251

One use of the var keyword in C# is implicit type declaration. What is the Java equivalent syntax for var?

  • 4
    val (or var) if you use a particular "Java replacement" language ;-) – user166390 Dec 14 '10 at 19:27
  • 6
    @pst: that would be Scala? Hm yes, it is. – rsenna Dec 14 '10 at 21:20
  • For IntelliJ, I submitted this as a feature request: youtrack.jetbrains.com/issue/IDEA-102808 The IDE could collapse code to show val or var even though the underlying code wouldn't have it. – Jon Onstott Mar 10 '13 at 19:26
  • @Jon I've hacked something together for IntelliJ, see my answer. – balpha Apr 14 '13 at 18:10
  • 2
    There is now a proposal for this feature to be included in Java - openjdk.java.net/jeps/286 – McGin Mar 13 '16 at 10:02

15 Answers 15

239

There is none. Alas, you have to type out the full type name.

Edit: 7 years after being posted, type inference for local variables (with var) was added in Java 10.

Edit: 6 years after being posted, to collect some of the comments from below:

  • The reason C# has the var keyword is because it's possible to have Types that have no name in .NET. Eg:

    var myData = new { a = 1, b = "2" };
    

    In this case, it would be impossible to give a proper type to myData. 6 years ago, this was impossible in Java (all Types had names, even if they were extremely verbose and unweildy). I do not know if this has changed in the mean time.

  • var is not the same as dynamic. variables are still 100% statically typed. This will not compile:

    var myString = "foo";
    myString = 3;
    
  • var is also useful when the type is obvious from context. For example:

    var currentUser = User.GetCurrent();
    

    I can say that in any code that I am responsible for, currentUser has a User or derived class in it. Obviously, if your implementation of User.GetCurrent return an int, then maybe this is a detriment to you.

  • This has nothing to do with var, but if you have weird inheritance hierarchies where you shadow methods with other methods (eg new public void DoAThing()), don't forget that non-virtual methods are affected by the Type they are cast as.

    I can't imagine a real world scenario where this is indicative of good design, but this may not work as you expect:

    class Foo {
        public void Non() {}
        public virtual void Virt() {}
    }
    
    class Bar : Foo {
        public new void Non() {}
        public override void Virt() {}
    }
    
    class Baz {
        public static Foo GetFoo() {
            return new Bar();
        }
    }
    
    var foo = Baz.GetFoo();
    foo.Non();  // <- Foo.Non, not Bar.Non
    foo.Virt(); // <- Bar.Virt
    
    var bar = (Bar)foo;
    bar.Non();  // <- Bar.Non, not Foo.Non
    bar.Virt(); // <- Still Bar.Virt
    

    As indicated, virtual methods are not affected by this.

  • No, there is no non-clumsy way to initialize a var without an actual variable.

    var foo1 = "bar";        //good
    var foo2;                //bad, what type?
    var foo3 = null;         //bad, null doesn't have a type
    var foo4 = default(var); //what?
    var foo5 = (object)null; //legal, but go home, you're drunk
    

    In this case, just do it the old fashioned way:

    object foo6;
    
  • 11
    @Mike Caron: C# has [default] non-virtual calls and operators are not virtual so... var p = new X(); p.Z() is not the same as SuperX p = new X(); p.Z() for all X and and SuperX, even though X : SuperX. With var the static type of p is always X in first example above, but always SuperX in the second example. A subtle but important difference to be aware of. But your answer is very correct :-) – user166390 Dec 15 '10 at 20:10
  • 191
    @Jon Hanna: var does not make the code less clear. Rather the opposite in my opinion. Why for example write the type two (or even three) times on the same row when you declare and instantiate it (RadioButton radioButton = new RadioButton();)? var makes you rather think twice when you are naming your variables because it turns the focus on the functionality rather than the type (for example UserCollection collection = new userRepository.GetUsers(); rather more naturally turns into var users = userRepository.GetUsers();). If you think var is unclear it is just because unused to it. – Martin Odhelius Jul 6 '12 at 10:19
  • 4
    @MartinOdhelius var very definitely can make code clear used well, but it can also make it unclear too used badly; like many formatting options. The balance differs depending on how much you use anonymous objects and generics, neither of which existed in .NET 1.0, making it less useful as a hypothetical keyword in the first version of C♯. I would only name a RadioButton radioButton in the case of a factory or helper method where the only thing significant about the button was that it was a RadioButton, otherwise that's madness with or without var. – Jon Hanna Jul 6 '12 at 10:32
  • 6
    @Jon Hanna: I was once as critical to var as you, if not more, but I have changed my opinion, and perhaps it is as simple as an question of different opinions, because I still think you are wrong when you say it is a matter how much you are using anonymous objects and generics ;) The type declaration is most often just code noise, if you can not understand the code without it the code is probably unclear in either case. – Martin Odhelius Jul 6 '12 at 11:51
  • 3
    Java 10 is expected to have type inference, see blog.codefx.org/java/java-10-var-type-inference – Amedee Van Gasse Feb 2 '18 at 14:55
43

