af0fb4f4d9
git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@2088 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
262 lines
7.6 KiB
Prolog
262 lines
7.6 KiB
Prolog
/* $Id: error.pl,v 1.1 2008-02-12 17:03:52 vsc Exp $
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Part of SWI-Prolog
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Author: Jan Wielemaker
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E-mail: wielemak@science.uva.nl
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WWW: http://www.swi-prolog.org
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Copyright (C): 1985-2007, University of Amsterdam
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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As a special exception, if you link this library with other files,
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compiled with a Free Software compiler, to produce an executable, this
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library does not by itself cause the resulting executable to be covered
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by the GNU General Public License. This exception does not however
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invalidate any other reasons why the executable file might be covered by
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the GNU General Public License.
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*/
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:- module(error,
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[ type_error/2, % +Type, +Term
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domain_error/2, % +Domain, +Term
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existence_error/2, % +Type, +Term
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permission_error/3, % +Action, +Type, +Term
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instantiation_error/1, % +Term
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representation_error/1, % +Reason
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must_be/2, % +Type, +Term
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is_of_type/2 % +Type, +Term
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]).
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:- if(current_prolog_flag(dialect, yap)).
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:- use_module(library(lists),[memberchk/2]).
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:- endif.
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/** <module> Error generating support
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This module provides predicates to simplify error generation and
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checking. It's implementation is based on a discussion on the SWI-Prolog
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mailinglist on best practices in error handling. The utility predicate
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must_be/2 provides simple run-time type validation. The *_error
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predicates are simple wrappers around throw/1 to simplify throwing the
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most common ISO error terms.
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@author Jan Wielemaker
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@author Richard O'Keefe
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@see library(debug) and library(prolog_stack).
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*/
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:- multifile
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has_type/2.
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%% type_error(+Type, +Term).
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%% domain_error(+Type, +Term).
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%% existence_error(+Type, +Term).
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%% permission_error(+Action, +Type, +Term).
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%% instantiation_error(+Term).
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%% representation_error(+Reason).
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%
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% Throw ISO compliant error messages.
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type_error(Type, Term) :-
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throw(error(type_error(Type, Term), _)).
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domain_error(Type, Term) :-
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throw(error(domain_error(Type, Term), _)).
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existence_error(Type, Term) :-
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throw(error(existence_error(Type, Term), _)).
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permission_error(Action, Type, Term) :-
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throw(error(permission_error(Action, Type, Term), _)).
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instantiation_error(_Term) :-
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throw(error(instantiation_error, _)).
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representation_error(Reason) :-
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throw(error(representation_error(Reason), _)).
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%% must_be(+Type, @Term) is det.
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%
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% True if Term satisfies the type constraints for Type. Defined
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% types are =atom=, =atomic=, =between=, =boolean=, =callable=,
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% =chars=, =codes=, =text=, =compound=, =constant=, =float=,
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% =integer=, =nonneg=, =positive_integer=, =negative_integer=,
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% =nonvar=, =number=, =oneof=, =list=, =list_or_partial_list=,
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% =symbol=, =var=, =rational= and =string=.
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%
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% Most of these types are defined by an arity-1 built-in predicate
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% of the same name. Below is a brief definition of the other
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% types.
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%
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% | boolean | one of =true= or =false= |
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% | chars | Proper list of 1-character atoms |
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% | codes | Proper list of Unicode character codes |
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% | text | One of =atom=, =string=, =chars= or =codes= |
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% | between(L,U) | Number between L and U (including L and U) |
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% | nonneg | Integer >= 0 |
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% | positive_integer | Integer > 0 |
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% | negative_integer | Integer < 0 |
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% | oneof(L) | Ground term that is member of L |
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% | list(Type) | Proper list with elements of Type |
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% | list_or_partial_list | A list or an open list (ending in a variable |
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%
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% @throws instantiation_error if Term is insufficiently
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% instantiated and type_error(Type, Term) if Term is not of Type.
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must_be(Type, X) :-
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( has_type(Type, X)
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-> true
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; is_not(Type, X)
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).
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%% is_not(+Type, @Term)
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%
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% Throws appropriate error. It is _known_ that Term is not of type
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% Type.
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%
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% @throws type_error(Type, Term)
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% @throws instantiation_error
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is_not(list, X) :- !,
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not_a_list(list, X).
