85

I'm using the code below to either increment or insert a value in a dictionary. If the key I'm incrementing doesn't exist I'd like to set its value to 1.

 public void IncrementCount(Dictionary<int, int> someDictionary, int id)
 {  
     int currentCount;
     if (someDictionary.TryGetValue(id, out currentCount))
     {
         someDictionary[id] = currentCount + 1;
     }
     else
     {
         someDictionary[id] = 1;
     }
 }

Is this an appropriate way of doing so?

7
  • 3
    What are you trying to achieve with this? What problem are you solving?
    – Oded
    Aug 20, 2011 at 15:36
  • The Dictionary object doesn't really have a 'count' and it doesn't really make sense to 'decrement' it like you would an array. Having said that, the code you provided should work, though I think there are more succinct ways to handle the situation: check the Dictionary object's built in methods.
    – Pete855217
    Aug 20, 2011 at 15:36
  • 1
    What have you meant by the best way? Thread safe, more succinct, the fastest, whatsoever, the most readable?
    – tsul
    Jan 24, 2017 at 12:53
  • @tsul this question just received a late answer. The question is more than five years old, and the OP hasn't been here for more than two years.
    – CodeCaster
    Jan 24, 2017 at 12:55
  • @CodeCaster yeah, now I see. But this question is the first in the search results for 'most efficient way to increment an element in a .net dictionary', so I've tried to improve it.
    – tsul
    Jan 24, 2017 at 13:40

6 Answers 6

109

Your code is fine. But here's a way to simplify in a way that doesn't require branching in your code:

int currentCount;

// currentCount will be zero if the key id doesn't exist..
someDictionary.TryGetValue(id, out currentCount); 

someDictionary[id] = currentCount + 1;

This relies on the fact that the TryGetValue method sets value to the default value of its type if the key doesn't exist. In your case, the default value of int is 0, which is exactly what you want.


UPD. Starting from C# 7.0 this snippet can be shortened using out variables:

// declare variable right where it's passed
someDictionary.TryGetValue(id, out var currentCount); 
someDictionary[id] = currentCount + 1;
6
  • 1
    This code will not work. You are correct that if the key doesn't exist in the dictionary, currentCount will be 0. But that also means someDictinary[id] will throw a KeyNotFoundException.
    – JBSnorro
    Aug 20, 2011 at 17:15
  • 27
    @JBSnorro: No, this will work fine; I encourage you to try it. Note that the setter of the indexer is being called, not the getter. From the documentation: " When you set the property value, if the key is in the Dictionary<TKey, TValue>, the value associated with that key is replaced by the assigned value. If the key is not in the Dictionary<TKey, TValue>, the key and value are added to the dictionary."
    – Ani
    Aug 20, 2011 at 17:20
  • 1
    Hm sorry. I wasn't aware of that, thank you for pointing it out.
    – JBSnorro
    Aug 20, 2011 at 21:19
  • 10
    I realize this is a bit late to the show, but thought I'd help others that hit this. The above code will fail in a truly multi-threaded environment. Between the TryGetValue and the incrementing function below it the Dictionary can be updated on another thread, which means currentCount will be out of sync and you created a race condition.
    – MarkWalls
    Jul 16, 2015 at 19:03
  • 23
    All of the examples here are not thread safe. It was not part of the question, so making the assumption that it is so would be a mistake.
    – cyberconte
    Oct 4, 2016 at 17:20
101

As it turns out it made sense to use the ConcurrentDictionary which has the handy upsert method: AddOrUpdate.

So, I just used:

someDictionary.AddOrUpdate(id, 1, (id, count) => count + 1);  
2
  • 4
    That is fine, but I imagine there is some overhead to deal with thread issues.
    – goalie7960
    Aug 20, 2011 at 16:20
  • Indeed, ConcurrentDictionary is optimized for an environment with many threads accessing the collection.
    – Eric J.
    Aug 12, 2020 at 6:52
18

Here's a nice extension method:

    public static void Increment<T>(this Dictionary<T, int> dictionary, T key)
    {
        int count;
        dictionary.TryGetValue(key, out count);
        dictionary[key] = count + 1;
    }

Usage:

var dictionary = new Dictionary<string, int>();
dictionary.Increment("hello");
dictionary.Increment("hello");
dictionary.Increment("world");

