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    1/*  Part of SWI-Prolog
    2
    3    Author:        Jan Wielemaker
    4    E-mail:        J.Wielemaker@vu.nl
    5    WWW:           http://www.swi-prolog.org
    6    Copyright (c)  2012-2023, VU University Amsterdam
    7                              CWI, Amsterdam
    8                              SWI-Prolog Solutions b.v.
    9    All rights reserved.
   10
   11    Redistribution and use in source and binary forms, with or without
   12    modification, are permitted provided that the following conditions
   13    are met:
   14
   15    1. Redistributions of source code must retain the above copyright
   16       notice, this list of conditions and the following disclaimer.
   17
   18    2. Redistributions in binary form must reproduce the above copyright
   19       notice, this list of conditions and the following disclaimer in
   20       the documentation and/or other materials provided with the
   21       distribution.
   22
   23    THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
   24    "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
   25    LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
   26    FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
   27    COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
   28    INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
   29    BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
   30    LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
   31    CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
   32    LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
   33    ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
   34    POSSIBILITY OF SUCH DAMAGE.
   35*/
   36
   37:- module(prolog_codewalk,
   38          [ prolog_walk_code/1,         % +Options
   39            prolog_program_clause/2     % -ClauseRef, +Options
   40          ]).   41:- use_module(library(record),[(record)/1, op(_,_,record)]).   42:- use_module(library(debug),[debug/3,debugging/1,assertion/1]).   43
   44:- autoload(library(apply),[maplist/2]).   45:- autoload(library(error),[must_be/2]).   46:- autoload(library(listing),[portray_clause/1]).   47:- autoload(library(lists),[member/2,nth1/3,append/3]).   48:- autoload(library(option),[meta_options/3]).   49:- autoload(library(prolog_clause),
   50	    [clause_info/4,initialization_layout/4,clause_name/2]).   51:- autoload(library(prolog_metainference),
   52	    [inferred_meta_predicate/2,infer_meta_predicate/2]).

Prolog code walker

This module walks over the loaded program, searching for callable predicates. It started as part of library(prolog_autoload) and has been turned into a separate module to facilitate operations that require the same reachability analysis, such as finding references to a predicate, finding unreachable code, etc.

For example, the following determins the call graph of the loaded program. By using source(true), The exact location of the call in the source file is passed into _Where.

:- dynamic
        calls/2.

assert_call_graph :-
        retractall(calls(_, _)),
        prolog_walk_code([ trace_reference(_),
                           on_trace(assert_edge),
                           source(false)
                         ]),
        predicate_property(calls(_,_), number_of_clauses(N)),
        format('Got ~D edges~n', [N]).

assert_edge(Callee, Caller, _Where) :-
        calls(Caller, Callee), !.
assert_edge(Callee, Caller, _Where) :-
        assertz(calls(Caller, Callee)).

*/

   87:- meta_predicate
   88    prolog_walk_code(:).   89
   90:- multifile
   91    prolog:called_by/4,
   92    prolog:called_by/2.   93
   94:- predicate_options(prolog_walk_code/1, 1,
   95                     [ undefined(oneof([ignore,error,trace])),
   96                       autoload(boolean),
   97                       clauses(list),
   98                       module(atom),
   99                       module_class(list(oneof([user,system,library,
  100                                                test,development]))),
  101                       source(boolean),
  102                       trace_reference(any),
  103                       trace_condition(callable),
  104                       on_trace(callable),
  105                       on_edge(callable),
  106                       infer_meta_predicates(oneof([false,true,all])),
  107                       walk_meta_predicates(boolean),
  108                       evaluate(boolean),
  109                       verbose(boolean)
  110                     ]).  111
  112:- record
  113    walk_option(undefined:oneof([ignore,error,trace])=ignore,
  114                autoload:boolean=true,
  115                source:boolean=true,
  116                module:atom,                % Only analyse given module
  117                module_class:list(oneof([user,system,library,
  118                                         test,development]))=[user,library],
  119                infer_meta_predicates:oneof([false,true,all])=true,
  120                walk_meta_predicates:boolean=true,
  121                clauses:list,               % Walk only these clauses
  122                trace_reference:any=(-),
  123                trace_condition:callable,   % Call-back condition
  124                on_edge:callable,           % Call-back on trace hits
  125                on_trace:callable,          % Call-back on trace hits
  126                                            % private stuff
  127                clause,                     % Processed clause
  128                caller,                     % Head of the caller
  129                initialization,             % Initialization source
  130                undecided,                  % Error to throw error
  131                evaluate:boolean,           % Do partial evaluation
  132                verbose:boolean=false).     % Report progress
  133
  134:- thread_local
  135    multifile_predicate/3.          % Name, Arity, Module
 prolog_walk_code(+Options) is det
Walk over all loaded (user) Prolog code. The following code is processed:
  1. The bodies of all clauses in all user and library modules. This steps collects, but does not scan multifile predicates to avoid duplicate work.
  2. All multi-file predicates collected.
  3. All goals registered with initialization/1

