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After discussion with colleagues regarding the use of the 'var' keyword in C# 3 I wondered what people's opinions were on the appropriate uses of type inference via var?

For example I rather lazily used var in questionable circumstances, e.g.:-

foreach(var item in someList) { // ... } // Type of 'item' not clear.
var something = someObject.SomeProperty; // Type of 'something' not clear.
var something = someMethod(); // Type of 'something' not clear.

More legitimate uses of var are as follows:-

var l = new List<string>(); // Obvious what l will be.
var s = new SomeClass(); // Obvious what s will be.

Interestingly LINQ seems to be a bit of a grey area, e.g.:-

var results = from r in dataContext.SomeTable
              select r; // Not *entirely clear* what results will be here.

It's clear what results will be in that it will be a type which implements IEnumerable, however it isn't entirely obvious in the same way a var declaring a new object is.

It's even worse when it comes to LINQ to objects, e.g.:-

var results = from item in someList
              where item != 3
              select item;

This is no better than the equivilent foreach(var item in someList) { // ... } equivilent.

There is a real concern about type safety here - for example if we were to place the results of that query into an overloaded method that accepted IEnumerable<int> and IEnumerable<double> the caller might inadvertently pass in the wrong type.

var does maintain strong typing but the question is really whether it's dangerous for the type to not be immediately apparent on definition, something which is magnified when overloads mean compiler errors might not be issued when you unintentionally pass the wrong type to a method.

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68  
Using var is fine, but "I don't have to figure out the type" seems like a very bad reason to use it... you're supposed to know what the type is, var is just a shortcut to avoid typing it –  Thomas Levesque May 19 '10 at 14:03
53  
var i = 0; == fail! var c = new CrazyFrigginLongClassName(); == win! –  dotjoe May 19 '10 at 14:08
6  
"Var also reminds me of the VB/VBA variant type. It also had its place. I recall (from many years ago) its usage being less-than-desirable type and it was rather resource hungry." <- shows this is a baiting question as the 'var' type of C# has nothing to do with the VB/VBA variant type. –  user7116 May 19 '10 at 15:02
20  
var readabilityBeDamned = true; –  spoulson May 19 '10 at 15:14
9  
The problem with all the examples stated here is that we're looking at ONE line of code. When I see line after line of "var" declarations, one after the other, it gets out of hand. Readability is subjective, but I find var abused far more than used respectably. –  jro Jun 13 '11 at 4:48

86 Answers 86

up vote 293 down vote accepted

I still think var can make code more readable in some cases. If I have a Customer class with an Orders property, and I want to assign that to a variable, I will just do this:

var orders = cust.Orders;

I don't care if Customer.Orders is IEnumerable<Order>, ObservableCollection<Order> or BindingList<Order> - all I want is to keep that list in memory to iterate over it or get its count or something later on.

Contrast the above declaration with:

ObservableCollection<Order> orders = cust.Orders;

To me, the type name is just noise. And if I go back and decide to change the type of the Customer.Orders down the track (say from ObservableCollection<Order> to IList<Order>) then I need to change that declaration too - something I wouldn't have to do if I'd used var in the first place.

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48  
I like having the explicit type in front of me when I'm reading code. How do I know what "cust.Orders" is here without the type? Yes, I could hover my mouse over to find out, but why should I have to? :) –  Jon Tackabury Oct 21 '08 at 18:30
77  
But the point is that in general it doesn't matter. Provided cust.Orders is something you can enumerate (eg foreach over) then it doesn't matter what type it is. The extra code just gets in the way of reading the intent. –  Matt Hamilton Oct 21 '08 at 19:53
67  
But if you only require that cust.Orders is "something you can enumerate" then doesn't declaring it as an IEnumerable<Order> make that requirement explicit and clear? Declaring it as var means you effectively lose that requirement. –  GrahamS Apr 15 '09 at 10:03
5  
@jon and how would IEnumerbal orders = cust.Orders foreach(var order in orders) make a difference? the only thing IEnumerable says is that you can put it in a foreach but you already knew that from the line below –  Rune FS Feb 4 '10 at 22:08
18  
"the only thing IEnumerable says is that you can put it in a foreach" - it also expresses the intention that the only thing you can do is enumerate. Using var gives access to and intellisense for public members of the concrete collection type. –  Joe Apr 29 '10 at 5:45

Var, in my opinion, in C# is a good thingtm. Any variable so typed is still strongly typed, but it gets its type from the right-hand side of the assignment where it is defined. Because the type information is available on the right-hand side, in most cases, it's unnecessary and overly verbose to also have to enter it on the left-hand side. I think this significantly increases readability without decreasing type safety.