If you add Lombok to your project you can use its val keyword.

http://projectlombok.org/features/val.html

  • 1
    @rightfold: Objects whose reference is final are not necessarily immutable. Consider final StringBuilder strB = new StringBuilder("My reference is final"); strB.append("I'm not immutable"); – Matthias Braun Mar 24 '14 at 16:52
  • 1
    Since lombok v1.16.12 there is also experimental support for var. projectlombok.org/features/experimental/var.html – Roel Spilker May 29 '17 at 18:26
  • @MatthiasBraun your example is wrong. In this case StringBuilder class itself is immutable, you just adding string value to its internal structure using method, this is totally legal. – Andzej Maciusovic Aug 11 '17 at 11:04
26

JEP - JDK Enhancement-Proposal

http://openjdk.java.net/jeps/286

JEP 286: Local-Variable Type Inference

Author Brian Goetz

// Goals:
var list = new ArrayList<String>();  // infers ArrayList<String>
var stream = list.stream();          // infers Stream<String>
20

I have cooked up a plugin for IntelliJ that – in a way – gives you var in Java. It's a hack, so the usual disclaimers apply, but if you use IntelliJ for your Java development and want to try it out, it's at https://bitbucket.org/balpha/varsity.

  • It'd be great to have a keyboard shortcut to fold/unfold declaration types in the current editor. Great plugin though. – hotkey Aug 17 '15 at 14:50
  • 2
    @hotkey This uses IntelliJ's built-in code folding, so you can unfold everything with Ctrl-Shift-NumPadPlus. When the cursor is on a line that contains a folded variable declaration, you can Ctrl-NumPadPlus and Ctrl-NumPadMinus to fold/unfold the declarations in the current method. Folding all declarations is a bit awkward, you have fold everything (Ctrl-Shift-NumPadMinus) and then unfold everything again (Ctrl-Shift-NumPadPlus). – balpha Aug 17 '15 at 14:57
13
+50

With the release of JDK 10 on March 20, Java now includes a var reserved type name (not a keyword—see below) as specified in JEP 286. For local variables, the following is now valid in Java 10 or higher:

var map = new HashMap<String, Integer>();

The var reserved type name in Java is nearly identical to the var keyword in C# in that both allow for implicit typing (see below for important differences). var in Java can only be used for implicit type inference in the following contexts (as enumerated in JEP 286: Goals):

  • local variables with initializers
  • indexes in the enhanced for-loop
  • locals declared in a traditional for-loop

Therefore var cannot be used for fields, return types, class names, or interface names. Its rationale is to remove the need for including long type names when declaring and defining local variables, as stated in JEP 286 (authored by Brian Goetz):

We seek to improve the developer experience by reducing the ceremony associated with writing Java code, while maintaining Java's commitment to static type safety, by allowing developers to elide the often-unnecessary manifest declaration of local variable types.

var Scoping in Java

It should be noted that var is not a keyword in Java, but rather a reserved type name. As quoted from JEP 286:

The identifier var is not a keyword; instead it is a reserved type name. This means that code that uses var as a variable, method, or package name will not be affected; code that uses var as a class or interface name will be affected (but these names are rare in practice, since they violate usual naming conventions).

