use a framework/API was up-voted way higher. People are afraid to re-implement code as they feel it may be buggy too. –  Zombies Sep 27 at 19:59
    
@Zombies, you did not get my point. There is no way you can solve the initial problem with Commons-collections's MultiKeyMap class. If there is, please, explain it. –  Dime Sep 29 at 9:28

I'm still going suggest the 2 map solution, but with a tweest

Map<K2, K1> m2;
Map<K1, V>  m1;

This scheme lets you have an arbitrary number of key "aliases".

It also lets you update the value through any key without the maps getting out of sync.

share|improve this answer
    
that's a good idea! –  ivan_ivanovich_ivanoff May 5 '09 at 1:30
11  
The only problem with this is if you dont have K1. –  Milhous May 5 '09 at 1:59
    
Milhous: Yes that is a problem with this solution. –  Logan Capaldo May 5 '09 at 2:17
    
Updating is a problem in my response as well. Eg. you store value "1" with K1=A and K2=B, then you store value "1" with K1=C and K2=D. Now you try to set value = "2" where K1=A. How do you know which K2 to use? Logan, your solution works, but you might also want to keep a Map<K1, K2> as well. This is probably getting a bit theoretical though, as it doesn't look like the original question takes updates into account. –  Jeremy Huiskamp May 5 '09 at 4:29
    
This requires two look ups for every value access, which is a 100 % performance penalty. –  ceving Mar 15 '13 at 15:40

Yet another solution is to use Google's Guava

import com.google.common.collect.Table;
import com.google.common.collect.HashBasedTable;

Table<String, String, Integer> table = HashBasedTable.create();

The usage is really simple:

String row = "a";
String column = "b";
int value = 1;

if (!table.contains(row, column)) {
    table.put(row, column, value);
}

System.out.println("value = " + table.get(row, column));

The method HashBasedTable.create() is basically doing something like this:

Table<String, String, Integer> table = Tables.newCustomTable(
        Maps.<String, Map<String, Integer>>newHashMap(),
        new Supplier<Map<String, Integer>>() {
    public Map<String, Integer> get() {
        return Maps.newHashMap();
    }
});

if you're trying to create some custom maps, you should go for the second option (as @Karatheodory suggests) otherwise you should be fine with the first one.

share|improve this answer
    
In the example above, it would be better to use Guava's default factory for hash-based tables: HashBasedTable.create(). The newCustomTable() method should only be used for truly custom maps. –  Karatheodory Jun 3 at 9:29

Proposal, as suggested by some answerers:

public interface IDualMap<K1, K2, V> {

	/**
	* @return Unmodifiable version of underlying map1
	*/
	Map<K1, V> getMap1();

	/**
	* @return Unmodifiable version of underlying map2
	*/
	Map<K2, V> getMap2();

	void put(K1 key1, K2 key2, V value);

}

public final class DualMap<K1, K2, V>
		implements IDualMap<K1, K2, V> {

	private final Map<K1, V> map1 = new HashMap<K1, V>();

	private final Map<K2, V> map2 = new HashMap<K2, V>();

	@Override
	public Map<K1, V> getMap1() {
		return Collections.unmodifiableMap(map1);
	}

	@Override
	public Map<K2, V> getMap2() {
		return Collections.unmodifiableMap(map2);
	}

	@Override
	public void put(K1 key1, K2 key2, V value) {
		map1.put(key1, value);
		map2.put(key2, value);
	}
}
share|improve this answer

Why not just drop the requirement that the key has to be a specific type, i.e. just use Map<Object,V>.

Sometimes generics just isn't worth the extra work.

share|improve this answer

I created this to solve a similar issue.