Options processed:

undefined(+Action)
Action defines what happens if the analysis finds a definitely undefined predicate. One of ignore or error (default is ignore).
autoload(+Boolean)
Try to autoload code while walking. This is enabled by default to obtain as much as possible information about goals and find references from autoloaded libraries.
clauses(+ListOfClauseReferences)
Only process the given clauses. Can be used to find clauses quickly using source(false) and then process only interesting clauses with source information.
module(+Module)
Only process the given module
module_class(+ModuleClassList)
Limit processing to modules of the given classes. See module_property/2 for details on module classes. Default is to scan the classes user and library.
infer_meta_predicates(+BooleanOrAll)
Use infer_meta_predicate/2 on predicates with clauses that call known meta-predicates. The analysis is restarted until a fixed point is reached. If true (default), analysis is only restarted if the inferred meta-predicate contains a callable argument. If all, it will be restarted until no more new meta-predicates can be found.
walk_meta_predicates(Boolean)
When false (default true), do not analyse the arguments of meta predicates. Standard Prolog control structures are always analysed.
trace_reference(Callable)
Print all calls to goals that subsume Callable. Goals are represented as Module:Callable (i.e., they are always qualified). See also subsumes_term/2.
trace_condition(:Cond)
Additional filter condition applied after trace_reference. Called as call(Cond, Callee, Context), where Context is a dict containing the following keys:
caller:Context
Qualified term representing the caller or the atom '<initialization>'.
module:Context
Module being processed
clause:Context
If we are processing a normal clause, the clause reference to this clause.
initialization:Context
If we are processing an initialization/1 directive, a term File:Line representing the location of the declaration.
on_edge(:OnEdge)
If a reference to trace_reference is found, call call(OnEdge, Callee, Caller, Location), where Location is a dict containing a subset of the keys clause, file, character_count, line_count and line_position. If full position information is available all keys are present. If the clause layout is unknown the only the clause, file and line_count are available and the line is the start line of the clause. For a dynamic clause, only the clause is present. If the position is associated to a directive, the clause is missing. If nothing is known the Location is an empty dict.
on_trace(:OnTrace)
As on_edge, but location is not translated and is one of these:
  • clause_term_position(+ClauseRef, +TermPos)
  • clause(+ClauseRef)
  • file_term_position(+Path, +TermPos)
  • file(+File, +Line, -1, _)
  • a variable (unknown)

Caller is the qualified head of the calling clause or the atom '<initialization>'.

source(+Boolean)
If false (default true), to not try to obtain detailed source information for printed messages.
verbose(+Boolean)
If true (default false), report derived meta-predicates and iterations.

@compat OnTrace was called using Caller-Location in older versions.