Note that since var is a reserved type name and not a keyword, it can still be used for package names, method names, and variable names (along with its new type-interference role). For example, the following are all examples of valid uses of var in Java:

var i = 0;
var var = 1;
for (var i = 0; i < 10; i++) { /* ... */ }
public int var() { return 0; }
package var;

As quoted from JEP 286:

This treatment would be restricted to local variables with initializers, indexes in the enhanced for-loop, and locals declared in a traditional for-loop; it would not be available for method formals, constructor formals, method return types, fields, catch formals, or any other kind of variable declaration.

Differences Between var in Java & C#

This is one notable difference between var in C# and Java include the following: var can be used as a type name in C# but cannot be used as a class name or interface name in Java. According to the C# documentation (Implicitly Typed Local Variables):

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.

The ability to use var as a type name in C# creates some complexity and introduces some intricate resolution rules, which are avoided by var in Java by disallowing var as a class or interface name. For information on the complexities of var type names in C#, see Restrictions apply to implicitly-typed variable declarations. For more information on the rationale behind the scoping decision for `var in Java, see JEP 286: Scoping Choices.

  • Is there any difference between Java and c# in that you can't use var for fields or return types? Why is it important to note? – user1306322 Apr 4 '18 at 10:47
  • @user1306322 In that context, no. var in Java cannot be used for fields or return types. This is important because this restriction makes var context-sensitive, where it can only be used in some contexts (local variables) and not others. This is not necessarily a difference between Java and C# that should be noted, but an important restriction in general when using var in Java. – Justin Albano Apr 4 '18 at 11:15
  • I just looked up and it seems like in c# you can make var a class name and use it as such. Technically it is a "context keyword" in case of c#, but in Java it seems that you can't do the same. Correct me if I'm wrong. – user1306322 Apr 4 '18 at 11:21
  • 1
    You are correct. You cannot use var as a class name or an interface name in Java (which is not common anyway), but you can use it for variable names, method names, and package names. For example, var var = 1; is a valid Java statement but trying to declare a class as public class var {} results in an error: as of release 10, 'var' is a restricted local variable type and cannot be used for type declarations. I've updated the answer above to go into more detail on the rationale behind var in Java and its differences with var in C#. – Justin Albano Apr 4 '18 at 13:30
11

It will be supported in JDK 10. It's even possible to see it in action in the early access build.

The JEP 286:

Enhance the Java Language to extend type inference to declarations of local variables with initializers.

So now instead of writing:

List<> list = new ArrayList<String>();
Stream<> stream = myStream();

You write:

var list = new ArrayList<String>();
var stream = myStream();

Notes:

  • var is now a reserved type name
  • Java is still commitment to static typing!
  • It can be only used in local variable declarations

If you want to give it a try without installing Java on your local system, I created a Docker image with JDK 10 installed on it:

$ docker run -it marounbassam/ubuntu-java10 bash
root@299d86f1c39a:/# jdk-10/bin/jshell
Mar 30, 2018 9:07:07 PM java.util.prefs.FileSystemPreferences$1 run
INFO: Created user preferences directory.
|  Welcome to JShell -- Version 10
|  For an introduction type: /help intro

jshell> var list = new ArrayList<String>();
list ==> []
  • 1
    Beware, the code you provided (before/after var) is not equivalent. In the var example list is of type ArrayList, not a List. – Gili Jul 27 '18 at 2:55
8

A simple solution (assuming you're using a decent IDE) is to just type 'int' everywhere and then get it to set the type for you.

I actually just added a class called 'var' so I don't have to type something different.

The code is still too verbose, but at least you don't have to type it!

  • When you say "decent IDE" is Eclipse* excluded? -- this does not appear to work in Luna (at least when I just tried it with int) -- am I missing something? (*: while I would never call Eclipse a decent IDE, I can't judge for others...) – BrainSlugs83 Sep 23 '14 at 5:00
  • @BrainSlugs83 dunno I'm using IDEA, not really used eclipse before. Doesn't it correct types for you? I'm used to c#/visual studio/resharper which is like IDEA except it actually works properly! In all the jetbrains' ones you can press alt-enter to get a list of suggestions when there's an error - so setting type to int introduces an error you can alt-enter on and get it to sort the type out – JonnyRaa Sep 23 '14 at 8:05
5

You can take a look to Kotlin by JetBrains, but it's val. not var.

