% The next predicates are applicable only % to dynamic code /** @file preddyns.yap */ /** * @ingroup Database * @{ Next follow the main operations on dynamic predicates. */ /** @pred asserta(+ _C_) is iso Adds clause _C_ to the beginning of the program. If the predicate is undefined, it is declared dynamic (see dynamic/1). */ asserta(Clause) :- '$assert'(Clause, asserta, _). /** @pred assertz(+ _C_) is iso Adds clause _C_ to the end of the program. If the predicate is undefined, it is declared dynamic (see dynamic/1). Most Prolog systems only allow asserting clauses for dynamic predicates. This is also as specified in the ISO standard. YAP also allows asserting clauses for static predicates, under the restriction that the static predicate may not be live in the stacks. */ assertz(Clause) :- '$assert'(Clause, assertz, _). /** @pred assert(+ _C_) Same as assertz/1. Adds clause _C_ to the program. If the predicate is undefined, declare it as dynamic. New code should use assertz/1 for better portability. Most Prolog systems only allow asserting clauses for dynamic predicates. This is also as specified in the ISO standard. YAP allows asserting clauses for static predicates, as long as the predicate is not in use and the language flag is cprolog. Note that this feature is deprecated, if you want to assert clauses for static procedures you should use assert_static/1. */ assert(Clause) :- '$assert'(Clause, assertz, _). '$assert'(Clause, Where, R) :- '$yap_strip_clause'(Clause, _, _Clause0), '$expand_clause'(Clause,C0,C), '$$compile'(C, Where, C0, R). /** @pred asserta(+ _C_,- _R_) The same as `asserta(C)` but unifying _R_ with the database reference that identifies the new clause, in a one-to-one way. Note that `asserta/2` only works for dynamic predicates. If the predicate is undefined, it will automatically be declared dynamic. */ asserta(Clause, Ref) :- '$assert'(Clause, asserta, Ref). /** @pred assertz(+ _C_,- _R_) The same as `assertz(C)` but unifying _R_ with the database reference that identifies the new clause, in a one-to-one way. Note that `asserta/2` only works for dynamic predicates. If the predicate is undefined, it will automatically be declared dynamic. */ assertz(Clause, Ref) :- '$assert'(Clause, assertz, Ref). /** @pred assert(+ _C_,- _R_) The same as `assert(C)` ( (see Modifying the Database)) but unifies _R_ with the database reference that identifies the new clause, in a one-to-one way. Note that `asserta/2` only works for dynamic predicates. If the predicate is undefined, it will automatically be declared dynamic. */ assert(Clause, Ref) :- '$assert'(Clause, assertz, Ref). '$assertz_dynamic'(X, C, C0, Mod) :- (X/\4)=:=0, !, '$head_and_body'(C,H,B), '$assertat_d'(assertz,H,B,C0,Mod,_). '$assertz_dynamic'(X,C,C0,Mod) :- '$head_and_body'(C,H,B), functor(H,N,A), ('$check_if_reconsulted'(N,A) -> true ; (X/\8)=:=0 -> '$inform_as_reconsulted'(N,A), '$remove_all_d_clauses'(H,Mod) ; true ), '$assertat_d'(assertz,H,B,C0,Mod,_). '$remove_all_d_clauses'(H,M) :- '$is_multifile'(H, M), !, functor(H, Na, A), '$erase_all_mf_dynamic'(Na,A,M). '$remove_all_d_clauses'(H,M) :- '$recordedp'(M:H,_,R), erase(R), fail. '$remove_all_d_clauses'(_,_). '$erase_all_mf_dynamic'(Na,A,M) :- source_location( F , _), recorded('$multifile_dynamic'(_,_,_), '$mf'(Na,A,M,F,R), R1), erase(R1), erase(R), fail. '$erase_all_mf_dynamic'(_,_,_). '$assertat_d'(asserta,Head,Body,C0,Mod,R) :- !, '$compile_dynamic'((Head:-Body), asserta, C0, Mod, CR), ( get_value('$abol',true) -> '$predicate_flags'(Head,Mod,Fl,Fl), ( Fl /\ 0x20000000 =\= 0 -> '$check_multifile_pred'(Head,Mod,Fl) ; true ) ; true ), '$head_and_body'(C0, H0, B0), '$recordap'(Mod:Head,(H0 :- B0),R,CR), ( '$is_multifile'(Head, Mod) -> source_location(F, _), functor(H0, Na, Ar), recorda('$multifile_dynamic'(_,_,_), '$mf'(Na,Ar,Mod,F,R), _) ; true ). '$assertat_d'(assertz,Head,Body,C0,Mod,R) :- '$compile_dynamic'((Head:-Body), assertz, C0, Mod, CR), ( get_value('$abol',true) -> '$predicate_flags'(Head,Mod,Fl,Fl), ( Fl /\ 0x20000000 =\= 0 -> '$check_multifile_pred'(Head,Mod,Fl) ; true ) ; true ), '$head_and_body'(C0, H0, B0), '$recordzp'(Mod:Head,(H0 :- B0),R,CR), ( '$is_multifile'(H0, Mod) -> source_location(F, _), functor(H0, Na, Ar), recordz('$multifile_dynamic'(_,_,_), '$mf'(Na,Ar,Mod,F,R), _) ; true ). /** @pred retract(+ _C_) is iso Erases