  245prolog_walk_code(Options) :-
  246    meta_options(is_meta, Options, QOptions),
  247    prolog_walk_code(1, QOptions).
  248
  249prolog_walk_code(Iteration, Options) :-
  250    statistics(cputime, CPU0),
  251    make_walk_option(Options, OTerm, _),
  252    (   walk_option_clauses(OTerm, Clauses),
  253        nonvar(Clauses)
  254    ->  walk_clauses(Clauses, OTerm)
  255    ;   forall(( walk_option_module(OTerm, M0),
  256                 copy_term(M0, M),
  257                 current_module(M),
  258                 scan_module(M, OTerm)
  259               ),
  260               find_walk_from_module(M, OTerm)),
  261        walk_from_multifile(OTerm),
  262        walk_from_initialization(OTerm)
  263    ),
  264    infer_new_meta_predicates(New, OTerm),
  265    statistics(cputime, CPU1),
  266    (   New \== []
  267    ->  CPU is CPU1-CPU0,
  268        (   walk_option_verbose(OTerm, true)
  269        ->  Level = informational
  270        ;   Level = silent
  271        ),
  272        print_message(Level,
  273                      codewalk(reiterate(New, Iteration, CPU))),
  274        succ(Iteration, Iteration2),
  275        prolog_walk_code(Iteration2, Options)
  276    ;   true
  277    ).
  278
  279is_meta(on_edge).
  280is_meta(on_trace).
  281is_meta(trace_condition).
 walk_clauses(+Clauses, +OTerm) is det
Walk the given clauses.
  287walk_clauses(Clauses, OTerm) :-
  288    must_be(list, Clauses),
  289    forall(member(ClauseRef, Clauses),
  290           ( user:clause(CHead, Body, ClauseRef),
  291             (   CHead = Module:Head
  292             ->  true
  293             ;   Module = user,
  294                 Head = CHead
  295             ),
  296             walk_option_clause(OTerm, ClauseRef),
  297             walk_option_caller(OTerm, Module:Head),
  298             walk_called_by_body(Body, Module, OTerm)
  299           )).
 scan_module(+Module, +OTerm) is semidet
True if we must scan Module according to OTerm.
  305scan_module(M, OTerm) :-
  306    walk_option_module(OTerm, M1),
  307    nonvar(M1),
  308    !,
  309    \+ M \= M1.
  310scan_module(M, OTerm) :-
  311    walk_option_module_class(OTerm, Classes),
  312    module_property(M, class(Class)),
  313    memberchk(Class, Classes),
  314    !.
 walk_from_initialization(+OTerm)
Find initialization/1,2 directives and process what they are calling. Skip
bug
- Relies on private '$init_goal'/3 database.
  323walk_from_initialization(OTerm) :-
  324    walk_option_caller(OTerm, '<initialization>'),
  325    forall(init_goal_in_scope(Goal, SourceLocation, OTerm),
  326           ( walk_option_initialization(OTerm, SourceLocation),
  327             walk_from_initialization(Goal, OTerm))).
  328
  329init_goal_in_scope(Goal, SourceLocation, OTerm) :-
  330    '$init_goal'(_When, Goal, SourceLocation),
  331    SourceLocation = File:_Line,
  332    (   walk_option_module(OTerm, M),
  333        nonvar(M)
  334    ->  module_property(M, file(File))
  335    ;   walk_option_module_class(OTerm, Classes),
  336        source_file_property(File, module(MF))
  337    ->  module_property(MF, class(Class)),
  338        memberchk(Class, Classes),
  339        walk_option_module(OTerm, MF)
  340    ;   true
  341    ).
  342
  343walk_from_initialization(M:Goal, OTerm) :-
  344    scan_module(M, OTerm),
  345    !,
  346    walk_called_by_body(Goal, M, OTerm).
  347walk_from_initialization(_, _).
 find_walk_from_module(+Module, +OTerm) is det
Find undefined calls from the bodies of all clauses that belong to Module.
  355find_walk_from_module(M, OTerm) :-
  356    debug(autoload, 'Analysing module ~q', [M]),
  357    walk_option_module(OTerm, M),
  358    forall(predicate_in_module(M, PI),
  359           walk_called_by_pred(M:PI, OTerm)).
  360
  361walk_called_by_pred(Module:Name/Arity, _) :-
  362    multifile_predicate(Name, Arity, Module),
  363    !.
  364walk_called_by_pred(Module:Name/Arity, _) :-
  365    functor(Head, Name, Arity),
  366    predicate_property(Module:Head, multifile),
  367    !,
  368    assertz(multifile_predicate(Name, Arity, Module)).
  369walk_called_by_pred(Module:Name/Arity, OTerm) :-
  370    functor(Head, Name, Arity),
  371    (   no_walk_property(Property),
  372        predicate_property(Module:Head, Property)
  373    ->  true
  374    ;   walk_option_caller(OTerm, Module:Head),
  375        walk_option_clause(OTerm, ClauseRef),
  376        forall(catch(clause(Module:Head, Body, ClauseRef), _, fail),
  377               walk_called_by_body(Body, Module, OTerm))
  378    ).
  379
  380no_walk_property(number_of_rules(0)).   % no point walking only facts
  381no_walk_property(foreign).              % cannot walk foreign code
 walk_from_multifile(+OTerm)
Process registered multifile predicates.
  387walk_from_multifile(OTerm) :-
  388    forall(retract(multifile_predicate(Name, Arity, Module)),
  389           walk_called_by_multifile(Module:Name/Arity, OTerm)).
  390
  391walk_called_by_multifile(Module:Name/Arity, OTerm) :-
  392    functor(Head, Name, Arity),
  393    forall(catch(clause_not_from_development(
  394                     Module:Head, Body, ClauseRef, OTerm),
  395                 _, fail),
  396           ( walk_option_clause(OTerm, ClauseRef),
  397             walk_option_caller(OTerm, Module:Head),
  398             walk_called_by_body(Body, Module, OTerm)
  399           )).
 clause_not_from_development(:Head, -Body, ?Ref, +Options) is nondet
Enumerate clauses for a multifile predicate, but omit those from a module that is specifically meant to support development.
  407clause_not_from_development(Module:Head, Body, Ref, OTerm) :-
  408    clause(Module:Head, Body, Ref),
  409    \+ ( clause_property(Ref, file(File)),
  410         module_property(LoadModule, file(File)),
  411         \+ scan_module(LoadModule, OTerm)
  412       ).
 walk_called_by_body(+Body, +Module, +OTerm) is det
Check the Body term when executed in the context of Module. Options:
undefined(+Action)
One of ignore, error
  422walk_called_by_body(True, _, _) :-
  423    True == true,
  424    !.                % quickly deal with facts
  425walk_called_by_body(Body, Module, OTerm) :-
  426    set_undecided_of_walk_option(error, OTerm, OTerm1),
  427    set_evaluate_of_walk_option(false, OTerm1, OTerm2),
  428    catch(walk_called(Body, Module, _TermPos, OTerm2),
  429          missing(Missing),
  430          walk_called_by_body(Missing, Body, Module, OTerm)),
  431    !.
  432walk_called_by_body(Body, Module, OTerm) :-
  433    format(user_error, 'Failed to analyse:~n', []),
  434    portray_clause(('<head>' :- Body)),
  435    debug_walk(Body, Module, OTerm).
  436
  437% recompile this library after `debug(codewalk(trace))` and re-try
  438% for debugging failures.
  439:- if(debugging(codewalk(trace))).  440debug_walk(Body, Module, OTerm) :-
  441    gtrace,
  442    walk_called_by_body(Body, Module, OTerm).
  443:- else.  444debug_walk(_,_,_).
  445:- endif.
 walk_called_by_body(+Missing, +Body, +Module, +OTerm)
Restart the analysis because the previous analysis provided insufficient information.
  452walk_called_by_body(Missing, Body, _, OTerm) :-
  453    debugging(codewalk),
  454    format(user_error, 'Retrying due to ~w (~p)~n', [Missing, OTerm]),
  455    portray_clause(('<head>' :- Body)), fail.
  456walk_called_by_body(undecided_call, Body, Module, OTerm) :-
  457    catch(forall(walk_called(Body, Module, _TermPos, OTerm),
  458                 true),
  459          missing(Missing),
  460          walk_called_by_body(Missing, Body, Module, OTerm)).
  461walk_called_by_body(subterm_positions, Body, Module, OTerm) :-
  462    (   (   walk_option_clause(OTerm, ClauseRef), nonvar(ClauseRef),
  463            clause_info(ClauseRef, _, TermPos, _NameOffset),
  464            TermPos = term_position(_,_,_,_,[_,BodyPos])
  465        ->  WBody = Body
  466        ;   walk_option_initialization(OTerm, SrcLoc),
  467            ground(SrcLoc), SrcLoc = _File:_Line,
  468            initialization_layout(SrcLoc, Module:Body, WBody, BodyPos)
  469        )
  470    ->  catch(forall(walk_called(WBody, Module, BodyPos, OTerm),
  471                     true),
  472              missing(subterm_positions),
  473              walk_called_by_body(no_positions, Body, Module, OTerm))
  474    ;   set_source_of_walk_option(false, OTerm, OTerm2),
  475        forall(walk_called(Body, Module, _BodyPos, OTerm2),
  476               true)
  477    ).
  478walk_called_by_body(no_positions, Body, Module, OTerm) :-
  479    set_source_of_walk_option(false, OTerm, OTerm2),
  480    forall(walk_called(Body, Module, _NoPos, OTerm2),
  481           true).
 walk_called(+Goal, +Module, +TermPos, +OTerm) is multi
Perform abstract interpretation of Goal, touching all sub-goals that are directly called or immediately reachable through meta-calls. The actual auto-loading is performed by the predicate_property/2 call for meta-predicates.

