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Given the following:

// not a problem
int i = 2, j = 3;

so it surprises me that this:

// compiler error: Implicitly-typed local variables cannot have multiple declarators
var i = 2, j = 3;

doesn't compile. Maybe there is something I don't understand about this (which is why I'm asking this)?

But why wouldn't the compiler realize that I meant:

var i = 2;
var j = 3;

which WOULD compile.

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I never had a need for that feature. In the cases were var is useful the initializers are usually rather long, and thus multiple statements are easier to read anyways. –  CodesInChaos Feb 9 '11 at 20:45
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@bzlm this thread is just 20 minutes old. Do you expect Eric to check every C# thread on SO several times per hour? –  CodesInChaos Feb 9 '11 at 20:52
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By the way, I realize this is just an example, but it always bugs me when developers use var in place of int. It's the same number of letters! int is even easier to type, in my opinion ;) –  Dan Tao Feb 9 '11 at 20:55
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@bzlm: First, learn patience. Second, I don't "lurk". Third, if there is something you want brought to my attention, use the contact link on my blog and I'll get to it eventually. I do have actual work on the compiler to do from time to time. –  Eric Lippert Feb 9 '11 at 21:24
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@Rune FS: I mostly agree with you, but there are some times when the mechanism of the types is very important to the correctness and understanding of the code, and in those cases it is a good idea to make the type explicit in the text. I think it's nice to have the option, so that you can choose to emphasize or de-emphasize the type as appropriate. –  Eric Lippert Feb 9 '11 at 22:00
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5 Answers

up vote 32 down vote accepted

It's just another point of possible confusion for the programmer and the compiler.

For example this is fine:

double i = 2, j = 3.4;

but what does this mean?

var i = 2, j = 3.4;

With syntactic sugar this kind of thing is a headache no one needs--so I doubt your case would ever be supported. It involves too much of the compiler trying to be a little bit too clever.

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3  
Yeah, but the compiler could catch an assignment of more than one type and only produce an error in that case. It seems like this was simply a design choice. Of course, there may be technical reasons that I don't know about. –  Ed S. Feb 9 '11 at 20:40
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@Ed S. Anything that is supported has a cost involved in design, testing and support. Since this feature has no real upside and is potentially confusing and/or frustrating to some people at least I don't see that a positive decision to exclude it is required. It just doesn't merit inclusion in the C# feature set. Or to quote Star Trek... 'just because we can do a thing.....' –  James Gaunt Feb 9 '11 at 20:44
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Compiler could simply use one of the scenarios and solve it in the first pass. The programmers on the other hand would be VERY confused. C++ programmers would probably expect i and j to be double, some others i to be int and j to be double and the rest compilation error! What would they all had in common is they would hate the compiler designers for doing it wrong. –  Jaroslav Jandek Feb 9 '11 at 20:52
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I've seen this conversation with the language-writers, and indeed: the reason is exactly this. Since there wasn't a clear and obvious way of interpreting it that everyone agreed with (least surprise etc), it was better not to. Some people would think obviously that was double and double, and some would think obviously it was int and double... –  Marc Gravell Feb 9 '11 at 20:55
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The length of this thread is now the answer to the question. –  James Gaunt Feb 9 '11 at 21:00
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When we designed the feature I asked the community what

var x = 1, y = 1.2;

should mean. The question and answers are here:

http://blogs.msdn.com/b/ericlippert/archive/2006/06/26/what-are-the-semantics-of-multiple-implicitly-typed-declarations-part-one.aspx

http://blogs.msdn.com/b/ericlippert/archive/2006/06/27/what-are-the-semantics-of-multiple-implicitly-typed-declarations-part-two.aspx

Briefly, about half the respondants said that the obviously correct thing to do was to make x and y both double, and about half the respondants said that the obviously correct thing to do was to make x int and y double.

(The language committee specified that it should be "double", and I actually implemented the code that way long before we shipped. We used the same type inference algorithm as we do for implicitly typed arrays, where all the expressions must be convertible to a best element type.)

When half your customer base thinks that one thing is "obviously correct" and the other half believes that the opposite is "obviously correct" then you have a big design problem on your hands. The solution was to make the whole thing illegal and avoid the problem.

