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yap-6.3/library/logtalk/logtalk.pl
pmoura 9fc2c47d53 Logtalk 2.30.2 files.
git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@1908 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
2007-06-24 13:27:35 +00:00

12625 lines
377 KiB
Prolog

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% Logtalk - Open source object-oriented logic programming language
% Release 2.30.2
%
% Copyright (c) 1998-2007 Paulo Moura. All Rights Reserved.
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% operator declarations
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% message sending operators
:- op(600, xfy, ::). % send to object
:- op(600, fy, ::). % send to self
:- op(600, fy, ^^). % "super" call (calls an overriden, inherited method definition)
% mode operators
:- op(200, fy, +). % input argument (instantiated)
:- op(200, fy, ?). % input/output argument
:- op(200, fy, @). % input argument (not modified by the call)
:- op(200, fy, -). % output argument (not instantiated)
% bitwise left-shift operator (used as a predicate for unit test context-switching)
:- op(400, yfx, <<).
% category predicate direct call operator
:- op(600, fy, :).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% runtime directives (bookkeeping tables)
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% tables of defined events and monitors
:- dynamic('$lgt_before_'/5). % '$lgt_before_'(Obj, Msg, Sender, Monitor, Call)
:- dynamic('$lgt_after_'/5). % '$lgt_after_'(Obj, Msg, Sender, Monitor, Call)
% tables of loaded entities and respective relationships
:- dynamic('$lgt_current_protocol_'/3). % '$lgt_current_protocol_'(Ptc, Prefix, Type)
:- dynamic('$lgt_current_category_'/4). % '$lgt_current_category_'(Ctg, Prefix, Type, Synchronized)
:- dynamic('$lgt_current_object_'/8). % '$lgt_current_object_'(Obj, Prefix, Dcl, Def, Super, Type, Synchronized, Threaded)
:- dynamic('$lgt_implements_protocol_'/3). % '$lgt_implements_protocol_'(ObjOrCtg, Ptc, Scope)
:- dynamic('$lgt_imports_category_'/3). % '$lgt_imports_category_'(ObjOrCtg, Ctg, Scope)
:- dynamic('$lgt_instantiates_class_'/3). % '$lgt_instantiates_class_'(Instance, Class, Scope)
:- dynamic('$lgt_specializes_class_'/3). % '$lgt_specializes_class_'(Class, Superclass, Scope)
:- dynamic('$lgt_extends_protocol_'/3). % '$lgt_extends_protocol_'(Ptc1, Ptc2, Scope)
:- dynamic('$lgt_extends_object_'/3). % '$lgt_extends_object_'(Prototype, Parent, Scope)
% table of loaded files
:- dynamic('$lgt_loaded_file_'/2). % '$lgt_loaded_file_'(File, Directory)
% debugger status and tables
:- dynamic('$lgt_debugging_'/1). % '$lgt_debugging_'(Entity)
:- dynamic('$lgt_dbg_debugging_'/0). % '$lgt_dbg_debugging_'
:- dynamic('$lgt_dbg_tracing_'/0). % '$lgt_dbg_tracing_'
:- dynamic('$lgt_dbg_skipping_'/0). % '$lgt_dbg_skipping_'
:- dynamic('$lgt_dbg_spying_'/2). % '$lgt_dbg_spying_'(Functor, Arity)
:- dynamic('$lgt_dbg_spying_'/4). % '$lgt_dbg_spying_'(Sender, This, Self, Goal)
:- dynamic('$lgt_dbg_leashing_'/1). % '$lgt_dbg_leashing_'(Port)
% runtime flags
:- dynamic('$lgt_current_flag_'/2). % '$lgt_current_flag_'(Option, Value)
% static binding caches
:- dynamic('$lgt_static_binding_entity_'/1). % '$lgt_static_binding_entity_'(Entity)
:- dynamic('$lgt_obj_static_binding_cache_'/4). % '$lgt_obj_static_binding_cache_'(Obj, Pred, Sender, Call)
:- dynamic('$lgt_ctg_static_binding_cache_'/6). % '$lgt_ctg_static_binding_cache_'(Ctg, Pred, Sender, This, Self, Call)
% lookup caches for messages to an object, messages to self, and super calls
:- dynamic('$lgt_obj_lookup_cache_'/4). % '$lgt_obj_lookup_cache_'(Obj, Pred, Sender, Call)
:- dynamic('$lgt_self_lookup_cache_'/4). % '$lgt_self_lookup_cache_'(Obj, Pred, Sender, Call)
:- dynamic('$lgt_super_lookup_cache_'/5). % '$lgt_super_lookup_cache_'(Self, Pred, This, Sender, Call)
% lookup cache for asserting and retracting dynamic facts
:- dynamic('$lgt_db_lookup_cache_'/5). % '$lgt_db_lookup_cache_'(Obj, Pred, Sender, Call, UpdateGoal)
% table of library paths
:- dynamic(logtalk_library_path/2). % logtalk_library_path(Library, Path)
% compiler hook goal:
:- dynamic('$lgt_hook_goal_'/2). % '$lgt_hook_goal_'(Term, Terms)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% pre-processor directives (used for source file compilation)
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
:- dynamic('$lgt_pp_compiler_flag_'/2). % '$lgt_pp_compiler_flag_'(Option, Value)
:- dynamic('$lgt_pp_dcl_'/1). % '$lgt_pp_dcl_'(Clause)
:- dynamic('$lgt_pp_ddcl_'/1). % '$lgt_pp_ddcl_'(Clause)
:- dynamic('$lgt_pp_def_'/1). % '$lgt_pp_def_'(Clause)
:- dynamic('$lgt_pp_ddef_'/1). % '$lgt_pp_ddef_'(Clause)
:- dynamic('$lgt_pp_super_'/1). % '$lgt_pp_super_'(Clause)
:- dynamic('$lgt_pp_synchronized_'/2). % '$lgt_pp_synchronized_'(Pred, Mutex)
:- dynamic('$lgt_pp_pred_mutex_count_'/1). % '$lgt_pp_pred_mutex_count_'(Count)
:- dynamic('$lgt_pp_dynamic_'/2). % '$lgt_pp_dynamic_'(Functor, Arity)
:- dynamic('$lgt_pp_discontiguous_'/2). % '$lgt_pp_discontiguous_'(Functor, Arity)
:- dynamic('$lgt_pp_mode_'/2). % '$lgt_pp_mode_'(Mode, Determinism)
:- dynamic('$lgt_pp_public_'/2). % '$lgt_pp_public_'(Functor, Arity)
:- dynamic('$lgt_pp_protected_'/2). % '$lgt_pp_protected_'(Functor, Arity)
:- dynamic('$lgt_pp_private_'/2). % '$lgt_pp_private_'(Functor, Arity)
:- dynamic('$lgt_pp_meta_predicate_'/1). % '$lgt_pp_meta_predicate_'(Pred)
:- dynamic('$lgt_pp_alias_'/3). % '$lgt_pp_alias_'(Entity, Pred, Alias)
:- dynamic('$lgt_pp_non_terminal_'/3). % '$lgt_pp_non_terminal_'(Functor, Args, Arity)
:- dynamic('$lgt_pp_object_'/11). % '$lgt_pp_object_'(Obj, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm, Mode)
:- dynamic('$lgt_pp_category_'/6). % '$lgt_pp_category_'(Ctg, Prefix, Dcl, Def, Rnm, Mode)
:- dynamic('$lgt_pp_protocol_'/5). % '$lgt_pp_protocol_'(Ptc, Prefix, Dcl, Rnm, Mode)
:- dynamic('$lgt_pp_module_'/1). % '$lgt_pp_module_'(Module)
:- dynamic('$lgt_pp_uses_'/1). % '$lgt_pp_uses_'(Obj)
:- dynamic('$lgt_pp_uses_'/3). % '$lgt_pp_uses_'(Obj, Predicate, Alias)
:- dynamic('$lgt_pp_calls_'/1). % '$lgt_pp_calls_'(Entity)
:- dynamic('$lgt_pp_info_'/1). % '$lgt_pp_info_'(List)
:- dynamic('$lgt_pp_info_'/2). % '$lgt_pp_info_'(Functor/Arity, List) or '$lgt_pp_info_'(Functor//Args, List)
:- dynamic('$lgt_pp_implemented_protocol_'/4). % '$lgt_pp_implemented_protocol_'(Ptc, Prefix, Dcl, Scope)
:- dynamic('$lgt_pp_imported_category_'/5). % '$lgt_pp_imported_category_'(Ctg, Prefix, Dcl, Def, Scope)
:- dynamic('$lgt_pp_extended_object_'/10). % '$lgt_pp_extended_object_'(Parent, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Scope)
:- dynamic('$lgt_pp_instantiated_class_'/10). % '$lgt_pp_instantiated_class_'(Class, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Scope)
:- dynamic('$lgt_pp_specialized_class_'/10). % '$lgt_pp_specialized_class_'(Superclass, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Scope)
:- dynamic('$lgt_pp_extended_protocol_'/4). % '$lgt_pp_extended_protocol_'(Ptc, Prefix, Dcl, Scope)
:- dynamic('$lgt_pp_file_init_'/1). % '$lgt_pp_file_init_'(Goal)
:- dynamic('$lgt_pp_entity_init_'/3). % '$lgt_pp_entity_init_'(Type, Entity, Goal)
:- dynamic('$lgt_pp_entity_init_'/1). % '$lgt_pp_entity_init_'(Goal)
:- dynamic('$lgt_pp_fentity_init_'/1). % '$lgt_pp_fentity_init_'(Goal)
:- dynamic('$lgt_pp_redefined_built_in_'/5). % '$lgt_pp_redefined_built_in_'(Head, Sender, This, Self, THead)
:- dynamic('$lgt_pp_directive_'/1). % '$lgt_pp_directive_'(Dir)
:- dynamic('$lgt_pp_ppclause_'/1). % '$lgt_pp_ppclause_'(Clause)
:- dynamic('$lgt_pp_rclause_'/1). % '$lgt_pp_rclause_'(Clause)
:- dynamic('$lgt_pp_eclause_'/1). % '$lgt_pp_eclause_'(Clause)
:- dynamic('$lgt_pp_feclause_'/1). % '$lgt_pp_feclause_'(Clause)
:- dynamic('$lgt_pp_defs_pred_'/2). % '$lgt_pp_defs_pred_'(Functor, Arity)
:- dynamic('$lgt_pp_calls_pred_'/4). % '$lgt_pp_calls_pred_'(Functor, Arity, TFunctor, TArity)
:- dynamic('$lgt_non_portable_call_'/2). % '$lgt_non_portable_call_'(Functor, Arity)
:- dynamic('$lgt_pp_defs_nt_'/2). % '$lgt_pp_defs_nt_'(Functor, Arity)
:- dynamic('$lgt_pp_calls_nt_'/2). % '$lgt_pp_calls_nt_'(Functor, Arity)
:- dynamic('$lgt_pp_referenced_object_'/1). % '$lgt_pp_referenced_object_'(Object)
:- dynamic('$lgt_pp_referenced_protocol_'/1). % '$lgt_pp_referenced_protocol_'(Protocol)
:- dynamic('$lgt_pp_referenced_category_'/1). % '$lgt_pp_referenced_category_'(Category)
:- dynamic('$lgt_pp_global_op_'/3). % '$lgt_pp_global_op_'(Priority, Specifier, Operator)
:- dynamic('$lgt_pp_file_op_'/3). % '$lgt_pp_file_op_'(Priority, Specifier, Operator)
:- dynamic('$lgt_pp_entity_op_'/3). % '$lgt_pp_entity_op_'(Priority, Specifier, Operator)
:- dynamic('$lgt_pp_warnings_top_argument_'/1). % '$lgt_pp_warnings_top_argument_'(Term)
:- dynamic('$lgt_pp_comp_warnings_counter_'/1). % '$lgt_pp_comp_warnings_counter_'(Counter)
:- dynamic('$lgt_pp_load_warnings_counter_'/1). % '$lgt_pp_load_warnings_counter_'(Counter)
:- dynamic('$lgt_pp_entity_warnings_flag_'/0). % '$lgt_pp_entity_warnings_flag_'
:- dynamic('$lgt_pp_hook_goal_'/2). % '$lgt_pp_hook_goal_'(Term, Terms)
:- dynamic('$lgt_pp_threaded_'/0). % '$lgt_pp_threaded_'
:- dynamic('$lgt_pp_synchronized_'/0). % '$lgt_pp_synchronized_'
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% top-level predicates for message sending and context switching calls
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Obj::Pred :-
catch('$lgt_tr_msg'(Pred, Obj, Call, user), Error, '$lgt_runtime_error_handler'(error(Error, Obj::Pred, user))),
( '$lgt_dbg_debugging_', '$lgt_debugging_'(Obj) ->
'$lgt_ctx_ctx'(Ctx, _, user, user, Obj, '$lgt_bio_user_0_', [], _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
catch('$lgt_dbg_goal'(Obj::Pred, Call, DbgCtx), Error, '$lgt_runtime_error_handler'(Error))
; catch(Call, Error, '$lgt_runtime_error_handler'(Error))
).
Obj<<Pred :-
'$lgt_ctx_ctx'(Ctx, _, user, user, Obj, '$lgt_bio_user_0_', [], _),
catch('$lgt_tr_body'(Obj<<Pred, TPred, DPred, Ctx), Error, '$lgt_runtime_error_handler'(error(Error, Obj<<Pred, user))),
( '$lgt_dbg_debugging_', '$lgt_debugging_'(Obj) ->
catch(DPred, Error, '$lgt_runtime_error_handler'(Error))
; catch(TPred, Error, '$lgt_runtime_error_handler'(Error))
).
% '$lgt_runtime_error_handler'(@term)
%
% top-level runtime error handler
'$lgt_runtime_error_handler'(error(existence_error(goal_thread, '$lgt_send_to_object_ne_nv'(Self, Goal, Sender)), _)) :-
( Self == user ->
throw(error(existence_error(goal_thread, Goal), Sender))
; throw(error(existence_error(goal_thread, Self::Goal), Sender))
).
'$lgt_runtime_error_handler'(error(existence_error(goal_thread, '$lgt_send_to_object_nv'(Self, Goal, Sender)), _)) :-
( Self == user ->
throw(error(existence_error(goal_thread, Goal), Sender))
; throw(error(existence_error(goal_thread, Self::Goal), Sender))
).
'$lgt_runtime_error_handler'(error(existence_error(goal_thread, TGoal), Sender)) :-
functor(TGoal, TFunctor, TArity),
TGoal =.. [_| TArgs],
'$lgt_reverse_predicate_functor'(TFunctor, TArity, _, _, Functor, Arity),
'$lgt_reverse_predicate_args'(Arity, TArgs, Args, _, _, Self),
Goal =.. [Functor| Args],
( Self == user ->
throw(error(existence_error(goal_thread, Goal), Sender))
; throw(error(existence_error(goal_thread, Self::Goal), Sender))
).
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor/8), _)) :-
once((atom_concat(ObjArity, '__idcl', TFunctor); atom_concat(ObjArity, '__dcl', TFunctor))),
atom_chars(ObjArity, ObjArityChars),
'$lgt_append'(FunctorChars, ['_', ArityChar| ArityChars], ObjArityChars),
catch(number_chars(Arity, [ArityChar| ArityChars]), _, fail),
atom_chars(Functor, FunctorChars),
functor(Obj, Functor, Arity),
( '$lgt_instantiates_class_'(_, Obj, _)
; '$lgt_specializes_class_'(_, Obj, _)
; '$lgt_extends_object_'(_, Obj, _)
),
\+ '$lgt_current_object_'(Obj, _, _, _, _, _, _, _),
throw(error(existence_error(object, Obj), _, _)).
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor/7), _)) :-
atom_concat(CtgOrPtc, '_0__dcl', TFunctor),
( '$lgt_implements_protocol_'(_, CtgOrPtc, _), \+ '$lgt_current_protocol_'(CtgOrPtc, _, _) ->
throw(error(existence_error(protocol, CtgOrPtc), _, _))
; '$lgt_extends_protocol_'(_, CtgOrPtc, _), \+ '$lgt_current_protocol_'(CtgOrPtc, _, _) ->
throw(error(existence_error(protocol, CtgOrPtc), _, _))
; '$lgt_imports_category_'(_, CtgOrPtc, _), \+ '$lgt_current_category_'(CtgOrPtc, _, _, _) ->
throw(error(existence_error(category, CtgOrPtc), _, _))
).
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor1/TArity1), context(':'(_, TFunctor2/TArity2), _))) :-
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor1/TArity1), context(TFunctor2/TArity2, _))).
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor1/TArity1), context(TFunctor2/TArity2, _))) :- % SWI-Prolog
'$lgt_reverse_predicate_functor'(TFunctor1, TArity1, Entity, Type, Functor1, Arity1),
'$lgt_reverse_predicate_functor'(TFunctor2, TArity2, Entity, Type, Functor2, Arity2),
throw(error(existence_error(procedure, Functor1/Arity1), context(Type, Entity, Functor2/Arity2))).
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor1/TArity1), TFunctor2/TArity2)) :- % GNU Prolog and B-Prolog
'$lgt_reverse_predicate_functor'(TFunctor1, TArity1, Entity, Type, Functor1, Arity1),
'$lgt_reverse_predicate_functor'(TFunctor2, TArity2, Entity, Type, Functor2, Arity2),
throw(error(existence_error(procedure, Functor1/Arity1), context(Type, Entity, Functor2/Arity2))).
'$lgt_runtime_error_handler'(error(existence_error(procedure, ModTFunctor/TArity), _)) :- % CIAO
atom_concat('user:', TFunctor, ModTFunctor),
'$lgt_reverse_predicate_functor'(TFunctor, TArity, Entity, Type, Functor, Arity),
throw(error(existence_error(procedure, Functor/Arity), context(Type, Entity, _))).
'$lgt_runtime_error_handler'(error(existence_error(procedure, TFunctor/TArity), _)) :- % K-Prolog and YAP 5.1 or later
'$lgt_reverse_predicate_functor'(TFunctor, TArity, Entity, Type, Functor, Arity),
throw(error(existence_error(procedure, Functor/Arity), context(Type, Entity, _))).
'$lgt_runtime_error_handler'(error(existence_error(procedure, ':'(_, TFunctor/TArity)), _)) :-
'$lgt_reverse_predicate_functor'(TFunctor, TArity, Entity, Type, Functor, Arity),
throw(error(existence_error(procedure, Functor/Arity), context(Type, Entity, _))).
'$lgt_runtime_error_handler'(error(existence_error(_, _, procedure, ':'(_, TFunctor/TArity), _), _)) :- % Quintus, SICStus Prolog
'$lgt_reverse_predicate_functor'(TFunctor, TArity, Entity, Type, Functor, Arity),
throw(error(existence_error(procedure, Functor/Arity), context(Type, Entity, _))).
'$lgt_runtime_error_handler'(error(existence_error(procedure, ':'(_, TFunctor/TArity)), _, _)) :- % XSB
'$lgt_reverse_predicate_functor'(TFunctor, TArity, Entity, Type, Functor, Arity),
throw(error(existence_error(procedure, Functor/Arity), context(Type, Entity, _))).
'$lgt_runtime_error_handler'(error(logtalk_debugger_aborted)) :-
nl, write(' Debugging session aborted by user. Debugger still on.'), nl,
!,
fail.
'$lgt_runtime_error_handler'(error(Error, user::Goal, user)) :-
throw(error(Error, Goal)).
'$lgt_runtime_error_handler'(Error) :-
throw(Error).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% built-in predicates
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% current_object(?object_identifier)
current_object(Obj) :-
nonvar(Obj),
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), current_object(Obj))).
current_object(Obj) :-
'$lgt_current_object_'(Obj, _, _, _, _, _, _, _).
% current_protocol(?protocol_identifier)
current_protocol(Ptc) :-
nonvar(Ptc),
\+ atom(Ptc),
throw(error(type_error(protocol_identifier, Ptc), current_protocol(Ptc))).
current_protocol(Ptc) :-
'$lgt_current_protocol_'(Ptc, _, _).
% current_category(?category_identifier)
current_category(Ctg) :-
nonvar(Ctg),
\+ atom(Ctg),
throw(error(type_error(category_identifier, Ctg), current_category(Ctg))).
current_category(Ctg) :-
'$lgt_current_category_'(Ctg, _, _, _).
% object_property(?object_identifier, ?object_property)
object_property(Obj, Prop) :-
nonvar(Obj),
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), object_property(Obj, Prop))).
object_property(Obj, Prop) :-
nonvar(Prop),
\+ '$lgt_valid_object_property'(Prop),
throw(error(domain_error(object_property, Prop), object_property(Obj, Prop))).
object_property(user, built_in).
object_property(debugger, built_in).
object_property(logtalk, built_in).
object_property(Obj, Prop) :-
'$lgt_current_object_'(Obj, _, _, _, _, Prop, _, _). % static/dynamic property
object_property(Obj, synchronized) :-
'$lgt_current_object_'(Obj, _, _, _, _, _, yes, _).
object_property(Obj, threaded) :-
'$lgt_current_object_'(Obj, _, _, _, _, _, _, yes).
% category_property(?category_identifier, ?category_property)
category_property(Ctg, Prop) :-
nonvar(Ctg),
\+ atom(Ctg),
throw(error(type_error(category_identifier, Ctg), category_property(Ctg, Prop))).
category_property(Ctg, Prop) :-
nonvar(Prop),
\+ '$lgt_valid_category_property'(Prop),
throw(error(domain_error(category_property, Prop), category_property(Ctg, Prop))).
category_property(Ctg, Prop) :- % static/dynamic property
'$lgt_current_category_'(Ctg, _, Prop, _).
category_property(Ctg, synchronized) :-
'$lgt_current_category_'(Ctg, _, _, yes).
% protocol_property(?protocol_identifier, ?protocol_property)
protocol_property(Ptc, Prop) :-
nonvar(Ptc),
\+ atom(Ptc),
throw(error(type_error(protocol_identifier, Ptc), protocol_property(Ptc, Prop))).
protocol_property(Ptc, Prop) :-
nonvar(Prop),
\+ '$lgt_valid_protocol_property'(Prop),
throw(error(domain_error(protocol_property, Prop), protocol_property(Ptc, Prop))).
protocol_property(Ptc, Prop) :- % static/dynamic property
'$lgt_current_protocol_'(Ptc, _, Prop).
% create_object(+object_identifier, +list, +list, +list)
create_object(Obj, Rels, Dirs, Clauses) :-
(var(Obj); var(Rels); var(Dirs); var(Clauses)),
throw(error(instantiation_error, create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
'$lgt_current_object_'(Obj, _, _, _, _, _, _, _),
throw(error(permission_error(modify, object, Obj), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
'$lgt_current_category_'(Obj, _, _, _),
throw(error(permission_error(modify, category, Obj), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
'$lgt_current_protocol_'(Obj, _, _),
throw(error(permission_error(modify, protocol, Obj), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
\+ '$lgt_is_proper_list'(Rels),
throw(error(type_error(list, Rels), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
\+ '$lgt_is_proper_list'(Dirs),
throw(error(type_error(list, Dirs), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
\+ '$lgt_is_proper_list'(Clauses),
throw(error(type_error(list, Clauses), create_object(Obj, Rels, Dirs, Clauses))).
create_object(Obj, Rels, Dirs, Clauses) :-
'$lgt_clean_pp_clauses',
'$lgt_tr_object_id'(Obj, (dynamic)),
'$lgt_tr_object_relations'(Rels, Obj),
'$lgt_tr_directives'(Dirs, user_input, _),
'$lgt_tr_clauses'(Clauses, user_input),
'$lgt_fix_synchronized_preds',
'$lgt_fix_pred_calls',
'$lgt_gen_object_clauses',
'$lgt_gen_object_directives',
'$lgt_assert_tr_entity',
'$lgt_clean_pp_clauses'.
% create_category(+category_identifier, +list, +list, +list)
create_category(Ctg, Rels, Dirs, Clauses) :-
(var(Ctg); var(Rels); var(Dirs); var(Clauses)),
throw(error(instantiation_error, create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
\+ atom(Ctg),
throw(error(type_error(category_identifier, Ctg), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
'$lgt_current_category_'(Ctg, _, _, _),
throw(error(permission_error(modify, category, Ctg), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
'$lgt_current_object_'(Ctg, _, _, _, _, _, _, _),
throw(error(permission_error(modify, object, Ctg), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
'$lgt_current_protocol_'(Ctg, _, _),
throw(error(permission_error(modify, protocol, Ctg), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
\+ '$lgt_is_proper_list'(Rels),
throw(error(type_error(list, Rels), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
\+ '$lgt_is_proper_list'(Dirs),
throw(error(type_error(list, Dirs), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
\+ '$lgt_is_proper_list'(Clauses),
throw(error(type_error(list, Clauses), create_category(Ctg, Rels, Dirs, Clauses))).
create_category(Ctg, Rels, Dirs, Clauses) :-
'$lgt_clean_pp_clauses',
'$lgt_tr_category_id'(Ctg, (dynamic)),
'$lgt_tr_category_relations'(Rels, Ctg),
'$lgt_tr_directives'(Dirs, user_input, _),
'$lgt_tr_clauses'(Clauses, user_input),
'$lgt_fix_synchronized_preds',
'$lgt_fix_pred_calls',
'$lgt_gen_category_clauses',
'$lgt_gen_category_directives',
'$lgt_assert_tr_entity',
'$lgt_clean_pp_clauses'.
% create_protocol(+protocol_identifier, +list, +list)
create_protocol(Ptc, Rels, Dirs) :-
(var(Ptc); var(Rels); var(Dirs)),
throw(error(instantiation_error, create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
\+ atom(Ptc),
throw(error(type_error(protocol_identifier, Ptc), create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
'$lgt_current_protocol_'(Ptc, _, _),
throw(error(permission_error(modify, protocol, Ptc), create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
'$lgt_current_object_'(Ptc, _, _, _, _, _, _, _),
throw(error(permission_error(modify, object, Ptc), create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
'$lgt_current_category_'(Ptc, _, _, _),
throw(error(permission_error(modify, category, Ptc), create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
\+ '$lgt_is_proper_list'(Rels),
throw(error(type_error(list, Rels), create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
\+ '$lgt_is_proper_list'(Dirs),
throw(error(type_error(list, Dirs), create_protocol(Ptc, Rels, Dirs))).
create_protocol(Ptc, Rels, Dirs) :-
'$lgt_clean_pp_clauses',
'$lgt_tr_protocol_id'(Ptc, (dynamic)),
'$lgt_tr_protocol_relations'(Rels, Ptc),
'$lgt_tr_directives'(Dirs, user_input, _),
'$lgt_gen_protocol_clauses',
'$lgt_gen_protocol_directives',
'$lgt_assert_tr_entity',
'$lgt_clean_pp_clauses'.
% abolish_object(@object_identifier)
abolish_object(Obj) :-
var(Obj),
throw(error(instantiation_error, abolish_object(Obj))).
abolish_object(Obj) :-
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), abolish_object(Obj))).
abolish_object(Obj) :-
( '$lgt_current_object_'(Obj, Prefix, _, _, _, Type, _, _) ->
( Type == (dynamic) ->
call_with_args(Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm),
'$lgt_abolish_entity_predicates'(Def),
'$lgt_abolish_entity_predicates'(DDef),
abolish(Dcl/6),
abolish(Dcl/8),
abolish(Def/5),
abolish(Def/6),
abolish(Super/6),
abolish(IDcl/8),
abolish(IDef/6),
abolish(DDcl/2),
abolish(DDef/5),
abolish(Rnm/3),
abolish(Prefix/8),
retractall('$lgt_current_object_'(Obj, _, _, _, _, _, _, _)),
retractall('$lgt_extends_object_'(Obj, _, _)),
retractall('$lgt_instantiates_class_'(Obj, _, _)),
retractall('$lgt_specializes_class_'(Obj, _, _)),
retractall('$lgt_implements_protocol_'(Obj, _, _)),
retractall('$lgt_imports_category_'(Obj, _, _)),
retractall('$lgt_debugging_'(Obj)),
'$lgt_clean_lookup_caches'
; throw(error(permission_error(modify, static_object, Obj), abolish_object(Obj)))
)
; throw(error(existence_error(object, Obj), abolish_object(Obj)))
).
% abolish_category(@category_identifier)
abolish_category(Ctg) :-
var(Ctg),
throw(error(instantiation_error, abolish_category(Ctg))).
abolish_category(Ctg) :-
\+ atom(Ctg),
throw(error(type_error(category_identifier, Ctg), abolish_category(Ctg))).
abolish_category(Ctg) :-
( '$lgt_current_category_'(Ctg, Prefix, Type, _) ->
( Type == (dynamic) ->
call_with_args(Prefix, Dcl, Def, Rnm),
'$lgt_abolish_entity_predicates'(Def),
abolish(Dcl/6),
abolish(Dcl/7),
abolish(Def/5),
abolish(Rnm/3),
abolish(Prefix/3),
retractall('$lgt_current_category_'(Ctg, _, _, _)),
retractall('$lgt_imports_category_'(Ctg, _, _)),
retractall('$lgt_implements_protocol_'(Ctg, _, _)),
'$lgt_clean_lookup_caches'
; throw(error(permission_error(modify, static_category, Ctg), abolish_category(Ctg)))
)
; throw(error(existence_error(category, Ctg), abolish_category(Ctg)))
).
% abolish_protocol(@protocol_identifier)
abolish_protocol(Ptc) :-
var(Ptc),
throw(error(instantiation_error, abolish_protocol(Ptc))).
abolish_protocol(Ptc) :-
\+ atom(Ptc),
throw(error(type_error(protocol_identifier, Ptc), abolish_protocol(Ptc))).
abolish_protocol(Ptc) :-
( '$lgt_current_protocol_'(Ptc, Prefix, Type) ->
( Type == (dynamic) ->
call_with_args(Prefix, Dcl, Rnm),
abolish(Dcl/6),
abolish(Dcl/7),
abolish(Rnm/3),
abolish(Prefix/2),
retractall('$lgt_current_protocol_'(Ptc, _, _)),
retractall('$lgt_extends_protocol_'(Ptc, _, _)),
'$lgt_clean_lookup_caches'
; throw(error(permission_error(modify, static_protocol, Ptc), abolish_protocol(Ptc)))
)
; throw(error(existence_error(protocol, Ptc), abolish_protocol(Ptc)))
).
% '$lgt_abolish_entity_predicates'(+atom)
'$lgt_abolish_entity_predicates'(Def) :-
call_with_args(Def, _, _, _, _, Pred),
functor(Pred, Functor, Arity),
abolish(Functor/Arity),
fail.
'$lgt_abolish_entity_predicates'(_).
% implements_protocol(?object_identifier, ?protocol_identifier)
% implements_protocol(?category_identifier, ?protocol_identifier)
implements_protocol(ObjOrCtg, Ptc) :-
catch(
implements_protocol(ObjOrCtg, Ptc, _),
error(Error, _),
throw(error(Error, implements_protocol(ObjOrCtg, Ptc)))).
% implements_protocol(?object_identifier, ?protocol_identifier, ?atom)
% implements_protocol(?category_identifier, ?protocol_identifier, ?atom)
implements_protocol(ObjOrCtg, Ptc, Scope) :-
nonvar(ObjOrCtg),
\+ callable(ObjOrCtg),
throw(error(type_error(object_identifier, ObjOrCtg), implements_protocol(ObjOrCtg, Ptc, Scope))).
implements_protocol(ObjOrCtg, Ptc, Scope) :-
nonvar(Ptc),
\+ atom(Ptc),
throw(error(type_error(protocol_identifier, Ptc), implements_protocol(ObjOrCtg, Ptc, Scope))).
implements_protocol(ObjOrCtg, Ptc, Scope) :-
nonvar(Scope),
Scope \== (public),
Scope \== protected,
Scope \== private,
throw(error(type_error(scope, Scope), implements_protocol(ObjOrCtg, Ptc, Scope))).
implements_protocol(ObjOrCtg, Ptc, Scope) :-
'$lgt_implements_protocol_'(ObjOrCtg, Ptc, Scope).
% imports_category(?object_identifier, ?category_identifier)
% imports_category(?category_identifier, ?category_identifier)
imports_category(ObjOrCtg, Ctg) :-
catch(
imports_category(ObjOrCtg, Ctg, _),
error(Error, _),
throw(error(Error, imports_category(ObjOrCtg, Ctg)))).
% imports_category(?object_identifier, ?category_identifier, ?atom)
% imports_category(?category_identifier, ?category_identifier, ?atom)
imports_category(ObjOrCtg, Ctg, Scope) :-
nonvar(ObjOrCtg),
\+ callable(ObjOrCtg),
throw(error(type_error(object_identifier, ObjOrCtg), imports_category(ObjOrCtg, Ctg, Scope))).
imports_category(ObjOrCtg, Ctg, Scope) :-
nonvar(Ctg),
\+ atom(Ctg),
throw(error(type_error(category_identifier, Ctg), imports_category(ObjOrCtg, Ctg, Scope))).
imports_category(ObjOrCtg, Ctg, Scope) :-
nonvar(Scope),
Scope \== (public),
Scope \== protected,
Scope \== private,
throw(error(type_error(scope, Scope), imports_category(ObjOrCtg, Ctg, Scope))).
imports_category(ObjOrCtg, Ctg, Scope) :-
'$lgt_imports_category_'(ObjOrCtg, Ctg, Scope).
% instantiates_class(?object_identifier, ?object_identifier)
instantiates_class(Obj, Class) :-
catch(
instantiates_class(Obj, Class, _),
error(Error, _),
throw(error(Error, instantiates_class(Obj, Class)))).
% instantiates_class(?object_identifier, ?object_identifier, ?atom)
instantiates_class(Obj, Class, Scope) :-
nonvar(Obj),
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), instantiates_class(Obj, Class, Scope))).
instantiates_class(Obj, Class, Scope) :-
nonvar(Class),
\+ callable(Class),
throw(error(type_error(object_identifier, Class), instantiates_class(Obj, Class, Scope))).
instantiates_class(Obj, Class, Scope) :-
nonvar(Scope),
Scope \== (public),
Scope \== protected,
Scope \== private,
throw(error(type_error(scope, Scope), instantiates_class(Obj, Class, Scope))).
instantiates_class(Obj, Class, Scope) :-
'$lgt_instantiates_class_'(Obj, Class, Scope).
% specializes_class(?object_identifier, ?object_identifier)
specializes_class(Class, Superclass) :-
catch(
specializes_class(Class, Superclass, _),
error(Error, _),
throw(error(Error, specializes_class(Class, Superclass)))).
% specializes_class(?object_identifier, ?object_identifier, ?atom)
specializes_class(Class, Superclass, Scope) :-
nonvar(Class),
\+ callable(Class),
throw(error(type_error(object_identifier, Class), specializes_class(Class, Superclass, Scope))).
specializes_class(Class, Superclass, Scope) :-
nonvar(Superclass),
\+ callable(Superclass),
throw(error(type_error(object_identifier, Superclass), specializes_class(Class, Superclass, Scope))).
specializes_class(Class, Superclass, Scope) :-
nonvar(Scope),
Scope \== (public),
Scope \== protected,
Scope \== private,
throw(error(type_error(scope, Scope), specializes_class(Class, Superclass, Scope))).
specializes_class(Class, Superclass, Scope) :-
'$lgt_specializes_class_'(Class, Superclass, Scope).
% extends_protocol(?protocol_identifier, ?protocol_identifier)
extends_protocol(Ptc1, Ptc2) :-
catch(
extends_protocol(Ptc1, Ptc2, _),
error(Error, _),
throw(error(Error, extends_protocol(Ptc1, Ptc2)))).
% extends_protocol(?protocol_identifier, ?protocol_identifier, ?atom)
extends_protocol(Ptc1, Ptc2, Scope) :-
nonvar(Ptc1),
\+ atom(Ptc1),
throw(error(type_error(protocol_identifier, Ptc1), extends_protocol(Ptc1, Ptc2, Scope))).
extends_protocol(Ptc1, Ptc2, Scope) :-
nonvar(Ptc2),
\+ atom(Ptc2),
throw(error(type_error(protocol_identifier, Ptc2), extends_protocol(Ptc1, Ptc2, Scope))).
extends_protocol(Ptc1, Ptc2, Scope) :-
nonvar(Scope),
Scope \== (public),
Scope \== protected,
Scope \== private,
throw(error(type_error(scope, Scope), extends_protocol(Ptc1, Ptc2, Scope))).
extends_protocol(Ptc1, Ptc2, Scope) :-
'$lgt_extends_protocol_'(Ptc1, Ptc2, Scope).
% extends_object(?object_identifier, ?object_identifier)
extends_object(Prototype, Parent) :-
catch(
extends_object(Prototype, Parent, _),
error(Error, _),
throw(error(Error, extends_object(Prototype, Parent)))).
% extends_object(?object_identifier, ?object_identifier, ?atom)
extends_object(Prototype, Parent, Scope) :-
nonvar(Prototype),
\+ callable(Prototype),
throw(error(type_error(object_identifier, Prototype), extends_object(Prototype, Parent, Scope))).
extends_object(Prototype, Parent, Scope) :-
nonvar(Parent),
\+ callable(Parent),
throw(error(type_error(object_identifier, Parent), extends_object(Prototype, Parent, Scope))).
extends_object(Prototype, Parent, Scope) :-
nonvar(Scope),
Scope \== (public),
Scope \== protected,
Scope \== private,
throw(error(type_error(scope, Scope), extends_object(Prototype, Parent, Scope))).
extends_object(Prototype, Parent, Scope) :-
'$lgt_extends_object_'(Prototype, Parent, Scope).
% current_event(?event, ?object_identifier, ?callable, ?object_identifier, ?object_identifier)
current_event(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Event),
Event \== before,
Event \== after,
throw(error(type_error(event, Event), current_event(Event, Obj, Msg, Sender, Monitor))).
current_event(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Obj),
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), current_event(Event, Obj, Msg, Sender, Monitor))).
current_event(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Msg),
\+ callable(Msg),
throw(error(type_error(callable, Msg), current_event(Event, Obj, Msg, Sender, Monitor))).
current_event(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Sender),
\+ callable(Sender),
throw(error(type_error(object_identifier, Sender), current_event(Event, Obj, Msg, Sender, Monitor))).
current_event(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Monitor),
\+ callable(Monitor),
throw(error(type_error(object_identifier, Monitor), current_event(Event, Obj, Msg, Sender, Monitor))).
current_event(before, Obj, Msg, Sender, Monitor) :-
'$lgt_before_'(Obj, Msg, Sender, Monitor, _).
current_event(after, Obj, Msg, Sender, Monitor) :-
'$lgt_after_'(Obj, Msg, Sender, Monitor, _).
%define_events(@event, @object_identifier, @callable, @object_identifier, +object_identifier)
define_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Event),
Event \== before,
Event \== after,
throw(error(type_error(event, Event), define_events(Event, Obj, Msg, Sender, Monitor))).
define_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Obj),
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), define_events(Event, Obj, Msg, Sender, Monitor))).
define_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Msg),
\+ callable(Msg),
throw(error(type_error(callable, Msg), define_events(Event, Obj, Msg, Sender, Monitor))).
define_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Sender),
\+ callable(Sender),
throw(error(type_error(object_identifier, Sender), define_events(Event, Obj, Msg, Sender, Monitor))).
define_events(Event, Obj, Msg, Sender, Monitor) :-
var(Monitor),
throw(error(instantiation_error, define_events(Event, Obj, Msg, Sender, Monitor))).
define_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Monitor),
\+ callable(Monitor),
throw(error(type_error(object_identifier, Monitor), define_events(Event, Obj, Msg, Sender, Monitor))).
define_events(Event, Obj, Msg, Sender, Monitor) :-
var(Event),
!,
'$lgt_current_object_'(Monitor, _, _, Def, _, _, _, _),
( call_with_args(Def, before(Obj, Msg, Sender), Monitor, Monitor, Monitor, BCall, _) ->
( call_with_args(Def, after(Obj, Msg, Sender), Monitor, Monitor, Monitor, ACall, _) ->
retractall('$lgt_before_'(Obj, Msg, Sender, Monitor, _)),
assertz('$lgt_before_'(Obj, Msg, Sender, Monitor, BCall)),
retractall('$lgt_after_'(Obj, Msg, Sender, Monitor, _)),
assertz('$lgt_after_'(Obj, Msg, Sender, Monitor, ACall))
)
).
define_events(before, Obj, Msg, Sender, Monitor) :-
'$lgt_current_object_'(Monitor, _, _, Def, _, _, _, _),
call_with_args(Def, before(Obj, Msg, Sender), Monitor, Monitor, Monitor, Call, _) ->
retractall('$lgt_before_'(Obj, Msg, Sender, Monitor, _)),
assertz('$lgt_before_'(Obj, Msg, Sender, Monitor, Call)).
define_events(after, Obj, Msg, Sender, Monitor) :-
'$lgt_current_object_'(Monitor, _, _, Def, _, _, _, _),
call_with_args(Def, after(Obj, Msg, Sender), Monitor, Monitor, Monitor, Call, _) ->
retractall('$lgt_after_'(Obj, Msg, Sender, Monitor, _)),
assertz('$lgt_after_'(Obj, Msg, Sender, Monitor, Call)).
% abolish_events(@event, @object_identifier, @callable, @object_identifier, @object_identifier)
abolish_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Event),
Event \== before,
Event \== after,
throw(error(type_error(event, Event), abolish_events(Event, Obj, Msg, Sender, Monitor))).
abolish_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Obj),
\+ callable(Obj),
throw(error(type_error(object_identifier, Obj), abolish_events(Event, Obj, Msg, Sender, Monitor))).
abolish_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Msg),
\+ callable(Msg),
throw(error(type_error(callable, Msg), abolish_events(Event, Obj, Msg, Sender, Monitor))).
abolish_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Sender),
\+ callable(Sender),
throw(error(type_error(object_identifier, Sender), abolish_events(Event, Obj, Msg, Sender, Monitor))).
abolish_events(Event, Obj, Msg, Sender, Monitor) :-
nonvar(Monitor),
\+ callable(Monitor),
throw(error(type_error(object_identifier, Monitor), abolish_events(Event, Obj, Msg, Sender, Monitor))).
abolish_events(Event, Obj, Msg, Sender, Monitor) :-
var(Event),
!,
retractall('$lgt_before_'(Obj, Msg, Sender, Monitor, _)),
retractall('$lgt_after_'(Obj, Msg, Sender, Monitor, _)).
abolish_events(before, Obj, Msg, Sender, Monitor) :-
retractall('$lgt_before_'(Obj, Msg, Sender, Monitor, _)).
abolish_events(after, Obj, Msg, Sender, Monitor) :-
retractall('$lgt_after_'(Obj, Msg, Sender, Monitor, _)).
% built-in multi-threading meta-predicates
% threaded(+callable)
threaded(Goals) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded(Goals))).
threaded(Goals) :-
var(Goals),
throw(error(instantiation_error, threaded(Goals))).
threaded(Goals) :-
\+ callable(Goals),
throw(error(type_error(callable, Goals), threaded(Goals))).
threaded(Goals) :-
'$lgt_ctx_ctx'(Ctx, _, user, user, user, '$lgt_bio_user_0_', [], _),
catch('$lgt_tr_threaded_call'(Goals, MTGoals, Ctx), Error, throw(error(Error, threaded(Goals)))),
catch(MTGoals, Error, '$lgt_runtime_error_handler'(Error)).
% threaded_call(@callable)
threaded_call(Goal) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_call(Goal))).
threaded_call(Goal) :-
var(Goal),
throw(error(instantiation_error, threaded_call(Goal))).
threaded_call(Goal) :-
\+ callable(Goal),
throw(error(type_error(callable, Goal), threaded_call(Goal))).
threaded_call(Goal) :-
'$lgt_ctx_ctx'(Ctx, _, user, user, user, '$lgt_bio_user_0_', [], _),
'$lgt_tr_body'(threaded_call(Goal), TGoal, _, Ctx),
catch(TGoal, Error, '$lgt_runtime_error_handler'(Error)).
% threaded_once(@callable)
threaded_once(Goal) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_once(Goal))).
threaded_once(Goal) :-
var(Goal),
throw(error(instantiation_error, threaded_once(Goal))).
threaded_once(Goal) :-
\+ callable(Goal),
throw(error(type_error(callable, Goal), threaded_once(Goal))).
threaded_once(Goal) :-
'$lgt_ctx_ctx'(Ctx, _, user, user, user, '$lgt_bio_user_0_', [], _),
'$lgt_tr_body'(threaded_once(Goal), TGoal, _, Ctx),
catch(TGoal, Error, '$lgt_runtime_error_handler'(Error)).
% threaded_ignore(@callable)
threaded_ignore(Goal) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_ignore(Goal))).
threaded_ignore(Goal) :-
var(Goal),
throw(error(instantiation_error, threaded_ignore(Goal))).
threaded_ignore(Goal) :-
\+ callable(Goal),
throw(error(type_error(callable, Goal), threaded_ignore(Goal))).
threaded_ignore(Goal) :-
'$lgt_ctx_ctx'(Ctx, _, user, user, user, '$lgt_bio_user_0_', [], _),
'$lgt_tr_body'(threaded_ignore(Goal), TGoal, _, Ctx),
catch(TGoal, Error, '$lgt_runtime_error_handler'(Error)).
% threaded_exit(+callable)
threaded_exit(Goal) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_exit(Goal))).
threaded_exit(Goal) :-
var(Goal),
throw(error(instantiation_error, threaded_exit(Goal))).
threaded_exit(Goal) :-
\+ callable(Goal),
throw(error(type_error(callable, Goal), threaded_exit(Goal))).
threaded_exit(Goal) :-
'$lgt_ctx_ctx'(Ctx, _, user, user, user, '$lgt_bio_user_0_', [], _),
'$lgt_tr_body'(threaded_exit(Goal), TGoal, _, Ctx),
catch(TGoal, Error, '$lgt_runtime_error_handler'(Error)).
% threaded_peek(+callable)
threaded_peek(Goal) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_peek(Goal))).
threaded_peek(Goal) :-
var(Goal),
throw(error(instantiation_error, threaded_peek(Goal))).
threaded_peek(Goal) :-
\+ callable(Goal),
throw(error(type_error(callable, Goal), threaded_peek(Goal))).
threaded_peek(Goal) :-
'$lgt_ctx_ctx'(Ctx, _, user, user, user, '$lgt_bio_user_0_', [], _),
'$lgt_tr_body'(threaded_peek(Goal), TGoal, _, Ctx),
catch(TGoal, Error, '$lgt_runtime_error_handler'(Error)).
% threaded_wait(?term)
threaded_wait(Message) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_wait(Message))).
threaded_wait(Message) :-
'$lgt_current_object_'(user, Prefix, _, _, _, _, _, _),
thread_get_message(Prefix, '$lgt_notification'(Message)).
% threaded_notify(@term)
threaded_notify(Message) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded_notify(Message))).
threaded_notify(Message) :-
'$lgt_current_object_'(user, Prefix, _, _, _, _, _, _),
thread_send_message(Prefix, '$lgt_notification'(Message)).
% compiling and loading built-in predicates
% '$lgt_compiler_flag'(+atom, ?atom)
%
% gets/checks the current value of a compiler flag
'$lgt_compiler_flag'(Option, Value) :-
( '$lgt_pp_compiler_flag_'(Option, Value2) -> % flag value as defined in the options argument
Value = Value2 % of the compiling and loading predicates
; '$lgt_current_flag_'(Option, Value2) -> % default value for the current Logtalk session,
Value = Value2 % set by calls to the set_logtalk_flag/2 predicate
; '$lgt_default_flag'(Option, Value) % default value, defined on the Prolog config files
).
% '$lgt_file_type_alt_directory'(+atom, ?atom)
%
% gets/checks the current value of the alternate compilation directory for the given file type
'$lgt_file_type_alt_directory'(xml, Directory) :-
'$lgt_compiler_flag'(xmldir, Directory).
'$lgt_file_type_alt_directory'(prolog, Directory) :-
'$lgt_compiler_flag'(tmpdir, Directory).
% logtalk_compile(@source_file_name)
% logtalk_compile(@source_file_name_list)
%
% compiles to disk a source file or list of source files using default options
logtalk_compile(Files) :-
catch(
logtalk_compile(Files, []),
error(Error, _),
throw(error(Error, logtalk_compile(Files)))).
% logtalk_compile(@source_file_name, @list)
% logtalk_compile(@source_file_name_list, @list)
%
% compiles to disk a source file or a list of source files using a list of flag options
logtalk_compile(Files, Flags) :-
catch(
('$lgt_init_warnings_counter'(logtalk_compile(Files, Flags)),
'$lgt_check_source_files'(Files),
'$lgt_check_compiler_flags'(Flags),
'$lgt_set_compiler_flags'(Flags),
'$lgt_compile_files'(Files),
'$lgt_report_warning_numbers'(logtalk_compile(Files, Flags))),
Error,
('$lgt_reset_warnings_counter',
throw(error(Error, logtalk_compile(Files, Flags))))).
% predicates for compilation warning counting and reporting
'$lgt_reset_warnings_counter' :-
retractall('$lgt_pp_warnings_top_argument_'(_)),
retractall('$lgt_pp_comp_warnings_counter_'(_)),
retractall('$lgt_pp_load_warnings_counter_'(_)),
retractall('$lgt_pp_entity_warnings_flag_').
'$lgt_init_warnings_counter'(Term) :-
( '$lgt_pp_warnings_top_argument_'(_) ->
true
; asserta('$lgt_pp_warnings_top_argument_'(Term)), % remember top compilation/loading goal
retractall('$lgt_pp_comp_warnings_counter_'(_)), % initialize compilation warnings counter
asserta('$lgt_pp_comp_warnings_counter_'(0)),
retractall('$lgt_pp_load_warnings_counter_'(_)), % initialize loading warnings counter
asserta('$lgt_pp_load_warnings_counter_'(0)),
retractall('$lgt_pp_entity_warnings_flag_')
).
'$lgt_inc_compile_warnings_counter' :-
retract('$lgt_pp_comp_warnings_counter_'(Old)),
New is Old + 1,
asserta('$lgt_pp_comp_warnings_counter_'(New)),
( '$lgt_pp_entity_warnings_flag_' ->
true
; assertz('$lgt_pp_entity_warnings_flag_')
).
'$lgt_inc_load_warnings_counter' :-
retract('$lgt_pp_load_warnings_counter_'(Old)),
New is Old + 1,
asserta('$lgt_pp_load_warnings_counter_'(New)).
'$lgt_report_warning_numbers'(Term) :-
( retract('$lgt_pp_warnings_top_argument_'(Term)) -> % if top compilation/loading goal then
retract('$lgt_pp_comp_warnings_counter_'(CCounter)), % report compilation and loading warnings
retract('$lgt_pp_load_warnings_counter_'(LCounter)),
( '$lgt_compiler_flag'(report, on) ->
( CCounter + LCounter =:= 0 -> % no warnings
write('(0 warnings)'), nl
; CCounter =:= 0 -> % no compilation warnings
write('('), write(LCounter), write(' loading '),
'$lgt_write_warnings_word'(LCounter), write(')'), nl
; LCounter =:= 0 -> % no loading warnings
write('('), write(CCounter), write(' compilation '),
'$lgt_write_warnings_word'(CCounter), write(')'), nl
; write('('), write(CCounter), write(' compilation '), % both compilation and loading warnings
'$lgt_write_warnings_word'(CCounter), write(' and '),
write(LCounter), write(' loading '),
'$lgt_write_warnings_word'(LCounter), write(')'), nl
)
; % report flag is off
true
)
; % not top compilation/loading goal
true
).
'$lgt_write_warnings_word'(Number) :-
( Number =:= 1 ->
write(warning)
; write(warnings)
).
% '$lgt_check_source_files'(@term)
%
% check if the source file names are valid and correspond to existing files
'$lgt_check_source_files'(Files) :-
var(Files),
throw(instantiation_error).
'$lgt_check_source_files'([]) :-
!.
'$lgt_check_source_files'([File| Files]) :-
!,
'$lgt_check_source_file'(File),
'$lgt_check_source_files'(Files).
'$lgt_check_source_files'(File) :-
'$lgt_check_source_file'(File).
'$lgt_check_source_file'(File) :-
var(File),
throw(instantiation_error).
'$lgt_check_source_file'(File) :-
compound(File),
!,
'$lgt_check_library_source_file'(File).
'$lgt_check_source_file'(File) :-
\+ atom(File),
throw(type_error(source_file_name, File)).
'$lgt_check_source_file'(File) :-
'$lgt_file_name'(logtalk, File, FileWithExtension),
\+ '$lgt_file_exists'(FileWithExtension),
throw(existence_error(file, File)).
'$lgt_check_source_file'(_).
'$lgt_check_library_source_file'(Term) :-
( Term =.. [Library, File] ->
'$lgt_check_library_source_file'(Library, File)
; throw(type_error(source_file_name, Term))
).
'$lgt_check_library_source_file'(Library, File) :-
'$lgt_expand_library_path'(Library, Path),
'$lgt_directory_exists'(Path),
'$lgt_current_directory'(Current),
'$lgt_change_directory'(Path),
catch(
'$lgt_check_source_file'(File),
Error,
('$lgt_change_directory'(Current), throw(Error))),
'$lgt_change_directory'(Current),
!.
'$lgt_check_library_source_file'(Library, _) :-
throw(existence_error(library, Library)).
% '$lgt_expand_library_path'(+atom, -atom)
%
% converts a library alias into its corresponding path
'$lgt_expand_library_path'(Library, Path) :-
'$lgt_expand_library_path'(Library, Path, 16). % depth bound to prevent loops
'$lgt_expand_library_path'(Library, Path, N) :-
( logtalk_library_path(Library, Location) ->
( atom(Location) ->
Path = Location
; Location =.. [Library2, Location2],
N > 0,
N2 is N - 1,
'$lgt_expand_library_path'(Library2, Path2, N2),
atom_concat(Path2, Location2, Path)
)
; atom(Library),
Path = Library
).
% '$lgt_check_compiler_flags'(@list)
%
% check if the compiler flags are valid
'$lgt_check_compiler_flags'(Flags) :-
var(Flags),
throw(instantiation_error).
'$lgt_check_compiler_flags'(Flags) :-
\+ '$lgt_is_proper_list'(Flags),
throw(type_error(list, Flags)).
'$lgt_check_compiler_flags'(Flags) :-
'$lgt_check_compiler_flag_list'(Flags).
'$lgt_check_compiler_flag_list'([]).
'$lgt_check_compiler_flag_list'([Flag| Flags]) :-
( '$lgt_valid_compiler_flag'(Flag) ->
'$lgt_check_compiler_flag_list'(Flags)
; throw(type_error(compiler_flag, Flag))
).
'$lgt_valid_compiler_flag'(Flag) :-
compound(Flag),
Flag =.. [Name, Value],
nonvar(Value),
'$lgt_valid_flag_value'(Name, Value).
% '$lgt_set_compiler_flags'(@list)
%
% sets the compiler flag options
'$lgt_set_compiler_flags'(Flags) :-
retractall('$lgt_pp_compiler_flag_'(_, _)), % retract old flag values
retractall('$lgt_pp_hook_goal_'(_, _)), % and any old hook goal
'$lgt_assert_compiler_flags'(Flags),
( '$lgt_pp_compiler_flag_'(debug, on) -> % debug flag on requires the
retractall('$lgt_pp_compiler_flag_'(smart_compilation, _)), % smart_compilation flag to
asserta('$lgt_pp_compiler_flag_'(smart_compilation, off)), % be off and
retractall('$lgt_pp_compiler_flag_'(reload, _)), % the reload flag to be set
asserta('$lgt_pp_compiler_flag_'(reload, always)) % to always
; true),
( '$lgt_pp_compiler_flag_'(hook, Obj::Functor) -> % pre-compile hook in order
Call =.. [Functor, Term, Terms], % to speed up entity compilation
( Obj == user ->
Goal = Call
; '$lgt_tr_msg'(Call, Obj, Goal, user)
),
assertz(('$lgt_pp_hook_goal_'(Term, Terms) :- catch(Goal, _, fail)))
; true
).
'$lgt_assert_compiler_flags'([]).
'$lgt_assert_compiler_flags'([Flag| Flags]) :-
Flag =.. [Name, Value],
asserta('$lgt_pp_compiler_flag_'(Name, Value)),
'$lgt_assert_compiler_flags'(Flags).
% logtalk_load(@source_file_name)
% logtalk_load(@source_file_name_list)
%
% compiles to disk and then loads to memory a source file
% or a list of source files using default compiler options
logtalk_load(Files) :-
catch(
logtalk_load(Files, []),
error(Error, _),
throw(error(Error, logtalk_load(Files)))).
% logtalk_load(@source_file_name, @list)
% logtalk_load(@source_file_name_list, @list)
%
% compiles to disk and then loads to memory a source file
% or a list of source files using a list of compiler options
logtalk_load(Files, Flags) :-
catch(
('$lgt_init_warnings_counter'(logtalk_load(Files, Flags)),
'$lgt_check_source_files'(Files),
'$lgt_check_compiler_flags'(Flags),
'$lgt_set_compiler_flags'(Flags),
'$lgt_load_files'(Files),
'$lgt_report_warning_numbers'(logtalk_load(Files, Flags))),
Error,
('$lgt_reset_warnings_counter',
throw(error(Error, logtalk_load(Files, Flags))))).
