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I am looking for a generic, bidirectional 1 to 1 Dictionary class in C# (2), ie. a BiDictionaryOneToOne<T, S> which is guaranteed to only contain one of each value and key (up to RefEquals anyway), and which can be searched using either key or value. Anyone know of one, or should I just implement it myself? I can't believe that I'm the first person to need this...

There is a BiDictionary in the answers to this question, but it is not for unique elements (and also does not implement RemoveByFirst(T t) or RemoveBySecond(S s)).

Thanks!

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related: stackoverflow.com/questions/255341/… –  nawfal Mar 29 '13 at 5:54
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6 Answers

up vote 45 down vote accepted

OK, here is my attempt (building on Jon's - thanks), archived here and open for improvement :

/// <summary>
/// This is a dictionary guaranteed to have only one of each value and key. 
/// It may be searched either by TFirst or by TSecond, giving a unique answer because it is 1 to 1.
/// </summary>
/// <typeparam name="TFirst">The type of the "key"</typeparam>
/// <typeparam name="TSecond">The type of the "value"</typeparam>
public class BiDictionaryOneToOne<TFirst, TSecond>
{
    IDictionary<TFirst, TSecond> firstToSecond = new Dictionary<TFirst, TSecond>();
    IDictionary<TSecond, TFirst> secondToFirst = new Dictionary<TSecond, TFirst>();

    #region Exception throwing methods

    /// <summary>
    /// Tries to add the pair to the dictionary.
    /// Throws an exception if either element is already in the dictionary
    /// </summary>
    /// <param name="first"></param>
    /// <param name="second"></param>
    public void Add(TFirst first, TSecond second)
    {
        if (firstToSecond.ContainsKey(first) || secondToFirst.ContainsKey(second))
            throw new ArgumentException("Duplicate first or second");

        firstToSecond.Add(first, second);
        secondToFirst.Add(second, first);
    }

    /// <summary>
    /// Find the TSecond corresponding to the TFirst first
    /// Throws an exception if first is not in the dictionary.
    /// </summary>
    /// <param name="first">the key to search for</param>
    /// <returns>the value corresponding to first</returns>
    public TSecond GetByFirst(TFirst first)
    {
        TSecond second;
        if (!firstToSecond.TryGetValue(first, out second))
            throw new ArgumentException("first");

        return second; 
    }

    /// <summary>
    /// Find the TFirst corresponing to the Second second.
    /// Throws an exception if second is not in the dictionary.
    /// </summary>
    /// <param name="second">the key to search for</param>
    /// <returns>the value corresponding to second</returns>
    public TFirst GetBySecond(TSecond second)
    {
        TFirst first;
        if (!secondToFirst.TryGetValue(second, out first))
            throw new ArgumentException("second");

        return first; 
    }


    /// <summary>
    /// Remove the record containing first.
    /// If first is not in the dictionary, throws an Exception.
    /// </summary>
    /// <param name="first">the key of the record to delete</param>
    public void RemoveByFirst(TFirst first)
    {
        TSecond second;
        if (!firstToSecond.TryGetValue(first, out second))
            throw new ArgumentException("first");

        firstToSecond.Remove(first);
        secondToFirst.Remove(second);
    }

    /// <summary>
    /// Remove the record containing second.
    /// If second is not in the dictionary, throws an Exception.
    /// </summary>
    /// <param name="second">the key of the record to delete</param>
    public void RemoveBySecond(TSecond second)
    {
        TFirst first;
        if (!secondToFirst.TryGetValue(second, out first))
            throw new ArgumentException("second");

        secondToFirst.Remove(second);
        firstToSecond.Remove(first);
    }

    #endregion

    #region Try methods

    /// <summary>
    /// Tries to add the pair to the dictionary.
    /// Returns false if either element is already in the dictionary        
    /// </summary>
    /// <param name="first"></param>
    /// <param name="second"></param>
    /// <returns>true if successfully added, false if either element are already in the dictionary</returns>
    public Boolean TryAdd(TFirst first, TSecond second)
    {
        if (firstToSecond.ContainsKey(first) || secondToFirst.ContainsKey(second))
            return false;

        firstToSecond.Add(first, second);
        secondToFirst.Add(second, first);
        return true;
    }


