# Using `\==` or `dif`

If I want to make sure that two variables do not instantiate to the same term, what is the preferred way to do it?

Let's say I need to find directed edges in a graph, and a node cannot have an edge to itself:

``````node(a, x, y). node(b, z, x). node(c, y, y).
``````

(the edges here are a -> c, b -> a, but not c -> c)

The following works:

``````edge(A, B) :- node(A, _, X), node(B, X, _), A \== B.
``````

This works too [swi-prolog]:

``````edge(A, B) :- dif(A, B), node(A, _, X), node(B, X, _).
``````

This does not work, apparently (because neither A nor B are instantiated yet?):

``````edge(A, B) :- A \== B, node(A, _, X), node(B, X, _).
``````

I guess my problem with the first solution is that, with a more complex `node` predicate, a lot of unnecessary unifications might take place before `edge` fails. The `dif` on the other hand is in a library, which suggests that it is not meant to be used in such a simple case (although it has the exact function that I seem to be looking for).

-

For elegance and didactic reasons alone, `dif/2` is clearly preferable here and also in the vast majority of other cases, since as you already note "a lot of unnecessary unifications might take place" otherwise, and also because `dif/2` is a pure and nicely declarative predicate that can be used in all directions and at any place in the clause body without changing the meaning of the program, in contrast to `(\==)/2`. `dif/2` is also an autoloaded predicate in SWI-Prolog, meaning that you need not import any library explicitly to use it, and `dif/2` is available like any built-in predicate.

If you use `dif/2` you can reason much more easily about your code. For example, in your case, you start with:

```edge(A, B) :- node(A, _, X), node(B, X, _), dif(A, B).
```

and then, as you know that `dif/2` is a completely pure predicate, you know that you can also write this as:

```edge(A, B) :- dif(A, B), node(A, _, X), node(B, X, _).
```

Further, since you know that `dif/2` always terminates, you know that this change can at most improve the termination properties of your program.

Like all constraints, `dif/2` is meant to be used. I highly recommend it instead of impure predicates that are not commutative.

In case you are worried about performance, here is a small comparison, just comparing `dif/2` against the non-declarative `(\==)/2` in a use case where the two predicates can be used interchangeably:

```?- N = 1_000_000, time((between(1,N,_),dif(a,b),false)).
% 11,000,005 inferences, 0.352 CPU in 0.353 seconds (100% CPU, 31281029 Lips)

?- N = 1_000_000, time((between(1,N,_),a\==b,false)).
%@ % 3,000,001 inferences, 0.107 CPU in 0.107 seconds (99% CPU, 28167437 Lips)
```

So, there are sometimes performance benefits when using `(\==)/2`. However, there are also much more severe drawbacks when using such a low-level predicate: It is harder to understand, more error-prone, and not declarative.

I therefore recommend to simply use `dif/2` to express that two terms are different.

-
Thank you for your answer. After looking more carefully at the "Coroutining" part of the SWI-Prolog manual it makes sense. I am still slightly confused that such a simple Prolog program actually requires procedural considerations when using only the built-in predicates. – Boris Dec 7 '12 at 8:42
I do consider dif/2 a built-in predicate. It is available in all serious Prolog implementations (SICStus, YAP, SWI, ...) just like any other built-in. Procedural considerations are mostly neccessary when you use impure predicates. – mat Dec 7 '12 at 8:55
why is `\==` impure? I can't think of any side-effects that a comparison could have. Or do you mean something else by "impure"? – Boris Dec 7 '12 at 9:24
`?- X \== Y, X = Y.` succeeds, but `?- X = Y, X \== Y.` fails. From pure logical relations, we expect that the order of goals does not change the truth of a conjunction. – mat Dec 7 '12 at 9:27
"From pure logical relations, we expect that the order of goals does not change the truth of a conjunction." which is the source of all my confusion. With your help it has cleared away. Thank you again for taking the time! – Boris Dec 7 '12 at 9:34

The queries are meta-interpreted and the overhead may outweigh the differences of `dif(X,Y)` and `X\==Y`. You should compare these two predicates:

``````t1:-
1000=I,
time(t1(I)).

t1(I):-
dif(X,Y),
between(1,I,X),
between(1,I,Y),
false.

t2:-
1000=I,
time(t2(I)).

t2(I):-
between(1,I,X),
between(1,I,Y),
X\==Y,
false.
``````

On B-Prolog, I got the following results:

``````| ?- cl(t)
Compiling::t.pl
compiled in 0 milliseconds

yes
| ?- t1
CPU time 0.14 seconds.
no
| ?- t2
CPU time 0.078 seconds.
no
| ?- 1000=I,time(( dif(X,Y), between(1,I,X), between(1,I,Y), false )).
CPU time 0.234 seconds.
no
| ?- 1000=I,time(( between(1,I,X), between(1,I,Y), X \== Y, false )).
CPU time 0.218 seconds.
``````
-
Thank you - the absolute speed is still staggering! – false Dec 9 '12 at 22:37

First of all, `dif/2` and `(\==)/2` mean the same when both arguments are ground, that is variable free. So if you can ensure that the arguments will be ground — or rather sufficiently instantiated such that further instantiations will not affect the outcome of `(\==)/2` — then it does not make a difference.