If Goal is disjunctive, walk_called succeeds with a choice-point. Backtracking analyses the alternative control path(s).

Options:

undecided(+Action)
How to deal with insifficiently instantiated terms in the call-tree. Values are:
ignore
Silently ignore such goals
error
Throw undecided_call
evaluate(+Boolean)
If true (default), evaluate some goals. Notably =/2.
To be done
- Analyse e.g. assert((Head:-Body))?
  511walk_called(Term, Module, parentheses_term_position(_,_,Pos), OTerm) :-
  512    nonvar(Pos),
  513    !,
  514    walk_called(Term, Module, Pos, OTerm).
  515walk_called(Var, _, TermPos, OTerm) :-
  516    var(Var),                              % Incomplete analysis
  517    !,
  518    undecided(Var, TermPos, OTerm).
  519walk_called(M:G, _, term_position(_,_,_,_,[MPos,Pos]), OTerm) :-
  520    !,
  521    (   nonvar(M)
  522    ->  walk_called(G, M, Pos, OTerm)
  523    ;   undecided(M, MPos, OTerm)
  524    ).
  525walk_called((A,B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  526    !,
  527    walk_called(A, M, PA, OTerm),
  528    walk_called(B, M, PB, OTerm).
  529walk_called((A->B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  530    !,
  531    walk_called(A, M, PA, OTerm),
  532    walk_called(B, M, PB, OTerm).
  533walk_called((A*->B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  534    !,
  535    walk_called(A, M, PA, OTerm),
  536    walk_called(B, M, PB, OTerm).
  537walk_called(\+(A), M, term_position(_,_,_,_,[PA]), OTerm) :-
  538    !,
  539    \+ \+ walk_called(A, M, PA, OTerm).
  540walk_called((A;B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  541    !,
  542    (   walk_option_evaluate(OTerm, Eval), Eval == true
  543    ->  Goal = (A;B),
  544        setof(Goal,
  545              (   walk_called(A, M, PA, OTerm)
  546              ;   walk_called(B, M, PB, OTerm)
  547              ),
  548              Alts0),
  549        variants(Alts0, Alts),
  550        member(Goal, Alts)
  551    ;   \+ \+ walk_called(A, M, PA, OTerm), % do not propagate bindings
  552        \+ \+ walk_called(B, M, PB, OTerm)
  553    ).
  554walk_called(Goal, Module, TermPos, OTerm) :-
  555    walk_option_trace_reference(OTerm, To), To \== (-),
  556    (   subsumes_term(To, Module:Goal)
  557    ->  M2 = Module
  558    ;   predicate_property(Module:Goal, imported_from(M2)),
  559        subsumes_term(To, M2:Goal)
  560    ),
  561    trace_condition(M2:Goal, TermPos, OTerm),
  562    print_reference(M2:Goal, TermPos, trace, OTerm),
  563    fail.                                   % Continue search
  564walk_called(Goal, Module, _, OTerm) :-
  565    evaluate(Goal, Module, OTerm),
  566    !.
  567walk_called(Goal, M, TermPos, OTerm) :-
  568    (   (   predicate_property(M:Goal, imported_from(IM))
  569        ->  true
  570        ;   IM = M
  571        ),
  572        prolog:called_by(Goal, IM, M, Called)
  573    ;   prolog:called_by(Goal, Called)
  574    ),
  575    Called \== [],
  576    !,
  577    walk_called_by(Called, M, Goal, TermPos, OTerm).
  578walk_called(Meta, M, term_position(_,E,_,_,ArgPosList), OTerm) :-
  579    walk_option_walk_meta_predicates(OTerm, true),
  580    (   walk_option_autoload(OTerm, false)
  581    ->  nonvar(M),
  582        '$get_predicate_attribute'(M:Meta, defined, 1)
  583    ;   true
  584    ),
  585    (   predicate_property(M:Meta, meta_predicate(Head))
  586    ;   inferred_meta_predicate(M:Meta, Head)
  587    ),
  588    !,
  589    walk_option_clause(OTerm, ClauseRef),
  590    register_possible_meta_clause(ClauseRef),
  591    walk_meta_call(1, Head, Meta, M, ArgPosList, E-E, OTerm).
  592walk_called(Closure, _, _, _) :-
  593    blob(Closure, closure),
  594    !,
  595    '$closure_predicate'(Closure, Module:Name/Arity),
  596    functor(Head, Name, Arity),
  597    '$get_predicate_attribute'(Module:Head, defined, 1).
  598walk_called(ClosureCall, _, _, _) :-
  599    compound(ClosureCall),
  600    compound_name_arity(ClosureCall, Closure, _),
  601    blob(Closure, closure),
  602    !,
  603    '$closure_predicate'(Closure, Module:Name/Arity),
  604    functor(Head, Name, Arity),
  605    '$get_predicate_attribute'(Module:Head, defined, 1).
  606walk_called(Goal, Module, _, _) :-
  607    nonvar(Module),
  608    '$get_predicate_attribute'(Module:Goal, defined, 1),
  609    !.
  610walk_called(Goal, Module, TermPos, OTerm) :-
  611    callable(Goal),
  612    !,
  613    undefined(Module:Goal, TermPos, OTerm).
  614walk_called(Goal, _Module, TermPos, OTerm) :-
  615    not_callable(Goal, TermPos, OTerm).
 trace_condition(:Callee, +TermPos, +OTerm) is semidet
Call call(Condition, Callee, Dict)
  621trace_condition(Callee, TermPos, OTerm) :-
  622    walk_option_trace_condition(OTerm, Cond), nonvar(Cond),
