types

This library implements predicates over standard Prolog term types and also terms representing common data structures such as lists and pairs.

It also includes a user-extensible type object defining type checking predicates over common Logtalk and Prolog term types. The types define a hierarchy with the Prolog type term at the root (i.e., type-checking a predicate argument of type term trivially succeeds). Some types are only meaningful for backend Prolog systems supporting non-universal features (e.g., cyclic or char(CharSet) with a Unicode character set). See the API documentation for a full list of the types defined by default.

API documentation

Open the ../../docs/library_index.html#types link in a web browser.

Loading

To load all entities in this library, load the loader.lgt file:

| ?- logtalk_load(types(loader)).

If your code only requires the most basic types, you can load in alternative the file:

| ?- logtalk_load(basic_types(loader)).

See the notes on the basic_types virtual library for details.

Testing

To test this library predicates, load the tester.lgt file:

| ?- logtalk_load(types(tester)).

Type-checking

This library type object can be used to type-check common Logtalk and Prolog term types (see the object documentation for a listing of all the pre-defined types). The valid/2 predicate succeeds or fails if a term is of a given type. For example:

| ?- type::valid(positive_integer, 42).
yes

| ?- type::valid(positive_integer, -13).
no

The check/2 and check/3 predicates throw an exception if a term is not of a given type. For example:

| ?- catch(type::check(integer, abc), Error, true).
Error = type_error(integer, abc)
yes

If we require a standard error/2 exception term, the check/3 predicate takes a context argument. For example:

| ?- catch(type::check(integer, abc, foo/3), Error, true).
Error = error(type_error(integer, abc), foo/3)
yes

Typically, the context is provided by calling the built-in context/1 method.

Defining new types

To define a custom type, define clauses for the multifile predicates type::type/1 (to declare the type) and type::check/2 (to type-check values). For example:

:- multifile(type::type/1).
type::type(age).

:- multifile(type::check/2).
type::check(age, Term) :-
    type::check(between(non_negative_integer, 0, 150), Term).

Be careful to ensure that the new type definitions don’t introduce spurious choice-points for these predicates. The unit tests of the types library perform this check for pre-defined and loaded user-defined ground types.

When defining a meta-type (i.e., a type with arguments that are also types), add also a clause for the type::meta_type/3 multifile predicate. For example:

:- multifile(type::meta_type/3).
type::meta_type(tuple(Type1, Type2, Type3), [Type1, Type2, Type3], []).

This predicate is called when checking if a type is a defined type. For meta-types, that check must extend to the sub-types.

Examples

See e.g. the os library implementation of custom types for files and directories. Or the expecteds and optionals libraries custom types. See also the my_types programming example.