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I'm using C# 4.0. "Optimize code" in Visual Studio is turned on.

Consider the following code, in a class:

Dictionary<int, int> dictionary = new Dictionary<int, int>();

public void IncrementDictionary(int key) {
    if (!dictionary.ContainsKey(key)) {
        dictionary[key] = 1;
    } else {
        dictionary[key]++;
    }
}

Here, a call to IncrementDictionary does one of two things:

  • If no value exists for key, then a value is created and initialized to 1.
  • If a value exists, the value is incremented by 1.

Now watch what happens when I use ILSpy to decompile the result:

Dictionary<int, int> dictionary = new Dictionary<int, int>();

public void IncrementDictionary(int key) {
    if (!dictionary.ContainsKey(key)) {
        dictionary[key] = 1;
        return;
    }
    Dictionary<int, int> dictionary2;
    (dictionary2 = dictionary)[key] = dictionary2[key] + 1;
}

Note: In the actual production code using this, the optimizer/compiler also creates: int key2 = key; and uses key2 in the final line.

Ok, var has been replaced by Dictionary<int, int>, which is expected. And the if statement was simplified to add a return instead of using an else.

But why the heck was a new reference to the original dictionary created?

share|improve this question
3  
Important note: no second dictionary is created. Rather, a second reference to the existing dictionary is taken. – Jon Jun 27 '12 at 23:01
    
@Jon: Right, my mistake. – Chris Laplante Jun 27 '12 at 23:01
3  
The ILSpy you posted isn't an exact representation of what's happening in the CIL code directly. It's possible this is a bug or imperfection in the CIL-to-C# decompiler. Can you post the CIL so we can be certain? – Dai Jun 27 '12 at 23:05
1  
@SimpleCoder decompiled it with Reflector, looks almost the same, but it kept the else – Magnus Jun 27 '12 at 23:12
1  
@SimpleCoder I think you may have mixed up your code blocks: they're both showing the ILSpy result. :) Kinda hard to compare now! – Chris Sinclair Jun 27 '12 at 23:14
up vote 11 down vote accepted

I'm guessing it could be to avoid a race condition where if you have:

dictionary[i] = dictionary[i] + 1

It's not atomic. The dictionary being assigned to could change after you got the value and incremented.

Imagine this code:

public Dictionary<int, int> dictionary = new Dictionary<int, int>();

public void Increment()
{
    int newValue = dictionary[0] + 1;
    //meanwhile, right now in another thread: dictionary = new Dictionary<int, int>();
    dictionary[0] = newValue; //at this point, "dictionary" is actually pointing to a whole new instance
}

With the local variable assignment they have, it looks more like this to avoid the condition:

public void IncrementFix()
{
    var dictionary2 = dictionary;
    //in another thread: dictionary = new Dictionary<int, int>();
    //this is OK, dictionary2 is still pointing to the ORIGINAL dictionary
    int newValue = dictionary2[0] + 1;
    dictionary2[0] = newValue;
}

Note that it doesn't fully satisfy all thread-safe requirements. For example, in this case, we start incrementing the value, but the dictionary reference on the class has changed to a whole new instance. But if you need that higher level of thread safety, then you need to implement your own aggressive synchronization/locking, which is generally outside the scope of compiler optimizations. However this one, from what I can tell, doesn't really add any big hit (if any) to processing and avoids this condition. This might especially be the case if dictionary is a property not a field as it is in your example, in which case it would definitely be an optimization to not resolve the property getter twice. (By any chance, is your actual code using a property for the dictionary rather than the field you posted?)

EDIT: Well, for a simple method:

public void IncrementDictionary() 
{
    dictionary[0]++;
}

The IL reported from LINQPad is:

IL_0000:  nop         
IL_0001:  ldarg.0     
IL_0002:  ldfld       UserQuery.dictionary
IL_0007:  dup         
IL_0008:  stloc.0     
IL_0009:  ldc.i4.0    
IL_000A:  ldloc.0     
IL_000B:  ldc.i4.0    
IL_000C:  callvirt    System.Collections.Generic.Dictionary<System.Int32,System.Int32>.get_Item
IL_0011:  ldc.i4.1    
IL_0012:  add         
IL_0013:  callvirt    System.Collections.Generic.Dictionary<System.Int32,System.Int32>.set_Item
IL_0018:  nop         
IL_0019:  ret         

I'm not entirely sure (I'm not an IL wiz), but I think the dup call essentially doubles up the same dictionary reference on the stack so regardless both the get and set calls will point to the same dictionary. Perhaps this is just how ILSpy represents it as C# code (it's more or less the same at least as behaviour goes). I think. Please correct me if I'm wrong because, like I said, I don't know IL like the back of my hand yet.

EDIT: Gotta run, but the final gist of it is: ++ and += are not an atomic operations and is actually a good deal more complicated in executed instructions than as depicted in C#. As such, to make sure that that each of the get/increment/set steps are performed on the same dictionary instance (as you would expect and require from the C# code) a local reference to the dictionary is made to avoid running the field "get" operation twice which could result to pointing to a new instance. How ILSpy depicts that all that work involved with a indexed += operation is up to it.

share|improve this answer
    
Nope, dictionary2 is still pointing to the original dictionary. – Chris Sinclair Jun 27 '12 at 23:03
2  
Right. Increment() controls dictionary2: it is a local reference to the original dictionary. – Robert Harvey Jun 27 '12 at 23:04
    
Ah, I see now. Great answer. – Chris Laplante Jun 27 '12 at 23:13
    
Your point about not resolving the property getter twice is very relevant, and actually would not be an optimization but what you would intuitively expect when calling dictionary[key]++ (ie. if the property has some side effect, it should only happen once) – d--b Jun 27 '12 at 23:13
1  
@ChrisSinclair: Even in a single-threaded scenario, the compiler has no way of knowing whether the Dictionary<,> "indexed get" function will alter any field of any object (including this.dictionary). Not exactly a "race condition", but an issue nonetheless. – supercat Jun 27 '12 at 23:43

Your edit messed up what you were trying to show, but the reason that dictionary[key]++ makes a temporary copy of dictionary is that it has no way of knowing whether the indexed getter for Dictionary<int,int> will change field dictionary. The spec indicates that even if field dictionary is changed during the indexed get, the indexed put will still be executed on the same object.

BTW, .net really should have (and still should) provide a means by which classes can expose properties as ref. It would be possible for Dictionary to provide methods ActOnValue(TKey key, ActionByRef<TValue> action) and ActOnValue<TParam>(TKey key, ActionByRef<TValue, TParam> action, ref TParam param) (assuming ActionByRef<T> is like Action<T> but the parameter declared ref, and likewise ActionByRef<T1,T2>). If it did, one could perform a read-modify-write on a collection object without having to index into the collection twice. Unfortunately, there's no standard convention for exposing properties in such fashion, nor is there any language support.

share|improve this answer
    
Is the edit fixed now? – Chris Laplante Jun 27 '12 at 23:30
    
@SimpleCoder: Looks better. – supercat Jun 27 '12 at 23:41
    
Ok thanks. What you say makes sense- I had never thought of that. – Chris Laplante Jun 27 '12 at 23:50

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