    /// <summary>
    /// Find the TSecond corresponding to the TFirst first.
    /// Returns false if first is not in the dictionary.
    /// </summary>
    /// <param name="first">the key to search for</param>
    /// <param name="second">the corresponding value</param>
    /// <returns>true if first is in the dictionary, false otherwise</returns>
    public Boolean TryGetByFirst(TFirst first, out TSecond second)
    {
        return firstToSecond.TryGetValue(first, out second);
    }

    /// <summary>
    /// Find the TFirst corresponding to the TSecond second.
    /// Returns false if second is not in the dictionary.
    /// </summary>
    /// <param name="second">the key to search for</param>
    /// <param name="first">the corresponding value</param>
    /// <returns>true if second is in the dictionary, false otherwise</returns>
    public Boolean TryGetBySecond(TSecond second, out TFirst first)
    {
        return secondToFirst.TryGetValue(second, out first);
    }

    /// <summary>
    /// Remove the record containing first, if there is one.
    /// </summary>
    /// <param name="first"></param>
    /// <returns> If first is not in the dictionary, returns false, otherwise true</returns>
    public Boolean TryRemoveByFirst(TFirst first)
    {
        TSecond second;
        if (!firstToSecond.TryGetValue(first, out second))
            return false;

        firstToSecond.Remove(first);
        secondToFirst.Remove(second);
        return true;
    }

    /// <summary>
    /// Remove the record containing second, if there is one.
    /// </summary>
    /// <param name="second"></param>
    /// <returns> If second is not in the dictionary, returns false, otherwise true</returns>
    public Boolean TryRemoveBySecond(TSecond second)
    {
        TFirst first;
        if (!secondToFirst.TryGetValue(second, out first))
            return false;

        secondToFirst.Remove(second);
        firstToSecond.Remove(first);
        return true;
    }

    #endregion        

    /// <summary>
    /// The number of pairs stored in the dictionary
    /// </summary>
    public Int32 Count
    {
        get { return firstToSecond.Count; }
    }

    /// <summary>
    /// Removes all items from the dictionary.
    /// </summary>
    public void Clear()
    {
        firstToSecond.Clear();
        secondToFirst.Clear();
    }
}
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As a suggestion I think for greater robustness you need to treat all the operations as the equivalent of an SQL transaction. For example, what happens to the overall dictionary state in Add(), if the firstToSecond.Add() throws an exception? –  Peter M Nov 6 '08 at 13:16
    
Oops - that should been about what happens if secondToFirst,Add() fails/throws an exception. –  Peter M Nov 6 '08 at 13:27
    
When would Dictionary throw an exception? If the alternative is to keep a copy of the pre-Add dictionaries in case of Exception, in order to replace them in a finally block for example, then perhaps it is ok to just let it fail without check. Or check in a finally block and throw Exception on fail? –  Joel in Gö Nov 6 '08 at 14:02
1  
I found useful to add [Serializable] attribute(e.g to store in Session) –  Michael Freidgeim Nov 8 '10 at 0:59
1  
Please upload to NuGet! –  Shimmy Dec 17 '12 at 18:01
show 12 more comments

The question you refer to also shows a one-to-one implementation in this answer. Adding RemoveByFirst and RemoveBySecond would be trivial - as would implementing extra interfaces etc.

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OK, fair enough, I have done so. I will add it to the answers when I've finished the unit tests... –  Joel in Gö Nov 6 '08 at 12:24
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I have created such a class, using C5 collection classes.

public class Mapper<K,T> : IEnumerable<T>

{
    C5.TreeDictionary<K,T> KToTMap = new TreeDictionary<K,T>();
    C5.HashDictionary<T,K> TToKMap = new HashDictionary<T,K>();


