The first pass of logic would say:

- The list
`[X,X]`

is a list whose elements only appear twice
- The list
`[H|T]`

is a list whose elements only appear twice if we remove `H`

from `T`

(yielding `T1`

), and `H`

is not contained in `T1`

, and `T1`

is a list whose elements only appear twice.

That would lead to:

```
twice([H|T]) :-
select(H, T, T1), % T1 is T with one occurrence of H removed
\+ member(H, T1),
twice(T1).
twice([X,X]).
```

This works great for:

```
?- twice([a, b, b, c, a, c]).
true ;
false.
?- twice([a, a, b, b, a, a]).
false.
```

But:

```
?- twice([a, a, b, c, d, d, c, X]).
false.
```

The reason for this is that `member(X, T)`

will succeed if it can find an instantiation of variables in `X`

and `T`

which make it true. If `T`

has a variable and `X`

is an atom, then `member(X, T)`

can be made true by unifying the variable in `T`

with `X`

.

So we need a "modified" `member`

predicate (we'll call `is_in`

) which behaves the way we want:

```
twice([H|T]) :-
select(H, T, T1), % T1 is T with one occurrence of H removed
\+ is_in(H, T1),
twice(T1).
twice([X,X]).
is_in(X, [H|_]) :- % X is in [H|_] if...
X == H. % X and H are the same ("member" would use '=' here)
is_in(X, [_|T]) :- % X is in [_|T] if...
is_in(X, T). % X is in T
```

Then we get:

```
?- twice([a, b, b, c, a, c]).
true ;
false.
?- twice([a, a, b, b, a, a]).
false.
?- twice([a, a, b, c, d, d, c, X]).
X = b ;
false.
```

The key here is `==`

which checks if terms are already equal *without* attempting to instantiate any of the variables. If you have `b == X`

it will fail, which is what we want. However, if we had `b = X`

, it would succeed because Prolog would instantiate `X`

to `b`

to make it successful.

The other key is that `select/3`

*will* instantiate variables to succeed, which is necessary in order to instantiate `X`

in the example above.

The one limitation of the above implementation is that the most general query `twice(L)`

, where `L`

is variable, will fail:

```
?- twice(L).
% Hmm.... I'm waiting....
```

This can be resolved by controlling the length of the list in the `twice/1`

predicate:

```
twice([H|T]) :-
length([H|T], _), % We don't actually use the length value, so _
select(H, T, T1), % T1 is T with one occurrence of H removed
\+ is_in(H, T1),
twice(T1).
twice([X,X]).
```

Then we also get:

```
?- twice(L).
L = [_G8, _G8, _G14, _G14] ;
L = [_G8, _G11, _G8, _G11] ;
L = [_G8, _G11, _G11, _G8] ;
L = [_G8, _G8, _G14, _G14, _G20, _G20] ;
L = [_G8, _G8, _G14, _G17, _G14, _G17] ;
...
```

Or:

```
?- twice([a,b|T]).
T = [a, b] ;
T = [b, a] ;
T = [a, b, _G306, _G306] ;
T = [a, _G303, b, _G303] ;
T = [a, _G303, _G303, b] ;
T = [b, a, _G306, _G306] ;
```

Finally, with the above definition, `twice([]).`

fails. If you want to define `[]`

as succeeding, you would just replace `twice([X,X]).`

with `twice([]).`

.