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I wanted to add a KeyValuePair<T,U> to a Dictionary<T, U> and I couldn't. I have to pass the key and the value separately, which must mean the Add method has to create a new KeyValuePair object to insert, which can't be very efficient. I can't believe there isn't an Add(KeyValuePair<T, U>) overload on the Add method. Can anyone suggest a possible reason for this apparent oversight?

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There isn't this overload because a Dictionary doesn't only "insert" a new KeyValuePair. (I even doubt it's stored in that format under the hood) It tests if the Key already exist and probably perform some operation to place it at the right spot to keep queries as quick as possible. – LightStriker Oct 22 '12 at 13:17
You can just make an assignment: dictionary[key] = value; – Jarosław Waliszko Oct 22 '12 at 13:19
what is type of your key and value? – Jacek Oct 22 '12 at 13:20
I think you can ignore the overhead of the "Add" method. – Felix K. Oct 22 '12 at 13:23
you can alse use dictionary.Add(pair.key, pair.Value), where pair is KVP object – Jacek Oct 22 '12 at 13:25
up vote 17 down vote accepted

Backup a minute...before going down the road of the oversight, you should establish whether creating a new KeyValuePair is really so inefficient.

First off, the Dictionary class is not internally implemented as a set of key/value pairs, but as a bunch of arrays. That aside, let's assume it was just a set of KeyValuePairs and look at efficiency.

The first thing to notice is that KeyValuePair is a structure. The real implication of that is that it has to be copied from the stack to the heap in order to be passed as a method parameter. When the KeyValuePair is added to the dictionary, it would have to be copied a second time to ensure value type semantics.

In order to pass the Key and Value as parameters, each parameter may be either a value type or a reference type. If they are value types, the performance will be very similar to the KeyValuePair route. If they are reference types, this can actually be a faster implementation since only the address needs to be passed around and very little copying has to be done. In both the best case and worst case, this option is marginally better than the KeyValuePair option due to the increased overhead of the KeyValuePair struct itself.

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+1 Exactly what has been in my mind. But i've been to lazy to write it down. – Felix K. Oct 22 '12 at 13:26
+1 nice explanation – Jarosław Waliszko Oct 22 '12 at 13:29
"not internally implemented as a set of key/value pairs, but as a bunch of arrays": not actually true. There is one array of the private member struct Dictionary<K, T>.Entry (key, value and a couple of ints). But otherwise you're on the right track (but failed to mention *premature optimisation" :-)). – Richard Oct 22 '12 at 14:28
The Dictionary class uses an array of buckets and an array of entries internally to separate out the items. You're right that "a bunch" may be a bit of an overstatement, though. – Tim Copenhaver Oct 22 '12 at 15:17
Copying a KeyValuePair<Of TKey,TValue>) has about the same cost as copying a TKey and a TValue separately. Constructing such a struct for the purpose of calling an Add method wouldn't be helpful, but if one is manually enumerating an IEnumerator<KeyValuePair<TKey,TValue>>, calling Add(myEnumerator.Current); would be more efficient than Add(myEnumerator.Current.Key,myEnumerator.Current.Value); I don't see that exposing the overload would have hurt anything. – supercat Dec 12 '12 at 20:03

You can use the IDictionary<TKey,TValue> interface which providese this method:

IDictionary<int, string> dictionary = new Dictionary<int, string>();
dictionary.Add(new KeyValuePair<int,string>(0,"0"));
dictionary.Add(new KeyValuePair<int,string>(1,"1"));
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Also note that this method does just call Add(kvp.Key, kvp.Value). – Rawling Oct 22 '12 at 13:22
@Rawling yes, it is true in the most cases, but it depends on implementation of IDictionary interface (for example the Sorted Dictionary implements it in other manner than calling Add(kvp.Key,kvp.Value)) – DmitryG Oct 22 '12 at 13:31
Ah of course, I meant the bog-standard Dictionary<K, V>. – Rawling Oct 22 '12 at 13:33

There is such a method – ICollection<KeyValuePair<K, T>>.Add but as it is explicitly implemented you need to cast your dictionary object to that interface to access it.

((ICollection<KeyValuePair<KeyType, ValueType>>)myDict).Add(myPair);


The page on this method includes an example.

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You mean ((ICollection<KeyValuePair<KeyType, ValueType>>)myDict).Add(myPair); – nicodemus13 Dec 6 '14 at 23:03

just because the enumerator for the Dictionary class returns a KeyValuePair, does not mean that is how it is implemented internally.

use IDictionary if you really need to pass KVP's because you've already got them in that format. otherwise use assignment or just use the Add method.

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Should somebody really one do this here is an Extension

    public static void Add<T, U>(this IDictionary<T, U> dic, KeyValuePair<T, U> KVP)
        dic.Add(KVP.Key, KVP.Value);

but i would recommend to not do this if there is no real need to do this

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Unless I'm mistaken, .NET 4.5 and 4.6 adds the ability to add a KeyValuePair to a Dictionary. (If I'm wrong, just notify me and I'll delete this answer.)

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What would be wrong with just adding it into your project as an extension?

namespace System.Collection.Generic
    public static class DictionaryExtensions
        public static void AddKeyValuePair<K,V>(this IDictionary<K, V> me, KeyValuePair<K, V> other)
            me.Add(other.Key, other.Value);
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I'm not 100% sure, but I think the internal implementation of a Dictionary is a Hash-table, which means key's are converted to hashes to perform quick look ups.

Have a read here if you want to know more about hashtables

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While correct, this has nothing to do with the question. So -1. (Even hash tables need to store the original values to handle collisions and also for enumeration of the keys.) – Richard Oct 22 '12 at 13:26
The question clearly arose from a lack of understanding the inner workings of a Dictionary. my answer enables him to answer this and further questions himself, or at least where to look for the answer. – Gertjan Assies Oct 22 '12 at 13:34
I don't completely agree. Yes there are assumptions about the internal representation, but actually they are closer that your assumptions about the internal representation (it is a single array of structs of key, value and a couple of ints). Finally, the start of the answer deserves the -1: read the remarks on the MSDN page for the type, is states explicitly it is a hash table. – Richard Oct 22 '12 at 14:34

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