    /// <summary>
    /// Initializes a new instance of the Mapper class.
    /// </summary>
    public Mapper()
    {
        KToTMap = new TreeDictionary<K,T>();
        TToKMap = new HashDictionary<T,K>();
    }


    public void Add(K key, T value)
    {
        KToTMap.Add(key, value);
        TToKMap.Add(value, key);
    }

    public bool ContainsKey(K key)
    {
        return KToTMap.Contains(key);
    }

    public int Count
    {
        get { return KToTMap.Count; }
    }


    public K this[T obj]
    {
        get
        {
            return TToKMap[obj];
        }
    }

    public T this[K obj]
    {
        get
        {
            return KToTMap[obj];
        }
    }

    public IEnumerator<T> GetEnumerator()
    {
        return KToTMap.Values.GetEnumerator();
    }

    System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
    {
        return KToTMap.Values.GetEnumerator();
    }
}
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2  
why would you a tree dictionary and a hash dictionary? what are the differences? –  nawfal Mar 28 '13 at 11:22
    
what happens when both types are the same and you try to recover a value? Ex: var primes = new Mapper<int, int>(); primes.Add(1, 2); primes.Add(2, 3); int surprise = primes[2]; –  Daniel Mar 19 at 20:28
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A more complete implementation of bidirectional dictionary:

  • Supports almost all interfaces of original Dictionary<TKey,TValue> (except infrastructure interfaces):
    • IDictionary<TKey, TValue>
    • IReadOnlyDictionary<TKey, TValue>
    • IDictionary
    • ICollection<KeyValuePair<TKey, TValue>> (this one and below are the base interfaces of the ones above)
    • ICollection
    • IReadOnlyCollection<KeyValuePair<TKey, TValue>>
    • IEnumerable<KeyValuePair<TKey, TValue>>
    • IEnumerable
  • Serialization using SerializableAttribute.
  • Debug view using DebuggerDisplayAttribute (with Count info) and DebuggerTypeProxyAttribute (for displaying key-value pairs in watches).
  • Reverse dictionary is available as IDictionary<TValue, TKey> Reverse property and also implements all interfaces mentioned above. All operations on either dictionaries modify both.

Usage:

var dic = new BiDictionary<int, string>();
dic.Add(1, "1");
dic[2] = "2";
dic.Reverse.Add("3", 3);
dic.Reverse["4"] = 4;
dic.Clear();

Code is available in my private framework on GitHub: https://github.com/Athari/Alba.Framework/blob/master/Alba.Framework/Collections/BiDictionary(TFirst%2CTSecond).cs

Copy:

[Serializable]
[DebuggerDisplay ("Count = {Count}"), DebuggerTypeProxy (typeof(DictionaryDebugView<,>))]
public class BiDictionary<TFirst, TSecond> : IDictionary<TFirst, TSecond>, IReadOnlyDictionary<TFirst, TSecond>, IDictionary
{
    private readonly IDictionary<TFirst, TSecond> _firstToSecond = new Dictionary<TFirst, TSecond>();
    [NonSerialized]
    private readonly IDictionary<TSecond, TFirst> _secondToFirst = new Dictionary<TSecond, TFirst>();
    [NonSerialized]
    private readonly ReverseDictionary _reverseDictionary;

    public BiDictionary ()
    {
        _reverseDictionary = new ReverseDictionary(this);
    }

    public IDictionary<TSecond, TFirst> Reverse
    {
        get { return _reverseDictionary; }
    }

    public int Count
    {
        get { return _firstToSecond.Count; }
    }

    object ICollection.SyncRoot
    {
        get { return ((ICollection)_firstToSecond).SyncRoot; }
    }

    bool ICollection.IsSynchronized
    {
        get { return ((ICollection)_firstToSecond).IsSynchronized; }
    }

    bool IDictionary.IsFixedSize
    {
        get { return ((IDictionary)_firstToSecond).IsFixedSize; }
    }

    public bool IsReadOnly
    {
        get { return _firstToSecond.IsReadOnly || _secondToFirst.IsReadOnly; }
    }

    public TSecond this [TFirst key]
    {
        get { return _firstToSecond[key]; }
        set
        {
            _firstToSecond[key] = value;
            _secondToFirst[value] = key;
        }
    }

    object IDictionary.this [object key]
    {
        get { return ((IDictionary)_firstToSecond)[key]; }
        set
        {
            ((IDictionary)_firstToSecond)[key] = value;
            ((IDictionary)_secondToFirst)[value] = key;
        }
    }

    public ICollection<TFirst> Keys
    {
        get { return _firstToSecond.Keys; }
    }