Assert.AreEqual(2, dictionary["hello"]);
Assert.AreEqual(1, dictionary["world"]);
2
  • 5
    I realize this is a bit late to the show, but thought I'd help others that hit this. The above code will fail in a truly multi-threaded environment. Between the TryGetValue and the incrementing function below it the Dictionary can be updated on another thread, which means count will be out of sync and you created a race condition.
    – MarkWalls
    Jul 16, 2015 at 19:04
  • 1
    Love this. I used this and changed the return value to be the incremented value return (dictionary[key] = ++count);
    – Rhyous
    Sep 2, 2016 at 17:45
15

It is readable and the intent is clear. I think this is fine. No need to invent some smarter or shorter code; if it doesn't keep the intent just as clear as your initial version :-)

That being said, here is a slightly shorter version:

public void IncrementCount(Dictionary<int, int> someDictionary, int id)
{
    if (!someDictionary.ContainsKey(id))
        someDictionary[id] = 0;

    someDictionary[id]++;
}

If you have concurrent access to the dictionary, remember to synchronize access to it.

5
  • 4
    @inflagranti - this does too. (It increments the zero before returning - it was an example of a way to get less conditionals in the method).
    – driis
    Aug 20, 2011 at 15:41
  • Doesn't this require an extra look up when id does not exist?
    – goalie7960
    Aug 20, 2011 at 15:48
  • You're right, sorry. So I'd say the original code is more readable then ;) Aug 20, 2011 at 15:49
  • 2
    Yes it does require an extra lookup when ID does not exist. I read "best way" as "shorter/simpler". If "best way" means "most performant", the original version should be slightly more efficient. However, I doubt it will be measurable, unless this is used in a tight loop.
    – driis
    Aug 20, 2011 at 15:53
  • I also prefer the ContainsKey approach with value types if i need to "modify" them. But your approach needs 3 lookups if the id is not contained. You should use if...else.... It's even more readable if you use if(someDictionary.ContainsKey(id)) someDictionary[id]++; else someDictionary.Add(id, 1);. Feb 23, 2017 at 13:19
7

Just some measurements on .NET 4 for integer keys.

It's not quite an answer to your question, but for the sake of completeness I've measured the behavior of various classes useful for incrementing integers based on integer keys: simple Array, Dictionary (@Ani's approach), Dictionary (simple approach), SortedDictionary (@Ani's approach) and ConcurrentDictionary.TryAddOrUpdate.

Here is the results, adjusted by 2.5 ns for wrapping with classes instead of direct usage:

Array                 2.5 ns/inc
Dictionary (@Ani)    27.5 ns/inc
Dictionary (Simple)  37.4 ns/inc
SortedDictionary    192.5 ns/inc
ConcurrentDictionary 79.7 ns/inc

And that's the code.

Note that ConcurrentDictionary.TryAddOrUpdate is three times slower than Dictionary's TryGetValue + indexer's setter. And the latter is ten times slower than Array.

So I would use an array if I know the range of keys is small and a combined approach otherwise.

2

Here is a handy unit test for you to play with concerning ConcurrentDictionary and how to keep the values threadsafe:

     ConcurrentDictionary<string, int> TestDict = new ConcurrentDictionary<string,int>();
     [TestMethod]
     public void WorkingWithConcurrentDictionary()
     {
         //If Test doesn't exist in the dictionary it will be added with a value of 0
         TestDict.AddOrUpdate("Test", 0, (OldKey, OldValue) => OldValue+1);

         //This will increment the test key value by 1 
         TestDict.AddOrUpdate("Test", 0, (OldKey, OldValue) => OldValue+1);
         Assert.IsTrue(TestDict["Test"] == 1);

         //This will increment it again
         TestDict.AddOrUpdate("Test", 0, (OldKey, OldValue) => OldValue+1);
         Assert.IsTrue(TestDict["Test"] == 2);

         //This is a handy way of getting a value from the dictionary in a thread safe manner
         //It would set the Test key to 0 if it didn't already exist in the dictionary
         Assert.IsTrue(TestDict.GetOrAdd("Test", 0) == 2);

         //This will decriment the Test Key by one
         TestDict.AddOrUpdate("Test", 0, (OldKey, OldValue) => OldValue-1);
         Assert.IsTrue(TestDict["Test"] == 1);
     }

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