Datastructure

import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;

public class HashBucket {
    HashMap<Object, ArrayList<Object>> hmap;

    public HashBucket() {
        hmap = new HashMap<Object, ArrayList<Object>>();
    }

    public void add(Object key, Object value) {
        if (hmap.containsKey(key)) {
            ArrayList al = hmap.get(key);
            al.add(value);
        } else {
            ArrayList al = new ArrayList<Object>();
            al.add(value);
            hmap.put(key, al);
        }
    }

    public Iterator getIterator(Object key) {
        ArrayList al = hmap.get(key);
        return hmap.get(key).iterator();

    }

}

Retrieve a value:

(Note* Cast the Object back to the inserted type. In my case it was my Event Object)

    public Iterator getIterator(Object key) {
        ArrayList al = hmap.get(key);
        if (al != null) {
            return hmap.get(key).iterator();
        } else {
            List<Object> empty = Collections.emptyList();
            return empty.iterator();
        }

    }

Inserting

Event e1 = new Event();
e1.setName("Bob");
e1.setTitle("Test");
map.add("key",e1);
share|improve this answer
// What about you declare the following "Key" class:

public class Key {
   public Object key1, key2, ..., keyN;

   public Key(Object key1, Object key2,..., Object keyN) {
      this.key1 = key1;
      this.key2 = key2;
      ...
      this.keyN = keyN;
   }

   @Override   
   public boolean equals(Object o) {
      if (!(o instanceof Key))
        return false;
      Key ref = (Key) key;
      if (!this.key1.equals(ref.key1));
        return false;
      if (!this.key2.equals(ref.key2));
        return false;
      ...
      if (!this.keyN.equals(ref.keyN));
        return false;
      return true;
   }
}

// Declaring the Map
Map<Key,Double> map = new TreeMap<Key,Double>();

// Declaring the key object
Key key = new Key(key1,key2,...,keyN)

// Filling the map
map.put(key, new Double(0))

// Getting the object from the map
Double result = map.get(key);
share|improve this answer
8  
Welcome to Stack Overflow! Rather than only post a block of code, please explain why this code solves the problem posed. Without an explanation, this is not an answer. –  Martijn Pieters Nov 8 '12 at 18:35

Sounds like a Python tuple. Following in that spirit, you can create an immutable class of your own devising that implements Comparable and you'll have it.

share|improve this answer

I can see the following approaches:

a) Use 2 different maps. You can wrap them in a class as you suggest, but even that might be an overkill. Just use the maps directly: key1Map.getValue(k1), key2Map.getValue(k2)

b) You can create a type-aware key class, and use that (untested).

public class Key {
  public static enum KeyType { KEY_1, KEY_2 }

  public final Object k;
  public final KeyType t;

  public Key(Object k, KeyType t) {
    this.k = k;
    this.t= t;
  }

  public boolean equals(Object obj) {
    KeyType kt = (KeyType)obj;
    return k.equals(kt.k) && t == kt.t;
  }

  public int hashCode() {
   return k.hashCode() ^ t.hashCode();
  }
}

By the way, in a lot of common cases the space of key1 and the space of key2 do not intersect. In that case, you don't actually need to do anything special. Just define a map that has entries key1=>v as well as key2=>v

share|improve this answer
    
Could you please comment on consistency of hashcode vs equals of your proposal b)? And why do you say 'overkill' for a)? Thank you –  ivan_ivanovich_ivanoff May 4 '09 at 22:43
    
hashcode seems consistent with equals to me in that any time two objects are equal their hashcodes will be equal. Not that the other way is not a requirement, although a desirable property of the hash function. Using primes is another option as per "Effective Java", e.g. k.hashCode() * 17 + t.hashCode(). More info: ibm.com/developerworks/java/library/j-jtp05273.html –  ykaganovich May 4 '09 at 23:46
    
To expand on the "overkill" statement, multiKeyMap.getValueByKey1(k) doesn't seem any cleaner to me (subjectively) than key1Map.getValue(k), either in terms of verbosity or the amount of semantic information conveyed. I don't know your specific usecase though. –  ykaganovich May 5 '09 at 0:38

all multy key's probably fail, cause the put([key1, key2], val) and the get([null, key2]) end up using the equals of [key1, key2] and [null, key2]. If the backing map doesnt contains hash buckets per key then lookups are real slow to.

i think the way to go is using a index decorator (see the key1, key2 examples above) and if the extra index key's are properties of the stored value you can use the property name's and reflection to build the secondairy maps when you put(key, val) and add an extra method get(propertyname, propertyvalue) to use that index.

the return type of the get(propertyname, propertyvalue) could be a Collection so even none unique key's are indexed....

share|improve this answer

Define a class that has an instance of K1 and K2. Then use that as class as your key type.