    ICollection IDictionary.Keys
    {
        get { return ((IDictionary)_firstToSecond).Keys; }
    }

    IEnumerable<TFirst> IReadOnlyDictionary<TFirst, TSecond>.Keys
    {
        get { return ((IReadOnlyDictionary<TFirst, TSecond>)_firstToSecond).Keys; }
    }

    public ICollection<TSecond> Values
    {
        get { return _firstToSecond.Values; }
    }

    ICollection IDictionary.Values
    {
        get { return ((IDictionary)_firstToSecond).Values; }
    }

    IEnumerable<TSecond> IReadOnlyDictionary<TFirst, TSecond>.Values
    {
        get { return ((IReadOnlyDictionary<TFirst, TSecond>)_firstToSecond).Values; }
    }

    public IEnumerator<KeyValuePair<TFirst, TSecond>> GetEnumerator ()
    {
        return _firstToSecond.GetEnumerator();
    }

    IEnumerator IEnumerable.GetEnumerator ()
    {
        return GetEnumerator();
    }

    IDictionaryEnumerator IDictionary.GetEnumerator ()
    {
        return ((IDictionary)_firstToSecond).GetEnumerator();
    }

    public void Add (TFirst key, TSecond value)
    {
        _firstToSecond.Add(key, value);
        _secondToFirst.Add(value, key);
    }

    void IDictionary.Add (object key, object value)
    {
        ((IDictionary)_firstToSecond).Add(key, value);
        ((IDictionary)_secondToFirst).Add(value, key);
    }

    public void Add (KeyValuePair<TFirst, TSecond> item)
    {
        _firstToSecond.Add(item);
        _secondToFirst.Add(item.Reverse());
    }

    public bool ContainsKey (TFirst key)
    {
        return _firstToSecond.ContainsKey(key);
    }

    public bool Contains (KeyValuePair<TFirst, TSecond> item)
    {
        return _firstToSecond.Contains(item);
    }

    public bool TryGetValue (TFirst key, out TSecond value)
    {
        return _firstToSecond.TryGetValue(key, out value);
    }

    public bool Remove (TFirst key)
    {
        TSecond value;
        if (_firstToSecond.TryGetValue(key, out value)) {
            _firstToSecond.Remove(key);
            _secondToFirst.Remove(value);
            return true;
        }
        else
            return false;
    }

    void IDictionary.Remove (object key)
    {
        var firstToSecond = (IDictionary)_firstToSecond;
        if (!firstToSecond.Contains(key))
            return;
        var value = firstToSecond[key];
        firstToSecond.Remove(key);
        ((IDictionary)_secondToFirst).Remove(value);
    }

    public bool Remove (KeyValuePair<TFirst, TSecond> item)
    {
        return _firstToSecond.Remove(item);
    }

    public bool Contains (object key)
    {
        return ((IDictionary)_firstToSecond).Contains(key);
    }

    public void Clear ()
    {
        _firstToSecond.Clear();
        _secondToFirst.Clear();
    }

    public void CopyTo (KeyValuePair<TFirst, TSecond>[] array, int arrayIndex)
    {
        _firstToSecond.CopyTo(array, arrayIndex);
    }

    void ICollection.CopyTo (Array array, int index)
    {
        ((IDictionary)_firstToSecond).CopyTo(array, index);
    }

    [OnDeserialized]
    internal void OnDeserialized (StreamingContext context)
    {
        _secondToFirst.Clear();
        foreach (var item in _firstToSecond)
            _secondToFirst.Add(item.Value, item.Key);
    }

    private class ReverseDictionary : IDictionary<TSecond, TFirst>, IReadOnlyDictionary<TSecond, TFirst>, IDictionary
    {
        private readonly BiDictionary<TFirst, TSecond> _owner;

        public ReverseDictionary (BiDictionary<TFirst, TSecond> owner)
        {
            _owner = owner;
        }

        public int Count
        {
            get { return _owner._secondToFirst.Count; }
        }

        object ICollection.SyncRoot
        {
            get { return ((ICollection)_owner._secondToFirst).SyncRoot; }
        }