From my perspective, using good naming conventions for variables and methods is more important from a readability perspective than explicit type information. If I need the type information, I can always hover over the variable (in VS) and get it. Generally, though, explicit type information shouldn't be necessary to the reader. For the developer, in VS you still get Intellisense, regardless of how the variable is declared. Having said all of that, there may still be cases where it does make sense to explicitly declare the type -- perhaps you have a method that returns a List<T>, but you want to treat it as an IEnumerable<T> in your method. To ensure that you are using the interface, declaring the variable of the interface type can make this explicit. Or, perhaps, you want to declare a variable without an initial value -- because it immediately gets a value based on some condition. In that case you need the type. If the type information is useful or necessary, go ahead and use it. I feel, though, that typically it isn't necessary and the code is easier to read without it in most cases.

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4  
+1. Can't agree more. –  Randolpho May 19 '10 at 13:57
3  
I agree overall. The key point here in my opinion is to be certain that intent is clear. If it isn't clear to the majority developers on the team, then it is detrimental, not helpful. That said, I personally am a HUGE fan of this, but have had to rein myself in a bit when other devs on my team have had trouble determining my intent. Go figure. –  Steve Brouillard May 19 '10 at 14:15
3  
Eh, I find it easier to read when the type is on the left. Using ReSharper, I don't have to retype the type on the right anyways, so it doesn't bother me. –  BlueRaja - Danny Pflughoeft May 19 '10 at 16:06
1  
@BlueRaja - I find that using good variable names usually eliminates the need to bother with the actual type anyway for understanding. Intellisense is still available on "var" defined variables, so I don't need to know the type to choose a method/property on it when coding. –  tvanfosson May 19 '10 at 16:11
2  
It is not so much about when you are coding as it is when you have to read the code. –  BlueRaja - Danny Pflughoeft May 19 '10 at 16:34

Neither of those is absolutely true; var can have both positive and negative effects on readability. In my opinion, var should be used when either of the following is true:

  1. The type is anonymous (well, you don't have any choice here, as it must be var in this case)
  2. The type is obvious based upon the assigned expression (i.e. var foo = new TypeWithAReallyLongNameTheresNoSenseRepeating())

var has no performance impacts, as it's syntactic sugar; the compiler infers the type and defines it once it's compiled into IL; there's nothing actually dynamic about it.

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1  
agree on both, though I have long restrictions over the second case, if a type is that long the it's usually a generic type with lots of nested generic arguments, in that case a strongly typed "ShortType equivalent to TypeWithAReallyLongNameTheresNoSenseRepeating" makes more sense –  Ion Todirel May 19 '10 at 13:59
12  
I have no desire to start a religious war, but I personnaly tend to disagree with Ion. I would much prefer a very long, but very precise type name (ala Uncle Bob Martin) than an abbreviated and possibly ambiguous shorter type name. I will add the caveat that I DON'T agree with artificially inflating the length of the name either. If 5 characters creates a concise name that clearly shows intent, then use 5 and not 25. –  Steve Brouillard May 19 '10 at 14:06
2  
@Steve: I have to agree with you; creating a "short type" (which I assume you mean as inheriting from the specific generic type solely for the purpose of shortening the name) is not a good practice; it will require you to duplicate and pass through any constructors from the generic type, as well as preventing you from passing a different type that inherits from the generic type to the function. You're using inheritance like a typedef when it isn't. –  Adam Robinson May 19 '10 at 14:19
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Use var when the type is obvious? Maybe, but the true gain is when the type doesn't matter. If you're doing things like var customers = whatever; var query = from c in customers select stuff it doesn't matter what the exact type of 'customers' is. It's obvious how you can use it, and that's enough. And if the actual type is cumbersome, it's worthwhile to suppress it. –  Joren May 19 '10 at 15:02
2  
@Kristoffer: I can understand wanting to eliminate the mess of tags, but wrapping them into a class is not (IMO) an acceptable alternative, as you then cut off the possibility of any other (legitimate) child class of that generic type from being a valid parameter. I would rather use an using ShortType = LongGenericType<A,B,C> directive at the top of a file, since that gives the same readability, doesn't require that you recreate the constructors, and doesn't eliminate child classes from being candidates. –  Adam Robinson May 19 '10 at 15:42

I don't use var as it goes against the roots of C# - C/C++/Java. Even though it's a compiler trick it makes the language feel like it's less strongly typed. Maybe 20+ years of C have engrained it all into our (the anti-var people's) heads that we should have the type on both the left and right side of the equals.

