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I'm doing some data parsing and came across this issue. Say we want to parse some byte[] to a structure. I want to wrap the C# code that does that into a static method.

The original code (I am reworking a piece) read:

public class DiagnosticUndefined : BaseDiagnostic
    StructDiagnosticUndefined bufferAllocation;

    public DiagnosticUndefined(byte[] buff)
        bufferAllocation = (StructDiagnosticUndefined)DiagnosticUtil.parseStruct(buff, typeof(StructDiagnosticUndefined));

I'd like to use a generic function for that, but how to proceed? Consider:

public static class Util {
    public static T Convert<T>(byte[] data) {...}
    public static void Convert<T>(byte[] data, out T structure) {...}

The first is more inline with normal procedure but is has the downside that the compiler cannot infer the datatype so my call will look like this:

SomeStruct s;
s = Util.Convert<SomeStruct>(data);

The other approach is this:

SomeStruct s;
Util.Convert(data, out s);

I like the second approach as it delegates the type inference to the compiler i.e. less runtime errors. On the other hand I tend to avoid use of the out parameter as supported by MSDN: http://msdn.microsoft.com/en-us/library/ms182131.aspx. I'm all for the "don't solve simple problems in a complex way" paradigm but I can't differentiate this time...

Any hints, opinions?


The code examples are simplified, the variable is actually a member so I can't go 'one-line'. Also I am using Marshalling to convert the data into a structure:

GCHandle handle = GCHandle.Alloc(data, GCHandleType.Pinned);
T output = (T)Marshal.PtrToStructure(handle.AddrOfPinnedObject(), typeof(T));
share|improve this question
The first should look no more complicated than var s = Util.Convert<SomeStruct>(data); –  hvd Sep 12 '12 at 8:04
You say "I like the second approach as it delegates the type inference to the compiler i.e. less runtime errors". This sentence is strange in this context, because in both approaches a runtime error because of the type is impossible. In both cases the compiler checks that the types match. –  Daniel Hilgarth Sep 12 '12 at 8:13
@DanielHilgarth The function version allows implicit conversions, such as decimal d = Util.Convert<int>(data);. –  hvd Sep 12 '12 at 8:25
@hvd: Alright - but that still doesn't lead to a runtime error. –  Daniel Hilgarth Sep 12 '12 at 8:29
@DanielHilgarth Util.Convert<int> could throw an exception if data.Length does not match the expected length for an int, or could return data that is completely different from what Util.Convert<decimal> would have returned. Wrong data is also a runtime error, just not a runtime exception. –  hvd Sep 12 '12 at 8:35

4 Answers 4

up vote 1 down vote accepted

EDIT Suggested by @Nebula

The first case, seems perfectly valid one:

var s = Util.Convert<SomeStruct>(data);

Use out when you want somethign back from the call, but not for declarative purposes.

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I guess, OP wants to use it as in the second example: var s = Util.Convert(data); without explicitly coding T –  horgh Sep 12 '12 at 8:10
@KonstantinVasilcov: don't see a reason of not using generics declaration, pretending type safity and use out parameter, honestly. –  Tigran Sep 12 '12 at 8:13
@Tigran What Konstantin said. I don't fully understand your comment. Are you pleading for or against explicitly typing he generic? –  Nebula Sep 12 '12 at 8:33
@Nebula: yes, for esplicitly declaring type your function operates on out is not something you need to use, just use generics. Use out in case when you want somethign back from the call, but not for declarative purposes. –  Tigran Sep 12 '12 at 8:51
@Nebula: I would choose your first case. Cause it does what you want (considering the question provided). –  Tigran Sep 12 '12 at 10:06

I would modify the first to:

SomeStruct s = Util.Convert<SomeStruct>(data); 

and go with that.

The reason is less code to read at and maintain.

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Yeah, I updated my answer. Can't do that ;-) –  Nebula Sep 12 '12 at 8:30
The variable being a member doesn't prevent you from writing _s = Util.Convert<SomeStruct>(data);. –  Daniel Hilgarth Sep 12 '12 at 8:33
@DanielHilgarth No, but that's what it was right? But then the argument of less code goes away because both solutions reads one line. The argument of less maintaining: the generic has a type dependent argument whereas the 'out' param has not. When I change the type of the output I have to change two lines in the generics solution (var type and gen arg type) in the 'out' solution I only have to change the type of the variable and rest follows automatically. But then I'm back to my question; 'out': less type dependent code, generics: considered more 'correct' in most cases. Is this an exception? –  Nebula Sep 12 '12 at 8:57
@Nebula, I don't really the fact that C# lets you pass a private class member as an out parameter to en external method. This effectively gives code outside the class the ability to update internal class data. If memory serves correctly, C++ did not allow this, which I think is better and more OO. So, I know C# allows it, but I would still choose the return parameter, as my personal preference. –  Justin Harvey Sep 12 '12 at 9:26

Both approaches, needless to create SomeStruct object:

 SomeStruct s = new SomeStruct();

Because I believe you create this object inside Convert method. For the second approach, the correctness should be:

SomeStruct s;
Util.Convert(data, out s);

Because out arguments need not be initialized. If you just change properties of s and don't change the pointer or create object inside Convert, out will not be needed also:

SomeStruct s = new SomeStruct();
Util.Convert(data, s);

IMHO, approach 1 should be better and more readable.

share|improve this answer
+1: for the idea to have SomeStruct constructed somewhere before and remove out modifier => then OP has the desired type inferrence and avoids out. –  horgh Sep 12 '12 at 8:17
I don't actually create the object beforehand. I've updated my answer accordingly. Thank you for clarifying the other options available though. –  Nebula Sep 12 '12 at 8:38
@KonstantinVasilcov I don't desire the type inferrence, I actually wonder if it is good practice to use this. So please, give me you opinion so I can form mine :-) –  Nebula Sep 12 '12 at 8:59

I'm pretty sure using generics in this case will not bring you much of an advantage. But if you insist... What's wrong with

var s = Util.Convert<SomeStruct>(d);

Also, converting and parsing is not the same thing, don't use that interchangeably.

share|improve this answer
Yeah, I know. My production code has a different name, more appropriate to the task. The above code is an example. The advantage the generics bring me is that instead of writing a function that returns object, which I have to cast, I can define the type using C# syntax i.e. more readable. –  Nebula Sep 12 '12 at 8:42
By the way, care to elaborate on the "I'm pretty sure using generics in this case will not bring you much of an advantage" part? Not really constructive this way. If you have a better approach then I'd gladly hear it. It IS a best practice question after all. –  Nebula Sep 12 '12 at 9:58
Well I didn't know you're using Marshal to the "converting". That's quite unorthodox for C# code. So if you insist on using that, then ignore this comment of mine. Otherwise, a method that reads in binary data and produces an object would most probably be called Deserialize and would be type specific: SomeStruct DeserializeSomeStruct(byte[] input); –  Tar Sep 12 '12 at 13:54

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