Consider the following Haskell code:

```
module Expr where
-- Variables are named by strings, assumed to be identifiers:
type Variable = String
-- Representation of expressions:
data Expr = Const Integer
| Var Variable
| Plus Expr Expr
| Minus Expr Expr
| Mult Expr Expr
deriving (Eq, Show)
simplify :: Expr->Expr
simplify (Mult (Const 0)(Var"x"))
= Const 0
simplify (Mult (Var "x") (Const 0))
= Const 0
simplify (Plus (Const 0) (Var "x"))
= Var "x"
simplify (Plus (Var "x") (Const 0))
= Var "x"
simplify (Mult (Const 1) (Var"x"))
= Var "x"
simplify (Mult(Var"x") (Const 1))
= Var "x"
simplify (Minus (Var"x") (Const 0))
= Var "x"
simplify (Plus (Const x) (Const y))
= Const (x + y)
simplify (Minus (Const x) (Const y))
= Const (x - y)
simplify (Mult (Const x) (Const y))
= Const (x * y)
simplify x = x
toString :: Expr->String
```

How can I convert an expression to a string representation?

e.g.

```
toString (Var "x") = "x"
toString (Plus (Var "x") (Const 1)) = "x + 1"
toString (Mult (Plus (Var "x") (Const 1)) (Var "y"))
= "(x + 1) * y"
```