Here is a design problem I have faced repeatedly. Suppose you're building a compiler, how do you store the types in the trees?

Consider a simple `Expr`

and `Type`

hierarchy, and assume that `Plus`

and `Equals`

are polymorphic (plus on booleans in just `||`

, for instance).

```
trait Type
case object BoolType extends Type
case object IntType extends Type
case object Untyped extends Type
trait Expr { var tpe : Type = Untyped }
case class Var(id : String) extends Expr
case class Plus(l : Expr, r : Expr) extends Expr
case class Equals(l : Expr, r : Expr) extends Expr
// ...
```

Assume further that I do not know the type of identifiers when I construct the expression trees, and therefore cannot know the type by construction. Now a typical typechecking function could look like this:

```
def typeCheck(env : Map[String,Type])(expr : Expr) : Expr = expr match {
case Var(id) =>
expr.tpe = env(id)
expr
case Plus(l,r) =>
val tl = typeCheck(env)(l)
val tr = typeCheck(env)(r)
assert(tl == tr)
expr.tpe = tl
expr
// etc.
}
```

This is rather straightforward to write, but comes with two major problems:

`Expr`

s are mutable. No one likes mutation.- Typed and untyped expressions cannot be distinguished. I cannot write a function whose signature specifies that its argument must be a typed expression.

So my question is the following. What is a good way (I dare not say design pattern) to define possibly untyped trees such that:

- I need to define the
`Expr`

hierarchy only once. - Typed and untyped trees have distinct types and I can choose to make them incompatible.

**Edit:** One more requirement is that it should work for type systems with an unbounded and unpredictable number of types (think: `case class ClassType(classID : String) extends Type`

, for instance).