I don't know, but the on the toplevel the compound term's modification is rolled back on backtracking for some reason (SWI-Prolog 8.3.14):

**Toplevel**

```
?-
functor(A, array, 5),
forall(
arg(Index, A, _),
(format("~q: ~q\n",[Index,A]),
nb_setarg(Index, A, 0),
format("~q: ~q\n",[Index,A]))).
```

Then we see new `array/5`

compound terms with fresh variables on each passage of `forall`

```
1: array(_3228,_4334,_4336,_4338,_4340)
1: array(0 ,_4334,_4336,_4338,_4340)
2: array(_4332,_3228,_4336,_4338,_4340)
2: array(_4332,0, _4336,_4338,_4340)
3: array(_4332,_4334,_3228,_4338,_4340)
3: array(_4332,_4334, 0,_4338,_4340)
4: array(_4332,_4334,_4336,_3228,_4340)
4: array(_4332,_4334,_4336,0, _4340)
5: array(_4332,_4334,_4336,_4338,_3228)
5: array(_4332,_4334,_4336,_4338,0)
A = array(_4332, _4334, _4336, _4338, _4340).
```

**As a rule**

```
new_array(A,N) :-
functor(A, array, N),
forall(
arg(Index, A, _),
(format("~q: ~q\n",[Index,A]),
nb_setarg(Index, A, 0),
format("~q: ~q\n",[Index,A]))).
```

Then:

```
?- new_array(A,5).
1: array(_2498,_2500,_2502,_2504,_2506)
1: array(0,_2500,_2502,_2504,_2506)
2: array(0,_2500,_2502,_2504,_2506)
2: array(0,0,_2502,_2504,_2506)
3: array(0,0,_2502,_2504,_2506)
3: array(0,0,0,_2504,_2506)
4: array(0,0,0,_2504,_2506)
4: array(0,0,0,0,_2506)
5: array(0,0,0,0,_2506)
5: array(0,0,0,0,0)
A = array(0, 0, 0, 0, 0).
```

On the other hand, the implementation is as follows:

```
forall(Cond, Action) :-
\+ (Cond, \+ Action).
```

The above is not a good predicate to use as a loop.

However, the behaviour in the "rule setting" seems correct.

The documentation says:

The predicate `forall/2`

is implemented as `\+ ( Cond, \+ Action)`

, i.e., *There is no instantiation of *`Cond`

for which `Action`

is false. The use of double negation implies that `forall/2`

does not change any variable bindings. It proves a relation. The `forall/2`

control structure can be used for its side-effects.

Quite so.

There is nothing special in the description of `nb_setarg/3`

either.

It's as if `nb_setarg/3`

were working as `setarg/3`

on the toplevel?

The trace doesn't reveal anything:

```
^ Call: (13) format("~q: ~q\n", [1, array(_30756, _32086, _32088, _32090, _32092)]) ? creep
1: array(_30756,_32086,_32088,_32090,_32092)
^ Exit: (13) format("~q: ~q\n", [1, array(_30756, _32086, _32088, _32090, _32092)]) ? creep
Call: (13) setarg(1, array(_30756, _32086, _32088, _32090, _32092), 0) ? creep
Exit: (13) setarg(1, array(0, _32086, _32088, _32090, _32092), 0) ? creep
^ Call: (13) format("~q: ~q\n", [1, array(0, _32086, _32088, _32090, _32092)]) ? creep
1: array(0,_32086,_32088,_32090,_32092)
^ Exit: (13) format("~q: ~q\n", [1, array(0, _32086, _32088, _32090, _32092)]) ? creep
Next "forall" passage: we are using a new compound term!
^ Call: (13) format("~q: ~q\n", [2, array(_32084, _30756, _32088, _32090, _32092)]) ? creep
2: array(_32084,_30756,_32088,_32090,_32092)
^ Exit: (13) format("~q: ~q\n", [2, array(_32084, _30756, _32088, _32090, _32092)]) ? creep
Call: (13) setarg(2, array(_32084, _30756, _32088, _32090, _32092), 0) ? creep
Exit: (13) setarg(2, array(_32084, 0, _32088, _32090, _32092), 0) ?
```

As it is SWI-Prolog related, you may want to ask this on Discourse.

**Update**

Tried it online in GNU Prolog.

GNU Prolog demands that the index of `arg/3`

be instantiated and has no `nb_setarg/3`

(nor a `forall/2`

??).

But let's try the following in SWI-Prolog:

```
functor(A, array, 5),
\+ (
between(1,5,Index),arg(Index, A, _),
\+
(format("~q: ~q\n",[Index,A]),
nb_setarg(Index, A, 0),
format("~q: ~q\n",[Index,A]))).
```

Doesn't work either.

**Update: Trying something simpler & pared-down**

As expected:

```
?-
A=p(1,2,3),nb_setarg(1,A,foo).
A = p(foo, 2, 3).
```

With double negation. Also keeps the non-backtrackably-set value:

```
?-
A=p(1,2,3),\+ \+ nb_setarg(1,A,foo).
A = p(foo, 2, 3).
```