Having said that I can see its merits for long generic collection definitions and long class names like the codinghorror.com example, but elsewhere such as string/int/bool I really can't see the point. Particularly

foreach (var s in stringArray)
{

}

a saving of 3 characters!

The main annoyance for me is not being able to see the type that the var represents for method calls, unless you hover over the method or F12 it.

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We've adopted the ethos "Code for people, not machines", based on the assumption that you spend multiple times longer in maintenance mode than on new development.

For me, that rules out the argument that the compiler "knows" what type the variable is - sure, you can't write invalid code the first time because the compiler stops your code from compiling, but when the next developer is reading the code in 6 months time they need to be able to deduce what the variable is doing correctly or incorrectly and quickly identify the cause of issues.

Thus,

var something = SomeMethod();

is outlawed by our coding standards, but the following is encouraged in our team because it increases readability:

var list = new List<KeyValuePair<string, double>>();
FillList( list );
foreach( var item in list ) {
   DoWork( item ); 
}
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I've found that ("Code for people, not machines") to be an excellent guideline - following it can result in better code and helps avoid premature optimization. –  Thanatos May 28 '10 at 0:21
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I don't get var list = new KeyValuePair<string, double>? For me a list can have more than on thing. –  TTT Oct 16 '10 at 3:51

For the afficionados that think var saves time, it takes less keystrokes to type:

StringBuilder sb = new StringBuilder();

than

var sb = new StringBuilder();

Count em if you don't believe me...

19 versus 21

I'll explain if I have to, but just try it... (depending on the current state of your intellisense you may have to type a couple more for each one)

And it's true for every type you can think of!!

My personal feeling is that var should never be used except where the type is not known because it reduces recognition readabiltiy in code. It takes the brain longer to recognize the type than a full line. Old timers who understand machine code and bits know exactly what I am talking about. The brain processes in parallel and when you use var you force it to serialize its input. Why would anyone want to make their brain work harder? That's what computers are for.

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Local variables can be given an inferred "type" of var instead of an explicit type. The var keyword instructs the compiler to infer the type of the variable from the expression on the right side of the initialization statement.

// z is compiled as an int

var z = 100;

// s is compiled as a string below

var s = "Hello";

// a is compiled as int[]

var a = new[] { 0, 1, 2 };

// expr is compiled as IEnumerable // or perhaps IQueryable

var expr =
    from c in customers
    where c.City == "London"
    select c;

// anon is compiled as an anonymous type

var anon = new { Name = "Terry", Age = 34 };

// list is compiled as List

var list = new List<int>();

var can only be used when a local variable is declared and initialized in the same statement; the variable cannot be initialized to null, or to a method group or an anonymous function.

var cannot be used on fields at class scope.

Variables declared by using var cannot be used in the initialization expression. In other words, this expression is legal: int i = (i = 20); but this expression produces a compile-time error: var i = (i = 20);

Multiple implicitly-typed variables cannot be initialized in the same statement.

If a type named var is in scope, then the var keyword will resolve to that type name and will not be treated as part of an implicitly typed local variable declaration.

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var is like the dotted spaces in kids' books where kids have to fill it. Except in this case the Compiler will fill it with the right type which is usually written after the = sign.

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var is the way to deal with anonymous types, whether from LINQ statements or not. Any other use is heavily dependent on who will read your code and what guidelines are in place.

If you are the only audience or your audience is comfortable with using var or is very familiar with your code then I guess it doesn't matter. If you use it like: var s = new SqlConnection() then it largely doesnt matter and probably improves code readability. If people aren't too picky and its okay for them to do a little work to know the type when its not apparent (which is not needed in most cases, how you use it in the following statements would usually explain everything) then its alright.

