I'm currently going through the paper *Extensibility for the Masses. Practical Extensibility with Object Algebras* by Bruno C. d. S. Oliveira and William R. Cook (available many places on the internet - for example here: https://www.cs.utexas.edu/~wcook/Drafts/2012/ecoop2012.pdf).

On page 10, they write:

Adding new data variants is easy. The first step is to create new classes

`Bool`

and`Iff`

in the usual object-oriented style (like`Lit`

and`Add`

):`class Bool implements Exp {...} class Iff implements Exp {...}`

The implementation of `Exp`

is, it seems, left as an exercise to the reader. It's not clear to me, however, how `Exp`

is defined in this part of the paper. My question is:

*How should Bool and Iff be implemented?*

Here's what I've tried:

# First defintion of `Exp`

Early in the paper, the `Exp`

interface is defined like this:

```
interface Exp {
Value eval();
}
```

Here, `Value`

is defined by another interface:

```
interface Value {
Integer getInt();
Boolean getBool();
}
```

The paper, however, quickly departs from this definition of `Exp`

in favour of a Visitor-based definition.

## Possible implementation of `Bool`

Based on that definition, how should one implement the `Bool`

class?

Something like this seems like a start:

```
class Bool implements Exp {
boolean x;
public Bool(boolean x) { this.x = x; }
public Value eval() {
return new VBool(x);
}}
```

The question, however, becomes how to properly implement `Value`

?

The paper only shows this:

```
class VBool implements Value {...}
```

The implementation doesn't seem total to me:

```
class VBool implements Value {
boolean x;
public VBool(boolean x) { this.x = x; }
public Boolean getBool() {
return new Boolean(x);
}
public Integer getInt() {
// What to return here?
}
}
```

As my above attempt shows, it's not clear what to return from `getInt`

. I suppose I could return null or throw an exception, but that would imply that my implementation is partial.

In any case, this first definition of `Exp`

seems only to exist as a motivating example in the paper, which then proceeds to define a better alternative.

# Second definition of `Exp`

On page 4 the paper redefines `Exp`

as an Internal Visitor:

```
interface Exp {
<A> A accept(IntAlg<A> vis);
}
```

Where `IntAlg<A>`

is another interface:

```
interface IntAlg<A> {
A lit(int x);
A add(A e1, A e2);
}
```

So far things seem clear, until we get to implementing `Bool`

and `Iff`

...

## Possible implementation of `Bool`

How should we implement the proposed `Bool`

class based on this definition of `Exp`

?

```
class Bool implements Exp {
boolean x;
public Bool(boolean x) { this.x = x; }
public <A> A accept(IntAlg<A> vis) {
// What to return here?
}}
```

There's no way to conjure an `A`

value out of thin air, so one has to interact with `vis`

in order to produce an `A`

value. The `vis`

parameter, however, only defines `lit`

and `add`

methods.

The `lit`

method requires an `int`

, which isn't available in `Bool`

.

Likewise, `add`

requires *two* `A`

values, which are also unavailable. Again, I find myself at an impasse.

# Third definition of `Exp`

?

Then, on page 8, the paper shows this example:

```
int x = exp(base).eval();
```

Here, `exp(base)`

returns `Exp`

, but which definition of `eval`

is this?

Apparently, `Exp`

still (or again?) has an `eval`

method, but now it returns `int`

. Does it look like this?

```
interface Exp {
int eval();
}
```

The paper doesn't show this definition, so I may be misunderstanding something.

## Possible implementation of `Bool`

Can we implement `Bool`

and `Iff`

with this definition of `Exp`

?

```
class Bool implements Exp {
boolean x;
public Bool(boolean x) { this.x = x; }
public int eval() {
// What to return here?
}}
```

Again, it's not clear how to implement the interface. One could, of course, return `0`

for false and `1`

for true, but that's just an arbitrary decision. That doesn't seem appropriate.

Is there a fourth definition of `Exp`

that I'm missing? Or is there some other information in the paper that's eluding me?

BTW, I apologise if I've made mistakes in my attempts. I don't normally write Java code.

`int`

to that type and back to an`int`

, I simply have declared that this type is an`int`

container. That line`public A add(A x, A y) { return valFact.lit(x.getInt() + y.getInt()); }`

is always performing an`int`

addition, no matter how`A`

has been implemented and the possibility to implement an`int`

container in different ways is not really helpful in practice. You’re struggling with`VBool`

already, but how to add, e.g. a`VString`

? I don’t see a solution in this paper.