  • 4
    Kotlin has val and var. val is equivelent to declaring a variable final in java, var allows reassignment. – samlewis Nov 6 '17 at 12:50
5

Java 10 did get local variable type inference, so now it has var which is pretty much equivalent to the C# one (so far as I am aware).

It can also infer non-denotable types (types which couldn't be named in that place by the programmer; though which types are non-denotable is different, e.g. Java doesn't have an equivalent to C# anonymous types).

The one difference I could find is that in C#,

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.

In Java 10 var is not a legal type name.

3

I know this is older but why not create a var class and create constructors with different types and depending on what constructors gets invoked you get var with different type. You could even build in methods to convert one type to another.

3

Lombok supports var but it's still classified as experimental:

import lombok.experimental.var;

var number = 1; // Inferred type: int
number = 2; // Legal reassign since var is not final
number = "Hi"; // Compilation error since a string cannot be assigned to an int variable
System.out.println(number);

Here is a pitfall to avoid when trying to use it in IntelliJ IDEA. It appears to work as expected though including auto completion and everything. Until there is a "non-hacky" solution (e.g. due to JEP 286: Local-Variable Type Inference), this might be your best bet right now.

Note that val is support by Lombok as well without modifying or creating a lombok.config.

3

As of Java 10, the equivalent is ... var.

  • Are there any differences? I mean you know better than to write short answers like this, what with your rep level n all. And surely there must be some differences. – user1306322 Apr 2 '18 at 13:13
  • @user1306322 That's a wholly separate question! You might check the java-10 tag, as many aspects of this have already been asked. – Brian Goetz Apr 2 '18 at 13:17
  • Well, this is the question to look at if you're googling this, as it comes first and is linked to in every related post in the sidebar. So I suppose if you know that separate question which answers it, you might be able to at least link to it or include parts of it into your answer. – user1306322 Apr 2 '18 at 15:24
2

You can, in Java 10, but only for Local variables, meaning,

You can,

var anum = 10; var aString = "Var";

But can't,

var anull = null; // Since the type can't be inferred in this case

Check out the spec for more info.

  • 2
    This is incorrect. var can be used for many forms of non-denotable types, including capture types, intersection types, and anonymous class types. And, as of Java 11, it can also be applied to lambda parameters. – Brian Goetz Aug 4 '18 at 15:45
  • Changed it. thanks for pointing it out :) – Antho Christen Aug 6 '18 at 6:54
0

In general you can use Object class for any type, but you have do type casting later!

eg:-

Object object = 12;
    Object object1 = "Aditya";
    Object object2 = 12.12;

    System.out.println(Integer.parseInt(object.toString()) + 2);

    System.out.println(object1.toString() + " Kumar");
    System.out.println(Double.parseDouble(object2.toString()) + 2.12);
  • Aditya, please check all your other answers. Many of them have -1 and probably for a good reason. Don't just post whatever if you're not sure it's correct. – user1306322 Apr 2 '18 at 11:45
  • @user1306322 what's the problem in my answer! can u elaborate? can't we use Object class for all data type? – Aditya Kumar Apr 2 '18 at 12:08
  • Object object = 12; Object object1 = "Aditya"; Object object2 = 12.12; System.out.println(Integer.parseInt(object.toString()) + 2); System.out.println(object1.toString() + " Kumar"); System.out.println(Double.parseDouble(object2.toString()) + 2.12); – Aditya Kumar Apr 2 '18 at 12:12
  • The problem is you didn't understand the question. The question was not "how to make this work", but "is there a thing like this". You answer the wrong question. With the var word now officially in the language, your answer is also referring to the now old fashioned way. – user1306322 Apr 4 '18 at 10:44
-1

This feature is now available in Java SE 10. The static, type-safe var has finally made it into the java world :)

source: https://www.oracle.com/corporate/pressrelease/Java-10-032018.html

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