  623    !,
  624    cond_location_context(OTerm, TermPos, Context0),
  625    walk_option_caller(OTerm, Caller),
  626    walk_option_module(OTerm, Module),
  627    put_dict(#{caller:Caller, module:Module}, Context0, Context),
  628    call(Cond, Callee, Context).
  629trace_condition(_, _, _).
  630
  631cond_location_context(OTerm, _TermPos, Context) :-
  632    walk_option_clause(OTerm, Clause), nonvar(Clause),
  633    !,
  634    Context = #{clause:Clause}.
  635cond_location_context(OTerm, _TermPos, Context) :-
  636    walk_option_initialization(OTerm, Init), nonvar(Init),
  637    !,
  638    Context = #{initialization:Init}.
 undecided(+Variable, +TermPos, +OTerm)
  642undecided(Var, TermPos, OTerm) :-
  643    walk_option_undecided(OTerm, Undecided),
  644    (   var(Undecided)
  645    ->  Action = ignore
  646    ;   Action = Undecided
  647    ),
  648    undecided(Action, Var, TermPos, OTerm).
  649
  650undecided(ignore, _, _, _) :- !.
  651undecided(error,  _, _, _) :-
  652    throw(missing(undecided_call)).
 evaluate(Goal, Module, OTerm) is nondet
  656evaluate(Goal, Module, OTerm) :-
  657    walk_option_evaluate(OTerm, Evaluate),
  658    Evaluate \== false,
  659    evaluate(Goal, Module).
  660
  661evaluate(A=B, _) :-
  662    unify_with_occurs_check(A, B).
 undefined(:Goal, +TermPos, +OTerm)
The analysis trapped a definitely undefined predicate.
  668undefined(_, _, OTerm) :-
  669    walk_option_undefined(OTerm, ignore),
  670    !.
  671undefined(Goal, _, _) :-
  672    predicate_property(Goal, autoload(_)),
  673    !.
  674undefined(Goal, TermPos, OTerm) :-
  675    (   walk_option_undefined(OTerm, trace)
  676    ->  Why = trace
  677    ;   Why = undefined
  678    ),
  679    print_reference(Goal, TermPos, Why, OTerm).
 not_callable(+Goal, +TermPos, +OTerm)
We found a reference to a non-callable term
  685not_callable(Goal, TermPos, OTerm) :-
  686    print_reference(Goal, TermPos, not_callable, OTerm).
 print_reference(+Goal, +TermPos, +Why, +OTerm)
Print a reference to Goal, found at TermPos.
Arguments:
Why- is one of trace or undefined
  695print_reference(Goal, TermPos, Why, OTerm) :-
  696    walk_option_clause(OTerm, Clause), nonvar(Clause),
  697    !,
  698    (   compound(TermPos),
  699        arg(1, TermPos, CharCount),
  700        integer(CharCount)          % test it is valid
  701    ->  From = clause_term_position(Clause, TermPos)
  702    ;   walk_option_source(OTerm, false)
  703    ->  From = clause(Clause)
  704    ;   From = _,
  705        throw(missing(subterm_positions))
  706    ),
  707    print_reference2(Goal, From, Why, OTerm).
  708print_reference(Goal, TermPos, Why, OTerm) :-
  709    walk_option_initialization(OTerm, Init), nonvar(Init),
  710    Init = File:Line,
  711    !,
  712    (   compound(TermPos),
  713        arg(1, TermPos, CharCount),
  714        integer(CharCount)          % test it is valid
  715    ->  From = file_term_position(File, TermPos)
  716    ;   walk_option_source(OTerm, false)
  717    ->  From = file(File, Line, -1, _)
  718    ;   From = _,
  719        throw(missing(subterm_positions))
  720    ),
  721    print_reference2(Goal, From, Why, OTerm).
  722print_reference(Goal, _, Why, OTerm) :-
  723    print_reference2(Goal, _, Why, OTerm).
  724
  725print_reference2(Goal, From, trace, OTerm) :-
  726    walk_option_on_trace(OTerm, Closure),
  727    nonvar(Closure),
  728    walk_option_caller(OTerm, Caller),
  729    call(Closure, Goal, Caller, From),
  730    !.
  731print_reference2(Goal, From, trace, OTerm) :-
  732    walk_option_on_edge(OTerm, Closure),
  733    nonvar(Closure),
  734    walk_option_caller(OTerm, Caller),
  735    translate_location(From, Dict),
  736    call(Closure, Goal, Caller, Dict),
  737    !.
  738print_reference2(Goal, From, Why, _OTerm) :-
  739    make_message(Why, Goal, From, Message, Level),
  740    print_message(Level, Message).
  741
  742
  743make_message(undefined, Goal, Context,
  744             error(existence_error(procedure, PI), Context), error) :-
  745    goal_pi(Goal, PI).
  746make_message(not_callable, Goal, Context,
  747             error(type_error(callable, Goal), Context), error).
  748make_message(trace, Goal, Context,
  749             trace_call_to(PI, Context), informational) :-
  750    goal_pi(Goal, PI).
  751
  752
  753goal_pi(Goal, M:Name/Arity) :-
  754    strip_module(Goal, M, Head),
  755    callable(Head),
  756    !,
  757    functor(Head, Name, Arity).
  758goal_pi(Goal, Goal).
  759
  760:- dynamic
  761    possible_meta_predicate/2.
 register_possible_meta_clause(+ClauseRef) is det
