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Are there any dictionary classes in the .NET base class library which allow duplicate keys to be used? The only solution I've found is to create, for example, a class like:

Dictionary<string, List<object>>

But this is quite irritating to actually use. In Java, I believe a MultiMap accomplishes this, but cannot find an analog in .NET.

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2  
How is this duplicate key, it's duplicate values(the List), right? –  Shamim Hafiz Dec 18 '10 at 5:36
    
@ShamimHafiz, no, the values need not be duplicates. If you have to store duplicates { a, 1 } and { a, 2 } in a hash table where a being the key, one alternative is to have { a, [1, 2] }. –  nawfal Jun 19 at 8:27
    
Actually, I believe what is really wanted here is a collection where each key can map to one or more values. I think that the expression "duplicate keys" doesn't really convey this. –  DavidRR Aug 6 at 1:25

17 Answers 17

up vote 137 down vote accepted

If you're using .NET 3.5, use the Lookup class.

EDIT: You generally create a Lookup using Enumerable.ToLookup. This does assume that you don't need to change it afterwards - but I typically find that's good enough.

If that doesn't work for you, I don't think there's anything in the framework which will help - and using the dictionary is as good as it gets :(

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3  
It has no constructors and the objects are immutable... so what good is this? –  Josh Stodola May 10 '10 at 13:26
24  
@Jon I ended up using a List(Of KeyValuePair(Of String, Object)) –  Josh Stodola May 10 '10 at 14:35
12  
Word of caution: Lookup is not serializable –  SliverNinja Dec 23 '11 at 15:27
2  
@moldovanu: You don't - once built, a lookup is immutable. –  Jon Skeet Apr 16 '12 at 16:00
5  
@moldovanu: Or a Dictionary<string, List<object>> - that can be added to, of course. –  Jon Skeet Apr 16 '12 at 17:11

The List class actually works quite well for key/value collections containing duplicates where you would like to iterate over the collection. Example:

List<KeyValuePair<string, string>> list = new List<KeyValuePair<string, string>>();

// add some values to the collection here

for (int i = 0;  i < list.Count;  i++)
{
    Print(list[i].Key, list[i].Value);
}
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4  
This solution works functionally, but the implementation of List has no knowledge of the key or value and cant optimize searching for keys at all –  Spencer Rose Feb 28 '13 at 3:02

If you are using strings as both the keys and the values, you can use System.Collections.Specialized.NameValueCollection, which will return an array of string values via the GetValues(string key) method.

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I just came across the PowerCollections library which includes, among other things, a class called MultiDictionary. This neatly wraps this type of functionality.

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Here is one way of doing this with List< KeyValuePair< string, string > >

public class ListWithDuplicates : List<KeyValuePair<string, string>>
{
    public void Add(string key, string value)
    {
        var element = new KeyValuePair<string, string>(key, value);
        this.Add(element);
    }
}

var list = new ListWithDuplicates();
list.Add("k1", "v1");
list.Add("k1", "v2");
list.Add("k1", "v3");

foreach(var item in list)
{
    string x = string.format("{0}={1}, ", item.Key, item.Value);
}

Outputs k1=v1, k1=v2, k1=v3

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Very important note regarding use of Lookup:

You can create an instance of a Lookup(TKey, TElement) by calling ToLookup on an object that implements IEnumerable(T)

There is no public constructor to create a new instance of a Lookup(TKey, TElement). Additionally, Lookup(TKey, TElement) objects are immutable, that is, you cannot add or remove elements or keys from a Lookup(TKey, TElement) object after it has been created.

(from MSDN)

I'd think this would be a show stopper for most uses.

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So, no serialization... –  murki May 10 '11 at 23:31
3  
I can think of very few uses where this would be a show stopper. But then, I think immutable objects are great. –  Joel Mueller May 23 '11 at 16:35

I think something like List<KeyValuePair<object, object>> would do the Job.

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How do you look something up in that list by it's key? –  Wayne Bloss Sep 28 '08 at 17:00
    
You have to iterate through it: but I was not aware of the LookUp-Class of .NET 3.5: maybe this is more useful for searching in it's content. –  MADMap Sep 28 '08 at 17:20
    
@wizlib: The only way is to loop through the list, which is not nearly as efficient as hashing. -1 –  petr k. Sep 28 '08 at 17:21
    
@petrk. That really depends on what your data is. I used this implementation because I had very few unique keys and didn't want to incur the overhead of hash collisions. +1 –  Evan M Jun 11 '12 at 16:13

Have a look at C5's HashBag class.