But if you have picky, close-minded teammates who love to whine or if your company's design guidelines specifically forbid using var when the type is not obvious then you will most likely meet heavy opposition.

If using var makes your code insanely difficult to read, you will probably get shot by using var even if its probably your app design that is to blame.

If var introduces ambiguity (sort of like your IEnumerable/IEnumerable example), just don't use it and be explicit. But var does have its conveniences and in some cases, IMHO, even improves readabilty by reducing clutter.

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Given how powerful Intellisense is now, I am not sure var is any harder to read than having member variables in a class, or local variables in a method which are defined off the visible screen area.

If you have a line of code such as

IDictionary<BigClassName, SomeOtherBigClassName> nameDictionary = new Dictionary<BigClassName, SomeOtherBigClassName>();

Is is much easier or harder to read than:

var nameDictionary = new Dictionary<BigClassName, SomeOtherBigClassName>();
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From Eric Lippert, a Senior Software Design Engineer on the C# team:

Why was the var keyword introduced?

There are two reasons, one which exists today, one which will crop up in 3.0.

The first reason is that this code is incredibly ugly because of all the redundancy:

Dictionary<string, List<int>> mylists = new Dictionary<string, List<int>>();

And that's a simple example – I've written worse. Any time you're forced to type exactly the same thing twice, that's a redundancy that we can remove. Much nicer to write

var mylists = new Dictionary<string,List<int>>();

and let the compiler figure out what the type is based on the assignment.

Second, C# 3.0 introduces anonymous types. Since anonymous types by definition have no names, you need to be able to infer the type of the variable from the initializing expression if its type is anonymous.

Emphasis mine. The whole article, C# 3.0 is still statically typed, honest!, and the ensuing series are pretty good.

This is what var is for. Other uses probably will not work so well. Any comparison to JScript, VBScript, or dynamic typing is total bunk. Note again, var is required in order to have certain other features work in .NET.

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The C# team doesn't control intellisense, they control the compiler. In any event that's not the main issue. I don't think var would have made the 100 points on saving typing alone. –  Dustman Mar 9 '09 at 5:19

var is a placeholder introduced for the anonymous types in C# 3.0 and LINQ.

As such, it allows writing LINQ queries for a fewer amount of columns within, let's say, a collection. No need to duplicate the information in memory, only load what's necessary to accomplish what you need to be done.

The use of var is not bad at all, as it is actually not a type, but as mentioned elsewhere, a placeholder for the type which is and has to be defined on the right-hand side of the equation. Then, the compiler will replace the keyword with the type itself.

It is particularly useful when, even with IntelliSense, the name of a type is long to type. Just write var, and instantiate it. The other programmers who will read your code afterward will easily understand what you're doing.

It's like using

public object SomeObject { get; set; }

instead of:

public object SomeObject {
    get {
        return _someObject;
    } 
    set {
        _someObject = value;
    }
}
private object _someObject;

Everyone knows what's the property's doing, as everyone knows what the var keyword is doing, and either examples tend to ease readability by making it lighter, and make it more pleasant for the programmer to write effective code.

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With LINQ another very good reason to use var is that the compiler can optimize the query much more.

If you use a static list to store the result it will execute where you assign it to the list but with var it can potential merge the original query with later queries in the code to make more optimized queries to the database.

I had an example where I pulled some data in a first query and then looped over and requested more data to print out a table.

LINQ merges these so that the first only pulled the id.

Then in the loop it added an extra join I had not done there to fetch the data I had included in the original.

When tested this proved much more efficient.

Had we not used var it had made the queries exactly as we had written them.

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@Keith -

In your comparison between IEnumerable<int> and IEnumerable<double> you don't need to worry - if you pass the wrong type your code won't compile anyway.

That isn't quite true - if a method is overloaded to both IEnumerable<int> and IEnumerable<double> then it may silently pass the unexpected inferred type (due to some other change in the program) to the wrong overload hence causing incorrect behaviour.

I suppose the question is how likely it is that this sort of situation will come up!

I guess part of the problem is how much confusion var adds to a given declaration - if it's not clear what type something is (despite being strongly typed and the compiler understanding entirely what type it is) someone might gloss over a type safety error, or at least take longer to understand a piece of code.