% set_logtalk_flag(+atom, +nonvar)
%
% sets a Logtalk flag
set_logtalk_flag(Flag, Value) :-
var(Flag),
throw(error(instantiation_error, set_logtalk_flag(Flag, Value))).
set_logtalk_flag(Flag, Value) :-
var(Value),
throw(error(instantiation_error, set_logtalk_flag(Flag, Value))).
set_logtalk_flag(Flag, Value) :-
nonvar(Flag),
\+ atom(Flag),
throw(error(type_error(atom, Flag), set_logtalk_flag(Flag, Value))).
set_logtalk_flag(Flag, Value) :-
atom(Flag),
\+ '$lgt_valid_flag'(Flag),
throw(error(domain_error(valid_flag, Flag), set_logtalk_flag(Flag, Value))).
set_logtalk_flag(Flag, Value) :-
'$lgt_read_only_flag'(Flag),
throw(error(permission_error(modify, read_only_flag, Flag), set_logtalk_flag(Flag, Value))).
set_logtalk_flag(Flag, Value) :-
\+ '$lgt_valid_flag_value'(Flag, Value),
throw(error(domain_error(valid_flag_value, Value), set_logtalk_flag(Flag, Value))).
set_logtalk_flag(Flag, Value) :-
retractall('$lgt_current_flag_'(Flag, _)),
assertz('$lgt_current_flag_'(Flag, Value)),
( Flag == debug ->
retractall('$lgt_current_flag_'(smart_compilation, _)),
assertz('$lgt_current_flag_'(smart_compilation, off))
; Flag == hook ->
'$lgt_compile_hook'(Value)
; true
).
% current_logtalk_flag(?atom, ?nonvar)
%
% tests/gets Logtalk flags
current_logtalk_flag(Flag, Value) :-
nonvar(Flag),
\+ atom(Flag),
throw(error(type_error(atom, Flag), current_logtalk_flag(Flag, Value))).
current_logtalk_flag(Flag, Value) :-
atom(Flag),
\+ '$lgt_valid_flag'(Flag),
throw(error(domain_error(valid_flag, Flag), current_logtalk_flag(Flag, Value))).
current_logtalk_flag(Flag, Value) :-
'$lgt_current_flag_'(Flag, Value).
current_logtalk_flag(Flag, Value) :-
'$lgt_default_flag'(Flag, Value),
\+ '$lgt_current_flag_'(Flag, _).
current_logtalk_flag(version, version(2, 30, 2)).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% built-in methods
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% checks if an object exists at runtime
'$lgt_obj_exists'(Obj, Pred, Sender) :-
( '$lgt_current_object_'(Obj, _, _, _, _, _, _, _) ->
true
; throw(error(existence_error(object, Obj), Obj::Pred, Sender))
).
% current_predicate/1 built-in method
'$lgt_current_predicate'(Obj, Pred, Sender, _) :-
nonvar(Pred),
Pred \= _/_,
throw(error(type_error(predicate_indicator, Pred), Obj::current_predicate(Pred), Sender)).
'$lgt_current_predicate'(Obj, Functor/Arity, Sender, _) :-
nonvar(Functor),
\+ atom(Functor),
throw(error(type_error(predicate_indicator, Functor/Arity), Obj::current_predicate(Functor/Arity), Sender)).
'$lgt_current_predicate'(Obj, Functor/Arity, Sender, _) :-
nonvar(Arity),
\+ (integer(Arity), Arity >= 0),
throw(error(type_error(predicate_indicator, Functor/Arity), Obj::current_predicate(Functor/Arity), Sender)).
'$lgt_current_predicate'(Obj, Functor/Arity, Sender, _) :-
\+ '$lgt_current_object_'(Obj, _, _, _, _, _, _, _),
throw(error(existence_error(object, Obj), Obj::current_predicate(Functor/Arity), Sender)).
'$lgt_current_predicate'(Obj, Functor/Arity, Sender, Scope) :-
nonvar(Functor),
nonvar(Arity),
!,
functor(Pred, Functor, Arity),
'$lgt_visible_predicate'(Obj, Pred, Sender, Scope),
!.
'$lgt_current_predicate'(Obj, Functor/Arity, Sender, Scope) :-
setof(
Functor/Arity,
(Pred, Scope)^('$lgt_visible_predicate'(Obj, Pred, Sender, Scope), functor(Pred, Functor, Arity)),
Preds),
'$lgt_member'(Functor/Arity, Preds).
% '$lgt_visible_predicate'(@object_identifier, ?callable, @object_identifier, @term)
%
% checks/returns object predicates visible/within the scope of the sender
'$lgt_visible_predicate'(Obj, Pred, Sender, Scope) :-
'$lgt_current_object_'(Obj, _, Dcl, _, _, _, _, _),
call_with_args(Dcl, Pred, PScope, _, _, _, _, SCtn, _),
once((\+ \+ PScope = Scope; Sender = SCtn)).
% predicate_property/2 built-in method
'$lgt_predicate_property'(Obj, Pred, Prop, Sender, _) :-
var(Pred),
throw(error(instantiation_error, Obj::predicate_property(Pred, Prop), Sender)).
'$lgt_predicate_property'(Obj, Pred, Prop, Sender, _) :-
nonvar(Prop),
\+ '$lgt_valid_pred_property'(Prop),
throw(error(domain_error(predicate_property, Prop), Obj::predicate_property(Pred, Prop), Sender)).
'$lgt_predicate_property'(Obj, Pred, Prop, Sender, _) :-
\+ callable(Pred),
throw(error(type_error(callable, Pred), Obj::predicate_property(Pred, Prop), Sender)).
'$lgt_predicate_property'(Obj, Pred, Prop, Sender, _) :-
\+ '$lgt_current_object_'(Obj, _, _, _, _, _, _, _),
throw(error(existence_error(object, Obj), Obj::predicate_property(Pred, Prop), Sender)).
'$lgt_predicate_property'(Obj, Pred, Prop, Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, Dcl, Def, _, _, _, _),
call_with_args(Dcl, Pred, PScope, Type, Meta, NonTerminal, Synchronized, SCtn, TCtn),
!,
once((\+ \+ PScope = Scope; Sender = SCtn)),
( '$lgt_scope'(Prop, PScope)
; Prop = Type
; Prop = declared_in(TCtn)
; Meta \== no,
Prop = meta_predicate(Meta)
; NonTerminal \== no,
functor(Pred, Functor, Arity2),
Arity is Arity2 - 2,
Prop = non_terminal(Functor//Arity)
; Synchronized \== no,
Prop = synchronized
; '$lgt_current_object_'(TCtn, _, TCtnDcl, _, _, _, _, _),
\+ call_with_args(TCtnDcl, Pred, _, _, _, _, _),
'$lgt_alias_pred'(Obj, Prefix, Pred, Pred2),
Prop = alias(Pred2)
; call_with_args(Def, Pred, _, _, _, _, DCtn) -> % must be the last property checked because
Prop = defined_in(DCtn) % of the implicit cut on the ->/2 call
).
'$lgt_predicate_property'(_, Pred, Prop, _, Scope) :-
'$lgt_built_in_method'(Pred, PScope),
!,
\+ \+ PScope = Scope,
( Prop = static
; Prop = built_in
; '$lgt_scope'(Prop, PScope)
; functor(Pred, Functor, Arity),
functor(Meta, Functor, Arity),
('$lgt_meta_predicate'(Meta) -> Prop = meta_predicate(Meta))
).
'$lgt_predicate_property'(_, Pred, Prop, _, _) :-
'$lgt_built_in'(Pred),
( Prop = (public)
; Prop = built_in
; ( '$lgt_predicate_property'(Pred, (dynamic)) ->
Prop = (dynamic)
; Prop = static
)
; functor(Pred, Functor, Arity),
functor(Meta, Functor, Arity),
('$lgt_meta_predicate'(Meta) -> Prop = meta_predicate(Meta))
).
% '$lgt_scope'(?atom, ?term).
%
% converts between user and system scope terms
'$lgt_scope'(private, p).
'$lgt_scope'(protected, p(p)).
'$lgt_scope'((public), p(p(p))).
% '$lgt_alias_pred'(+object_identifier, +atom, +callable, -callable)
%
% finds the predicate pointed by an alias
'$lgt_alias_pred'(Obj, Prefix, Alias, Pred) :-
'$lgt_alias_pred'(Obj, Prefix, Alias, Pred, _).
'$lgt_alias_pred'(_, Prefix, Alias, Pred, _) :-
'$lgt_construct_alias_functor'(Prefix, Functor),
call_with_args(Functor, _, Pred, Alias) ->
Pred \= Alias,
!.
'$lgt_alias_pred'(Obj, _, Alias, Pred, _) :-
'$lgt_implements_protocol_'(Obj, Ptc, _),
'$lgt_current_protocol_'(Ptc, Prefix, _),
'$lgt_alias_pred'(Ptc, Prefix, Alias, Pred, _).
'$lgt_alias_pred'(Ptc1, _, Alias, Pred, _) :-
'$lgt_extends_protocol_'(Ptc1, Ptc2, _),
'$lgt_current_protocol_'(Ptc2, Prefix, _),
'$lgt_alias_pred'(Ptc2, Prefix, Alias, Pred, _).
'$lgt_alias_pred'(Obj, _, Alias, Pred, _) :-
'$lgt_imports_category_'(Obj, Ctg, _),
'$lgt_current_category_'(Ctg, Prefix, _, _),
'$lgt_alias_pred'(Ctg, Prefix, Alias, Pred, _).
'$lgt_alias_pred'(Obj, _, Alias, Pred, prototype) :-
'$lgt_extends_object_'(Obj, Parent, _),
'$lgt_current_object_'(Parent, Prefix, _, _, _, _, _, _),
'$lgt_alias_pred'(Parent, Prefix, Alias, Pred, prototype).
'$lgt_alias_pred'(Instance, _, Alias, Pred, instance) :-
'$lgt_instantiates_class_'(Instance, Class, _),
'$lgt_current_object_'(Class, Prefix, _, _, _, _, _, _),
'$lgt_alias_pred'(Class, Prefix, Alias, Pred, superclass).
'$lgt_alias_pred'(Class, _, Alias, Pred, superclass) :-
'$lgt_specializes_class_'(Class, Superclass, _),
'$lgt_current_object_'(Superclass, Prefix, _, _, _, _, _, _),
'$lgt_alias_pred'(Superclass, Prefix, Alias, Pred, superclass).
% abolish/1 built-in method
'$lgt_abolish'(Obj, Pred, Sender, _) :-
var(Pred),
throw(error(instantiation_error, Obj::abolish(Pred), Sender)).
'$lgt_abolish'(Obj, Pred, Sender, _) :-
Pred \= _/_,
throw(error(type_error(predicate_indicator, Pred), Obj::abolish(predicate), Sender)).
'$lgt_abolish'(Obj, Functor/Arity, Sender, _) :-
(var(Functor); var(Arity)),
throw(error(instantiation_error, Obj::abolish(Functor/Arity), Sender)).
'$lgt_abolish'(Obj, Functor/Arity, Sender, _) :-
\+ atom(Functor),
throw(error(type_error(atom, Functor), Obj::abolish(Functor/Arity), Sender)).
'$lgt_abolish'(Obj, Functor/Arity, Sender, _) :-
\+ integer(Arity),
throw(error(type_error(integer, Arity), Obj::abolish(Functor/Arity), Sender)).
'$lgt_abolish'(Obj, Functor/Arity, Sender, _) :-
integer(Arity),
Arity < 0,
throw(error(domain_error(not_less_than_zero, Arity), Obj::abolish(Functor/Arity), Sender)).
'$lgt_abolish'(Obj, Functor/Arity, Sender, Scope) :-
'$lgt_abolish_chk'(Obj, Functor/Arity, Sender, Scope).
'$lgt_abolish_chk'(Obj, Functor/Arity, Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, Dcl, _, _, _, _, _),
!,
( functor(Pred, Functor, Arity),
call_with_args(Dcl, Pred, PScope, Compilation, _, _, _, SCtn, _) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
( Compilation == (dynamic) ->
call_with_args(Prefix, _, _, _, _, _, DDcl, DDef, _),
( call_with_args(DDcl, Pred, _) ->
Clause =.. [DDcl, Pred, _],
retractall(Clause),
( call_with_args(DDef, Pred, _, _, _, Call) ->
functor(Call, CFunctor, CArity),
abolish(CFunctor/CArity),
Clause2 =.. [DDef, Pred, _, _, _, Call],
retractall(Clause2),
'$lgt_clean_lookup_caches'(Pred)
; true
)
; % no dynamic predicate declaration:
( call_with_args(Dcl, Pred, _, _, _, _, _) ->
throw(error(permission_error(modify, predicate_declaration, Pred), Obj::abolish(Functor/Arity), Sender))
; throw(error(existence_error(predicate_declaration, Pred), Obj::abolish(Functor/Arity), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Pred), Obj::abolish(Functor/Arity), Sender))
)
; % predicate is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(modify, private_predicate, Pred), Obj::abolish(Functor/Arity), Sender))
; throw(error(permission_error(modify, protected_predicate, Pred), Obj::abolish(Functor/Arity), Sender))
)
)
; % no predicate declaration:
throw(error(existence_error(predicate_declaration, Pred), Obj::abolish(Functor/Arity), Sender))
).
'$lgt_abolish_chk'(Obj, Functor/Arity, Sender, _) :-
throw(error(existence_error(object, Obj), Obj::abolish(Functor/Arity), Sender)).
% asserta/1 built-in method
'$lgt_asserta'(Obj, Clause, Sender, _, _) :-
var(Clause),
throw(error(instantiation_error, Obj::asserta(Clause), Sender)).
'$lgt_asserta'(Obj, Clause, Sender, _, _) :-
'$lgt_db_lookup_cache_'(Obj, Clause, Sender, Call, _),
!,
asserta(Call).
'$lgt_asserta'(Obj, (Head:-Body), Sender, _, _) :-
var(Head),
throw(error(instantiation_error, Obj::asserta((Head:-Body)), Sender)).
'$lgt_asserta'(Obj, (Head:-Body), Sender, _, _) :-
\+ callable(Head),
throw(error(type_error(callable, Head), Obj::asserta((Head:-Body)), Sender)).
'$lgt_asserta'(Obj, (Head:-Body), Sender, _, _) :-
nonvar(Body),
\+ callable(Body),
throw(error(type_error(callable, Body), Obj::asserta((Head:-Body)), Sender)).
'$lgt_asserta'(Obj, Clause, Sender, _, _) :-
Clause \= (_ :- _),
\+ callable(Clause),
throw(error(type_error(callable, Clause), Obj::asserta(Clause), Sender)).
'$lgt_asserta'(Obj, Clause, Sender, TestScope, DclScope) :-
( Clause = (Head :- Body) ->
( Body == true ->
'$lgt_asserta_fact_chk'(Obj, Head, Sender, TestScope, DclScope)
; '$lgt_asserta_rule_chk'(Obj, Clause, Sender, TestScope, DclScope)
)
; '$lgt_asserta_fact_chk'(Obj, Clause, Sender, TestScope, DclScope)
).
'$lgt_asserta_rule_chk'(Obj, (Head:-Body), Sender, TestScope, DclScope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, DDcl, DDef, _),
'$lgt_assert_pred_dcl'(Dcl, DDcl, Head, Scope, Type, Meta, SCtn, DclScope),
( Type == (dynamic) ->
( (\+ \+ Scope = TestScope; Sender = SCtn) ->
'$lgt_assert_pred_def'(Obj, Def, DDef, Prefix, Head, GSender, GThis, GSelf, THead, _),
'$lgt_pred_meta_vars'(Head, Meta, MetaVars),
'$lgt_ctx_ctx'(Ctx, _, GSender, GThis, GSelf, Prefix, MetaVars, _),
'$lgt_tr_body'(Body, TBody, DBody, Ctx),
( '$lgt_debugging_'(Obj) ->
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
asserta((THead :- ('$lgt_nop'(Body), '$lgt_dbg_head'(Head, DbgCtx), DBody)))
; asserta((THead :- ('$lgt_nop'(Body), TBody)))
)
; % predicate is not within the scope of the sender:
( Scope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::asserta((Head:-Body)), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::asserta((Head:-Body)), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::asserta((Head:-Body)), Sender))
).
'$lgt_asserta_rule_chk'(Obj, (Head:-Body), Sender, _, _) :-
throw(error(existence_error(object, Obj), Obj::asserta((Head:-Body)), Sender)).
'$lgt_asserta_fact_chk'(Obj, Head, Sender, _, _) :-
'$lgt_db_lookup_cache_'(Obj, Head, Sender, THead, _),
!,
asserta(THead).
'$lgt_asserta_fact_chk'(Obj, Head, Sender, TestScope, DclScope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, DDcl, DDef, _),
'$lgt_assert_pred_dcl'(Dcl, DDcl, Head, Scope, Type, _, SCtn, DclScope),
( Type == (dynamic) ->
( (\+ \+ Scope = TestScope; Sender = SCtn) ->
'$lgt_assert_pred_def'(Obj, Def, DDef, Prefix, Head, GSender, GThis, GSelf, THead, Update),
( '$lgt_debugging_'(Obj) ->
'$lgt_ctx_ctx'(Ctx, _, GSender, GThis, GSelf, Prefix, [], _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
asserta((THead :- '$lgt_dbg_fact'(Head, DbgCtx)))
; '$lgt_add_db_lookup_cache_entry'(Obj, Head, SCtn, DclScope, Sender, THead, DDef, Update),
asserta(THead)
)
; % predicate is not within the scope of the sender:
( Scope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::asserta(Head), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::asserta(Head), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::asserta(Head), Sender))
).
'$lgt_asserta_fact_chk'(Obj, Head, Sender, _, _) :-
throw(error(existence_error(object, Obj), Obj::asserta(Head), Sender)).
% assertz/1 built-in method
'$lgt_assertz'(Obj, Clause, Sender, _, _) :-
var(Clause),
throw(error(instantiation_error, Obj::assertz(Clause), Sender)).
'$lgt_assertz'(Obj, Clause, Sender, _, _) :-
'$lgt_db_lookup_cache_'(Obj, Clause, Sender, Call, _),
!,
assertz(Call).
'$lgt_assertz'(Obj, (Head:-Body), Sender, _, _) :-
var(Head),
throw(error(instantiation_error, Obj::assertz((Head:-Body)), Sender)).
'$lgt_assertz'(Obj, (Head:-Body), Sender, _, _) :-
\+ callable(Head),
throw(error(type_error(callable, Head), Obj::assertz((Head:-Body)), Sender)).
'$lgt_assertz'(Obj, (Head:-Body), Sender, _, _) :-
nonvar(Body),
\+ callable(Body),
throw(error(type_error(callable, Body), Obj::assertz((Head:-Body)), Sender)).
'$lgt_assertz'(Obj, Clause, Sender, _, _) :-
Clause \= (_ :- _),
\+ callable(Clause),
throw(error(type_error(callable, Clause), Obj::assertz(Clause), Sender)).
'$lgt_assertz'(Obj, Clause, Sender, TestScope, DclScope) :-
( Clause = (Head :- Body) ->
( Body == true ->
'$lgt_assertz_fact_chk'(Obj, Head, Sender, TestScope, DclScope)
; '$lgt_assertz_rule_chk'(Obj, Clause, Sender, TestScope, DclScope)
)
; '$lgt_assertz_fact_chk'(Obj, Clause, Sender, TestScope, DclScope)
).
'$lgt_assertz_rule_chk'(Obj, (Head:-Body), Sender, TestScope, DclScope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, DDcl, DDef, _),
'$lgt_assert_pred_dcl'(Dcl, DDcl, Head, Scope, Type, Meta, SCtn, DclScope),
( Type == (dynamic) ->
( (\+ \+ Scope = TestScope; Sender = SCtn) ->
'$lgt_assert_pred_def'(Obj, Def, DDef, Prefix, Head, GSender, GThis, GSelf, THead, _),
'$lgt_pred_meta_vars'(Head, Meta, MetaVars),
'$lgt_ctx_ctx'(Ctx, _, GSender, GThis, GSelf, Prefix, MetaVars, _),
'$lgt_tr_body'(Body, TBody, DBody, Ctx),
( '$lgt_debugging_'(Obj) ->
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
assertz((THead :- ('$lgt_nop'(Body), '$lgt_dbg_head'(Head, DbgCtx), DBody)))
; assertz((THead :- ('$lgt_nop'(Body), TBody)))
)
; % predicate is not within the scope of the sender:
( Scope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::assertz((Head:-Body)), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::assertz((Head:-Body)), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::assertz((Head:-Body)), Sender))
).
'$lgt_assertz_rule_chk'(Obj, (Head:-Body), Sender, _, _) :-
throw(error(existence_error(object, Obj), Obj::assertz((Head:-Body)), Sender)).
'$lgt_assertz_fact_chk'(Obj, Head, Sender, _, _) :-
'$lgt_db_lookup_cache_'(Obj, Head, Sender, THead, _),
!,
assertz(THead).
'$lgt_assertz_fact_chk'(Obj, Head, Sender, TestScope, DclScope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, DDcl, DDef, _),
'$lgt_assert_pred_dcl'(Dcl, DDcl, Head, Scope, Type, _, SCtn, DclScope),
( Type == (dynamic) ->
( (\+ \+ Scope = TestScope; Sender = SCtn) ->
'$lgt_assert_pred_def'(Obj, Def, DDef, Prefix, Head, GSender, GThis, GSelf, THead, Update),
( '$lgt_debugging_'(Obj) ->
'$lgt_ctx_ctx'(Ctx, _, GSender, GThis, GSelf, Prefix, [], _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
assertz((THead :- '$lgt_dbg_fact'(Head, DbgCtx)))
; '$lgt_add_db_lookup_cache_entry'(Obj, Head, SCtn, DclScope, Sender, THead, DDef, Update),
assertz(THead)
)
; % predicate is not within the scope of the sender:
( Scope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::asserta(Head), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::asserta(Head), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::asserta(Head), Sender))
).
'$lgt_assertz_fact_chk'(Obj, Head, Sender, _, _) :-
throw(error(existence_error(object, Obj), Obj::assertz(Head), Sender)).
% get or set (if doesn't exist) the declaration for an asserted predicate
'$lgt_assert_pred_dcl'(Dcl, DDcl, Pred, Scope, Type, Meta, SCtn, DclScope) :-
( call_with_args(Dcl, Pred, Scope, Type, Meta, _, _, SCtn, _) ->
true
; % no previous predicate declaration:
'$lgt_assert_ddcl_clause'(DDcl, Pred, DclScope),
(Scope, Type, Meta) = (DclScope, (dynamic), no)
).
% get or set (if doesn't exist) the compiled call for an asserted predicate
'$lgt_assert_pred_def'(Obj, Def, DDef, EntityPrefix, Head, GSender, GThis, GSelf, Call, NeedsUpdate) :-
( % if a definition lookup entry alread exists on the object...
call_with_args(Def, Head, GSender, GThis, GSelf, Call, Obj) ->
( % then check if it's a dynamic one that implies an update goal...
call_with_args(DDef, Head, GSender, GThis, GSelf, Call) ->
NeedsUpdate = true
; % or a static one...
NeedsUpdate = false
)
; % else no definition lookup entry exists; construct and assert a dynamic one...
functor(Head, Functor, Arity),
functor(GHead, Functor, Arity),
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix),
GHead =.. [_| GArgs],
'$lgt_append'(GArgs, [GSender, GThis, GSelf], TArgs),
THead =.. [PredPrefix| TArgs],
DDefClause =.. [DDef, GHead, GSender, GThis, GSelf, THead],
assertz(DDefClause),
'$lgt_clean_lookup_caches'(GHead),
NeedsUpdate = true,
(GHead, THead) = (Head, Call)
).
% clause/2 built-in method
'$lgt_clause'(Obj, Head, Body, Sender, _) :-
var(Head),
throw(error(instantiation_error, Obj::clause(Head, Body), Sender)).
'$lgt_clause'(Obj, Head, Body, Sender, _) :-
\+ callable(Head),
throw(error(type_error(callable, Head), Obj::clause(Head, Body), Sender)).
'$lgt_clause'(Obj, Head, Body, Sender, _) :-
nonvar(Body),
\+ callable(Body),
throw(error(type_error(callable, Body), Obj::clause(Head, Body), Sender)).
'$lgt_clause'(Obj, Head, Body, Sender, Scope) :-
'$lgt_clause_chk'(Obj, Head, Body, Sender, Scope).
'$lgt_clause_chk'(Obj, Head, Body, Sender, _) :-
'$lgt_db_lookup_cache_'(Obj, Head, Sender, Call, _),
!,
clause(Call, TBody),
( TBody = ('$lgt_nop'(Body), _) -> % rules (compiled both in normal and debug mode)
true
; TBody = '$lgt_dbg_fact'(_, _) -> % facts compiled in debug mode
Body = true
; TBody = Body % facts compiled in normal mode
).
'$lgt_clause_chk'(Obj, Head, Body, Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, _, DDef, _),
( call_with_args(Dcl, Head, PScope, Type, _, _, _, SCtn, _) ->
( Type == (dynamic) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
( (call_with_args(DDef, Head, _, _, _, Call); call_with_args(Def, Head, _, _, _, Call)) ->
clause(Call, TBody),
( TBody = ('$lgt_nop'(Body), _) ->
true
; TBody = '$lgt_dbg_fact'(_, _) ->
Body = true
; TBody = Body
)
)
; % predicate is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(access, private_predicate, Head), Obj::clause(Head, Body), Sender))
; throw(error(permission_error(access, protected_predicate, Head), Obj::clause(Head, Body), Sender))
)
)
; % predicate is static:
throw(error(permission_error(access, static_predicate, Head), Obj::clause(Head, Body), Sender))
)
; % local dynamic predicate with no scope declaration:
( (Obj = Sender, call_with_args(DDef, Head, _, _, _, Call)) ->
clause(Call, TBody),
( TBody = ('$lgt_nop'(Body), _) ->
true
; TBody = '$lgt_dbg_fact'(_, _) ->
Body = true
; TBody = Body
)
; throw(error(existence_error(predicate_declaration, Head), Obj::clause(Head, Body), Sender))
)
).
'$lgt_clause_chk'(Obj, Head, Body, Sender, _) :-
throw(error(existence_error(object, Obj), Obj::clause(Head, Body), Sender)).
% retract/1 built-in method
'$lgt_retract'(Obj, Clause, Sender, _) :-
var(Clause),
throw(error(instantiation_error, Obj::retract(Clause), Sender)).
'$lgt_retract'(Obj, (Head:-Body), Sender, _) :-
var(Head),
throw(error(instantiation_error, Obj::retract((Head:-Body)), Sender)).
'$lgt_retract'(Obj, (Head:-Body), Sender, _) :-
\+ callable(Head),
throw(error(type_error(callable, Head), Obj::retract((Head:-Body)), Sender)).
'$lgt_retract'(Obj, (Head:-Body), Sender, _) :-
nonvar(Body),
\+ callable(Body),
throw(error(type_error(callable, Body), Obj::retract((Head:-Body)), Sender)).
'$lgt_retract'(Obj, Clause, Sender, Scope) :-
( Clause = (Head :- Body) ->
( var(Body) ->
'$lgt_retract_var_body_chk'(Obj, Clause, Sender, Scope)
; Body == true ->
'$lgt_retract_fact_chk'(Obj, Head, Sender, Scope)
; '$lgt_retract_rule_chk'(Obj, Clause, Sender, Scope)
)
; '$lgt_retract_fact_chk'(Obj, Clause, Sender, Scope)
).
'$lgt_retract_var_body_chk'(Obj, (Head:-Body), Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, _, DDef, _),
( call_with_args(Dcl, Head, PScope, Type, _, _, _, SCtn, _) ->
( Type == (dynamic) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
( call_with_args(DDef, Head, _, _, _, Call) ->
retract((Call :- TBody)),
( TBody = ('$lgt_nop'(Body), _) ->
true
; TBody = '$lgt_dbg_fact'(_, _) ->
Body = true
; TBody = Body
),
'$lgt_update_ddef_table'(DDef, Head, Call)
; call_with_args(Def, Head, _, _, _, Call) ->
retract((Call :- TBody)),
( TBody = ('$lgt_nop'(Body), _) ->
true
; TBody = '$lgt_dbg_fact'(_, _) ->
Body = true
; TBody = Body
)
)
; % predicate is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::retract((Head:-Body)), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::retract((Head:-Body)), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::retract((Head:-Body)), Sender))
)
; % local dynamic predicate with no scope declaration:
( Obj = Sender,
call_with_args(DDef, Head, _, _, _, Call) ->
retract((Call :- TBody)),
( TBody = ('$lgt_nop'(Body), _) ->
true
; TBody = '$lgt_dbg_fact'(_, _) ->
Body = true
; TBody = Body
)
; throw(error(existence_error(predicate_declaration, Head), Obj::retract((Head:-Body)), Sender))
)
).
'$lgt_retract_var_body_chk'(Obj, (Head:-Body), Sender, _) :-
throw(error(existence_error(object, Obj), Obj::retract((Head:-Body)), Sender)).
'$lgt_retract_rule_chk'(Obj, (Head:-Body), Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, _, DDef, _),
( call_with_args(Dcl, Head, PScope, Type, _, _, _, SCtn, _) ->
( Type == (dynamic) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
( call_with_args(DDef, Head, _, _, _, Call) ->
retract((Call :- ('$lgt_nop'(Body), _))),
'$lgt_update_ddef_table'(DDef, Head, Call)
; call_with_args(Def, Head, _, _, _, Call) ->
retract((Call :- ('$lgt_nop'(Body), _)))
)
; % predicate is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::retract((Head:-Body)), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::retract((Head:-Body)), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::retract((Head:-Body)), Sender))
)
; % local dynamic predicate with no scope declaration:
( Obj = Sender,
call_with_args(DDef, Head, _, _, _, Call) ->
retract((Call :- ('$lgt_nop'(Body), _)))
; throw(error(existence_error(predicate_declaration, Head), Obj::retract((Head:-Body)), Sender))
)
).
'$lgt_retract_rule_chk'(Obj, (Head:-Body), Sender, _) :-
throw(error(existence_error(object, Obj), Obj::retract((Head:-Body)), Sender)).
'$lgt_retract_fact_chk'(Obj, Head, Sender, _) :-
'$lgt_db_lookup_cache_'(Obj, Head, Sender, Call, Update),
!,
retract(Call),
once(Update).
'$lgt_retract_fact_chk'(Obj, Head, Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, _, DDef, _),
( call_with_args(Dcl, Head, PScope, Type, _, _, _, SCtn, _) ->
( Type == (dynamic) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
( call_with_args(DDef, Head, _, _, _, Call) ->
( '$lgt_debugging_'(Obj) ->
retract((Call :- '$lgt_dbg_fact'(_, _)))
; '$lgt_add_db_lookup_cache_entry'(Obj, Head, SCtn, PScope, Sender, Call, DDef, true),
retract(Call)
),
'$lgt_update_ddef_table'(DDef, Head, Call)
; call_with_args(Def, Head, _, _, _, Call) ->
( '$lgt_debugging_'(Obj) ->
retract((Call :- '$lgt_dbg_fact'(_, _)))
; '$lgt_add_db_lookup_cache_entry'(Obj, Head, PScope, Sender, Call),
retract(Call)
)
)
; % predicate is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::retract(Head), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::retract(Head), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::retract(Head), Sender))
)
; % local dynamic predicate with no scope declaration:
( call_with_args(DDef, Head, _, _, _, Call) ->
( '$lgt_debugging_'(Obj) ->
retract((Call :- '$lgt_dbg_fact'(_, _)))
; '$lgt_add_db_lookup_cache_entry'(Obj, Head, PScope, Sender, Call),
retract(Call)
)
; throw(error(existence_error(predicate_declaration, Head), Obj::retract(Head), Sender))
)
).
'$lgt_retract_fact_chk'(Obj, Head, Sender, _) :-
throw(error(existence_error(object, Obj), Obj::retract(Head), Sender)).
% retractall/1 built-in method
'$lgt_retractall'(Obj, Head, Sender, _) :-
var(Head),
throw(error(instantiation_error, Obj::retractall(Head), Sender)).
'$lgt_retractall'(Obj, Head, Sender, _) :-
\+ callable(Head),
throw(error(type_error(callable, Head), Obj::retractall(Head), Sender)).
'$lgt_retractall'(Obj, Head, Sender, Scope) :-
'$lgt_retractall_chk'(Obj, Head, Sender, Scope).
'$lgt_retractall_chk'(Obj, Head, Sender, _) :-
'$lgt_db_lookup_cache_'(Obj, Head, Sender, Call, Update),
!,
retractall(Call),
once(Update).
'$lgt_retractall_chk'(Obj, Head, Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
!,
call_with_args(Prefix, Dcl, Def, _, _, _, _, DDef, _),
( call_with_args(Dcl, Head, PScope, Type, _, _, _, SCtn, _) ->
( Type == (dynamic) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
( call_with_args(DDef, Head, _, _, _, Call) ->
retractall(Call),
'$lgt_update_ddef_table'(DDef, Head, Call)
; call_with_args(Def, Head, _, _, _, Call) ->
'$lgt_add_db_lookup_cache_entry'(Obj, Head, PScope, Sender, Call),
retractall(Call)
; true
)
; % predicate is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(modify, private_predicate, Head), Obj::retractall(Head), Sender))
; throw(error(permission_error(modify, protected_predicate, Head), Obj::retractall(Head), Sender))
)
)
; % predicate is static:
throw(error(permission_error(modify, static_predicate, Head), Obj::retractall(Head), Sender))
)
; % local dynamic predicate with no scope declaration:
( Obj = Sender,
call_with_args(DDef, Head, _, _, _, Call) ->
'$lgt_add_db_lookup_cache_entry'(Obj, Head, PScope, Sender, Call),
retractall(Call)
; throw(error(existence_error(predicate_declaration, Head), Obj::retractall(Head), Sender))
)
).
'$lgt_retractall_chk'(Obj, Head, Sender, _) :-
throw(error(existence_error(object, Obj), Obj::retractall(Head), Sender)).
% '$lgt_nop'(+goal)
%
% used in the implementation of the built-in method
% clause/2 to store the original clause body
'$lgt_nop'(_).
% '$lgt_add_db_lookup_cache_entry'(@object_identifier, @callable, @callable, @object_identifier, @callable)
%
% adds a new database lookup cache entry (when an update goal is not needed)
'$lgt_add_db_lookup_cache_entry'(Obj, Head, Scope, Sender, Call) :-
functor(Obj, OFunctor, OArity),
functor(GObj, OFunctor, OArity),
functor(Head, HFunctor, HArity),
functor(GHead, HFunctor, HArity),
functor(Call, CFunctor, CArity),
functor(GCall, CFunctor, CArity),
GHead =.. [_| Args],
GCall =.. [_| ExtArgs],
'$lgt_unify_args'(Args, ExtArgs),
( Scope = p(p(p)) ->
asserta('$lgt_db_lookup_cache_'(GObj, GHead, _, GCall, true))
; functor(Sender, SFunctor, SArity),
functor(GSender, SFunctor, SArity),
asserta('$lgt_db_lookup_cache_'(GObj, GHead, GSender, GCall, true))
).
% '$lgt_add_db_lookup_cache_entry'(@object_identifier, @callable, @callable, @callable, @object_identifier, @callable, +atom, +atom)
%
% adds a new database lookup cache entry
'$lgt_add_db_lookup_cache_entry'(Obj, Head, SCtn, Scope, Sender, Call, DDef, NeedsUpdate) :-
functor(Obj, OFunctor, OArity),
functor(GObj, OFunctor, OArity),
functor(Head, HFunctor, HArity),
functor(GHead, HFunctor, HArity),
functor(Call, CFunctor, CArity),
functor(GCall, CFunctor, CArity),
GHead =.. [_| Args],
GCall =.. [_| ExtArgs],
'$lgt_unify_args'(Args, ExtArgs),
( NeedsUpdate == true, Sender \= SCtn ->
functor(UHead, HFunctor, HArity),
functor(UCall, CFunctor, CArity),
UClause =.. [DDef, UHead, _, _, _, _],
( Scope = p(p(p)) ->
asserta('$lgt_db_lookup_cache_'(GObj, GHead, _, GCall, '$lgt_update_ddef_table_opt'(UHead, UCall, UClause)))
; functor(Sender, SFunctor, SArity),
functor(GSender, SFunctor, SArity),
asserta('$lgt_db_lookup_cache_'(GObj, GHead, GSender, GCall, '$lgt_update_ddef_table_opt'(UHead, UCall, UClause)))
)
; ( Scope = p(p(p)) ->
asserta('$lgt_db_lookup_cache_'(GObj, GHead, _, GCall, true))
; functor(Sender, SFunctor, SArity),
functor(GSender, SFunctor, SArity),
asserta('$lgt_db_lookup_cache_'(GObj, GHead, GSender, GCall, true))
)
).
'$lgt_unify_args'([], _).
'$lgt_unify_args'([Arg| Args], [Arg| ExtArgs]) :-
'$lgt_unify_args'(Args, ExtArgs).
% '$lgt_phrase'(+object_identifier, +grbody, ?list, +object_identifier, +scope)
%
% phrase/2 built-in method
'$lgt_phrase'(Obj, GRBody, Input, Sender, Scope) :-
catch(
'$lgt_phrase'(Obj, GRBody, Input, [], Sender, Scope),
error(Error, _),
throw(error(Error, Obj::phrase(GRBody, Input), Sender))).
% '$lgt_phrase'(+object_identifier, +grbody, +list, ?list, +object_identifier, +scope)
%
% phrase/3 built-in method
'$lgt_phrase'(Obj, GRBody, Input, Rest, Sender, _) :-
var(GRBody),
throw(error(instantiation_error, Obj::phrase(GRBody, Input, Rest), Sender)).
'$lgt_phrase'(Obj, GRBody, Input, Rest, Sender, _) :-
\+ callable(GRBody),
throw(error(type_error(callable, GRBody), Obj::phrase(GRBody, Input, Rest), Sender)).
'$lgt_phrase'(Obj, GRBody, Input, Rest, Sender, _) :-
nonvar(Input),
\+ '$lgt_is_list'(Input),
throw(error(type_error(list, Input), Obj::phrase(GRBody, Input, Rest), Sender)).
'$lgt_phrase'(Obj, GRBody, Input, Rest, Sender, _) :-
nonvar(Rest),
\+ '$lgt_is_list'(Rest),
throw(error(type_error(list, Rest), Obj::phrase(GRBody, Input, Rest), Sender)).
'$lgt_phrase'(Obj, (GRFirst, GRSecond), Input, Rest, Sender, Scope) :-
!,
'$lgt_phrase'(Obj, GRFirst, Input, Rest1, Sender, Scope),
'$lgt_phrase'(Obj, GRSecond, Rest1, Rest, Sender, Scope).
'$lgt_phrase'(Obj, (GREither; GROr), Input, Rest, Sender, Scope) :-
!,
('$lgt_phrase'(Obj, GREither, Input, Rest, Sender, Scope)
;
'$lgt_phrase'(Obj, GROr, Input, Rest, Sender, Scope)).
'$lgt_phrase'(Obj, (GRIf -> GRThen), Input, Rest, Sender, Scope) :-
!,
'$lgt_phrase'(Obj, GRIf, Input, Rest1, Sender, Scope),
'$lgt_phrase'(Obj, GRThen, Rest1, Rest, Sender, Scope).
'$lgt_phrase'(Obj, \+ GRBody, Input, Rest, Sender, Scope) :-
!,
\+ '$lgt_phrase'(Obj, GRBody, Input, Rest, Sender, Scope),
Input = Rest.
'$lgt_phrase'(_, [], Input, Rest, _, _) :-
!,
Input = Rest.
'$lgt_phrase'(_, [Head| Tail], Input, Rest, _, _) :-
!,
'$lgt_append'([Head| Tail], Rest, Input).
'$lgt_phrase'(Obj, NonTerminal, Input, Rest, Sender, Scope) :-
( '$lgt_current_object_'(Obj, Prefix, Dcl, Def, _, _, _, _) ->
NonTerminal =.. [Functor| Args],
'$lgt_append'(Args, [Input, Rest], Args2),
Pred =.. [Functor| Args2],
( call_with_args(Dcl, Pred, PScope, _, _, _, _, SCtn, _) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
call_with_args(Def, Pred, Sender, Obj, Obj, Call, _) ->
call(Call)
; % non-terminal is not within the scope of the sender:
( PScope == p ->
throw(error(permission_error(access, private_non_terminal, NonTerminal), Obj::phrase(NonTerminal, Input, Rest), Sender))
; throw(error(permission_error(access, protected_non_terminal, NonTerminal), Obj::phrase(NonTerminal, Input, Rest), Sender))
)
)
; % no declaration found for non-terninal:
Obj = Sender,
( call_with_args(Def, Pred, Obj, Obj, Obj, Call)
; call_with_args(Prefix, _, _, _, _, _, _, DDef, _), call_with_args(DDef, Pred, Obj, Obj, Obj, Call)
) ->
call(Call)
; throw(error(existence_error(non_terminal_declaration, NonTerminal), Obj::phrase(NonTerminal, Input, Rest), Sender))
)
; % not a current object:
( catch(current_module(Obj), _, fail) ->
':'(Obj, Pred)
; throw(error(existence_error(object, Obj), Obj::phrase(NonTerminal, Input, Rest), Sender))
)
).
% '$lgt_expand_term'(+object_identifier, ?term, ?term, +object_identifier, @scope)
%
% expand_term/2 built-in method
'$lgt_expand_term'(Obj, Term, Expansion, Sender, Scope) :-
( var(Term) ->
Expansion = Term
; '$lgt_term_expansion'(Obj, Term, Expand, Sender, Scope) ->
Expansion = Expand
; Term = (_ --> _) ->
'$lgt_dcgrule_to_clause'(Term, Clause),
Expansion = Clause
; Expansion = Term
).
% '$lgt_term_expansion'(+object_identifier, ?term, ?term, +object_identifier, @scope)
%
% calls the term_expansion/2 user-defined predicate
%
% if there is a scope directive, then the call fails if the sender is not within scope;
% when there is no scope directive, then we call any local definition when the sender
% and the target object are the same
'$lgt_term_expansion'(Obj, Term, Expansion, Sender, Scope) :-
'$lgt_current_object_'(Obj, Prefix, Dcl, Def, _, _, _, _),
( ( call_with_args(Dcl, term_expansion(_, _), PScope, _, _, _, _, SCtn, _) ->
( (\+ \+ PScope = Scope; Sender = SCtn) ->
call_with_args(Def, term_expansion(Term, Expansion), Sender, Obj, Obj, Call, _)
)
)
; Obj = Sender,
( call_with_args(Def, term_expansion(Term, Expansion), Obj, Obj, Obj, Call) ->
true
; call_with_args(Prefix, _, _, _, _, _, _, DDef, _),
call_with_args(DDef, term_expansion(Term, Expansion), Obj, Obj, Obj, Call)
)
),
!,
once(Call).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% message sending
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% '$lgt_send_to_self'(+object, ?term, +object)
'$lgt_send_to_self'(Obj, Pred, Sender) :-
var(Pred),
throw(error(instantiation_error, Obj::Pred, Sender)).
'$lgt_send_to_self'(Obj, Pred, Sender) :-
'$lgt_send_to_self_nv'(Obj, Pred, Sender).
% '$lgt_send_to_self_nv'(+object, +term, +object)
'$lgt_send_to_self_nv'(Obj, Pred, Sender) :-
'$lgt_self_lookup_cache_'(Obj, Pred, Sender, Call),
!,
call(Call).
'$lgt_send_to_self_nv'(Obj, Pred, Sender) :-
'$lgt_current_object_'(Obj, _, Dcl, Def, _, _, _, _),
( call_with_args(Dcl, Pred, Scope, _, _, _, _, SCtn, _) -> % lookup declaration
( (Scope = p(_); Sender = SCtn) -> % check scope
functor(Pred, PFunctor, PArity), functor(GPred, PFunctor, PArity), % construct predicate template
functor(Obj, OFunctor, OArity), functor(GObj, OFunctor, OArity), % construct object template
functor(Sender, SFunctor, SArity), functor(GSender, SFunctor, SArity), % construct "sender" template
( call_with_args(Def, GPred, GSender, GObj, GObj, GCall, _) -> % lookup definition
asserta('$lgt_self_lookup_cache_'(GObj, GPred, GSender, GCall)), % cache lookup result
(GObj, GPred, GSender) = (Obj, Pred, Sender), % unify message arguments
call(GCall)
)
; % message is not within the scope of the sender:
throw(error(permission_error(access, private_predicate, Pred), Obj::Pred, Sender))
)
; % no predicate declaration, check if it's a built-in predicate:
( '$lgt_built_in'(Pred) ->
call(Pred)
; throw(error(existence_error(predicate_declaration, Pred), Obj::Pred, Sender))
)
).
% '$lgt_send_to_object'(@object, ?term, +object)
'$lgt_send_to_object'(Obj, Pred, Sender) :-
var(Obj),
throw(error(instantiation_error, Obj::Pred, Sender)).
'$lgt_send_to_object'(Obj, Pred, Sender) :-
var(Pred),
throw(error(instantiation_error, Obj::Pred, Sender)).
'$lgt_send_to_object'(Obj, Pred, Sender) :-
'$lgt_send_to_object_nv'(Obj, Pred, Sender).
% '$lgt_send_to_object_nv'(+object, +term, +object)
'$lgt_send_to_object_nv'(Obj, Pred, Sender) :-
'$lgt_obj_lookup_cache_'(Obj, Pred, Sender, Call),
!,
\+ ('$lgt_before_'(Obj, Pred, Sender, _, BCall), \+ call(BCall)),
call(Call),
\+ ('$lgt_after_'(Obj, Pred, Sender, _, ACall), \+ call(ACall)).
'$lgt_send_to_object_nv'(Obj, Pred, Sender) :-
'$lgt_current_object_'(Obj, _, Dcl, Def, _, _, _, _),
!,
( call_with_args(Dcl, Pred, Scope, _, _, _, _, _, _) -> % lookup declaration
( Scope = p(p(_)) -> % check scope
functor(Pred, PFunctor, PArity), functor(GPred, PFunctor, PArity), % construct predicate template
functor(Obj, OFunctor, OArity), functor(GObj, OFunctor, OArity), % construct object template
( call_with_args(Def, GPred, GSender, GObj, GObj, GCall, _) -> % lookup definition
asserta('$lgt_obj_lookup_cache_'(GObj, GPred, GSender, GCall)), % cache lookup result
(GObj, GPred, GSender) = (Obj, Pred, Sender), % unify message arguments
\+ ('$lgt_before_'(Obj, Pred, Sender, _, BCall), \+ call(BCall)), % call before event handlers
call(GCall), % call method
\+ ('$lgt_after_'(Obj, Pred, Sender, _, ACall), \+ call(ACall)) % call after event handlers
)
; % message is not within the scope of the sender:
( Scope == p ->
throw(error(permission_error(access, private_predicate, Pred), Obj::Pred, Sender))
; throw(error(permission_error(access, protected_predicate, Pred), Obj::Pred, Sender))
)
)
; % no predicate declaration, check if it's a built-in predicate:
( '$lgt_built_in'(Pred) ->
call(Pred)
; throw(error(existence_error(predicate_declaration, Pred), Obj::Pred, Sender))
)
).
'$lgt_send_to_object_nv'(Obj, Pred, _) :-
catch(current_module(Obj), _, fail),
!,
':'(Obj, Pred).
'$lgt_send_to_object_nv'(Obj, Pred, Sender) :-
throw(error(existence_error(object, Obj), Obj::Pred, Sender)).
% '$lgt_send_to_object_ne'(@object, ?term, +object)
'$lgt_send_to_object_ne'(Obj, Pred, Sender) :-
var(Obj),
throw(error(instantiation_error, Obj::Pred, Sender)).
'$lgt_send_to_object_ne'(Obj, Pred, Sender) :-
var(Pred),
throw(error(instantiation_error, Obj::Pred, Sender)).
'$lgt_send_to_object_ne'(Obj, Pred, Sender) :-
'$lgt_send_to_object_ne_nv'(Obj, Pred, Sender).
% '$lgt_send_to_object_ne_nv'(+object, +term, +object)
'$lgt_send_to_object_ne_nv'(Obj, Pred, Sender) :-
'$lgt_obj_lookup_cache_'(Obj, Pred, Sender, Call),
!,
call(Call).
'$lgt_send_to_object_ne_nv'(Obj, Pred, Sender) :-
'$lgt_current_object_'(Obj, _, Dcl, Def, _, _, _, _),
!,
( call_with_args(Dcl, Pred, Scope, _, _, _, _, _, _) -> % lookup declaration
( Scope = p(p(_)) -> % check scope
functor(Pred, PFunctor, PArity), functor(GPred, PFunctor, PArity), % construct predicate template
functor(Obj, OFunctor, OArity), functor(GObj, OFunctor, OArity), % construct object template
( call_with_args(Def, GPred, GSender, GObj, GObj, GCall, _) -> % lookup definition
asserta('$lgt_obj_lookup_cache_'(GObj, GPred, GSender, GCall)), % cache lookup result
(GObj, GPred, GSender) = (Obj, Pred, Sender), % unify message arguments
call(GCall) % call method
)
; % message is not within the scope of the sender:
( Scope == p ->
throw(error(permission_error(access, private_predicate, Pred), Obj::Pred, Sender))
; throw(error(permission_error(access, protected_predicate, Pred), Obj::Pred, Sender))
)
)
; % no predicate declaration, check if it's a built-in predicate:
( '$lgt_built_in'(Pred) ->
call(Pred)
; throw(error(existence_error(predicate_declaration, Pred), Obj::Pred, Sender)))
).
'$lgt_send_to_object_ne_nv'(Obj, Pred, _) :-
catch(current_module(Obj), _, fail),
!,
':'(Obj, Pred).
'$lgt_send_to_object_ne_nv'(Obj, Pred, Sender) :-
throw(error(existence_error(object, Obj), Obj::Pred, Sender)).
% '$lgt_send_to_super'(+object, ?term, +object, +object)
'$lgt_send_to_super'(_, Pred, This, _) :-
var(Pred),
throw(error(instantiation_error, ^^Pred, This)).
'$lgt_send_to_super'(Self, Pred, This, Sender) :-
'$lgt_send_to_super_nv'(Self, Pred, This, Sender).
% '$lgt_send_to_super_nv'(+object, +term, +object, +object)
'$lgt_send_to_super_nv'(Self, Pred, This, Sender) :-
'$lgt_super_lookup_cache_'(Self, Pred, This, Sender, Call),
!,
call(Call).
'$lgt_send_to_super_nv'(Self, Pred, This, Sender) :-
'$lgt_current_object_'(Self, _, Dcl, _, _, _, _, _),
call_with_args(Dcl, Pred, Scope, _, _, _, _, SCtn, _),
!,
( (Scope = p(_); This = SCtn) -> % check scope
'$lgt_current_object_'(This, _, _, _, Super, _, _, _),
functor(Pred, PFunctor, PArity), functor(GPred, PFunctor, PArity), % construct predicate template
functor(This, TFunctor, TArity), functor(GThis, TFunctor, TArity), % construct "this" template
functor(Self, SFunctor, SArity), functor(GSelf, SFunctor, SArity), % construct "self" template
( call_with_args(Super, GPred, GSender, GThis, GSelf, GCall, Ctn) -> % lookup definition
( Ctn \= GThis ->
asserta('$lgt_super_lookup_cache_'(GSelf, GPred, GThis, GSender, GCall)), % cache lookup result
(GSelf, GPred, GThis, GSender) = (Self, Pred, This, Sender), % unify message arguments
call(GCall) % call inherited definition
; throw(error(endless_loop(Pred), ^^Pred, This))
)
)
; % message is not within the scope of the sender:
throw(error(permission_error(access, private_predicate, Pred), ^^Pred, This))
).
'$lgt_send_to_super_nv'(_, Pred, This, _) :-
( '$lgt_built_in'(Pred) ->
call(Pred)
; throw(error(existence_error(predicate_declaration, Pred), ^^Pred, This))
).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% meta-calls
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% '$lgt_metacall_in_object'(?term, ?term, ?term, +object, +object, +object)
%
% performs a meta-call constructed from a closure and a list of addtional arguments
'$lgt_metacall_in_object'(Closure, Args, MetaCallCtx, Sender, This, _) :-
var(Closure),
Goal =.. [call, Closure| Args],
( atom(MetaCallCtx) ->
throw(error(instantiation_error, This::Goal, This))
; throw(error(instantiation_error, Sender::Goal, This))
).
'$lgt_metacall_in_object'(Closure, Args, MetaCallCtx, Sender, This, _) :-
\+ callable(Closure),
Goal =.. [call, Closure| Args],
( atom(MetaCallCtx) ->
throw(error(type_error(callable, Closure), This::Goal, This))
; throw(error(type_error(callable, Closure), Sender::Goal, This))
).
'$lgt_metacall_in_object'(Closure, ExtraArgs, local, Sender, This, Self) :-
!,
Closure =.. [Functor| Args],
'$lgt_append'(Args, ExtraArgs, FullArgs),
Pred =.. [Functor| FullArgs],
'$lgt_metacall_in_object'(Pred, local, Sender, This, Self).
'$lgt_metacall_in_object'(Closure, ExtraArgs, MetaVars, Sender, This, Self) :-
Closure =.. [Functor| Args],
'$lgt_append'(Args, ExtraArgs, FullArgs),
Pred =.. [Functor| FullArgs],
( \+ '$lgt_member'(Closure, MetaVars) ->
'$lgt_metacall_in_object'(Pred, local, Sender, This, Self)
; '$lgt_metacall_in_object'(Pred, [Pred], Sender, This, Self)
).
% '$lgt_metacall_in_object'(?term, ?term, +object, +object, +object)
%
% performs a meta-call at runtime
'$lgt_metacall_in_object'(Pred, MetaCallCtx, Sender, This, _) :-
var(Pred),
( atom(MetaCallCtx) ->
throw(error(instantiation_error, This::call(Pred), This))
; throw(error(instantiation_error, Sender::call(Pred), This))
).
'$lgt_metacall_in_object'(Pred, compiled, _, _, _) :-
!,
call(Pred).
'$lgt_metacall_in_object'(Pred, local, Sender, This, Self) :-
!,
'$lgt_current_object_'(This, Prefix, _, _, _, _, _, _),
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, Prefix, [], _),
'$lgt_tr_body'(Pred, Call, DCall, Ctx),
( '$lgt_dbg_debugging_', '$lgt_debugging_'(Sender) ->
call(DCall)
; call(Call)
).
'$lgt_metacall_in_object'(Pred, MetaVars, Sender, This, Self) :-
( \+ '$lgt_member'(Pred, MetaVars) ->
'$lgt_current_object_'(This, Prefix, _, _, _, _, _, _),
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, Prefix, [], _)
; '$lgt_current_object_'(Sender, Prefix, _, _, _, _, _, _),
'$lgt_ctx_ctx'(Ctx, _, Sender, Sender, Self, Prefix, [], _)
),
'$lgt_tr_body'(Pred, Call, DCall, Ctx),
( '$lgt_dbg_debugging_', '$lgt_debugging_'(Sender) ->
call(DCall)
; call(Call)
).
% '$lgt_call_built_in'(+term, +term)
%
% needed for runtime translation of dynamic clauses
'$lgt_call_built_in'(Pred, Ctx) :-
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_current_object_'(This, _, _, Def, _, _, _, _),
( call_with_args(Def, Pred, Sender, This, Self, Call) ->
call(Call)
; call(Pred)
).
% '$lgt_call_within_context'(+object_identifier, +callable, +object_identifier)
%
% calls a goal within the context of the specified object
'$lgt_call_within_context'(Obj, Goal, This) :-
( '$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _) ->
'$lgt_ctx_ctx'(Ctx, _, Obj, Obj, Obj, Prefix, [], _),
'$lgt_tr_body'(Goal, TGoal, DGoal, Ctx),
( '$lgt_dbg_debugging_', '$lgt_debugging_'(Obj) ->
call(DGoal)
; call(TGoal)
)
; throw(error(existence_error(object, Obj), Obj<<Goal, This))
).
% '$lgt_call_ctg_pred'(+atom, +atom, +callable, +object_identifier, +object_identifier, +object_identifier)
%
% calls a category predicate directly, without using the message sending mechanism
'$lgt_call_ctg_pred'(Dcl, Def, Pred, Sender, This, Self) :-
( call_with_args(Dcl, Pred, _, _, _, _, _, _, _) ->
( '$lgt_imports_category_'(This, Ctg, _),
call_with_args(Def, Pred, Sender, This, Self, Call, Ctg) ->
call(Call)
)
; throw(error(existence_error(predicate_declaration, Pred), ':'(Pred), This))
).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% built-in entity tables
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
'$lgt_built_in_object'(logtalk).
