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Consider the following code:

class C
{
    public int A { get; set; }
    public int B;

    public C(int a, int b)
    {
        this.A = A;    // Oops, bug! Should be `this.A = a`. No warning
        this.B = B;    // Oops, bug! Should be `this.B = b`. `warning CS1717: Assignment made to same variable; did you mean to assign something else?`
    }
}

A and B are almost exactly the same thing, but one has a bug I will miss.

Is there a way I can get catch the first case at compile time?

EDIT: Some of the answers & comments want to explain to me that properties and fields aren't the same thing. I know that already. They explain why the compiler doesn't have a warning here; I get that. But I wrote a bug, and I don't like writing bugs. So my question is "How can I make sure I never, ever write this bug ever again?"

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I believe that removing { get; set; } will output a warning and since that public int A { get; set; } is the same as public int A you do not have to append { get; set; } as they are allowed by default. Have a great day :) –  Picrofo Software Oct 26 '12 at 4:46
5  
@PicrofoEGY public int A is NOT the same as public int A { get; set; }. The first is a public field, the second is a public property, Very different things. To the OP; excellent question. –  Alastair Pitts Oct 26 '12 at 5:09
    
@AlastairPitts Thanks for clarifying this :) –  Picrofo Software Oct 26 '12 at 5:14
1  
    
if C is a struct then you won't be able to use the this statement until all the fields are assigned. –  ja72 Oct 26 '12 at 5:20

7 Answers 7

up vote 6 down vote accepted
+200

Potentially you could use a tool such as FxCop and write a custom rule using VisitAssignmentStatement:
Some examples:
Example1
Example2

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Also can use CCI and maybe cecil if you dont use fxcop. –  AbdElRaheim Oct 31 '12 at 3:43

You said A = A and B = B is the same, but this is not true! You can make changes in a propery's getter and setter so A = A can change the variable like in the example below:

public Int32 A
{
    get { return _A++; }
    set { _A = value; }
}

So the compiler doesn't know if it is a misstake or not. Of course i would avoid such situations because its not so easy to work with code like this ( a.e. if you just have a assembly and don't know why A is changing each time ) and i would avoid to expose a explicit setter of such a property and prefer something like below.

public UInt32 UniqueID { get { _UniqueID++; } }

public void Reset()
{
    _UniqueID = 0;
}

Conclusion

A compile time error isn't making any sense here because the compiler don't know what happens in the property ( Remember: A property is just a simplification of two methods, set_MyProperty and get_MyProperty ), also if the property changes ( a.e. by beeing virtual ) the behaviour may change too.

(EDIT) Avoid missleading namings

I write property and parameters in the same way you are doing it. So as example how a simple class might look:

public class MyClass
{
    public Int32 Sample { get; private set; }

    public MyClass(Int32 sample)
    {
        Sample = sample;
    }
}

I'm getting into in the same trap like you every week around ~1 time so i did never thought about changing the namings. But there are some suggestions what you could use:

  • Use p(arameter) as prefix, however this is something which i would not recommend because it makes the code unreadable IMHO.
  • Use value as postfix, this seems ok for me. So instead of sample you would have sampleValue which is different to Sample ( The properties name ) and it should be easier to detect if the properties name is used instead of the parameters one
  • Use _ as prefix. I would't use it because i already use _ as prefix for members to enable fast access to them and makes intellisense look strange IMHO.

I think this depends totaly on you personal or company coding style but i personally would use Value as postfix.

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This isn't cast-iron, but if you installed ReSharper and set its inspection for 'Unused parameter' to 'Error', and further turned its Solution-Wide Analysis on, you'd see this in the code window:

enter image description here

One of these red indicators over in the right margin:

enter image description here

And this down in the status bar:

enter image description here

Which together make a combo that as a ReSharper user you'd soon become unable to ignore :)

Wouldn't stop you compiling, though.