        bool ICollection.IsSynchronized
        {
            get { return ((ICollection)_owner._secondToFirst).IsSynchronized; }
        }

        bool IDictionary.IsFixedSize
        {
            get { return ((IDictionary)_owner._secondToFirst).IsFixedSize; }
        }

        public bool IsReadOnly
        {
            get { return _owner._secondToFirst.IsReadOnly || _owner._firstToSecond.IsReadOnly; }
        }

        public TFirst this [TSecond key]
        {
            get { return _owner._secondToFirst[key]; }
            set
            {
                _owner._secondToFirst[key] = value;
                _owner._firstToSecond[value] = key;
            }
        }

        object IDictionary.this [object key]
        {
            get { return ((IDictionary)_owner._secondToFirst)[key]; }
            set
            {
                ((IDictionary)_owner._secondToFirst)[key] = value;
                ((IDictionary)_owner._firstToSecond)[value] = key;
            }
        }

        public ICollection<TSecond> Keys
        {
            get { return _owner._secondToFirst.Keys; }
        }

        ICollection IDictionary.Keys
        {
            get { return ((IDictionary)_owner._secondToFirst).Keys; }
        }

        IEnumerable<TSecond> IReadOnlyDictionary<TSecond, TFirst>.Keys
        {
            get { return ((IReadOnlyDictionary<TSecond, TFirst>)_owner._secondToFirst).Keys; }
        }

        public ICollection<TFirst> Values
        {
            get { return _owner._secondToFirst.Values; }
        }

        ICollection IDictionary.Values
        {
            get { return ((IDictionary)_owner._secondToFirst).Values; }
        }

        IEnumerable<TFirst> IReadOnlyDictionary<TSecond, TFirst>.Values
        {
            get { return ((IReadOnlyDictionary<TSecond, TFirst>)_owner._secondToFirst).Values; }
        }

        public IEnumerator<KeyValuePair<TSecond, TFirst>> GetEnumerator ()
        {
            return _owner._secondToFirst.GetEnumerator();
        }

        IEnumerator IEnumerable.GetEnumerator ()
        {
            return GetEnumerator();
        }

        IDictionaryEnumerator IDictionary.GetEnumerator ()
        {
            return ((IDictionary)_owner._secondToFirst).GetEnumerator();
        }

        public void Add (TSecond key, TFirst value)
        {
            _owner._secondToFirst.Add(key, value);
            _owner._firstToSecond.Add(value, key);
        }

        void IDictionary.Add (object key, object value)
        {
            ((IDictionary)_owner._secondToFirst).Add(key, value);
            ((IDictionary)_owner._firstToSecond).Add(value, key);
        }

        public void Add (KeyValuePair<TSecond, TFirst> item)
        {
            _owner._secondToFirst.Add(item);
            _owner._firstToSecond.Add(item.Reverse());
        }

        public bool ContainsKey (TSecond key)
        {
            return _owner._secondToFirst.ContainsKey(key);
        }

        public bool Contains (KeyValuePair<TSecond, TFirst> item)
        {
            return _owner._secondToFirst.Contains(item);
        }

        public bool TryGetValue (TSecond key, out TFirst value)
        {
            return _owner._secondToFirst.TryGetValue(key, out value);
        }

        public bool Remove (TSecond key)
        {
            TFirst value;
            if (_owner._secondToFirst.TryGetValue(key, out value)) {
                _owner._secondToFirst.Remove(key);
                _owner._firstToSecond.Remove(value);
                return true;
            }
            else
                return false;
        }

        void IDictionary.Remove (object key)
        {
            var firstToSecond = (IDictionary)_owner._secondToFirst;
            if (!firstToSecond.Contains(key))
                return;
            var value = firstToSecond[key];
            firstToSecond.Remove(key);
            ((IDictionary)_owner._firstToSecond).Remove(value);
        }

        public bool Remove (KeyValuePair<TSecond, TFirst> item)
        {
            return _owner._secondToFirst.Remove(item);
        }

        public bool Contains (object key)
        {
            return ((IDictionary)_owner._secondToFirst).Contains(key);
        }

        public void Clear ()
        {
            _owner._secondToFirst.Clear();
            _owner._firstToSecond.Clear();
        }

        public void CopyTo (KeyValuePair<TSecond, TFirst>[] array, int arrayIndex)
        {
            _owner._secondToFirst.CopyTo(array, arrayIndex);
        }

        void ICollection.CopyTo (Array array, int index)
        {
            ((IDictionary)_owner._secondToFirst).CopyTo(array, index);
        }
    }
}

internal class DictionaryDebugView<TKey, TValue>
{
    private readonly IDictionary<TKey, TValue> _dictionary;