'$lgt_built_in_object'(user).
'$lgt_built_in_object'(debugger).
'$lgt_built_in_protocol'(monitoring).
'$lgt_built_in_category'(_) :-
fail.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% built-in entity table clauses
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
'$lgt_current_object_'(logtalk, '$lgt_bio_logtalk_0_', '$lgt_bio_logtalk_0__dcl', '$lgt_bio_logtalk_0__def', '$lgt_bio_logtalk_0__super', static, no, no).
'$lgt_current_object_'(user, '$lgt_bio_user_0_', '$lgt_bio_user_0__dcl', '$lgt_bio_user_0__def', '$lgt_bio_user_0__super', static, no, yes).
'$lgt_current_object_'(debugger, '$lgt_bio_debugger_0_', '$lgt_bio_debugger_0__dcl', '$lgt_bio_debugger_0__def', '$lgt_bio_debugger_0__super', static, no, no).
'$lgt_current_protocol_'(monitoring, '$lgt_bip_monitoring_0_', static).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% "logtalk" built-in object
%
% empty object, optionally used as root for both prototype and class-based
% hierarchies
%
% its clauses correspond to a virtual compilation of the object
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
:- dynamic('$lgt_bio_logtalk_0__ddcl'/2).
:- dynamic('$lgt_bio_logtalk_0__ddef'/5).
'$lgt_bio_logtalk_0_'('$lgt_bio_logtalk_0__dcl', '$lgt_bio_logtalk_0__def', '$lgt_bio_logtalk_0__super', '$lgt_bio_logtalk_0__idcl', '$lgt_bio_logtalk_0__idef', '$lgt_bio_logtalk_0__ddcl', '$lgt_bio_logtalk_0__ddef', '$lgt_bio_logtalk_0__alias').
'$lgt_bio_logtalk_0__dcl'(_, _, _, _, _, _) :-
fail.
'$lgt_bio_logtalk_0__dcl'(Pred, Scope, (dynamic), no, no, no, logtalk, logtalk) :-
'$lgt_bio_logtalk_0__ddcl'(Pred, Scope).
'$lgt_bio_logtalk_0__def'(_, _, _, _, _) :-
fail.
'$lgt_bio_logtalk_0__super'(_, _, _, _, _, _) :-
fail.
'$lgt_bio_logtalk_0__def'(Pred, Sender, This, Self, Call, logtalk) :-
'$lgt_bio_logtalk_0__ddef'(Pred, Sender, This, Self, Call).
'$lgt_bio_logtalk_0__idcl'(Pred, Scope, (dynamic), no, no, no, logtalk, logtalk) :-
'$lgt_bio_logtalk_0__ddcl'(Pred, Scope).
'$lgt_bio_logtalk_0__idef'(Pred, Sender, This, Self, Call, logtalk) :-
'$lgt_bio_logtalk_0__ddef'(Pred, Sender, This, Self, Call).
'$lgt_bio_logtalk_0__alias'(_, Pred, Pred).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% "user" built-in pseudo-object
%
% represents the Prolog database (excluding built-in predicates)
%
% the clauses correspond to a virtual compilation of the object
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% the following clauses correspond to a virtual compilation of the built-in pseudo-object "user"
'$lgt_bio_user_0_'('$lgt_bio_user_0__dcl', '$lgt_bio_user_0__def', '$lgt_bio_user_0__super', '$lgt_bio_user_0__idcl', '$lgt_bio_user_0__idef', '$lgt_bio_user_0__ddcl', '$lgt_bio_user_0__ddef', '$lgt_bio_user_0__alias').
'$lgt_bio_user_0__dcl'(Pred, p(p(p)), Type, no, no, no) :-
( nonvar(Pred) ->
\+ '$lgt_built_in'(Pred),
functor(Pred, Functor, Arity),
current_predicate(Functor/Arity)
; current_predicate(Functor/Arity),
\+ '$lgt_hidden_functor'(Functor),
functor(Pred, Functor, Arity),
\+ '$lgt_built_in'(Pred)
),
( '$lgt_predicate_property'(Pred, (dynamic)) ->
Type = (dynamic)
; Type = static
).
'$lgt_bio_user_0__dcl'(Pred, p(p(p)), Type, Meta, NonTerminal, Synchronized, user, user) :-
'$lgt_bio_user_0__dcl'(Pred, p(p(p)), Type, Meta, NonTerminal, Synchronized).
'$lgt_bio_user_0__def'(Pred, _, _, _, Pred).
'$lgt_bio_user_0__def'(Pred, _, _, _, Pred, user).
'$lgt_bio_user_0__alias'(_, Pred, Pred).
% '$lgt_hidden_functor'(+atom)
%
% hidden functors include Logtalk pre-processor and runtime internal functors
% and those used in the compiled code of objects, protocols, and categories
'$lgt_hidden_functor'(Functor) :-
atom_concat('$lgt_', _, Functor),
!.
'$lgt_hidden_functor'(Functor) :-
'$lgt_current_category_'(_, Prefix, _, _),
atom_concat(Prefix, _, Functor),
!.
'$lgt_hidden_functor'(Functor) :-
'$lgt_current_object_'(_, Prefix, _, _, _, _, _, _),
atom_concat(Prefix, _, Functor),
!.
'$lgt_hidden_functor'(Functor) :-
'$lgt_current_protocol_'(_, Prefix, _),
atom_concat(Prefix, _, Functor),
!.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% "debugger" built-in object
%
% implements the Logtalk buit-in debugging features
%
% the clauses correspond to a virtual compilation of the object
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% the following clauses correspond to a virtual compilation of the built-in object debugger
'$lgt_bio_debugger_0_'('$lgt_bio_debugger_0__dcl', '$lgt_bio_debugger_0__def', '$lgt_bio_debugger_0__super', '$lgt_bio_debugger_0__idcl', '$lgt_bio_debugger_0__idef', '$lgt_bio_debugger_0__ddcl', '$lgt_bio_debugger_0__ddef', '$lgt_bio_debugger_0__alias').
% debugger public protocol
'$lgt_bio_debugger_0__dcl'(reset, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(debug, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(nodebug, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(debugging, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(debugging(_), p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(trace, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(notrace, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(spy(_), p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(spy(_, _, _, _), p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(nospy(_), p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(nospy(_, _, _, _), p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(nospyall, p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(leash(_), p(p(p)), static, no, no, no).
'$lgt_bio_debugger_0__dcl'(Pred, p(p(p)), Type, Meta, NonTerminal, Synchronized, debugger, debugger) :-
'$lgt_bio_debugger_0__dcl'(Pred, p(p(p)), Type, Meta, NonTerminal, Synchronized).
'$lgt_bio_debugger_0__def'(reset, _, _, _, '$lgt_dbg_reset').
'$lgt_bio_debugger_0__def'(debug, _, _, _, '$lgt_dbg_debug').
'$lgt_bio_debugger_0__def'(nodebug, _, _, _, '$lgt_dbg_nodebug').
'$lgt_bio_debugger_0__def'(debugging, _, _, _, '$lgt_dbg_debugging').
'$lgt_bio_debugger_0__def'(debugging(Entity), _, _, _, '$lgt_dbg_debugging'(Entity)).
'$lgt_bio_debugger_0__def'(trace, _, _, _, '$lgt_dbg_trace').
'$lgt_bio_debugger_0__def'(notrace, _, _, _, '$lgt_dbg_notrace').
'$lgt_bio_debugger_0__def'(spy(Preds), _, _, _, '$lgt_dbg_spy'(Preds)).
'$lgt_bio_debugger_0__def'(nospy(Preds), _, _, _, '$lgt_dbg_nospy'(Preds)).
'$lgt_bio_debugger_0__def'(spy(Sender, This, Self, Goal), _, _, _, '$lgt_dbg_spy'(Sender, This, Self, Goal)).
'$lgt_bio_debugger_0__def'(nospy(Sender, This, Self, Goal), _, _, _, '$lgt_dbg_nospy'(Sender, This, Self, Goal)).
'$lgt_bio_debugger_0__def'(nospyall, _, _, _, '$lgt_dbg_nospyall').
'$lgt_bio_debugger_0__def'(leash(Ports), _, _, _, '$lgt_dbg_leash'(Ports)).
'$lgt_bio_debugger_0__def'(Pred, Sender, This, Self, Call, debugger) :-
'$lgt_bio_debugger_0__def'(Pred, Sender, This, Self, Call).
'$lgt_bio_debugger_0__alias'(_, Pred, Pred).
'$lgt_dbg_reset' :-
'$lgt_dbg_nospyall',
'$lgt_dbg_leash'(full),
'$lgt_dbg_nodebug'.
'$lgt_dbg_debug' :-
( '$lgt_dbg_debugging_' ->
write('Debugger is on: showing spy points for all objects compiled in debug mode.'), nl
; assertz('$lgt_dbg_debugging_'),
retractall('$lgt_dbg_tracing_'),
write('Debugger switched on: showing spy points for all objects compiled in debug mode.'), nl
).
'$lgt_dbg_nodebug' :-
( '$lgt_dbg_debugging_' ->
retractall('$lgt_dbg_debugging_'),
retractall('$lgt_dbg_tracing_'),
write('Debugger switched off.'), nl
; write('Debugger is off.'), nl
).
'$lgt_dbg_suspend'(Tracing) :-
( '$lgt_dbg_tracing_' ->
Tracing = true
; Tracing = false
),
retractall('$lgt_dbg_debugging_'),
retractall('$lgt_dbg_tracing_').
'$lgt_dbg_resume'(Tracing) :-
( Tracing == true ->
retractall('$lgt_dbg_tracing_'),
assertz('$lgt_dbg_tracing_')
; true
),
retractall('$lgt_dbg_debugging_'),
assertz('$lgt_dbg_debugging_').
'$lgt_dbg_trace' :-
( '$lgt_dbg_tracing_' ->
write('Debugger is on: tracing everything for all objects compiled in debug mode.'), nl
; assertz('$lgt_dbg_tracing_'),
retractall('$lgt_dbg_debugging_'),
assertz('$lgt_dbg_debugging_'),
write('Debugger switched on: tracing everything for all objects compiled in debug mode.'), nl
).
'$lgt_dbg_notrace' :-
( '$lgt_dbg_tracing_' ->
retractall('$lgt_dbg_tracing_'),
retractall('$lgt_dbg_debugging_'),
write('Debugger switched off.'), nl
; write('Debugger is off.'), nl
).
'$lgt_dbg_debugging' :-
( '$lgt_dbg_debugging_' ->
write('Debugger is on: '),
( '$lgt_dbg_tracing_' ->
write('tracing everything.'), nl
; write('showing spy points.'), nl
)
; write('Debugger is off.'), nl
), nl,
( '$lgt_dbg_spying_'(_, _) ->
write('Defined predicate spy points (Functor/Arity):'), nl,
forall(
'$lgt_dbg_spying_'(Functor, Arity),
(write(' '), writeq(Functor), write('/'), write(Arity), nl))
; write('No predicate spy points are defined.'), nl
), nl,
( '$lgt_dbg_spying_'(_, _, _, _) ->
write('Defined context spy points (Sender, This, Self, Goal):'), nl,
forall(
'$lgt_dbg_spying_'(Sender, This, Self, Goal),
(write(' '), '$lgt_dbg_pretty_print_spypoint'(Sender, This, Self, Goal), nl))
; write('No context spy points are defined.'), nl
), nl,
write('Leashed ports:'), nl, write(' '),
( '$lgt_dbg_leashing_'(_) ->
forall('$lgt_dbg_leashing_'(Port), (write(Port), write(' ')))
; write('(none)')
),
nl.
'$lgt_dbg_debugging'(Entity) :-
'$lgt_debugging_'(Entity).
'$lgt_dbg_pretty_print_spypoint'(Sender, This, Self, Goal) :-
current_output(Output),
( var(Sender) -> write('_, ')
; '$lgt_pretty_print_vars_quoted'(Output, Sender), write(', ')
),
( var(This) -> write('_, ')
; '$lgt_pretty_print_vars_quoted'(Output, This), write(', ')
),
( var(Self) -> write('_, ')
; '$lgt_pretty_print_vars_quoted'(Output, Self), write(', ')
),
( var(Goal) -> write('_')
; '$lgt_pretty_print_vars_quoted'(Output, Goal)
).
'$lgt_dbg_spy'(Preds) :-
nonvar(Preds),
'$lgt_dbg_spy_aux'(Preds),
write('Predicate spy points set.'), nl,
( '$lgt_dbg_debugging_' ->
true
; '$lgt_dbg_debug'
).
'$lgt_dbg_spy_aux'([]).
'$lgt_dbg_spy_aux'([Functor/Arity| Preds]) :-
nonvar(Functor),
nonvar(Arity),
( '$lgt_dbg_spying_'(Functor, Arity) ->
true
; assertz('$lgt_dbg_spying_'(Functor, Arity))
),
'$lgt_dbg_spy_aux'(Preds).
'$lgt_dbg_spy_aux'(Functor/Arity) :-
nonvar(Functor),
nonvar(Arity),
( '$lgt_dbg_spying_'(Functor, Arity) ->
true
; assertz('$lgt_dbg_spying_'(Functor, Arity))
).
'$lgt_dbg_nospy'(Preds) :-
'$lgt_dbg_nospy_aux'(Preds),
write('All matching predicate spy points removed.'), nl.
'$lgt_dbg_nospy_aux'(Preds) :-
( var(Preds) ->
retractall('$lgt_dbg_spying_'(_, _))
; '$lgt_dbg_nospy_aux2'(Preds)
).
'$lgt_dbg_nospy_aux2'([]).
'$lgt_dbg_nospy_aux2'([Functor/Arity| Preds]) :-
retractall('$lgt_dbg_spying_'(Functor, Arity)),
'$lgt_dbg_nospy_aux2'(Preds).
'$lgt_dbg_nospy_aux2'(Functor/Arity) :-
retractall('$lgt_dbg_spying_'(Functor, Arity)).
'$lgt_dbg_spy'(Sender, This, Self, Goal) :-
asserta('$lgt_dbg_spying_'(Sender, This, Self, Goal)),
write('Context spy point set.'), nl,
( '$lgt_dbg_debugging_' ->
true
; '$lgt_dbg_debug'
).
'$lgt_dbg_nospy'(Sender, This, Self, Goal) :-
retractall('$lgt_dbg_spying_'(Sender, This, Self, Goal)),
write('All matching context spy points removed.'), nl.
'$lgt_dbg_nospyall' :-
retractall('$lgt_dbg_spying_'(_, _)),
write('All predicate spy points removed.'), nl,
retractall('$lgt_dbg_spying_'(_, _, _, _)),
write('All context spy points removed.'), nl.
'$lgt_dbg_leash'(Value) :-
'$lgt_dbg_valid_leash_value'(Value, Ports),
retractall('$lgt_dbg_leashing_'(_)),
'$lgt_dbg_set_leash_ports'(Ports),
write('Debugger leash ports set to '), write(Ports), nl.
'$lgt_dbg_set_leash_ports'([]).
'$lgt_dbg_set_leash_ports'([Port| Ports]) :-
assertz('$lgt_dbg_leashing_'(Port)),
'$lgt_dbg_set_leash_ports'(Ports).
'$lgt_dbg_leashing_'(fact).
'$lgt_dbg_leashing_'(rule).
'$lgt_dbg_leashing_'(call).
'$lgt_dbg_leashing_'(exit).
'$lgt_dbg_leashing_'(redo).
'$lgt_dbg_leashing_'(fail).
'$lgt_dbg_leashing_'(exception).
'$lgt_dbg_valid_leash_value'(Shorthand, Ports) :-
atom(Shorthand),
Shorthand \== [],
!,
'$lgt_dbg_leash_shortand_ports'(Shorthand, Ports).
'$lgt_dbg_valid_leash_value'(Ports, Ports) :-
nonvar(Ports),
'$lgt_is_proper_list'(Ports),
'$lgt_dbg_valid_leash_ports'(Ports).
'$lgt_dbg_valid_leash_ports'([]).
'$lgt_dbg_valid_leash_ports'([Port| Ports]) :-
nonvar(Port),
'$lgt_dbg_valid_leash_port'(Port),
'$lgt_dbg_valid_leash_ports'(Ports).
'$lgt_dbg_valid_leash_port'(fact).
'$lgt_dbg_valid_leash_port'(rule).
'$lgt_dbg_valid_leash_port'(call).
'$lgt_dbg_valid_leash_port'(exit).
'$lgt_dbg_valid_leash_port'(redo).
'$lgt_dbg_valid_leash_port'(fail).
'$lgt_dbg_valid_leash_port'(exception).
'$lgt_dbg_leash_shortand_ports'(none, []).
'$lgt_dbg_leash_shortand_ports'(loose, [fact, rule, call]).
'$lgt_dbg_leash_shortand_ports'(half, [fact, rule, call, redo]).
'$lgt_dbg_leash_shortand_ports'(tight, [fact, rule, call, redo, fail, exception]).
'$lgt_dbg_leash_shortand_ports'(full, [fact, rule, call, exit, redo, fail, exception]).
'$lgt_dbg_leashing'(Port, Goal, DbgCtx, Code) :-
'$lgt_dbg_leashing_'(Port),
( '$lgt_dbg_tracing_' ->
Code = ' '
; '$lgt_dbg_spying'(Port, Goal, DbgCtx, Code),
( '$lgt_dbg_tracing_' ->
true
; assertz('$lgt_dbg_tracing_')
)
).
'$lgt_dbg_spying'(_, Goal, _, '+') :-
functor(Goal, Functor, Arity),
\+ \+ '$lgt_dbg_spying_'(Functor, Arity),
!.
'$lgt_dbg_spying'(_, Goal, DbgCtx, '*') :-
'$lgt_dbg_ctx'(DbgCtx, Sender, This, Self),
\+ \+ '$lgt_dbg_spying_'(Sender, This, Self, Goal).
'$lgt_dbg_fact'(Fact, DbgCtx) :-
'$lgt_dbg_debugging_',
\+ '$lgt_dbg_skipping_',
!,
'$lgt_dbg_port'(fact, Fact, _, DbgCtx, Action),
call(Action).
'$lgt_dbg_fact'(_, _).
'$lgt_dbg_head'(Head, DbgCtx) :-
'$lgt_dbg_debugging_',
\+ '$lgt_dbg_skipping_',
!,
'$lgt_dbg_port'(rule, Head, _, DbgCtx, Action),
call(Action).
'$lgt_dbg_head'(_, _).
'$lgt_dbg_goal'(Goal, TGoal, DbgCtx) :-
'$lgt_dbg_debugging_',
\+ '$lgt_dbg_skipping_',
!,
( '$lgt_dbg_port'(call, Goal, _, DbgCtx, CAction),
( CAction = skip ->
retractall('$lgt_dbg_skipping_'),
assertz('$lgt_dbg_skipping_'),
CAction2 = true
; CAction2 = CAction
),
( CAction2 = ignore ->
true
; call(CAction2),
catch(
call(TGoal),
Error,
('$lgt_dbg_port'(exception, Goal, Error, DbgCtx, TAction), (TAction = fail -> fail; throw(Error)))),
( '$lgt_dbg_port'(exit, Goal, _, DbgCtx, EAction),
call(EAction)
; '$lgt_dbg_port'(redo, Goal, _, DbgCtx, RAction),
( RAction = skip ->
retractall('$lgt_dbg_skipping_'),
assertz('$lgt_dbg_skipping_')
),
RAction = ignore
)
;
retractall('$lgt_dbg_skipping_'),
'$lgt_dbg_port'(fail, Goal, _, DbgCtx, _), fail
)
),
retractall('$lgt_dbg_skipping_').
'$lgt_dbg_goal'(_, TGoal, _) :-
call(TGoal).
'$lgt_dbg_port'(exception, _, error(logtalk_debugger_aborted), _, true) :-
!.
'$lgt_dbg_port'(Port, Goal, Error, DbgCtx, Action) :-
'$lgt_dbg_debugging_',
!,
( '$lgt_dbg_leashing'(Port, Goal, DbgCtx, Code) ->
repeat,
write(Code), '$lgt_dbg_write_port_name'(Port), writeq(Goal), write(' ? '),
catch('$lgt_read_single_char'(Option), _, fail),
once('$lgt_dbg_valid_port_option'(Option, Port, Code)),
'$lgt_dbg_do_port_option'(Option, Port, Goal, Error, DbgCtx, Action),
!
; ( '$lgt_dbg_tracing_' ->
write(' '), '$lgt_dbg_write_port_name'(Port), writeq(Goal), nl
; true
),
Action = true
).
'$lgt_dbg_port'(_, _, _, _, true).
'$lgt_dbg_write_port_name'(fact) :-
write(' Fact: ').
'$lgt_dbg_write_port_name'(rule) :-
write(' Rule: ').
'$lgt_dbg_write_port_name'(call) :-
write(' Call: ').
'$lgt_dbg_write_port_name'(exit) :-
write(' Exit: ').
'$lgt_dbg_write_port_name'(redo) :-
write(' Redo: ').
'$lgt_dbg_write_port_name'(fail) :-
write(' Fail: ').
'$lgt_dbg_write_port_name'(exception) :-
write(' Exception: ').
'$lgt_dbg_valid_port_option'(' ', _, _).
'$lgt_dbg_valid_port_option'(c, _, _).
'$lgt_dbg_valid_port_option'(l, _, _).
'$lgt_dbg_valid_port_option'(s, _, _).
'$lgt_dbg_valid_port_option'(i, call, _).
'$lgt_dbg_valid_port_option'(i, redo, _).
'$lgt_dbg_valid_port_option'(f, call, _).
'$lgt_dbg_valid_port_option'(f, redo, _).
'$lgt_dbg_valid_port_option'(n, _, _).
'$lgt_dbg_valid_port_option'(!, _, _).
'$lgt_dbg_valid_port_option'(@, _, _).
'$lgt_dbg_valid_port_option'(b, _, _).
'$lgt_dbg_valid_port_option'(a, _, _).
'$lgt_dbg_valid_port_option'(q, _, _).
'$lgt_dbg_valid_port_option'(d, _, _).
'$lgt_dbg_valid_port_option'(x, _, _).
'$lgt_dbg_valid_port_option'(h, _, _).
'$lgt_dbg_valid_port_option'(?, _, _).
'$lgt_dbg_valid_port_option'(=, _, _).
'$lgt_dbg_valid_port_option'(*, _, ' ').
'$lgt_dbg_valid_port_option'(+, _, ' ').
'$lgt_dbg_valid_port_option'(-, _, +).
'$lgt_dbg_valid_port_option'(e, exception, _).
'$lgt_dbg_do_port_option'(' ', _, _, _, _, true).
'$lgt_dbg_do_port_option'(c, _, _, _, _, true).
'$lgt_dbg_do_port_option'(l, _, _, _, _, true) :-
retractall('$lgt_dbg_tracing_').
'$lgt_dbg_do_port_option'(s, Port, _, _, _, Action) :-
'$lgt_dbg_do_port_option_skip'(Port, Action).
'$lgt_dbg_do_port_option'(i, _, _, _, _, ignore).
'$lgt_dbg_do_port_option'(f, _, _, _, _, fail).
'$lgt_dbg_do_port_option'(t, _, _, _, _, _) :-
( '$lgt_dbg_tracing_' ->
true
; assertz('$lgt_dbg_tracing_')
),
fail.
'$lgt_dbg_do_port_option'(n, _, _, _, _, true) :-
'$lgt_dbg_nodebug'.
'$lgt_dbg_do_port_option'(=, _, _, _, _, _) :-
'$lgt_dbg_debugging',
fail.
'$lgt_dbg_do_port_option'(+, _, Goal, _, _, _) :-
( Goal = (_ :: Pred) ->
functor(Pred, Functor, Arity)
; functor(Goal, Functor, Arity)
),
'$lgt_dbg_spy'(Functor/Arity),
fail.
'$lgt_dbg_do_port_option'(-, _, Goal, _, _, true) :-
( Goal = (_ :: Pred) ->
functor(Pred, Functor, Arity)
; functor(Goal, Functor, Arity)
),
'$lgt_dbg_nospy'(Functor/Arity).
'$lgt_dbg_do_port_option'(*, _, Goal, _, _, _) :-
functor(Goal, Functor, Arity),
functor(CGoal, Functor, Arity),
write(' Enter a context spy point term formatted as (Sender, This, Self, Goal): '),
read(Spypoint),
Spypoint = (Sender, This, Self, CGoal),
'$lgt_dbg_spy'(Sender, This, Self, CGoal),
fail.
'$lgt_dbg_do_port_option'(!, Port, Goal, Error, DbgCtx, Action) :-
'$lgt_dbg_do_port_option'(@, Port, Goal, Error, DbgCtx, Action).
'$lgt_dbg_do_port_option'(@, _, _, _, _, _) :-
write(' ?- '),
read(Goal),
call(Goal) ->
fail.
'$lgt_dbg_do_port_option'(b, _, _, _, _, _) :-
( '$lgt_compiler_flag'(supports_break_predicate, true) ->
'$lgt_dbg_suspend'(Tracing),
break,
'$lgt_dbg_resume'(Tracing)
; write(' break no supportd on this Prolog compiler.'), nl
),
fail.
'$lgt_dbg_do_port_option'(a, _, _, _, _, _) :-
throw(error(logtalk_debugger_aborted)).
'$lgt_dbg_do_port_option'(q, _, _, _, _, _) :-
halt.
'$lgt_dbg_do_port_option'(d, _, Goal, _, _, _) :-
write(' Current goal: '), write_term(Goal, [ignore_ops(true)]), nl,
fail.
'$lgt_dbg_do_port_option'(x, _, _, _, DbgCtx, _) :-
'$lgt_dbg_ctx'(DbgCtx, Sender, This, Self),
write(' Sender: '), writeq(Sender), nl,
write(' This: '), writeq(This), nl,
write(' Self: '), writeq(Self), nl,
fail.
'$lgt_dbg_do_port_option'(e, _, _, Error, _, _) :-
write(' Exception term: '), writeq(Error), nl,
fail.
'$lgt_dbg_do_port_option'(h, _, _, _, _, _) :-
write(' Available options are:'), nl,
write(' c - creep (go on; you may use also the spacebar)'), nl,
write(' l - leap (continues execution until the next spy point is found)'), nl,
write(' s - skip (skips debugging for the current goal; only meaningful at call and redo ports)'), nl,
write(' i - ignore (ignores goal, assumes that it succeeded)'), nl,
write(' f - fail (forces backtracking)'), nl,
write(' n - nodebug (turns off debugging)'), nl,
write(' ! - command (reads and executes a query)'), nl,
write(' @ - command (reads and executes a query)'), nl,
write(' b - break (suspends execution and starts new interpreter; type end_of_file to terminate)'), nl,
write(' a - abort (returns to top level interpreter)'), nl,
write(' q - quit (quits Logtalk)'), nl,
write(' d - display (writes current goal without using operator notation)'), nl,
write(' x - context (prints execution context)'), nl,
write(' e - exception (prints exception term thrown by current goal)'), nl,
write(' = - debugging (prints debugging information)'), nl,
write(' * - add (adds a context spy point for current goal)'), nl,
write(' + - add (adds a predicate spy point for current goal)'), nl,
write(' - - remove (removes a predicate spy point for current goal)'), nl,
write(' h - help (prints this list of options)'), nl,
write(' ? - help (prints this list of options)'), nl,
fail.
'$lgt_dbg_do_port_option'(?, Port, Goal, Error, DbgCtx, Action) :-
'$lgt_dbg_do_port_option'(h, Port, Goal, Error, DbgCtx, Action).
'$lgt_dbg_do_port_option_skip'(exit, true).
'$lgt_dbg_do_port_option_skip'(fail, true).
'$lgt_dbg_do_port_option_skip'(fact, true).
'$lgt_dbg_do_port_option_skip'(rule, true).
'$lgt_dbg_do_port_option_skip'(exception, true).
'$lgt_dbg_do_port_option_skip'(call, skip).
'$lgt_dbg_do_port_option_skip'(redo, skip).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% "monitoring" built-in protocol
%
% implements the Logtalk event handlers protocol
%
% the clauses correspond to a virtual compilation of the protocol
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
'$lgt_bip_monitoring_0_'('$lgt_bip_monitoring_0__dcl', '$lgt_bip_monitoring_0__alias').
'$lgt_bip_monitoring_0__dcl'(before(_, _, _), p(p(p)), static, no, no, no).
'$lgt_bip_monitoring_0__dcl'(after(_, _, _), p(p(p)), static, no, no, no).
'$lgt_bip_monitoring_0__dcl'(Pred, Scope, Type, Meta, NonTerminal, Synchronized, monitoring) :-
'$lgt_bip_monitoring_0__dcl'(Pred, Scope, Type, Meta, NonTerminal, Synchronized).
'$lgt_bip_monitoring_0__alias'(_, Pred, Pred).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% pre-processor - compiles Logtalk source files to Prolog
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% '$lgt_load_files'(@source_file_name)
% '$lgt_load_files'(@source_file_name_list)
%
% compiles to disk and then loads to memory a source file or a list of source files
'$lgt_load_files'([]) :-
!.
'$lgt_load_files'([File| Files]) :-
!,
'$lgt_load_file'(File),
'$lgt_load_files'(Files).
'$lgt_load_files'(File) :-
'$lgt_load_file'(File).
% '$lgt_load_file'(@source_file_name)
%
% compiles to disk and then loads to memory a source file
'$lgt_load_file'(Term) :-
compound(Term),
!,
Term =.. [Library, File],
'$lgt_expand_library_path'(Library, Path),
'$lgt_current_directory'(Current),
'$lgt_change_directory'(Path),
'$lgt_current_directory'(ExpandedPath),
( Current \== ExpandedPath ->
'$lgt_report_working_directory'(ExpandedPath),
'$lgt_load_file'(File),
'$lgt_change_directory'(Current),
'$lgt_report_working_directory'(Current)
; '$lgt_load_file'(File)
).
'$lgt_load_file'(File) :-
'$lgt_current_directory'(Directory),
( '$lgt_loaded_file_'(File, Directory) ->
( '$lgt_compiler_flag'(reload, skip) ->
'$lgt_report_skipping_file'(File)
; '$lgt_report_reloading_file'(File),
'$lgt_compile_file'(File),
'$lgt_file_name'(prolog, File, PrologFile),
'$lgt_load_prolog_code'(PrologFile, File),
'$lgt_report_reloaded_file'(File)
)
; '$lgt_report_loading_file'(File),
'$lgt_compile_file'(File),
'$lgt_file_name'(prolog, File, PrologFile),
'$lgt_load_prolog_code'(PrologFile, File),
'$lgt_report_loaded_file'(File),
assertz('$lgt_loaded_file_'(File, Directory))
).
% '$lgt_redefined_entity'(@entity_identifier, -atom)
%
% true if an entity of the same name is already loaded; returns entity type
'$lgt_redefined_entity'(Entity, object) :-
'$lgt_current_object_'(Entity, _, _, _, _, _, _, _),
!.
'$lgt_redefined_entity'(Entity, protocol) :-
'$lgt_current_protocol_'(Entity, _, _),
!.
'$lgt_redefined_entity'(Entity, category) :-
'$lgt_current_category_'(Entity, _, _, _).
% '$lgt_report_redefined_entity'(+atom, @entity_identifier)
%
% prints a warning for redefined entities
'$lgt_report_redefined_entity'(Type, Entity) :-
( '$lgt_compiler_flag'(report, on) ->
'$lgt_inc_load_warnings_counter',
write(' WARNING! Redefining '), write(Type), write(' '),
current_output(Output), '$lgt_pretty_print_vars_quoted'(Output, Entity), nl
; true
).
% '$lgt_report_compiling_entity'(+atom, +entity_identifier)
%
% prints a message that an entity is being compiled
'$lgt_report_compiling_entity'(Type, Entity) :-
retractall('$lgt_pp_entity_warnings_flag_'),
( '$lgt_compiler_flag'(report, on) ->
write('compiling '), write(Type), write(' '),
current_output(Output), '$lgt_pretty_print_vars_quoted'(Output, Entity),
( '$lgt_compiler_flag'(debug, on) ->
write(' in debug mode... ')
; write('... ')
)
; true
).
% '$lgt_report_compiled_entity'(+atom, +entity_identifier)
%
% prints a message that an entity is finished compiling
'$lgt_report_compiled_entity'(_, _) :-
( '$lgt_compiler_flag'(report, on) ->
( '$lgt_pp_entity_warnings_flag_' ->
nl
; true
),
write('compiled'), nl
; true
).
% '$lgt_report_loaded_entity'(+entity_identifier)
%
% prints a message that an entity finished loading
'$lgt_report_loaded_entity'(Entity) :-
( '$lgt_compiler_flag'(report, on) ->
write('< '), writeq(Entity), write(' loaded'), nl
; true
).
% '$lgt_report_working_directory'(+atom)
%
% prints the working directory being used for compiling/loading source files
'$lgt_report_working_directory'(Directory) :-
( '$lgt_compiler_flag'(report, on) ->
nl, write('+++ working on directory '), write(Directory), nl
; true
).
% '$lgt_report_compiling_file'(+entity_identifier)
%
% prints a message that an entity is being compiled
'$lgt_report_compiling_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('>>> compiling source file '), writeq(File),
( '$lgt_compiler_flag'(debug, on) ->
write(' in debug mode...')
; write('...')
),
nl
; true
).
% '$lgt_report_up_to_date_file'(+entity_identifier)
%
% prints a message that an entity is up-to-date
'$lgt_report_up_to_date_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('>>> compiling source file '), writeq(File), write('... up-to-date'), nl
; true
).
% '$lgt_report_compiled_file'(+atom)
%
% prints a message that a source file is finished compiling
'$lgt_report_compiled_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('>>> '), writeq(File), write(' source file compiled'), nl
; true
).
% '$lgt_report_loading_file'(+atom)
%
% prints a message that a file is being loaded
'$lgt_report_loading_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('<<< loading source file '), writeq(File), write('... '), nl
; true
).
% '$lgt_report_reloading_file'(+atom)
%
% prints a message that a file is being reloaded
'$lgt_report_reloading_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('<<< reloading source file '), writeq(File), write('... '), nl
; true
).
% '$lgt_report_skipping_file'(+atom)
%
% prints a message that loading a file is being skiped
'$lgt_report_skipping_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('<<< skipping loading of source file '), writeq(File), write(' (already loaded) '), nl
; true
).
% '$lgt_report_loaded_file'(+entity_identifier)
%
% prints a message that a source file finished loading
'$lgt_report_loaded_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('<<< '), writeq(File), write(' source file loaded'), nl
; true
).
% '$lgt_report_reloaded_file'(+entity_identifier)
%
% prints a message that a source file finished reloading
'$lgt_report_reloaded_file'(File) :-
( '$lgt_compiler_flag'(report, on) ->
write('<<< '), writeq(File), write(' source file reloaded'), nl
; true
).
% '$lgt_compile_files'(@source_file_name)
% '$lgt_compile_files'(@source_file_name_list)
%
% compiles to disk a source file or a list of source files
'$lgt_compile_files'([]) :-
!.
'$lgt_compile_files'([File| Files]) :-
!,
'$lgt_compile_file'(File),
'$lgt_compile_files'(Files).
'$lgt_compile_files'(File) :-
'$lgt_compile_file'(File).
% '$lgt_compile_file'(@source_file_name)
%
% compiles to disk a source file
'$lgt_compile_file'(Term) :-
compound(Term),
!,
Term =.. [Library, File],
'$lgt_expand_library_path'(Library, Path),
'$lgt_current_directory'(Current),
'$lgt_change_directory'(Path),
'$lgt_current_directory'(ExpandedPath),
( Current \== ExpandedPath ->
'$lgt_report_working_directory'(ExpandedPath),
'$lgt_compile_file'(File),
'$lgt_change_directory'(Current),
'$lgt_report_working_directory'(Current)
; '$lgt_compile_file'(File)
).
'$lgt_compile_file'(File) :-
'$lgt_compiler_flag'(smart_compilation, on),
\+ '$lgt_needs_recompilation'(File),
!,
'$lgt_report_up_to_date_file'(File).
'$lgt_compile_file'(File) :-
'$lgt_report_compiling_file'(File),
'$lgt_tr_file'(File),
'$lgt_report_compiled_file'(File).
% '$lgt_needs_recompilation'(+atom)
%
% source file needs recompilation
'$lgt_needs_recompilation'(File) :-
'$lgt_file_name'(prolog, File, Object),
\+ '$lgt_file_exists'(Object),
!.
'$lgt_needs_recompilation'(File) :-
'$lgt_file_name'(logtalk, File, Source),
'$lgt_file_name'(prolog, File, Object),
( '$lgt_compare_file_mtimes'(Result, Source, Object) ->
Result == (>)
; true
).
% '$lgt_write_tr_entity'(@stream)
%
% writes to disk the entity compiled code
'$lgt_write_tr_entity'(Stream) :-
catch(
('$lgt_write_directives'(Stream),
'$lgt_write_prolog_clauses'(Stream),
'$lgt_write_logtalk_clauses'(Stream)),
Error,
'$lgt_compiler_error_handler'(Stream, Error)).
% '$lgt_write_entity_doc'(@entity_identifier)
%
% writes to disk the entity documentation in XML format
'$lgt_write_entity_doc'(Entity) :-
( '$lgt_compiler_flag'(xmldocs, on) ->
'$lgt_entity_doc_file_name'(Entity, File),
catch(
(( '$lgt_pp_directive_'(encoding(Encoding)) ->
open(File, write, Stream, [encoding(Encoding)])
; open(File, write, Stream)
),
'$lgt_write_xml_file'(Stream),
close(Stream)),
Error,
'$lgt_compiler_error_handler'(Stream, Error))
; true
).
% '$lgt_entity_doc_file_name'(@nonvar, -atom)
%
% generates the XML file name for an entity using the format <functor>_<arity>
'$lgt_entity_doc_file_name'(Entity, File) :-
functor(Entity, Functor, Arity),
number_codes(Arity, Codes),
atom_codes(Atom, Codes),
atom_concat(Functor, '_', Aux),
atom_concat(Aux, Atom, Name),
'$lgt_file_name'(xml, Name, File).
% '$lgt_file_name'(+atom, +atom, -atom)
%
% constructs a file name given the file type (logtalk, prolog, or xml)
% and the file base name (file name may include a directory path)
'$lgt_file_name'(Type, Basename, File) :-
'$lgt_file_extension'(Type, Extension), % defined on the Prolog config files
( '$lgt_compiler_flag'(altdirs, on), '$lgt_file_type_alt_directory'(Type, Directory) ->
'$lgt_make_directory'(Directory), % succeeds when the directory already exists
atom_concat(Basename, Extension, Aux),
atom_concat(Directory, Aux, File) % file on the alternate compilation directory
; atom_concat(Basename, Extension, File) % file local to current working directory
).
% '$lgt_tr_file'(+atom)
%
% compiles a source file storing the resulting code in memory
'$lgt_tr_file'(File) :-
'$lgt_clean_pp_clauses',
'$lgt_save_global_op_table',
'$lgt_file_name'(logtalk, File, Source),
catch(
open(Source, read, Input),
OpenError,
'$lgt_compiler_error_handler'(OpenError)),
catch(
read_term(Input, Term, [singletons(Singletons)]),
InputError,
'$lgt_compiler_error_handler'(Input, InputError)),
'$lgt_check_for_encoding_directive'(Term, Input, OutputOption), % the encoding/1 directive, when present,
'$lgt_file_name'(prolog, File, Object), % must be the first term on a source file
catch(
open(Object, write, Output, OutputOption),
OpenError,
'$lgt_compiler_error_handler'(Input, Output, OpenError)),
catch(
'$lgt_tr_file'(Term, Singletons, Input, Output),
Error,
'$lgt_compiler_error_handler'(Input, Output, Error)),
close(Input),
catch(
('$lgt_write_directives'(Output), % write out any Prolog code that may occur
'$lgt_write_prolog_clauses'(Output), % after the last entity on the source file;
'$lgt_write_init_call'(Output)), % write initialization/1 directive at the
OutputError, % end of the file to improve compatibility
'$lgt_compiler_error_handler'(Output, OutputError)), % with non-ISO compliant Prolog compilers
close(Output),
'$lgt_restore_global_op_table'.
% '$lgt_check_for_encoding_directive'(@nonvar, @stream, -list)
%
% encoding/1 directives must be used during entity compilation
% and for the encoding of the generated Prolog and XML files
'$lgt_check_for_encoding_directive'((:- encoding(Encoding)), Input, [encoding(Encoding)]) :-
!,
( '$lgt_compiler_flag'(supports_encoding_dir, true) ->
'$lgt_set_stream_encoding'(Input, Encoding)
; throw(error(domain_error(directive, encoding/1), directive(encoding(Encoding))))
).
'$lgt_check_for_encoding_directive'(_, _, []). % assume no encoding/1 directive present on the source file
% '$lgt_tr_file'(+term, +list, @stream, @stream)
'$lgt_tr_file'(end_of_file, _, _, Output) :- % module definitions start with an opening
'$lgt_pp_module_'(Module), % module/1-2 directive and are assumed to
'$lgt_pp_object_'(Module, _, _, _, _, _, _, _, _, _, _), % end at the end of a source file; there is
'$lgt_tr_entity'(object, Module, Output), % no module closing directive
'$lgt_report_compiled_entity'(module, Module),
!.
'$lgt_tr_file'(end_of_file, _, _, _) :-
'$lgt_pp_object_'(Obj, _, _, _, _, _, _, _, _, _, _),
throw(entity_ending_directive_missing(object, Obj)).
'$lgt_tr_file'(end_of_file, _, _, _) :-
'$lgt_pp_protocol_'(Ptc, _, _, _, _),
throw(entity_ending_directive_missing(protocol, Ptc)).
'$lgt_tr_file'(end_of_file, _, _, _) :-
'$lgt_pp_category_'(Ctg, _, _, _, _, _),
throw(entity_ending_directive_missing(category, Ctg)).
'$lgt_tr_file'(end_of_file, _, _, _) :-
!.
'$lgt_tr_file'(Term, Singletons, Input, Output) :-
'$lgt_report_singletons'(Singletons, Term, Input),
'$lgt_tr_term'(Term, Input, Output),
read_term(Input, Next, [singletons(NSingletons)]),
'$lgt_tr_file'(Next, NSingletons, Input, Output).
% '$lgt_report_singletons'(+list, +term, @stream)
%
% report the singleton variables found while compiling an entity term
'$lgt_report_singletons'(TSingletons, Term, Input) :-
'$lgt_filter_dont_care_vars'(TSingletons, FSingletons),
'$lgt_singleton_var_names'(FSingletons, Names),
'$lgt_report_singletons_aux'(Names, Term, Input).
'$lgt_report_singletons_aux'([], _, _) :-
!. % cut needed to prevent problems with compilers with broken read_term/3
'$lgt_report_singletons_aux'([Name| Names], Term, Stream) :-
( '$lgt_compiler_flag'(singletons, warning),
'$lgt_compiler_flag'(report, on) ->
'$lgt_inc_compile_warnings_counter',
( '$lgt_pp_entity'(_, _, _, _, _) ->
nl
; true
),
( Names == [] ->
write(' WARNING! Singleton variable ')
; write(' WARNING! Singleton variables ')
),
'lgt_report_singletons_term'(Term),
'$lgt_write_list'([Name| Names]),
nl, '$lgt_report_compiler_error_line_number'(Stream),
( '$lgt_pp_entity'(_, _, _, _, _) ->
true
; nl
)
; true
).
'lgt_report_singletons_term'((:- Term)) :-
!,
functor(Term, Functor, Arity),
write('in directive '),
writeq(Functor/Arity),
write(': ').
'lgt_report_singletons_term'((Term :- _)) :-
!,
functor(Term, Functor, Arity),
write('in clause for predicate '),
writeq(Functor/Arity),
write(': ').
'lgt_report_singletons_term'((Term, _ --> _)) :-
!,
functor(Term, Functor, Arity),
write('in grammar rule for non-terminal '),
writeq(Functor//Arity),
write(': ').
'lgt_report_singletons_term'((Term --> _)) :-
!,
functor(Term, Functor, Arity),
write('in grammar rule for non-terminal '),
writeq(Functor//Arity),
write(': ').
'lgt_report_singletons_term'(Term) :-
functor(Term, Functor, Arity),
write('in clause for predicate '),
writeq(Functor/Arity),
write(': ').
% '$lgt_singleton_var_names'(@list, -list)
%
% colects singleton variable names into a list
'$lgt_singleton_var_names'([], []).
'$lgt_singleton_var_names'([Name = _| Singletons], [Name| Names]) :-
'$lgt_singleton_var_names'(Singletons, Names).
% '$lgt_filter_dont_care_vars'(+list, -list)
%
% filter variables whose name start with an underscore from a singletons list if
% the corresponding compiler flag sets their interpretation to don't care variables
'$lgt_filter_dont_care_vars'(List, Result) :-
( '$lgt_compiler_flag'(underscore_vars, dont_care) ->
'$lgt_filter_dont_care_vars'(List, [], Result)
; List = Result
).
'$lgt_filter_dont_care_vars'([], Result, Result) :-
!. % cut needed to prevent problems with compilers with broken read_term/3
'$lgt_filter_dont_care_vars'([Atom = Var| List], Sofar, Result) :-
( atom_concat('_', _, Atom) ->
'$lgt_filter_dont_care_vars'(List, Sofar, Result)
; '$lgt_filter_dont_care_vars'(List, [Atom = Var| Sofar], Result)
).
% '$lgt_compiler_error_handler'(@stream, @stream, +term)
%
% closes the streams being used for reading and writing terms, restores
% the operator table, and reports the compilation error found
'$lgt_compiler_error_handler'(Input, Output, Error) :-
'$lgt_report_compiler_error'(Input, Error),
'$lgt_clean_pp_clauses',
'$lgt_restore_global_op_table',
'$lgt_reset_warnings_counter',
catch(close(Input), _, true),
catch(close(Output), _, true),
throw(Error).
% '$lgt_compiler_error_handler'(@stream, +term)
%
% closes the stream being used for reading or writing terms, restores
% the operator table, and reports the compilation error found
'$lgt_compiler_error_handler'(Stream, Error) :-
'$lgt_report_compiler_error'(Stream, Error),
'$lgt_clean_pp_clauses',
'$lgt_restore_global_op_table',
'$lgt_reset_warnings_counter',
catch(close(Stream), _, true),
throw(Error).
% '$lgt_compiler_error_handler'(+term)
%
% restores the operator table, and reports the compilation error found
'$lgt_compiler_error_handler'(Error) :-
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl,
'$lgt_clean_pp_clauses',
'$lgt_restore_global_op_table',
'$lgt_reset_warnings_counter',
throw(Error).
% '$lgt_report_compiler_error'(@stream, +term)
%
% reports a compilation error
'$lgt_report_compiler_error'(Stream, Error) :-
'$lgt_report_compiler_error_message'(Error),
'$lgt_report_compiler_error_line_number'(Stream),
nl.
'$lgt_report_compiler_error_message'(error(Error, entity(Type, Entity))) :-
!,
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl,
write(' in '), write(Type), write(': '), writeq(Entity), nl.
'$lgt_report_compiler_error_message'(error(Error, directive(Directive))) :-
!,
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl,
write(' in directive: '), writeq((:- Directive)), nl.
'$lgt_report_compiler_error_message'(error(Error, clause(Clause))) :-
!,
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl,
write(' in clause: '), writeq(Clause), nl.
'$lgt_report_compiler_error_message'(error(Error, dcgrule(Rule))) :-
!,
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl,
write(' in grammar rule: '), writeq((Rule)), nl.
'$lgt_report_compiler_error_message'(error(Error, Term)) :-
!,
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl,
write(' in: '), writeq(Term), nl.
'$lgt_report_compiler_error_message'(Error) :-
('$lgt_pp_entity'(_, _, _, _, _) -> nl; true),
write(' ERROR! '), writeq(Error), nl.
'$lgt_report_compiler_error_line_number'(Stream) :-
( catch('$lgt_stream_current_line_number'(Stream, Line), _, fail) ->
write(' above line: '), write(Line)
; true
).
% '$lgt_tr_entity'(+atom, @entity_identifier, @stream)
'$lgt_tr_entity'(Type, Entity, Stream) :-
'$lgt_generate_code'(Type),
'$lgt_report_problems'(Type),
'$lgt_write_tr_entity'(Stream),
'$lgt_write_entity_doc'(Entity),
'$lgt_restore_file_op_table',
'$lgt_clean_pp_entity_clauses'.
% clean up all dynamic predicates used during source file compilation
% (except any user-defined compiler options specified on the compiling and loading predicates)
'$lgt_clean_pp_clauses' :-
'$lgt_clean_pp_entity_clauses',
retractall('$lgt_pp_global_op_'(_, _, _)),
retractall('$lgt_pp_file_op_'(_, _, _)),
retractall('$lgt_pp_file_init_'(_)),
retractall('$lgt_pp_entity_init_'(_, _, _)).
% clean up all dynamic predicates used during entity compilation
'$lgt_clean_pp_entity_clauses' :-
retractall('$lgt_pp_object_'(_, _, _, _, _, _, _, _, _, _, _)),
retractall('$lgt_pp_protocol_'(_, _, _, _, _)),
retractall('$lgt_pp_category_'(_, _, _, _, _, _)),
retractall('$lgt_pp_module_'(_)),
retractall('$lgt_pp_implemented_protocol_'(_, _, _, _)),
retractall('$lgt_pp_imported_category_'(_, _, _, _, _)),
retractall('$lgt_pp_extended_object_'(_, _, _, _, _, _, _, _, _, _)),
retractall('$lgt_pp_instantiated_class_'(_, _, _, _, _, _, _, _, _, _)),
retractall('$lgt_pp_specialized_class_'(_, _, _, _, _, _, _, _, _, _)),
retractall('$lgt_pp_extended_protocol_'(_, _, _, _)),
retractall('$lgt_pp_uses_'(_)),
retractall('$lgt_pp_uses_'(_, _, _)),
retractall('$lgt_pp_calls_'(_)),
retractall('$lgt_pp_info_'(_)),
retractall('$lgt_pp_info_'(_, _)),
retractall('$lgt_pp_directive_'(_)),
retractall('$lgt_pp_synchronized_'(_, _)),
retractall('$lgt_pp_pred_mutex_count_'(_)),
retractall('$lgt_pp_public_'(_, _)),
retractall('$lgt_pp_protected_'(_, _)),
retractall('$lgt_pp_private_'(_, _)),
retractall('$lgt_pp_dynamic_'(_, _)),
retractall('$lgt_pp_discontiguous_'(_, _)),
retractall('$lgt_pp_mode_'(_, _)),
retractall('$lgt_pp_meta_predicate_'(_)),
retractall('$lgt_pp_alias_'(_, _, _)),
retractall('$lgt_pp_non_terminal_'(_, _, _)),
retractall('$lgt_pp_entity_init_'(_)),
retractall('$lgt_pp_fentity_init_'(_)),
retractall('$lgt_pp_dcl_'(_)),
retractall('$lgt_pp_ddcl_'(_)),
retractall('$lgt_pp_def_'(_)),
retractall('$lgt_pp_ddef_'(_)),
retractall('$lgt_pp_super_'(_)),
retractall('$lgt_pp_ppclause_'(_)),
retractall('$lgt_pp_rclause_'(_)),
retractall('$lgt_pp_eclause_'(_)),
retractall('$lgt_pp_feclause_'(_)),
retractall('$lgt_pp_redefined_built_in_'(_, _, _, _, _)),
retractall('$lgt_pp_defs_pred_'(_, _)),
retractall('$lgt_pp_calls_pred_'(_, _, _, _)),
retractall('$lgt_non_portable_call_'(_, _)),
retractall('$lgt_pp_defs_nt_'(_, _)),
retractall('$lgt_pp_calls_nt_'(_, _)),
retractall('$lgt_pp_referenced_object_'(_)),
retractall('$lgt_pp_referenced_protocol_'(_)),
retractall('$lgt_pp_referenced_category_'(_)),
retractall('$lgt_pp_entity_op_'(_, _, _)),
retractall('$lgt_pp_threaded_'),
retractall('$lgt_pp_synchronized_').
% '$lgt_clean_lookup_caches'
%
% clean lookup caches
'$lgt_clean_lookup_caches' :-
retractall('$lgt_obj_lookup_cache_'(_, _, _, _)),
retractall('$lgt_self_lookup_cache_'(_, _, _, _)),
retractall('$lgt_super_lookup_cache_'(_, _, _, _, _)),
retractall('$lgt_db_lookup_cache_'(_, _, _, _, _)).
% '$lgt_clean_lookup_caches'(@callable)
%
% clean lookup caches for the matching predicate
'$lgt_clean_lookup_caches'(Pred) :-
retractall('$lgt_obj_lookup_cache_'(_, Pred, _, _)),
retractall('$lgt_self_lookup_cache_'(_, Pred, _, _)),
retractall('$lgt_super_lookup_cache_'(_, Pred, _, _, _)),
retractall('$lgt_db_lookup_cache_'(_, Pred, _, _, _)).
% '$lgt_save_global_op_table'
%
% saves current operator table
'$lgt_save_global_op_table' :-
current_op(Pr, Spec, Op),
asserta('$lgt_pp_global_op_'(Pr, Spec, Op)),
fail.
'$lgt_save_global_op_table'.
% '$lgt_restore_global_op_table'
%
% restores current operator table
'$lgt_restore_global_op_table' :-
retract('$lgt_pp_entity_op_'(_, Spec, Op)),
op(0, Spec, Op),
fail.
'$lgt_restore_global_op_table' :-
retractall('$lgt_pp_file_op_'(_, _, ',')), % ','/2 cannot be an argument to op/3
retract('$lgt_pp_file_op_'(_, Spec, Op)),
catch(op(0, Spec, Op), _, fail), % some Prolog compilers may define other operators as non-redefinable
fail.
'$lgt_restore_global_op_table' :-
retractall('$lgt_pp_global_op_'(_, _, ',')), % ','/2 cannot be an argument to op/3
retract('$lgt_pp_global_op_'(Pr, Spec, Op)),
catch(op(Pr, Spec, Op), _, fail), % some Prolog compilers may define other operators as non-redefinable
fail.
'$lgt_restore_global_op_table'.
% '$lgt_save_file_op_table'
%
% saves current operator table
'$lgt_save_file_op_table' :-
current_op(Pr, Spec, Op),
asserta('$lgt_pp_file_op_'(Pr, Spec, Op)),
fail.
'$lgt_save_file_op_table'.
% '$lgt_restore_file_op_table'
%
% restores current operator table
'$lgt_restore_file_op_table' :-
retract('$lgt_pp_entity_op_'(_, Spec, Op)),
op(0, Spec, Op),
fail.
'$lgt_restore_file_op_table' :-
retractall('$lgt_pp_file_op_'(_, _, ',')), % ','/2 cannot be an argument to op/3
retract('$lgt_pp_file_op_'(Pr, Spec, Op)),
catch(op(Pr, Spec, Op), _, fail), % some Prolog compilers may define other operators as non-redefinable
fail.
'$lgt_restore_file_op_table'.
% '$lgt_assert_entity_ops'(+integer, +operator_specifier, +atom_or_atom_list)
%
% asserts local entity operators
'$lgt_assert_entity_ops'(_, _, []) :-
!.
'$lgt_assert_entity_ops'(Pr, Spec, [Op| Ops]) :-
!,
asserta('$lgt_pp_entity_op_'(Pr, Spec, Op)),
'$lgt_assert_entity_ops'(Pr, Spec, Ops).
'$lgt_assert_entity_ops'(Pr, Spec, Op) :-
asserta('$lgt_pp_entity_op_'(Pr, Spec, Op)).
% '$lgt_pp_entity'(?atom, ?entity_identifier, ?atom, ?atom, ?atom)
%
% provides access to some common used data on the entity being compiled
'$lgt_pp_entity'(object, Entity, Prefix, Dcl, Mode) :-
'$lgt_pp_object_'(Entity, Prefix, Dcl, _, _, _, _, _, _, _, Mode),
!.
'$lgt_pp_entity'(category, Entity, Prefix, Dcl, Mode) :-
'$lgt_pp_category_'(Entity, Prefix, Dcl, _, _, Mode),
!.
'$lgt_pp_entity'(protocol, Entity, Prefix, Dcl, Mode) :-
'$lgt_pp_protocol_'(Entity, Prefix, Dcl, _, Mode).
% '$lgt_pp_rclause'(-compound)
%
% returns runtime table clauses for the entity being compiled
'$lgt_pp_rclause'(Clause) :-
'$lgt_pp_rclause_'(Clause).
'$lgt_pp_rclause'('$lgt_debugging_'(Entity)) :-
'$lgt_compiler_flag'(debug, on),
'$lgt_pp_entity'(_, Entity, _, _, _).
