So, strictly speaking, the "type of a variable" is always present, and can be passed around as a type parameter. For example:

```
val x = 5
def f[T](v: T) = v
f(x) // T is Int, the type of x
```

But depending on *what you want to ***do**, that won't help you. For instance, may want not to know what is the type of the variable, but to know if the type of the *value* is some specific type, such as this:

```
val x: Any = 5
def f[T](v: T) = v match {
case _: Int => "Int"
case _: String => "String"
case _ => "Unknown"
}
f(x)
```

Here it doesn't matter what is the type of the variable, `Any`

. What matters, what is checked is the type of `5`

, the value. In fact, `T`

is useless -- you might as well have written it `def f(v: Any)`

instead. Also, this uses either `ClassTag`

or a value's `Class`

, which are explained below, and cannot check the type parameters of a type: you can check whether something is a `List[_]`

(`List`

of something), but not whether it is, for example, a `List[Int]`

or `List[String]`

.

Another possibility is that you want to *reify* the type of the variable. That is, you want to convert the type into a value, so you can store it, pass it around, etc. This involves reflection, and you'll be using either `ClassTag`

or a `TypeTag`

. For example:

```
val x: Any = 5
import scala.reflect.ClassTag
def f[T](v: T)(implicit ev: ClassTag[T]) = ev.toString
f(x) // returns the string "Any"
```

A `ClassTag`

will also let you use type parameters you received on `match`

. This won't work:

```
def f[A, B](a: A, b: B) = a match {
case _: B => "A is a B"
case _ => "A is not a B"
}
```

But this will:

```
val x: Any = 5
val y = 5
import scala.reflect.ClassTag
def f[A, B: ClassTag](a: A, b: B) = a match {
case _: B => "A is a B"
case _ => "A is not a B"
}
f(x, y) // A (Any) is not a B (Int)
f(y, x) // A (Int) is a B (Any)
```

Here I'm using the *context bounds* syntax, `B : ClassTag`

, which works just like the implicit parameter in the previous `ClassTag`

example, but uses an anonymous variable.

One can also get a `ClassTag`

from a value's `Class`

, like this:

```
val x: Any = 5
val y = 5
import scala.reflect.ClassTag
def f(a: Any, b: Any) = {
val B = ClassTag(b.getClass)
ClassTag(a.getClass) match {
case B => "a is the same class as b"
case _ => "a is not the same class as b"
}
}
f(x, y) == f(y, x) // true, a is the same class as b
```

A `ClassTag`

is limited in that it only covers the base class, but not its type parameters. That is, the `ClassTag`

for `List[Int]`

and `List[String]`

is the same, `List`

. If you need type parameters, then you must use a `TypeTag`

instead. A `TypeTag`

however, cannot be obtained from a value, nor can it be used on a pattern match, due to JVM's *erasure*.

Examples with `TypeTag`

can get quite complex -- not even comparing two type tags is not exactly simple, as can be seen below:

```
import scala.reflect.runtime.universe.TypeTag
def f[A, B](a: A, b: B)(implicit evA: TypeTag[A], evB: TypeTag[B]) = evA == evB
type X = Int
val x: X = 5
val y = 5
f(x, y) // false, X is not the same type as Int
```

Of course, there are ways to make that comparison return true, but it would require a few book chapters to really cover `TypeTag`

, so I'll stop here.

Finally, maybe you don't care about the type of the variable at all. Maybe you just want to know what is the class of a value, in which case the answer is rather simple:

```
val x = 5
x.getClass // int -- technically, an Int cannot be a class, but Scala fakes it
```

It would be better, however, to be more specific about what you want to accomplish, so that the answer can be more to the point.

whatyou want to do with it, you'll get better answers. – Daniel C. Sobral Oct 15 '13 at 17:37