the first clause in the program that matches _C_. This predicate may also be used for the static predicates that have been compiled when the source mode was `on`. For more information on source/0 ( (see Setting the Compiler)). */ retract( C ) :- strip_module( C, M, C0), '$check_head_and_body'(M:C0,M1,H,B,retract(M:C)), '$predicate_flags'(H, M1, F, F), '$retract2'(F, H, M1, B,_). '$retract2'(F, H, M, B, R) :- F /\ 0x08000000 =:= 0x08000000, !, % '$is_log_updatable'(H, M), !, '$log_update_clause'(H,M,B,R), ( F /\ 0x20000000 =:= 0x20000000, recorded('$mf','$mf_clause'(_,_,_,_,R),MR), erase(MR), fail ; true), erase(R). '$retract2'(F, H, M, B, R) :- % '$is_dynamic'(H,M), !, F /\ 0x00002000 =:= 0x00002000, !, '$recordedp'(M:H,(H:-B),R), ( F /\ 0x20000000 =:= 0x20000000, recorded('$mf','$mf_clause'(_,_,_,_,MRef),MR), erase(MR), erase(MRef), fail ; true), erase(R). '$retract2'(_, H,M,_,_) :- '$undefined'(H,M), !, functor(H,Na,Ar), '$dynamic'(Na/Ar,M), fail. '$retract2'(_, H,M,B,_) :- functor(H,Na,Ar), \+ '$dynamic'(Na/Ar,M), '$do_error'(permission_error(modify,static_procedure,Na/Ar),retract(M:(H:-B))). /** @pred retract(+ _C_,- _R_) Erases from the program the clause _C_ whose database reference is _R_. The predicate must be dynamic. */ retract(M:C,R) :- !, '$yap_strip_module'( C, M, H0), '$retract'(H0, M, R). '$retract'(C, M0, R) :- db_reference(R), '$check_head_and_body'(M0:C,M,H,B,retract(C,R)), dynamic(H,M), !, instance(R,(H:-B)), erase(R). '$retract'(C,M0,R) :- '$check_head_and_body'(M0:C,M,H,B,retract(C,R)), var(R), !, '$retract2'(H, M, B, R). '$retract'(C,M,_) :- '$fetch_predicate_indicator_from_clause'(C, M, PI), \+ '$dynamic'(PI), '$do_error'(permission_error(modify,static_procedure,PI),retract(M:C)). '$fetch_predicate_indicator_from_clause'((C :- _), M:Na/Ar) :- !, '$yap_strip_module'(C, M, C1), functor(C1, Na, Ar). '$fetch_predicate_indicator_from_clause'(C, M:Na/Ar) :- '$yap_strip_module'(C, M, C1), functor(C1, Na, Ar). /** @pred retractall(+ _G_) is iso Retract all the clauses whose head matches the goal _G_. Goal _G_ must be a call to a dynamic predicate. */ retractall(M:V) :- !, '$retractall'(V,M). retractall(V) :- '$current_module'(M), '$retractall'(V,M). '$retractall'(V,M) :- var(V), !, '$do_error'(instantiation_error,retract(M:V)). '$retractall'(M:V,_) :- !, '$retractall'(V,M). '$retractall'(T,M) :- ( '$is_log_updatable'(T, M) -> ( '$is_multifile'(T, M) -> '$retractall_lu_mf'(T,M) ; '$retractall_lu'(T,M) ) ; \+ callable(T) -> '$do_error'(type_error(callable,T),retractall(T)) ; '$undefined'(T,M) -> functor(T,Na,Ar), '$dynamic'(Na/Ar,M), ! ; '$is_dynamic'(T,M) -> '$erase_all_clauses_for_dynamic'(T, M) ; functor(T,Na,Ar), '$do_error'(permission_error(modify,static_procedure,Na/Ar),retractall(T)) ). '$retractall_lu'(T,M) :- '$free_arguments'(T), !, ( '$purge_clauses'(T,M), fail ; true ). '$retractall_lu'(T,M) :- '$log_update_clause'(T,M,_,R), erase(R), fail. '$retractall_lu'(_,_). '$retractall_lu_mf'(T,M) :- '$log_update_clause'(T,M,_,R), ( recorded('$mf','$mf_clause'(_,_,_,_,R),MR), erase(MR), fail ; true), erase(R), fail. '$retractall_lu_mf'(_,_). '$erase_all_clauses_for_dynamic'(T, M) :- '$recordedp'(M:T,(T :- _),R), erase(R), fail. '$erase_all_clauses_for_dynamic'(T,M) :- '$recordedp'(M:T,_,_), fail. '$erase_all_clauses_for_dynamic'(_,_). /* support for abolish/1 */ '$abolishd'(T, M) :- '$is_multifile'(T,M), functor(T,Name,Arity), recorded('$mf','$mf_clause'(_,Name,Arity,M,Ref),R), erase(R), erase(Ref), fail. '$abolishd'(T, M) :- recorded('$import','$import'(_,M,_,T,_,_),R), erase(R), fail. '$abolishd'(T, M) :- '$purge_clauses'(T,M), fail. '$abolishd'(T, M) :- '$kill_dynamic'(T,M), fail. '$abolishd'(_, _). /** @pred dynamic_predicate(+ _P_,+ _Semantics_) Declares predicate _P_ or list of predicates [ _P1_,..., _Pn_] as a dynamic predicate following either `logical` or `immediate` semantics. */ dynamic_predicate(P,Sem) :- '$bad_if_is_semantics'(Sem, dynamic(P,Sem)). dynamic_predicate(P,Sem) :- '$log_upd'(OldSem), ( Sem = logical -> '$switch_log_upd'(1) ; '$switch_log_upd'(0) ), '$current_module'(M), '$dynamic'(P, M), '$switch_log_upd'(OldSem). '$bad_if_is_semantics'(Sem, Goal) :- var(Sem), !, '$do_error'(instantiation_error,Goal). '$bad_if_is_semantics'(Sem, Goal) :- Sem \= immediate, Sem \= logical, !, '$do_error'(domain_error(semantics_indicator,Sem),Goal).