'$lgt_pp_rclause'('$lgt_current_object_'(Obj, Prefix, Dcl, Def, Super, Mode, Synchronized, Threaded)) :-
'$lgt_pp_object_'(Obj, Prefix, Dcl, Def, Super, _, _, _, _, _, Mode),
( '$lgt_pp_synchronized_' ->
Synchronized = yes
; Synchronized = no
),
( '$lgt_pp_threaded_' ->
Threaded = yes
; Threaded = no
),
!.
'$lgt_pp_rclause'('$lgt_current_protocol_'(Ptc, Prefix, Mode)) :-
'$lgt_pp_protocol_'(Ptc, Prefix, _, _, Mode),
!.
'$lgt_pp_rclause'('$lgt_current_category_'(Ctg, Prefix, Mode, Synchronized)) :-
'$lgt_pp_category_'(Ctg, Prefix, _, _, _, Mode),
( '$lgt_pp_synchronized_' ->
Synchronized = yes
; Synchronized = no
).
% '$lgt_tr_term'(+term, @stream, @stream)
%
% translates a source file term (clauses, directives, and grammar rules)
'$lgt_tr_term'(Term, Input, Output) :-
( % source-file specific compiler hook:
'$lgt_pp_hook_goal_'(Term, Terms) ->
'$lgt_tr_expanded_terms'(Terms, Input, Output)
; % default compiler hook:
'$lgt_hook_goal_'(Term, Terms) ->
'$lgt_tr_expanded_terms'(Terms, Input, Output)
; % no compiler hook defined:
'$lgt_tr_expanded_term'(Term, Input, Output)
).
% '$lgt_tr_expanded_terms'(+list, @stream, @stream)
%
% translates a list of source file terms
'$lgt_tr_expanded_terms'([], _, _).
'$lgt_tr_expanded_terms'([Term| Terms], Input, Output) :-
'$lgt_tr_expanded_term'(Term, Input, Output),
'$lgt_tr_expanded_terms'(Terms, Input, Output).
% '$lgt_tr_expanded_term'(+list, @stream, @stream)
%
% translates a source file term (clauses, directives, and grammar rules)
'$lgt_tr_expanded_term'((Head :- Body), Input, _) :-
!,
'$lgt_tr_clause'((Head :- Body), Input).
'$lgt_tr_expanded_term'((:- Directive), Input, Output) :-
!,
'$lgt_tr_directive'(Directive, Input, Output).
'$lgt_tr_expanded_term'((Head --> Body), Input, _) :-
!,
'$lgt_dcgrule_to_clause'((Head --> Body), Clause),
'$lgt_tr_clause'(Clause, Input).
'$lgt_tr_expanded_term'(Fact, Input, _) :-
'$lgt_tr_clause'(Fact, Input).
% '$lgt_tr_directives'(+list, @stream, @stream)
%
% translates a list of directives
'$lgt_tr_directives'([], _, _).
'$lgt_tr_directives'([Dir| Dirs], Input, Output) :-
'$lgt_tr_directive'(Dir, Input, Output),
'$lgt_tr_directives'(Dirs, Input, Output).
% '$lgt_tr_directive'(+term, @stream, @stream)
%
% translates a directive
'$lgt_tr_directive'(Dir, _, _) :-
var(Dir),
throw(error(instantiantion_error, directive(Dir))).
'$lgt_tr_directive'(Dir, _, _) :- % closing entity directive occurs before the opening
\+ '$lgt_pp_entity'(_, _, _, _, _), % entity directive; the opening directive is probably
functor(Dir, Functor, Arity), % missing or misspelt
'$lgt_lgt_closing_directive'(Functor, Arity),
throw(error(unmatched_directive, directive(Dir))).
'$lgt_tr_directive'(Dir, _, _) :-
\+ '$lgt_pp_entity'(_, _, _, _, _), % directive occurs before opening entity directive
functor(Dir, Functor, Arity),
\+ '$lgt_lgt_opening_directive'(Functor, Arity),
!,
'$lgt_tr_file_directive'(Dir). % translate it as a source file-level directive
'$lgt_tr_directive'(Dir, Input, Output) :- % entity closing directive
functor(Dir, Functor, Arity),
'$lgt_lgt_closing_directive'(Functor, Arity),
Dir =.. [Functor| Args],
catch(
'$lgt_tr_directive'(Functor, Args, Input, Output),
Error,
( '$lgt_pp_entity'(Type, Entity, _, _, _) ->
throw(error(Error, entity(Type, Entity)))
; throw(error(Error, directive(Dir)))
)),
!.
'$lgt_tr_directive'(Dir, Input, Output) :- % entity opening directive or entity directive
functor(Dir, Functor, Arity),
'$lgt_lgt_directive'(Functor, Arity),
Dir =.. [Functor| Args],
catch(
'$lgt_tr_directive'(Functor, Args, Input, Output),
Error,
throw(error(Error, directive(Dir)))),
!.
'$lgt_tr_directive'(Dir, Input, _) :-
'$lgt_ignore_pl_directive'(Dir), % defined in the Prolog config files
!,
( '$lgt_compiler_flag'(portability, warning) ->
nl, write(' WARNING! Ignoring Prolog directive: '), writeq(Dir),
nl, '$lgt_report_compiler_error_line_number'(Input)
; true
).
'$lgt_tr_directive'(Dir, Input, _) :-
'$lgt_rewrite_and_copy_pl_directive'(Dir, RWDir), % defined in the Prolog config files
assertz('$lgt_pp_directive_'(RWDir)),
!,
( '$lgt_compiler_flag'(portability, warning) ->
nl, write(' WARNING! Rewriting Prolog directive: '), writeq(Dir),
nl, write(' Copying resulting Prolog directive: '), writeq(RWDir),
nl, '$lgt_report_compiler_error_line_number'(Input)
; true
).
'$lgt_tr_directive'(Dir, Input, Output) :-
'$lgt_rewrite_and_recompile_pl_directive'(Dir, RWDir), % defined in the Prolog config files
!,
( '$lgt_compiler_flag'(portability, warning) ->
nl, write(' WARNING! Rewriting Prolog directive: '), writeq(Dir),
nl, write(' Recompiling resulting Prolog directive: '), writeq(RWDir),
nl, '$lgt_report_compiler_error_line_number'(Input)
; true
),
'$lgt_tr_directive'(RWDir, Input, Output). % try to translate the rewritten directive
'$lgt_tr_directive'(Dir, _, _) :-
functor(Dir, Functor, Arity),
throw(error(domain_error(directive, Functor/Arity), directive(Dir))).
% '$lgt_tr_file_directive'(@nonvar)
'$lgt_tr_file_directive'(op(Pr, Spec, Ops)) :- % op/3 directives must be used during entity compilation
!,
( '$lgt_valid_op_priority'(Pr) ->
( '$lgt_valid_op_specifier'(Spec) ->
( '$lgt_valid_op_names'(Ops) ->
assertz('$lgt_pp_directive_'(op(Pr, Spec, Ops))),
assertz('$lgt_pp_file_op_'(op(Pr, Spec, Ops))),
op(Pr, Spec, Ops)
; throw(type_error(operator_name, Ops))
)
; throw(type_error(operator_specifier, Spec))
)
; throw(type_error(operator_priority, Pr))
).
'$lgt_tr_file_directive'(initialization(Goal)) :-
!,
( callable(Goal) ->
assertz('$lgt_pp_file_init_'(Goal))
; throw(type_error(callable, Goal))
).
'$lgt_tr_file_directive'(Dir) :-
assertz('$lgt_pp_directive_'(Dir)). % directive will be copied to the generated Prolog file
% '$lgt_tr_directive'(+atom, +list, @stream, @stream)
%
% translates a directive and its (possibly empty) list of arguments
'$lgt_tr_directive'(object, [Obj| _], _, _) :-
var(Obj),
throw(instantiation_error).
'$lgt_tr_directive'(object, [Obj| _], _, _) :-
\+ callable(Obj),
throw(type_error(object_identifier, Obj)).
'$lgt_tr_directive'(object, [Obj| _], _, _) :-
( '$lgt_built_in_object'(Obj) ->
throw(permission_error(modify, object, Obj))
; '$lgt_built_in_protocol'(Obj) ->
throw(permission_error(modify, protocol, Obj))
; '$lgt_built_in_category'(Obj) ->
throw(permission_error(modify, category, Obj))
).
'$lgt_tr_directive'(object, [Obj| Rels], _, _) :-
'$lgt_report_compiling_entity'(object, Obj),
'$lgt_tr_object_id'(Obj, static), % assume static object
'$lgt_tr_object_relations'(Rels, Obj),
'$lgt_save_file_op_table'.
'$lgt_tr_directive'(end_object, [], _, Output) :-
( '$lgt_pp_object_'(Obj, _, _, _, _, _, _, _, _, _, _) ->
'$lgt_tr_entity'(object, Obj, Output),
'$lgt_report_compiled_entity'(object, Obj)
; throw(closing_directive_mismatch)
).
'$lgt_tr_directive'(protocol, [Ptc| _], _, _) :-
var(Ptc),
throw(instantiation_error).
'$lgt_tr_directive'(protocol, [Ptc| _], _, _) :-
\+ atom(Ptc),
throw(type_error(protocol_identifier, Ptc)).
'$lgt_tr_directive'(protocol, [Ptc| _], _, _) :-
( '$lgt_built_in_object'(Ptc) ->
throw(permission_error(modify, object, Ptc))
; '$lgt_built_in_protocol'(Ptc) ->
throw(permission_error(modify, protocol, Ptc))
; '$lgt_built_in_category'(Ptc) ->
throw(permission_error(modify, category, Ptc))
).
'$lgt_tr_directive'(protocol, [Ptc| Rels], _, _) :-
'$lgt_report_compiling_entity'(protocol, Ptc),
'$lgt_tr_protocol_id'(Ptc, static), % assume static protocol
'$lgt_tr_protocol_relations'(Rels, Ptc),
'$lgt_save_file_op_table'.
'$lgt_tr_directive'(end_protocol, [], _, Output) :-
'$lgt_pp_protocol_'(Ptc, _, _, _, _) ->
'$lgt_tr_entity'(protocol, Ptc, Output),
'$lgt_report_compiled_entity'(protocol, Ptc)
;
throw(closing_directive_mismatch).
'$lgt_tr_directive'(category, [Ctg| _], _, _) :-
var(Ctg),
throw(instantiation_error).
'$lgt_tr_directive'(category, [Ctg| _], _, _) :-
\+ atom(Ctg),
throw(type_error(category_identifier, Ctg)).
'$lgt_tr_directive'(category, [Ctg| _], _, _) :-
( '$lgt_built_in_object'(Ctg) ->
throw(permission_error(modify, object, Ctg))
; '$lgt_built_in_protocol'(Ctg) ->
throw(permission_error(modify, protocol, Ctg))
; '$lgt_built_in_category'(Ctg) ->
throw(permission_error(modify, category, Ctg))
).
'$lgt_tr_directive'(category, [Ctg| Rels], _, _) :-
'$lgt_report_compiling_entity'(category, Ctg),
'$lgt_tr_category_id'(Ctg, static), % assume static category
'$lgt_tr_category_relations'(Rels, Ctg),
'$lgt_save_file_op_table'.
'$lgt_tr_directive'(end_category, [], _, Output) :-
( '$lgt_pp_category_'(Ctg, _, _, _, _, _) ->
'$lgt_tr_entity'(category, Ctg, Output),
'$lgt_report_compiled_entity'(category, Ctg)
; throw(closing_directive_mismatch)
).
% compile modules as objects
'$lgt_tr_directive'(module, [Module], Input, Output) :-
!,
'$lgt_tr_directive'(module, [Module, []], Input, Output). % empty export list
'$lgt_tr_directive'(module, [Module, ExportList], _, _) :-
(var(Module); var(ExportList)),
throw(instantiation_error).
'$lgt_tr_directive'(module, [Module, _], _, _) :-
\+ atom(Module),
throw(type_error(module_identifier, Module)).
'$lgt_tr_directive'(module, [Module, ExportList], Input, Output) :-
assertz('$lgt_pp_module_'(Module)), % remeber we are compiling a module
'$lgt_report_compiling_entity'(module, Module),
'$lgt_tr_object_id'(Module, static), % assume static module/object
'$lgt_tr_directive'((public), ExportList, Input, Output), % make the export list public predicates
'$lgt_save_file_op_table'.
% create a message queue at object initialization
'$lgt_tr_directive'(threaded, [], _, _) :-
\+ '$lgt_pp_object_'(_, _, _, _, _, _, _, _, _, _, _),
throw(domain_error(object_directive, threaded/0)).
'$lgt_tr_directive'(threaded, [], _, _) :-
\+ '$lgt_compiler_flag'(threads, on),
throw(resource_error(threads, threaded/0)).
'$lgt_tr_directive'(threaded, [], _, _) :-
!,
assertz('$lgt_pp_threaded_').
% make all object (or category) predicates synchronized using the same mutex
'$lgt_tr_directive'(synchronized, [], _, _) :-
\+ '$lgt_pp_object_'(_, _, _, _, _, _, _, _, _, _, _),
\+ '$lgt_pp_category_'(_, _, _, _, _, _),
throw(domain_error(directive, synchronized/0)).
'$lgt_tr_directive'(synchronized, [], _, _) :-
!,
( '$lgt_default_flag'(threads, on) ->
'$lgt_pp_entity'(_, _, Prefix, _, _),
atom_concat(Prefix, 'mutex_', Mutex),
assertz('$lgt_pp_synchronized_'),
assertz('$lgt_pp_synchronized_'(_, Mutex))
; true
).
% dynamic entity directive
'$lgt_tr_directive'((dynamic), [], _, _) :-
!,
'$lgt_update_entity_comp_mode'.
'$lgt_tr_directive'(initialization, [Goal], _, _) :-
var(Goal),
throw(instantiation_error).
'$lgt_tr_directive'(initialization, [Goal], _, _) :-
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_directive'(initialization, [Goal], _, _) :-
'$lgt_pp_entity'(_, Entity, Prefix, _, _),
'$lgt_ctx_ctx'(Ctx, _, Entity, Entity, Entity, Prefix, [], _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
assertz('$lgt_pp_entity_init_'(TGoal)).
'$lgt_tr_directive'(op, [Pr, Spec, Ops], _, _) :-
(var(Pr); var(Spec); var(Ops)),
throw(instantiation_error).
'$lgt_tr_directive'(op, [Pr, _, _], _, _) :-
\+ '$lgt_valid_op_priority'(Pr),
throw(type_error(operator_priority, Pr)).
'$lgt_tr_directive'(op, [_, Spec, _], _, _) :-
\+ '$lgt_valid_op_specifier'(Spec),
throw(type_error(operator_specifier, Spec)).
'$lgt_tr_directive'(op, [_, _, Ops], _, _) :-
\+ '$lgt_valid_op_names'(Ops),
throw(type_error(operator_name, Ops)).
'$lgt_tr_directive'(op, [Pr, Spec, Ops], _, _) :-
op(Pr, Spec, Ops),
'$lgt_assert_entity_ops'(Pr, Spec, Ops).
'$lgt_tr_directive'(uses, [Obj, Preds], _, _) :-
(var(Obj); var(Preds)),
throw(instantiation_error).
'$lgt_tr_directive'(uses, [Obj, _], _, _) :-
\+ callable(Obj),
throw(type_error(object_identifier, Obj)).
'$lgt_tr_directive'(uses, [_, Preds], _, _) :-
\+ '$lgt_is_proper_list'(Preds),
throw(type_error(list, Preds)).
'$lgt_tr_directive'(uses, [Obj, Preds], _, _) :-
!,
assertz('$lgt_pp_referenced_object_'(Obj)),
assertz('$lgt_pp_uses_'(Obj)),
'$lgt_tr_uses_preds'(Preds, Obj).
'$lgt_tr_directive'(uses, [Obj], _, _) :-
var(Obj),
throw(instantiation_error).
'$lgt_tr_directive'(uses, [Obj], _, _) :-
\+ callable(Obj),
throw(type_error(object_identifier, Obj)).
'$lgt_tr_directive'(uses, [Obj], _, _) :-
assertz('$lgt_pp_referenced_object_'(Obj)),
assertz('$lgt_pp_uses_'(Obj)).
'$lgt_tr_directive'(use_module, [Module, Preds], Input, Output) :- % module directive
( atom(Module) ->
Name = Module
; arg(1, Module, Name)
),
'$lgt_tr_directive'(uses, [Name, Preds], Input, Output).
'$lgt_tr_directive'(calls, Ptcs, _, _) :-
'$lgt_flatten_list'(Ptcs, Ptcs2),
'$lgt_tr_calls_directive'(Ptcs2).
'$lgt_tr_directive'(info, [List], _, _) :-
!,
( '$lgt_valid_entity_info_list'(List) ->
assertz('$lgt_pp_info_'(List))
; throw(type_error(entity_info_list, List))
).
'$lgt_tr_directive'(info, [Pred, List], _, _) :-
( nonvar(Pred) ->
( '$lgt_valid_pred_or_gr_ind'(Pred, Functor, Arity) ->
'$lgt_tr_pred_info_list'(List, Functor, Arity),
assertz('$lgt_pp_info_'(Pred, List))
; throw(type_error(predicate_indicator, Pred))
)
; throw(instantiation_error)
).
'$lgt_tr_directive'(synchronized, Preds, Input, _) :-
( '$lgt_default_flag'(threads, on) ->
( '$lgt_pp_synchronized_' ->
'$lgt_pp_entity'(Type, _, _, _, _),
'$lgt_inc_compile_warnings_counter',
nl, write(' WARNING! Ignoring synchronized predicate directive: '),
write(Type), write(' already declared as synchronized!'),
nl, '$lgt_report_compiler_error_line_number'(Input)
; '$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_synchronized_directive'(Preds2)
)
; true
).
'$lgt_tr_directive'((public), Preds, _, _) :-
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_public_directive'(Preds2).
'$lgt_tr_directive'((export), Preds, _, _) :- % module directive
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_public_directive'(Preds2).
'$lgt_tr_directive'(protected, Preds, _, _) :-
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_protected_directive'(Preds2).
'$lgt_tr_directive'(private, Preds, _, _) :-
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_private_directive'(Preds2).
'$lgt_tr_directive'((dynamic), Preds, _, _) :-
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_dynamic_directive'(Preds2).
'$lgt_tr_directive'((discontiguous), Preds, _, _) :-
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_tr_discontiguous_directive'(Preds2).
'$lgt_tr_directive'(metapredicate, Preds, _, _) :- % depracated
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_normalize_meta_predicate_args'(Preds2, Preds3),
'$lgt_tr_meta_predicate_directive'(Preds3).
'$lgt_tr_directive'(meta_predicate, Preds, _, _) :-
'$lgt_flatten_list'(Preds, Preds2),
'$lgt_normalize_meta_predicate_args'(Preds2, Preds3),
'$lgt_tr_meta_predicate_directive'(Preds3).
'$lgt_tr_directive'((mode), [Mode, Solutions], _, _) :-
(var(Mode); var(Solutions)),
throw(instantiation_error).
'$lgt_tr_directive'((mode), [Mode, _], _, _) :-
\+ '$lgt_valid_mode_term'(Mode),
throw(type_error(mode_term, Mode)).
'$lgt_tr_directive'((mode), [_, Solutions], _, _) :-
\+ '$lgt_valid_number_of_solutions'(Solutions),
throw(type_error(number_of_solutions, Solutions)).
'$lgt_tr_directive'((mode), [Mode, Solutions], _, _) :-
assertz('$lgt_pp_mode_'(Mode, Solutions)).
'$lgt_tr_directive'(alias, [Entity, PI1, PI2], _, _) :-
(var(Entity); var(PI1); var(PI2)),
throw(instantiation_error).
'$lgt_tr_directive'(alias, [_, PI1, _], _, _) :-
\+ '$lgt_valid_pred_ind'(PI1, _, _),
\+ '$lgt_valid_gr_ind'(PI1, _, _, _),
throw(type_error(predicate_indicator, PI1)).
'$lgt_tr_directive'(alias, [_, _, PI2], _, _) :-
\+ '$lgt_valid_pred_ind'(PI2, _, _),
\+ '$lgt_valid_gr_ind'(PI2, _, _, _),
throw(type_error(predicate_indicator, PI2)).
'$lgt_tr_directive'(alias, [Entity, _, _], _, _) :-
\+ callable(Entity),
throw(type_error(entity_identifier, Entity)).
'$lgt_tr_directive'(alias, [_, Functor1//Arity1, Functor2//Arity2], _, _) :-
Arity1 =\= Arity2,
throw(domain_error(arity_mismatch, Functor1//Arity1, Functor2//Arity2)).
'$lgt_tr_directive'(alias, [_, Functor1/Arity1, Functor2/Arity2], _, _) :-
Arity1 =\= Arity2,
throw(domain_error(arity_mismatch, Functor1/Arity1, Functor2/Arity2)).
'$lgt_tr_directive'(alias, [_, Functor1/Arity1, Functor2//Arity2], _, _) :-
throw(domain_error(indicator_mismatch, Functor1/Arity1, Functor2//Arity2)).
'$lgt_tr_directive'(alias, [_, Functor1//Arity1, Functor2/Arity2], _, _) :-
throw(domain_error(indicator_mismatch, Functor1//Arity1, Functor2/Arity2)).
'$lgt_tr_directive'(alias, [Entity, PI1, PI2], _, _) :-
( '$lgt_pp_extended_protocol_'(Entity, _, _, _)
; '$lgt_pp_implemented_protocol_'(Entity, _, _, _)
; '$lgt_pp_imported_category_'(Entity, _, _, _, _)
; '$lgt_pp_extended_object_'(Entity, _, _, _, _, _, _, _, _, _)
; '$lgt_pp_instantiated_class_'(Entity, _, _, _, _, _, _, _, _, _)
; '$lgt_pp_specialized_class_'(Entity, _, _, _, _, _, _, _, _, _)
),
!,
'$lgt_tr_alias_directive'(Entity, PI1, PI2).
'$lgt_tr_directive'(alias, [Entity, _, _], _, _) :-
throw(reference_error(entity_identifier, Entity)).
'$lgt_tr_alias_directive'(Entity, Functor1//Arity, Functor2//Arity) :-
Arity2 is Arity + 2,
'$lgt_tr_alias_directive'(Entity, Functor1/Arity2, Functor2/Arity2).
'$lgt_tr_alias_directive'(Entity, Functor1/Arity, Functor2/Arity) :-
functor(Pred, Functor1, Arity),
Pred =.. [_| Args],
Alias =.. [Functor2| Args],
assertz('$lgt_pp_alias_'(Entity, Pred, Alias)).
'$lgt_tr_calls_directive'([]).
'$lgt_tr_calls_directive'([Ptc| _]) :-
var(Ptc),
throw(instantiation_error).
'$lgt_tr_calls_directive'([Ptc| _]) :-
\+ atom(Ptc),
throw(type_error(protocol_identifier, Ptc)).
'$lgt_tr_calls_directive'([Ptc| Ptcs]) :-
assertz('$lgt_pp_referenced_protocol_'(Ptc)),
assertz('$lgt_pp_calls_'(Ptc)),
'$lgt_tr_calls_directive'(Ptcs).
'$lgt_tr_synchronized_directive'(Preds) :-
'$lgt_gen_pred_mutex'(Mutex),
'$lgt_tr_synchronized_directive'(Preds, Mutex).
'$lgt_gen_pred_mutex'(Mutex) :-
'$lgt_pp_entity'(_, _, Prefix, _, _),
retract('$lgt_pp_pred_mutex_count_'(Old)),
New is Old + 1,
asserta('$lgt_pp_pred_mutex_count_'(New)),
number_codes(New, Codes),
atom_codes(Atom, Codes),
atom_concat(Prefix, 'pred_mutex_', Aux),
atom_concat(Aux, Atom, Mutex).
'$lgt_tr_synchronized_directive'([], _).
'$lgt_tr_synchronized_directive'([Pred| _], _) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_synchronized_directive'([Pred| Preds], Mutex) :-
'$lgt_valid_pred_ind'(Pred, Functor, Arity),
!,
functor(Head, Functor, Arity),
( '$lgt_pp_calls_pred_'(Functor, Arity, _, _) ->
throw(permission_error(modify, predicate_interpretation, Pred))
; assertz('$lgt_pp_synchronized_'(Head, Mutex)),
'$lgt_tr_synchronized_directive'(Preds, Mutex)
).
'$lgt_tr_synchronized_directive'([Pred| Preds], Mutex) :-
'$lgt_valid_gr_ind'(Pred, Functor, Arity, Arity2),
!,
functor(Head, Functor, Arity2),
( '$lgt_pp_calls_nt_'(Functor, Arity) ->
throw(permission_error(modify, non_terminal_interpretation, Pred))
; assertz('$lgt_pp_synchronized_'(Head, Mutex)),
'$lgt_tr_synchronized_directive'(Preds, Mutex)
).
'$lgt_tr_synchronized_directive'([Pred| _], _) :-
throw(type_error(predicate_indicator, Pred)).
'$lgt_tr_public_directive'([]).
'$lgt_tr_public_directive'([Pred| _]) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_public_directive'([Pred| _]) :-
functor(Pred, Functor, Arity),
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_public_directive'([Pred| Preds]) :-
'$lgt_valid_pred_ind'(Pred, Functor, Arity),
!,
\+ '$lgt_duplicated_scope_directives'(Pred, Functor, Arity),
assertz('$lgt_pp_public_'(Functor, Arity)),
'$lgt_tr_public_directive'(Preds).
'$lgt_tr_public_directive'([Pred| Preds]) :-
'$lgt_valid_gr_ind'(Pred, Functor, Arity, Arity2),
!,
\+ '$lgt_duplicated_scope_directives'(Pred, Functor, Arity2),
assertz('$lgt_pp_non_terminal_'(Functor, Arity, Arity2)),
assertz('$lgt_pp_public_'(Functor, Arity2)),
'$lgt_tr_public_directive'(Preds).
'$lgt_tr_public_directive'([Pred| _]) :-
throw(type_error(predicate_indicator, Pred)).
'$lgt_tr_protected_directive'([]).
'$lgt_tr_protected_directive'([Pred| _]) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_protected_directive'([Pred| _]) :-
functor(Pred, Functor, Arity),
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_protected_directive'([Pred| Preds]) :-
'$lgt_valid_pred_ind'(Pred, Functor, Arity),
!,
\+ '$lgt_duplicated_scope_directives'(Pred, Functor, Arity),
assertz('$lgt_pp_protected_'(Functor, Arity)),
'$lgt_tr_protected_directive'(Preds).
'$lgt_tr_protected_directive'([Pred| Preds]) :-
'$lgt_valid_gr_ind'(Pred, Functor, Arity, Arity2),
!,
\+ '$lgt_duplicated_scope_directives'(Pred, Functor, Arity2),
assertz('$lgt_pp_non_terminal_'(Functor, Arity, Arity2)),
assertz('$lgt_pp_protected_'(Functor, Arity2)),
'$lgt_tr_protected_directive'(Preds).
'$lgt_tr_protected_directive'([Pred| _]) :-
throw(type_error(predicate_indicator, Pred)).
'$lgt_tr_private_directive'([]).
'$lgt_tr_private_directive'([Pred| _]) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_private_directive'([Pred| _]) :-
functor(Pred, Functor, Arity),
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_private_directive'([Pred| Preds]) :-
'$lgt_valid_pred_ind'(Pred, Functor, Arity),
!,
\+ '$lgt_duplicated_scope_directives'(Pred, Functor, Arity),
assertz('$lgt_pp_private_'(Functor, Arity)),
'$lgt_tr_private_directive'(Preds).
'$lgt_tr_private_directive'([Pred| Preds]) :-
'$lgt_valid_gr_ind'(Pred, Functor, Arity, Arity2),
!,
\+ '$lgt_duplicated_scope_directives'(Pred, Functor, Arity2),
assertz('$lgt_pp_non_terminal_'(Functor, Arity, Arity2)),
assertz('$lgt_pp_private_'(Functor, Arity2)),
'$lgt_tr_private_directive'(Preds).
'$lgt_tr_private_directive'([Pred| _]) :-
throw(type_error(predicate_indicator, Pred)).
'$lgt_duplicated_scope_directives'(Pred, Functor, Arity) :-
( '$lgt_pp_public_'(Functor, Arity)
; '$lgt_pp_protected_'(Functor, Arity)
; '$lgt_pp_private_'(Functor, Arity)
),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_dynamic_directive'([]).
'$lgt_tr_dynamic_directive'([Pred| _]) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_dynamic_directive'([Pred| _]) :-
functor(Pred, Functor, Arity),
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_dynamic_directive'([Pred| Preds]) :-
'$lgt_valid_pred_ind'(Pred, Functor, Arity),
!,
assertz('$lgt_pp_dynamic_'(Functor, Arity)),
'$lgt_tr_dynamic_directive'(Preds).
'$lgt_tr_dynamic_directive'([Pred| Preds]) :-
'$lgt_valid_gr_ind'(Pred, Functor, _, Arity2),
!,
assertz('$lgt_pp_dynamic_'(Functor, Arity2)),
'$lgt_tr_dynamic_directive'(Preds).
'$lgt_tr_dynamic_directive'([Pred| _]) :-
throw(type_error(predicate_indicator, Pred)).
'$lgt_tr_discontiguous_directive'([]).
'$lgt_tr_discontiguous_directive'([Pred| _]) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_discontiguous_directive'([Pred| _]) :-
functor(Pred, Functor, Arity),
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_discontiguous_directive'([Pred| Preds]) :-
'$lgt_valid_pred_ind'(Pred, Functor, Arity),
!,
assertz('$lgt_pp_discontiguous_'(Functor, Arity)),
'$lgt_tr_discontiguous_directive'(Preds).
'$lgt_tr_discontiguous_directive'([Pred| Preds]) :-
'$lgt_valid_gr_ind'(Pred, Functor, _, Arity2),
!,
assertz('$lgt_pp_discontiguous_'(Functor, Arity2)),
'$lgt_tr_discontiguous_directive'(Preds).
'$lgt_tr_discontiguous_directive'([Pred| _]) :-
throw(type_error(predicate_indicator, Pred)).
'$lgt_tr_meta_predicate_directive'([]).
'$lgt_tr_meta_predicate_directive'([Pred| _]) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_meta_predicate_directive'([Pred| _]) :-
\+ '$lgt_valid_metapred_term'(Pred),
throw(type_error(meta_predicate_term, Pred)).
'$lgt_tr_meta_predicate_directive'([Pred| _]) :-
functor(Pred, Functor, Arity),
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
throw(permission_error(modify, predicate_interpretation, Pred)).
'$lgt_tr_meta_predicate_directive'([Pred| Preds]) :-
assertz('$lgt_pp_meta_predicate_'(Pred)),
'$lgt_tr_meta_predicate_directive'(Preds).
% '$lgt_tr_uses_preds'(+list, +object_identifier)
%
% auxiliary predicate for translating uses/2 directives
'$lgt_tr_uses_preds'([], _).
'$lgt_tr_uses_preds'([Pred| Preds], Obj) :-
( nonvar(Pred) ->
true
; throw(instantiation_error)
),
( Pred = (Original::Alias) ->
true
; (Original, Alias) = (Pred, Pred)
),
( (nonvar(Original), nonvar(Alias)) ->
true
; throw(instantiation_error)
),
( '$lgt_valid_pred_ind'(Original, OFunctor, OArity) ->
functor(TOriginal, OFunctor, OArity)
; throw(type_error(predicate_indicator, Original))
),
( '$lgt_valid_pred_ind'(Alias, AFunctor, AArity) ->
functor(TAlias, AFunctor, AArity)
; throw(type_error(predicate_indicator, Alias))
),
( OArity =:= AArity ->
true
; throw(domain_error(arity_mismatch(Original, Alias)))
),
( \+ '$lgt_pp_uses_'(_, _, TAlias) ->
TOriginal =.. [_| Args], TAlias =.. [_| Args], % unify args of TOriginal and TAlias
assertz('$lgt_pp_uses_'(Obj, TOriginal, TAlias))
; functor(TAlias, Functor, Arity),
throw(permission_error(modify, uses_object_predicate, Functor/Arity))
),
'$lgt_tr_uses_preds'(Preds, Obj).
% auxiliary predicate for converting module's meta predicate declarations into
% Logtalk ones (: -> ::)
'$lgt_normalize_meta_predicate_args'([], []).
'$lgt_normalize_meta_predicate_args'([Pred| Preds], [Pred2| Preds2]) :-
( nonvar(Pred) ->
true
; throw(instantiation_error)
),
Pred =.. [Functor| Args],
'$lgt_convert_meta_predicate_mode_spec'(Args, Args2),
Pred2 =.. [Functor| Args2],
'$lgt_normalize_meta_predicate_args'(Preds, Preds2).
'$lgt_convert_meta_predicate_mode_spec'([], []).
'$lgt_convert_meta_predicate_mode_spec'([Arg| Args], [Arg2| Args2]) :-
( Arg == (:) -> Arg2 = (::)
; Arg == (::) -> Arg2 = (::) % just to be safe...
; integer(Arg) -> Arg2 = Arg
; Arg2 = (*)
),
'$lgt_convert_meta_predicate_mode_spec'(Args, Args2).
% '$lgt_tr_object_relations'(+list, +term)
%
% translates the relations of an object with other entities
'$lgt_tr_object_relations'([], _).
'$lgt_tr_object_relations'([Relation| Relations], Obj) :-
( var(Relation) ->
throw(instantiation_error)
; Relation =.. [Functor| Args],
'$lgt_tr_object_relation'(Functor, Args, Obj) ->
true
; functor(Relation, Functor, Arity),
throw(domain_error(object_relation, Functor/Arity))
),
'$lgt_tr_object_relations'(Relations, Obj).
% '$lgt_tr_object_relation'(+atom, +list, +term)
%
% translates a relation between an object (the last argument) with other entities
'$lgt_tr_object_relation'(implements, Ptcs, Obj) :-
'$lgt_flatten_list'(Ptcs, List),
'$lgt_tr_implements_protocol'(List, Obj).
'$lgt_tr_object_relation'(imports, Ctgs, Obj) :-
'$lgt_flatten_list'(Ctgs, List),
'$lgt_tr_imports_category'(List, Obj).
'$lgt_tr_object_relation'(instantiates, Classes, Obj) :-
'$lgt_flatten_list'(Classes, List),
'$lgt_tr_instantiates_class'(List, Obj).
'$lgt_tr_object_relation'(specializes, Superclasses, Class) :-
'$lgt_flatten_list'(Superclasses, List),
'$lgt_tr_specializes_class'(List, Class).
'$lgt_tr_object_relation'(extends, Parents, Prototype) :-
'$lgt_flatten_list'(Parents, List),
'$lgt_tr_extends_object'(List, Prototype).
% '$lgt_tr_protocol_relations'(+list, +term)
%
% translates the relations of a protocol with other entities
'$lgt_tr_protocol_relations'([], _).
'$lgt_tr_protocol_relations'([Relation| Relations], Ptc) :-
( var(Relation) ->
throw(instantiation_error)
; Relation =.. [Functor| Args],
'$lgt_tr_protocol_relation'(Functor, Args, Ptc) ->
true
; functor(Relation, Functor, Arity),
throw(domain_error(protocol_relation, Functor/Arity))
),
'$lgt_tr_protocol_relations'(Relations, Ptc).
% '$lgt_tr_protocol_relation'(+atom, +list, +term)
%
% translates a relation between a protocol (the last argument) with other entities
'$lgt_tr_protocol_relation'(extends, Ptcs, Ptc) :-
'$lgt_flatten_list'(Ptcs, List),
'$lgt_tr_extends_protocol'(List, Ptc).
% '$lgt_tr_category_relations'(+list, +term)
%
% translates the relations of a category with other entities
'$lgt_tr_category_relations'([], _).
'$lgt_tr_category_relations'([Relation| Relations], Ptc) :-
( var(Relation) ->
throw(instantiation_error)
; Relation =.. [Functor| Args],
'$lgt_tr_category_relation'(Functor, Args, Ptc) ->
true
; functor(Relation, Functor, Arity),
throw(domain_error(category_relation, Functor/Arity))
),
'$lgt_tr_category_relations'(Relations, Ptc).
% '$lgt_tr_category_relation'(+atom, +list, +term)
%
% translates a relation between a category (the last argument) with other entities
'$lgt_tr_category_relation'(implements, Ptcs, Ctg) :-
'$lgt_flatten_list'(Ptcs, List),
'$lgt_tr_implements_protocol'(List, Ctg).
'$lgt_tr_category_relation'(imports, Ctgs, Ctg) :-
'$lgt_flatten_list'(Ctgs, List),
'$lgt_tr_imports_category'(List, Ctg).
% '$lgt_valid_entity_info_list'(@list)
%
% true if the argument is a list of valid key-value pairs
'$lgt_valid_entity_info_list'(List) :-
var(List),
throw(instantiation_error).
'$lgt_valid_entity_info_list'(List) :-
\+ '$lgt_is_proper_list'(List),
throw(type_error(list, List)).
'$lgt_valid_entity_info_list'([]).
'$lgt_valid_entity_info_list'([Head| _]) :-
var(Head),
throw(instantiation_error).
'$lgt_valid_entity_info_list'([Head| _]) :-
Head \= (_ is _),
throw(type_error(key_value_info_pair, Head)).
'$lgt_valid_entity_info_list'([Key is Value| _]) :-
(var(Key); var(Value)),
throw(instantiation_error).
'$lgt_valid_entity_info_list'([Key is _| _]) :-
\+ atom(Key),
throw(type_error(atom, Key)).
'$lgt_valid_entity_info_list'([Key is Value| Tail]) :-
'$lgt_valid_entity_info_key_value'(Key, Value),
'$lgt_valid_entity_info_list'(Tail).
% '$lgt_valid_entity_info_key_value'(+atom, @nonvar)
%
% true if the argument is a valid key-value pair
'$lgt_valid_entity_info_key_value'(author, Author) :-
!,
( (atom(Author); nonvar(Author), Author = {EntityName}, atom(EntityName)) ->
true
; throw(type_error(atom, Author))
).
'$lgt_valid_entity_info_key_value'(comment, Comment) :-
!,
( atom(Comment) ->
true
; throw(type_error(atom, Comment))
).
'$lgt_valid_entity_info_key_value'(date, Date) :-
!,
( Date = Year/Month/Day ->
( integer(Year) ->
( integer(Month) ->
( integer(Day) ->
true
; throw(type_error(integer, Day))
)
; throw(type_error(integer, Month))
)
; throw(type_error(integer, Year))
)
; throw(type_error(date, Date))
).
'$lgt_valid_entity_info_key_value'(parameters, Parameters) :-
!,
( '$lgt_is_proper_list'(Parameters) ->
( '$lgt_member'(Parameter, Parameters), \+ '$lgt_valid_entity_parameter'(Parameter) ->
throw(type_error(parameter, Parameter))
; ( ('$lgt_pp_object_'(Obj, _, _, _, _, _, _, _, _, _, _), \+ \+ Obj =.. [_| Parameters]) ->
true
; throw(length_error(parameters_list, Parameters))
)
)
; throw(type_error(list, Parameters))
).
'$lgt_valid_entity_info_key_value'(parnames, Parnames) :-
!,
( '$lgt_is_proper_list'(Parnames) ->
( '$lgt_member'(Name, Parnames), \+ atom(Name) ->
throw(type_error(atom, Name))
; ( '$lgt_pp_object_'(Obj, _, _, _, _, _, _, _, _, _, _), \+ \+ Obj =.. [_| Parnames] ->
true
; throw(length_error(parnames_list, Parnames))
)
)
; throw(type_error(list, Parnames))
).
'$lgt_valid_entity_info_key_value'(version, Version) :-
!,
( atomic(Version) ->
true
; throw(type_error(atomic, Version))
).
'$lgt_valid_entity_info_key_value'(copyright, Copyright) :-
!,
( (atom(Copyright); nonvar(Copyright), Copyright = {EntityName}, atom(EntityName)) ->
true
; throw(type_error(atom, Copyright))
).
'$lgt_valid_entity_info_key_value'(license, License) :-
!,
( (atom(License); nonvar(License), License = {EntityName}, atom(EntityName)) ->
true
; throw(type_error(atom, License))
).
'$lgt_valid_entity_info_key_value'(_, _).
% '$lgt_tr_pred_info_list'(@list, +atom, +integer)
%
% true if the argument is a list of valid key-value pairs
'$lgt_tr_pred_info_list'(List, _, _) :-
var(List),
throw(instantiation_error).
'$lgt_tr_pred_info_list'(List, _, _) :-
\+ '$lgt_is_proper_list'(List),
throw(type_error(list, List)).
'$lgt_tr_pred_info_list'([], _, _).
'$lgt_tr_pred_info_list'([Head| _], _, _) :-
var(Head),
throw(instantiation_error).
'$lgt_tr_pred_info_list'([Head| _], _, _) :-
Head \= (_ is _),
throw(type_error(key_value_info_pair, Head)).
'$lgt_tr_pred_info_list'([Key is Value| _], _, _) :-
(var(Key); var(Value)),
throw(instantiation_error).
'$lgt_tr_pred_info_list'([Key is _| _], _, _) :-
\+ atom(Key),
throw(type_error(atom, Key)).
'$lgt_tr_pred_info_list'([Key is Value| Tail], Functor, Arity) :-
'$lgt_tr_pred_info_key_value'(Key, Value, Functor, Arity),
'$lgt_tr_pred_info_list'(Tail, Functor, Arity).
% '$lgt_tr_pred_info_key_value'(+atom, @nonvar, +atom, +integer)
%
% true if the argument is a valid key-value pair
'$lgt_tr_pred_info_key_value'(allocation, Allocation, _, _) :-
!,
( atom(Allocation) ->
( '$lgt_valid_pred_allocation'(Allocation) ->
true
; throw(domain_error(allocation, Allocation))
)
; throw(type_error(atom, Allocation))
).
'$lgt_tr_pred_info_key_value'(arguments, Arguments, Functor, Arity) :-
!,
( '$lgt_is_proper_list'(Arguments) ->
( '$lgt_member'(Argument, Arguments), \+ '$lgt_valid_pred_argument'(Argument) ->
throw(type_error(argument, Argument))
; ( functor(Pred, Functor, Arity), Pred =.. [_| Arguments] ->
true
; throw(length_error(arguments_list, Arguments))
)
)
; throw(type_error(list, Arguments))
).
'$lgt_tr_pred_info_key_value'(argnames, Argnames, Functor, Arity) :-
!,
( '$lgt_is_proper_list'(Argnames) ->
( '$lgt_member'(Name, Argnames), \+ atom(Name) ->
throw(type_error(atom, Name))
; ( functor(Pred, Functor, Arity), Pred =.. [_| Argnames] ->
true
; throw(length_error(argnames_list, Argnames))
)
)
; throw(type_error(list, Argnames))
).
'$lgt_tr_pred_info_key_value'(comment, Comment, _, _) :-
!,
( atom(Comment) ->
true
; throw(type_error(atom, Comment))
).
'$lgt_tr_pred_info_key_value'(exceptions, Exceptions, _, _) :-
!,
( '$lgt_is_proper_list'(Exceptions) ->
( '$lgt_member'(Exception, Exceptions), \+ '$lgt_valid_pred_exception'(Exception) ->
throw(type_error(exception, Exception))
; true
)
; throw(type_error(list, Exceptions))
).
'$lgt_tr_pred_info_key_value'(examples, Examples, Functor, Arity) :-
!,
( '$lgt_is_proper_list'(Examples) ->
( '$lgt_member'(Example, Examples), \+ '$lgt_valid_pred_call_example'(Example, Functor, Arity) ->
throw(type_error(example, Example))
; true
)
; throw(type_error(list, Examples))
).
'$lgt_tr_pred_info_key_value'(redefinition, Redefinition, _, _) :-
!,
( atom(Redefinition) ->
( '$lgt_valid_pred_redefinition'(Redefinition) ->
true
; throw(domain_error(redefinition, Redefinition))
)
; throw(type_error(atom, Redefinition))
).
'$lgt_tr_pred_info_key_value'(_, _, _, _).
% '$lgt_tr_clauses'(+list, @stream)
'$lgt_tr_clauses'([], _).
'$lgt_tr_clauses'([Clause| Clauses], Input) :-
'$lgt_tr_clause'(Clause, Input),
'$lgt_tr_clauses'(Clauses, Input).
% '$lgt_tr_clause'(+clause, @stream)
'$lgt_tr_clause'(Clause, _) :-
\+ '$lgt_pp_entity'(_, _, _, _, _), % all clause occuring before an opening entity directive
!,
assertz('$lgt_pp_ppclause_'(Clause)). % are copied unchanged to the generated Prolog file
'$lgt_tr_clause'(Clause, Input) :-
'$lgt_pp_entity'(Type, Entity, Prefix, _, _),
( Type == object, compound(Entity) -> % if the entity is a parametric object we need
'$lgt_ctx_this'(Ctx, Entity) % "this" for inline compilation of parameter/2
; true
),
'$lgt_ctx_prefix'(Ctx, Prefix),
catch(
'$lgt_tr_clause'(Clause, TClause, DClause, Ctx, Input),
Error,
throw(error(Error, clause(Clause)))),
( '$lgt_compiler_flag'(debug, on) ->
assertz('$lgt_pp_eclause_'(DClause))
; assertz('$lgt_pp_eclause_'(TClause))
),
!.
'$lgt_tr_clause'(Clause, _) :-
throw(error(unknown_error, clause(Clause))).
% '$lgt_tr_clause'(+clause, -clause, -clause, +term, @stream)
'$lgt_tr_clause'(Clause, _, _, _, _) :-
var(Clause),
throw(instantiation_error).
'$lgt_tr_clause'((Head:-Body), _, _, _, _) :-
(var(Head); var(Body)),
throw(instantiation_error).
'$lgt_tr_clause'((Head:-_), _, _, _, _) :-
\+ callable(Head),
throw(type_error(callable, Head)).
'$lgt_tr_clause'((_:-Body), _, _, _, _) :-
\+ callable(Body),
throw(type_error(callable, Body)).
'$lgt_tr_clause'((Head:-Body), (THead:-'$lgt_nop'(Body), SBody), (THead:-'$lgt_nop'(Body),'$lgt_dbg_head'(Head, DbgCtx),DBody), Ctx, Input) :-
functor(Head, Functor, Arity),
'$lgt_pp_dynamic_'(Functor, Arity),
!,
'$lgt_pred_meta_vars'(Head, MetaVars),
'$lgt_ctx_meta_vars'(Ctx, MetaVars),
'$lgt_tr_head'(Head, THead, Ctx, Input),
'$lgt_tr_body'(Body, TBody, DBody, Ctx),
'$lgt_simplify_body'(TBody, SBody),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_clause'((Head:-Body), TClause, (THead:-'$lgt_dbg_head'(Head, DbgCtx),DBody), Ctx, Input) :-
!,
'$lgt_pred_meta_vars'(Head, MetaVars),
'$lgt_ctx_meta_vars'(Ctx, MetaVars),
'$lgt_tr_head'(Head, THead, Ctx, Input),
'$lgt_tr_body'(Body, TBody, DBody, Ctx),
'$lgt_simplify_body'(TBody, SBody),
( SBody == true ->
TClause = THead
; TClause = (THead:-SBody)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_clause'(Fact, _, _, _, _) :-
\+ callable(Fact),
throw(type_error(callable, Fact)).
'$lgt_tr_clause'(Fact, TFact, (TFact:-'$lgt_dbg_fact'(Fact, DbgCtx)), Ctx, Input) :-
'$lgt_tr_head'(Fact, TFact, Ctx, Input),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% '$lgt_tr_head'(+callable, -callable, +term, @stream, @stream)
%
% translates an entity clause head
% definition of dynamic predicates inside categories
'$lgt_tr_head'(Head, _, _, _) :-
'$lgt_pp_category_'(_, _, _, _, _, _),
functor(Head, Functor, Arity),
'$lgt_pp_dynamic_'(Functor, Arity),
throw(permission_error(define, dynamic_predicate, Functor/Arity)).
% redefinition of Logtalk message sending and remaining control constructs
'$lgt_tr_head'(_::_, _, _, _) :-
throw(permission_error(modify, control_construct, (::)/2)).
'$lgt_tr_head'(::_, _, _, _) :-
throw(permission_error(modify, control_construct, (::)/1)).
'$lgt_tr_head'(^^_, _, _, _) :-
throw(permission_error(modify, control_construct, (^^)/1)).
'$lgt_tr_head'({_}, _, _, _) :-
throw(permission_error(modify, control_construct, ({})/1)).
'$lgt_tr_head'(_<<_, _, _, _) :-
throw(permission_error(modify, control_construct, (<<)/2)).
'$lgt_tr_head'(':'(_), _, _, _) :-
throw(permission_error(modify, control_construct, (:)/1)).
% redefinition of Logtalk built-in methods
'$lgt_tr_head'(Head, _, _, _) :-
'$lgt_built_in_method'(Head, _),
functor(Head, Functor, Arity),
throw(permission_error(modify, built_in_method, Functor/Arity)).
% conflict with a predicate specified in a uses/2 directive
'$lgt_tr_head'(Alias, _, _, _) :-
'$lgt_pp_uses_'(_, _, Alias),
functor(Alias, Functor, Arity),
throw(permission_error(modify, uses_object_predicate, Functor/Arity)).
% non-variable meta-argument in clause head of a user-defined meta-predicate
'$lgt_tr_head'(Head, _, _, _) :-
functor(Head, Functor, Arity),
functor(Meta, Functor, Arity),
'$lgt_pp_meta_predicate_'(Meta),
Head =.. [_| Args],
Meta =.. [_| MArgs],
'$lgt_nonvar_meta_arg'(Args, MArgs, Arg),
throw(type_error(variable, Arg)).
% redefinition of Logtalk built-in predicates
'$lgt_tr_head'(Head, _, _, Input) :-
'$lgt_lgt_built_in'(Head),
'$lgt_compiler_flag'(lgtredef, warning),
'$lgt_compiler_flag'(report, on),
\+ '$lgt_pp_redefined_built_in_'(Head, _, _, _, _), % not already reported?
functor(Head, Functor, Arity),
'$lgt_inc_compile_warnings_counter',
nl, write(' WARNING! Redefining a Logtalk built-in predicate: '),
writeq(Functor/Arity),
nl, '$lgt_report_compiler_error_line_number'(Input),
fail.
% redefinition of Prolog built-in predicates
'$lgt_tr_head'(Head, _, _, Input) :-
'$lgt_pl_built_in'(Head),
'$lgt_compiler_flag'(plredef, warning),
'$lgt_compiler_flag'(report, on),
\+ '$lgt_pp_redefined_built_in_'(Head, _, _, _, _), % not already reported?
functor(Head, Functor, Arity),
'$lgt_inc_compile_warnings_counter',
nl, write(' WARNING! Redefining a Prolog built-in predicate: '),
writeq(Functor/Arity),
nl, '$lgt_report_compiler_error_line_number'(Input),
fail.
% definition of event handlers without reference to the "monitoring" built-in protocol
'$lgt_tr_head'(Head, _, _, Input) :-
functor(Head, Functor, 3),
once((Functor == before; Functor = after)),
\+ '$lgt_pp_implemented_protocol_'(monitoring, _, _, _),
'$lgt_compiler_flag'(report, on),
'$lgt_inc_compile_warnings_counter',
nl, write(' WARNING! Missing reference to the "monitoring" built-in protocol: '),
writeq(Functor/3),
nl, '$lgt_report_compiler_error_line_number'(Input),
fail.
% translate the head of a clause of a user defined predicate
'$lgt_tr_head'(Head, THead, Ctx, _) :-
functor(Head, Functor, Arity),
'$lgt_ctx_head'(Ctx, Functor/Arity),
( '$lgt_pp_dynamic_'(Functor, Arity),
\+ '$lgt_pp_public_'(Functor, Arity),
\+ '$lgt_pp_protected_'(Functor, Arity),
\+ '$lgt_pp_private_'(Functor, Arity) ->
'$lgt_add_ddef_clause'(Head, Functor, Arity, THead, Ctx)
; '$lgt_add_def_clause'(Head, Functor, Arity, THead, Ctx)
).
% look for a non-variable meta-argument
'$lgt_nonvar_meta_arg'([Arg| _], [(::)| _], Arg) :-
nonvar(Arg).
'$lgt_nonvar_meta_arg'([Arg| _], [N| _], Arg) :-
integer(N),
nonvar(Arg).
'$lgt_nonvar_meta_arg'([_| Args], [_| MArgs], Arg) :-
'$lgt_nonvar_meta_arg'(Args, MArgs, Arg).
% '$lgt_tr_body'(+callable, -callable, -callable, +term)
%
% translates an entity clause body
% meta-calls
'$lgt_tr_body'(Pred, TPred, '$lgt_dbg_goal'(Pred, TPred, DbgCtx), Ctx) :-
var(Pred),
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, MetaVars, MetaCallCtx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
( '$lgt_member_var'(Pred, MetaVars) ->
TPred = '$lgt_metacall_in_object'(Pred, MetaCallCtx, Sender, This, Self)
; TPred = '$lgt_metacall_in_object'(Pred, local, Sender, This, Self)
).
% pre-processor bypass (call of external code)
'$lgt_tr_body'({Pred}, _, _, _) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_body'({Pred}, _, _, _) :-
\+ callable(Pred),
throw(type_error(callable, Pred)).
'$lgt_tr_body'({Pred}, Pred, '$lgt_dbg_goal'({Pred}, Pred, DbgCtx), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% bagof/3 and setof/3 existential quantifiers
'$lgt_tr_body'(Var^Pred, Var^TPred, Var^DPred, Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx).
% control constructs
'$lgt_tr_body'((Pred1, Pred2), (TPred1, TPred2), (DPred1, DPred2), Ctx) :-
!,
'$lgt_tr_body'(Pred1, TPred1, DPred1, Ctx),
'$lgt_tr_body'(Pred2, TPred2, DPred2, Ctx).
'$lgt_tr_body'((Pred1; Pred2), (TPred1; TPred2), (DPred1; DPred2), Ctx) :-
!,
'$lgt_tr_body'(Pred1, TPred1, DPred1, Ctx),
'$lgt_tr_body'(Pred2, TPred2, DPred2, Ctx).
'$lgt_tr_body'((Pred1 -> Pred2), (TPred1 -> TPred2), (DPred1 -> DPred2), Ctx) :-
!,
'$lgt_tr_body'(Pred1, TPred1, DPred1, Ctx),
'$lgt_tr_body'(Pred2, TPred2, DPred2, Ctx).
'$lgt_tr_body'(\+ Pred, \+ TPred, \+ DPred, Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx).
'$lgt_tr_body'(!, !, ('$lgt_dbg_goal'(!, true, DbgCtx), !), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(true, true, '$lgt_dbg_goal'(true, true, DbgCtx), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(fail, fail, '$lgt_dbg_goal'(fail, fail, DbgCtx), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(repeat, repeat, '$lgt_dbg_goal'(repeat, repeat, DbgCtx), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(call(Pred), TPred, DPred, Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx).
'$lgt_tr_body'(CallN, _, _, _) :-
CallN =.. [call, Call| _],
nonvar(Call),
( Call = _::Closure
; Call = ::Closure
; Call = ^^Closure
),
throw(domain_error(goal, Closure)).
'$lgt_tr_body'(CallN, _, _, Ctx) :-
CallN =.. [call, Closure| _],
'$lgt_ctx_ctx'(Ctx, HeadFunctor/HeadArity, _, _, _, _, MetaVars, _),
functor(Meta, HeadFunctor, HeadArity),
'$lgt_pp_meta_predicate_'(Meta), % if we're compiling a clause for a meta-predicate
'$lgt_member_var'(Closure, MetaVars) -> % and our closure is a meta-argument
functor(CallN, _, CallArity), % then check that the call/N call complies with
ExtraArgs is CallArity - 1, % the meta-predicate declaration
Meta =.. [_| MetaArgs],
\+ '$lgt_same_meta_arg_extra_args'(MetaArgs, MetaVars, Closure, ExtraArgs),
throw(arity_mismatch(closure, CallN, Meta)).
'$lgt_tr_body'(CallN, TPred, DPred, Ctx) :-
CallN =.. [call, Closure| Args],
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, MetaVars, MetaCallCtx),
( '$lgt_member_var'(Closure, MetaVars) ->
TPred = '$lgt_metacall_in_object'(Closure, Args, MetaCallCtx, Sender, This, Self)
; TPred = '$lgt_metacall_in_object'(Closure, Args, local, Sender, This, Self)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DPred = '$lgt_dbg_goal'(CallN, TPred, DbgCtx).
'$lgt_tr_body'(once(Pred), once(TPred), once(DPred), Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx).
