'if' in prolog?

Probably a stupid question, but I can't find any documentation anywhere for it. Is there a way to do an if in prolog, e.g. if a variable is 0, then to do some actions (write text to the terminal). An else isn't even needed, but I can't find any implementation of if.

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See if-then-else from www.learnprolognow.org – adamo Jun 12 '11 at 13:32
Prolog has a builtin `if-then-else` syntax. But it is not declarative to really use it. – Willem Van Onsem Aug 22 '14 at 17:12

8 Answers

A standard prolog predicate will do this.

``````   isfive(5).
``````

will evaluate to true if you call it with 5 and fail(return false) if you run it with anything else. For not equal you use \=

``````isNotEqual(A,B):- A\=B.
``````

Technically it is does not unify, but it is similar to not equal.

Learn Prolog Now is a good website for learning prolog.

Edit: To add another example.

``````isEqual(A,A).
``````
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+1 for enforcing logic programming style instead of imperative one :-) – Agnius Vasiliauskas Aug 14 '12 at 7:53

Yes, there is such a control construct in ISO Prolog, called `->`. You use it like this:

``````( condition -> then_clause ; else_clause )
``````

Here is an example that uses a chain of else-if-clauses:

``````(   X < 0 ->
writeln('X is negative.  That's weird!  Failing now.'),
fail
;   X =:= 0 ->
writeln('X is zero.')
;   writeln('X is positive.')
)
``````

Note that if you omit the else-clause, the condition failing will mean that the whole if-statement will fail. Therefore, I recommend always including the else-clause (even if it is just `true`).

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In ISO, the control construct is actually called (;)/2 - if-then-else (7.8.8) because the principal functor is the (;)/2. This is a bit irritating since there is another control construct with the same principal functor: (;)/2 - disjunction (7.8.6). You can see it like this `(if->then;else) == ((if->then);else).` succeeds. – false Feb 17 '12 at 0:29

Prolog predicates 'unify' -

So, in an imperative langauge I'd write

``````function bazoo(integer foo)
{
if(foo == 5)
doSomething();
else
doSomeOtherThing();
}
``````

In Prolog I'd write

``````bazoo(5) :-  doSomething.
bazoo(Foo) :- Foo =/= 5, doSomeOtherThing.
``````

which, when you understand both styles, is actually a lot clearer.
"I'm bazoo for the special case when foo is 5"
"I'm bazoo for the normal case when foo isn't 5"

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`bazoo(5+0)` fails silently, whereas `bazoo(5+1)` does some other thing – false Jan 7 '15 at 16:50

I found this helpful for using an if statement in a rule.

max(X,Y,Z) :- ( X =< Y -> Z = Y ; Z = X ).

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Prolog program actually is big condition for "if" with "then" which prints "Goal is reached" and "else" which prints "No sloutions was found". `A, B`means "A is true and B is true", most of prolog systems will not try to satisfy "B" if "A" is not reachable (i.e. `X=3, write('X is 3'),nl` will print 'X is 3' when X=3, and will do nothing if X=2).

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First, let's recall some classical first order logic:

"If P then Q else R" is equivalent to "(P and Q) or (non_P and R)".

How can we express "if-then-else" like that in Prolog?

Let's take the following concrete example:

If `X` is a member of list `[1,2]` then `X` equals `2` else `X` equals `4`.

We can match above pattern ("If P then Q else R") if ...

• condition `P` is `list_member([1,2],X)`,
• negated condition `non_P` is `non_member([1,2],X)`,
• consequence `Q` is `X=2`, and
• alternative `R` is `X=4`.

To express list (non-)membership in a pure way, we define:

```list_memberd([E|Es],X) :-
(  E = X
;  dif(E,X),
list_memberd(Es,X)
).

non_member(Es,X) :-
maplist(dif(X),Es).
```

Let's check out different ways of expressing "if-then-else" in Prolog!