share|improve this answer
    
Same here: this would be a problem with equality of keys when searching only for K1 or K2. –  ivan_ivanovich_ivanoff May 4 '09 at 22:14
    
In C++, you could override the equality test to be true if either member is equal, rather than the default that's true only if both are equal. Is that not possible in Java? –  Charlie Tangora May 4 '09 at 22:16
2  
It is perfectly possible, but it might not have the desired effect; if your map implementation relies upon the object's hash code, as in a HashMap, then that screws everything to hell. –  Rob May 5 '09 at 0:56
    
Override the hash. –  Ryan The Leach Apr 27 at 18:05

See Google Collections. Or, as you suggest, use a map internally, and have that map use a Pair. You'll have to write or find Pair<>; it's pretty easy but not part of the standard Collections.

share|improve this answer
    
The problem with Pair would be it's equality. If I want to search only by Key1 or only by Key2, such map would never find anything. –  ivan_ivanovich_ivanoff May 4 '09 at 22:13
    
It would not be at all hard to select the set of Pairs satisfying a K1 or K2 constraint, and thence to select the corresponding map elements. –  Carl Manaster May 4 '09 at 22:24

Sounds like your solution is quite plausible for this need, I honestly don't see a problem with it if your two key types are really distinct. Just makes ure you write your own implementation for this and deal with synchronization issues if needed.

share|improve this answer

If you intend to use combination of several keys as one, then perhaps apache commnons MultiKey is your friend. I don't think it would work one by one though..

share|improve this answer
    
I would advice EVERYONE against Apache Collections. Since nearly 6 years we have Java 5 with its generic types, which Apache Collections doesn't support. –  ivan_ivanovich_ivanoff May 4 '09 at 22:23
    
... and they break interface conventions quite a bit - see MultiMap (and how it would be impossible to make it a Map<K,V>) –  Stephen May 5 '09 at 0:40
    
thanks for the tip –  Dima May 5 '09 at 10:08
3  
Actually, commons collections was forked to support generics, see this project here: sourceforge.net/projects/collections –  Dima May 25 '09 at 16:48

Depending on how it will be used, you can either do this with two maps Map<K1, V> and Map<K2, V> or with two maps Map<K1, V> and Map<K2, K1>. If one of the keys is more permanent than the other, the second option may make more sense.

share|improve this answer

It would seem to me that the methods you want in your question are supported directly by Map. The one(s) you'd seem to want are

put(K1 key, K2 key, V value)
put(K1 key, V value)
put(K2 key, V value)

Note that in map, get() and containsKey() etc all take Object arguments. There's nothing stopping you from using the one get() method to delegate to all the composite maps that you combine (as noted in your question and other answers). Perhaps you'd need type registration so you don't get class casting problems (if they're special + implemented naively.

A typed based registration would also allow you to retrieve the "correct" map to be used:

Map<T,V> getMapForKey(Class<T> keyClass){
  //Completely naive implementation - you actually need to 
  //iterate through the keys of the maps, and see if the keyClass argument
  //is a sub-class of the defined map type.  And then ordering matters with 
  //classes that implement multiple interfaces...
  Map<T,V> specificTypeMap = (Map<T,V) maps.get(keyClass);
  if (specificTypeMap == null){
     throw new IllegalArgumentException("There is no map keyed by class" + keyClass);
  }
  return maps.get(keyClass);
}

V put(Object key, V value) {
  //This bit requires generic suppression magic - but 
  //nothing leaves this class and you're testing it right? 
  //(You can assert that it *is* type-safe)
  Map map = getMapForKey(key.getClass());
  map.put(object, key);
}

void put(Object[] keys, V value) { //Or put(V value, Object ... keys)
   //Might want to catch exceptions for unsupported keys and log instead?
   .....
}

Just some ideas...

share|improve this answer

sol: cancatenate both keys and make a final key, use this as key.

for key values ,

concatenate ket-1, and key-2 with a come " , " in beetween, use this as original key.

key = key-1 + "," + key-2;

myMap.put(key,value);

similarly while retriving values.

share|improve this answer
    
what about all the classes that cant be accurately represented as strings? –  Janus Troelsen Mar 20 '12 at 12:31