'$lgt_tr_body'(catch(Goal, Catcher, Recovery), catch(TGoal, Catcher, TRecovery), '$lgt_dbg_goal'(catch(Goal, Catcher, Recovery), catch(DGoal, Catcher, DRecovery), DbgCtx), Ctx) :-
!,
'$lgt_tr_body'(Goal, TGoal, DGoal, Ctx),
'$lgt_tr_body'(Recovery, TRecovery, DRecovery, Ctx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(throw(Error), throw(Error), '$lgt_dbg_goal'(throw(Error), throw(Error), DbgCtx), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% built-in meta-predicates
'$lgt_tr_body'(bagof(Term, Pred, List), bagof(Term, TPred, List), '$lgt_dbg_goal'(bagof(Term, Pred, List), bagof(Term, DPred, List), DbgCtx), Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(findall(Term, Pred, List), findall(Term, TPred, List), '$lgt_dbg_goal'(findall(Term, Pred, List), findall(Term, DPred, List), DbgCtx), Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(forall(Gen, Test), forall(TGen, TTest), '$lgt_dbg_goal'(forall(Gen, Test), forall(DGen, DTest), DbgCtx), Ctx) :-
!,
'$lgt_tr_body'(Gen, TGen, DGen, Ctx),
'$lgt_tr_body'(Test, TTest, DTest, Ctx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(setof(Term, Pred, List), setof(Term, TPred, List), '$lgt_dbg_goal'(setof(Term, Pred, List), setof(Term, DPred, List), DbgCtx), Ctx) :-
!,
'$lgt_tr_body'(Pred, TPred, DPred, Ctx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% multi-threading meta-predicates
'$lgt_tr_body'(threaded(Goals), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded(Goals)),
fail.
'$lgt_tr_body'(threaded(Goals), _, _, _) :-
nonvar(Goals),
\+ callable(Goals),
throw(type_error(callable, Goals)).
'$lgt_tr_body'(threaded(Goals), MTGoals, '$lgt_dbg_goal'(threaded(Goals), MTGoals, DbgCtx), Ctx) :-
!,
'$lgt_tr_threaded_call'(Goals, MTGoals, Ctx),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_call(Goal), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_call(Goal)),
fail.
'$lgt_tr_body'(threaded_call(Goal), _, _, _) :-
nonvar(Goal),
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_body'(threaded_call(Goal), MTGoal, '$lgt_dbg_goal'(threaded_call(Goal), MTGoal, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
MTGoal = '$lgt_mt_send_goal'(Prefix, TGoal, Sender, This, Self, [])
; MTGoal = '$lgt_mt_send_goal'(TGoal, Sender, This, Self, [])
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_race(Goal), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_race(Goal)),
fail.
'$lgt_tr_body'(threaded_race(Goal), _, _, _) :-
nonvar(Goal),
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_body'(threaded_race(Obj::((Goal; Goals))), (TGoal, TGoals), (DGoal, DGoals), Ctx) :-
!,
'$lgt_tr_body'(threaded_race(Obj::Goal), TGoal, DGoal, Ctx),
'$lgt_tr_body'(threaded_race(Obj::Goals), TGoals, DGoals, Ctx).
'$lgt_tr_body'(threaded_race(::((Goal; Goals))), (TGoal, TGoals), (DGoal, DGoals), Ctx) :-
!,
'$lgt_tr_body'(threaded_race(::Goal), TGoal, DGoal, Ctx),
'$lgt_tr_body'(threaded_race(::Goals), TGoals, DGoals, Ctx).
'$lgt_tr_body'(threaded_race((Goal; Goals)), (TGoal, TGoals), (DGoal, DGoals), Ctx) :-
!,
'$lgt_tr_body'(threaded_race(Goal), TGoal, DGoal, Ctx),
'$lgt_tr_body'(threaded_race(Goals), TGoals, DGoals, Ctx).
'$lgt_tr_body'(threaded_race(Goal), MTGoal, '$lgt_dbg_goal'(threaded_race(Goal), MTGoal, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
MTGoal = '$lgt_mt_send_goal'(Prefix, TGoal, Sender, This, Self, competing)
; MTGoal = '$lgt_mt_send_goal'(TGoal, Sender, This, Self, competing)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_once(Goal), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_once(Goal)),
fail.
'$lgt_tr_body'(threaded_once(Goal), _, _, _) :-
nonvar(Goal),
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_body'(threaded_once(Goal), MTGoal, '$lgt_dbg_goal'(threaded_once(Goal), MTGoal, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
MTGoal = '$lgt_mt_send_goal'(Prefix, TGoal, Sender, This, Self, once)
; MTGoal = '$lgt_mt_send_goal'(TGoal, Sender, This, Self, once)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_ignore(Goal), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_ignore(Goal)),
fail.
'$lgt_tr_body'(threaded_ignore(Goal), _, _, _) :-
nonvar(Goal),
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_body'(threaded_ignore(Goal), MTGoal, '$lgt_dbg_goal'(threaded_ignore(Goal), MTGoal, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
MTGoal = '$lgt_mt_send_goal'(Prefix, TGoal, Sender, This, Self, ignore)
; MTGoal = '$lgt_mt_send_goal'(TGoal, Sender, This, Self, ignore)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_exit(Goal), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_exit(Goal)),
fail.
'$lgt_tr_body'(threaded_exit(Goal), _, _, _) :-
nonvar(Goal),
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_body'(threaded_exit(Goal), MTGoal, '$lgt_dbg_goal'(threaded_exit(Goal), MTGoal, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
MTGoal = '$lgt_mt_get_reply'(Prefix, TGoal, Sender, This, Self)
; MTGoal = '$lgt_mt_get_reply'(TGoal, Sender, This, Self)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_peek(Goal), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_peek(Goal)),
fail.
'$lgt_tr_body'(threaded_peek(Goal), _, _, _) :-
nonvar(Goal),
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_tr_body'(threaded_peek(Goal), MTGoal, '$lgt_dbg_goal'(threaded_peek(Goal), MTGoal, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_tr_body'(Goal, TGoal, _, Ctx),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
MTGoal = '$lgt_mt_peek_reply'(Prefix, TGoal, Sender, This, Self)
; MTGoal = '$lgt_mt_peek_reply'(TGoal, Sender, This, Self)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(threaded_wait(Msg), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_wait(Msg)),
fail.
'$lgt_tr_body'(threaded_wait(Msg), MTPred, '$lgt_dbg_goal'(threaded_wait(Msg), MTPred, DbgCtx), Ctx) :-
!,
'$lgt_pp_entity'(Type, _, EntityPrefix, _, _),
'$lgt_ctx_ctx'(Ctx, Functor/Arity, _, _, _, EntityPrefix, _, _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
functor(Head, Functor, Arity),
( '$lgt_pp_synchronized_'(Head, Mutex) ->
( Type == object ->
MTPred = (mutex_unlock(Mutex), thread_get_message(EntityPrefix, '$lgt_notification'(Msg)), mutex_lock(Mutex))
; % we're compiling a category predicate
'$lgt_ctx_this'(Ctx, This),
MTPred = ('$lgt_current_object_'(This, Prefix, _, _, _, _, _, _), mutex_unlock(Mutex), thread_get_message(Prefix, '$lgt_notification'(Msg)), mutex_lock(Mutex))
)
; ( Type == object ->
MTPred = thread_get_message(EntityPrefix, '$lgt_notification'(Msg))
; % we're compiling a category predicate
'$lgt_ctx_this'(Ctx, This),
MTPred = ('$lgt_current_object_'(This, Prefix, _, _, _, _, _, _), thread_get_message(Prefix, '$lgt_notification'(Msg)))
)
).
'$lgt_tr_body'(threaded_notify(Msg), _, _, _) :-
'$lgt_check_for_threaded_directive'(threaded_notify(Msg)),
fail.
'$lgt_tr_body'(threaded_notify(Msg), MTPred, '$lgt_dbg_goal'(threaded_notify(Msg), MTPred, DbgCtx), Ctx) :-
!,
'$lgt_pp_entity'(Type, _, EntityPrefix, _, _),
'$lgt_ctx_ctx'(Ctx, _, _, _, _, EntityPrefix, _, _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
( Type == object ->
MTPred = thread_send_message(EntityPrefix, '$lgt_notification'(Msg))
; % we're compiling a category predicate
'$lgt_ctx_this'(Ctx, This),
MTPred = ('$lgt_current_object_'(This, Prefix, _, _, _, _, _, _), thread_send_message(Prefix, '$lgt_notification'(Msg)))
).
% message sending
'$lgt_tr_body'(Obj::Pred, TPred, '$lgt_dbg_goal'(Obj::Pred, TPred, DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
'$lgt_tr_msg'(Pred, Obj, TPred, This).
'$lgt_tr_body'(::Pred, TPred, '$lgt_dbg_goal'(::Pred, TPred, DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_self'(Ctx, Self),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
'$lgt_tr_body'(^^Pred, TPred, '$lgt_dbg_goal'(^^Pred, TPred, DbgCtx), Ctx) :-
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
'$lgt_tr_super_call'(Pred, TPred, Ctx).
% context-switching
'$lgt_tr_body'(Obj<<_, _, _, _) :-
var(Obj),
throw(instantiation_error).
'$lgt_tr_body'(_<<Pred, _, _, _) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_body'(Obj<<_, _, _, _) :-
\+ callable(Obj),
throw(type_error(object_identifier, Obj)).
'$lgt_tr_body'(_<<Pred, _, _, _) :-
\+ callable(Pred),
throw(type_error(callable, Pred)).
'$lgt_tr_body'(Obj<<Pred, '$lgt_call_within_context'(Obj, Pred, This), '$lgt_dbg_goal'(Obj<<Pred, '$lgt_call_within_context'(Obj, Pred, This), DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% calling category predicates directly
'$lgt_tr_body'(':'(Pred), _, _, _) :-
var(Pred),
throw(instantiation_error).
'$lgt_tr_body'(':'(Pred), _, _, _) :-
\+ callable(Pred),
throw(type_error(callable, Pred)).
'$lgt_tr_body'(':'(Pred), _, _, _) :-
\+ '$lgt_pp_imported_category_'(_, _, _, _, _),
throw(existence_error(procedure, Pred)).
'$lgt_tr_body'(':'(Alias), TPred, '$lgt_dbg_goal'(':'(Alias), TPred, DbgCtx), Ctx) :-
!,
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
( '$lgt_pp_imported_category_'(Ctg, _, _, _, _),
( '$lgt_pp_alias_'(Ctg, Pred, Alias) ->
true
; Pred = Alias
),
'$lgt_ctg_static_binding_cache'(Ctg, Pred, Sender, This, Self, TPred) ->
true
; Pred = Alias,
'$lgt_pp_object_'(_, _, Dcl, Def, _, IDcl, _, _, _, _, _),
( ('$lgt_pp_instantiated_class_'(_, _, _, _, _, _, _, _, _, _); '$lgt_pp_specialized_class_'(_, _, _, _, _, _, _, _, _, _)) ->
TPred = '$lgt_call_ctg_pred'(IDcl, Def, Pred, Sender, This, Self)
; TPred = '$lgt_call_ctg_pred'(Dcl, Def, Pred, Sender, This, Self)
)
).
% "reflection" built-in predicates
'$lgt_tr_body'(current_predicate(Pred), '$lgt_current_predicate'(This, Pred, This, p(_)), '$lgt_dbg_goal'(current_predicate(Pred), '$lgt_current_predicate'(This, Pred, This, p(_)), DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(predicate_property(Pred, Prop), '$lgt_predicate_property'(This, Pred, Prop, This, p(_)), '$lgt_dbg_goal'(predicate_property(Pred, Prop), '$lgt_predicate_property'(This, Pred, Prop, This, p(_)), DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% database handling built-in predicates
'$lgt_tr_body'(abolish(Pred), TCond, DCond, Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
( '$lgt_runtime_db_pred_ind_chk'(Pred) ->
TCond = '$lgt_abolish'(This, Pred, This, p(_))
; '$lgt_compiler_db_pred_ind_chk'(Pred),
TCond = '$lgt_abolish_chk'(This, Pred, This, p(_))
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DCond = '$lgt_dbg_goal'(abolish(Pred), TCond, DbgCtx).
'$lgt_tr_body'(asserta(Pred), TCond, DCond, Ctx) :-
!,
( '$lgt_optimizable_local_db_call'(Pred, Ctx, TPred) ->
TCond = asserta(TPred)
; '$lgt_ctx_this'(Ctx, This),
( '$lgt_runtime_db_clause_chk'(Pred) ->
TCond = '$lgt_asserta'(This, Pred, This, p(_), p)
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( Body == true ->
TCond = '$lgt_asserta_fact_chk'(This, Head, This, p(_), p)
; TCond = '$lgt_asserta_rule_chk'(This, Pred, This, p(_), p)
)
; TCond = '$lgt_asserta_fact_chk'(This, Pred, This, p(_), p)
)
)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DCond = '$lgt_dbg_goal'(asserta(Pred), TCond, DbgCtx).
'$lgt_tr_body'(assertz(Pred), TCond, DCond, Ctx) :-
!,
( '$lgt_optimizable_local_db_call'(Pred, Ctx, TPred) ->
TCond = assertz(TPred)
; '$lgt_ctx_this'(Ctx, This),
( '$lgt_runtime_db_clause_chk'(Pred) ->
TCond = '$lgt_assertz'(This, Pred, This, p(_), p)
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( Body == true ->
TCond = '$lgt_assertz_fact_chk'(This, Head, This, p(_), p)
; TCond = '$lgt_assertz_rule_chk'(This, Pred, This, p(_), p)
)
; TCond = '$lgt_assertz_fact_chk'(This, Pred, This, p(_), p)
)
)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DCond = '$lgt_dbg_goal'(assertz(Pred), TCond, DbgCtx).
'$lgt_tr_body'(clause(Head, Body), TCond, DCond, Ctx) :-
!,
( '$lgt_optimizable_local_db_call'(Head, Ctx, THead) ->
TCond = (clause(THead, TBody), (TBody = ('$lgt_nop'(Body), _) -> true; TBody = Body))
; '$lgt_ctx_this'(Ctx, This),
( '$lgt_runtime_db_clause_chk'((Head :- Body)) ->
TCond = '$lgt_clause'(This, Head, Body, This, p(_))
; '$lgt_compiler_db_clause_chk'((Head :- Body)),
TCond = '$lgt_clause_chk'(This, Head, Body, This, p(_))
)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DCond = '$lgt_dbg_goal'(clause(Head, Body), TCond, DbgCtx).
'$lgt_tr_body'(retract(Pred), TCond, DCond, Ctx) :-
!,
( '$lgt_optimizable_local_db_call'(Pred, Ctx, TPred) ->
TCond = retract(TPred)
; '$lgt_ctx_this'(Ctx, This),
( '$lgt_runtime_db_clause_chk'(Pred) ->
TCond = '$lgt_retract'(This, Pred, This, p(_))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( var(Body) ->
'$lgt_retract_var_body_chk'(This, Pred, This, p(_))
; Body == true ->
TCond = '$lgt_retract_fact_chk'(This, Head, This, p(_))
; TCond = '$lgt_retract_rule_chk'(This, Pred, This, p(_))
)
; TCond = '$lgt_retract_fact_chk'(This, Pred, This, p(_))
)
)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DCond = '$lgt_dbg_goal'(retract(Pred), TCond, DbgCtx).
'$lgt_tr_body'(retractall(Pred), TCond, DCond, Ctx) :-
!,
( '$lgt_optimizable_local_db_call'(Pred, Ctx, TPred) ->
TCond = retractall(TPred)
; '$lgt_ctx_this'(Ctx, This),
( '$lgt_runtime_db_clause_chk'(Pred) ->
TCond = '$lgt_retractall'(This, Pred, This, p(_))
; '$lgt_compiler_db_clause_chk'(Pred),
TCond = '$lgt_retractall_chk'(This, Pred, This, p(_))
)
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
DCond = '$lgt_dbg_goal'(retractall(Pred), TCond, DbgCtx).
% DCG predicates
'$lgt_tr_body'(expand_term(Term, Clause), '$lgt_expand_term'(This, Term, Clause, This, p(_)), '$lgt_dbg_goal'(expand_term(Term, Clause), '$lgt_expand_term'(This, Term, Clause, This, p(_)), DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(phrase(GRBody, Input), '$lgt_phrase'(This, GRBody, Input, This, _), '$lgt_dbg_goal'(phrase(GRBody, Input), '$lgt_phrase'(This, GRBody, Input, This, _), DbgCtx), Ctx) :-
var(GRBody),
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(phrase(GRBody, Input), TPred, '$lgt_dbg_goal'(phrase(GRBody, Input), TPred, DbgCtx), Ctx) :-
!,
'$lgt_dcg_body'(GRBody, S0, S, Pred),
'$lgt_tr_body'(Pred, Pred2, _, Ctx),
TPred = (Input = S0, [] = S, Pred2),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(phrase(GRBody, Input, Rest), '$lgt_phrase'(This, GRBody, Input, Rest, This, _), '$lgt_dbg_goal'(phrase(GRBody, Input, Rest), '$lgt_phrase'(This, GRBody, Input, Rest, This, _), DbgCtx), Ctx) :-
var(GRBody),
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(phrase(GRBody, Input, Rest), TPred, '$lgt_dbg_goal'(phrase(GRBody, Input, Rest), TPred, DbgCtx), Ctx) :-
!,
'$lgt_dcg_body'(GRBody, S0, S, Pred),
'$lgt_tr_body'(Pred, Pred2, _, Ctx),
TPred = (Input = S0, Rest = S, Pred2),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% inline methods (usually translated to a single unification with the corresponding context argument)
'$lgt_tr_body'(sender(Sender), true, '$lgt_dbg_goal'(sender(Temp), Sender=Temp, DbgCtx), Ctx) :-
!,
'$lgt_ctx_sender'(Ctx, Sender),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(this(This), true, '$lgt_dbg_goal'(this(Temp), This=Temp, DbgCtx), Ctx) :-
!,
( '$lgt_ctx_this'(Ctx, This) -> % check for mismatches between the argument of
true % this/1 and the parametric object identifier
; throw(domain_error(object_identifier, This))
),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(self(Self), true, '$lgt_dbg_goal'(self(Temp), Self=Temp, DbgCtx), Ctx) :-
!,
'$lgt_ctx_self'(Ctx, Self),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
'$lgt_tr_body'(parameter(Arg, Value), TPred, '$lgt_dbg_goal'(parameter(Arg, Temp), DPred, DbgCtx), Ctx) :-
!,
'$lgt_ctx_this'(Ctx, This),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
( (var(This); var(Arg)) -> % when using parameter/2 in categories
TPred = arg(Arg, This, Value), % or when the first argument will only
DPred = (TPred, Temp=Value) % be instantiated at runtime
; functor(This, _, Arity),
( 1 =< Arg, Arg =< Arity ->
arg(Arg, This, Value),
TPred = true,
DPred = (Temp=Value)
; throw(domain_error(out_of_range, Arg))
)
).
% term input predicates that need to be operator aware
'$lgt_tr_body'(read_term(Stream, Term, Options), '$lgt_iso_read_term'(Stream, Term, Options, Ops), '$lgt_dbg_goal'(read_term(Stream, Term, Options), '$lgt_iso_read_term'(Stream, Term, Options, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(read_term(Term, Options), '$lgt_iso_read_term'(Term, Options, Ops), '$lgt_dbg_goal'(read_term(Term, Options), '$lgt_iso_read_term'(Term, Options, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(read(Stream, Term), '$lgt_iso_read'(Stream, Term, Ops), '$lgt_dbg_goal'(read(Stream, Term), '$lgt_iso_read'(Stream, Term, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(read(Term), '$lgt_iso_read'(Term, Ops), '$lgt_dbg_goal'(read(Term), '$lgt_iso_read'(Term, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
% term output predicates that need to be operator aware
'$lgt_tr_body'(write_term(Stream, Term, Options), '$lgt_iso_write_term'(Stream, Term, Options, Ops), '$lgt_dbg_goal'(write_term(Stream, Term, Options), '$lgt_iso_write_term'(Stream, Term, Options, Ops), DbgCtx), Ctx) :-
('$lgt_member'(ignore_ops(Value), Options) -> Value \== true; true),
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(write_term(Term, Options), '$lgt_iso_write_term'(Term, Options, Ops), '$lgt_dbg_goal'(write_term(Term, Options), '$lgt_iso_write_term'(Term, Options, Ops), DbgCtx), Ctx) :-
('$lgt_member'(ignore_ops(Value), Options) -> Value \== true; true),
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(write(Stream, Term), '$lgt_iso_write'(Stream, Term, Ops), '$lgt_dbg_goal'(write(Stream, Term), '$lgt_iso_write'(Stream, Term, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(write(Term), '$lgt_iso_write'(Term, Ops), '$lgt_dbg_goal'(write(Term), '$lgt_iso_write'(Term, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(writeq(Stream, Term), '$lgt_iso_writeq'(Stream, Term, Ops), '$lgt_dbg_goal'(writeq(Stream, Term), '$lgt_iso_writeq'(Stream, Term, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
'$lgt_tr_body'(writeq(Term), '$lgt_iso_writeq'(Term, Ops), '$lgt_dbg_goal'(writeq(Term), '$lgt_iso_writeq'(Term, Ops), DbgCtx), Ctx) :-
bagof(op(Pr, Spec, Op), '$lgt_pp_entity_op_'(Pr, Spec, Op), Ops),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
!.
% predicates specified in uses/2 directives
'$lgt_tr_body'(Alias, TPred, DPred, Ctx) :-
'$lgt_pp_uses_'(Obj, Pred, Alias),
!,
'$lgt_tr_body'(Obj::Pred, TPred, DPred, Ctx).
% Logtalk and Prolog built-in (meta-)predicates
'$lgt_tr_body'(Pred, _, _, _) :-
'$lgt_pl_built_in'(Pred),
\+ '$lgt_lgt_built_in'(Pred),
\+ '$lgt_iso_spec_pred'(Pred),
functor(Pred, Functor, Arity),
\+ '$lgt_pp_public_'(Functor, Arity), % not a
\+ '$lgt_pp_protected_'(Functor, Arity), % redefined
\+ '$lgt_pp_private_'(Functor, Arity), % built-in
assertz('$lgt_non_portable_call_'(Functor, Arity)),
fail.
'$lgt_tr_body'(Pred, TPred, '$lgt_dbg_goal'(Pred, DPred, DbgCtx), Ctx) :-
'$lgt_pl_built_in'(Pred),
functor(Pred, Functor, Arity),
\+ '$lgt_pp_public_'(Functor, Arity), % not a
\+ '$lgt_pp_protected_'(Functor, Arity), % redefined
\+ '$lgt_pp_private_'(Functor, Arity), % built-in
functor(Meta, Functor, Arity),
'$lgt_pl_meta_predicate'(Meta),
!,
Pred =.. [_| Args],
Meta =.. [_| MArgs],
( '$lgt_member'(MArg, MArgs), integer(MArg) ->
throw(domain_error(closure, Meta))
; '$lgt_tr_meta_args'(Args, MArgs, Ctx, TArgs, DArgs),
TPred =.. [Functor| TArgs],
DPred =.. [Functor| DArgs],
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx)
).
'$lgt_tr_body'(Pred, '$lgt_call_built_in'(Pred, Ctx), '$lgt_dbg_goal'(Pred, '$lgt_call_built_in'(Pred, Ctx), DbgCtx), Ctx) :-
'$lgt_built_in'(Pred),
functor(Pred, Functor, Arity),
\+ '$lgt_pp_public_'(Functor, Arity), % not a
\+ '$lgt_pp_protected_'(Functor, Arity), % redefined
\+ '$lgt_pp_private_'(Functor, Arity), % built-in
!,
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx).
% invalid goal
'$lgt_tr_body'(Pred, _, _, _) :-
\+ callable(Pred),
throw(type_error(callable, Pred)).
% goal is a call to a user meta-predicate
'$lgt_tr_body'(Pred, TPred, '$lgt_dbg_goal'(Pred, DPred, DbgCtx), Ctx) :-
functor(Pred, Functor, Arity),
functor(Meta, Functor, Arity),
'$lgt_pp_meta_predicate_'(Meta),
!,
Pred =.. [_| Args],
Meta =.. [_| MArgs],
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, EntityPrefix, MetaVars, _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix),
( '$lgt_pp_synchronized_'(Pred, _) ->
atom_concat(PredPrefix, '_sync', MPrefix)
; MPrefix = PredPrefix
),
( MetaVars == [] ->
% we're not compiling a clause to a meta-predicate, thus we have a local call
% to a meta-predicate
( '$lgt_member'(MArg, MArgs), integer(MArg) ->
% we're compiling a call to a meta-predicate that expects a closure...
'$lgt_append'(Args, [local, Sender, This, Self], TArgs2),
DArgs2 = TArgs2
; % we're compiling a call to a meta-predicate that does not use closures...
'$lgt_tr_meta_args'(Args, MArgs, Ctx, TArgs, DArgs),
'$lgt_append'(TArgs, [compiled, Sender, This, Self], TArgs2),
'$lgt_append'(DArgs, [compiled, Sender, This, Self], DArgs2)
)
; % we have a meta-predicate calling another meta-predicate, the meta-arguments
% to be called in the context of the sender will be the ones coming from the
% call to the predicate whose body we're compiling
'$lgt_append'(Args, [MetaVars, Sender, This, Self], TArgs2),
DArgs2 = TArgs2
),
TPred =.. [MPrefix| TArgs2],
DPred =.. [MPrefix| DArgs2],
Arity4 is Arity + 4,
( '$lgt_pp_calls_pred_'(Functor, Arity, _, _) ->
true
; assertz('$lgt_pp_calls_pred_'(Functor, Arity, MPrefix, Arity4))
).
% goal is a call to a user predicate
'$lgt_tr_body'(Pred, TPred, '$lgt_dbg_goal'(Pred, TPred, DbgCtx), Ctx) :-
Pred =.. [Functor| Args],
functor(Pred, Functor, Arity),
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, EntityPrefix, _, _),
'$lgt_ctx_dbg_ctx'(Ctx, DbgCtx),
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix),
( '$lgt_pp_synchronized_'(Pred, _) ->
atom_concat(PredPrefix, '_sync', MPrefix)
; MPrefix = PredPrefix
),
'$lgt_append'(Args, [Sender, This, Self], Args2),
TPred =.. [MPrefix| Args2],
Arity3 is Arity + 3,
( '$lgt_pp_calls_pred_'(Functor, Arity, _, _) ->
true
; assertz('$lgt_pp_calls_pred_'(Functor, Arity, MPrefix, Arity3))
).
% '$lgt_check_for_threaded_directive'(+predicate_indicator)
%
% throw an error when the threaded/0 directive is not present on
% an object contaning calls to the threaded built-in predicates
'$lgt_check_for_threaded_directive'(Call) :-
\+ '$lgt_pp_threaded_',
'$lgt_pp_object_'(_, _, _, _, _, _, _, _, _, _, _),
throw(resource_error(threads, Call)).
% '$lgt_tr_threaded_call'(+callable, -callable, +callable)
%
% translates the argument of a built-in predicate threaded/1 call
'$lgt_tr_threaded_call'(Goals, (MTCalls, MTExits), Ctx) :-
'$lgt_tr_body'(Goals, TGoals, _, Ctx),
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, Prefix, _, _),
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _) ->
'$lgt_tr_threaded_call'(TGoals, MTCalls, MTExits, Prefix, Sender, This, Self)
; '$lgt_tr_threaded_call'(TGoals, MTCalls, MTExits, Sender, This, Self)
).
'$lgt_tr_threaded_call'((TGoal, TGoals), (MTCall, MTCalls), (MTExit, MTExits), Prefix, Sender, This, Self) :-
!,
'$lgt_tr_threaded_call'(TGoal, MTCall, MTExit, Prefix, Sender, This, Self),
'$lgt_tr_threaded_call'(TGoals, MTCalls, MTExits, Prefix, Sender, This, Self).
'$lgt_tr_threaded_call'(TGoal, '$lgt_mt_send_goal'(Prefix, TGoal, Sender, This, Self, once), '$lgt_mt_get_reply'(Prefix, TGoal, Sender, This, Self), Prefix, Sender, This, Self).
'$lgt_tr_threaded_call'((TGoal, TGoals), (MTCall, MTCalls), (MTExit, MTExits), Sender, This, Self) :-
!,
'$lgt_tr_threaded_call'(TGoal, MTCall, MTExit, Sender, This, Self),
'$lgt_tr_threaded_call'(TGoals, MTCalls, MTExits, Sender, This, Self).
'$lgt_tr_threaded_call'(TGoal, '$lgt_mt_send_goal'(TGoal, Sender, This, Self, once), '$lgt_mt_get_reply'(TGoal, Sender, This, Self), Sender, This, Self).
% '$lgt_tr_meta_args'(@list, @list, +term, -list, -list)
%
% translates the meta-arguments contained in the list of
% arguments of a call to a meta-predicate
'$lgt_tr_meta_args'([], [], _, [], []).
'$lgt_tr_meta_args'([Arg| Args], [MArg| MArgs], Ctx, [TArg| TArgs], [DArg| DArgs]) :-
'$lgt_tr_meta_arg'(MArg, Arg, Ctx, TArg, DArg),
'$lgt_tr_meta_args'(Args, MArgs, Ctx, TArgs, DArgs).
'$lgt_tr_meta_arg'(*, Arg, _, Arg, Arg).
'$lgt_tr_meta_arg'(::, Arg, Ctx, TArg, DArg) :-
'$lgt_tr_body'(Arg, TArg, DArg, Ctx).
% '$lgt_same_meta_arg_extra_args'(@list(nonvar), @list(var), @var, +integer)
%
% checks that the number of addtional arguments being appended to a closure
% in a call/N call matches the corresponding meta-predicate declaration
% (the relative ordering of the meta-vars is the same of the corresponding
% meta-arguments)
'$lgt_same_meta_arg_extra_args'([(*)| MetaArgs], MetaVars, Closure, ExtraArgs) :-
!,
'$lgt_same_meta_arg_extra_args'(MetaArgs, MetaVars, Closure, ExtraArgs).
'$lgt_same_meta_arg_extra_args'([(::)| MetaArgs], MetaVars, Closure, ExtraArgs) :-
!,
'$lgt_same_meta_arg_extra_args'(MetaArgs, MetaVars, Closure, ExtraArgs).
'$lgt_same_meta_arg_extra_args'([MetaArg| _], [MetaVar| _], Closure, ExtraArgs) :-
MetaVar == Closure,
!,
integer(MetaArg),
MetaArg =:= ExtraArgs.
'$lgt_same_meta_arg_extra_args'([_| MetaArgs], [_| MetaVars], Closure, ExtraArgs) :-
'$lgt_same_meta_arg_extra_args'(MetaArgs, MetaVars, Closure, ExtraArgs).
% '$lgt_optimizable_local_db_call'(@term, @nonvar, -callable)
%
% checks if a call to a database built-in method can be optimized by direct
% translation to a call to the corresponding Prolog built-in predicate
'$lgt_optimizable_local_db_call'(Pred, Ctx, TPred) :-
'$lgt_compiler_flag'(debug, off), % not debugging
callable(Pred),
( Pred = (Head :- Body) -> % only facts allowed
Body == true,
Pred2 = Head
; Pred2 = Pred
),
functor(Pred2, Functor, Arity),
'$lgt_pp_dynamic_'(Functor, Arity),
( '$lgt_pp_public_'(Functor, Arity) % a scope directive must be present
; '$lgt_pp_protected_'(Functor, Arity)
; '$lgt_pp_private_'(Functor, Arity)
), !,
Pred2 =.. [Functor| Args],
'$lgt_ctx_ctx'(Ctx, _, _, _, _, EntityPrefix, _, _),
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix),
'$lgt_append'(Args, [_, _, _], Args2),
TPred =.. [PredPrefix| Args2].
% '$lgt_runtime_db_clause_chk'(@term)
%
% true if the argument forces runtime validity check
'$lgt_runtime_db_clause_chk'(Pred) :-
var(Pred),
!.
'$lgt_runtime_db_clause_chk'((Head :- _)) :-
var(Head),
!.
'$lgt_runtime_db_clause_chk'((_ :- Body)) :-
var(Body).
% '$lgt_compiler_db_clause_chk'(@nonvar)
%
% throws an error if the argument is invalid
'$lgt_compiler_db_clause_chk'((Head :- _)) :-
\+ callable(Head),
throw(type_error(callable, Head)).
'$lgt_compiler_db_clause_chk'((_ :- Body)) :-
nonvar(Body),
\+ callable(Body),
throw(type_error(callable, Body)).
'$lgt_compiler_db_clause_chk'(Clause) :-
\+ callable(Clause),
throw(type_error(callable, Clause)).
'$lgt_compiler_db_clause_chk'(_).
% '$lgt_runtime_db_pred_ind_chk'(@term)
%
% true if the argument forces runtime validity check
'$lgt_runtime_db_pred_ind_chk'(Pred) :-
var(Pred),
!.
'$lgt_runtime_db_pred_ind_chk'(Functor/_) :-
var(Functor),
!.
'$lgt_runtime_db_pred_ind_chk'(_/Arity) :-
var(Arity).
% '$lgt_compiler_db_pred_ind_chk'(@nonvar)
%
% throws an error if the argument is invalid
'$lgt_compiler_db_pred_ind_chk'(Term) :-
Term \= (_/_),
throw(type_error(predicate_indicator, Term)).
'$lgt_compiler_db_pred_ind_chk'(Functor/_) :-
\+ atom(Functor),
throw(type_error(atom, Functor)).
'$lgt_compiler_db_pred_ind_chk'(_/Arity) :-
\+ integer(Arity),
throw(type_error(integer, Arity)).
'$lgt_compiler_db_pred_ind_chk'(_/Arity) :-
integer(Arity),
Arity < 0,
throw(domain_error(not_less_than_zero, Arity)).
'$lgt_compiler_db_pred_ind_chk'(_).
% '$lgt_tr_msg'(@term, @object_identifier, -nonvar, @object_identifier)
%
% translates the sending of a message to an object
'$lgt_tr_msg'(Pred, Obj, TPred, This) :-
nonvar(Obj),
( (Obj = (_, _); Obj = (_; _)) ->
!,
'$lgt_tr_msg_broadcasting'(Obj, Pred, TPred, This) % message broadcasting
; ( \+ callable(Obj) ->
throw(type_error(object_identifier, Obj)) % invalid object identifier
; This \== user, % not runtime message translation
assertz('$lgt_pp_referenced_object_'(Obj)), % remember object receiving message
fail
)
).
% translation performed at runtime
'$lgt_tr_msg'(Pred, Obj, TPred, This) :-
var(Pred),
!,
( '$lgt_compiler_flag'(events, on) ->
TPred = '$lgt_send_to_object'(Obj, Pred, This)
; TPred = '$lgt_send_to_object_ne'(Obj, Pred, This)
).
% invalid message
'$lgt_tr_msg'(Pred, _, _, _) :-
\+ callable(Pred),
throw(type_error(callable, Pred)).
% control constructs
'$lgt_tr_msg'((Pred1, Pred2), Obj, (TPred1, TPred2), This) :-
!,
'$lgt_tr_msg'(Pred1, Obj, TPred1, This),
'$lgt_tr_msg'(Pred2, Obj, TPred2, This).
'$lgt_tr_msg'((Pred1; Pred2), Obj, (TPred1; TPred2), This) :-
!,
'$lgt_tr_msg'(Pred1, Obj, TPred1, This),
'$lgt_tr_msg'(Pred2, Obj, TPred2, This).
'$lgt_tr_msg'((Pred1 -> Pred2), Obj, (TPred1 -> TPred2), This) :-
!,
'$lgt_tr_msg'(Pred1, Obj, TPred1, This),
'$lgt_tr_msg'(Pred2, Obj, TPred2, This).
'$lgt_tr_msg'(\+ Pred, Obj, \+ TPred, This) :-
!,
'$lgt_tr_msg'(Pred, Obj, TPred, This).
'$lgt_tr_msg'(!, Obj, ('$lgt_obj_exists'(Obj, !, This), !), This) :-
!.
'$lgt_tr_msg'(true, Obj, ('$lgt_obj_exists'(Obj, true, This), true), This) :-
!.
'$lgt_tr_msg'(fail, Obj, ('$lgt_obj_exists'(Obj, fail, This), fail), This) :-
!.
'$lgt_tr_msg'(repeat, Obj, ('$lgt_obj_exists'(Obj, repeat, This), repeat), This) :-
!.
'$lgt_tr_msg'(call(Pred), Obj, TPred, This) :-
!,
'$lgt_tr_msg'(Pred, Obj, TPred, This).
'$lgt_tr_msg'(CallN, Obj, TPred, This) :-
CallN =.. [call, Closure| Args],
!,
TPred = '$lgt_metacall_in_object'(Closure, Args, local, This, Obj, Obj).
'$lgt_tr_msg'(once(Pred), Obj, once(TPred), This) :-
!,
'$lgt_tr_msg'(Pred, Obj, TPred, This).
'$lgt_tr_msg'(catch(Goal, Catcher, Recovery), Obj, catch(TGoal, Catcher, TRecovery), This) :-
!,
'$lgt_tr_msg'(Goal, Obj, TGoal, This),
'$lgt_tr_msg'(Recovery, Obj, TRecovery, This).
'$lgt_tr_msg'(throw(Error), Obj, ('$lgt_obj_exists'(Obj, throw(Error), This), throw(Error)), This) :-
!.
% built-in meta-predicates
'$lgt_tr_msg'(bagof(Term, Pred, List), Obj, bagof(Term, TPred, List), This) :-
!,
'$lgt_tr_msg'(Pred, Obj, TPred, This).
'$lgt_tr_msg'(findall(Term, Pred, List), Obj, findall(Term, TPred, List), This) :-
!,
'$lgt_tr_msg'(Pred, Obj, TPred, This).
'$lgt_tr_msg'(forall(Gen, Test), Obj, forall(TGen, TTest), This) :-
!,
'$lgt_tr_msg'(Gen, Obj, TGen, This),
'$lgt_tr_msg'(Test, Obj, TTest, This).
'$lgt_tr_msg'(setof(Term, Pred, List), Obj, setof(Term, TPred, List), This) :-
!,
'$lgt_tr_msg'(Pred, Obj, TPred, This).
% "reflection" built-in predicates
'$lgt_tr_msg'(current_predicate(Pred), Obj, '$lgt_current_predicate'(Obj, Pred, This, p(p(p))), This) :-
!.
'$lgt_tr_msg'(predicate_property(Pred, Prop), Obj, '$lgt_predicate_property'(Obj, Pred, Prop, This, p(p(p))), This) :-
!.
% database handling built-in predicates
'$lgt_tr_msg'(abolish(Pred), Obj, TPred, This) :-
!,
( '$lgt_runtime_db_pred_ind_chk'(Pred) ->
TPred = '$lgt_abolish'(Obj, Pred, This, p(p(p)))
; '$lgt_compiler_db_pred_ind_chk'(Pred),
TPred = '$lgt_abolish_chk'(Obj, Pred, This, p(p(p)))
).
'$lgt_tr_msg'(asserta(Pred), Obj, TPred, This) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_asserta'(Obj, Pred, This, p(p(_)), p(p(p)))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( Body == true ->
TPred = '$lgt_asserta_fact_chk'(Obj, Head, This, p(p(_)), p(p(p)))
; TPred = '$lgt_asserta_rule_chk'(Obj, Pred, This, p(p(_)), p(p(p)))
)
; TPred = '$lgt_asserta_fact_chk'(Obj, Pred, This, p(p(_)), p(p(p)))
)
).
'$lgt_tr_msg'(assertz(Pred), Obj, TPred, This) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_assertz'(Obj, Pred, This, p(p(_)), p(p(p)))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( Body == true ->
TPred = '$lgt_assertz_fact_chk'(Obj, Head, This, p(p(_)), p(p(p)))
; TPred = '$lgt_assertz_rule_chk'(Obj, Pred, This, p(p(_)), p(p(p)))
)
; TPred = '$lgt_assertz_fact_chk'(Obj, Pred, This, p(p(_)), p(p(p)))
)
).
'$lgt_tr_msg'(clause(Head, Body), Obj, TPred, This) :-
!,
( '$lgt_runtime_db_clause_chk'((Head :- Body)) ->
TPred = '$lgt_clause'(Obj, Head, Body, This, p(p(p)))
; '$lgt_compiler_db_clause_chk'((Head :- Body)),
TPred = '$lgt_clause_chk'(Obj, Head, Body, This, p(p(p)))
).
'$lgt_tr_msg'(retract(Pred), Obj, TPred, This) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_retract'(Obj, Pred, This, p(p(p)))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( var(Body) ->
'$lgt_retract_var_body_chk'(Obj, Pred, This, p(p(p)))
; Body == true ->
TPred = '$lgt_retract_fact_chk'(Obj, Head, This, p(p(p)))
; TPred = '$lgt_retract_rule_chk'(Obj, Pred, This, p(p(p)))
)
; TPred = '$lgt_retract_fact_chk'(Obj, Pred, This, p(p(p)))
)
).
'$lgt_tr_msg'(retractall(Pred), Obj, TPred, This) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_retractall'(Obj, Pred, This, p(p(p)))
; '$lgt_compiler_db_clause_chk'(Pred),
TPred = '$lgt_retractall_chk'(Obj, Pred, This, p(p(p)))
).
% DCG predicates
'$lgt_tr_msg'(expand_term(Term, Clause), Obj, '$lgt_expand_term'(Obj, Term, Clause, This, p(p(p))), This) :-
!.
'$lgt_tr_msg'(phrase(GRBody, List), Obj, '$lgt_phrase'(Obj, GRBody, List, This, p(p(p))), This) :-
!.
'$lgt_tr_msg'(phrase(GRBody, List, Rest), Obj, '$lgt_phrase'(Obj, GRBody, List, Rest, This, p(p(p))), This) :-
!.
% message is not a built-in control construct or a call to a built-in
% (meta-)predicate: translation performed at runtime
'$lgt_tr_msg'(Pred, Obj, TPred, This) :-
( var(Obj) ->
( '$lgt_compiler_flag'(events, on) ->
TPred = '$lgt_send_to_object'(Obj, Pred, This)
; TPred = '$lgt_send_to_object_ne'(Obj, Pred, This)
)
; ( '$lgt_compiler_flag'(events, on) ->
( '$lgt_obj_static_binding_cache'(Obj, Pred, This, Call) ->
TPred = (\+ ('$lgt_before_'(Obj, Pred, This, _, BCall), \+ call(BCall)),
Call,
\+ ('$lgt_after_'(Obj, Pred, This, _, ACall), \+ call(ACall)))
; TPred = '$lgt_send_to_object_nv'(Obj, Pred, This)
)
; ( '$lgt_obj_static_binding_cache'(Obj, Pred, This, Call) ->
TPred = Call
; TPred = '$lgt_send_to_object_ne_nv'(Obj, Pred, This)
)
)
).
% '$lgt_tr_self_msg'(@term, -nonvar, @object_identifier, @object_identifier)
%
% translates the sending of a message to self
% translation performed at runtime
'$lgt_tr_self_msg'(Pred, '$lgt_send_to_self'(Self, Pred, This), This, Self) :-
var(Pred),
!.
% invalid message
'$lgt_tr_self_msg'(Pred, _, _, _) :-
\+ callable(Pred),
throw(type_error(callable, Pred)).
% control constructs
'$lgt_tr_self_msg'((Pred1, Pred2), (TPred1, TPred2), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred1, TPred1, This, Self),
'$lgt_tr_self_msg'(Pred2, TPred2, This, Self).
'$lgt_tr_self_msg'(((Pred1; Pred2)), (TPred1; TPred2), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred1, TPred1, This, Self),
'$lgt_tr_self_msg'(Pred2, TPred2, This, Self).
'$lgt_tr_self_msg'((Pred1 -> Pred2), (TPred1 -> TPred2), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred1, TPred1, This, Self),
'$lgt_tr_self_msg'(Pred2, TPred2, This, Self).
'$lgt_tr_self_msg'(\+ Pred, \+ TPred, This, Self) :-
!,
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
'$lgt_tr_self_msg'(!, !, _, _) :-
!.
'$lgt_tr_self_msg'(true, true, _, _) :-
!.
'$lgt_tr_self_msg'(fail, fail, _, _) :-
!.
'$lgt_tr_self_msg'(repeat, repeat, _, _) :-
!.
'$lgt_tr_self_msg'(call(Pred), TPred, This, Self) :-
!,
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
'$lgt_tr_self_msg'(CallN, TPred, This, Self) :-
CallN =.. [call, Closure| Args],
!,
TPred = '$lgt_metacall_in_object'(Closure, Args, local, This, Self, Self).
'$lgt_tr_self_msg'(once(Pred), once(TPred), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
'$lgt_tr_self_msg'(catch(Goal, Catcher, Recovery), catch(TGoal, Catcher, TRecovery), This, Self) :-
!,
'$lgt_tr_self_msg'(Goal, TGoal, This, Self),
'$lgt_tr_self_msg'(Recovery, TRecovery, This, Self).
'$lgt_tr_self_msg'(throw(Error), throw(Error), _, _) :-
!.
% built-in meta-predicates
'$lgt_tr_self_msg'(bagof(Term, Pred, List), bagof(Term, TPred, List), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
'$lgt_tr_self_msg'(findall(Term, Pred, List), findall(Term, TPred, List), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
'$lgt_tr_self_msg'(forall(Gen, Test), forall(TGen, TTest), This, Self) :-
!,
'$lgt_tr_self_msg'(Gen, TGen, This, Self),
'$lgt_tr_self_msg'(Test, TTest, This, Self).
'$lgt_tr_self_msg'(setof(Term, Pred, List), setof(Term, TPred, List), This, Self) :-
!,
'$lgt_tr_self_msg'(Pred, TPred, This, Self).
% "reflection" built-in predicates
'$lgt_tr_self_msg'(current_predicate(Pred), '$lgt_current_predicate'(Self, Pred, This, p(_)), This, Self) :-
!.
'$lgt_tr_self_msg'(predicate_property(Pred, Prop), '$lgt_predicate_property'(Self, Pred, Prop, This, p(_)), This, Self) :-
!.
% database handling built-in predicates
'$lgt_tr_self_msg'(abolish(Pred), TPred, This, Self) :-
!,
( '$lgt_runtime_db_pred_ind_chk'(Pred) ->
TPred = '$lgt_abolish'(Self, Pred, This, p(_))
; '$lgt_compiler_db_pred_ind_chk'(Pred),
TPred = '$lgt_abolish_chk'(Self, Pred, This, p(_))
).
'$lgt_tr_self_msg'(asserta(Pred), TPred, This, Self) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_asserta'(Self, Pred, This, p(_), p(p))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( Body == true ->
TPred = '$lgt_asserta_fact_chk'(Self, Head, This, p(_), p(p))
; TPred = '$lgt_asserta_rule_chk'(Self, Pred, This, p(_), p(p))
)
; TPred = '$lgt_asserta_fact_chk'(Self, Pred, This, p(_), p(p))
)
).
'$lgt_tr_self_msg'(assertz(Pred), TPred, This, Self) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_assertz'(Self, Pred, This, p(_), p(p))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( Body == true ->
TPred = '$lgt_assertz_fact_chk'(Self, Head, This, p(_), p(p))
; TPred = '$lgt_assertz_rule_chk'(Self, Pred, This, p(_), p(p))
)
; TPred = '$lgt_assertz_fact_chk'(Self, Pred, This, p(_), p(p))
)
).
'$lgt_tr_self_msg'(clause(Head, Body), TPred, This, Self) :-
!,
( '$lgt_runtime_db_clause_chk'((Head :- Body)) ->
TPred = '$lgt_clause'(Self, Head, Body, This, p(_))
; '$lgt_compiler_db_clause_chk'((Head :- Body)),
TPred = '$lgt_clause_chk'(Self, Head, Body, This, p(_))
).
'$lgt_tr_self_msg'(retract(Pred), TPred, This, Self) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_retract'(Self, Pred, This, p(_))
; '$lgt_compiler_db_clause_chk'(Pred),
( Pred = (Head :- Body) ->
( var(Body) ->
'$lgt_retract_var_body_chk'(Self, Pred, This, p(_))
; Body == true ->
TPred = '$lgt_retract_fact_chk'(Self, Head, This, p(_))
; TPred = '$lgt_retract_rule_chk'(Self, Pred, This, p(_))
)
; TPred = '$lgt_retract_fact_chk'(Self, Pred, This, p(_))
)
).
'$lgt_tr_self_msg'(retractall(Pred), TPred, This, Self) :-
!,
( '$lgt_runtime_db_clause_chk'(Pred) ->
TPred = '$lgt_retractall'(Self, Pred, This, p(_))
; '$lgt_compiler_db_clause_chk'(Pred),
TPred = '$lgt_retractall_chk'(Self, Pred, This, p(_))
).
% DCG predicates
'$lgt_tr_self_msg'(expand_term(Term, Clause), '$lgt_expand_term'(Self, Term, Clause, This, p(_)), This, Self) :-
!.
'$lgt_tr_self_msg'(phrase(GRBody, List), '$lgt_phrase'(Self, GRBody, List, This, p(_)), This, Self) :-
!.
'$lgt_tr_self_msg'(phrase(GRBody, List, Rest), '$lgt_phrase'(Self, GRBody, List, Rest, This, p(_)), This, Self) :-
!.
% message is not a built-in control construct or a call to a built-in
% (meta-)predicate: translation performed at runtime
'$lgt_tr_self_msg'(Pred, '$lgt_send_to_self_nv'(Self, Pred, This), This, Self) :-
!.
% message broadcasting (sending a message to several objects)
'$lgt_tr_msg_broadcasting'((Obj1, Obj2), Pred, (TP1, TP2), This) :-
!,
'$lgt_tr_msg'(Pred, Obj1, TP1, This),
'$lgt_tr_msg'(Pred, Obj2, TP2, This).
'$lgt_tr_msg_broadcasting'((Obj1; Obj2), Pred, (TP1; TP2), This) :-
!,
'$lgt_tr_msg'(Pred, Obj1, TP1, This),
'$lgt_tr_msg'(Pred, Obj2, TP2, This).
% '$lgt_tr_super_call'(@term, -term, +term)
%
% translates calling of redefined predicates ("super" calls)
'$lgt_tr_super_call'(Pred, _, _) :- % invalid goal (not callable)
nonvar(Pred),
\+ callable(Pred),
throw(type_error(callable, Pred)).
'$lgt_tr_super_call'(Pred, TPred, Ctx) :- % translation performed at runtime
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
( var(Pred) ->
TPred = '$lgt_send_to_super'(Self, Pred, This, Sender)
; TPred = '$lgt_send_to_super_nv'(Self, Pred, This, Sender)
).
% '$lgt_pred_meta_vars'(+callable, -list)
%
% constructs a list of all variables that occur
% in a position corresponding to a meta-argument
'$lgt_pred_meta_vars'(Pred, MetaVars) :-
functor(Pred, Functor, Arity),
functor(Meta, Functor, Arity),
( '$lgt_pp_meta_predicate_'(Meta) ->
Pred =.. [_| Args],
Meta =.. [_| MArgs],
'$lgt_extract_meta_vars'(Args, MArgs, MetaVars)
; MetaVars = []
).
% '$lgt_pred_meta_vars'(+callable, +callable, -list)
%
% constructs a list of all variables that occur
% in a position corresponding to a meta-argument
'$lgt_pred_meta_vars'(Pred, Meta, MetaVars) :-
( Meta == no ->
MetaVars = []
; Pred =.. [_| Args],
Meta =.. [_| MArgs],
'$lgt_extract_meta_vars'(Args, MArgs, MetaVars)
).
% '$lgt_extract_meta_vars'(+list, +list, -list)
'$lgt_extract_meta_vars'([], [], []).
'$lgt_extract_meta_vars'([Var| Args], [MArg| MArgs], [Var| MetaVars]) :-
var(Var),
MArg \== (*),
!,
'$lgt_extract_meta_vars'(Args, MArgs, MetaVars).
'$lgt_extract_meta_vars'([_| Args], [_| MArgs], MetaVars) :-
'$lgt_extract_meta_vars'(Args, MArgs, MetaVars).
% '$lgt_iso_read_term'(@stream, ?term, +read_options_list, @list)
%
% wraps read_term/3 call with the necessary operator settings
'$lgt_iso_read_term'(Stream, Term, Options, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
read_term(Stream, Term, Options),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_read_term'(?term, +read_options_list, @list)
%
% wraps read_term/2 call with the necessary operator settings
'$lgt_iso_read_term'(Term, Options, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
read_term(Term, Options),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_read'(@stream, ?term, @list)
%
% wraps read/2 call with the necessary operator settings
'$lgt_iso_read'(Stream, Term, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
read(Stream, Term),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_read'(?term, @list)
%
% wraps read/1 call with the necessary operator settings
'$lgt_iso_read'(Term, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
read(Term),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_write_term'(@stream_or_alias, @term, @write_options_list, @list)
%
% wraps write_term/3 call with the necessary operator settings
'$lgt_iso_write_term'(Stream, Term, Options, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
write_term(Stream, Term, Options),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_write_term'(@term, @write_options_list, @list)
%
% wraps write_term/2 call with the necessary operator settings
'$lgt_iso_write_term'(Term, Options, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
write_term(Term, Options),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_write'(@stream_or_alias, @term, @list)
%
% wraps write/2 call with the necessary operator settings
'$lgt_iso_write'(Stream, Term, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
write(Stream, Term),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_write'(@term, @list)
%
% wraps write/1 call with the necessary operator settings
'$lgt_iso_write'(Term, Ops):-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
write(Term),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_writeq'(@stream_or_alias, @term, @list)
%
% wraps writeq/2 call with the necessary operator settings
'$lgt_iso_writeq'(Stream, Term, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
writeq(Stream, Term),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_iso_writeq'(@term, @list)
%
% wraps writeq/1 call with the necessary operator settings
'$lgt_iso_writeq'(Term, Ops) :-
catch(
('$lgt_save_operators'(Ops, Saved),
'$lgt_add_operators'(Ops),
writeq(Term),
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved)),
Error,
'$lgt_iso_read_error_handler'(Ops, Saved, Error)).
% '$lgt_save_operators'(@list, -list)
%
% save currently defined operators that might be
% redefined when a list of operators is added
'$lgt_save_operators'([], []).
'$lgt_save_operators'([op(_, Spec, Op)| Ops], Saved) :-
( current_op(Pr, SCSpec, Op),
'$lgt_same_op_class'(Spec, SCSpec) ->
Saved = [op(Pr, SCSpec, Op)| Saved2]
; Saved = Saved2
),
'$lgt_save_operators'(Ops, Saved2).
% '$lgt_add_operators'(@list)
%
% adds operators to the global operator table
'$lgt_add_operators'([]).
'$lgt_add_operators'([op(Pr, Spec, Op)| Ops]) :-
op(Pr, Spec, Op),
'$lgt_add_operators'(Ops).
% '$lgt_remove_operators'(@list)
%
% remove operators from the global operator table
'$lgt_remove_operators'([]).
'$lgt_remove_operators'([op(_, Spec, Op)| Ops]) :-
op(0, Spec, Op),
'$lgt_remove_operators'(Ops).
% '$lgt_iso_read_error_handler'(@list, @list, @nonvar)
%
% restores operator table to the its state before the call
% to one of the '$lgt_iso_read...' raised an error
'$lgt_iso_read_error_handler'(Ops, Saved, Error) :-
'$lgt_remove_operators'(Ops),
'$lgt_add_operators'(Saved),
throw(Error).
% '$lgt_simplify_body'(+callable, -callable)
%
% remove redundant calls to true/0 from a translated clause body
'$lgt_simplify_body'((A;B), (SA;SB)) :-
!,
'$lgt_simplify_body'(A, SA),
'$lgt_simplify_body'(B, SB).
'$lgt_simplify_body'((A->B), (SA->SB)) :-
!,
'$lgt_simplify_body'(A, SA),
'$lgt_simplify_body'(B, SB).
'$lgt_simplify_body'((true, B), SB) :-
!,
'$lgt_simplify_body'(B, SB).
'$lgt_simplify_body'((B, true), SB) :-
!,
'$lgt_simplify_body'(B, SB).
'$lgt_simplify_body'((A, B), (SA, SB)) :-
!,
'$lgt_simplify_body'(A, SA),
'$lgt_simplify_body'(B, SB).
'$lgt_simplify_body'(\+ A, \+ SA) :-
!,
'$lgt_simplify_body'(A, SA).
'$lgt_simplify_body'(B, B).
% '$lgt_tr_object_id'(+object_identifier, +atom)
%
% from the object identifier construct the set of
% functor prefixes used in the compiled code clauses
'$lgt_tr_object_id'(Obj, Mode) :-
assertz('$lgt_pp_referenced_object_'(Obj)),
'$lgt_construct_object_functors'(Obj, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm),
assertz('$lgt_pp_object_'(Obj, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm, Mode)),
asserta('$lgt_pp_pred_mutex_count_'(0)).
% '$lgt_tr_category_id'(+category_identifier, +atom)
%
% from the category identifier construct the set of
% functor prefixes used in the compiled code clauses
'$lgt_tr_category_id'(Ctg, Mode) :-
assertz('$lgt_pp_referenced_category_'(Ctg)),
'$lgt_construct_category_functors'(Ctg, Prefix, Dcl, Def, Rnm),
assertz('$lgt_pp_category_'(Ctg, Prefix, Dcl, Def, Rnm, Mode)),
asserta('$lgt_pp_pred_mutex_count_'(0)).
