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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.

Edit - 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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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
var i = 0; == fail! var c = new CrazyFrigginLongClassName(); == win! –  dotjoe May 19 '10 at 14:08
"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
var readabilityBeDamned = true; –  spoulson May 19 '10 at 15:14
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
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86 Answers

In most cases, it's just simpler to type it - imagine

var sb = new StringBuilder();

instead of:

StringBuilder sb = new StringBuilder();

Sometimes it's required, for example: anonymous types, like.

var stuff = new { Name = "Me", Age = 20 };

I personally like using it, in spite of the fact that it makes the code less readable and maintainable.

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I used to think that the var keyword was a great invention but I put a a limit on it this was

  • Only use var where it is obvious what the type is immediately (no scrolling or looking at return types)

I came to realise this then gave me no benefit whatsoever and removed all var keywords from my code (unless they were specifically required), for now I think that they make the code less readable, especially to others reading your code.

It hides intent and in at least one instance lead to a runtime bug in some code because of assumption of type.

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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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I had the same concern when I started to use var keyword.
However I got used to it over time and not going to go back to explicit variable types. Visual Studio's compiler\intellisense are doing a very good job on making work with implicitly typed variables much easier.

I think that following proper naming conventions can help you to understand code much better then explicit typing.

It seems to be same sort of questions like "shoud I use prefixes in variable names?".
Stick with good variable names and let the compiler think on variable types.

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Someone doesn't like criticism of var.. All answers downmodded.. oh well..

@Jon Limjap: I know. :) What I meant was that the readability is degraded like it is in VB6. I don't like to rely on Intellisense to figure out what type a given variable is. I want to be able to figure it out using the source alone.

Naming conventions doesn't help either - I already use good names. Are we going back to prefixing?

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I use var whenever possible.

The actual type of the local variable shouldn't matter if your code is well written (i.e., good variable names, comments, clear structure etc.)

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It's purely a convinience. The compiler will inferre the type (based on the type of the expression on the right hand side)

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From the discussion on this topic, the outcome appears to be:

Good: var customers = new List<Customer>();

Controversial: var customers = dataAccess.GetCustomers();

Ignoring the misguided opinion that "var" magically helps with refactoring, the biggest issue for me is people's insistence that they don't care what the return type is, "so long as they can enumerate the collection".


IList<Customer> customers = dataAccess.GetCustomers();

var dummyCustomer = new Customer();

Now consider:

var customers = dataAccess.GetCustomers();

var dummyCustomer = new Customer();

Now, go and refactor the data access class, so that GetCustomers returns IEnumerable<Customer>, and see what happens...

The problem here is that in the first example you're making your expectations of the GetCustomers method explicit - you're saying that you expect it to return something that behaves like a list. In the second example, this expectation is implicit, and not immediately obvious from the code.

It's interesting (to me) that a lot of pro-var arguments say "i don't care what type it returns", but go on to say "i just need to iterate over it...". (so it needs to implement the IEnumerable interface, implying the type does matter).

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Well this one is pretty much gonna be opinionated all the way through, but I will try to give my view on it - albeit I think my view is so mixed up that you are probably not gonna get much out of it anyways.

First of all - there's anonymous types, for which you need to use the "var" keyword in order to assign an object with an anonymous type as its class - there's not much discussion here, "var" is needed.

For simpler types however, ints, longs, strings - so forth - I tend to put in the proper types. Mainly because it is a bit of a "lazy man's tool" and I don't see much gain here, very few keystrokes and the possible confusion it could provide later down the road just ain't worth it. Especially the various types for floating point numbers (float, double, decimal) confuse me as I am not firm with the postfixes in the literals - I like to see the type in the source code.

With that said, I tend to use var alot if the type is more complex and/or it is explicitly repeated on the righthand-side of the assignment. This could be a List<string> or etc, such as:

var list = new List<string>();

In a such case, I see no use to repeat the type twice - and especially as you start changing your code and the types change - the generic types might get more and more complicated and as such having to change them twice is just a pain. However of course if you wish to code against an IList<string> then you have to name the type explicitly.

So in short I do the following:

  • Name the type explicitly when the type is short or cannot be read out of context
  • Use var when it has to be used (duh)
  • Use var to be lazy when it (in my mind) does not hurt readability
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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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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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After just converting over to the 3.0 and 3.5 frameworks I learned about this keyword and decided to give it a whirl. Before committing any code I had the realization that it seemed backwards, as in going back toward an ASP syntax. So I decided to poke the higher ups to see what they thought.

They said go ahead so I use it.

With that said I avoid using it where the type requires some investigation, like this:

var a = company.GetRecords();

Now it could just be a personal thing but I immediately cant look at that and determine if its a collection of Record objects or a string array representing the name of records. Whichever the case I believe explicit declaration is useful in such an instance.