ClausesRef contains as call to a meta-predicate. Remember to analyse this predicate. We only analyse the predicate if it is loaded from a user module. I.e., system and library modules are trusted.
  770register_possible_meta_clause(ClausesRef) :-
  771    nonvar(ClausesRef),
  772    clause_property(ClausesRef, predicate(PI)),
  773    pi_head(PI, Head, Module),
  774    module_property(Module, class(user)),
  775    \+ predicate_property(Module:Head, meta_predicate(_)),
  776    \+ inferred_meta_predicate(Module:Head, _),
  777    \+ possible_meta_predicate(Head, Module),
  778    !,
  779    assertz(possible_meta_predicate(Head, Module)).
  780register_possible_meta_clause(_).
  781
  782pi_head(Module:Name/Arity, Head, Module)  :-
  783    !,
  784    functor(Head, Name, Arity).
  785pi_head(_, _, _) :-
  786    assertion(fail).
 infer_new_meta_predicates(-MetaSpecs, +OTerm) is det
  790infer_new_meta_predicates([], OTerm) :-
  791    walk_option_infer_meta_predicates(OTerm, false),
  792    !.
  793infer_new_meta_predicates(MetaSpecs, OTerm) :-
  794    findall(Module:MetaSpec,
  795            ( retract(possible_meta_predicate(Head, Module)),
  796              infer_meta_predicate(Module:Head, MetaSpec),
  797              (   walk_option_infer_meta_predicates(OTerm, all)
  798              ->  true
  799              ;   calling_metaspec(MetaSpec)
  800              )
  801            ),
  802            MetaSpecs).
 calling_metaspec(+Head) is semidet
True if this is a meta-specification that makes a difference to the code walker.
  809calling_metaspec(Head) :-
  810    arg(_, Head, Arg),
  811    calling_metaarg(Arg),
  812    !.
  813
  814calling_metaarg(I) :- integer(I), !.
  815calling_metaarg(^).
  816calling_metaarg(//).
 walk_meta_call(+Index, +GoalHead, +MetaHead, +Module, +ArgPosList, +EndPos, +OTerm)
Walk a call to a meta-predicate. This walks all meta-arguments labeled with an integer, ^ or //.
Arguments:
EndPos- reflects the end of the term. This is used if the number of arguments in the compiled form exceeds the number of arguments in the term read.
  829walk_meta_call(I, Head, Meta, M, ArgPosList, EPos, OTerm) :-
  830    arg(I, Head, AS),
  831    !,
  832    (   ArgPosList = [ArgPos|ArgPosTail]
  833    ->  true
  834    ;   ArgPos = EPos,
  835        ArgPosTail = []
  836    ),
  837    (   integer(AS)
  838    ->  arg(I, Meta, MA),
  839        extend(MA, AS, Goal, ArgPos, ArgPosEx, OTerm),
  840        walk_called(Goal, M, ArgPosEx, OTerm)
  841    ;   AS == (^)
  842    ->  arg(I, Meta, MA),
  843        remove_quantifier(MA, Goal, ArgPos, ArgPosEx, M, MG, OTerm),
  844        walk_called(Goal, MG, ArgPosEx, OTerm)
  845    ;   AS == (//)
  846    ->  arg(I, Meta, DCG),
  847        walk_dcg_body(DCG, M, ArgPos, OTerm)
  848    ;   true
  849    ),
  850    succ(I, I2),
  851    walk_meta_call(I2, Head, Meta, M, ArgPosTail, EPos, OTerm).
  852walk_meta_call(_, _, _, _, _, _, _).
  853
  854remove_quantifier(Goal, _, TermPos, TermPos, M, M, OTerm) :-
  855    var(Goal),
  856    !,
  857    undecided(Goal, TermPos, OTerm).
  858remove_quantifier(_^Goal0, Goal,
  859                  term_position(_,_,_,_,[_,GPos]),
  860                  TermPos, M0, M, OTerm) :-
  861    !,
  862    remove_quantifier(Goal0, Goal, GPos, TermPos, M0, M, OTerm).
  863remove_quantifier(M1:Goal0, Goal,
  864                  term_position(_,_,_,_,[_,GPos]),
  865                  TermPos, _, M, OTerm) :-
  866    !,
  867    remove_quantifier(Goal0, Goal, GPos, TermPos, M1, M, OTerm).
  868remove_quantifier(Goal, Goal, TermPos, TermPos, M, M, _).
 walk_called_by(+Called:list, +Module, +Goal, +TermPos, +OTerm)
Walk code explicitly mentioned to be called through the hook prolog:called_by/2.
  876walk_called_by([], _, _, _, _).
  877walk_called_by([H|T], M, Goal, TermPos, OTerm) :-
  878    (   H = G0+N
  879    ->  subterm_pos(G0, M, Goal, TermPos, G, GPos),
  880        (   extend(G, N, G2, GPos, GPosEx, OTerm)
  881        ->  walk_called(G2, M, GPosEx, OTerm)
  882        ;   true
  883        )
  884    ;   subterm_pos(H, M, Goal, TermPos, G, GPos),
  885        walk_called(G, M, GPos, OTerm)
  886    ),
  887    walk_called_by(T, M, Goal, TermPos, OTerm).
  888
  889subterm_pos(Sub, _, Term, TermPos, Sub, SubTermPos) :-
  890    subterm_pos(Sub, Term, TermPos, SubTermPos),
  891    !.
  892subterm_pos(Sub, M, Term, TermPos, G, SubTermPos) :-
  893    nonvar(Sub),
  894    Sub = M:H,
  895    !,
  896    subterm_pos(H, M, Term, TermPos, G, SubTermPos).
  897subterm_pos(Sub, _, _, _, Sub, _).
  898
  899subterm_pos(Sub, Term, TermPos, SubTermPos) :-
  900    subterm_pos(Sub, Term, same_term, TermPos, SubTermPos),
  901    !.
  902subterm_pos(Sub, Term, TermPos, SubTermPos) :-
  903    subterm_pos(Sub, Term, ==, TermPos, SubTermPos),
  904    !.