% '$lgt_tr_protocol_id'(+protocol_identifier, +atom)
%
% from the protocol identifier construct the set of
% functor prefixes used in the compiled code clauses
'$lgt_tr_protocol_id'(Ptc, Mode) :-
assertz('$lgt_pp_referenced_protocol_'(Ptc)),
'$lgt_construct_protocol_functors'(Ptc, Prefix, Dcl, Rnm),
assertz('$lgt_pp_protocol_'(Ptc, Prefix, Dcl, Rnm, Mode)).
% '$lgt_update_entity_comp_mode'
%
% updates entity compilation mode to "dynamic" (entities are static by default)
'$lgt_update_entity_comp_mode' :-
retract('$lgt_pp_object_'(Obj, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm, _)),
assertz('$lgt_pp_object_'(Obj, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm, (dynamic))),
!.
'$lgt_update_entity_comp_mode' :-
retract('$lgt_pp_protocol_'(Ptc, Prefix, Dcl, Rnm, _)),
assertz('$lgt_pp_protocol_'(Ptc, Prefix, Dcl, Rnm, (dynamic))),
!.
'$lgt_update_entity_comp_mode' :-
retract('$lgt_pp_category_'(Ctg, Prefix, Dcl, Def, Rnm, _)),
assertz('$lgt_pp_category_'(Ctg, Prefix, Dcl, Def, Rnm, (dynamic))).
% '$lgt_tr_implements_protocol'(+list, +object_identifier)
% '$lgt_tr_implements_protocol'(+list, +category_identifier)
%
% translates an "implementents" relation between
% a category or an object and a list of protocols
'$lgt_tr_implements_protocol'([], _).
'$lgt_tr_implements_protocol'([Ref| _], _) :-
var(Ref),
throw(instantiation_error).
'$lgt_tr_implements_protocol'([Scope::Ptc| _], _) :-
(var(Scope); var(Ptc)),
throw(instantiation_error).
'$lgt_tr_implements_protocol'([Ref| Refs], ObjOrCtg) :-
( '$lgt_valid_ref_scope'(Ref, Scope) ->
( '$lgt_valid_protocol_ref'(Ref, Ptc) ->
assertz('$lgt_pp_referenced_protocol_'(Ptc)),
assertz('$lgt_pp_rclause_'('$lgt_implements_protocol_'(ObjOrCtg, Ptc, Scope))),
'$lgt_construct_protocol_functors'(Ptc, Prefix, Dcl, _),
assertz('$lgt_pp_implemented_protocol_'(Ptc, Prefix, Dcl, Scope)),
'$lgt_tr_implements_protocol'(Refs, ObjOrCtg)
; throw(type_error(protocol_identifier, Ptc))
)
; throw(type_error(scope, Ref))
).
% '$lgt_tr_imports_category'(+list, +object_identifier)
% '$lgt_tr_imports_category'(+list, +category_identifier)
%
% translates an "imports" relation between
% an object/category and a list of categories
'$lgt_tr_imports_category'([], _).
'$lgt_tr_imports_category'([Ref| _], _) :-
var(Ref),
throw(instantiation_error).
'$lgt_tr_imports_category'([Scope::Ctg| _], _) :-
(var(Scope); var(Ctg)),
throw(instantiation_error).
'$lgt_tr_imports_category'([Ref| Refs], ObjOrCtg) :-
( '$lgt_valid_ref_scope'(Ref, Scope) ->
( '$lgt_valid_category_ref'(Ref, Ctg) ->
assertz('$lgt_pp_referenced_category_'(Ctg)),
assertz('$lgt_pp_rclause_'('$lgt_imports_category_'(ObjOrCtg, Ctg, Scope))),
'$lgt_construct_category_functors'(Ctg, Prefix, Dcl, Def, _),
assertz('$lgt_pp_imported_category_'(Ctg, Prefix, Dcl, Def, Scope)),
'$lgt_tr_imports_category'(Refs, ObjOrCtg)
; throw(type_error(category_identifier, Ctg))
)
; throw(type_error(scope, Ref))
).
% '$lgt_tr_instantiates_class'(+list, +object_identifier)
%
% translates an "instantiates" relation between
% an instance and a list of classes
'$lgt_tr_instantiates_class'([], _).
'$lgt_tr_instantiates_class'([Ref| _], _) :-
var(Ref),
throw(instantiation_error).
'$lgt_tr_instantiates_class'([Scope::Class| _], _) :-
(var(Scope); var(Class)),
throw(instantiation_error).
'$lgt_tr_instantiates_class'([Ref| Refs], Obj) :-
( '$lgt_valid_ref_scope'(Ref, Scope) ->
( '$lgt_valid_object_ref'(Ref, Class) ->
assertz('$lgt_pp_referenced_object_'(Class)),
assertz('$lgt_pp_rclause_'('$lgt_instantiates_class_'(Obj, Class, Scope))),
'$lgt_construct_object_functors'(Class, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, _),
assertz('$lgt_pp_instantiated_class_'(Class, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Scope)),
'$lgt_tr_instantiates_class'(Refs, Obj)
; throw(type_error(object_identifier, Class))
)
; throw(type_error(scope, Ref))
).
% '$lgt_tr_specializes_class'(+list, +object_identifier)
%
% translates a "specializes" relation between
% a class and a list of superclasses
'$lgt_tr_specializes_class'([], _).
'$lgt_tr_specializes_class'([Ref| _], _) :-
var(Ref),
throw(instantiation_error).
'$lgt_tr_specializes_class'([Scope::Superclass| _], _) :-
(var(Scope); var(Superclass)),
throw(instantiation_error).
'$lgt_tr_specializes_class'([Ref| Refs], Class) :-
( '$lgt_valid_ref_scope'(Ref, Scope) ->
( '$lgt_valid_object_ref'(Ref, Superclass) ->
assertz('$lgt_pp_referenced_object_'(Superclass)),
assertz('$lgt_pp_rclause_'('$lgt_specializes_class_'(Class, Superclass, Scope))),
'$lgt_construct_object_functors'(Superclass, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, _),
assertz('$lgt_pp_specialized_class_'(Superclass, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Scope)),
'$lgt_tr_specializes_class'(Refs, Class)
; throw(type_error(object_identifier, Superclass))
)
; throw(type_error(scope, Ref))
).
% '$lgt_tr_extends_object'(+list, +object_identifier)
%
% translates an "extends" relation between
% a prototype and a list of parents
'$lgt_tr_extends_object'([], _).
'$lgt_tr_extends_object'([Ref| _], _) :-
var(Ref),
throw(instantiation_error).
'$lgt_tr_extends_object'([Scope::Parent| _], _) :-
(var(Scope); var(Parent)),
throw(instantiation_error).
'$lgt_tr_extends_object'([Ref| Refs], Obj) :-
( '$lgt_valid_ref_scope'(Ref, Scope) ->
( '$lgt_valid_object_ref'(Ref, Parent) ->
assertz('$lgt_pp_referenced_object_'(Parent)),
assertz('$lgt_pp_rclause_'('$lgt_extends_object_'(Obj, Parent, Scope))),
'$lgt_construct_object_functors'(Parent, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, _),
assertz('$lgt_pp_extended_object_'(Parent, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Scope)),
'$lgt_tr_extends_object'(Refs, Obj)
; throw(type_error(object_identifier, Parent))
)
; throw(type_error(scope, Ref))
).
% '$lgt_tr_extends_protocol'(+list, +protocol_identifier)
%
% translates an "extends" relation between
% a protocol and a list of protocols
'$lgt_tr_extends_protocol'([], _).
'$lgt_tr_extends_protocol'([Ref| _], _) :-
var(Ref),
throw(instantiation_error).
'$lgt_tr_extends_protocol'([Scope::Ptc| _], _) :-
(var(Scope); var(Ptc)),
throw(instantiation_error).
'$lgt_tr_extends_protocol'([Ref| Refs], Ptc1) :-
( '$lgt_valid_ref_scope'(Ref, Scope) ->
( '$lgt_valid_protocol_ref'(Ref, Ptc2) ->
assertz('$lgt_pp_referenced_protocol_'(Ptc2)),
assertz('$lgt_pp_rclause_'('$lgt_extends_protocol_'(Ptc1, Ptc2, Scope))),
'$lgt_construct_protocol_functors'(Ptc2, Prefix, Dcl, _),
assertz('$lgt_pp_extended_protocol_'(Ptc2, Prefix, Dcl, Scope)),
'$lgt_tr_extends_protocol'(Refs, Ptc1)
; throw(type_error(protocol_identifier, Ptc2))
)
; throw(type_error(scope, Ref))
).
% '$lgt_report_problems'(+atom)
%
% reports any potential problem found while compiling an entity
'$lgt_report_problems'(protocol) :-
( '$lgt_compiler_flag'(report, on) ->
'$lgt_report_unknown_entities'
; true
).
'$lgt_report_problems'(object) :-
( '$lgt_compiler_flag'(report, on) ->
'$lgt_report_undef_pred_calls',
'$lgt_report_misspelt_calls',
'$lgt_report_non_portable_calls',
'$lgt_report_unknown_entities'
; true
).
'$lgt_report_problems'(category) :-
'$lgt_report_problems'(object).
% '$lgt_report_unknown_entities'
%
% reports any unknown referenced entities found while compiling an entity
'$lgt_report_unknown_entities' :-
( '$lgt_compiler_flag'(unknown, warning) ->
'$lgt_report_unknown_objects',
'$lgt_report_unknown_protocols',
'$lgt_report_unknown_categories'
; true
).
% '$lgt_report_unknown_objects'
%
% report any unknown referenced objects found while compiling an entity
'$lgt_report_unknown_objects' :-
( setof(Obj, '$lgt_unknown_object'(Obj), Objs) ->
'$lgt_inc_compile_warnings_counter',
nl,
( Objs = [_] ->
write(' WARNING! Reference to unknown object: ')
; write(' WARNING! References to unknown objects: ')
),
'$lgt_writeq_list'(Objs)
; true
).
'$lgt_unknown_object'(Obj) :-
'$lgt_pp_referenced_object_'(Obj),
\+ '$lgt_current_object_'(Obj, _, _, _, _, _, _, _), % not a currently loaded object
\+ '$lgt_pp_object_'(Obj, _, _, _, _, _, _, _, _, _, _), % not the object being compiled (self references)
\+ '$lgt_pp_entity_init_'(object, Obj, _), % not an object defined in the source file being compiled
\+ catch(current_module(Obj), _, fail). % not a currently loaded module; use catch/3 to avoid
% errors with Prolog compilers with no module support
% '$lgt_report_unknown_protocols'
%
% report any unknown referenced protocols found while compiling an entity
'$lgt_report_unknown_protocols' :-
( setof(Ptc, '$lgt_unknown_protocol'(Ptc), Ptcs) ->
'$lgt_inc_compile_warnings_counter',
nl,
( Ptcs = [_] ->
write(' WARNING! Reference to unknown protocol: ')
; write(' WARNING! References to unknown protocols: ')
),
'$lgt_writeq_list'(Ptcs)
; true
).
'$lgt_unknown_protocol'(Ptc) :-
'$lgt_pp_referenced_protocol_'(Ptc),
\+ '$lgt_current_protocol_'(Ptc, _, _), % not a currently loaded protocol
\+ '$lgt_pp_protocol_'(Ptc, _, _, _, _), % not the protocol being compiled (self references)
\+ '$lgt_pp_entity_init_'(protocol, Ptc, _). % not a protocol defined in the source file being compiled
% '$lgt_report_unknown_categories'
%
% report any unknown referenced categories found while compiling an entity
'$lgt_report_unknown_categories' :-
( setof(Ctg, '$lgt_unknown_category'(Ctg), Ctgs) ->
'$lgt_inc_compile_warnings_counter',
nl,
( Ctgs = [_] ->
write(' WARNING! Reference to unknown category: ')
; write(' WARNING! References to unknown categories: ')
),
'$lgt_writeq_list'(Ctgs)
; true
).
'$lgt_unknown_category'(Ctg) :-
'$lgt_pp_referenced_category_'(Ctg),
\+ '$lgt_current_category_'(Ctg, _, _, _), % not a currently loaded category
\+ '$lgt_pp_category_'(Ctg, _, _, _, _, _), % not the category being compiled (self references)
\+ '$lgt_pp_entity_init_'(category, Ctg, _). % not a category defined in the source file being compiled
% '$lgt_writeq_list'(+list)
%
% auxiliary predicate for writing a non-empty list of elements (quoted)
'$lgt_writeq_list'([Term]) :-
writeq(Term), !.
'$lgt_writeq_list'([Term1, Term2| Terms]) :-
writeq(Term1), write(', '),
'$lgt_writeq_list'([Term2| Terms]).
% '$lgt_write_list'(+list)
%
% auxiliary predicate for writing a non-empty list of elements (non-quoted)
'$lgt_write_list'([Term]) :-
write(Term), !.
'$lgt_write_list'([Term1, Term2| Terms]) :-
write(Term1), write(', '),
'$lgt_write_list'([Term2| Terms]).
% '$lgt_add_def_clause'(+callable, -callable, +atom, +integer, +nonvar)
%
% adds a "def clause" (used to translate a predicate call) and returns
% the translated clause head
'$lgt_add_def_clause'(Head, Functor, Arity, HeadDef, Ctx) :-
functor(Meta, Functor, Arity),
functor(HeadTemplate, Functor, Arity),
HeadTemplate =.. [_| HeadTemplateArgs],
Head =.. [_| HeadArgs],
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, EntityPrefix, _, MetaCallCtx),
( '$lgt_pp_meta_predicate_'(Meta) ->
'$lgt_pred_meta_vars'(HeadTemplate, Meta, MetaVars),
'$lgt_append'(HeadTemplateArgs, [MetaVars, Sender2, This2, Self2], HeadTemplateArgsDef),
'$lgt_append'(HeadArgs, [MetaCallCtx, Sender, This, Self], HeadArgsDef)
; '$lgt_append'(HeadTemplateArgs, [Sender2, This2, Self2], HeadTemplateArgsDef),
'$lgt_append'(HeadArgs, [Sender, This, Self], HeadArgsDef)
),
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix),
HeadTemplateDef =.. [PredPrefix| HeadTemplateArgsDef],
HeadDef =.. [PredPrefix| HeadArgsDef],
( '$lgt_pp_object_'(_, _, _, Def, _, _, _, _, _, _, _) ->
true
; '$lgt_pp_category_'(_, _, _, Def, _, _)
),
Clause =.. [Def, HeadTemplate, Sender2, This2, Self2, HeadTemplateDef],
( '$lgt_pp_def_'(Clause) ->
true
; assertz('$lgt_pp_def_'(Clause))
),
( '$lgt_built_in'(Head) ->
( '$lgt_pp_redefined_built_in_'(HeadTemplate, _, _, _, _) ->
true
; assertz('$lgt_pp_redefined_built_in_'(HeadTemplate, Sender2, This2, Self2, HeadTemplateDef))
)
; true
),
( '$lgt_pp_defs_pred_'(Functor, Arity) ->
true
; assertz('$lgt_pp_defs_pred_'(Functor, Arity))
).
% '$lgt_add_ddef_clause'(+callable, +atom, +integer, -callable, +nonvar)
%
% adds a "ddef clause" (used to translate a predicate call) and returns
% the translated clause head
'$lgt_add_ddef_clause'(Head, Functor, Arity, HeadDef, Ctx) :-
functor(Meta, Functor, Arity),
functor(HeadTemplate, Functor, Arity),
HeadTemplate =.. [_| HeadTemplateArgs],
Head =.. [_| HeadArgs],
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, EntityPrefix, _, MetaCallCtx),
( '$lgt_pp_meta_predicate_'(Meta) ->
'$lgt_pred_meta_vars'(HeadTemplate, Meta, MetaVars),
'$lgt_append'(HeadTemplateArgs, [MetaVars, Sender2, This2, Self2], HeadTemplateArgsDef),
'$lgt_append'(HeadArgs, [MetaCallCtx, Sender, This, Self], HeadArgsDef)
; '$lgt_append'(HeadTemplateArgs, [Sender2, This2, Self2], HeadTemplateArgsDef),
'$lgt_append'(HeadArgs, [Sender, This, Self], HeadArgsDef)
),
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix),
HeadTemplateDef =.. [PredPrefix| HeadTemplateArgsDef],
HeadDef =.. [PredPrefix| HeadArgsDef],
'$lgt_pp_object_'(_, _, _, _, _, _, _, _, DDef, _, _),
Clause =.. [DDef, HeadTemplate, Sender2, This2, Self2, HeadTemplateDef],
( '$lgt_pp_ddef_'(Clause) ->
true
; assertz('$lgt_pp_ddef_'(Clause))
),
( '$lgt_built_in'(Head) ->
( '$lgt_pp_redefined_built_in_'(HeadTemplate, _, _, _, _) ->
true
; assertz('$lgt_pp_redefined_built_in_'(HeadTemplate, Sender2, This2, Self2, HeadTemplateDef))
)
; true
),
( '$lgt_pp_defs_pred_'(Functor, Arity) ->
true
; assertz('$lgt_pp_defs_pred_'(Functor, Arity))
).
% '$lgt_update_ddef_table'(+atom, +callable, +callable)
%
% retracts a dynamic "ddef clause" (used to translate a predicate call)
% if there are no more clauses for the predicate otherwise does nothing
%
% this is needed in order to allow definitions in ancestors to be found
'$lgt_update_ddef_table'(DDef, Head, Call) :-
functor(Call, CFunctor, CArity),
functor(GCall, CFunctor, CArity),
( clause(GCall, _) ->
true
; functor(Head, HFunctor, HArity),
functor(GHead, HFunctor, HArity),
Clause =.. [DDef, GHead, _, _, _, _],
retractall(Clause),
'$lgt_clean_lookup_caches'(GHead)
).
% '$lgt_update_ddef_table_opt'(+callable, +callable, +callable)
%
% retracts a dynamic "ddef clause" (used to translate a predicate call)
% if there are no more clauses for the predicate otherwise does nothing
%
% this is needed in order to allow definitions in ancestors to be found
'$lgt_update_ddef_table_opt'(Head, Call, Clause) :-
( clause(Call, _) ->
true
; retractall(Clause),
'$lgt_clean_lookup_caches'(Head)
).
% '$lgt_assert_ddcl_clause'(+atom, +term, +term)
%
% asserts a dynamic predicate declaration
'$lgt_assert_ddcl_clause'(DDcl, Pred, Scope) :-
functor(Pred, Functor, Arity),
functor(DPred, Functor, Arity),
Clause =.. [DDcl, DPred, Scope],
assertz(Clause).
% '$lgt_generate_code'(+atom)
%
% generates code for the entity being compiled
'$lgt_generate_code'(protocol) :-
'$lgt_fix_pred_calls', % needed because of possible initialization goal
'$lgt_gen_protocol_clauses',
'$lgt_gen_protocol_directives',
'$lgt_gen_entity_init_goal'.
'$lgt_generate_code'(object) :-
'$lgt_fix_synchronized_preds',
'$lgt_fix_pred_calls',
'$lgt_gen_object_clauses',
'$lgt_gen_object_directives',
'$lgt_gen_entity_init_goal'.
'$lgt_generate_code'(category) :-
'$lgt_fix_synchronized_preds',
'$lgt_fix_pred_calls',
'$lgt_gen_category_clauses',
'$lgt_gen_category_directives',
'$lgt_gen_entity_init_goal'.
'$lgt_gen_object_directives' :-
'$lgt_gen_object_dynamic_directives',
'$lgt_gen_object_discontiguous_directives'.
'$lgt_gen_category_directives' :-
'$lgt_gen_category_dynamic_directives',
'$lgt_gen_category_discontiguous_directives'.
'$lgt_gen_protocol_directives' :-
( '$lgt_pp_protocol_'(_, Prefix, Dcl, Rnm, (dynamic)) ->
assertz('$lgt_pp_directive_'(dynamic(Prefix/2))),
assertz('$lgt_pp_directive_'(dynamic(Dcl/6))),
assertz('$lgt_pp_directive_'(dynamic(Dcl/7))),
assertz('$lgt_pp_directive_'(dynamic(Rnm/3)))
; true
).
'$lgt_gen_object_dynamic_directives' :-
( '$lgt_pp_object_'(_, _, _, _, _, _, _, _, _, _, (dynamic)) ->
'$lgt_gen_dynamic_object_dynamic_directives'
; '$lgt_gen_static_object_dynamic_directives'
).
'$lgt_gen_dynamic_object_dynamic_directives' :-
'$lgt_pp_object_'(_, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm, _),
assertz('$lgt_pp_directive_'(dynamic(Prefix/8))),
assertz('$lgt_pp_directive_'(dynamic(Dcl/6))),
assertz('$lgt_pp_directive_'(dynamic(Dcl/8))),
assertz('$lgt_pp_directive_'(dynamic(Def/5))),
assertz('$lgt_pp_directive_'(dynamic(Def/6))),
assertz('$lgt_pp_directive_'(dynamic(Super/6))),
assertz('$lgt_pp_directive_'(dynamic(IDcl/8))),
assertz('$lgt_pp_directive_'(dynamic(IDef/6))),
assertz('$lgt_pp_directive_'(dynamic(DDcl/2))),
assertz('$lgt_pp_directive_'(dynamic(DDef/5))),
assertz('$lgt_pp_directive_'(dynamic(Rnm/3))),
'$lgt_gen_dynamic_entity_dynamic_predicate_directives'.
'$lgt_gen_dynamic_entity_dynamic_predicate_directives' :-
'$lgt_pp_def_'(Clause),
Clause \= (_ :- _), % only local table; reject linking clauses
arg(5, Clause, Call),
functor(Call, Functor, Arity),
assertz('$lgt_pp_directive_'(dynamic(Functor/Arity))),
fail.
'$lgt_gen_dynamic_entity_dynamic_predicate_directives'.
'$lgt_gen_static_object_dynamic_directives' :-
'$lgt_pp_object_'(_, Prefix, _, _, _, _, _, DDcl, DDef, _, _),
assertz('$lgt_pp_directive_'(dynamic(DDcl/2))),
assertz('$lgt_pp_directive_'(dynamic(DDef/5))),
'$lgt_pp_dynamic_'(Functor, Arity),
'$lgt_construct_predicate_functor'(Prefix, Functor, Arity, TFunctor),
functor(Meta, Functor, Arity),
( '$lgt_pp_meta_predicate_'(Meta) ->
TArity is Arity + 4
; TArity is Arity + 3
),
assertz('$lgt_pp_directive_'(dynamic(TFunctor/TArity))),
fail.
'$lgt_gen_static_object_dynamic_directives'.
'$lgt_gen_object_discontiguous_directives' :-
'$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _),
'$lgt_pp_discontiguous_'(Functor, Arity),
'$lgt_construct_predicate_functor'(Prefix, Functor, Arity, TFunctor),
functor(Meta, Functor, Arity),
( '$lgt_pp_meta_predicate_'(Meta) ->
TArity is Arity + 4
; TArity is Arity + 3
),
assertz('$lgt_pp_directive_'(discontiguous(TFunctor/TArity))),
fail.
'$lgt_gen_object_discontiguous_directives'.
'$lgt_gen_category_dynamic_directives' :-
( '$lgt_pp_category_'(_, Prefix, Dcl, Def, Rnm, (dynamic)) ->
assertz('$lgt_pp_directive_'(dynamic(Prefix/3))),
assertz('$lgt_pp_directive_'(dynamic(Dcl/6))),
assertz('$lgt_pp_directive_'(dynamic(Dcl/7))),
assertz('$lgt_pp_directive_'(dynamic(Def/5))),
assertz('$lgt_pp_directive_'(dynamic(Rnm/3))),
'$lgt_gen_dynamic_entity_dynamic_predicate_directives'
; true
).
'$lgt_gen_category_discontiguous_directives' :-
'$lgt_pp_category_'(_, Prefix, _, _, _, _),
'$lgt_pp_discontiguous_'(Functor, Arity),
'$lgt_construct_predicate_functor'(Prefix, Functor, Arity, TFunctor),
functor(Meta, Functor, Arity),
( '$lgt_pp_meta_predicate_'(Meta) ->
TArity is Arity + 4
; TArity is Arity + 3
),
assertz('$lgt_pp_directive_'(discontiguous(TFunctor/TArity))),
fail.
'$lgt_gen_category_discontiguous_directives'.
'$lgt_gen_object_clauses' :-
( \+ '$lgt_pp_instantiated_class_'(_, _, _, _, _, _, _, _, _, _),
\+ '$lgt_pp_specialized_class_'(_, _, _, _, _, _, _, _, _, _) ->
'$lgt_gen_prototype_clauses'
; '$lgt_gen_ic_clauses'
).
% '$lgt_gen_local_dcl_clauses'(-atom)
%
% a (local) predicate declaration is only generated if there is a scope
% declaration for the predicate; the single argument returns the atom
% "true" if there are local declaration clauses and the atom "fail" otherwise
'$lgt_gen_local_dcl_clauses'(_) :-
'$lgt_pp_entity'(_, _, _, Dcl, EntityCompilation),
( '$lgt_pp_public_'(Functor, Arity), Scope = p(p(p))
; '$lgt_pp_protected_'(Functor, Arity), Scope = p(p)
; '$lgt_pp_private_'(Functor, Arity), Scope = p
),
functor(Pred, Functor, Arity),
( '$lgt_pp_dynamic_'(Functor, Arity) ->
Compilation = (dynamic)
; Compilation = EntityCompilation
),
functor(Template, Functor, Arity),
( '$lgt_pp_meta_predicate_'(Template) ->
Meta = Template
; Meta = no
),
( '$lgt_pp_non_terminal_'(Functor, _, Arity) ->
NonTerminal = yes
; NonTerminal = no
),
( '$lgt_pp_synchronized_'(Pred, _) ->
Synchronized = yes
; Synchronized = no
),
Fact =.. [Dcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized],
assertz('$lgt_pp_dcl_'(Fact)),
fail.
'$lgt_gen_local_dcl_clauses'(Local) :-
( '$lgt_pp_dcl_'(_) ->
Local = true
; Local = fail
).
% '$lgt_gen_local_def_clauses'(-atom)
%
% generates local def clauses for undefined but declared (via scope or
% dynamic directives) predicates; the single argument returns the atom
% "true" if there are local definition clauses and the atom "fail" otherwise
'$lgt_gen_local_def_clauses'(_) :-
'$lgt_pp_entity'(_, _, EntityPrefix, _, _),
'$lgt_ctx_prefix'(Ctx, EntityPrefix),
'$lgt_pp_dynamic_'(Functor, Arity),
\+ '$lgt_pp_defs_pred_'(Functor, Arity),
functor(Head, Functor, Arity),
( \+ '$lgt_pp_public_'(Functor, Arity),
\+ '$lgt_pp_protected_'(Functor, Arity),
\+ '$lgt_pp_private_'(Functor, Arity) ->
'$lgt_add_ddef_clause'(Head, Functor, Arity, _, Ctx)
; '$lgt_add_def_clause'(Head, Functor, Arity, _, Ctx)
),
fail.
'$lgt_gen_local_def_clauses'(Local) :-
( '$lgt_pp_def_'(_) ->
Local = true
; Local = fail
).
'$lgt_gen_protocol_clauses' :-
'$lgt_gen_local_dcl_clauses'(Local),
'$lgt_gen_protocol_linking_clauses'(Local),
'$lgt_gen_protocol_extend_clauses',
'$lgt_gen_protocol_catchall_clauses'.
'$lgt_gen_protocol_linking_clauses'(true) :-
'$lgt_pp_protocol_'(Ptc, _, PDcl, _, _),
Head =.. [PDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ptc],
Body =.. [PDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized],
assertz('$lgt_pp_dcl_'((Head:-Body))).
'$lgt_gen_protocol_linking_clauses'(fail).
'$lgt_gen_protocol_extend_clauses' :-
'$lgt_pp_protocol_'(_, _, PDcl1, PRnm, _),
'$lgt_pp_extended_protocol_'(Ptc2, _, PDcl2, EScope),
( EScope == (public) ->
Lookup =.. [PDcl2, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [PDcl2, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Lookup =.. [PDcl2, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ptc2, _, _) ->
Head =.. [PDcl1, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Rename =.. [PRnm, Ptc2, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [PDcl1, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_protocol_extend_clauses'.
% when a protocol is empty, i.e. when it does not contain any predicate declarations, and
% does not extend other protocols, we need a catchall clause in order to prevent predicate
% existence errors when sending a message to an object implementing (directly or
% indirectly) the protocol
'$lgt_gen_protocol_catchall_clauses' :-
( '$lgt_pp_dcl_'(_) ->
true
; % empty, standalone protocol
'$lgt_pp_protocol_'(_, _, Dcl, _, _),
Head =.. [Dcl, _, _, _, _, _, _, _],
assertz('$lgt_pp_dcl_'((Head:-fail)))
).
'$lgt_construct_alias_functor'(Prefix, PRen) :-
atom_concat(Prefix, '_alias', PRen).
'$lgt_gen_category_clauses' :-
'$lgt_gen_category_dcl_clauses',
'$lgt_gen_category_def_clauses'.
'$lgt_gen_category_dcl_clauses' :-
'$lgt_gen_local_dcl_clauses'(Local),
'$lgt_gen_category_linking_dcl_clauses'(Local),
'$lgt_gen_category_implements_dcl_clauses',
'$lgt_gen_category_imports_dcl_clauses',
'$lgt_gen_category_catchall_dcl_clauses'.
'$lgt_gen_category_linking_dcl_clauses'(true) :-
'$lgt_pp_category_'(Ctg, _, CDcl, _, _, _),
Head =.. [CDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctg],
Body =.. [CDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized],
assertz('$lgt_pp_dcl_'((Head:-Body))).
'$lgt_gen_category_linking_dcl_clauses'(fail).
'$lgt_gen_category_implements_dcl_clauses' :-
'$lgt_pp_category_'(_, _, CDcl, _, PRnm, _),
'$lgt_pp_implemented_protocol_'(Ptc, _, PDcl, EScope),
( EScope == (public) ->
Lookup =.. [PDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [PDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Lookup =.. [PDcl, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ptc, _, _) ->
Head =.. [CDcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Rename =.. [PRnm, Ptc, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [CDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_category_implements_dcl_clauses'.
'$lgt_gen_category_imports_dcl_clauses' :-
'$lgt_pp_category_'(_, _, CDcl, _, PRnm, _),
'$lgt_pp_imported_category_'(Ctg, _, ECDcl, _, EScope),
( EScope == (public) ->
Lookup =.. [ECDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [ECDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Lookup =.. [ECDcl, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ctg, _, _) ->
Head =.. [CDcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Rename =.. [PRnm, Ctg, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [CDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_category_imports_dcl_clauses'.
% when a category contains no predicate declarations, does not implement any protocol,
% and does not import other categories, we need a catchall clause in order to prevent
% predicate existence errors when sending a message to an object importing (directly or
% indirectly) the category
'$lgt_gen_category_catchall_dcl_clauses' :-
( '$lgt_pp_dcl_'(_) ->
true
; % standalone category with no local predicate declarations
'$lgt_pp_category_'(_, _, Dcl, _, _, _),
Head =.. [Dcl, _, _, _, _, _, _, _],
assertz('$lgt_pp_dcl_'((Head:-fail)))
).
'$lgt_gen_category_def_clauses' :-
'$lgt_gen_category_linking_def_clauses',
'$lgt_gen_category_imports_def_clauses'.
'$lgt_gen_category_linking_def_clauses' :-
'$lgt_pp_category_'(Ctg, _, _, Def, _, _),
Head =.. [Def, Pred, Sender, This, Self, Call, Ctg],
( '$lgt_pp_def_'(_) ->
Body =.. [Def, Pred, Sender, This, Self, Call]
; Body = fail
),
assertz('$lgt_pp_def_'((Head:-Body))).
'$lgt_gen_category_imports_def_clauses' :-
'$lgt_pp_category_'(Ctg, _, _, Def, PRnm, _),
'$lgt_pp_rclause_'('$lgt_imports_category_'(Ctg, Ctg2, _)), % needed for parameter passing
'$lgt_pp_imported_category_'(Ctg2, _, _, Def2, _),
Lookup =.. [Def2, Pred, Sender, This, Self, Call, Ctn],
( '$lgt_pp_alias_'(Ctg2, _, _) ->
Head =.. [Def, Alias, Sender, This, Self, Call, Ctn],
Rename =.. [PRnm, Ctg2, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [Def, Pred, Sender, This, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_category_imports_def_clauses'.
% the database built-in methods need to check if a local declaration or a local definition
% exists for a predicate; in order to avoid predicate existence errors, we need to generate
% catchall clauses when there are no local predicate declarations or no local predicate
% definitions
'$lgt_gen_object_catchall_dcl_clauses'(true).
'$lgt_gen_object_catchall_dcl_clauses'(fail) :-
'$lgt_pp_object_'(_, _, Dcl, _, _, _, _, _, _, _, _), % generate a catchall clause for
Head =.. [Dcl, _, _, _, _, _, _], % objects that do not contain
assertz('$lgt_pp_dcl_'((Head:-fail))). % predicate declarations
'$lgt_gen_object_catchall_def_clauses'(true).
'$lgt_gen_object_catchall_def_clauses'(fail) :-
'$lgt_pp_object_'(_, _, _, Def, _, _, _, _, _, _, _), % generate a catchall clause
Head =.. [Def, _, _, _, _, _], % for objects that do not
assertz('$lgt_pp_def_'((Head:-fail))). % contain predicate definitions
'$lgt_gen_prototype_clauses' :-
'$lgt_gen_prototype_dcl_clauses',
'$lgt_gen_prototype_def_clauses',
'$lgt_gen_prototype_super_clauses'.
'$lgt_gen_prototype_dcl_clauses' :-
'$lgt_gen_local_dcl_clauses'(Local),
'$lgt_gen_prototype_linking_dcl_clauses'(Local),
'$lgt_gen_prototype_implements_dcl_clauses',
'$lgt_gen_prototype_imports_dcl_clauses',
'$lgt_gen_prototype_extends_dcl_clauses',
'$lgt_gen_object_catchall_dcl_clauses'(Local).
'$lgt_gen_prototype_linking_dcl_clauses'(Local) :-
'$lgt_pp_object_'(Obj, _, Dcl, _, _, _, _, DDcl, _, _, _),
( call(Local) ->
Head =.. [Dcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Obj],
Body =.. [Dcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized],
assertz('$lgt_pp_dcl_'((Head:-Body)))
; true
),
Head2 =.. [Dcl, Pred, Scope, (dynamic), no, no, no, Obj, Obj],
Body2 =.. [DDcl, Pred, Scope],
assertz('$lgt_pp_dcl_'((Head2:-Body2))).
'$lgt_gen_prototype_implements_dcl_clauses' :-
'$lgt_pp_object_'(Obj, _, ODcl, _, _, _, _, _, _, PRnm, _),
'$lgt_pp_implemented_protocol_'(Ptc, _, PDcl, EScope),
( EScope == (public) ->
Lookup =.. [PDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [PDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
;
Scope = p,
Lookup =.. [PDcl, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ptc, _, _) ->
Head =.. [ODcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
Rename =.. [PRnm, Ptc, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_prototype_implements_dcl_clauses'.
'$lgt_gen_prototype_imports_dcl_clauses' :-
'$lgt_pp_object_'(Obj, _, ODcl, _, _, _, _, _, _, PRnm, _),
'$lgt_pp_imported_category_'(Ctg, _, CDcl, _, EScope),
( EScope == (public) ->
Lookup =.. [CDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [CDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Lookup =.. [CDcl, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ctg, _, _) ->
Head =.. [ODcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
Rename =.. [PRnm, Ctg, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_prototype_imports_dcl_clauses'.
'$lgt_gen_prototype_extends_dcl_clauses' :-
'$lgt_pp_object_'(Obj, _, ODcl, _, _, _, _, _, _, PRnm, _),
'$lgt_pp_extended_object_'(Parent, _, PDcl, _, _, _, _, _, _, EScope),
( EScope == (public) ->
Lookup =.. [PDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn]
; ( EScope == protected ->
Call =.. [PDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Call =.. [PDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, SCtn2, TCtn],
Lookup = (Call, (Scope2 == p -> SCtn = SCtn2; SCtn = Obj))
)
),
( '$lgt_pp_alias_'(Parent, _, _) ->
Head =.. [ODcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
Rename =.. [PRnm, Parent, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_prototype_extends_dcl_clauses'.
'$lgt_gen_prototype_def_clauses' :-
'$lgt_gen_local_def_clauses'(Local),
'$lgt_gen_prototype_linking_def_clauses'(Local),
'$lgt_gen_prototype_imports_def_clauses',
'$lgt_gen_prototype_extends_def_clauses',
'$lgt_gen_object_catchall_def_clauses'(Local).
'$lgt_gen_prototype_linking_def_clauses'(Local) :-
'$lgt_pp_object_'(Obj, _, _, Def, _, _, _, _, DDef, _, _),
Head =.. [Def, Pred, Sender, This, Self, Call, Obj],
( call(Local) ->
Body =.. [Def, Pred, Sender, This, Self, Call],
assertz('$lgt_pp_def_'((Head:-Body)))
; true
),
Body2 =.. [DDef, Pred, Sender, This, Self, Call],
assertz('$lgt_pp_def_'((Head:-Body2))).
'$lgt_gen_prototype_imports_def_clauses' :-
'$lgt_pp_object_'(Obj, _, _, ODef, _, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_imports_category_'(Obj, Ctg, _)), % needed for parameter passing
'$lgt_pp_imported_category_'(Ctg, _, _, CDef, _),
Lookup =.. [CDef, Pred, Sender, Obj, Self, Call, Ctn],
( '$lgt_pp_alias_'(Ctg, _, _) ->
Head =.. [ODef, Alias, Sender, Obj, Self, Call, Ctn],
Rename =.. [PRnm, Ctg, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODef, Pred, Sender, Obj, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_prototype_imports_def_clauses'.
'$lgt_gen_prototype_extends_def_clauses' :-
'$lgt_pp_object_'(Obj, _, _, ODef, _, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_extends_object_'(Obj, Parent, _)), % needed for parameter passing
'$lgt_pp_extended_object_'(Parent, _, _, PDef, _, _, _, _, _, _),
Lookup =.. [PDef, Pred, Sender, Parent, Self, Call, Ctn],
( '$lgt_pp_alias_'(Parent, _, _) ->
Head =.. [ODef, Alias, Sender, Obj, Self, Call, Ctn],
Rename =.. [PRnm, Parent, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODef, Pred, Sender, Obj, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_prototype_extends_def_clauses'.
% we can have a root object where super have nowhere to go ...
'$lgt_gen_prototype_super_clauses' :-
'$lgt_pp_object_'(_, _, _, _, OSuper, _, _, _, _, _, _),
\+ '$lgt_pp_extended_object_'(_, _, _, _, _, _, _, _, _, _),
Head =.. [OSuper, _, _, _, _, _, _],
assertz('$lgt_pp_def_'((Head:-fail))),
!.
% ... or we may extends some objects
'$lgt_gen_prototype_super_clauses' :-
'$lgt_pp_object_'(Obj, _, _, _, OSuper, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_extends_object_'(Obj, Parent, _)), % needed for parameter passing
'$lgt_pp_extended_object_'(Parent, _, _, PDef, _, _, _, _, _, _),
Lookup =.. [PDef, Pred, Sender, Parent, Self, Call, Ctn],
( '$lgt_pp_alias_'(Parent, _, _) ->
Head =.. [OSuper, Alias, Sender, Obj, Self, Call, Ctn],
Rename =.. [PRnm, Parent, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [OSuper, Pred, Sender, Obj, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_prototype_super_clauses'.
'$lgt_gen_ic_clauses' :-
'$lgt_gen_ic_dcl_clauses',
'$lgt_gen_ic_def_clauses',
'$lgt_gen_ic_super_clauses'.
'$lgt_gen_ic_dcl_clauses' :-
'$lgt_gen_local_dcl_clauses'(Local),
'$lgt_gen_ic_idcl_clauses'(Local),
'$lgt_gen_ic_hierarchy_dcl_clauses',
'$lgt_gen_object_catchall_dcl_clauses'(Local).
'$lgt_gen_ic_hierarchy_dcl_clauses' :-
\+ '$lgt_pp_instantiated_class_'(_, _, _, _, _, _, _, _, _, _),
!,
'$lgt_pp_object_'(_, _, ODcl, _, _, _, _, _, _, _, _),
Head =.. [ODcl, _, _, _, _, _, _, _, _],
assertz('$lgt_pp_dcl_'((Head:-fail))).
'$lgt_gen_ic_hierarchy_dcl_clauses' :-
'$lgt_pp_object_'(Obj, _, ODcl, _, _, _, _, _, _, PRnm, _),
'$lgt_pp_instantiated_class_'(Class, _, _, _, _, CIDcl, _, _, _, EScope),
( EScope == (public) ->
Lookup =.. [CIDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn]
; ( EScope == protected ->
Call =.. [CIDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Call =.. [CIDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, SCtn2, TCtn],
Lookup = (Call, (Scope2 == p -> SCtn = SCtn2; SCtn = Obj))
)
),
( '$lgt_pp_alias_'(Class, _, _) ->
Head =.. [ODcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
Rename =.. [PRnm, Class, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_hierarchy_dcl_clauses'.
% generates instance/class inherited declaration clauses
'$lgt_gen_ic_idcl_clauses'(Local) :-
'$lgt_gen_ic_linking_idcl_clauses'(Local),
'$lgt_gen_ic_protocol_idcl_clauses',
'$lgt_gen_ic_category_idcl_clauses',
'$lgt_gen_ic_hierarchy_idcl_clauses'.
'$lgt_gen_ic_linking_idcl_clauses'(Local) :-
'$lgt_pp_object_'(Obj, _, Dcl, _, _, IDcl, _, DDcl, _, _, _),
( call(Local) ->
Head =.. [IDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Obj],
Body =.. [Dcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized],
assertz('$lgt_pp_dcl_'((Head:-Body)))
; true
),
Head2 =.. [IDcl, Pred, Scope, (dynamic), no, no, no, Obj, Obj],
Body2 =.. [DDcl, Pred, Scope],
assertz('$lgt_pp_dcl_'((Head2:-Body2))).
'$lgt_gen_ic_protocol_idcl_clauses' :-
'$lgt_pp_object_'(Obj, _, _, _, _, OIDcl, _, _, _, PRnm, _),
'$lgt_pp_implemented_protocol_'(Ptc, _, PDcl, EScope),
( EScope == (public) ->
Lookup =.. [PDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [PDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Lookup =.. [PDcl, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ptc, _, _) ->
Head =.. [OIDcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
Rename =.. [PRnm, Ptc, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [OIDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_protocol_idcl_clauses'.
'$lgt_gen_ic_category_idcl_clauses' :-
'$lgt_pp_object_'(Obj, _, _, _, _, OIDcl, _, _, _, PRnm, _),
'$lgt_pp_imported_category_'(Ctg, _, CDcl, _, EScope),
( EScope == (public) ->
Lookup =.. [CDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Ctn]
; ( EScope == protected ->
Call =.. [CDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, Ctn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Lookup =.. [CDcl, Pred, _, Compilation, Meta, NonTerminal, Synchronized, Ctn]
)
),
( '$lgt_pp_alias_'(Ctg, _, _) ->
Head =.. [OIDcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
Rename =.. [PRnm, Ctg, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [OIDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, Obj, Ctn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_category_idcl_clauses'.
'$lgt_gen_ic_hierarchy_idcl_clauses' :-
'$lgt_pp_object_'(Obj, _, _, _, _, CIDcl, _, _, _, PRnm, _),
'$lgt_pp_specialized_class_'(Super, _, _, _, _, SIDcl, _, _, _, EScope),
( EScope == (public) ->
Lookup =.. [SIDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn]
; ( EScope == protected ->
Call =.. [SIDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
Lookup = (Call, (Scope2 == p -> Scope = p; Scope = p(p)))
; Scope = p,
Call =.. [SIDcl, Pred, Scope2, Compilation, Meta, NonTerminal, Synchronized, SCtn2, TCtn],
Lookup = (Call, (Scope2 == p -> SCtn = SCtn2; SCtn = Obj))
)
),
( '$lgt_pp_alias_'(Super, _, _) ->
Head =.. [CIDcl, Alias, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
Rename =.. [PRnm, Super, Pred, Alias],
assertz('$lgt_pp_dcl_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [CIDcl, Pred, Scope, Compilation, Meta, NonTerminal, Synchronized, SCtn, TCtn],
assertz('$lgt_pp_dcl_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_hierarchy_idcl_clauses'.
'$lgt_gen_ic_def_clauses' :-
'$lgt_gen_local_def_clauses'(Local),
'$lgt_gen_ic_linking_def_clauses'(Local),
'$lgt_gen_ic_imports_def_clauses',
'$lgt_gen_ic_hierarchy_def_clauses',
'$lgt_gen_ic_idef_clauses'(Local),
'$lgt_gen_object_catchall_def_clauses'(Local).
'$lgt_gen_ic_linking_def_clauses'(Local) :-
'$lgt_pp_object_'(Obj, _, _, Def, _, _, _, _, DDef, _, _),
Head =.. [Def, Pred, Sender, This, Self, Call, Obj],
( call(Local) ->
Body =.. [Def, Pred, Sender, This, Self, Call],
assertz('$lgt_pp_def_'((Head:-Body)))
; true
),
Body2 =.. [DDef, Pred, Sender, This, Self, Call],
assertz('$lgt_pp_def_'((Head:-Body2))).
'$lgt_gen_ic_imports_def_clauses' :-
'$lgt_pp_object_'(Obj, _, _, ODef, _, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_imports_category_'(Obj, Ctg, _)), % needed for parameter passing
'$lgt_pp_imported_category_'(Ctg, _, _, CDef, _),
Lookup =.. [CDef, Pred, Sender, Obj, Self, Call, Ctn],
( '$lgt_pp_alias_'(Ctg, _, _) ->
Head =.. [ODef, Alias, Sender, Obj, Self, Call, Ctn],
Rename =.. [PRnm, Ctg, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODef, Pred, Sender, Obj, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_imports_def_clauses'.
'$lgt_gen_ic_hierarchy_def_clauses' :-
'$lgt_pp_object_'(Obj, _, _, ODef, _, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_instantiates_class_'(Obj, Class, _)), % needed for parameter passing
'$lgt_pp_instantiated_class_'(Class, _, _, _, _, _, CIDef, _, _, _),
Lookup =.. [CIDef, Pred, Sender, Class, Self, Call, Ctn],
( '$lgt_pp_alias_'(Class, _, _) ->
Head =.. [ODef, Alias, Sender, Obj, Self, Call, Ctn],
Rename =.. [PRnm, Class, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [ODef, Pred, Sender, Obj, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_hierarchy_def_clauses'.
'$lgt_gen_ic_idef_clauses'(Local) :-
'$lgt_gen_ic_linking_idef_clauses'(Local),
'$lgt_gen_ic_category_idef_clauses',
'$lgt_gen_ic_hierarchy_idef_clauses'.
'$lgt_gen_ic_linking_idef_clauses'(Local) :-
'$lgt_pp_object_'(Obj, _, _, Def, _, _, IDef, _, DDef, _, _),
Head =.. [IDef, Pred, Sender, This, Self, Call, Obj],
( call(Local) ->
Body =.. [Def, Pred, Sender, This, Self, Call],
assertz('$lgt_pp_def_'((Head:-Body)))
; true
),
Body2 =.. [DDef, Pred, Sender, This, Self, Call],
assertz('$lgt_pp_def_'((Head:-Body2))).
'$lgt_gen_ic_category_idef_clauses' :-
'$lgt_pp_object_'(Obj, _, _, _, _, _, OIDef, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_imports_category_'(Obj, Ctg, _)), % needed for parameter passing
'$lgt_pp_imported_category_'(Ctg, _, _, CDef, _),
Lookup =.. [CDef, Pred, Sender, Obj, Self, Call],
( '$lgt_pp_alias_'(Ctg, _, _) ->
Head =.. [OIDef, Alias, Sender, Obj, Self, Call, Ctg],
Rename =.. [PRnm, Ctg, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [OIDef, Pred, Sender, Obj, Self, Call, Ctg],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_category_idef_clauses'.
'$lgt_gen_ic_hierarchy_idef_clauses' :-
'$lgt_pp_object_'(Class, _, _, _, _, _, CIDef, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_specializes_class_'(Class, Super, _)), % needed for parameter passing
'$lgt_pp_specialized_class_'(Super, _, _, _, _, _, SIDef, _, _, _),
Lookup =.. [SIDef, Pred, Sender, Super, Self, Call, Ctn],
( '$lgt_pp_alias_'(Super, _, _) ->
Head =.. [CIDef, Alias, Sender, Class, Self, Call, Ctn],
Rename =.. [PRnm, Super, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [CIDef, Pred, Sender, Class, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_hierarchy_idef_clauses'.
% we can have a root object where super have nowhere to go ...
'$lgt_gen_ic_super_clauses' :-
'$lgt_pp_object_'(_, _, _, _, OSuper, _, _, _, _, _, _),
\+ '$lgt_pp_instantiated_class_'(_, _, _, _, _, _, _, _, _, _),
\+ '$lgt_pp_specialized_class_'(_, _, _, _, _, _, _, _, _, _),
Head =.. [OSuper, _, _, _, _, _, _],
assertz('$lgt_pp_def_'((Head:-fail))),
!.
% ... or predicates can be redefined in instances...
'$lgt_gen_ic_super_clauses' :-
'$lgt_pp_object_'(Obj, _, _, _, OSuper, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_instantiates_class_'(Obj, Class, _)), % needed for parameter passing
'$lgt_pp_instantiated_class_'(Class, _, _, _, _, _, CIDef, _, _, _),
Lookup =.. [CIDef, Pred, Sender, Class, Obj, Call, Ctn],
( '$lgt_pp_alias_'(Class, _, _) ->
Head =.. [OSuper, Alias, Sender, Obj, Obj, Call, Ctn],
Rename =.. [PRnm, Class, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [OSuper, Pred, Sender, Obj, Obj, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
% ... or/and in subclasses...
'$lgt_gen_ic_super_clauses' :-
'$lgt_pp_object_'(Class, _, _, _, CSuper, _, _, _, _, PRnm, _),
'$lgt_pp_rclause_'('$lgt_specializes_class_'(Class, Super, _)), % needed for parameter passing
'$lgt_pp_specialized_class_'(Super, _, _, _, _, _, SIDef, _, _, _),
Lookup =.. [SIDef, Pred, Sender, Super, Self, Call, Ctn],
( '$lgt_pp_alias_'(Super, _, _) ->
Head =.. [CSuper, Alias, Sender, Class, Self, Call, Ctn],
Rename =.. [PRnm, Super, Pred, Alias],
assertz('$lgt_pp_def_'((Head :- var(Alias) -> Lookup, Rename; Rename, Lookup)))
; Head =.. [CSuper, Pred, Sender, Class, Self, Call, Ctn],
assertz('$lgt_pp_def_'((Head:-Lookup)))
),
fail.
'$lgt_gen_ic_super_clauses'.
% '$lgt_fix_synchronized_preds'
%
% add mutex wrappers for calling synchronized predicates;
% for Prolog compilers that do not support multi-threading,
% synchronized predicates are compiled as normal predicates
'$lgt_fix_synchronized_preds' :-
'$lgt_default_flag'(threads, unsupported),
!.
'$lgt_fix_synchronized_preds' :-
( '$lgt_pp_object_'(_, _, _, Def, _, _, _, _, DDef, _, _) ->
'$lgt_fix_synchronized_preds'(Def),
'$lgt_fix_synchronized_preds'(DDef)
; '$lgt_pp_category_'(_, _, _, Def, _, _) ->
'$lgt_fix_synchronized_preds'(Def)
; true
).
'$lgt_fix_synchronized_preds'(Def) :-
'$lgt_pp_synchronized_'(Head, Mutex),
Old =.. [Def, Head, Sender, This, Self, THead],
retract('$lgt_pp_def_'(Old)),
THead =.. [TFunctor| Args],
atom_concat(TFunctor, '_sync', MFunctor),
MHead =.. [MFunctor| Args],
New =.. [Def, Head, Sender, This, Self, MHead],
assertz('$lgt_pp_def_'(New)),
( functor(Head, Functor, Arity),
functor(Mode, Functor, Arity),
'$lgt_pp_mode_'(Mode, _),
forall(
'$lgt_pp_mode_'(Mode, Solutions),
(Solutions \== zero_or_one, Solutions \== one, Solutions \== zero)) ->
assertz('$lgt_pp_feclause_'((MHead:-mutex_lock(Mutex), call_cleanup(THead, mutex_unlock(Mutex)))))
; assertz('$lgt_pp_feclause_'((MHead:-with_mutex(Mutex, THead))))
),
fail.
'$lgt_fix_synchronized_preds'(_).
% '$lgt_fix_pred_calls'
%
% fix predicate calls in entity clauses and initialization goals
'$lgt_fix_pred_calls' :-
retract('$lgt_pp_eclause_'(Clause)),
( Clause = (Head:-Body) ->
'$lgt_fix_pred_calls'(Body, FBody),
assertz('$lgt_pp_feclause_'((Head:-FBody)))
; assertz('$lgt_pp_feclause_'(Clause))
),
fail.
'$lgt_fix_pred_calls' :-
retract('$lgt_pp_entity_init_'(Call)),
'$lgt_fix_pred_calls'(Call, Fixed),
assertz('$lgt_pp_fentity_init_'(Fixed)),
fail.
'$lgt_fix_pred_calls'.
% '$lgt_fix_pred_calls'(+body, -body)
%
% fix predicate calls in a clause body
'$lgt_fix_pred_calls'(Pred, Pred) :-
var(Pred),
!.
'$lgt_fix_pred_calls'((Pred1, Pred2), (TPred1, TPred2)) :-
!,
'$lgt_fix_pred_calls'(Pred1, TPred1),
'$lgt_fix_pred_calls'(Pred2, TPred2).
'$lgt_fix_pred_calls'((Pred1; Pred2), (TPred1; TPred2)) :-
!,
'$lgt_fix_pred_calls'(Pred1, TPred1),
'$lgt_fix_pred_calls'(Pred2, TPred2).
'$lgt_fix_pred_calls'((Pred1 -> Pred2), (TPred1 -> TPred2)) :-
!,
'$lgt_fix_pred_calls'(Pred1, TPred1),
'$lgt_fix_pred_calls'(Pred2, TPred2).
'$lgt_fix_pred_calls'(\+ Pred, \+ TPred) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'(call(Pred), call(TPred)) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'(once(Pred), once(TPred)) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'(catch(Goal, Catcher, Recovery), catch(TGoal, Catcher, TRecovery)) :-
!,
'$lgt_fix_pred_calls'(Goal, TGoal),
'$lgt_fix_pred_calls'(Recovery, TRecovery).
'$lgt_fix_pred_calls'(bagof(Term, Pred, List), bagof(Term, TPred, List)) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'(findall(Term, Pred, List), findall(Term, TPred, List)) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'(forall(Gen, Test), forall(TGen, TTest)) :-
!,
'$lgt_fix_pred_calls'(Gen, TGen),
'$lgt_fix_pred_calls'(Test, TTest).
'$lgt_fix_pred_calls'(setof(Term, Pred, List), setof(Term, TPred, List)) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'('$lgt_dbg_goal'(OPred, Pred, DbgCtx), '$lgt_dbg_goal'(OPred, TPred, DbgCtx)) :-
!,
'$lgt_fix_pred_calls'(Pred, TPred).
'$lgt_fix_pred_calls'(Pred, fail) :- % calls to static, declared but undefined predicates;
functor(Pred, Functor, Arity), % must fail instead of throwing an exception
'$lgt_undef_pred_call'(_, Functor/Arity),
!.
'$lgt_fix_pred_calls'(Pred, TPred) :- % calls to non-standard Prolog built-in meta-predicates
'$lgt_pl_built_in'(Pred),
functor(Pred, Functor, Arity),
functor(Meta, Functor, Arity),
'$lgt_pl_meta_predicate'(Meta),
!,
Pred =.. [_| Args],
Meta =.. [_| MArgs],
'$lgt_fix_pred_calls_in_margs'(Args, MArgs, TArgs),
TPred =.. [Functor| TArgs].
'$lgt_fix_pred_calls'('$lgt_call_built_in'(Pred, Ctx), TPred) :-
!, % calls to redefined Prolog built-in meta-predicates
'$lgt_ctx_ctx'(Ctx, _, Sender, This, Self, _, _, _),
( '$lgt_pp_redefined_built_in_'(Pred, Sender, This, Self, TPred) ->
true
; '$lgt_fix_pred_calls'(Pred, TPred)
).
'$lgt_fix_pred_calls'(Pred, Pred).
% '$lgt_fix_pred_calls_in_margs'(@list, @list, -list)
%
% fix predicate calls in non-standard meta-predicate arguments
'$lgt_fix_pred_calls_in_margs'([], [], []).
'$lgt_fix_pred_calls_in_margs'([Arg| Args], [MArg| MArgs], [TArg| TArgs]) :-
'$lgt_fix_pred_calls_ins_in_marg'(MArg, Arg, TArg),
'$lgt_fix_pred_calls_in_margs'(Args, MArgs, TArgs).