In your example, we would need to know for sure that answers for `node/3` contain always a ground first argument. In that case, the `(\==)/2` program is fine. In rare cases it might be less efficient than the `dif/2` version. Think of the goal `edge(X, X)`.

In many situations, the `(\==)/2` or even `(\=)/2` is significantly more efficient. On the other hand, how important is efficiency when compared to correctness?

Another way of seeing this, is to consider `(\==)/2` and `(\=)/2` as approximations from two sides: Only if both agree, do we have a safe final outcome.

Historically, `dif/2` is one of the oldest built-in predicates. It was present in the very first Prolog system which is sometimes called Prolog 0 to distinguish it from the next version which is often perceived to be the first Prolog — the Marseille Prolog — Prolog 1. Prolog 1 did no longer have `dif/2` and it is in this shape that Prolog came to Edinburgh. Also,`dif/2` is not part of the ISO standard (currently) since it requires some coroutining-like mechanism. And many (rather older) Prolog systems do not have such a mechanism. However, even in ISO Prolog one could do better:

``````iso_dif(X, Y) :-
X == Y,
!,
fail.
iso_dif(X, Y) :-
X \= Y,
!.
iso_dif(X, Y) :-
throw(error(instantiation_error,iso_dif/2)).
``````

Note how the problematic cases are covered by an error that stops the entire computation.

Current Prolog systems that support `dif/2` right out of the box are B, SICStus, SWI, YAP. It is in a library of IF, Ciao, XSB.

To support my claim about the overheads, here is a test in various Prologs on the same machine. In SWI, there is an overhead of a factor of 10, in B, there is no overhead. As has been noted by @nfz, numbers are slightly different when compiling things. So your mileage may vary.

SWI 6.3.4-55

```?- 1000=I,time(( dif(X,Y), between(1,I,X), between(1,I,Y), false )).
% 22,999,020 inferences, 5.162 CPU in 5.192 seconds (99% CPU, 4455477 Lips)
false.

?- 1000=I,time(( between(1,I,X), between(1,I,Y), X \== Y, false )).
% 2,000,001 inferences, 0.511 CPU in 0.521 seconds (98% CPU, 3912566 Lips)
false.
```

B 7.8

```| ?- 1000=I,time(( dif(X,Y), between(1,I,X), between(1,I,Y), false )).
CPU time 0.364 seconds.
no
| ?- 1000=I,time(( between(1,I,X), between(1,I,Y), X \== Y, false )).
CPU time 0.356 seconds.
no
```

YAP

```?- 1000=I,time(( dif(X,Y), between(1,I,X), between(1,I,Y), false )).
% 2.528 CPU in 2.566 seconds ( 98% CPU)
no
?- 1000=I,time(( between(1,I,X), between(1,I,Y), X \== Y, false )).
% 0.929 CPU in 0.963 seconds ( 96% CPU)
no
```
-
Also, how much is significantly more efficient? I measured a factor of 2.4 between dif/2 and (\==)/2 in SWI-Prolog in a tight loop that consists only of these predicates. This is not much difference in most practical applications given that (\==)/2 is hardly ever a realistic bottleneck. If you are writing a performance-critical library that provides high-level predicates to other users, consider using (\==)/2 internally, but for real user-level application code, I think dif/2 is by far the better choice in almost all cases. – mat Dec 8 '12 at 16:38
@mat: Can you reproduce my numbers above? – false Dec 8 '12 at 18:34
Please consider the case of ground terms, which is (implicitly) the case under discussion. I measured a factor of 2.4 for `N = 1000000, time((between(1,N,_),dif(a,b),false)).` vs `N = 1000000, time((between(1,N,_),a\=b,false)).` with SWI-Prolog. For terms involving variables, take into account that dif/2 also gives you significantly more functionality in comparison to (\==)/2, for example, the ability to actually ask existential queries. – mat Dec 8 '12 at 18:55
@mat: I clearly disagree: The case I gave is about ground terms in much the same way as OP has done it: Initially they are not ground, and due to `node/3` and `between/3` they are instantiated to ground terms. – false Dec 8 '12 at 18:58
I also disagree: In the very first case of OP's posting, commented with "the following works", (\==)/2 is used when both arguments are ground. – mat Dec 8 '12 at 19:02