    [DebuggerBrowsable (DebuggerBrowsableState.RootHidden)]
    public KeyValuePair<TKey, TValue>[] Items
    {
        get
        {
            var array = new KeyValuePair<TKey, TValue>[_dictionary.Count];
            _dictionary.CopyTo(array, 0);
            return array;
        }
    }

    public DictionaryDebugView (IDictionary<TKey, TValue> dictionary)
    {
        if (dictionary == null)
            throw new ArgumentNullException("dictionary");
        _dictionary = dictionary;
    }
}

public static class KeyValuePairExts
{
    public static KeyValuePair<TValue, TKey> Reverse<TKey, TValue> (this KeyValuePair<TKey, TValue> @this)
    {
        return new KeyValuePair<TValue, TKey>(@this.Value, @this.Key);
    }
}
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A simple container class with 2 Dictionary's should work just fine IMO.

Update: Do you require uniqueness on every 'column' or across all of them (like a composite primary key)?

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This is same as accepted answer, but I provided Update methods as well, and over all little more fleshed out:

public class BiDictionary<TKey1, TKey2> : IEnumerable<Tuple<TKey1, TKey2>>
{
    Dictionary<TKey1, TKey2> _forwards;
    Dictionary<TKey2, TKey1> _reverses;

    public int Count
    {
        get
        {
            if (_forwards.Count != _reverses.Count)
                throw new Exception("somewhere logic went wrong and your data got corrupt");

            return _forwards.Count;
        }
    }

    public ICollection<TKey1> Key1s
    {
        get { return _forwards.Keys; }
    }

    public ICollection<TKey2> Key2s
    {
        get { return _reverses.Keys; }
    }

    public BiDictionary(IEqualityComparer<TKey1> comparer1 = null, IEqualityComparer<TKey2> comparer2 = null)
    {
        _forwards = new Dictionary<TKey1, TKey2>(comparer1);
        _reverses = new Dictionary<TKey2, TKey1>(comparer2);
    }



    public bool ContainsKey1(TKey1 key)
    {
        return ContainsKey(key, _forwards);
    }

    private static bool ContainsKey<S, T>(S key, Dictionary<S, T> dict)
    {
        return dict.ContainsKey(key);
    }

    public bool ContainsKey2(TKey2 key)
    {
        return ContainsKey(key, _reverses);
    }

    public TKey2 GetValueByKey1(TKey1 key)
    {
        return GetValueByKey(key, _forwards);
    }

    private static T GetValueByKey<S, T>(S key, Dictionary<S, T> dict)
    {
        return dict[key];
    }

    public TKey1 GetValueByKey2(TKey2 key)
    {
        return GetValueByKey(key, _reverses);
    }

    public bool TryGetValueByKey1(TKey1 key, out TKey2 value)
    {
        return TryGetValue(key, _forwards, out value);
    }

    private static bool TryGetValue<S, T>(S key, Dictionary<S, T> dict, out T value)
    {
        return dict.TryGetValue(key, out value);
    }

    public bool TryGetValueByKey2(TKey2 key, out TKey1 value)
    {
        return TryGetValue(key, _reverses, out value);
    }

    public bool Add(TKey1 key1, TKey2 key2)
    {
        if (ContainsKey1(key1) || ContainsKey2(key2))   // very important
            return false;

        AddOrUpdate(key1, key2);
        return true;
    }

    public void AddOrUpdateByKey1(TKey1 key1, TKey2 key2)
    {
        if (!UpdateByKey1(key1, key2))
            AddOrUpdate(key1, key2);
    }