'$lgt_fix_pred_calls_ins_in_marg'(*, Arg, Arg).
'$lgt_fix_pred_calls_ins_in_marg'(::, Arg, TArg) :-
'$lgt_fix_pred_calls'(Arg, TArg).
% report calls to declared, static but undefined predicates in the body of object and category predicates
'$lgt_report_undef_pred_calls' :-
'$lgt_compiler_flag'(misspelt, error),
'$lgt_undef_pred_call'(Pred),
throw(existence_error(procedure, Pred)).
'$lgt_report_undef_pred_calls' :-
'$lgt_compiler_flag'(misspelt, warning),
setof(Pred, '$lgt_undef_pred_call'(Pred), Preds),
'$lgt_inc_compile_warnings_counter',
nl,
( Preds = [_] ->
write(' WARNING! This declared static predicate is called but never defined: ')
; write(' WARNING! These declared static predicates are called but never defined: ')
),
'$lgt_writeq_list'(Preds),
!.
'$lgt_report_undef_pred_calls'.
'$lgt_undef_pred_call'(Pred) :-
'$lgt_undef_pred_call'(Pred, _).
'$lgt_undef_pred_call'(Functor/Arity, TFunctor/TArity) :-
'$lgt_pp_calls_pred_'(Functor, Arity, TFunctor, TArity),
\+ '$lgt_pp_defs_pred_'(Functor, Arity), % predicate not defined in object/category and
\+ '$lgt_pp_dynamic_'(Functor, Arity), % predicate not declared dynamic in in object/category
Arity2 is Arity - 2, % (only return predicates that are not the expansion
\+ '$lgt_pp_calls_nt_'(Functor, Arity2), % of grammar rules; see second clause)
once(( '$lgt_pp_public_'(Functor, Arity) % but there is a scope directive for the predicate
; '$lgt_pp_protected_'(Functor, Arity)
; '$lgt_pp_private_'(Functor, Arity)
)).
'$lgt_undef_pred_call'(Functor//Arity, _) :-
'$lgt_pp_calls_nt_'(Functor, Arity),
\+ '$lgt_pp_defs_nt_'(Functor, Arity), % non-terminal not defined in object/category and
Arity2 is Arity + 2,
\+ '$lgt_pp_defs_pred_'(Functor, Arity2), % no corresponding predicate is defined
\+ '$lgt_pp_dynamic_'(Functor, Arity2), % no dynamic directive for the corresponding predicate
once(( '$lgt_pp_public_'(Functor, Arity2) % but there is a scope directive for the non-terminal
; '$lgt_pp_protected_'(Functor, Arity2) % or the corresponding predicate
; '$lgt_pp_private_'(Functor, Arity2)
)).
% report possible misspelt predicate calls in the body of object and category predicates
'$lgt_report_misspelt_calls' :-
'$lgt_compiler_flag'(misspelt, error),
'$lgt_misspelt_call'(Pred),
throw(existence_error(predicate, Pred)).
'$lgt_report_misspelt_calls' :-
'$lgt_compiler_flag'(misspelt, warning),
setof(Pred, '$lgt_misspelt_call'(Pred), Preds),
'$lgt_inc_compile_warnings_counter',
nl,
( Preds = [_] ->
write(' WARNING! This predicate is called but never defined: ')
; write(' WARNING! These predicates are called but never defined: ')
),
'$lgt_writeq_list'(Preds).
'$lgt_report_misspelt_calls'.
'$lgt_misspelt_call'(Functor/Arity) :-
'$lgt_pp_calls_pred_'(Functor, Arity, _, _),
\+ '$lgt_pp_defs_pred_'(Functor, Arity),
\+ '$lgt_pp_dynamic_'(Functor, Arity),
\+ '$lgt_pp_public_'(Functor, Arity),
\+ '$lgt_pp_protected_'(Functor, Arity),
\+ '$lgt_pp_private_'(Functor, Arity),
Arity2 is Arity - 2,
\+ '$lgt_pp_calls_nt_'(Functor, Arity2).
'$lgt_misspelt_call'(Functor//Arity) :-
'$lgt_pp_calls_nt_'(Functor, Arity),
\+ '$lgt_pp_defs_nt_'(Functor, Arity),
Arity2 is Arity + 2,
\+ '$lgt_pp_defs_pred_'(Functor, Arity2),
\+ '$lgt_pp_dynamic_'(Functor, Arity2),
\+ '$lgt_pp_public_'(Functor, Arity2),
\+ '$lgt_pp_protected_'(Functor, Arity2),
\+ '$lgt_pp_private_'(Functor, Arity2).
% report non-portable predicate calls in the body of object and category predicates
'$lgt_report_non_portable_calls' :-
'$lgt_compiler_flag'(portability, warning),
setof(Pred, '$lgt_non_portable_call'(Pred), Preds),
'$lgt_inc_compile_warnings_counter',
nl,
( Preds = [_] ->
write(' WARNING! Call to non-standard Prolog built-in predicate: ')
; write(' WARNING! Calls to non-standard Prolog built-in predicates: ')
),
'$lgt_writeq_list'(Preds),
!.
'$lgt_report_non_portable_calls'.
'$lgt_non_portable_call'(Functor/Arity) :-
'$lgt_non_portable_call_'(Functor, Arity),
\+ '$lgt_pp_defs_pred_'(Functor, Arity),
functor(Pred, Functor, Arity),
\+ '$lgt_pp_redefined_built_in_'(Pred, _, _, _, _).
% '$lgt_pp_entity_functors'(-compound)
%
% constructs the entity functors clause
'$lgt_pp_entity_functors'(Clause) :-
( '$lgt_pp_object_'(_, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm, _) ->
Clause =.. [Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm]
; '$lgt_pp_category_'(_, Prefix, Dcl, Def, Rnm, _) ->
Clause =.. [Prefix, Dcl, Def, Rnm]
; '$lgt_pp_protocol_'(_, Prefix, Dcl, Rnm, _) ->
Clause =.. [Prefix, Dcl, Rnm]
).
% '$lgt_write_directives'(@stream)
%
% writes the directives
'$lgt_write_directives'(Stream) :-
'$lgt_pp_directive_'(Dir),
write_canonical(Stream, (:- Dir)),
write(Stream, '.'),
nl(Stream),
fail.
'$lgt_write_directives'(_).
% '$lgt_write_prolog_clauses'(@stream)
%
% writes any Prolog clauses that appear before an entity opening directive
'$lgt_write_prolog_clauses'(Stream) :-
'$lgt_pp_ppclause_'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'),
nl(Stream),
fail.
'$lgt_write_prolog_clauses'(_).
% '$lgt_write_logtalk_clauses'(@stream)
%
% writes Logtalk entity clauses
'$lgt_write_logtalk_clauses'(Stream) :-
'$lgt_write_functors_clause'(Stream),
'$lgt_write_dcl_clauses'(Stream),
'$lgt_write_def_clauses'(Stream),
'$lgt_write_ddef_clauses'(Stream),
'$lgt_write_super_clauses'(Stream),
'$lgt_write_alias_clauses'(Stream),
'$lgt_write_pred_clauses'(Stream).
'$lgt_write_functors_clause'(Stream) :-
'$lgt_pp_entity_functors'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'),
nl(Stream).
'$lgt_write_def_clauses'(Stream) :-
'$lgt_pp_def_'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'), nl(Stream),
fail.
'$lgt_write_def_clauses'(_).
'$lgt_write_ddef_clauses'(Stream) :-
'$lgt_pp_ddef_'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'), nl(Stream),
fail.
'$lgt_write_ddef_clauses'(_).
'$lgt_write_dcl_clauses'(Stream) :-
'$lgt_pp_dcl_'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'),
nl(Stream),
fail.
'$lgt_write_dcl_clauses'(_).
'$lgt_write_super_clauses'(Stream) :-
'$lgt_pp_super_'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'),
nl(Stream),
fail.
'$lgt_write_super_clauses'(_).
'$lgt_write_alias_clauses'(Stream) :-
( '$lgt_pp_object_'(_, _, _, _, _, _, _, _, _, Rnm, _)
; '$lgt_pp_category_'(_, _, _, _, Rnm, _)
; '$lgt_pp_protocol_'(_, _, _, Rnm, _)
), !,
'$lgt_write_alias_clauses'(Stream, Rnm).
'$lgt_write_alias_clauses'(Stream, Rnm) :-
'$lgt_pp_alias_'(Entity, Pred, Alias),
Clause =.. [Rnm, Entity, Pred, Alias],
write_canonical(Stream, Clause),
write(Stream, '.'),
nl(Stream),
fail.
'$lgt_write_alias_clauses'(Stream, Rnm) :-
Catchall =.. [Rnm, _, Pred, Pred],
write_canonical(Stream, Catchall),
write(Stream, '.'),
nl(Stream).
'$lgt_write_pred_clauses'(Stream) :-
'$lgt_pp_feclause_'(Clause),
write_canonical(Stream, Clause),
write(Stream, '.'),
nl(Stream),
fail.
'$lgt_write_pred_clauses'(_).
% '$lgt_write_init_call'(@stream)
%
% writes the initialization call for the compiled source file that will assert
% the relation clauses for all defined entities and call any declared entity
% initialization goals when the source file is loaded
'$lgt_write_init_call'(Stream) :-
'$lgt_init_goal'(Goal),
( Goal == true ->
true
; write_canonical(Stream, (:- initialization(Goal))),
write(Stream, '.'), nl(Stream)
).
% '$lgt_init_goal'(-callable)
%
% source file initialization goal constructed from each entity initialization
% goals and from the source file initialization/1 directive if present
'$lgt_init_goal'(Goal) :-
findall(EGoal, '$lgt_pp_entity_init_'(_, _, EGoal), EGoals),
( '$lgt_pp_file_init_'(FGoal) ->
( EGoals \== [] ->
'$lgt_list_to_conjunction'(EGoals, EGoals2),
Goal = (EGoals2, FGoal)
; Goal = FGoal
)
; ( EGoals \== [] ->
'$lgt_list_to_conjunction'(EGoals, Goal)
; Goal = true
)
).
% converts a list of goals into a conjunction of goals
'$lgt_list_to_conjunction'([G], G) :- !.
'$lgt_list_to_conjunction'([G1, G2| Gs], (G1, R)) :-
'$lgt_list_to_conjunction'([G2| Gs], R).
% generates and asserts the initialization goal for the entity being compiled
'$lgt_gen_entity_init_goal' :-
'$lgt_pp_entity'(Type, Entity, Prefix, _, Compilation),
findall(Clause, '$lgt_pp_rclause'(Clause), Clauses),
Goal1 = '$lgt_assert_runtime_clauses'(Clauses),
( '$lgt_pp_threaded_' ->
Goal2 = (Goal1, '$lgt_init_object_message_queue'(Prefix))
; Goal2 = Goal1
),
( '$lgt_pp_fentity_init_'(Goal3) ->
Goal4 = (Goal2, Goal3)
; Goal4 = Goal2
),
( Type \== protocol, Compilation == static, '$lgt_compiler_flag'(reload, skip) ->
Goal = (Goal4, '$lgt_add_static_binding_cache_entry'(Entity))
; Goal = Goal4
),
assertz('$lgt_pp_entity_init_'(Type, Entity, Goal)).
% '$lgt_assert_tr_entity'
%
% adds a dynamically created entity to memory
'$lgt_assert_tr_entity' :-
'$lgt_assert_directives',
'$lgt_assert_functors_clause',
'$lgt_assert_dcl_clauses',
'$lgt_assert_def_clauses',
'$lgt_assert_ddef_clauses',
'$lgt_assert_super_clauses',
'$lgt_assert_pred_clauses',
'$lgt_assert_runtime_clauses',
'$lgt_assert_init'.
'$lgt_assert_directives' :-
'$lgt_pp_directive_'(dynamic(Functor/Arity)),
functor(Pred, Functor, Arity),
asserta(Pred),
retract(Pred),
fail.
'$lgt_assert_directives' :-
'$lgt_pp_directive_'(op(Pr, Spec, Ops)),
op(Pr, Spec, Ops),
fail.
'$lgt_assert_directives'.
'$lgt_assert_functors_clause' :-
'$lgt_pp_entity_functors'(Clause),
assertz(Clause).
'$lgt_assert_dcl_clauses' :-
'$lgt_pp_dcl_'(Clause),
assertz(Clause),
fail.
'$lgt_assert_dcl_clauses'.
'$lgt_assert_def_clauses' :-
'$lgt_pp_def_'(Clause),
assertz(Clause),
fail.
'$lgt_assert_def_clauses'.
'$lgt_assert_ddef_clauses' :-
'$lgt_pp_ddef_'(Clause),
assertz(Clause),
fail.
'$lgt_assert_ddef_clauses'.
'$lgt_assert_super_clauses' :-
'$lgt_pp_super_'(Clause),
assertz(Clause),
fail.
'$lgt_assert_super_clauses'.
'$lgt_assert_pred_clauses' :-
'$lgt_pp_feclause_'(Clause),
assertz(Clause),
fail.
'$lgt_assert_pred_clauses'.
'$lgt_assert_runtime_clauses' :-
'$lgt_pp_rclause'(Clause),
assertz(Clause),
fail.
'$lgt_assert_runtime_clauses'.
% '$lgt_assert_init'
%
% call any defined initialization goal for a dynamically created entity
'$lgt_assert_init' :-
( '$lgt_pp_object_'(_, Prefix, _, _, _, _, _, _, _, _, _),
'$lgt_pp_threaded_' ->
'$lgt_init_object_message_queue'(Prefix)
; true
),
( '$lgt_pp_fentity_init_'(Goal) ->
once(Goal)
; true
).
% '$lgt_assert_runtime_clauses'(+list)
%
% called when loading a compiled Logtalk entity in order to update
% Logtalk internal runtime tables
%
% we may be reloading the entity so we must first retract any old
% runtime clauses before asserting the new ones
%
% this is mostly a workaround for the lack of support of multifile
% predicates in some Prolog compilers
'$lgt_assert_runtime_clauses'([Clause| Clauses]) :-
arg(1, Clause, Entity),
( '$lgt_redefined_entity'(Entity, Type) ->
'$lgt_clean_lookup_caches',
'$lgt_report_redefined_entity'(Type, Entity)
; true
),
'$lgt_retract_old_runtime_clauses'(Entity),
'$lgt_assert_new_runtime_clauses'([Clause| Clauses]).
'$lgt_retract_old_runtime_clauses'(Entity) :-
retractall('$lgt_current_object_'(Entity, _, _, _, _, _, _, _)),
retractall('$lgt_current_protocol_'(Entity, _, _)),
retractall('$lgt_current_category_'(Entity, _, _, _)),
retractall('$lgt_implements_protocol_'(Entity, _, _)),
retractall('$lgt_imports_category_'(Entity, _, _)),
retractall('$lgt_instantiates_class_'(Entity, _, _)),
retractall('$lgt_specializes_class_'(Entity, _, _)),
retractall('$lgt_extends_protocol_'(Entity, _, _)),
retractall('$lgt_extends_object_'(Entity, _, _)),
retractall('$lgt_debugging_'(Entity)).
'$lgt_assert_new_runtime_clauses'([]).
'$lgt_assert_new_runtime_clauses'([Clause| Clauses]) :-
assertz(Clause),
'$lgt_assert_new_runtime_clauses'(Clauses).
% '$lgt_construct_object_functors'(+object_identifier, -atom, -atom, -atom, -atom, -atom, -atom, -atom, -atom, -atom)
%
% constructs functors used in the compiled code of an object;
% built-in objects use a fixed set of functors that do not depend on the code_prefix/1 compiler flag
'$lgt_construct_object_functors'(Obj, Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm) :-
( '$lgt_built_in_object'(Obj) ->
'$lgt_current_object_'(Obj, Prefix, _, _, _, _, _, _),
Call =.. [Prefix, Dcl, Def, Super, IDcl, IDef, DDcl, DDef, Rnm],
once(Call)
; '$lgt_construct_entity_prefix'(Obj, Prefix),
atom_concat(Prefix, '_dcl', Dcl),
atom_concat(Prefix, '_def', Def),
atom_concat(Prefix, '_super', Super),
atom_concat(Prefix, '_idcl', IDcl),
atom_concat(Prefix, '_idef', IDef),
atom_concat(Prefix, '_ddcl', DDcl),
atom_concat(Prefix, '_ddef', DDef),
atom_concat(Prefix, '_alias', Rnm)
).
% '$lgt_construct_protocol_functors'(+protocol_identifier, -atom, -atom, -atom)
%
% constructs functors used in the compiled code of a protocol;
% built-in protocols use a fixed set of functors that do not depend on the code_prefix/1 compiler flag
'$lgt_construct_protocol_functors'(Ptc, Prefix, Dcl, Rnm) :-
( '$lgt_built_in_protocol'(Ptc) ->
'$lgt_current_protocol_'(Ptc, Prefix, _),
Call =.. [Prefix, Dcl, Rnm],
once(Call)
; '$lgt_construct_entity_prefix'(Ptc, Prefix),
atom_concat(Prefix, '_dcl', Dcl),
atom_concat(Prefix, '_alias', Rnm)
).
% '$lgt_construct_category_functors'(+category_identifier, -atom, -atom, -atom, -atom)
%
% constructs functors used in the compiled code of a category;
% built-in categories use a fixed set of functors that do not depend on the code_prefix/1 compiler flag
'$lgt_construct_category_functors'(Ctg, Prefix, Dcl, Def, Rnm) :-
( '$lgt_built_in_category'(Ctg) ->
'$lgt_current_category_'(Ctg, Prefix, _, _),
Call =.. [Prefix, Dcl, Def, Rnm],
once(Call)
; '$lgt_construct_entity_prefix'(Ctg, Prefix),
atom_concat(Prefix, '_dcl', Dcl),
atom_concat(Prefix, '_def', Def),
atom_concat(Prefix, '_alias', Rnm)
).
% '$lgt_construct_entity_prefix'(@entity_identifier, -atom)
%
% constructs the entity prefix used in the compiled code
'$lgt_construct_entity_prefix'(Entity, Prefix) :-
'$lgt_compiler_flag'(code_prefix, CodePrefix),
functor(Entity, Functor, Arity),
atom_concat(CodePrefix, Functor, Aux1),
number_codes(Arity, ArityCodes),
atom_codes(ArityAtom, ArityCodes),
atom_concat(Aux1, '_', Aux2),
atom_concat(Aux2, ArityAtom, Aux3),
atom_concat(Aux3, '_', Prefix).
% '$lgt_construct_predicate_functor'(+atom, +atom, +integer, -atom)
%
% constructs the functor used for a compiled predicate
'$lgt_construct_predicate_functor'(EntityPrefix, Functor, Arity, PredPrefix) :-
atom_concat(EntityPrefix, Functor, Aux),
atom_concat(Aux, '_', Aux2),
number_codes(Arity, Codes),
atom_codes(Atom, Codes),
atom_concat(Aux2, Atom, PredPrefix).
% '$lgt_reverse_predicate_functor'(+atom, +integer, -callable, -atom, -atom, -integer)
%
% reverses the functor used for a compiled predicate; not completly realiable
'$lgt_reverse_predicate_functor'(TFunctor, TArity, Entity, Type, Functor, Arity) :-
atom(TFunctor),
integer(TArity),
( '$lgt_current_object_'(Entity, Prefix, _, _, _, _, _, _),
Type = object
; '$lgt_current_category_'(Entity, Prefix, _, _),
Type = category
),
atom_concat(Prefix, PredPart, TFunctor),
( Arity is TArity - 3 % subtract message execution context arguments
; Arity is TArity - 4 % for meta-predicates, we use an additional argument
),
Arity >= 0,
number_codes(Arity, Codes),
atom_codes(Atom, Codes),
atom_concat('_', Atom, Aux),
atom_concat(Functor, Aux, PredPart),
!.
% '$lgt_reverse_predicate_args'(+integer, @list, -list, -object_identifier, -object_identifier, -object_identifier)
'$lgt_reverse_predicate_args'(0, TArgs, [], Sender, This, Self) :-
!,
'$lgt_append'(_, [Sender, This, Self], TArgs).
'$lgt_reverse_predicate_args'(N, [Arg| TArgs], [Arg| Args], Sender, This, Self) :-
N > 0,
N2 is N - 1,
'$lgt_reverse_predicate_args'(N2, TArgs, Args, Sender, This, Self).
% '$lgt_compile_hook'(+callable)
%
% compiles the user-defined compiler hook
'$lgt_compile_hook'(Obj::Functor) :-
Call =.. [Functor, Term, Terms],
( Obj == user ->
Goal = Call
; '$lgt_tr_msg'(Call, Obj, Goal, user)
),
retractall('$lgt_hook_goal_'(_, _)),
assertz(('$lgt_hook_goal_'(Term, Terms) :- catch(Goal, _, fail))).
% '$lgt_built_in'(+callable)
%
% checks if the argument is either a Prolog or Logtalk built-in predicate
'$lgt_built_in'(Pred) :-
( '$lgt_pl_built_in'(Pred) ->
true
; '$lgt_lgt_built_in'(Pred)
).
% '$lgt_pl_built_in'(+callable)
%
% either host Prolog native built-ins or missing ISO built-ins
% that we have defined in the correspondent config file
'$lgt_pl_built_in'(Pred) :-
\+ '$lgt_lgt_built_in'(Pred), % Logtalk built-ins may also have the property built_in
'$lgt_predicate_property'(Pred, built_in),
!.
'$lgt_pl_built_in'(Pred) :-
'$lgt_iso_predicate'(Pred). % ISO Prolog built-in predicate
% logtalk built-in methods
%
% '$lgt_built_in_method'(+callable, ?scope)
'$lgt_built_in_method'(parameter(_, _), p).
'$lgt_built_in_method'(self(_), p).
'$lgt_built_in_method'(sender(_), p).
'$lgt_built_in_method'(this(_), p).
'$lgt_built_in_method'(current_predicate(_), p(p(p))).
'$lgt_built_in_method'(predicate_property(_, _), p(p(p))).
'$lgt_built_in_method'(abolish(_), p(p(p))).
'$lgt_built_in_method'(asserta(_), p(p(p))).
'$lgt_built_in_method'(assertz(_), p(p(p))).
'$lgt_built_in_method'(clause(_, _), p(p(p))).
'$lgt_built_in_method'(retract(_), p(p(p))).
'$lgt_built_in_method'(retractall(_), p(p(p))).
'$lgt_built_in_method'(bagof(_, _, _), p(p(p))).
'$lgt_built_in_method'(findall(_, _, _), p(p(p))).
'$lgt_built_in_method'(forall(_, _), p(p(p))).
'$lgt_built_in_method'(setof(_, _, _), p(p(p))).
'$lgt_built_in_method'(expand_term(_, _), p(p(p))).
'$lgt_built_in_method'(phrase(_, _), p(p(p))).
'$lgt_built_in_method'(phrase(_, _, _), p(p(p))).
'$lgt_built_in_method'(Method, p(p(p))) :-
compound(Method),
functor(Method, call, Arity),
Arity > 0.
%'$lgt_lgt_directive'(+atom, +integer)
%
% valid Logtalk directives
'$lgt_lgt_directive'(Functor, Arity) :-
'$lgt_lgt_opening_directive'(Functor, Arity),
!.
'$lgt_lgt_directive'(Functor, Arity) :-
'$lgt_lgt_closing_directive'(Functor, Arity),
!.
'$lgt_lgt_directive'(Functor, Arity) :-
'$lgt_lgt_entity_directive'(Functor, Arity),
!.
'$lgt_lgt_directive'(Functor, Arity) :-
'$lgt_lgt_predicate_directive'(Functor, Arity).
'$lgt_lgt_opening_directive'(object, N) :-
N >= 1, N =< 5.
'$lgt_lgt_opening_directive'(category, N) :-
N >= 1, N =< 3.
'$lgt_lgt_opening_directive'(protocol, N) :-
N >= 1, N =< 2.
'$lgt_lgt_opening_directive'(module, N) :- % Prolog module directives; module/3 directives
N >= 1, N =< 3. % are not supported but must be recognized as
% entity opening directives
'$lgt_lgt_closing_directive'(end_object, 0).
'$lgt_lgt_closing_directive'(end_category, 0).
'$lgt_lgt_closing_directive'(end_protocol, 0).
'$lgt_lgt_entity_directive'(encoding, 1).
'$lgt_lgt_entity_directive'(calls, N) :-
N >= 1.
'$lgt_lgt_entity_directive'(uses, N) :-
N >= 1, N =< 2.
'$lgt_lgt_entity_directive'(use_module, 2). % Prolog module directive
'$lgt_lgt_entity_directive'((initialization), 1).
'$lgt_lgt_entity_directive'((dynamic), 0).
'$lgt_lgt_entity_directive'(op, 3).
'$lgt_lgt_entity_directive'(info, 1).
'$lgt_lgt_entity_directive'(synchronized, 0).
'$lgt_lgt_entity_directive'(threaded, 0).
'$lgt_lgt_predicate_directive'(synchronized, N) :-
N >= 1.
'$lgt_lgt_predicate_directive'((dynamic), N) :-
N >= 1.
'$lgt_lgt_predicate_directive'(metapredicate, N) :- % deprecated Logtalk directive
N >= 1.
'$lgt_lgt_predicate_directive'((meta_predicate), N) :- % Logtalk directive
N >= 1.
'$lgt_lgt_predicate_directive'((discontiguous), N) :-
N >= 1.
'$lgt_lgt_predicate_directive'((public), N) :-
N >= 1.
'$lgt_lgt_predicate_directive'(protected, N) :-
N >= 1.
'$lgt_lgt_predicate_directive'(private, N) :-
N >= 1.
'$lgt_lgt_predicate_directive'((export), N) :- % Prolog module directive
N >= 1.
'$lgt_lgt_predicate_directive'((mode), 2).
'$lgt_lgt_predicate_directive'(info, 2).
'$lgt_lgt_predicate_directive'(alias, 3).
% built-in meta-predicates
'$lgt_meta_predicate'(Meta) :- % Logtalk built-in meta-predicate
'$lgt_lgt_meta_predicate'(Meta).
'$lgt_meta_predicate'(Meta) :- % (non ISO Standard) Prolog meta-predicate
'$lgt_pl_meta_predicate'(Meta). % specified in the config files
% built-in Logtalk (and Prolog) meta-predicates
'$lgt_lgt_meta_predicate'(catch(::, *, ::)).
'$lgt_lgt_meta_predicate'(bagof(*, ::, *)).
'$lgt_lgt_meta_predicate'(setof(*, ::, *)).
'$lgt_lgt_meta_predicate'(findall(*, ::, *)).
'$lgt_lgt_meta_predicate'(forall(::, ::)).
'$lgt_lgt_meta_predicate'(call(::)).
'$lgt_lgt_meta_predicate'(once(::)).
'$lgt_lgt_meta_predicate'(\+ (::)).
% utility predicates used during compilation of Logtalk entities to store
% and access context information which is represented by a compound term
'$lgt_ctx_ctx'(ctx(_, _, _, _, _, _, _)).
'$lgt_ctx_ctx'(ctx(Head, Sender, This, Self, Prefix, MetaVars, MetaCallCtx), Head, Sender, This, Self, Prefix, MetaVars, MetaCallCtx).
'$lgt_ctx_head'(ctx(Head, _, _, _, _, _, _), Head).
'$lgt_ctx_sender'(ctx(_, Sender, _, _, _, _, _), Sender).
'$lgt_ctx_this'(ctx(_, _, This, _, _, _, _), This).
'$lgt_ctx_self'(ctx(_, _, _, Self, _, _, _), Self).
'$lgt_ctx_prefix'(ctx(_, _, _, _, Prefix, _, _), Prefix).
'$lgt_ctx_meta_vars'(ctx(_, _, _, _, _, MetaVars, _), MetaVars).
'$lgt_ctx_meta_call_ctx'(ctx(_, _, _, _, _, _, MetaCallCtx), MetaCallCtx).
% utility predicates used during debugging of Logtalk entities to store
% and access context information which is represented by a compound term
'$lgt_dbg_ctx'(ctx(Sender, This, Self), Sender, This, Self).
% construct debug context
'$lgt_ctx_dbg_ctx'(ctx(_, Sender, This, Self, _, _, _), ctx(Sender, This, Self)).
% '$lgt_flatten_list'(+list, -list)
%
% flattens a list of terms
'$lgt_flatten_list'([[A|B]], [A|B]) :- % list containing a single list
!.
'$lgt_flatten_list'([[]], []) :- % list containing a single empty list
!.
'$lgt_flatten_list'([(A, B)], [A|BB]) :- % list containing a single element,
!, % which is a sequence: (A, B, ...)
'$lgt_flatten_list'([B], BB).
'$lgt_flatten_list'([A|B], [A|B]) :- % already flattened list
!.
'$lgt_flatten_list'([], []). % empty list
% '$lgt_valid_pred_ind(+nonvar, -atom, -integer)
%
% valid predicate indicator
'$lgt_valid_pred_ind'(Functor/Arity, Functor, Arity) :-
atom(Functor),
integer(Arity),
Arity >= 0.
% '$lgt_valid_gr_ind(+nonvar, -atom, -integer, -integer)
%
% valid grammar rule indicator; last argument is the arity
% of the corresponding predicate
'$lgt_valid_gr_ind'(Functor//Arity, Functor, Arity, Arity2) :-
atom(Functor),
integer(Arity),
Arity >= 0,
Arity2 is Arity + 2.
% '$lgt_valid_pred_or_gr_ind(+nonvar, -atom, -integer)
%
% valid predicate indicator or grammar rule indicator
'$lgt_valid_pred_or_gr_ind'(Functor/Arity, Functor, Arity) :-
atom(Functor),
integer(Arity),
Arity >= 0.
'$lgt_valid_pred_or_gr_ind'(Functor//Arity, Functor, Arity) :-
atom(Functor),
integer(Arity),
Arity >= 0.
% '$lgt_valid_ref_scope'(@nonvar, -atom)
'$lgt_valid_ref_scope'(Ref, Scope) :-
( Ref = (Scope::_) ->
'$lgt_scope'(Scope, _)
; Scope = (public)
).
% '$lgt_valid_protocol_ref'(@nonvar, -atom)
'$lgt_valid_protocol_ref'(Ref, Ptc) :-
( Ref = (_::Ptc) ->
true
; Ptc = Ref
),
atom(Ptc).
% '$lgt_valid_object_ref'(@nonvar, -atom)
'$lgt_valid_object_ref'(Ref, Obj) :-
( Ref = (_::Obj) ->
true
; Obj = Ref
),
callable(Obj).
% '$lgt_valid_category_ref'(@nonvar, -atom)
'$lgt_valid_category_ref'(Ref, Ctg) :-
( Ref = (_::Ctg) ->
true
; Ctg = Ref
),
atom(Ctg).
% '$lgt_valid_op_priority'(@term)
'$lgt_valid_op_priority'(Pr) :-
integer(Pr),
0 =< Pr, Pr =< 1200.
% '$lgt_valid_op_specifier'(@term)
'$lgt_valid_op_specifier'(Spec) :-
atom(Spec),
'$lgt_op_specifier'(Spec).
% '$lgt_op_specifier'(+atom)
'$lgt_op_specifier'(fx).
'$lgt_op_specifier'(fy).
'$lgt_op_specifier'(xfx).
'$lgt_op_specifier'(xfy).
'$lgt_op_specifier'(yfx).
'$lgt_op_specifier'(xf).
'$lgt_op_specifier'(yf).
% '$lgt_valid_op_names'(@term)
%
% (an atom or a list of atoms)
'$lgt_valid_op_names'(Op) :-
atom(Op),
!.
'$lgt_valid_op_names'(Ops) :-
'$lgt_valid_op_names_list'(Ops).
'$lgt_valid_op_names_list'([]).
'$lgt_valid_op_names_list'([Op| Ops]) :-
atom(Op),
'$lgt_valid_op_names_list'(Ops).
% '$lgt_same_op_class'(?atom, ?atom)
'$lgt_same_op_class'(fx, fx).
'$lgt_same_op_class'(fx, fy).
'$lgt_same_op_class'(fy, fx).
'$lgt_same_op_class'(fy, fy).
'$lgt_same_op_class'(xf, xf).
'$lgt_same_op_class'(xf, yf).
'$lgt_same_op_class'(yf, xf).
'$lgt_same_op_class'(yf, yf).
'$lgt_same_op_class'(xfx, xfx).
'$lgt_same_op_class'(xfx, xfy).
'$lgt_same_op_class'(xfx, yfx).
'$lgt_same_op_class'(xfy, xfx).
'$lgt_same_op_class'(xfy, xfy).
'$lgt_same_op_class'(xfy, yfx).
'$lgt_same_op_class'(yfx, xfx).
'$lgt_same_op_class'(yfx, xfy).
'$lgt_same_op_class'(yfx, yfx).
% '$lgt_valid_metapred_term'(+nonvar)
'$lgt_valid_metapred_term'(Pred) :-
Pred =.. [_| Args],
'$lgt_valid_metapred_term_args'(Args).
'$lgt_valid_metapred_term_args'([]).
'$lgt_valid_metapred_term_args'([Arg| Args]) :-
once((Arg == (::); Arg == (*); integer(Arg), Arg > 0)),
'$lgt_valid_metapred_term_args'(Args).
% '$lgt_valid_mode_term'(+nonvar)
'$lgt_valid_mode_term'(Pred) :-
Pred =.. [_| Args],
'$lgt_valid_mode_term_args'(Args).
'$lgt_valid_mode_term_args'([]).
'$lgt_valid_mode_term_args'([Arg| Args]) :-
nonvar(Arg),
functor(Arg, Functor, Arity),
Arity =< 1,
'$lgt_pred_arg_instantiation_mode'(Functor),
'$lgt_valid_mode_term_args'(Args).
% '$lgt_pred_arg_instantiation_mode'(@nonvar)
'$lgt_pred_arg_instantiation_mode'(?).
'$lgt_pred_arg_instantiation_mode'(+).
'$lgt_pred_arg_instantiation_mode'(-).
'$lgt_pred_arg_instantiation_mode'(@).
% '$lgt_valid_number_of_solutions'(@term)
'$lgt_valid_number_of_solutions'(Solutions) :-
atom(Solutions),
'$lgt_pred_number_of_solutions'(Solutions).
% '$lgt_pred_number_of_solutions'(+atom)
'$lgt_pred_number_of_solutions'(zero).
'$lgt_pred_number_of_solutions'(one).
'$lgt_pred_number_of_solutions'(zero_or_one).
'$lgt_pred_number_of_solutions'(zero_or_more).
'$lgt_pred_number_of_solutions'(one_or_more).
'$lgt_pred_number_of_solutions'(error).
% '$lgt_valid_pred_property'(@nonvar)
'$lgt_valid_pred_property'((public)).
'$lgt_valid_pred_property'(protected).
'$lgt_valid_pred_property'(private).
'$lgt_valid_pred_property'(static).
'$lgt_valid_pred_property'((dynamic)).
'$lgt_valid_pred_property'(declared_in(_)).
'$lgt_valid_pred_property'(defined_in(_)).
'$lgt_valid_pred_property'(meta_predicate(_)).
'$lgt_valid_pred_property'(built_in).
'$lgt_valid_pred_property'(alias(_)).
'$lgt_valid_pred_property'(non_terminal(_)).
'$lgt_valid_pred_property'(synchronized).
% '$lgt_valid_object_property'(@nonvar)
'$lgt_valid_object_property'(built_in).
'$lgt_valid_object_property'((dynamic)).
'$lgt_valid_object_property'(static).
'$lgt_valid_object_property'(synchronized).
'$lgt_valid_object_property'(threaded).
% '$lgt_valid_protocol_property'(@nonvar)
'$lgt_valid_protocol_property'(built_in).
'$lgt_valid_protocol_property'((dynamic)).
'$lgt_valid_protocol_property'(static).
% '$lgt_valid_category_property'(@nonvar)
'$lgt_valid_category_property'(built_in).
'$lgt_valid_category_property'((dynamic)).
'$lgt_valid_category_property'(static).
'$lgt_valid_category_property'(synchronized).
% '$lgt_valid_flag'(@nonvar)
%
% true if the argument is a valid Logtalk flag name
'$lgt_valid_flag'(xmldocs).
'$lgt_valid_flag'(xslfile).
'$lgt_valid_flag'(xmlspec).
'$lgt_valid_flag'(xmlsref).
'$lgt_valid_flag'(unknown).
'$lgt_valid_flag'(singletons).
'$lgt_valid_flag'(misspelt).
'$lgt_valid_flag'(lgtredef).
'$lgt_valid_flag'(plredef).
'$lgt_valid_flag'(portability).
'$lgt_valid_flag'(report).
'$lgt_valid_flag'(smart_compilation).
'$lgt_valid_flag'(reload).
'$lgt_valid_flag'(startup_message).
'$lgt_valid_flag'(version).
'$lgt_valid_flag'(underscore_vars).
'$lgt_valid_flag'(code_prefix).
'$lgt_valid_flag'(debug).
'$lgt_valid_flag'(supports_break_predicate).
'$lgt_valid_flag'(events).
'$lgt_valid_flag'(altdirs).
'$lgt_valid_flag'(tmpdir).
'$lgt_valid_flag'(xmldir).
'$lgt_valid_flag'(hook).
'$lgt_valid_flag'(supports_encoding_dir).
'$lgt_valid_flag'(threads).
% '$lgt_read_only_flag'(@nonvar)
%
% true if the argument is a read only Logtalk flag name
'$lgt_read_only_flag'(startup_message).
'$lgt_read_only_flag'(supports_break_predicate).
'$lgt_read_only_flag'(version).
'$lgt_read_only_flag'(altdirs).
'$lgt_read_only_flag'(supports_encoding_dir).
'$lgt_read_only_flag'(threads).
% '$lgt_valid_flag_value'(@atom, @nonvar)
'$lgt_valid_flag_value'(xmldocs, on) :- !.
'$lgt_valid_flag_value'(xmldocs, off) :- !.
'$lgt_valid_flag_value'(xslfile, File) :-
atom(File).
'$lgt_valid_flag_value'(xmlsref, standalone) :- !.
'$lgt_valid_flag_value'(xmlsref, (local)) :- !.
'$lgt_valid_flag_value'(xmlsref, web) :- !.
'$lgt_valid_flag_value'(xmlspec, dtd) :- !.
'$lgt_valid_flag_value'(xmlspec, xsd) :- !.
'$lgt_valid_flag_value'(unknown, silent) :- !.
'$lgt_valid_flag_value'(unknown, warning) :- !.
'$lgt_valid_flag_value'(singletons, silent) :- !.
'$lgt_valid_flag_value'(singletons, warning) :- !.
'$lgt_valid_flag_value'(misspelt, silent) :- !.
'$lgt_valid_flag_value'(misspelt, warning) :- !.
'$lgt_valid_flag_value'(misspelt, error) :- !.
'$lgt_valid_flag_value'(lgtredef, silent) :- !.
'$lgt_valid_flag_value'(lgtredef, warning) :- !.
'$lgt_valid_flag_value'(plredef, silent) :- !.
'$lgt_valid_flag_value'(plredef, warning) :- !.
'$lgt_valid_flag_value'(portability, silent) :- !.
'$lgt_valid_flag_value'(portability, warning) :- !.
'$lgt_valid_flag_value'(report, on) :- !.
'$lgt_valid_flag_value'(report, off) :- !.
'$lgt_valid_flag_value'(smart_compilation, on) :- !.
'$lgt_valid_flag_value'(smart_compilation, off) :- !.
'$lgt_valid_flag_value'(reload, always) :- !.
'$lgt_valid_flag_value'(reload, skip) :- !.
'$lgt_valid_flag_value'(underscore_vars, dont_care) :- !.
'$lgt_valid_flag_value'(underscore_vars, singletons) :- !.
'$lgt_valid_flag_value'(code_prefix, Prefix) :-
atom(Prefix).
'$lgt_valid_flag_value'(debug, on) :- !.
'$lgt_valid_flag_value'(debug, off) :- !.
'$lgt_valid_flag_value'(events, on) :- !.
'$lgt_valid_flag_value'(events, off) :- !.
'$lgt_valid_flag_value'(hook, Obj::Functor) :-
atom(Functor),
callable(Obj).
'$lgt_valid_flag_value'(xmldir, Directory) :-
atom(Directory).
'$lgt_valid_flag_value'(tmpdir, Directory) :-
atom(Directory).
% '$lgt_valid_entity_parameter'(@term)
%
% valid predicate argument documentation on info/2 directive
'$lgt_valid_entity_parameter'(Name - Description) :-
atom(Name),
atom(Description).
% '$lgt_valid_pred_argument'(@term)
%
% valid predicate argument documentation on info/2 directive
'$lgt_valid_pred_argument'(Name - Description) :-
atom(Name),
atom(Description).
% '$lgt_valid_pred_allocation'(@nonvar)
%
% valid predicate allocation on info/2 directive
'$lgt_valid_pred_allocation'(container).
'$lgt_valid_pred_allocation'(descendants).
'$lgt_valid_pred_allocation'(instances).
'$lgt_valid_pred_allocation'(classes).
'$lgt_valid_pred_allocation'(subclasses).
'$lgt_valid_pred_allocation'(any).
% '$lgt_valid_pred_redefinition'(@nonvar)
%
% valid predicate redefinition on info/2 directive
'$lgt_valid_pred_redefinition'(never).
'$lgt_valid_pred_redefinition'(free).
'$lgt_valid_pred_redefinition'(specialize).
'$lgt_valid_pred_redefinition'(call_super_first).
'$lgt_valid_pred_redefinition'(call_super_last).
% '$lgt_valid_pred_exception'(@term)
%
% valid predicate exception documentation on info/2 directive
'$lgt_valid_pred_exception'(Description - Term) :-
atom(Description),
nonvar(Term).
% '$lgt_valid_pred_call_example'(@term)
%
% valid predicate call example documentation on info/1 directive
'$lgt_valid_pred_call_example'(Description - Call - {Bindings}) :-
atom(Description),
callable(Call),
nonvar(Bindings),
( Bindings == no -> true
; Bindings == yes -> true
; '$lgt_valid_example_var_bindings'(Bindings)
).
% '$lgt_valid_pred_call_example'(@term, +atom, +integer)
%
% valid predicate call example documentation on info/2 directive
'$lgt_valid_pred_call_example'((Description - Call - {Bindings}), Functor, Arity) :-
atom(Description),
nonvar(Call),
functor(Pred, Functor, Arity),
Call = Pred,
nonvar(Bindings),
( Bindings == no -> true
; Bindings == yes -> true
; '$lgt_valid_example_var_bindings'(Bindings)
).
'$lgt_valid_example_var_bindings'((Binding, Bindings)) :-
!,
'$lgt_valid_example_var_binding'(Binding),
'$lgt_valid_example_var_bindings'(Bindings).
'$lgt_valid_example_var_bindings'(Binding) :-
'$lgt_valid_example_var_binding'(Binding).
'$lgt_valid_example_var_binding'(Binding) :-
nonvar(Binding),
Binding = (Var = _),
var(Var).
% '$lgt_xml_encoding'(-atom)
%
% returns the text encoding that should be used on the XML documenting file;
% default encoding is UTF-8
'$lgt_xml_encoding'(XMLEncoding) :-
( '$lgt_pp_directive_'(encoding(Encoding)) ->
'$lgt_xml_encoding_table'(Encoding, XMLEncoding)
; XMLEncoding = 'utf-8'
).
% '$lgt_xml_encoding_table'(?atom, ?atom)
%
% converts between Prolog stream encoding names and XML encoding names
'$lgt_xml_encoding_table'(ascii, 'us-ascii') :-
!.
'$lgt_xml_encoding_table'(iso_8859_1, 'iso-8859-1') :-
!.
'$lgt_xml_encoding_table'(iso_latin_1, 'iso-8859-1') :-
!.
'$lgt_xml_encoding_table'(utf8, 'utf-8') :-
!.
'$lgt_xml_encoding_table'(unicode_be, 'utf-16') :-
!.
'$lgt_xml_encoding_table'(unicode_le, 'utf-16') :-
!.
'$lgt_xml_encoding_table'(Encoding, Encoding).
% Logtalk built-in predicates
%
% '$lgt_lgt_built_in'(?callable)
'$lgt_lgt_built_in'(::(_, _)).
'$lgt_lgt_built_in'(forall(_, _)).
'$lgt_lgt_built_in'(retractall(_)).
'$lgt_lgt_built_in'(logtalk_compile(_)).
'$lgt_lgt_built_in'(logtalk_compile(_, _)).
'$lgt_lgt_built_in'(logtalk_load(_)).
'$lgt_lgt_built_in'(logtalk_load(_, _)).
'$lgt_lgt_built_in'(protocol_property(_, _)).
'$lgt_lgt_built_in'(category_property(_, _)).
'$lgt_lgt_built_in'(object_property(_, _)).
'$lgt_lgt_built_in'(current_protocol(_)).
'$lgt_lgt_built_in'(current_category(_)).
'$lgt_lgt_built_in'(current_object(_)).
'$lgt_lgt_built_in'(create_object(_, _, _, _)).
'$lgt_lgt_built_in'(create_category(_, _, _, _)).
'$lgt_lgt_built_in'(create_protocol(_, _, _)).
'$lgt_lgt_built_in'(abolish_object(_)).
'$lgt_lgt_built_in'(abolish_category(_)).
'$lgt_lgt_built_in'(abolish_protocol(_)).
'$lgt_lgt_built_in'(implements_protocol(_, _)).
'$lgt_lgt_built_in'(implements_protocol(_, _, _)).
'$lgt_lgt_built_in'(imports_category(_, _)).
'$lgt_lgt_built_in'(imports_category(_, _, _)).
'$lgt_lgt_built_in'(instantiates_class(_, _)).
'$lgt_lgt_built_in'(instantiates_class(_, _, _)).
'$lgt_lgt_built_in'(specializes_class(_, _)).
'$lgt_lgt_built_in'(specializes_class(_, _, _)).
'$lgt_lgt_built_in'(extends_protocol(_, _)).
'$lgt_lgt_built_in'(extends_protocol(_, _, _)).
'$lgt_lgt_built_in'(extends_object(_, _)).
'$lgt_lgt_built_in'(extends_object(_, _, _)).
'$lgt_lgt_built_in'(abolish_events(_, _, _, _, _)).
'$lgt_lgt_built_in'(define_events(_, _, _, _, _)).
'$lgt_lgt_built_in'(current_event(_, _, _, _, _)).
'$lgt_lgt_built_in'(current_logtalk_flag(_, _)).
'$lgt_lgt_built_in'(set_logtalk_flag(_, _)).
'$lgt_lgt_built_in'(threaded(_)).
'$lgt_lgt_built_in'(threaded_call(_)).
'$lgt_lgt_built_in'(threaded_once(_)).
'$lgt_lgt_built_in'(threaded_ignore(_)).
'$lgt_lgt_built_in'(threaded_race(_)).
'$lgt_lgt_built_in'(threaded_exit(_)).
'$lgt_lgt_built_in'(threaded_peek(_)).
'$lgt_lgt_built_in'(threaded_wait(_)).
'$lgt_lgt_built_in'(threaded_notify(_)).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% DCG rule conversion
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% '$lgt_dcgrule_to_clause'(@dcgrule, -clause)
%
% converts a grammar rule into a normal clause
'$lgt_dcgrule_to_clause'(Rule, Clause) :-
catch(
'$lgt_dcg_rule'(Rule, Clause),
Error,
throw(error(Error, grammar_rule(Rule)))).
% '$lgt_dcg_rule'(@dcgrule, -clause)
%
% converts a grammar rule into a normal clause:
'$lgt_dcg_rule'(Rule, Clause) :-
'$lgt_dcg_rule'(Rule, S0, S, Expansion),
'$lgt_dcg_simplify'(Expansion, S0, S, Clause).
'$lgt_dcg_rule'((RHead --> _), _, _, _) :-
var(RHead),
throw(instantiation_error).
'$lgt_dcg_rule'((RHead, _ --> _), _, _, _) :-
var(RHead),
throw(instantiation_error).
'$lgt_dcg_rule'((_, Terminals --> _), _, _, _) :-
var(Terminals),
throw(instantiation_error).
'$lgt_dcg_rule'((NonTerminal, Terminals --> GRBody), S0, S, (Head :- Body)) :-
!,
'$lgt_dcg_non_terminal'(NonTerminal, S0, S, Head),
'$lgt_dcg_body'(GRBody, S0, S1, Goal1),
'$lgt_dcg_terminals'(Terminals, S, S1, Goal2),
Body = (Goal1, Goal2),
functor(NonTerminal, Functor, Arity),
( '$lgt_pp_defs_nt_'(Functor, Arity) -> true
; assertz('$lgt_pp_defs_nt_'(Functor, Arity))
).
'$lgt_dcg_rule'((NonTerminal --> GRBody), S0, S, (Head :- Body)) :-
!,
'$lgt_dcg_non_terminal'(NonTerminal, S0, S, Head),
'$lgt_dcg_body'(GRBody, S0, S, Body),
functor(NonTerminal, Functor, Arity),
( '$lgt_pp_defs_nt_'(Functor, Arity) -> true
; assertz('$lgt_pp_defs_nt_'(Functor, Arity))
).
'$lgt_dcg_rule'(Term, _, _, _) :-
throw(type_error(grammar_rule, Term)).
% '$lgt_dcg_non_terminal'(+callable, @var, @var, -goal)
%
% translates a grammar goal non-terminal:
'$lgt_dcg_non_terminal'(NonTerminal, _, _, _) :-
\+ callable(NonTerminal),
throw(type_error(callable, NonTerminal)).
'$lgt_dcg_non_terminal'(NonTerminal, S0, S, Goal) :-
NonTerminal =.. NonTerminalUniv,
'$lgt_append'(NonTerminalUniv, [S0, S], GoalUniv),
Goal =.. GoalUniv.
% '$lgt_dcg_terminals'(+list, @var, @var, -goal)
%
% translates a list of terminals:
'$lgt_dcg_terminals'(Terminals, _, _, _) :-
\+ '$lgt_is_proper_list'(Terminals),
throw(type_error(list, Terminals)).
'$lgt_dcg_terminals'(Terminals, S0, S, S0 = List) :-
'$lgt_append'(Terminals, S, List).
% '$lgt_dcg_msg'(@dcgbody, @var, @var, -body)
%
% translates a grammar rule message to an object into a Prolog message:
'$lgt_dcg_msg'(Var, S0, S, phrase(Var, S0, S)) :-
var(Var),
!.
'$lgt_dcg_msg'((GRIf -> GRThen), S0, S, (If -> Then)) :-
!,
'$lgt_dcg_msg'(GRIf, S0, S1, If),
'$lgt_dcg_msg'(GRThen, S1, S, Then).
'$lgt_dcg_msg'((GREither; GROr), S0, S, (Either; Or)) :-
!,
'$lgt_dcg_msg'(GREither, S0, S, Either),
'$lgt_dcg_msg'(GROr, S0, S, Or).
'$lgt_dcg_msg'((GRFirst, GRSecond), S0, S, (First, Second)) :-
!,
'$lgt_dcg_msg'(GRFirst, S0, S1, First),
'$lgt_dcg_msg'(GRSecond, S1, S, Second).
'$lgt_dcg_msg'(!, S0, S, (!, S0 = S)) :-
!.
'$lgt_dcg_msg'({}, S0, S, (S0 = S)) :-
!.
'$lgt_dcg_msg'({Goal}, S0, S, (call(Goal), S0 = S)) :-
var(Goal),
!.
'$lgt_dcg_msg'({Goal}, _, _, _) :-
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_dcg_msg'({Goal}, S0, S, (Goal, S0 = S)) :-
!.
'$lgt_dcg_msg'(\+ GRBody, S0, S, (\+ Goal, S0 = S)) :-
!,
'$lgt_dcg_msg'(GRBody, S0, S, Goal).
'$lgt_dcg_msg'([], S0, S, (S0=S)) :-
!.
'$lgt_dcg_msg'([T| Ts], S0, S, Goal) :-
!,
'$lgt_dcg_terminals'([T| Ts], S0, S, Goal).
'$lgt_dcg_msg'(NonTerminal, S0, S, phrase(NonTerminal, S0, S)) :-
'$lgt_dcg_non_terminal'(NonTerminal, S0, S, _). % just check validity
% '$lgt_dcg_body'(@dcgbody, @var, @var, -body)
%
% translates a grammar rule body into a Prolog clause body:
'$lgt_dcg_body'(Var, S0, S, phrase(Var, S0, S)) :-
var(Var),
!.
'$lgt_dcg_body'(::RGoal, S0, S, ::CGoal) :-
!,
'$lgt_dcg_msg'(RGoal, S0, S, CGoal).
'$lgt_dcg_body'(Object::RGoal, S0, S, Object::CGoal) :-
!,
'$lgt_dcg_msg'(RGoal, S0, S, CGoal).
'$lgt_dcg_body'((GRIf -> GRThen), S0, S, (If -> Then)) :-
!,
'$lgt_dcg_body'(GRIf, S0, S1, If),
'$lgt_dcg_body'(GRThen, S1, S, Then).
'$lgt_dcg_body'((GREither; GROr), S0, S, (Either; Or)) :-
!,
'$lgt_dcg_body'(GREither, S0, S, Either),
'$lgt_dcg_body'(GROr, S0, S, Or).
'$lgt_dcg_body'((GRFirst, GRSecond), S0, S, (First, Second)) :-
!,
'$lgt_dcg_body'(GRFirst, S0, S1, First),
'$lgt_dcg_body'(GRSecond, S1, S, Second).
'$lgt_dcg_body'(!, S0, S, (!, S0 = S)) :-
!.
'$lgt_dcg_body'({}, S0, S, (S0 = S)) :-
!.
'$lgt_dcg_body'({Goal}, S0, S, (call(Goal), S0 = S)) :-
var(Goal),
!.
'$lgt_dcg_body'({Goal}, _, _, _) :-
\+ callable(Goal),
throw(type_error(callable, Goal)).
'$lgt_dcg_body'({Goal}, S0, S, (Goal, S0 = S)) :-
!.
'$lgt_dcg_body'(\+ GRBody, S0, S, (\+ Goal, S0 = S)) :-
!,
'$lgt_dcg_body'(GRBody, S0, S, Goal).
'$lgt_dcg_body'([], S0, S, (S0=S)) :-
!.
'$lgt_dcg_body'([T| Ts], S0, S, Goal) :-
!,
'$lgt_dcg_terminals'([T| Ts], S0, S, Goal).
'$lgt_dcg_body'(NonTerminal, S0, S, Goal) :-
'$lgt_dcg_non_terminal'(NonTerminal, S0, S, Goal),
functor(NonTerminal, Functor, Arity),
( '$lgt_pp_calls_nt_'(Functor, Arity) ->
true
; assertz('$lgt_pp_calls_nt_'(Functor, Arity))
).
% '$lgt_dcg_simplify'(+clause, @var, @var, -clause)
%
% simplifies the clause resulting from a grammar rule translation:
'$lgt_dcg_simplify'((Head :- Body), _, _, Clause) :-
'$lgt_dcg_conjunctions'(Body, Flatted),
'$lgt_dcg_fold_left'(Flatted, FoldedLeft),
'$lgt_dcg_fold_pairs'(FoldedLeft, FoldedPairs),
( FoldedPairs == true ->
Clause = Head
; Clause = (Head :- FoldedPairs)
).
% '$lgt_dcg_conjunctions'(+goal, -goal)
%
% removes redundant calls to true/0 and flattens conjunction of goals:
'$lgt_dcg_conjunctions'((Goal1 -> Goal2), (SGoal1 -> SGoal2)) :-
!,
'$lgt_dcg_conjunctions'(Goal1, SGoal1),
'$lgt_dcg_conjunctions'(Goal2, SGoal2).
'$lgt_dcg_conjunctions'((Goal1; Goal2), (SGoal1; SGoal2)) :-
!,
'$lgt_dcg_conjunctions'(Goal1, SGoal1),
'$lgt_dcg_conjunctions'(Goal2, SGoal2).
'$lgt_dcg_conjunctions'(((Goal1, Goal2), Goal3), Body) :-
!,
'$lgt_dcg_conjunctions'((Goal1, (Goal2, Goal3)), Body).
'$lgt_dcg_conjunctions'((true, Goal), Body) :-
!,
'$lgt_dcg_conjunctions'(Goal, Body).
'$lgt_dcg_conjunctions'((Goal, true), Body) :-
!,
'$lgt_dcg_conjunctions'(Goal, Body).
'$lgt_dcg_conjunctions'((Goal1, Goal2), (Goal1, Goal3)) :-
!,
'$lgt_dcg_conjunctions'(Goal2, Goal3).
'$lgt_dcg_conjunctions'(\+ Goal, \+ SGoal) :-
!,
'$lgt_dcg_conjunctions'(Goal, SGoal).
'$lgt_dcg_conjunctions'(::Goal, ::SGoal) :-
!,
'$lgt_dcg_conjunctions'(Goal, SGoal).
