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public static Dictionary<int, string> dic = new Dictionary<int, string>() { 

I need to use this

string str= dic[1]; // it is possible

int a=dic["anystring1"]; // My dream is it
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Likely duplicate of: – Adam Vandenberg Nov 16 '10 at 5:35
possible duplicate of [Bidirectional 1 to 1 Dictionary in C# ](…) – Joel Coehoorn Nov 16 '10 at 5:49
and – AlexFoxGill Mar 28 '13 at 16:15
up vote 1 down vote accepted

That is not what a dictionary is meant to do. Can you think of a definition and instantly find the matching word in your favorite dictionary in O(1) time? If you want a class with that type of functionality (a bidirectional dictionary) you will have to build it yourself (or Google for one of many implementations on the Internet).

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Use another Dictionary<> and use it in reverse order of key/value.

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I'm a bit late on this one, but LINQ is your friend here:

MyDict.FirstOrDefault(pair => pair.Value == "the value you want").Key;

Allows you to do what you want.

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You might want to try 'myDict.FirstOrDefault(pair => pair.Value == "what you want").Key;' instead. – rmx Feb 6 '12 at 1:03
@rmx yes you're right, I updated my answer. – Baboon Feb 6 '12 at 1:22
i wouldn't buy your software – aloneguid Mar 23 '12 at 17:53
@aloneguid you care to explain? – Baboon Mar 23 '12 at 18:27
@Baboon your example will return results in O(n) instead of O(1). You can get O(1) by using the second dictionary. – Clinton Mar 19 '13 at 2:40

I wish this was in the System library, but it's pretty easy to roll your own.

Below, I'll provide the skeleton of writing such a class, whose usage looks like:

var twoWayDict = new TwoWayDict<string, int>();

twoWayDict["zero"] = 0;
// twoWayDict["zero"] == 0
// twoWayDict.Reverse[0] == "zero"

twoWayDict.Reverse[1] = "one";
// twoWayDict["one"] == 1
// twoWayDict.Reverse[1] == "one"

Keep in mind, one gotcha for a two way dictionary is that you should expect all input to be tightly coupled. In other words, if you re-use a key OR a value, you will erase the data previous linked with either:

twoWayDict["zero"] = 0;

// Then later...
twoWayDict.Reverse[0] = "ZERO";
// Now twoWayDict["ZERO"] == 0

// Later still...
// Exception: Key not found! "zero" was dropped when you re-used value 0

Finally, here's some sample code. It's minimal - it should act as a foundation for anyone who wants to flesh out their own version. Note that I implement a wrapper class so I can provide a "Reverse" property without directly exposing the internal dictionary.

// Generics note: K indicates "key" type and V indicates "value" type
using System.Collections.Generic;

namespace YourNamespaceHere.Collections
  public class TwoWayDict<K, V>
    private Dictionary<K, V> _dictKV;
    private Dictionary<V, K> _dictVK;
    private ReverseDict _reverseDict;

    public TwoWayDict()
      _dictKV = new Dictionary<K, V>();
      _dictVK = new Dictionary<V, K>();
      _reverseDict = new ReverseDict(this);

    public ReverseDict Reverse
      get { return _reverseDict; }

    // TwoWayDict[key] -> value
    public V this[K key]
      get { return _dictKV[key]; }
        // Remove any existing key/value pair

        _dictKV[key] = value;
        _dictVK[value] = key;

    public void Remove(K key)
      if (_dictKV.ContainsKey(key))

    // Wrapper that allows TwoWayDict to expose a convenient
    // 'Reverse' property.
    public class ReverseDict
      private TwoWayDict<K, V> _parent;
      public ReverseDict(TwoWayDict<K, V> parent)
         _parent = parent;

      public K this[V reverseKey]
        get { return _parent._dictVK[reverseKey]; }
        set { _parent[value] = reverseKey; }

      public void Remove(V value)
        if (_parent._dictVK.ContainsKey(value))
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Very useful but when you call a data that no exists the function not works – cmujica Oct 23 '13 at 11:16

I actually use a class that combines an ArrayList with a Dictionary so that I can look up child nodes based on name or order added, and maintain the original order of the objects as they were added.

Objects are added to the ArrayList first, then the index of that object in the ArrayList is added to the dictionary using the desired key.

This allows me to access either by key or position, in a very optimal way, while maintaining the order of the objects as they were added.

Gotcha areas to watch for are adding another object using an existing key, which will orphan the original object and removing any element from the vector which will cause the indices in the Dictionary to become corrupted, pointing to the wrong values.

Just thought I would share my two cents worth - hope it helps someone.

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