When you write

```
def check[T <: AnyVal] ...
```

you're defining the method for **all** the subtypes of `AnyVal`

.
However, your implementation uses two methods (`<=`

and `>=`

) which are available only for a subset of types, namely the ones that support ordering.

So you have to specify that the method applies to **all** types for which an ordering **exists**, or in other words

```
def check[T](value: T, min: T, max: T)(implicit ev: T => Ordered[T]): Boolean =
value >= min && value <= max
```

This syntax is equivalent to a view bound (`<%`

)

```
def check[T <% Ordered[T]](value: T, min: T, max: T): Boolean = ...
```

but, since view bounds are deprecated, you should avoid it.

Another option is to use `Ordering`

in this fashion

```
def check[T](value: T, mini: T, maxi: T)(implicit ord: Ordering[T]): Boolean = {
import ord.mkOrderingOps
value >= mini && value <= maxi
}
```

where importing `ord.mkOrderingOps`

gives you the ability of using the regular `>=`

and `<=`

methods.

Another equivalent alternative using a context bound directly:

```
def check[T: Ordering](value: T, mini: T, maxi: T): Boolean = {
val ord = implicitly[Ordering[T]]
import ord.mkOrderingOps
value >= mini && value <= maxi
}
```