From the Prolog ISO Standard
ISO/IEC 13211-1 (First edition 1995-06-01)
Information technology - Programming languages - Prolog
Part 1: General Core
which has an extensive glossary on pages 2-10.
3.7 argument: A term which is associated with a predication or compound term.
3.9 arity: The number of arguments of a compound term. Syntactically, a non-negative integer associated with a functor or
3.10 assert, to: To assert a clause is to add it to the user-defined procedure in the database defined by the predicate of
3.19 body: A goal, distinguished by its context as part of a rule (see 3.154).
3.21 built-in predicate: A procedure whose execution is implemented by the processor (see 8).
3.32 clause: A fact or a rule. It has two parts: a head, and a body.
3.35 complete database The set of procedures with respect to which execution is performed (see 7.5).
3.37 compound term: A functor of arity
N positive, together with a sequence of
3.45 control construct: A procedure whose definition is part of the Prolog processor (see 7.8).
3.52 database: The set of user-defined procedures which currently exist during execution (see 7.5).
3.57 directive: A term
D which affects the meaning of Prolog text (see 7.4.2) and is denoted in that Prolog text by the directive-term
3.59 dynamic (of a procedure): A dynamic procedure is one whose clauses can be inspected or altered during execution, for example by
asserting or retracting clauses (see 7.5.2).
3.72 fact: A clause whose body is the goal
true. NOTE - A fact can be represented in Prolog text by a term whose principal functor is neither
3.77 functor: An identifier together with an arity.
3.81 goal: A predication which is to be executed (see body, query, and 7.7.3).
3.84 head (of a rule): A predication, distinguished by its context.
3.88 identifier: A basic unstructured object used to denote an atom, functor name or predicate name.
3.129 predicate: An identifier together with an arity.
3.131 predicate indicator: A compound term
A is an atom and
N is a non-negative integer, denoting one particular procedure (see 126.96.36.199).
3.133 predication: A predicate with arity
N and a sequence of
3.136 procedure: A control construct, a built-in predicate, or a user-defined procedure. A procedure is either static or dynamic. A
procedure is either private or public (see 7.5).
3.141 Prolog text: A sequence of read-terms denoting directives and clauses (see 6.2, 7.4).
3.143 query: A goal given as interactive input to the top level.
3.154 rule: A clause whose body is not the goal
true. During execution, if the body is true for some substitution, then the head is also true for that substitution. A rule is represented in Prolog text
by a term whose principal functor is
(:-)/2 where the first argument is converted to the head, and the second argument is converted to the body.
3.164 static (of a procedure): A static procedure is one whose clauses cannot be altered (see 7.5.2).
3.185 top level: A process whereby a Prolog processor repeatedly inputs and executes * queries.
3.195 user-defined procedure: A procedure which is defined by a sequence of clauses where the head of each clause has the same
predicate indicator, and each clause is expressed by Prolog text or
has been asserted during execution (see 8.9).
h(A,B,C) :- g(A,B),h(B,C),j(A,C).
<-------------------------------> - A (HORN) CLAUSE, which is also a RULE.
<------------------> - BODY of the RULE, which also a GOAL.
<------> - HEAD of the RULE, which can appear
as GOAL depending on context.
f(A,B,C). - A CLAUSE with the elided body `true`.
This is a FACT, but _not_ a RULE.
Also called a UNIT CLAUSE.
f(A,B,C) :- true. - Same as above, still not a RULE.
f(A,B,C) :- !. - Is it a RULE? We don't know!
:- f(A,B,C). - A DIRECTIVE.
:- (foo(bar)). - Another DIRECTIVE.
Slightly different definitions can be found at the entry for Horn Clause a Wikipedia. In particular, "fact" is said to be "a unit clause without variables" - this is not in accordance wit the ISO definition.
The non-terminal indicator
In addition to the predicate indicator notation
functor/arity), there is the notation
A//N, which is not in the ISO standard (or not yet, see this draft). It tells the reader that this predicate is used in a Definite Clause Grammar (DCG) and takes 2 hidden arguments for the input "difference list" (or "list difference") pair in addition to the number of arguments indicated.