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1  
Wow, great library! –  waltersobchek.myopenid.com Sep 28 '08 at 19:30
    
I am using it a lot, but I have no idea how many others ... –  Tomas Pajonk Oct 1 '08 at 10:13
2  
Is there a reason this has been downvoted? I'm curious why... –  Doug Feb 24 '11 at 16:54
1  
This class doesn't look like it's very dictionary-like. –  Sam Mar 1 '13 at 22:01

If you are using >= .NET 4 then you can use Tuple Class:

// declaration
var list = new List<Tuple<string, List<object>>>();

// to add an item to the list
var item = Tuple<string, List<object>>("key", new List<object>);
list.Add(item);

// to iterate
foreach(var i in list)
{
    Console.WriteLine(i.Item1.ToString());
}
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The NameValueCollection supports multiple string values under one key (which is also a string), but it is the only example I am aware of.

I tend to create constructs similar to the one in your example when I run into situations where I need that sort of functionality.

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In answer to the original question. Something like Dictionary<string, List<object>> is implemented in a class called MultiMap in The Code Project.

You could find more info to the below link : http://www.codeproject.com/KB/cs/MultiKeyDictionary.aspx

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Do you mean congruent and not an actual duplicate? Otherwise a hashtable wouldn't be able to work.

Congruent means that two separate keys can hash to the equivalent value, but the keys aren't equal.

For example: say your hashtable's hash function was just hashval = key mod 3. Both 1 and 4 map to 1, but are different values. This is where your idea of a list comes into play.

When you need to lookup 1, that value is hashed to 1, the list is traversed until the Key = 1 is found.

If you allowed for duplicate keys to be inserted, you wouldn't be able to differentiate which keys map to which values.

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2  
A hash table already handles keys which happen to hash to the same value (this is called a collision). I am referring to a situation where you want to map multiple values to the same exact key. –  waltersobchek.myopenid.com Sep 28 '08 at 19:21

I stumbled across this post in search of the same answer, and found none, so I rigged up a bare-bones example solution using a list of dictionaries, overriding the [] operator to add a new dictionary to the list when all others have a given key(set), and return a list of values (get).
It's ugly and inefficient, it ONLY gets/sets by key, and it always returns a list, but it works:

 class DKD {
        List<Dictionary<string, string>> dictionaries;
        public DKD(){
            dictionaries = new List<Dictionary<string, string>>();}
        public object this[string key]{
             get{
                string temp;
                List<string> valueList = new List<string>();
                for (int i = 0; i < dictionaries.Count; i++){
                    dictionaries[i].TryGetValue(key, out temp);
                    if (temp == key){
                        valueList.Add(temp);}}
                return valueList;}
            set{
                for (int i = 0; i < dictionaries.Count; i++){
                    if (dictionaries[i].ContainsKey(key)){
                        continue;}
                    else{
                        dictionaries[i].Add(key,(string) value);
                        return;}}
                dictionaries.Add(new Dictionary<string, string>());
                dictionaries.Last()[key] =(string)value;
            }
        }
    }
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When using the List<KeyValuePair<string, object>> option, you could use LINQ to do the search:

List<KeyValuePair<string, object>> myList = new List<KeyValuePair<string, object>>();
//fill it here
var q = from a in myList Where a.Key.Equals("somevalue") Select a.Value
if(q.Count() > 0){ //you've got your value }
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1  
Yes, but that doesn't make it faster (still no hashing) –  Haukman Aug 16 '11 at 18:28

This is the first implementation I was able to find; PowerCollections may have one as well, I've not checked. There isn't one in the base FCL.

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Duplicate keys break the entire contract of the Dictionary. In a dictionary each key is unique and mapped to a single value. If you want to link an object to an arbitrary number of additional objects, the best bet might be something akin to a DataSet (in common parlance a table). Put your keys in one column and your values in the other. This is significantly slower than a dictionary, but that's your tradeoff for losing the ability to hash the key objects.

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3  
Isn't the whole point of using a Dictionary for the performance gain? Using a DataSet seems no better than a List<KeyValuePair<T, U>>. –  Doug Feb 24 '11 at 16:51

The way I use is just a

Dictionary<string, List<string>>

This way you have a single key holding a list of strings.

Example:

List<string> value = new List<string>();
if (dictionary.Contains(key)) {
     value = dictionary[key];
}
value.Add(newValue);
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