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is_not(list(_), X) :- !,
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not_a_list(list, X).
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is_not(list_or_partial_list, X) :- !,
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type_error(list, X).
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is_not(chars, X) :- !,
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not_a_list(chars, X).
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is_not(codes, X) :- !,
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not_a_list(codes, X).
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is_not(var,_X) :- !,
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representation_error(variable).
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is_not(rational, X) :- !,
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not_a_rational(X).
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is_not(Type, X) :-
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( var(X)
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-> instantiation_error(X)
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; ground_type(Type), \+ ground(X)
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-> instantiation_error(X)
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; type_error(Type, X)
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).
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ground_type(ground).
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ground_type(oneof(_)).
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ground_type(stream).
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ground_type(text).
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ground_type(string).
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not_a_list(Type, X) :-
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'$skip_list'(_, X, Rest),
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( var(Rest)
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-> instantiation_error(X)
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; type_error(Type, X)
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).
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:- if(current_prolog_flag(dialect, yap)).
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% vsc: I hope it works like this
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'$skip_list'(_, Rest, Rest) :- var(Rest), !.
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'$skip_list'(_, [], _) :- !, fail.
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'$skip_list'(Anything, [_|More], Rest) :-
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'$skip_list'(Anything, [_|More], Rest).
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'$skip_list'(Anything, [_|More], Rest) :-
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'$skip_list'(Anything, More, Rest).
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'$skip_list'(Anything, Rest, Rest).
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:- endif.
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not_a_rational(X) :-
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( var(X)
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-> instantiation_error(X)
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; X = rdiv(N,D)
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-> must_be(integer, N), must_be(integer, D),
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type_error(rational,X)
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; type_error(rational,X)
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).
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%% is_of_type(+Type, @Term) is semidet.
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%
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% True if Term satisfies Type.
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is_of_type(Type, Term) :-
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has_type(Type, Term).
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%% has_type(+Type, @Term) is semidet.
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%
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% True if Term satisfies Type.
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has_type(impossible, _) :- instantiation_error(_).
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has_type(any, _).
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has_type(atom, X) :- atom(X).
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has_type(atomic, X) :- atomic(X).
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has_type(between(L,U), X) :- ( integer(L)
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-> integer(X), between(L,U,X)
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; number(X), X >= L, X =< U
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).
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has_type(boolean, X) :- (X==true;X==false), !.
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has_type(callable, X) :- callable(X).
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has_type(chars, X) :- chars(X).
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has_type(codes, X) :- codes(X).
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has_type(text, X) :- text(X).
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has_type(compound, X) :- compound(X).
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has_type(constant, X) :- atomic(X).
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has_type(float, X) :- float(X).
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has_type(ground, X) :- ground(X).
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has_type(integer, X) :- integer(X).
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has_type(nonneg, X) :- integer(X), X >= 0.
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has_type(positive_integer, X) :- integer(X), X > 0.
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has_type(negative_integer, X) :- integer(X), X < 0.
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has_type(nonvar, X) :- nonvar(X).
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has_type(number, X) :- number(X).
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has_type(oneof(L), X) :- ground(X), memberchk(X, L).
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has_type(proper_list, X) :- is_list(X).
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has_type(list, X) :- is_list(X).
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has_type(list_or_partial_list, X) :- is_list_or_partial_list(X).
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has_type(symbol, X) :- atom(X).
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has_type(var, X) :- var(X).
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has_type(rational, X) :- rational(X).
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has_type(string, X) :- string(X).
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has_type(stream, X) :- is_stream(X).
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has_type(list(Type), X) :- is_list(X), element_types(X, Type).
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chars(0) :- !, fail.
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chars([]).
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chars([H|T]) :-
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atom(H), atom_length(H, 1),
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chars(T).
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codes(x) :- !, fail.
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codes([]).
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codes([H|T]) :-
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integer(H), between(1, 0x10ffff, H),
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codes(T).
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text(X) :-
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( atom(X)
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; string(X)
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; chars(X)
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; codes(X)
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), !.
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element_types([], _).
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element_types([H|T], Type) :-
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must_be(Type, H),
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element_types(T, Type).
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is_list_or_partial_list(L0) :-
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'$skip_list'(_, L0,L),
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( var(L) -> true ; L == [] ).
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