1. `(P,Q ; non_P,R)`

```?-      (list_memberd([1,2],X), X=2 ; non_member([1,2],X), X=4).
X = 2 ; X = 4.
?- X=2, (list_memberd([1,2],X), X=2 ; non_member([1,2],X), X=4), X=2.
X = 2 ; false.
?-      (list_memberd([1,2],X), X=2 ; non_member([1,2],X), X=4), X=2.
X = 2 ; false.
?- X=4, (list_memberd([1,2],X), X=2 ; non_member([1,2],X), X=4), X=4.
X = 4.
?-      (list_memberd([1,2],X), X=2 ; non_member([1,2],X), X=4), X=4.
X = 4.
```

Correctness score 5/5. Efficiency score 3/5.

2. `(P -> Q ; R)`

```?-      (list_memberd([1,2],X) -> X=2 ; X=4).
false.                                                % WRONG
?- X=2, (list_memberd([1,2],X) -> X=2 ; X=4), X=2.
X = 2.
?-      (list_memberd([1,2],X) -> X=2 ; X=4), X=2.
false.                                                % WRONG
?- X=4, (list_memberd([1,2],X) -> X=2 ; X=4), X=4.
X = 4.
?-      (list_memberd([1,2],X) -> X=2 ; X=4), X=4.
false.                                                % WRONG
```

Correctness score 2/5. Efficiency score 2/5.

3. `(P *-> Q ; R)`

```?-      (list_memberd([1,2],X) *-> X=2 ; X=4).
X = 2 ; false.                                        % WRONG
?- X=2, (list_memberd([1,2],X) *-> X=2 ; X=4), X=2.
X = 2 ; false.
?-      (list_memberd([1,2],X) *-> X=2 ; X=4), X=2.
X = 2 ; false.
?- X=4, (list_memberd([1,2],X) *-> X=2 ; X=4), X=4.
X = 4.
?-      (list_memberd([1,2],X) *-> X=2 ; X=4), X=4.
false.                                                % WRONG
```

Correctness score 3/5. Efficiency score 1/5.

(Preliminary) summary:

1. `(P,Q ; non_P,R)` is correct, but needs a discrete implementation of `non_P`.

2. `(P -> Q ; R)` loses declarative semantics when instantiation is insufficient.

3. `(P *-> Q ; R)` is "less" incomplete than `(P -> Q ; R)`, but still has similar woes.

Luckily for us, there are alternatives: Enter the logically monotone control construct `if_/3`!

We can use `if_/3` together with the reified list-membership predicate `memberd_t/3` like so:

```?-      if_(memberd_t(X,[1,2]), X=2, X=4).
X = 2 ; X = 4.
?- X=2, if_(memberd_t(X,[1,2]), X=2, X=4), X=2.
X = 2.
?-      if_(memberd_t(X,[1,2]), X=2, X=4), X=2.
X = 2 ; false.
?- X=4, if_(memberd_t(X,[1,2]), X=2, X=4), X=4.
X = 4.
?-      if_(memberd_t(X,[1,2]), X=2, X=4), X=4.
X = 4.
```

Correctness score 5/5. Efficiency score 4/5.

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Why do you believe that 2 is the most efficient one? It has to create and destroy a choice point. A good implementation of `if_/3` does not need any choicepoint at all. – false Oct 16 '15 at 17:11
You wrote 5/5 for 2 – false Oct 16 '15 at 17:25
``````(  A == B ->
writeln("ok")
;
writeln("nok")
),
``````

The else part is required

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It is certainly a good idea to indicate an else-part, but it is not required. – false Jul 7 '14 at 22:03

The best thing to do is to use the so-called `cuts`, which has the symbol `!`.

``````if_then_else(Condition, Action1, Action2) :- Condition, !, Action1.
if_then_else(Condition, Action1, Action2) :- Action2.
``````

The above is the basic structure of a condition function.

To exemplify, here's the `max` function:

``````max(X,Y,X):-X>Y,!.
max(X,Y,Y):-Y=<X.
``````

I suggest reading more documentation on cuts, but in general they are like breakpoints. Ex.: In case the first `max` function returns a true value, the second function is not verified.

PS: I'm fairly new to Prolog, but this is what I've found out.

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Not sure why this post was voted down. cold cuts are the most powerful way to handle conditions in prolog. – gaurav.singharoy Jun 2 '14 at 8:49
@gaurav.singharoy: What are "cold cuts"? W.r.t to Prolog, indeed. – false Jul 7 '15 at 14:56