  905subterm_pos(Sub, Term, TermPos, SubTermPos) :-
  906    subterm_pos(Sub, Term, =@=, TermPos, SubTermPos),
  907    !.
  908subterm_pos(Sub, Term, TermPos, SubTermPos) :-
  909    subterm_pos(Sub, Term, subsumes_term, TermPos, SubTermPos),
  910    !.
 walk_dcg_body(+Body, +Module, +TermPos, +OTerm)
Walk a DCG body that is meta-called.
  916walk_dcg_body(Var, _Module, TermPos, OTerm) :-
  917    var(Var),
  918    !,
  919    undecided(Var, TermPos, OTerm).
  920walk_dcg_body([], _Module, _, _) :- !.
  921walk_dcg_body([_|_], _Module, _, _) :- !.
  922walk_dcg_body(String, _Module, _, _) :-
  923    string(String),
  924    !.
  925walk_dcg_body(!, _Module, _, _) :- !.
  926walk_dcg_body(M:G, _, term_position(_,_,_,_,[MPos,Pos]), OTerm) :-
  927    !,
  928    (   nonvar(M)
  929    ->  walk_dcg_body(G, M, Pos, OTerm)
  930    ;   undecided(M, MPos, OTerm)
  931    ).
  932walk_dcg_body((A,B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  933    !,
  934    walk_dcg_body(A, M, PA, OTerm),
  935    walk_dcg_body(B, M, PB, OTerm).
  936walk_dcg_body((A->B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  937    !,
  938    walk_dcg_body(A, M, PA, OTerm),
  939    walk_dcg_body(B, M, PB, OTerm).
  940walk_dcg_body((A*->B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  941    !,
  942    walk_dcg_body(A, M, PA, OTerm),
  943    walk_dcg_body(B, M, PB, OTerm).
  944walk_dcg_body((A;B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  945    !,
  946    (   walk_dcg_body(A, M, PA, OTerm)
  947    ;   walk_dcg_body(B, M, PB, OTerm)
  948    ).
  949walk_dcg_body((A|B), M, term_position(_,_,_,_,[PA,PB]), OTerm) :-
  950    !,
  951    (   walk_dcg_body(A, M, PA, OTerm)
  952    ;   walk_dcg_body(B, M, PB, OTerm)
  953    ).
  954walk_dcg_body({G}, M, brace_term_position(_,_,PG), OTerm) :-
  955    !,
  956    walk_called(G, M, PG, OTerm).
  957walk_dcg_body(G, M, TermPos, OTerm) :-
  958    extend(G, 2, G2, TermPos, TermPosEx, OTerm),
  959    walk_called(G2, M, TermPosEx, OTerm).
 subterm_pos(+SubTerm, +Term, :Cmp, +TermPosition, -SubTermPos) is nondet
True when SubTerm is a sub term of Term, compared using Cmp, TermPosition describes the term layout of Term and SubTermPos describes the term layout of SubTerm. Cmp is typically one of same_term, ==, =@= or subsumes_term
  970:- meta_predicate
  971    subterm_pos(+, +, 2, +, -),
  972    sublist_pos(+, +, +, +, 2, -).  973:- public
  974    subterm_pos/5.                      % used in library(check).
  975
  976subterm_pos(_, _, _, Pos, _) :-
  977    var(Pos), !, fail.
  978subterm_pos(Sub, Term, Cmp, Pos, Pos) :-
  979    call(Cmp, Sub, Term),
  980    !.
  981subterm_pos(Sub, Term, Cmp, term_position(_,_,_,_,ArgPosList), Pos) :-
  982    is_list(ArgPosList),
  983    compound(Term),
  984    nth1(I, ArgPosList, ArgPos),
  985    arg(I, Term, Arg),
  986    subterm_pos(Sub, Arg, Cmp, ArgPos, Pos).
  987subterm_pos(Sub, Term, Cmp, list_position(_,_,ElemPosList,TailPos), Pos) :-
  988    sublist_pos(ElemPosList, TailPos, Sub, Term, Cmp, Pos).
  989subterm_pos(Sub, {Arg}, Cmp, brace_term_position(_,_,ArgPos), Pos) :-
  990    subterm_pos(Sub, Arg, Cmp, ArgPos, Pos).
  991
  992sublist_pos([EP|TP], TailPos, Sub, [H|T], Cmp, Pos) :-
  993    (   subterm_pos(Sub, H, Cmp, EP, Pos)
  994    ;   sublist_pos(TP, TailPos, Sub, T, Cmp, Pos)
  995    ).
  996sublist_pos([], TailPos, Sub, Tail, Cmp, Pos) :-
  997    TailPos \== none,
  998    subterm_pos(Sub, Tail, Cmp, TailPos, Pos).
 extend(+Goal, +ExtraArgs, +TermPosIn, -TermPosOut, +OTerm)
bug
- :
 1004extend(Goal, 0, Goal, TermPos, TermPos, _) :- !.
 1005extend(Goal, _, _, TermPos, TermPos, OTerm) :-
 1006    var(Goal),
 1007    !,
 1008    undecided(Goal, TermPos, OTerm).
 1009extend(M:Goal, N, M:GoalEx,
 1010       term_position(F,T,FT,TT,[MPos,GPosIn]),
 1011       term_position(F,T,FT,TT,[MPos,GPosOut]), OTerm) :-
 1012    !,
 1013    (   var(M)
 1014    ->  undecided(N, MPos, OTerm)
 1015    ;   true
 1016    ),
 1017    extend(Goal, N, GoalEx, GPosIn, GPosOut, OTerm).
 1018extend(Goal, N, GoalEx, TermPosIn, TermPosOut, _) :-
 1019    callable(Goal),
 1020    !,
 1021    Goal =.. List,
 1022    length(Extra, N),
 1023    extend_term_pos(TermPosIn, N, TermPosOut),
 1024    append(List, Extra, ListEx),
 1025    GoalEx =.. ListEx.
 1026extend(Closure, N, M:GoalEx, TermPosIn, TermPosOut, OTerm) :-
 1027    blob(Closure, closure),             % call(Closure, A1, ...)
 1028    !,
 1029    '$closure_predicate'(Closure, M:Name/Arity),
 1030    length(Extra, N),
 1031    extend_term_pos(TermPosIn, N, TermPosOut),
 1032    GoalEx =.. [Name|Extra],
 1033    (   N =:= Arity
 1034    ->  true
 1035    ;   print_reference(Closure, TermPosIn, closure_arity_mismatch, OTerm)
 1036    ).