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@Eric: so you took out your implementation from the compiled code? –  Joan Venge Feb 9 '11 at 23:41
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@Joan:We removed it, and replaced it with an error-recovery system that instead binds "var x = a, y = b;" as though the "var" were replaced with the type of "a". That way you get IntelliSense on "x." and "y." as though they were both the type of "a". That seemed like the more sensible thing to do for the IDE experience than some complex heuristic that tries to figure out the best type, or the type of each. –  Eric Lippert Feb 10 '11 at 0:24
    
@Eric: Thanks that's good to know. I like it that you kept it simple :O –  Joan Venge Feb 10 '11 at 0:27
    
When I first thought about this, I decided that y should be an int. Then I considered the following C++ code: int* x, y. x is a pointer to an int, y is a regular int. So in my opinion, y should be a double. –  Marlon Feb 11 '11 at 8:09
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@Marlon: First off, your intuition from C was wrong because of the way you wrote the declaration. "int *x, y;" expresses the true meaning, namely, that *x and y are both variables that contain an int. Second, the fact that you had to consider the (strange) semantics of another language, and the fact that you changed your mind halfway through the process, is just more evidence that the feature is completely unclear and misleading and therefore should be made illegal. Which is what we did. –  Eric Lippert Feb 11 '11 at 15:08
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I think it's just too iffy. When the two variables are the same type it's an easy specific case, but in the more general case you'd have to consider what is "correct" in code like:

var x = new object(), y = "Hello!", z = 5;

Should those all be typed as object, since that's the only type they all have in common? Or should x be object, y be string, and z be int?

On the one hand you might think the former, since variables declared in this way (all on one line) are usually presumed to all be the same type. On the other hand perhaps you'd think it's the latter, since the var keyword is typically supposed to get the compiler to infer the most specific type for you.

Better to just prohibit this altogether than bother working out exactly how it should behave, given that it would not exactly be a "killer" feature anyway.

That's my opinion/guess, at least.

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1  
The rule could have been that all local variables in one declaration must result in the same inferred type. –  CodesInChaos Feb 9 '11 at 20:43
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You'd still have cases where all values could be of one inferred type, but if each were declared separately they'd be different inferred types. Either way they'd allow it to work (individual or group inference) you'd cause confusion with people who expected it to work the other way. –  KeithS Feb 9 '11 at 20:45
    
@CodeInChaos, @KeithS: I'm with Keith on this one. Nobody can really deny that it could work a certain way; I think the problem is that whatever that hypothetical way is, it also could work the opposite way. –  Dan Tao Feb 9 '11 at 20:50
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I don't understand what you mean KeithS. My suggestion was that only to only allow such a var statement if all types in it were the same(and not just convertible to the same type). So var i=1,j=2 would be valid, var i=1.0,j=2 would not. But I agree with JamesGaunt that it's possibly not worth the cost of specing, coding, testing... –  CodesInChaos Feb 9 '11 at 20:56
    
@CodeInChaos: So you mean exactly the same type. All types are object at least, after all. I think Keith (and I) figured you just meant that the compiler could choose the most specific common type for all variables. –  Dan Tao Feb 9 '11 at 20:59
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Because if this worked:

var i = 2, j = 3;

because this works:

var i = 2;
var j = 3;

then you might expect this to work:

var i = 2, j = "3";

because this works:

var i = 2;
var j = "3";

Even in the case posited by James Gaunt, where they are both numeric types and could be stored in a value of the same type, what type would i be?:

var i = 2, j = 3.4;

j is obviously a double, but i could logically be either an int or a double, depending on how you expected var to infer the types. Either way it were implemented, you'd cause confusion with people who expected it to work the other way.

To avoid all this confusion, it's simply disallowed. I personally don't see it as a big loss, personally; if you want to declare a list of variables (which is itself pretty rare in my working experience), just strongly type em.

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I think, that's because for compiler it could be the same as:

var i = 2, j = "three"

And those surely aren't of the same type.

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In the example in the question, this does not apply. –  bzlm Feb 9 '11 at 20:39
    
@bzlm Why would you think so? The question was about the surprizing point and this answer shows why it shouldn't be that surprising. –  Ilya Dvorovoy Feb 9 '11 at 20:44
    
+1 to counter-act the -1. Although a little terse, this answer contains the same reasoning as some of the up-voted answers. –  user166390 Feb 9 '11 at 20:51
    
@pst thank you that was the only reason I've undeleted it, 'cause surely there is a more distinct answer –  Ilya Dvorovoy Feb 9 '11 at 20:53
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