Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Ok.. I have a really awkward problem that I believe is related with how C# handles value types vs reference types but I'm just not sure what exactly the bug is.

public partial class LogicSimulationViewerForm : Form
    {

    private Dictionary<string, PointStruct> pointValues;


private void SearchPoint(string code)
    {
        ReadDefaultPointValuesResponse result = ddcdao.ReadDefaultPoint(points);
        pointValues = new Dictionary<string, PointStruct>();

        for (int j = 0; j < result.pointidentifier.Length; j++)
        {
            if (!pointValues.ContainsKey(result.pointidentifier[j]))
            {
                PointStruct ps = new PointStruct();
                ps.name = "Random String"; 
                ps.pointidentifier = result.pointidentifier[j];
                ps.outofservice = result.outofservice[j];

                pointValues.Add(result.pointidentifier[j], ps);
                ...

pointValues is stored as a private field in a class. Now in the same class but in a different function, if I try to do the following:

PointStruct ps = pointValues[s];
MessageBox.Show(ps.name);
MessageBox.Show(ps.pointidentifier);
MessageBox.Show(ps.outofservice);

The ps.pointidentifier and ps.outofservice is displayed correctly but ps.name is always returned as null no matter what I do. How can I fix this issue?

Edit: Upon request, I am adding more code to further illustrate the problem:

public struct PointStruct
{
    public string pointidentifier;
    public string affect;
    public string outofservice;
    public string priorityarray;
    public string pointtype;
    public string alarmstate;
    public string correctvalue;
    public string presentvalue;
    public string name;
    public string test;
}
share|improve this question
3  
It would be really helpful if you could show a short but complete program demonstrating the problem, ideally as a console app. Oh, and that looks like you've got far too many fields for a well-designed struct. Any reason you haven't made it a class? –  Jon Skeet Jul 6 '12 at 12:31
2  
Provide PointStruct structure too. –  yogi Jul 6 '12 at 12:32
1  
I suspect you've misunderstood the differences between classes and structs. It has nothing to do with whether methods are required. –  Jon Skeet Jul 6 '12 at 12:36
2  
You say pointValues.Add isn't used elsewhere; is pointValues[key] = ... used anywhere? –  Marc Gravell Jul 6 '12 at 12:39
2  
@SokwhanHuh yes, but the above code by itself shouldn't fail regardless of whether it is class or struct. So: something else is going on. The fact remains, that almost certainly (well, more than "almost") shouldn't be a struct. That isn't helping clarity here. –  Marc Gravell Jul 6 '12 at 12:40

2 Answers 2

up vote 3 down vote accepted

As long as there is no voodoo (explicit field layouts, property indirection, etc), there is absolutely no reason why a field should wipe itself, regardless of whether it is a class or a struct.

If it was a class, we could perhaps put that down to a careless update somewhere else, i.e.

var foo = pointValues[key];
// snip 2000 lines
foo.name = newValue; // which happens to be null

which would of course update the same fundamental object as the one referenced by the dictionary. But that doesn't apply to a struct, since the copies are separate (unless updating directly in an array).

The only way I can see of causing that, given that you state that pointValues.Add(...) is only used in one place, is that you are overwriting it elsewhere via the indexer:

pointValues[key] = newValueWithANullName;

All that said, though; unless you have some very specific reasons, there is very little purpose for PointStruct to be a struct. That looks to me like it should be a class. It is very "fat" for a struct. Also; in most cases, structs should be immutable.

share|improve this answer
    
Really quick and indepth explanation. Thanks! –  l46kok Jul 6 '12 at 12:46
    
+1 for struct immutability. –  Matthew Abbott Jul 10 '12 at 15:54

It would be very surprising for a struct stored in a Dictionary to have any of its string fields change to hold anything other than the value they held when the struct was stored in the Dictionary. Is your name actually a literal "Random String", or are you using that literal to represent some other function? Have you confirmed that the function in question is actually working?

Unlike some people here, I very much like mutable structs, despite the limitations in .net's support for them, because they allow the owner of a struct to control who can mutate it. By contrast, if a reference to a mutable class object has ever been exposed to outside code, there's no telling when or by whom it might be altered. The fact that PointStruct is a struct means that there's a 99.44% chance that the field contents of the struct you are retrieving from the Dictionary are the same as the field contents the struct had when it was stored. Add a check to ensure that the Name field is non-null whenever it's stored to the Dictionary and you'll almost certainly find your problem. A much better situation to be in than with a mutable class, where you'd have to inspect outside code to ensure that nothing's altering it.

Addendum

There is one evil thing about mutable structs, which is that if you have any struct members, other than a constructor or property setters, which mutate this, an attempt to use such a member in read-only contexts will generate bogus code but won't generate any compiler diagnostics. Languages and frameworks which properly support value-type semantics require that members which mutate this be tagged as such, and forbid the use of such members in read-only contexts, but unfortunately .net has no such tagging. It simply guesses that constructors and property setters will mutate the underlying struct, while getters and other methods will not. If the `Name field is filled in with a struct method, e.g.

void ComputeName(void)
{
  Name = someRandomString();
}

I would strongly suggest that you replace it with a static method:

void ComputeName(ref theStruct)
{
  theStruct.Name = someRandomString();
}

If the former function is called on a read-only instance of PointStruct, the compiler will--as noted--compile without complaint but the resulting code won't work. Attempting to pass a read-only instance of PointStruct to the latter, however, will cause a compiler error.

share|improve this answer
    
+1, I was thinking maybe name is actually assigned after the struct is copied to the dictionary. –  Eric Nicholson Jul 10 '12 at 15:40
    
@EricNicholson: That's possible, but having code assign everything but the name before storing the thing in the Dictionary and then do the name afterward would seem odd even if the data type in question were a mutable class. Still, you raise an interesting point (see addendum). –  supercat Jul 10 '12 at 15:51

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.