'$lgt_dcg_conjunctions'(Object::Goal, Object::SGoal) :-
!,
'$lgt_dcg_conjunctions'(Goal, SGoal).
'$lgt_dcg_conjunctions'(Goal, Goal).
% '$lgt_dcg_fold_left'(+goal, -goal)
%
% folds left unifications:
'$lgt_dcg_fold_left'((Term1 = Term2), true) :-
!,
Term1 = Term2.
'$lgt_dcg_fold_left'(((Term1 = Term2), Goal), Folded) :-
!,
Term1 = Term2,
'$lgt_dcg_fold_left'(Goal, Folded).
'$lgt_dcg_fold_left'(Goal, Goal).
% '$lgt_dcg_fold_pairs'(+goal, -goal)
%
% folds pairs of consecutive unifications (T1 = T2, T2 = T3):
'$lgt_dcg_fold_pairs'((Goal1 -> Goal2), (SGoal1 -> SGoal2)) :-
!,
'$lgt_dcg_fold_pairs'(Goal1, SGoal1),
'$lgt_dcg_fold_pairs'(Goal2, SGoal2).
'$lgt_dcg_fold_pairs'((Goal1; Goal2), (SGoal1; SGoal2)) :-
!,
'$lgt_dcg_fold_pairs'(Goal1, SGoal1),
'$lgt_dcg_fold_pairs'(Goal2, SGoal2).
'$lgt_dcg_fold_pairs'(((T1 = T2a), (T2b = T3)), (T1 = T3)) :-
T2a == T2b,
!.
'$lgt_dcg_fold_pairs'(((T1 = T2a), (T2b = T3), Goal), ((T1 = T3), Goal2)) :-
T2a == T2b,
!,
'$lgt_dcg_fold_pairs'(Goal, Goal2).
'$lgt_dcg_fold_pairs'((Goal1, Goal2), (Goal1, Goal3)) :-
!,
'$lgt_dcg_fold_pairs'(Goal2, Goal3).
'$lgt_dcg_fold_pairs'(\+ Goal, \+ SGoal) :-
!,
'$lgt_dcg_fold_pairs'(Goal, SGoal).
'$lgt_dcg_fold_pairs'(::Goal, ::SGoal) :-
!,
'$lgt_dcg_fold_pairs'(Goal, SGoal).
'$lgt_dcg_fold_pairs'(Object::Goal, Object::SGoal) :-
!,
'$lgt_dcg_fold_pairs'(Goal, SGoal).
'$lgt_dcg_fold_pairs'(Goal, Goal).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% xml
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% '$lgt_write_xml_file'(@stream)
%
% writes a XML file containing the documentation of a compiled entity
'$lgt_write_xml_file'(Stream) :-
'$lgt_write_xml_header'(Stream),
'$lgt_write_xml_entity'(Stream),
'$lgt_write_xml_relations'(Stream),
'$lgt_write_xml_predicates'(Stream),
'$lgt_write_xml_remarks'(Stream),
'$lgt_write_xml_footer'(Stream).
'$lgt_write_xml_header'(Stream) :-
'$lgt_compiler_flag'(xmlspec, XMLSpec),
'$lgt_compiler_flag'(xmlsref, XMLSRef),
'$lgt_write_xml_header'(XMLSRef, XMLSpec, Stream).
'$lgt_write_xml_header'(local, XMLSpec, Stream) :-
'$lgt_xml_encoding'(Encoding),
'$lgt_xml_header_text'('1.0', Encoding, no, Text),
'$lgt_write_xml_open_tag'(Stream, Text, []),
( XMLSpec == dtd ->
write(Stream, '<!DOCTYPE logtalk SYSTEM "logtalk.dtd">'), nl(Stream)
; true
),
'$lgt_compiler_flag'(xslfile, XSL),
write(Stream, '<?xml-stylesheet type="text/xsl" href="'),
write(Stream, XSL),
write(Stream, '"?>'), nl(Stream),
( XMLSpec == dtd ->
'$lgt_write_xml_open_tag'(Stream, logtalk, [])
; '$lgt_write_xml_open_tag'(Stream, logtalk,
['xmlns:xsi'-'http://www.w3.org/2001/XMLSchema-instance',
'xsi:noNamespaceSchemaLocation'-'logtalk.xsd'])
).
'$lgt_write_xml_header'(web, XMLSpec, Stream) :-
'$lgt_xml_encoding'(Encoding),
'$lgt_xml_header_text'('1.0', Encoding, no, Text),
'$lgt_write_xml_open_tag'(Stream, Text, []),
( XMLSpec == dtd ->
write(Stream, '<!DOCTYPE logtalk SYSTEM "http://logtalk.org/xml/1.4/logtalk.dtd">'), nl(Stream)
; true
),
'$lgt_compiler_flag'(xslfile, XSL),
write(Stream, '<?xml-stylesheet type="text/xsl" href="'),
write(Stream, XSL),
write(Stream, '"?>'), nl(Stream),
( XMLSpec == dtd ->
'$lgt_write_xml_open_tag'(Stream, logtalk, [])
; '$lgt_write_xml_open_tag'(Stream, logtalk,
['xmlns:xsi'-'http://www.w3.org/2001/XMLSchema-instance',
'xsi:noNamespaceSchemaLocation'-'http://logtalk.org/xml/1.4/logtalk.xsd'])
).
'$lgt_write_xml_header'(standalone, _, Stream) :-
'$lgt_xml_encoding'(Encoding),
'$lgt_xml_header_text'('1.0', Encoding, yes, Text),
'$lgt_write_xml_open_tag'(Stream, Text, []),
'$lgt_compiler_flag'(xslfile, XSL),
write(Stream, '<?xml-stylesheet type="text/xsl" href="'),
write(Stream, XSL),
write(Stream, '"?>'), nl(Stream),
'$lgt_write_xml_open_tag'(Stream, logtalk, []).
'$lgt_xml_header_text'(Version, Encoding, Standalone, Text) :-
atom_concat('?xml version="', Version, Aux1),
atom_concat(Aux1, '" encoding="', Aux2),
atom_concat(Aux2, Encoding, Aux3),
atom_concat(Aux3, '" standalone="', Aux4),
atom_concat(Aux4, Standalone, Aux5),
atom_concat(Aux5, '"?', Text).
'$lgt_write_xml_footer'(Stream) :-
'$lgt_write_xml_close_tag'(Stream, logtalk).
'$lgt_write_xml_entity'(Stream) :-
'$lgt_pp_entity'(Type, Entity, _, _, Compilation),
'$lgt_write_xml_open_tag'(Stream, entity, []),
'$lgt_entity_to_xml_term'(Entity),
'$lgt_write_xml_cdata_element'(Stream, name, [], Entity),
'$lgt_write_xml_element'(Stream, (type), [], Type),
'$lgt_write_xml_element'(Stream, compilation, [], Compilation),
( '$lgt_pp_info_'(Info) ->
'$lgt_write_xml_entity_info'(Stream, Info)
; true
),
'$lgt_write_xml_close_tag'(Stream, entity).
'$lgt_write_xml_entity_info'(Stream, Info) :-
( '$lgt_member'(comment is Comment, Info) ->
'$lgt_write_xml_cdata_element'(Stream, comment, [], Comment)
; true
),
( '$lgt_member'(parameters is Parameters, Info) ->
'$lgt_write_xml_open_tag'(Stream, parameters, []),
forall(
'$lgt_member'(Parname-Description, Parameters),
('$lgt_write_xml_open_tag'(Stream, parameter, []),
'$lgt_write_xml_cdata_element'(Stream, name, [], Parname),
'$lgt_write_xml_cdata_element'(Stream, description, [], Description),
'$lgt_write_xml_close_tag'(Stream, parameter))),
'$lgt_write_xml_close_tag'(Stream, parameters)
; true
),
( '$lgt_member'(author is Author, Info) ->
( atom(Author) ->
'$lgt_write_xml_cdata_element'(Stream, author, [], Author)
; '$lgt_entity_name_to_xml_entity'(Author, AuthorEntity),
'$lgt_write_xml_element'(Stream, author, [], AuthorEntity)
)
; true
),
( '$lgt_member'(version is Version, Info) ->
'$lgt_write_xml_element'(Stream, version, [], Version)
; true
),
( '$lgt_member'(date is Date, Info) ->
'$lgt_write_xml_element'(Stream, date, [], Date)
; true
),
( '$lgt_member'(copyright is Copyright, Info) ->
( atom(Copyright) ->
'$lgt_write_xml_element'(Stream, copyright, [], Copyright)
; '$lgt_entity_name_to_xml_entity'(Copyright, CopyrightEntity),
'$lgt_write_xml_element'(Stream, copyright, [], CopyrightEntity)
)
; true
),
( '$lgt_member'(license is License, Info) ->
( atom(License) ->
'$lgt_write_xml_element'(Stream, license, [], License)
; '$lgt_entity_name_to_xml_entity'(License, LicenseEntity),
'$lgt_write_xml_element'(Stream, license, [], LicenseEntity)
)
; true
),
forall(
('$lgt_member'(Key is Value, Info),
\+ '$lgt_member'(Key, [comment, author, version, date, parameters, parnames, copyright, license, remarks])),
('$lgt_write_xml_open_tag'(Stream, info, []),
'$lgt_write_xml_element'(Stream, key, [], Key),
'$lgt_write_xml_cdata_element'(Stream, value, [], Value),
'$lgt_write_xml_close_tag'(Stream, info))).
'$lgt_entity_name_to_xml_entity'({EntityName}, XMLEntity) :-
atom_concat('&', EntityName, Aux),
atom_concat(Aux, ';', XMLEntity).
% '$lgt_entity_to_xml_term'(+entity)
%
% instantiates the parameters in a parametric object to
% user defined names or to the atom '_'
'$lgt_entity_to_xml_term'(Entity) :-
'$lgt_pp_info_'(List),
( '$lgt_member'(parnames is Names, List) ->
true
; '$lgt_member'(parameters is Parameters, List),
findall(Name, '$lgt_member'(Name - _, Parameters), Names)
),
!,
Entity =.. [_| Args],
'$lgt_vars_to_atoms'(Args, Args, Names).
'$lgt_entity_to_xml_term'(Entity) :-
Entity =.. [_| Args],
'$lgt_vars_to_underscore'(Args).
% '$lgt_relation_to_xml_term'(+entity, +entity)
%
% instantiates the parameters in a related entity taking
% in account the parameter sharing with the original entity
'$lgt_relation_to_xml_term'(Entity, Relation) :-
'$lgt_entity_to_xml_term'(Entity),
Relation =.. [_| Args],
'$lgt_vars_to_underscore'(Args).
% '$lgt_pred_call_to_xml_term'(+atom, +integer, +nonvar, +nonvar, -nonvar, -nonvar)
%
% instantiates the arguments in a predicate call to user defined names or to the atom '_'
'$lgt_pred_call_to_xml_term'(Functor, Arity, Call, Bindings, QCall, QBindings) :-
'$lgt_double_quote_atoms'(Call, QCall),
'$lgt_double_quote_atoms'(Bindings, QBindings),
'$lgt_pred_qcall_to_xml_term'(Functor, Arity, QCall, QBindings).
'$lgt_pred_qcall_to_xml_term'(Functor, Arity, Call, Bindings) :-
( '$lgt_pp_info_'(Functor/Arity, List) ->
true
; '$lgt_pp_info_'(Functor//Arity, List)
),
( '$lgt_member'(argnames is Names, List) ->
true
; '$lgt_member'(arguments is Arguments, List),
findall(Name, '$lgt_member'(Name - _, Arguments), Names)
),
!,
Call =.. [Functor| Args],
'$lgt_binding_vars'(Bindings, Vars),
'$lgt_vars_to_atoms'(Args, Vars, Names).
'$lgt_pred_qcall_to_xml_term'(Functor, _, Call, _) :-
Call =.. [Functor| Args],
'$lgt_vars_to_underscore'(Args).
'$lgt_double_quote_atoms'(Var, Var) :-
var(Var),
!.
'$lgt_double_quote_atoms'((Call1, Call2), (QCall1, QCall2)) :-
!,
'$lgt_double_quote_atoms'(Call1, QCall1),
'$lgt_double_quote_atoms'(Call2, QCall2).
'$lgt_double_quote_atoms'((Call1; Call2), (QCall1; QCall2)) :-
!,
'$lgt_double_quote_atoms'(Call1, QCall1),
'$lgt_double_quote_atoms'(Call2, QCall2).
'$lgt_double_quote_atoms'((Call1 -> Call2), (QCall1 -> QCall2)) :-
!,
'$lgt_double_quote_atoms'(Call1, QCall1),
'$lgt_double_quote_atoms'(Call2, QCall2).
'$lgt_double_quote_atoms'(\+ Call, \+ QCall) :-
!,
'$lgt_double_quote_atoms'(Call, QCall).
'$lgt_double_quote_atoms'([], []) :-
!.
'$lgt_double_quote_atoms'([Arg| Args], [QArg| QArgs]) :-
!,
'$lgt_double_quote_atoms'(Arg, QArg),
'$lgt_double_quote_atoms'(Args, QArgs).
'$lgt_double_quote_atoms'(Atom, QAtom) :-
atom(Atom),
!,
( '$lgt_atom_needs_quotes'(Atom) ->
atom_concat('''', Atom, Aux),
atom_concat(Aux, '''', QAtom)
; Atom = QAtom
).
'$lgt_double_quote_atoms'(Number, Number) :-
number(Number),
!.
'$lgt_double_quote_atoms'(Term, QTerm) :-
Term =.. [Functor| Args],
( '$lgt_built_in'(Term) ->
QFunctor = Functor
; '$lgt_double_quote_atoms'(Functor, QFunctor)
),
'$lgt_double_quote_atoms'(Args, QArgs),
QTerm =.. [QFunctor| QArgs].
'$lgt_atom_needs_quotes'(Atom) :-
atom_chars(Atom, [First| Rest]),
( First @< a
; First @> z
; '$lgt_member'(Char, Rest),
\+ '$lgt_alpha_numeric_char'(Char)
),
!.
'$lgt_alpha_numeric_char'('_').
'$lgt_alpha_numeric_char'(Char) :-
Char @>= a, Char @=< z.
'$lgt_alpha_numeric_char'(Char) :-
Char @>= 'A', Char @=< 'Z'.
'$lgt_alpha_numeric_char'(Char) :-
Char @>= '0', Char @=< '9'.
% '$lgt_binding_vars'(@nonvar, -list)
%
% returns a list of all binding variables
'$lgt_binding_vars'(Bindings, Vars) :-
( atom(Bindings) -> % no bindings, just "no", "yes", or equivalent answers
Vars = []
; '$lgt_binding_vars_list'(Bindings, Vars)
).
'$lgt_binding_vars_list'((Var = _), [Var]).
'$lgt_binding_vars_list'(((Var = _), Bindings), [Var| Vars]) :-
'$lgt_binding_vars_list'(Bindings, Vars).
% '$lgt_vars_to_atoms'(+list, +list, +list)
%
% instantiates the variables in the input list to either a name or the atom '_'
'$lgt_vars_to_atoms'([], _, []).
'$lgt_vars_to_atoms'([Arg| Args], Vars, [Name| Names]) :-
( var(Arg) ->
( '$lgt_member_var'(Arg, Vars) ->
Arg = Name
; Arg = '_'
)
; true
),
'$lgt_vars_to_atoms'(Args, Vars, Names).
% '$lgt_vars_to_underscore'(+list)
%
% instantiates the variables in the input list to the atom '_'
'$lgt_vars_to_underscore'([]).
'$lgt_vars_to_underscore'([Arg| Args]) :-
( var(Arg) ->
Arg = '_'
; true
),
'$lgt_vars_to_underscore'(Args).
% '$lgt_relation_to_xml_filename'(+entity, -atom)
%
% needed to build filenames in links to parametric objects
'$lgt_relation_to_xml_filename'(Relation, File) :-
functor(Relation, Functor, Arity),
number_codes(Arity, Codes),
atom_codes(Atom, Codes),
atom_concat(Functor, '_', Aux),
atom_concat(Aux, Atom, File).
% '$lgt_write_xml_predicates'(@stream)
%
% writes the predicate documentation
'$lgt_write_xml_predicates'(Stream) :-
'$lgt_write_xml_open_tag'(Stream, predicates, []),
'$lgt_write_xml_public_predicates'(Stream),
'$lgt_write_xml_protected_predicates'(Stream),
'$lgt_write_xml_private_predicates'(Stream),
'$lgt_write_xml_close_tag'(Stream, predicates).
% '$lgt_write_xml_public_predicates'(@stream)
%
% writes the documentation of public predicates
'$lgt_write_xml_public_predicates'(Stream) :-
'$lgt_write_xml_open_tag'(Stream, (public), []),
'$lgt_pp_public_'(Functor, Arity),
( '$lgt_pp_non_terminal_'(Functor, Args, Arity) ->
'$lgt_write_xml_non_terminal'(Stream, Functor, Args, Arity, (public))
; '$lgt_write_xml_predicate'(Stream, Functor, Arity, (public))
),
fail.
'$lgt_write_xml_public_predicates'(Stream) :-
'$lgt_write_xml_close_tag'(Stream, (public)).
% '$lgt_write_xml_protected_predicates'(@stream)
%
% writes the documentation protected predicates
'$lgt_write_xml_protected_predicates'(Stream) :-
'$lgt_write_xml_open_tag'(Stream, protected, []),
'$lgt_pp_protected_'(Functor, Arity),
( '$lgt_pp_non_terminal_'(Functor, Args, Arity) ->
'$lgt_write_xml_non_terminal'(Stream, Functor, Args, Arity, protected)
; '$lgt_write_xml_predicate'(Stream, Functor, Arity, protected)
),
fail.
'$lgt_write_xml_protected_predicates'(Stream) :-
'$lgt_write_xml_close_tag'(Stream, protected).
% '$lgt_write_xml_private_predicates'(@stream)
%
% writes the documentation of private predicates
'$lgt_write_xml_private_predicates'(Stream) :-
'$lgt_write_xml_open_tag'(Stream, private, []),
'$lgt_pp_private_'(Functor, Arity),
( '$lgt_pp_non_terminal_'(Functor, Args, Arity) ->
'$lgt_write_xml_non_terminal'(Stream, Functor, Args, Arity, private)
; '$lgt_write_xml_predicate'(Stream, Functor, Arity, private)
),
fail.
'$lgt_write_xml_private_predicates'(Stream) :-
'$lgt_write_xml_close_tag'(Stream, private).
% '$lgt_write_xml_predicate'(@stream, +atom, +integer, +term)
%
% writes the documentation of a predicate
'$lgt_write_xml_predicate'(Stream, Functor, Arity, Scope) :-
'$lgt_write_xml_open_tag'(Stream, predicate, []),
'$lgt_write_xml_predicate_data'(Stream, Functor, Arity, Functor/Arity, Scope),
'$lgt_write_xml_predicate_meta'(Stream, Functor, Arity),
'$lgt_write_xml_predicate_mode'(Stream, Functor, Arity),
( '$lgt_pp_info_'(Functor/Arity, Info) ->
'$lgt_write_xml_predicate_info'(Stream, Functor, Arity, Info)
; true
),
'$lgt_write_xml_close_tag'(Stream, predicate).
'$lgt_write_xml_predicate_data'(Stream, Functor, Arity, Name, Scope) :-
'$lgt_write_xml_cdata_element'(Stream, name, [], Name),
'$lgt_write_xml_element'(Stream, scope, [], Scope),
( ('$lgt_pp_entity'(_, _, _, _, (dynamic)); '$lgt_pp_dynamic_'(Functor, Arity)) ->
Compilation = (dynamic)
; Compilation = static
),
'$lgt_write_xml_element'(Stream, compilation, [], Compilation).
'$lgt_write_xml_predicate_meta'(Stream, Functor, Arity) :-
functor(Meta, Functor, Arity),
( '$lgt_pp_meta_predicate_'(Meta) ->
'$lgt_write_xml_cdata_element'(Stream, meta, [], Meta)
; true
).
'$lgt_write_xml_predicate_mode'(Stream, Functor, Arity) :-
functor(Template, Functor, Arity),
forall(
'$lgt_pp_mode_'(Template, Solutions),
('$lgt_write_xml_open_tag'(Stream, (mode), []),
'$lgt_write_xml_cdata_element'(Stream, template, [], Template),
'$lgt_write_xml_element'(Stream, solutions, [], Solutions),
'$lgt_write_xml_close_tag'(Stream, (mode)))).
'$lgt_write_xml_predicate_info'(Stream, Functor, Arity, Info) :-
( '$lgt_member'(comment is Comment, Info) ->
'$lgt_write_xml_cdata_element'(Stream, comment, [], Comment)
; true
),
( '$lgt_member'(arguments is Arguments, Info) ->
findall(Name, '$lgt_member'(Name - _, Arguments), Names),
Template =.. [Functor| Names],
'$lgt_write_xml_cdata_element'(Stream, template, [], Template),
'$lgt_write_xml_open_tag'(Stream, arguments, []),
forall(
'$lgt_member'(Name-Description, Arguments),
('$lgt_write_xml_open_tag'(Stream, argument, []),
'$lgt_write_xml_cdata_element'(Stream, name, [], Name),
'$lgt_write_xml_cdata_element'(Stream, description, [], Description),
'$lgt_write_xml_close_tag'(Stream, argument))),
'$lgt_write_xml_close_tag'(Stream, arguments)
; true
),
( '$lgt_member'(argnames is Names, Info) ->
Template =.. [Functor| Names],
'$lgt_write_xml_cdata_element'(Stream, template, [], Template)
; true
),
( '$lgt_member'(exceptions is Exceptions, Info) ->
'$lgt_write_xml_open_tag'(Stream, exceptions, []),
forall(
'$lgt_member'(Cond-Term, Exceptions),
('$lgt_write_xml_open_tag'(Stream, exception, []),
'$lgt_write_xml_cdata_element'(Stream, condition, [], Cond),
'$lgt_write_xml_cdata_element'(Stream, term, [], Term),
'$lgt_write_xml_close_tag'(Stream, exception))),
'$lgt_write_xml_close_tag'(Stream, exceptions)
; true
),
forall(
('$lgt_member'(Key is Value, Info),
\+ '$lgt_member'(Key, [comment, arguments, argnames, exceptions, examples])),
('$lgt_write_xml_open_tag'(Stream, info, []),
'$lgt_write_xml_element'(Stream, key, [], Key),
'$lgt_write_xml_cdata_element'(Stream, value, [], Value),
'$lgt_write_xml_close_tag'(Stream, info))),
( '$lgt_member'(examples is Examples, Info) ->
'$lgt_write_xml_open_tag'(Stream, examples, []),
forall(
'$lgt_member'((Description - Call - {Bindings}), Examples),
('$lgt_pred_call_to_xml_term'(Functor, Arity, Call, Bindings, QCall, QBindings),
'$lgt_write_xml_open_tag'(Stream, example, []),
'$lgt_write_xml_cdata_element'(Stream, description, [], Description),
'$lgt_write_xml_cdata_element'(Stream, call, [], QCall),
'$lgt_write_xml_cdata_element'(Stream, bindings, [], QBindings),
'$lgt_write_xml_close_tag'(Stream, example))),
'$lgt_write_xml_close_tag'(Stream, examples)
; true
).
% '$lgt_write_xml_non_terminal'(@stream, +atom, +atom, +integer, +term)
%
% writes the documentation of a grammar rule non-terminal
'$lgt_write_xml_non_terminal'(Stream, Functor, Args, Arity, Scope) :-
'$lgt_write_xml_open_tag'(Stream, predicate, []),
'$lgt_write_xml_predicate_data'(Stream, Functor, Arity, Functor//Args, Scope),
'$lgt_write_xml_predicate_mode'(Stream, Functor, Args),
( '$lgt_pp_info_'(Functor//Args, Info) ->
'$lgt_write_xml_predicate_info'(Stream, Functor, Args, Info)
; true
),
'$lgt_write_xml_close_tag'(Stream, predicate).
'$lgt_write_xml_relations'(Stream) :-
'$lgt_write_xml_open_tag'(Stream, relations, []),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_rclause_'('$lgt_implements_protocol_'(Entity, Ptc, Scope)),
'$lgt_write_xml_relation'(Stream, Entity, Ptc, implements, Scope),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_rclause_'('$lgt_imports_category_'(Entity, Ctg, Scope)),
'$lgt_write_xml_relation'(Stream, Entity, Ctg, imports, Scope),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_rclause_'('$lgt_extends_object_'(Entity, Parent, Scope)),
'$lgt_write_xml_relation'(Stream, Entity, Parent, extends, Scope),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_rclause_'('$lgt_instantiates_class_'(Entity, Class, Scope)),
'$lgt_write_xml_relation'(Stream, Entity, Class, instantiates, Scope),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_rclause_'('$lgt_specializes_class_'(Entity, Superclass, Scope)),
'$lgt_write_xml_relation'(Stream, Entity, Superclass, specializes, Scope),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_rclause_'('$lgt_extends_protocol_'(Entity, Ptc, Scope)),
'$lgt_write_xml_relation'(Stream, Entity, Ptc, extends, Scope),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_entity'(_, Entity, _, _, _),
'$lgt_pp_uses_'(Obj),
'$lgt_write_xml_relation'(Stream, Entity, Obj, uses),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_pp_entity'(_, Entity, _, _, _),
'$lgt_pp_calls_'(Ptc),
'$lgt_write_xml_relation'(Stream, Entity, Ptc, calls),
fail.
'$lgt_write_xml_relations'(Stream) :-
'$lgt_write_xml_close_tag'(Stream, relations).
'$lgt_write_xml_relation'(Stream, Entity, Relation, Tag, Scope) :-
'$lgt_relation_to_xml_term'(Entity, Relation),
'$lgt_relation_to_xml_filename'(Relation, File),
'$lgt_write_xml_open_tag'(Stream, Tag, []),
'$lgt_write_xml_cdata_element'(Stream, name, [], Relation),
'$lgt_write_xml_element'(Stream, scope, [], Scope),
'$lgt_write_xml_cdata_element'(Stream, file, [], File),
'$lgt_write_xml_close_tag'(Stream, Tag).
'$lgt_write_xml_relation'(Stream, Entity, Relation, Tag) :-
'$lgt_relation_to_xml_term'(Entity, Relation),
'$lgt_relation_to_xml_filename'(Relation, File),
'$lgt_write_xml_open_tag'(Stream, Tag, []),
'$lgt_write_xml_cdata_element'(Stream, name, [], Relation),
'$lgt_write_xml_cdata_element'(Stream, file, [], File),
'$lgt_write_xml_close_tag'(Stream, Tag).
'$lgt_write_xml_remarks'(Stream) :-
'$lgt_write_xml_open_tag'(Stream, remarks, []),
( '$lgt_pp_info_'(Info), '$lgt_member'(remarks is Remarks, Info) ->
forall(
'$lgt_member'((Topic - Text), Remarks),
('$lgt_write_xml_open_tag'(Stream, remark, []),
'$lgt_write_xml_cdata_element'(Stream, topic, [], Topic),
'$lgt_write_xml_cdata_element'(Stream, text, [], Text),
'$lgt_write_xml_close_tag'(Stream, remark)))
; true
),
'$lgt_write_xml_close_tag'(Stream, remarks).
% '$lgt_write_xml_open_tag'(@stream, @atom, @list)
%
% writes <Tag Att1="V1" Att2="V2" ...>
'$lgt_write_xml_open_tag'(Stream, Tag, Atts) :-
write(Stream, '<'),
write(Stream, Tag),
'$lgt_write_xml_tag_attributes'(Stream, Atts),
write(Stream, '>'), nl(Stream).
% '$lgt_write_xml_element'(@stream, @atom, @list, @term)
%
% writes <Tag Att1="V1" Att2="V2" ...>Text</Tag>
'$lgt_write_xml_element'(Stream, Tag, Atts, Text) :-
write(Stream, '<'),
write(Stream, Tag),
'$lgt_write_xml_tag_attributes'(Stream, Atts),
write(Stream, '>'),
write(Stream, Text),
write(Stream, '</'),
write(Stream, Tag),
write(Stream, '>'), nl(Stream).
% '$lgt_writeq_xml_cdata_element'(@stream, @atom, @list, @term)
%
% writes <Tag Att1="V1" Att2="V2" ...><![CDATA[Text]]></Tag> (quoted)
'$lgt_writeq_xml_cdata_element'(Stream, Tag, Atts, Text) :-
write(Stream, '<'),
write(Stream, Tag),
'$lgt_write_xml_tag_attributes'(Stream, Atts),
write(Stream, '><![CDATA['),
'$lgt_pretty_print_vars_quoted'(Stream, Text),
write(Stream, ']]></'),
write(Stream, Tag),
write(Stream, '>'), nl(Stream).
% '$lgt_write_xml_cdata_element'(@stream, @atom, @list, @term)
%
% writes <Tag Att1="V1" Att2="V2" ...><![CDATA[Text]]></Tag>
'$lgt_write_xml_cdata_element'(Stream, Tag, Atts, Text) :-
write(Stream, '<'),
write(Stream, Tag),
'$lgt_write_xml_tag_attributes'(Stream, Atts),
write(Stream, '><![CDATA['),
'$lgt_pretty_print_vars'(Stream, Text),
write(Stream, ']]></'),
write(Stream, Tag),
write(Stream, '>'), nl(Stream).
% '$lgt_write_xml_tag_attributes'(@stream, @list)
'$lgt_write_xml_tag_attributes'(_, []) :-
!.
'$lgt_write_xml_tag_attributes'(Stream, [Attribute-Value| Rest]) :-
write(Stream, ' '),
write(Stream, Attribute),
write(Stream, '="'),
write(Stream, Value),
write(Stream, '"'),
'$lgt_write_xml_tag_attributes'(Stream, Rest).
% '$lgt_write_xml_close_tag'(@stream, @atom)
%
% writes </Tag>
'$lgt_write_xml_close_tag'(Stream, Tag) :-
write(Stream, '</'),
write(Stream, Tag),
write(Stream, '>'),
nl(Stream).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% table of ISO specified predicates
%
% (used for portability checking)
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
'$lgt_iso_spec_pred'(true).
'$lgt_iso_spec_pred'(fail).
'$lgt_iso_spec_pred'(call(_)).
'$lgt_iso_spec_pred'(!).
'$lgt_iso_spec_pred'((_; _)).
'$lgt_iso_spec_pred'((_, _)).
'$lgt_iso_spec_pred'((_ -> _)).
'$lgt_iso_spec_pred'((_ -> _; _)).
'$lgt_iso_spec_pred'(catch(_, _, _)).
'$lgt_iso_spec_pred'(throw(_)).
'$lgt_iso_spec_pred'((_ = _)).
'$lgt_iso_spec_pred'((_ \= _)).
'$lgt_iso_spec_pred'(unify_with_occurs_check(_, _)).
'$lgt_iso_spec_pred'(var(_)).
'$lgt_iso_spec_pred'(nonvar(_)).
'$lgt_iso_spec_pred'(atom(_)).
'$lgt_iso_spec_pred'(atomic(_)).
'$lgt_iso_spec_pred'(number(_)).
'$lgt_iso_spec_pred'(integer(_)).
'$lgt_iso_spec_pred'(float(_)).
'$lgt_iso_spec_pred'(compound(_)).
'$lgt_iso_spec_pred'((_ @=< _)).
'$lgt_iso_spec_pred'((_ @< _)).
'$lgt_iso_spec_pred'((_ @>= _)).
'$lgt_iso_spec_pred'((_ @> _)).
'$lgt_iso_spec_pred'((_ == _)).
'$lgt_iso_spec_pred'((_ \== _)).
'$lgt_iso_spec_pred'(functor(_, _, _)).
'$lgt_iso_spec_pred'(arg(_, _, _)).
'$lgt_iso_spec_pred'(_ =.. _).
'$lgt_iso_spec_pred'(copy_term(_, _)).
'$lgt_iso_spec_pred'(_ is _).
'$lgt_iso_spec_pred'((_ =< _)).
'$lgt_iso_spec_pred'((_ < _)).
'$lgt_iso_spec_pred'((_ >= _)).
'$lgt_iso_spec_pred'((_ > _)).
'$lgt_iso_spec_pred'((_ =:= _)).
'$lgt_iso_spec_pred'((_ =\= _)).
'$lgt_iso_spec_pred'(clause(_, _)).
'$lgt_iso_spec_pred'(current_predicate(_)).
'$lgt_iso_spec_pred'(asserta(_)).
'$lgt_iso_spec_pred'(assertz(_)).
'$lgt_iso_spec_pred'(retract(_)).
'$lgt_iso_spec_pred'(abolish(_)).
'$lgt_iso_spec_pred'(findall(_, _, _)).
'$lgt_iso_spec_pred'(bagof(_, _, _)).
'$lgt_iso_spec_pred'(setof(_, _, _)).
'$lgt_iso_spec_pred'(current_input(_)).
'$lgt_iso_spec_pred'(current_output(_)).
'$lgt_iso_spec_pred'(set_input(_)).
'$lgt_iso_spec_pred'(set_output(_)).
'$lgt_iso_spec_pred'(open(_, _, _, _)).
'$lgt_iso_spec_pred'(open(_, _, _)).
'$lgt_iso_spec_pred'(close(_, _)).
'$lgt_iso_spec_pred'(close(_)).
'$lgt_iso_spec_pred'(flush_output(_)).
'$lgt_iso_spec_pred'(flush_output).
'$lgt_iso_spec_pred'(stream_property(_, _)).
'$lgt_iso_spec_pred'(at_end_of_stream).
'$lgt_iso_spec_pred'(at_end_of_stream(_)).
'$lgt_iso_spec_pred'(set_stream_position(_, _)).
'$lgt_iso_spec_pred'(get_char(_, _)).
'$lgt_iso_spec_pred'(get_char(_)).
'$lgt_iso_spec_pred'(get_code(_, _)).
'$lgt_iso_spec_pred'(get_code(_)).
'$lgt_iso_spec_pred'(peek_char(_, _)).
'$lgt_iso_spec_pred'(peek_char(_)).
'$lgt_iso_spec_pred'(peek_code(_, _)).
'$lgt_iso_spec_pred'(peek_code(_)).
'$lgt_iso_spec_pred'(put_char(_, _)).
'$lgt_iso_spec_pred'(put_char(_)).
'$lgt_iso_spec_pred'(put_code(_, _)).
'$lgt_iso_spec_pred'(put_code(_)).
'$lgt_iso_spec_pred'(nl).
'$lgt_iso_spec_pred'(nl(_)).
'$lgt_iso_spec_pred'(get_byte(_, _)).
'$lgt_iso_spec_pred'(get_byte(_)).
'$lgt_iso_spec_pred'(peek_byte(_, _)).
'$lgt_iso_spec_pred'(peek_byte(_)).
'$lgt_iso_spec_pred'(put_byte(_, _)).
'$lgt_iso_spec_pred'(put_byte(_)).
'$lgt_iso_spec_pred'(read_term(_, _, _)).
'$lgt_iso_spec_pred'(read_term(_, _)).
'$lgt_iso_spec_pred'(read(_)).
'$lgt_iso_spec_pred'(read(_, _)).
'$lgt_iso_spec_pred'(write_term(_, _, _)).
'$lgt_iso_spec_pred'(write_term(_, _)).
'$lgt_iso_spec_pred'(write(_)).
'$lgt_iso_spec_pred'(write(_, _)).
'$lgt_iso_spec_pred'(writeq(_)).
'$lgt_iso_spec_pred'(writeq(_, _)).
'$lgt_iso_spec_pred'(write_canonical(_)).
'$lgt_iso_spec_pred'(write_canonical(_, _)).
'$lgt_iso_spec_pred'(op(_, _, _)).
'$lgt_iso_spec_pred'(current_op(_, _, _)).
'$lgt_iso_spec_pred'(char_conversion(_, _)).
'$lgt_iso_spec_pred'(current_char_conversion(_, _)).
'$lgt_iso_spec_pred'(\+ _).
'$lgt_iso_spec_pred'(once(_)).
'$lgt_iso_spec_pred'(repeat).
'$lgt_iso_spec_pred'(atom_length(_, _)).
'$lgt_iso_spec_pred'(atom_concat(_, _, _)).
'$lgt_iso_spec_pred'(sub_atom(_, _, _, _, _)).
'$lgt_iso_spec_pred'(atom_chars(_, _)).
'$lgt_iso_spec_pred'(atom_codes(_, _)).
'$lgt_iso_spec_pred'(char_code(_, _)).
'$lgt_iso_spec_pred'(number_chars(_, _)).
'$lgt_iso_spec_pred'(number_codes(_, _)).
'$lgt_iso_spec_pred'(set_prolog_flag(_, _)).
'$lgt_iso_spec_pred'(current_prolog_flag(_, _)).
'$lgt_iso_spec_pred'(halt).
'$lgt_iso_spec_pred'(halt(_)).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% Experimental multi-threading support
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% '$lgt_init_object_message_queue'(+atom)
%
% creates a message queue for an object given its prefix
'$lgt_init_object_message_queue'(ObjPrefix) :-
catch(message_queue_create(ObjPrefix), _, true).
% '$lgt_start_runtime_dispatcher'
%
% starts up the dispatcher thread
'$lgt_start_runtime_dispatcher' :-
thread_create('$lgt_mt_obj_dispatcher', _, [alias(logtalk_dispatcher), detached(false)]).
% '$lgt_mt_obj_dispatcher'
%
% multi-threading message dispatcher processing loop
'$lgt_mt_obj_dispatcher' :-
repeat,
thread_get_message('$lgt_goal'(Queue, Goal, This, Self, Option)),
( Option == competing -> % goal is one of a set of competing goals performing the same task
thread_create('$lgt_mt_competing_goal'(Goal, This, Self, Queue), _, [detached(true)])
; Option == ignore -> % don't bother reporting goal success, failure, or exception
thread_create(catch(Goal, _, true), _, [detached(true)])
; Option == once -> % make thread goal deterministic
thread_create('$lgt_mt_det_goal'(Goal, This, Self, Queue), _, [detached(true)])
; thread_create('$lgt_mt_non_det_goal'(Goal, This, Self, Queue), _, [detached(false)])
),
fail.
% '$lgt_mt_competing_goal'(+callable, +object_identifier, +object_identifier, +atom)
%
% processes a deterministic message received by an object's message queue;
% competing goals may be killed before completion
'$lgt_mt_competing_goal'(Goal, This, Self, Return) :-
thread_self(CompetingId),
thread_send_message(Return, '$lgt_thread_id'(competing, Goal, This, Self, CompetingId)),
% signal that the thread running the goal is ready:
thread_send_message(Return, '$lgt_ready'(Goal, This, Self, competing)),
( catch(Goal, _, fail) ->
thread_send_message(Return, '$lgt_reply'(Goal, This, Self, success))
; true
).
% '$lgt_mt_det_goal'(+callable, +object_identifier, +object_identifier, +atom)
%
% processes a deterministic message received by an object's message queue
'$lgt_mt_det_goal'(Goal, This, Self, Return) :-
thread_self(DetId),
thread_send_message(Return, '$lgt_thread_id'(deterministic, Goal, This, Self, DetId)),
% signal that the thread running the goal is ready:
thread_send_message(Return, '$lgt_ready'(Goal, This, Self, once)),
( catch(Goal, Error, (thread_send_message(Return, '$lgt_reply'(Goal, This, Self, Error)), Flag = error)),
( var(Flag) ->
thread_send_message(Return, '$lgt_reply'(Goal, This, Self, success))
; true
)
; thread_send_message(Return, '$lgt_reply'(Goal, This, Self, failure))
),
thread_exit(true).
% '$lgt_mt_non_det_goal'(+callable, +object_identifier, +object_identifier, +atom)
%
% processes a non-deterministic message received by an object's message queue
'$lgt_mt_non_det_goal'(Goal, This, Self, Return) :-
thread_self(NonDetId),
thread_send_message(Return, '$lgt_thread_id'(non_deterministic, Goal, This, Self, NonDetId)),
% signal that the thread running the goal is ready:
thread_send_message(Return, '$lgt_ready'(Goal, This, Self, [])),
( catch(Goal, Error, (thread_send_message(Return, '$lgt_reply'(Goal, This, Self, Error)), Flag = error)),
var(Flag),
thread_send_message(Return, '$lgt_reply'(Goal, This, Self, success)),
thread_get_message(Message),
( Message == '$lgt_next' ->
fail % backtrack to the catch(Goal, ...) to try to find an alternative solution
; thread_exit(true) % otherwise assume Message = '$lgt_exit' and terminate thread
)
; nonvar(Flag),
!,
true
; thread_send_message(Return, '$lgt_reply'(Goal, This, Self, failure))
).
% '$lgt_mt_send_goal'(@callable, +object_identifier, +object_identifier, +object_identifier, +list)
%
% sends a goal to the dispatcher thread (this predicate is called from within categories)
'$lgt_mt_send_goal'(Goal, Sender, This, Self, Option) :-
'$lgt_current_object_'(This, Queue, _, _, _, _, _, _) ->
'$lgt_mt_send_goal'(Queue, Goal, Sender, This, Self, Option).
% '$lgt_mt_send_goal'(+atom, @callable, +object_identifier, +object_identifier, +object_identifier, +list)
%
% sends a goal to the dispatcher thread
'$lgt_mt_send_goal'(Queue, Goal, Sender, This, Self, Option) :-
( current_thread(logtalk_dispatcher, running) ->
% ask the Logtalk dispatcher to create a new thread for proving the goal:
thread_send_message(logtalk_dispatcher, '$lgt_goal'(Queue, Goal, This, Self, Option)),
( Option == ignore ->
true
; % wait until the thread created for proving the goal is ready before proceeding:
thread_get_message(Queue, '$lgt_ready'(Goal, This, Self, Option))
)
; % something went terrible wrong with the dispatcher thread:
throw(error(existence_error(logtalk_dispatcher, This), Goal, Sender))
).
% '$lgt_mt_peek_reply'(+callable, +object_identifier, +object_identifier, +object_identifier)
%
% peeks a reply to a goal sent to the senders object message queue (this predicate is called from within categories)
'$lgt_mt_peek_reply'(Goal, Sender, This, Self) :-
'$lgt_current_object_'(This, Queue, _, _, _, _, _, _) ->
'$lgt_mt_peek_reply'(Queue, Goal, Sender, This, Self).
% '$lgt_mt_peek_reply'(+atom, +callable, +object_identifier, +object_identifier, +object_identifier)
%
% peeks a reply to a goal sent to the senders object message queue
'$lgt_mt_peek_reply'(Queue, Goal, _, This, Self) :-
thread_peek_message(Queue, '$lgt_reply'(Goal, This, Self, _)).
% '$lgt_mt_get_reply'(+callable, +object_identifier, +object_identifier, +object_identifier)
%
% gets a reply to a goal sent to the senders object message queue (this predicate is called from within categories)
'$lgt_mt_get_reply'(Goal, Sender, This, Self) :-
'$lgt_current_object_'(This, Queue, _, _, _, _, _, _) ->
'$lgt_mt_get_reply'(Queue, Goal, Sender, This, Self).
% '$lgt_mt_get_reply'(+atom, +callable, +object_identifier, +object_identifier, +object_identifier)
%
% gets a reply to a goal sent to the senders object message queue
'$lgt_mt_get_reply'(Queue, Goal, Sender, This, Self) :-
( % first check if there is a thread running for proving the goal before proceeding:
thread_peek_message(Queue, '$lgt_thread_id'(Type, Goal, This, Self, Id)) ->
% answering thread exists; go ahead and retrieve the solution(s):
thread_get_message(Queue, '$lgt_thread_id'(Type, Goal, This, Self, Id)),
call_cleanup(
'$lgt_mt_get_reply_aux'(Type, Queue, Goal, This, Self, Id),
( Type == non_deterministic ->
( current_thread(Id, running) -> % if the thread is still running, it's suspended waiting
catch(thread_send_message(Id, '$lgt_exit'), _, true) % for a request to an alternative proof; tell it to exit
; true
),
thread_join(Id, _)
; true
)
)
; % answering thread does not exists; generate an exception (failing is not an option as it could simply mean goal failure)
throw(error(existence_error(goal_thread, Goal), Sender))
).
'$lgt_mt_get_reply_aux'(deterministic, Queue, Goal, This, Self, _) :-
'$lgt_mt_det_reply'(Queue, Goal, This, Self).
'$lgt_mt_get_reply_aux'(non_deterministic, Queue, Goal, This, Self, Id) :-
'$lgt_mt_non_det_reply'(Queue, Goal, This, Self, Id).
'$lgt_mt_get_reply_aux'(competing, Queue, Goal, This, Self, _) :-
'$lgt_mt_competing_reply'(Queue, Goal, This, Self).
% return the solution found after killing all the competing threads and removing any other matching replies:
'$lgt_mt_competing_reply'(Queue, Goal, This, Self) :-
copy_term((Goal, This, Self), (RGoal, RThis, RSelf)),
thread_get_message(Queue, '$lgt_reply'(Goal, This, Self, Result)),
'$lgt_mt_kill_competing_threads'(Queue, RGoal, RThis, RSelf),
'$lgt_mt_discard_matching_replies'(Queue, RGoal, RThis, RSelf),
( Result == success ->
true
; Result == failure ->
fail
; throw(Result)
).
% return the solution found:
'$lgt_mt_det_reply'(Queue, Goal, This, Self) :-
thread_get_message(Queue, '$lgt_reply'(Goal, This, Self, Result)),
( Result == success ->
true
; Result == failure ->
fail
; throw(Result)
).
% return current solution; on backtracking, ask working thread for and get from it the next solution:
'$lgt_mt_non_det_reply'(Queue, Goal, This, Self, _) :-
thread_get_message(Queue, '$lgt_reply'(Goal, This, Self, Result)),
( Result == success ->
true
; Result == failure ->
!,
fail
; throw(Result)
).
'$lgt_mt_non_det_reply'(Queue, Goal, This, Self, Id) :-
catch(thread_send_message(Id, '$lgt_next'), _, fail),
'$lgt_mt_non_det_reply'(Queue, Goal, This, Self, Id).
% discard any matching replies that might be waiting on the thread's queue:
'$lgt_mt_discard_matching_replies'(Queue, Goal, This, Self) :-
\+ \+ (
thread_peek_message(Queue, '$lgt_reply'(Goal, This, Self, _)),
thread_get_message(Queue, '$lgt_reply'(Goal, This, Self, _))),
!,
'$lgt_mt_discard_matching_replies'(Queue, Goal, This, Self).
'$lgt_mt_discard_matching_replies'(_, _, _, _).
% try to kill any threads that might still be running competing goals:
% (this may or may not work as a thread can be in state where signals are not
% processed; in the worst case scenario, a thread will run until completion)
'$lgt_mt_kill_competing_threads'(Queue, Goal, This, Self) :-
\+ \+ (
thread_peek_message(Queue, '$lgt_competing_id'(Goal, This, Self, Id)),
thread_get_message(Queue, '$lgt_competing_id'(Goal, This, Self, Id)),
catch(thread_signal(Id, thread_exit(true)), _, true)
),
!,
'$lgt_mt_kill_competing_threads'(Queue, Goal, This, Self).
'$lgt_mt_kill_competing_threads'(_, _, _, _).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% static binding supporting predicates
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
'$lgt_add_static_binding_cache_entry'(Entity) :-
retractall('$lgt_static_binding_entity_'(Entity)),
assertz('$lgt_static_binding_entity_'(Entity)).
'$lgt_obj_static_binding_cache'(Obj, Pred, Sender, Call) :-
( '$lgt_obj_static_binding_cache_'(Obj, Pred, Sender, Call) ->
true
; '$lgt_static_binding_entity_'(Obj),
'$lgt_current_object_'(Obj, _, Dcl, Def, _, _, _, _),
call_with_args(Dcl, Pred, p(p(p)), static, _, _, _, _, DclCtn), !,
functor(Obj, ObjFunctor, ObjArity),
functor(GObj, ObjFunctor, ObjArity),
functor(Pred, PredFunctor, PredArity),
functor(GPred, PredFunctor, PredArity),
call_with_args(Def, GPred, Sender, GObj, GObj, GCall, DefCtn), !,
'$lgt_safe_static_binding_paths'(GObj, DclCtn, DefCtn),
assertz('$lgt_obj_static_binding_cache_'(GObj, GPred, Sender, GCall)),
(Obj, Pred, Call) = (GObj, GPred, GCall)
).
'$lgt_ctg_static_binding_cache'(Ctg, Pred, Sender, This, Self, Call) :-
( '$lgt_ctg_static_binding_cache_'(Ctg, Pred, Sender, This, Self, Call) ->
true
; '$lgt_static_binding_entity_'(Ctg),
'$lgt_current_category_'(Ctg, Prefix, _, _),
Clause =.. [Prefix, Dcl, Def, _],
call(Clause),
call_with_args(Dcl, Pred, _, static, _, _, _, DclCtn), !,
functor(Pred, PredFunctor, PredArity),
functor(GPred, PredFunctor, PredArity),
call_with_args(Def, GPred, Sender, This, Self, GCall, DefCtn), !,
'$lgt_safe_static_binding_paths'(Ctg, DclCtn, DefCtn),
assertz('$lgt_ctg_static_binding_cache_'(Ctg, GPred, Sender, This, Self, GCall)),
(Pred, Call) = (GPred, GCall)
).
'$lgt_safe_static_binding_paths'(_, _, _).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% Logtalk startup messages (banner and default flags)
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
'$lgt_startup_message' :-
'$lgt_default_flag'(startup_message, Flag),
'$lgt_startup_message'(Flag).
'$lgt_startup_message'(flags(Option)) :-
'$lgt_banner',
'$lgt_default_flags'(Option).
'$lgt_startup_message'(banner) :-
'$lgt_banner'.
'$lgt_startup_message'(none).
'$lgt_banner' :-
current_logtalk_flag(version, version(Major, Minor, Patch)),
nl, write('Logtalk '), write(Major), write('.'), write(Minor), write('.'), write(Patch), nl,
write('Copyright (c) 1998-2007 Paulo Moura'), nl, nl.
'$lgt_default_flags'(compact) :-
write('Default lint compilation flags: '), nl,
'$lgt_default_flag'(unknown, Unknown), write(' unknown: '), write(Unknown),
'$lgt_default_flag'(misspelt, Misspelt), write(', misspelt: '), write(Misspelt),
'$lgt_default_flag'(lgtredef, Lgtredef), write(', lgtredef: '), write(Lgtredef),
'$lgt_default_flag'(plredef, Plredef), write(', plredef: '), write(Plredef), nl,
'$lgt_default_flag'(portability, Portability), write(' portability: '), write(Portability),
'$lgt_default_flag'(singletons, Singletons), write(', singletons: '), write(Singletons),
'$lgt_default_flag'(underscore_vars, Underscore), write(', underscore_vars: '), write(Underscore), nl,
write('Default documenting compilation flags:'), nl,
'$lgt_default_flag'(xmldocs, XMLDocs), write(' xmldocs: '), write(XMLDocs),
'$lgt_default_flag'(xmldir, XMLDir), write(', xmldir: '), write(XMLDir),
'$lgt_default_flag'(xmlspec, XMLSpec), write(', xmlspec: '), write(XMLSpec),
'$lgt_default_flag'(xmlsref, XMLSRef), write(', xmlsref: '), write(XMLSRef),
'$lgt_default_flag'(xslfile, XSLFile), write(', xslfile: '), write(XSLFile), nl,
write('Other default compilation flags:'), nl,
'$lgt_default_flag'(report, Report), write(' report: '), write(Report),
'$lgt_default_flag'(code_prefix, Code), write(', code_prefix: '), writeq(Code),
'$lgt_default_flag'(debug, Debug), write(', debug: '), writeq(Debug),
'$lgt_default_flag'(smart_compilation, Smart), write(', smart_compilation: '), write(Smart),
'$lgt_default_flag'(reload, Reload), write(', reload: '), write(Reload), nl,
'$lgt_default_flag'(events, Events), write(' events: '), write(Events),
( '$lgt_default_flag'(hook, Hook) -> true
; Hook = '(none defined)'
),
write(', hook: '), write(Hook),
'$lgt_default_flag'(tmpdir, TmpDir), write(', tmpdir: '), write(TmpDir), nl,
write('Read-only compilation flags:'),
'$lgt_default_flag'(supports_break_predicate, Break), write(' supports_break_predicate: '), write(Break),
'$lgt_default_flag'(startup_message, Startup), write(', startup_message: '), write(Startup), nl,
'$lgt_default_flag'(altdirs, Altdirs), write(' altdirs: '), write(Altdirs),
'$lgt_default_flag'(supports_encoding_dir, Encodings), write(', supports_encoding_dir: '), write(Encodings),
'$lgt_default_flag'(threads, Threads), write(', threads: '), write(Threads), nl, nl.
'$lgt_default_flags'(verbose) :-
write('Default lint compilation flags:'), nl,
'$lgt_default_flag'(unknown, Unknown),
write(' Unknown entities (unknown): '), write(Unknown), nl,
'$lgt_default_flag'(misspelt, Misspelt),
write(' Misspelt predicate calls (misspelt): '), write(Misspelt), nl,
'$lgt_default_flag'(lgtredef, Lgtredef),
write(' Logtalk built-in predicates redefinition (lgtredef): '), write(Lgtredef), nl,
'$lgt_default_flag'(plredef, Plredef),
write(' Prolog built-in predicates redefinition (plredef): '), write(Plredef), nl,
'$lgt_default_flag'(portability, Portability),
write(' Non portable calls (portability): '), write(Portability), nl,
'$lgt_default_flag'(singletons, Singletons),
write(' Singletons variables (singletons): '), write(Singletons), nl,
'$lgt_default_flag'(underscore_vars, Underscore),
write(' Underscore variables interpretation (underscore_vars): '), write(Underscore), nl,
write('Default documenting compilation flags:'), nl,
'$lgt_default_flag'(xmldocs, XMLDocs),
write(' XML documenting files (xmldocs): '), write(XMLDocs), nl,
'$lgt_default_flag'(xmldir, XMLDir),
write(' XML documenting files directory (xmldir): '), write(XMLDir), nl,
'$lgt_default_flag'(xmlspec, XMLSpec),
write(' XML specification file (xmlspec): '), write(XMLSpec), nl,
'$lgt_default_flag'(xmlsref, XMLSRef),
write(' XML specification reference (xmlsref): '), write(XMLSRef), nl,
'$lgt_default_flag'(xslfile, XSLFile),
write(' XSL stylesheet file (xslfile): '), write(XSLFile), nl,
write('Other default compilation flags:'), nl,
'$lgt_default_flag'(report, Report),
write(' Compilation report (report): '), write(Report), nl,
'$lgt_default_flag'(code_prefix, Code),
write(' Compiled code functors prefix (code_prefix): '), writeq(Code), nl,
'$lgt_default_flag'(debug, Debug),
write(' Compile entities in debug mode (debug): '), writeq(Debug), nl,
'$lgt_default_flag'(reload, Reload),
write(' Reloading of already loaded source files (reload): '), write(Reload), nl,
'$lgt_default_flag'(smart_compilation, Smart),
write(' Smart compilation (smart_compilation): '), write(Smart), nl,
'$lgt_default_flag'(events, Events),
write(' Event-driven programming support (events): '), write(Events), nl,
( '$lgt_default_flag'(hook, Hook) -> true
; Hook = '(none defined)'
),
write(' Compiler hook object and hook predicate functor: '), write(Hook), nl,
'$lgt_default_flag'(tmpdir, TmpDir),
write(' Directory for temporary compiler generated files (tmpdir): '), write(TmpDir), nl,
write('Read-only compilation flags:'), nl,
'$lgt_default_flag'(supports_break_predicate, Break),
write(' Support for break/0 predicate (supports_break_predicate): '), write(Break), nl,
'$lgt_default_flag'(startup_message, Startup),
write(' Startup message (startup_message): '), write(Startup), nl,
'$lgt_default_flag'(altdirs, Altdirs),
write(' Alternative compilation directories (altdirs): '), write(Altdirs), nl,
'$lgt_default_flag'(supports_encoding_dir, Encodings),
write(' Support for encoding directive (supports_encoding_dir): '), write(Encodings), nl,
'$lgt_default_flag'(threads, Threads),
write(' Multi-threading programming support (threads): '), write(Threads), nl, nl.
% '$lgt_assert_default_hook_goal'
%
% asserts the compiler hook goal specified on the config file
'$lgt_assert_default_hook_goal' :-
( '$lgt_default_flag'(hook, Hook) ->
'$lgt_compile_hook'(Hook)
; true
).
% '$lgt_start_runtime_threading'
%
% cretes the default "user" runtime thread when running on
% Prolog compilers supporting multi-threading programming
'$lgt_start_runtime_threading' :-
( '$lgt_default_flag'(threads, on) ->
'$lgt_current_object_'(user, Prefix, _, _, _, _, _, _),
'$lgt_init_object_message_queue'(Prefix),
'$lgt_start_runtime_dispatcher'
; true
).
:- initialization(('$lgt_startup_message', '$lgt_assert_default_hook_goal', '$lgt_start_runtime_threading')).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%
% end!
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%