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I'm fairly new in the C# world, after a decade as a Java professional. My initial thought was along the lines of "Oh no! There goes type safety down the drain". However, the more I read about var, the more I like it.

1) Var is every bit as type safe as an explicitly declared type would be. It's all about compile time syntactic sugar.

2) It follows the principle of DRY (don't repeat yourself). DRY is all about avoiding redundancies, and naming the type on both sides is certainly redundant. Avoinding redundancy is all about making your code easier to change.

3) As for knowing the exact type .. well .. I would argue that you always have a general idea is you have an integer, a socket, some UI control, or whatever. Intellisense will guide you from here. Knowing the exact type often does not matter. E.g. I would argue that 99% of the time you don't care if a given variable is a long or an int, a float or a double. For the last 1% of the cases, where it really matters, just hover the mouse pointer above the var keyword.

4) I've seen the ridiculous argument that now we would need to go back to 1980-style Hungarian warts in order to distinguish variable types. After all, this was the only way to tell the types of variables back in the days of Timothy Dalton playing James Bond. But this is 2010. We have learned to name our variables based upon their usage and their contents and let the IDE guide us as to their type. Just keep doing this and var will not hurt you.

To sum it up, var is not a big thing, but it is a really nice thing, and it is a thing that Java better copy soon. All arguments against seem to be based upon pre-IDE fallacies. I would not hesitate to use it, and I'm happy the R# helps me do so.

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what most are ignoring:

var something = new StringBuilder(); 

isn't normally typed as fast as

StringBuilder something = KEY'TAB'();
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3  
...and more like Javascript. var was intended for LINQ, abusing it should be punished by removing intellisense from your Visual Studio for a week. –  Chris S Aug 13 '10 at 7:32

If you are lazy and use var for anything other than anonymous types, you should be required to use Hungarian notation in the naming of such variables.

var iCounter = 0;

lives!

Boy, do I miss VB.

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-1: Digging out old question just to flame agains type interference, without reason - not even a subjective or arguably stupid reason, just no reason at all. The fact that you call this abomination Hungarian notation (I don't care some calls it so, in my book Hungarian notation still means incorporating the variable's purpose in the name, not its exact type) only makes it feel more appropriate. –  delnan Jul 29 '10 at 21:27

One good argument why vars should not be used as a mere "typing shortcut", but should instead be used for scenarios they were primarily designed for: Resharper (at least v4.5) cannot find usages of a type if it is represented as a var. This can be a real problem when refactoring or analyzing the source code.

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Arriving a bit late at this discussion, but I'd just like to add a thought.

To all those who are against type inference (because that's what we're really talking about here), what about lambda expressions? If you insist on always declaring types explicitly (except for anonymous types), what do you do with lambdas? How does the "Don't make me use mouseover" argument apply to var but not to lambdas?

UPDATE

I've just thought of one argument against 'var' which I don't think anyone has mentioned yet, which is that it 'breaks' "Find all references", which could mean (for example) that if you were checking out usage of a class before refactoring, you would miss all the place where the class was used via var.

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It's not bad, it's more a stylistic thing, which tends to be subjective. It can add inconsistencies, when you do use var and when you don't.

Another case of concern, in the following call you can't tell just by looking at the code the type returned by CallMe:

var variable = CallMe();

That's my main complain against var.

I use var when I declare anonymous delegates in methods, somehow var looks cleaner than if I'd use Func. Consider this code:

var callback = new Func<IntPtr, bool>(delegate(IntPtr hWnd) {
   ...
});

EDIT: Updated the last code sample based on Julian's input

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5  
That's also my biggest complaint. –  DenaliHardtail May 19 '10 at 13:52
3  
But do you really need to know the type right there at that line? You know that CallMe returns something; isn't it enough to know that a local variable named variable is created? Unless you expand your example, this isn't a very solid complaint, IMO. –  Randolpho May 19 '10 at 13:53
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It's not about not being verbose, it's about not letting the compiler do the syntax sugar for you. Consider this: var getter..., now this Func<object> getter..., with the second you know you don't have to provide any parameters and what it returns. You know from the start "what to do" and can make decisions faster, when designing something or refactoring. Having all the information at hand is more important than a few more characters. This only can be appreciated when you're working with lots of code. –  Ion Todirel May 19 '10 at 14:08
3  
Generic variable and function names (variable, CallMe) make bad examples. However, if CallMe() was a function in some kind of a "phone application", then var call = CallMe(); .... call.HangUp(); would make much more sense. –  Danko Durbić May 19 '10 at 14:32
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@Randolpho: "what's the big deal about hovering your mouse over the variable for a second and just seeing what type is it?" It adds time to the maintenance overhead... plus one second is only the hover time rather than counting the keyboard to mouse context switch. I don't know about you, but I work with a deadline. Every time I have to hover over a variable to find out what type it is, is time that I could have better spent fixing a problem. –  Powerlord May 19 '10 at 14:49