    // dont make this public; a dangerous method used cautiously in this class
    private void AddOrUpdate(TKey1 key1, TKey2 key2)
    {
        _forwards[key1] = key2;
        _reverses[key2] = key1;
    }

    public void AddOrUpdateKeyByKey2(TKey2 key2, TKey1 key1)
    {
        if (!UpdateByKey2(key2, key1))
            AddOrUpdate(key1, key2);
    }

    public bool UpdateKey1(TKey1 oldKey, TKey1 newKey)
    {
        return UpdateKey(oldKey, _forwards, newKey, (key1, key2) => AddOrUpdate(key1, key2));
    }

    private static bool UpdateKey<S, T>(S oldKey, Dictionary<S, T> dict, S newKey, Action<S, T> updater)
    {
        T otherKey;
        if (!TryGetValue(oldKey, dict, out otherKey) || ContainsKey(newKey, dict))
            return false;

        Remove(oldKey, dict);
        updater(newKey, otherKey);
        return true;
    }

    public bool UpdateKey2(TKey2 oldKey, TKey2 newKey)
    {
        return UpdateKey(oldKey, _reverses, newKey, (key1, key2) => AddOrUpdate(key2, key1));
    }

    public bool UpdateByKey1(TKey1 key1, TKey2 key2)
    {
        return UpdateByKey(key1, _forwards, _reverses, key2, (k1, k2) => AddOrUpdate(k1, k2));
    }

    private static bool UpdateByKey<S, T>(S key1, Dictionary<S, T> forwards, Dictionary<T, S> reverses, T key2,
                                          Action<S, T> updater)
    {
        T otherKey;
        if (!TryGetValue(key1, forwards, out otherKey) || ContainsKey(key2, reverses))
            return false;

        if (!Remove(otherKey, reverses))
            throw new Exception("somewhere logic went wrong and your data got corrupt");

        updater(key1, key2);
        return true;
    }

    public bool UpdateByKey2(TKey2 key2, TKey1 key1)
    {
        return UpdateByKey(key2, _reverses, _forwards, key1, (k1, k2) => AddOrUpdate(k2, k1));
    }

    public bool RemoveByKey1(TKey1 key)
    {
        return RemoveByKey(key, _forwards, _reverses);
    }

    private static bool RemoveByKey<S, T>(S key, Dictionary<S, T> keyDict, Dictionary<T, S> valueDict)
    {
        T otherKey;
        if (!TryGetValue(key, keyDict, out otherKey))
            return false;

        if (!Remove(key, keyDict) || !Remove(otherKey, valueDict))
            throw new Exception("somewhere logic went wrong and your data got corrupt");

        return true;
    }

    private static bool Remove<S, T>(S key, Dictionary<S, T> dict)
    {
        return dict.Remove(key);
    }

    public bool RemoveByKey2(TKey2 key)
    {
        return RemoveByKey(key, _reverses, _forwards);
    }

    public void Clear()
    {
        _forwards.Clear();
        _reverses.Clear();
    }

    public IEnumerator<Tuple<TKey1, TKey2>> GetEnumerator()
    {
        if (_forwards.Count != _reverses.Count)
            throw new Exception("somewhere logic went wrong and your data got corrupt");

        foreach (var item in _forwards)
            yield return Tuple.Create(item.Key, item.Value);
    }

    IEnumerator IEnumerable.GetEnumerator()
    {
        return GetEnumerator();
    }
}

Similar to my answer here

Few things to note:

  1. I have implemented only IEnumerable<>. I don't think ICollection<> makes sense here since the method names all could be way different for this special collection structure. Up to you to decide what should go inside IEnumerable<>. So now you have collection initializer syntax too, like

    var p = new BiDictionary<int, string> { 1, "a" }, { 2, "b" } };
    
  2. I have attempted for some weird exceptions to be thrown here and there - just for data integrity. Just to be on the safer side so that you know if ever my code has bugs.

  3. Performance: You can lookup for Value with either of the Keys, which means Get and Contains method require just 1 lookup (O(1)). Add requires 2 lookups and 2 adds. Update requires 1 lookup and 2 adds. Remove takes 3 lookups. All similar to accepted answer.

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