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.

I have the code similar to the following in one of my projects:

internal enum ArtworkType
{
    Undefined = 0,
    Bmp = 1,
    Gif = 2,
    Jpeg = 3,
    Png = 4
}

[StructLayout(LayoutKind.Sequential)]
internal struct TagArtwork
{
    internal IntPtr data;
    internal int size;
    internal ArtworkType type;
}

When I run FxCop on this code, I get run into warning CA1049. This struct is used for interoperability with a native code library, so it pretty much has to have this layout. Why does FxCop give me grief about this struct? I have other structs in the same source file, which also have IntPtr members, but FxCop does not complain about those.

For example, the following code does not trigger the same warning:

internal enum ItemType
{
    Implicit = 0,
    Utf8 = 1,
    Utf16 = 2,
    Sjis = 3,
    Html = 6,
    Xml = 7,
    Uuid = 8,
    Isrc = 9,
    Mi3p = 10,
    Gif = 12,
    Jpeg = 13,
    Png = 14,
    Url = 15,
    Duration = 16,
    DateTime = 17,
    Genres = 18,
    Integer = 21,
    Riaa_pa = 24,
    Upc = 25,
    Bmp = 27,
    Undefined = 255
}

[StructLayout(LayoutKind.Sequential)]
internal struct MP4ItmfData
{
    internal byte typeSetIdentifier;
    internal ItemType typeCode;
    internal int locale;
    internal IntPtr value;
    internal int valueSize;
}

I suppose I could implement IDisposable on the struct, but that just seems wrong. Likewise, I could simply suppress the warning, but at the moment, I want to understand what it is about this particular struct that is triggering the warning, when it's not that much different than the other seven structs I have in the same source file. Alternatively, I'd happily accept an explanation of why the other structs don't trigger this warning.

share|improve this question
    
just suppress the warning, unless you're the one allocating the unmanaged handle, in which case you should implement IDisposable. –  Michael Edenfield Nov 7 '12 at 20:02
    
I realize I could simply suppress the warning, but I want to understand what makes this struct so special. I'll edit the question to make it clear that I don't want to suppress the warning in this case. –  JimEvans Nov 7 '12 at 20:04
    
Could you post the code for another struct which also has an IntPtr and doesn't trigger an FxCop warning? –  Scott Nov 7 '12 at 20:11
    
@Scott Done with the most recent edit. –  JimEvans Nov 7 '12 at 20:21

2 Answers 2

up vote 7 down vote accepted

The Code Anylsis engine produces this warning any time you have a managed type that includes a member of what it considers a "native" type. To be a native type, the field must:

  • Be IntPtr, UIntPtr, or a HandleRef
  • Not be static
  • Actually be assigned a value from native code

I'm pretty sure that this third bullet is probably the difference between your various structures. The analysis engine (based on a quick dotPeek perusal) will only trigger the warning if it actually finds an instance of your IntPtr being assigned from native code. I haven't yet found exactly what it considers an "assignment from native code" but whatever that is, my best guess is only one of you various struct types is triggering that part of the rule.

Note that this is based on reading the actual code of the current implementation of the Code Analysis engine as ships with VS2010. It is absolutely not a documented behavior of the rule, but likely a specific optimization to reduce false positives. You should not assume that code which currently "passes" this rule (e.g. because it's never assigned from native code) will always do so, as MS is free to change the implementation details at any time.

As mentioned in my comment, suppressing the message is a perfectly legitimate response in this case; this is not one of the FxCop rules that should never be suppressed. The rule is very context-specific and only applies if you're allocating a native resource of your own. If you are only passing the struct back and forth between C# and unmanaged code, then you can most likely just suppress the warning and move on.

share|improve this answer
    
That's exactly it, actually being assigned from native code. What documentation page did I forget to read where those bullet points are laid out? –  JimEvans Nov 7 '12 at 20:33
    
they are not. I ran dotPeek on the code analysis assemblies and traced through it. Which I should point out in my answer. –  Michael Edenfield Nov 7 '12 at 20:36
    
It seems rather odd that the warning would be applied to a struct, since there's no way a struct can actually "own" anything. It would make sense for the analysis engine to make note of structures that contain such types, and suggest that any class which contains fields of those structure types should implement IDisposable, but having a structure type include a non-trivial implementation of IDisposable would seem a pretty severe anti-pattern. –  supercat Nov 13 '12 at 0:13

It's quite clearly spelled out in the article you linked:

This rule assumes that IntPtr, UIntPtr, and HandleRef fields store pointers to unmanaged resources. Types that allocate unmanaged resources should implement IDisposable to let callers to release those resources on demand and shorten the lifetimes of the objects that hold the resources.

So just the plain appearance of IntPtr in the struct is enough to trigger the warning. After you verified that you really didn't forget to release the native resource, apply the [SuppressMessage] attribute on the struct to not have to look at this message again.

share|improve this answer
    
But that's exactly my point. I have literally seven other structs, in the same project, five of which also contain IntPtr members. None of them trigger the same warning. Yes, I read the documentation; no, I don't understand how one struct triggers the warning, but the others don't. –  JimEvans Nov 7 '12 at 20:15
    
I don't either, I can't see your code from here. –  Hans Passant Nov 7 '12 at 20:17

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.