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si.pl
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si.pl
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/** Safe type tests.
"si" stands for "sufficiently instantiated". It can also be read as
"safe inference", so possibly also other predicates are candidates
for this library.
A safe type test:
- throws an *instantiation error* if the argument is
not sufficiently instantiated to make a sound decision
- *succeeds* if the argument is of the specified type
- *fails* otherwise.
For instance, `atom_si(A)` yields an *instantiation error* if `A` is a
variable. This is logically sound, since in that case the argument
is not sufficiently instantiated to make any decision.
The definitions are taken from [Safer type tests in Prolog](https://stackoverflow.com/questions/27306453/safer-type-tests-in-prolog).
Examples:
```
?- chars_si(Cs).
error(instantiation_error,list_si/1).
?- chars_si([h|Cs]).
error(instantiation_error,list_si/1).
?- chars_si("hello").
true.
?- chars_si(hello).
false.
```
*/
:- module(si, [atom_si/1,
integer_si/1,
atomic_si/1,
list_si/1,
character_si/1,
term_si/1,
chars_si/1,
dif_si/2,
when_si/2]).
:- use_module(library(lists)).
atom_si(A) :-
functor(A, _, 0), % for the instantiation error
atom(A).
integer_si(I) :-
functor(I, _, 0),
integer(I).
atomic_si(AC) :-
functor(AC,_,0).
% list_si(L) :-
% \+ \+ length(L, _),
% sort(L, _).
list_si(L0) :-
'$skip_max_list'(_,_, L0,L),
( nonvar(L) -> L = []
; throw(error(instantiation_error, list_si/1))
).
character_si(Ch) :-
functor(Ch,Ch,0),
atom(Ch),
atom_length(Ch,1).
term_si(Term) :-
( ground(Term) -> acyclic_term(Term)
; throw(error(instantiation_error, term_si/1))
).
chars_si(Chs0) :-
'$skip_max_list'(_,_, Chs0,Chs),
( nonvar(Chs) -> Chs == [] ; true ), % fails for infinite lists too
failnochars(Chs0, Uninstantiated),
( nonvar(Uninstantiated)
-> throw(error(instantiation_error, chars_si/1))
; true
).
failnochars(Chs0, U) :-
( var(Chs0) -> U = true
; Chs0 == [] -> true
; Chs0 = [Ch|Chs1],
( nonvar(Ch) -> atom(Ch), atom_length(Ch,1)
; U = true
),
failnochars(Chs1, U)
).
dif_si(X, Y) :-
X \== Y,
( X \= Y -> true
; throw(error(instantiation_error,dif_si/2))
).
:- meta_predicate(when_si(+, 0)).
%% when_si(Condition, Goal).
%
% Executes Goal when Condition becomes true. Throws an instantiation error if
% it can't decide.
when_si(Condition, Goal) :-
% Taken from https://stackoverflow.com/a/40449516
( when_condition_si(Condition) ->
( Condition ->
Goal
; throw(error(instantiation_error,when_si/2))
)
; throw(error(domain_error(when_condition_si, Condition),_))
).
when_condition_si(Cond) :-
var(Cond), !, throw(error(instantiation_error,when_condition_si/2)).
when_condition_si(ground(_)).
when_condition_si(nonvar(_)).
when_condition_si((A, B)) :-
when_condition_si(A),
when_condition_si(B).
when_condition_si((A ; B)) :-
when_condition_si(A),
when_condition_si(B).