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standard code analysis will pick up unused parameters also –  John Nicholas Nov 2 '12 at 16:30

Jay,

A great question. I believe most of the points which are relevant have been covered in various responses, but just to summarise:

  1. There is no way to handle this implicitly. The .Net compiler allows recursive properties, which is at the heart of this issue (in terms of not being able to 'capture' it). Note that, as per this question, that's not likely to change.
  2. As such, if you want to enforce the capture of this 'bug', you would need to do so explicitly via a 3rd party tool. I'm a ReSharper fan like many others, and that allows us to highlight property recursion where necessary. Also as others have mentioned, using FXCop along with effective Unit Testing patterns will also help you prevent such bugs from arising.
  3. Naming conventions are king. By providing an example as you have with deliberately 'useless' (!) variable and property naming, you've highlighted exactly WHY we should all be using an effective naming convention. The issue you highlight is one which has caught us all out, and becomes more pervasive as the code base grows.

Whilst potentially not the answer you were after, I think #3 is the most important point here. Naming items properly is the single most effective solution. Not only that but people might not have the luxury of relying on ReSharper and other such tools.

To that end I'd also recommend StyleCop. It can be a little invasive, but it is a great tool for helping a developer, or team of developers, adhere to a set of syntax conventions which you'll find will pretty quickly eradicate bugs such as the one you've highlighted.

Happy coding!

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Great advice. The only real way to catch bugs like this is to unit test your methods. Of course all the other suggestions here will definitely help reduce them from occurring in the first place. –  bahrens Nov 2 '12 at 12:24
    
@bahrens Agreed. This is one of those cases where a combination of these factors is really the only way to 'handle' the problem! –  Nick Nov 2 '12 at 12:25

In addition to all of the above answers you can also in project properties, under build tab, enable "Treat warnings as errors" with only specific warnings entered. If you are using command line compiler use:

csc /warnaserror C.cs

csc /warnaserror:1717 C.cs

From documentation: http://msdn.microsoft.com/en-us/library/406xhdz3.aspx

This will fail your build either on all warnings or ones you specify.

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I floss, use autopay, and build with warnings-as-errors. But that doesn't help with the problem I described. –  Jay Bazuzi Nov 4 '12 at 1:44

In no order:

  1. Use VB.NET

  2. Unit Test your code.

  3. Use ReSharper and accept the prompt "Qualifer 'this' is redundant" - then look for the warnings: Assignment made to same variable; did you mean to assign something else?

  4. I saw the FxCop suggestion and thought Custom Code Analysis Rules using Introspection was worth mentioning.

  5. Use better variable names to identify parameters vs members. This tip is certainly not high-tech. I often compare a variable to a constant, a number, or the return value of a function in a conditional statement. Although it is slightly harder to read, I am in the habit of placing the operand that cannot be used as a l-value on the left-hand side of the == operator, forgetting to type the second equals sign in the == operator will result in a (more than obvious) compiler error (a five-second fix) rather than having to track down the logic error later (a five-minute fix). This point I feel relates to the very minor syntax error that has just bitten you on the bum.

Many C# developers declare a variable the same as the type's name, except the first letter in lower case. This practice maybe something you wish to change.

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#3: qualifying with this wouldn't make a warning in this case. #5: I don't see how this is relevant. –  Jay Bazuzi Oct 31 '12 at 6:33
    
All of this is sound advice except for item 1. Switching to VB.NET is not practical advice. –  bahrens Nov 2 '12 at 12:21

Why is self-assignment of field this.B = B; is wrong? Because it does nothing. this.B and B is exactly same thing.

Why is self-assignment of property this.A = A; is not wrong? Because meaning of A depends on which side of = operator it stands. Consider how compiler sees this code:

set_A(get_A());

This is the invocation of two different methods. Do you think it's a warning if you'll call Foo(Bar());? Neither do compiler. It's not good to change backing store in getter, but consider property, where you counting number of readings, or do some logging, or put any other logic. Why would compiler warn you about this?

public int A
{
    get 
    {
       _log.Debug("Property A accessed by some user");
       _readingsCount++;
       // your logic goes here
       return _a;
    }    
}
share|improve this answer
1  
Of couse it's odd, i never said it's a good programming style. :-) –  Felix K. Oct 29 '12 at 9:16
1  
@FelixK. yep, I understand this :) Just pointed that for OP. I'll remove remark about odd :) –  Sergey Berezovskiy Oct 29 '12 at 9:20

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