I would suggest the structure

Map<K1, Map<K2, V>>

although searching for the second key might not be efficient

share|improve this answer

I recommend something like this:

    public class MyMap {

      Map<Object, V> map = new HashMap<Object, V>();


      public V put(K1 key,V value){
        return map.put(key, value);
      }

      public V put(K2 key,V value){
        return map.put(key, value);
      }

      public V get(K1 key){    
        return map.get(key);
      }

      public V get(K2 key){    
        return map.get(key);
      }

      //Same for conatains

    }

Then you can use it like:
myMap.put(k1,value) or myMap.put(k2,value)

Advantages: It is simple, enforces type safety, and doesn't store repeated data (as the two maps solutions do, though still store duplicate values).
Drawbacks: Not generic.

share|improve this answer

Another possile solution providing the possibility of more complicated keys can be found here: http://insidecoffe.blogspot.de/2013/04/indexable-hashmap-implementation.html

share|improve this answer

How about using a trie data structure ?

http://en.wikipedia.org/wiki/Trie

The root of the trie will by blank. The first level siblings will be your primary keys of the map, the second level siblings will be your secondary keys and the third level will be the terminal nodes which will have the value along will null to indicate termination of that branch. You can also add more than two keys using the same scheme.

Look up is simple DFS.

share|improve this answer

I used such implementation for multiple key objects. It allows me to use innumerable number of keys for map. It's scaleable and quite simple. But it has limitations: keys are ordered according to order of arguments in constructor and it would not work with 2D arrays, because of using Arrays.equals(). To fix it - you could use Arrays.deepEquals();

Hope it will help you. If you know any reason why it could not be used as a solution for such issues - please, let me know!

public class Test {

    private static Map<InnumerableKey, Object> sampleMap = new HashMap<InnumerableKey, Object>();

    private static class InnumerableKey {

        private final Object[] keyParts;

        private InnumerableKey(Object... keyParts) {
            this.keyParts = keyParts;
        }

        @Override
        public boolean equals(Object o) {
            if (this == o) return true;
            if (!(o instanceof InnumerableKey)) return false;

            InnumerableKey key = (InnumerableKey) o;

            if (!Arrays.equals(keyParts, key.keyParts)) return false;

            return true;
        }

        @Override
        public int hashCode() {
            return keyParts != null ? Arrays.hashCode(keyParts) : 0;
        }
    }

    public static void main(String... args) {
        boolean keyBoolean = true;
        double keyDouble = 1d;
        Object keyObject = new Object();

        InnumerableKey doubleKey = new InnumerableKey(keyBoolean, keyDouble);
        InnumerableKey tripleKey = new InnumerableKey(keyBoolean, keyDouble, keyObject);

        sampleMap.put(doubleKey, "DOUBLE KEY");
        sampleMap.put(tripleKey, "TRIPLE KEY");

        // prints "DOUBLE KEY"
        System.out.println(sampleMap.get(new InnumerableKey(true, 1d)));
        // prints "TRIPLE KEY"
        System.out.println(sampleMap.get(new InnumerableKey(true, 1d, keyObject)));
        // prints null
        System.out.println(sampleMap.get(new InnumerableKey(keyObject, 1d, true)));
    }
}
share|improve this answer

How about something like this:

His statement says that keys are Unique, so saving the same value objects against different keys is quite possible and when you send any key matching the said value, we would be able to get back to the value object.

See code below:

A value Object Class,

    public class Bond {
    public Bond() {
        System.out.println("The Name is Bond... James Bond...");
    }
    private String name;
    public String getName() { return name;}
    public void setName(String name) { this.name = name; }
}

public class HashMapValueTest {

    public static void main(String[] args) {

        String key1 = "A";
        String key2 = "B";
        String key3 = "C";

        Bond bond = new Bond();
        bond.setName("James Bond Mutual Fund");

        Map<String, Bond> bondsById = new HashMap<>();

        bondsById.put(key1, bond);
        bondsById.put(key2, bond);
        bondsById.put(key3, bond);

        bond.setName("Alfred Hitchcock");

        for (Map.Entry<String, Bond> entry : bondsById.entrySet()) {
            System.out.println(entry.getValue().getName());
        }

    }

}

The result is:

The Name is Bond... James Bond...

Alfred HitchCock

Alfred HitchCock

Alfred HitchCock
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.