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Static typing is about contracts, not source code. The idea there is a need to have the static information on a single line of what "should" be a small method. Common guidelines recommend rarely exceeding 25 lines per method.

If a method is large enough that you can't keep track of a single variable within that method, you are doing something else wrong that would make any criticism of var pale in comparison.

Actually, one of the great arguments for var is that it can make refactoring simpler because you no longer have to worry that you made your declaration overly restrictive (i.e. you used List<> when you should have used IList<>, or IEnumerable<>). You still want to think about the new methods signature, but at least you won't have to go back and change your declarations to match.

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There is bound to be disagreement near the edge cases, but I can tell you my personal guidelines.

I look at these the criteria when I decide to use var:

  • The type of the variable is obvious [to a human] from the context
  • The exact type of the variable is not particularly relevant [to a human]
    [e.g. you can figure out what the algorithm is doing without caring about what kind of container you are using]
  • The type name is very long and interrupts the readability of the code (hint: usually a generic)

Conversely, these situations would push me to not use var:

  • The type name is relatively short and easy to read (hint: usually not a generic)
  • The type is not obvious from the initializer's name
  • The exact type is very important to understand the code/algorithm
  • On class hierarchies, when a human can't easily tell which level of the hierarchy is being used

Finally, I would never use var for native value types or corresponding nullable<> types (int, decimal, string, decimal?, ...). There is an implicit assumption that if you use var, there must be "a reason".

These are all guidelines. You should also think also about the experience and skills of your coworkers, the complexity of the algorithm, the longevity/scope of the variable, etc, etc.

Most of the time, there is no perfect right answer. Or, it doesn't really matter.

[Edit: removed a duplicate bullet]

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Amazed this hasn't been noted so far, but it is common sense to use var for foreach loop variables.

If you specify a specific type instead, you risk having a runtime cast silently inserted into your program by the compiler!

foreach (Derived d in listOfBase)

The above will compile. But the compiler inserts a downcast from Base to Derived. So if anything on the list is not a Derived at runtime, there is an invalid cast exception. Type safety is compromised. Invisible casts are horrible.

The only way to rule this out is to use var, so the compiler determines the type of the loop variable from the static type of the list.

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I think you may be misunderstanding the usage of var in C#. It is still strong typing, unlike the VB varient type so there is no performance hit from using it or not.

Since there is no effect on the final compiled code it really is a stylist choice. Personally I don't use it since I find the code easier to read with the full types defined, but I can imagine a couple of years down the line that full type declaration will be looked at in the same way as Hungarian notation is now - extra typing for no real benefit over the information that intellisense gives us by default.

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I think you point out the main problem with var in your question: "I don't have to figure out the type". As other have pointed out, there is a place for var, but if you don't know the type you're dealing with, there's a pretty good chance that you're going to have problems down the road - not in all cases, but there's enough of a smell there so that you should be suspicious.

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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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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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In our office, our CTO has categorically banned the use of the var keyword, for the same reasons that you have stated.

Personally I find the use of var only valid in new object declarations, since the type of the object is obvious in the statement itself.

For LINQ queries, you can resolve results to:

In that case your CTO should also ban the use of LINQ, but honestly I think he should try and understand the var keyword in c# and how it has nothing to do with the var keyword in VB or JavaScript... Maybe they should have simply chosen another keyword for this –  TimothyP Oct 17 '08 at 20:24
You can't always resolve results to IEnumerable<SomeSpecificType> in LINQ queries. If you're selecting specific fields, you'll end up with an anonymous type, and you'll have to use var. –  Kyralessa Jul 13 '09 at 15:22
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@erlando, out of curiosity, why do you need to know the variable's type looking at the source code?

In my practice I found that variable type is matter for me only at the time I'm using it in the code.

If I'm trying to do some inappropriate operation on someVar compiler gladly gives me an error\warning.

I really don't care what type someVar has if I understand why it's being used it the given context.

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I use var in the following situations:

  1. When I have to (result is anonymous)
  2. When the type is on the same line as the code, e.g.

    var emp = new Employee();

Its obvious we want an Employee (because we're creating a new Employee object), so how is

Employee emp = new Employee() any more obvious?

I do NOT use var when the type cannot be inferred, e.g.

var emp = GetEmployee();

Because the return type is not immediately obvious (is at an Employee, an IEmployee, something that has nothing to do with an Employee object at all, etc?).

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I have to agree with Matt Hamilton.

Var can make your code much more readable and understandable when used with good variable names. But var can also make your code as impossible to read and understand as Perl when used badly.