If you know the type, use the type. If you don't know the type, why not? If you can't know the type, that's okay -- you've found the only valid use.

And I'm sorry, but if the best you can do is "it makes the code all line up", that's not a good answer. Find a different way to format your code.

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var is good as it follows the classic DRY rule, and it is especially elegant when you indicate the type in the same line as declaring the variable. (e.g. var city = new City())

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"The only thing you can really say about my taste is that it is old fashioned, and in time yours will be too." -Tolkien.

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It's not wrong, but it can be inappropriate. See all the other responses for examples.

var x = 5; (bad)

var x = new SuperDooperClass(); (good)

var x = from t in db.Something select new { Property1 = t.Field12 }; (better)

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Don't use that, makes your code unreadable.

ALWAYS use as strict typing as possible, crutches only makes your life hell.

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6  
var is strict typing. It’s not a crutch in any sense. And it doesn’t make the code unreadable. –  Konrad Rudolph May 19 '10 at 15:18

Eric's answer here...

http://stackoverflow.com/questions/2590643/namespace-scoped-aliases-for-generic-types-in-c/2593664#2593664

is related.

Part of the issue is that there is no strongly typed aliasing in C#. So many developers use var as a partial surrogate.

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Apart from readability concerns, there is one real issue with the use of 'var'. When used to define variables that are assigned to later in the code it can lead to broken code if the type of the expression used to initialize the variable changes to a narrower type. Normally it would be safe to refactor a method to return a narrower type than it did before: e.g. to replace a return type of 'Object' with some class 'Foo'. But if there is a variable whose type is inferred based on the method, then changing the return type will mean that this variable can longer be assigned a non-Foo object:

var x = getFoo(); // Originally declared to return Object
x = getNonFoo();

So in this example, changing the return type of getFoo would make the assignment from getNonFoo illegal.

This is not such a big deal if getFoo and all of its uses are in the same project, but if getFoo is in a library for use by external projects you can no longer be sure that narrowing the return type will not break some users code if they use 'var' like this.

It was for exactly this reason that when we added a similar type inferencing feature to the Curl programming language (called 'def' in Curl) that we prevent assignments to variables defined using this syntax.

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I only use var when it's clear to see what type is used.

For example, I would use var in this case, because you can see immediately that x will be of the type "MyClass":

var x = new MyClass();

I would NOT use var in cases like this, because you have to drag the mouse over the code and look at the tooltip to see what type MyFunction returns:

var x = MyClass.MyFunction();

Especially, I never use var in cases where the right side is not even a method, but only a value:

var x = 5;

(because the compiler can't know if I want a byte, short, int or whatever)

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If someone is using the var keyword because they don't want to "figure out the type", that is definitely the wrong reason. The var keyword doesn't create a variable with a dynamic type, the compiler still has to know the type. As the variable always has a specific type, the type should also be evident in the code if possible.

Good reasons to use the var keyword are for example:

  • Where it's needed, i.e. to declare a reference for an anonymous type.
  • Where it makes the code more readable, i.e. removing repetetive declarations.

Writing out the data type often makes the code easier to follow. It shows what data types you are using, so that you don't have to figure out the data type by first figuring out what the code does.

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Deleted for reasons of redundancy.

vars are still initialized as the correct variable type - the compiler just infers it from the context. As you alluded to, var enables us to store references to anonymous class instances - but it also makes it easier to change your code. For example:

// If you change ItemLibrary to use int, you need to update this call
byte totalItemCount = ItemLibrary.GetItemCount();

// If GetItemCount changes, I don't have to update this statement.
var totalItemCount = ItemLibrary.GetItemCount();

Yes, if it's hard to determine a variable's type from its name and usage, by all means explicitly declare its type.

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