In the standard proposal indicated above, it is described as:
3.19 non-terminal indicator: A compound term
an atom and
N is a non-negative integer, denoting one particular
Most implementations translate a non-terminal
nt//n to a predicate
nt/n+2. However, one cannot rely on the precise way of translation and the outcome of calling a non-terminal directly by calling the corresponding predicate, that is, with the same name and two extra arguments is not defined. In particular the second additional argument has to be handled with care. A direct use might violate steadfastness, in particular when using dcg-semicontext.
Note on directive
The directive can be another way of writing a query. From the SICStus Prolog manual:
Queries and directives are ways of directing the system to execute
some goal or goals. (...) The principal use for directives (as opposed
to queries) is to allow files to contain directives that call various
predicates, but for which you do not want to have the answers printed
out. In such cases you only want to call the predicates for their
effect, i.e. you do not want terminal interaction in the middle of
consulting the file.
A directive can also be source file markup, whose position is important (i.e. code meta-information). From the SWI Prolog manual on the
This directive can only be used as the first term of a source file. It
declares the file to be a module file, defining a module named Module.
The predicates used in a directive may be quite peculiar, giving instructions and predicate meta-information to the Prolog processor. From the SWI Prolog manual on "declaring predicate properties":
This section describes directives which manipulate attributes of
For example, "load the library for constraint logic programming over finite domains":
The rule with the empty head
:- foo, which could be interpreted as
false :- foo is not used in Prolog to express the constraint "it is never the case that foo". It is used that way in implementations of Answer Set Programming like "ASP Prolog" (which has Prolog-y syntax but otherwise is nothing like Prolog).
Note on built-in predicate
In chapter 8, on page 63, we find:
"A built-in predicate is a procedure which is provided by a
Colloquially, "the built-in predicate is part of the Prolog language". Other predicates may be library predicates which need to be pulled into the Prolog program by appropriate directive. Example from SWI Prolog: library predicates.
Note on fact
Colloquially, a "flat fact" is a fact represented by ground term - a term without variables.
Note on functor
This has nothing to do with the "functor" of Category Theory. On the functor of Category Theory, Wikipedia has this to say:
The word functor was borrowed by mathematicians from the philosopher
Rudolf Carnap, who used the term in a linguistic context; see
And on "function word":
In linguistics, function words (also called functors) are words
that have little lexical meaning or have ambiguous meaning and express
grammatical relationships among other words within a sentence, or
specify the attitude or mood of the speaker.
So the choice of "functor" for Prolog is a bit unfortunate.
Note on goal
The goal can be what one would describe as "simple", e.g.
p(X), or a tree composed of subgoals e.g.
, is a predication with the principal functor
Also, the definition does not cater for this, but the goal could be a variable resolving to a term, which would then be passed to
Note on predicate vs. procedure vs. predicate indicator
This concept of predicate seems to float in the "space of semantics" rather than the "space of syntax":
- the name or declaration of the "predicate thing" is the predicate indicator;
- the definition of the predicate of the "predicate thing" is the procedure (based presumably on code, Prolog or otherwise).
For the predicate
fact of arity 2 which computes the factorial function:
fact/2 is the predicate indicator, and
fact(0,1) :- !.
fact(X,F) :- Xp is (X-1), fact(Xp,Fp), F is (Fp*X).
is the possible corresponding procedure.
In practice, predicate is used to denote any procedure as well and one writes the predicate indicator to identify it.
A procedure which admits to a logical interpretation and allows variables for any of its arguments would a relation in the database interpetation or the logic interpretation of that word.
Note on Prolog text
A "Prolog program" (a term which is not defined in the ISO Standard) would be the colloquial description of a set of Prolog texts to be run by the (possibly standard) processor.
Prolog text also includes text entered at the top level which is not a Prolog program, e.g.
?- X is 5 * 3.
X = 15.