A list of good and bad uses of var isn't really going to help much either. This is a case for common sense. The larger question is one of readability vs. write-ability. Lots of devs don't care if their code is readable. They just don't want to type as much. Personally I'm a read > write guy.

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kronoz - in that case (overloads for both) would it matter? If you have two overloads that took the different types you would essentially be saying that either can be passed and do the same thing.

You shouldn't have two overloads that do completely different actions depending on the types passed.

While you might get some confusion in that instance it would still be entirely type safe, you'd just have someone calling the wrong method.

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I don't understand why people start debates like this. It really serves no purpose than to start flame wars at then end of which nothing is gained. Now if the C# team was trying to phase out one style in favor of the other, I can see the reason to argue over the merits of each style. But since both are going to remain in the language, why not use the one you prefer and let everybody do the same. It's like the use of everybody's favorite ternary operator: some like it and some don't. At the end of the day, it makes no difference to the compiler.

This is like arguing with your siblings over which is your favorite parent: it doesn't matter unless they are divorcing!

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I find that using the var keyword actually makes the code more readable because you just get used to skipping the 'var' keyword. You don't need to keep scrolling right to figure out what the code is doing when you really don't care about what the specific type is. If I really need to know what type 'item' is below, I just hover my mouse over it and Visual Studio will tell me. In other words, I would much rather read

foreach( var item in list ) { DoWork( item ); }

over and over than

foreach( KeyValuePair<string, double> entry in list ) { DoWork( Item ); }

when I am trying to digest the code. I think it boils down to personal preference to some extent. I would rely on common sense on this one -- save enforcing standards for the important stuff (security, database use, logging, etc.)


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I think people do not understand the var keyword. They confuse it with the Visual Basic / JavaScript keyword, which is a different beast all toghether.

Many people think the var keyword implies weak typing (or dynamic typing), while in fact c# is and remains strongly typed.

If you consider this in javascript:

var something = 5;

you are allowed to:

something = "hello";

In the case of c#, the compiler would infer the type from the first statement, causing something to be of type "int", so the second statement would result in an exception.

People simply need to understand that using the var keyword does not imply dynamic typing and then decide how far they want to take the use of the var keyword, knowing it will have absolutely no difference as to what will be compiled.

Sure the var keyword was introduced to support anonymous types, but if you look at this:

LedDeviceController controller = new LedDeviceController("");

It's very very verbose, and I'm sure this is just as readable, if not more:

var controller = new LedDeviceController("");

The result is exactly the same, so yes I use it throughout my code


Maybe, just maybe... they should have used another keyword, then we would not be having this discussion... perhaps the "infered" keyword instead of "var"

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Sometimes the compiler can also infer what is required "better" than the developer - at least a developer who does not understand what the api he's using requires.

For example - when using linq:

Example 1

Func<Person, bool> predicate = (i) => i.Id < 10;
IEnumerable<Person> result = table.Where(predicate);

Example 2

var predicate = (Person i) => i.Id < 10;
var result = table.Where(predicate);

In the above code - assuming one is using Linq to Nhibernate or Linq to SQL, Example 1 will bring the entire resultset for Person objects back and then do filter on the client end. Example 2 however will do the query on the server (such as on Sql Server with SQL) as the compiler is smart enough to work out that the Where function should take a Expression> rather than a Func.

The result in Example 1 will also not be further queryable on the server as an IEnumerable is returned, while in Example 2 the compiler can work out if the result should rather be a IQueryable instead of IEnumerable

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You can let the compiler (and the fellow who maintains the code next) infer the type from the right hand side of the initializer assignment. If this inference is possible, the compiler can do it so it saves some typing on your part.

If the inference is easy for that poor fellow, then you haven't hurt anything. If the inference is hard, you've made the code harder to maintain and so as a general rule I wouldn't do it.

Lastly, if you intended the type to be something particular, and your initializer expression actually has a different type, using var means it will be harder for you to find the induced bug. By explicitly telling the compiler what you intend the type to be, when the type isn't that, you would get an immediate diagnostic. By sluffing on the type declaration and using "var", you won't get an error on the initialization; instead, you'll get a type error in some expression that uses the identifier assigned by the var expression, and it will be harder to understand why.

So the moral is, use var sparingly; you generally aren't doing yourself or your downstream fellow maintainer a lot of good. And hope he reasons the same way, so you aren't stuck guessing his intentions because he thought using var was easy. Optimizing on how much you type is a mistake when coding a system with a long life.

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In my opinion, there is no problem in using var heavily. It is not a type of its own (you are still using static typing). Instead it's just a time saver, letting the compiler figure out what to do.

Like any other time saver (such as auto properties for example), it is a good idea to understand what it is and how it works before using it everywhere.

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