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I often find myself creating a Dictionary with a non-trivial value class (e.g. List), and then always writing the same code pattern when filling in data.

For example:

var dict = new Dictionary<string, List<string>>();
string key = "foo";
string aValueForKey = "bar";

That is, I want to insert "bar" into the list that corresponds to key "foo", where key "foo" might not be mapped to anything.

This is where I use the ever-repeating pattern:

List<string> keyValues;
if (!dict.TryGetValue(key, out keyValues))
  dict.Add(key, keyValues = new List<string>());
keyValues.Add(aValueForKey);

Is there a more elegant way of doing this?

Related questions that don't have answers to this question:

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What if the key exists but the List is null? –  FDL Apr 24 '13 at 13:59
3  
@Barabba Generally I'd think adding a null value would be considered inappropriate and you'd expect the code to just bomb out and fix the bug of adding a null key, not by trying to handle it here. –  Servy Apr 24 '13 at 14:01
1  
@Servy ok, but what if we get a result List from a third-party source? The only thing to deal with it is to handle null values, am I wrong? It happens to me every day :) –  FDL Apr 24 '13 at 14:09
    
@Barabba Then you should be null checking the list returned elsewhere before you add it to the dictionary to ensure that you don't add a null value. –  Servy Apr 24 '13 at 14:10
1  
Related: stackoverflow.com/questions/3705950/… –  nawfal May 31 '13 at 5:49

4 Answers 4

up vote 10 down vote accepted

We have a slightly different take on this, but the effect is similar:

public static TValue GetOrCreate<TKey, TValue>(this IDictionary<TKey, TValue> dict, TKey key) 
    where TValue : new()
{
    TValue val;

    if (!dict.TryGetValue(key, out val))
    {
        val = new TValue();
        dict.Add(key, val);
    }

    return val;
}

Called:

var dictionary = new Dictionary<string, List<int>>();

List<int> numbers = dictionary.GetOrCreate("key");

It makes use of the generic constraint for public parameterless constructors: where TValue : new().

To help with discovery, unless the extension method is quite specific to a narrow problem, we tend to place extension methods in the namespace of the type they are extending, in this case:

namespace System.Collections.Generic

Most of the time, the person using the type has the using statement defined at the top, so IntelliSense would also find the extension methods for it defined in your code.

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1  
@Darthenius No, the first approach is specific to lists (we have others for HashSet and other Dictionary<> items). I can't remember the exact reasoning but I think because the List<> also contains a generic type, doing it this way plays nicer with type inference. –  Adam Houldsworth Apr 24 '13 at 13:37
2  
@Darthenius Well, I just went back to our code and commented out the List<> version we had and it no longer has a use, it was functionally the same as the standard one above. So I've removed it. It must have been left behind by accident as I was coding it the first time round. –  Adam Houldsworth Apr 24 '13 at 13:44
1  
@Darthenius Well, they weren't exactly functionally equivalent, so I haven't removed them. However, in terms of this question it wasn't relevant. They differed in that they checked for an item being null, not an item not being in the dictionary, so a key with a null item would also create one. –  Adam Houldsworth Apr 24 '13 at 13:52

As with so many programming problems, when you find yourself doing something a lot, refactor it into a method:

public static void MyAdd<TKey, TCollection, TValue>(
    this Dictionary<TKey, TCollection> dictionary, TKey key, TValue value)
    where TCollection : ICollection<TValue>, new()
{
    TCollection collection;
    if (!dictionary.TryGetValue(key, out collection))
    {
        collection = new TCollection();
        dictionary.Add(key, collection);
    }
    collection.Add(value);
}
share|improve this answer
    
@Darthenius It is just a different take. It narrows the scope of the method down to adding items to any collection implementing ICollection. The main point being to house the code in a separate location for re-use. I don't think he was attempting to improve upon the already provided code. –  Adam Houldsworth Apr 24 '13 at 13:59
2  
@Darthenius You can return the collection as well if you want, assuming that's a particularly common thing to do. In my experiences when using the pattern of Dictionary<TKey, SomeCollection> I'm not frequently adding multiple values for the same key all at once. If it's something that happens often you could add another overload in which you accept an IEnumerable<TValue> and just add them all within the method. –  Servy Apr 24 '13 at 13:59

Ok, different approach:

public static bool TryAddValue<TKey,TValue>(this System.Collections.Generic.IDictionary<TKey,List<TValue>> dictionary, TKey key, TValue value)
    {
        // Null check (useful or not, depending on your null checking approach)
        if (value == null)
            return false;

        List<TValue> tempValue = default(List<TValue>);

        try
        {
            if (!dictionary.TryGetValue(key, out tempValue))
            {
                dictionary.Add(key, tempValue = new List<TValue>());
            }
            else
            {
                // Double null check (useful or not, depending on your null checking approach)
                if (tempValue == null)
                {
                    dictionary[key] = (tempValue = new List<TValue>());
                }
            }

            tempValue.Add(value);
            return true;
        }
        catch
        {
            return false;
        }
    }

In this way you have to "try to add" your value to a generic List of (obviously generalizable to a generic collection), null checking and trying to get existing key/values in your Dictionary. Usage and example:

var x = new Dictionary<string,List<string>>();
x.TryAddValue("test", null); // return false due to null value. Doesn't add the key
x.TryAddValue("test", "ok"); // it works adding the key/value
x.TryAddValue("test", "ok again"); // it works adding the value to the existing list

Hope it helps.

share|improve this answer

And what about this?

var keyValues = dictionary[key] = dictionary.ContainsKey(key) ? dictionary[key] : new List<string>();
keyValues.Add(aValueForKey);
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