 1037extend(Goal, _, _, TermPos, _, OTerm) :-
 1038    print_reference(Goal, TermPos, not_callable, OTerm).
 1039
 1040extend_term_pos(Var, _, _) :-
 1041    var(Var),
 1042    !.
 1043extend_term_pos(term_position(F,T,FT,TT,ArgPosIn),
 1044                N,
 1045                term_position(F,T,FT,TT,ArgPosOut)) :-
 1046    !,
 1047    length(Extra, N),
 1048    maplist(=(0-0), Extra),
 1049    append(ArgPosIn, Extra, ArgPosOut).
 1050extend_term_pos(F-T, N, term_position(F,T,F,T,Extra)) :-
 1051    length(Extra, N),
 1052    maplist(=(0-0), Extra).
 variants(+SortedList, -Variants) is det
 1057variants([], []).
 1058variants([H|T], List) :-
 1059    variants(T, H, List).
 1060
 1061variants([], H, [H]).
 1062variants([H|T], V, List) :-
 1063    (   H =@= V
 1064    ->  variants(T, V, List)
 1065    ;   List = [V|List2],
 1066        variants(T, H, List2)
 1067    ).
 predicate_in_module(+Module, ?PI) is nondet
True if PI is a predicate locally defined in Module.
 1073predicate_in_module(Module, PI) :-
 1074    current_predicate(Module:PI),
 1075    PI = Name/Arity,
 1076    \+ hidden_predicate(Name, Arity),
 1077    functor(Head, Name, Arity),
 1078    \+ predicate_property(Module:Head, imported_from(_)).
 1079
 1080
 1081hidden_predicate(Name, _) :-
 1082    atom(Name),                         % []/N is not hidden
 1083    sub_atom(Name, 0, _, _, '$wrap$').
 1084
 1085
 1086                 /*******************************
 1087                 *      ENUMERATE CLAUSES       *
 1088                 *******************************/
 prolog_program_clause(-ClauseRef, +Options) is nondet
True when ClauseRef is a reference for clause in the program. Options is a subset of the options processed by prolog_walk_code/1. The logic for deciding on which clauses to enumerate is shared with prolog_walk_code/1.
 1100prolog_program_clause(ClauseRef, Options) :-
 1101    make_walk_option(Options, OTerm, _),
 1102    setup_call_cleanup(
 1103        true,
 1104        (   current_module(Module),
 1105            scan_module(Module, OTerm),
 1106            module_clause(Module, ClauseRef, OTerm)
 1107        ;   retract(multifile_predicate(Name, Arity, MM)),
 1108            multifile_clause(ClauseRef, MM:Name/Arity, OTerm)
 1109        ;   initialization_clause(ClauseRef, OTerm)
 1110        ),
 1111        retractall(multifile_predicate(_,_,_))).
 1112
 1113
 1114module_clause(Module, ClauseRef, _OTerm) :-
 1115    predicate_in_module(Module, Name/Arity),
 1116    \+ multifile_predicate(Name, Arity, Module),
 1117    functor(Head, Name, Arity),
 1118    (   predicate_property(Module:Head, multifile)
 1119    ->  assertz(multifile_predicate(Name, Arity, Module)),
 1120        fail
 1121    ;   predicate_property(Module:Head, Property),
 1122        no_enum_property(Property)
 1123    ->  fail
 1124    ;   catch(nth_clause(Module:Head, _, ClauseRef), _, fail)
 1125    ).
 1126
 1127no_enum_property(foreign).
 1128
 1129multifile_clause(ClauseRef, M:Name/Arity, OTerm) :-
 1130    functor(Head, Name, Arity),
 1131    catch(clauseref_not_from_development(M:Head, ClauseRef, OTerm),
 1132          _, fail).
 1133
 1134clauseref_not_from_development(Module:Head, Ref, OTerm) :-
 1135    nth_clause(Module:Head, _N, Ref),
 1136    \+ ( clause_property(Ref, file(File)),
 1137         module_property(LoadModule, file(File)),
 1138         \+ scan_module(LoadModule, OTerm)
 1139       ).
 1140
 1141initialization_clause(ClauseRef, OTerm) :-
 1142    catch(clause(system:'$init_goal'(_File, M:_Goal, SourceLocation),
 1143                 true, ClauseRef),
 1144          _, fail),
 1145    walk_option_initialization(OTerm, SourceLocation),
 1146    scan_module(M, OTerm).
 translate_location(+Loc, -Dict) is det
 1151translate_location(clause_term_position(ClauseRef, TermPos), Dict),
 1152    clause_property(ClauseRef, file(File)) =>
 1153    arg(1, TermPos, CharCount),
 1154    filepos_line(File, CharCount, Line, LinePos),
 1155    Dict = _{ clause: ClauseRef,
 1156              file: File,
 1157              character_count: CharCount,
 1158              line_count: Line,
 1159              line_position: LinePos
 1160            }.
 1161translate_location(clause(ClauseRef), Dict),
 1162    clause_property(ClauseRef, file(File)),
 1163    clause_property(ClauseRef, line_count(Line)) =>
 1164    Dict = _{ clause: ClauseRef,
 1165              file: File,
 1166              line_count: Line
 1167            }.
 1168translate_location(clause(ClauseRef), Dict) =>
 1169    Dict = _{ clause: ClauseRef
 1170            }.
 1171translate_location(file_term_position(Path, TermPos), Dict) =>
 1172    arg(1, TermPos, CharCount),
 1173    filepos_line(Path, CharCount, Line, LinePos),
 1174    Dict = _{ file: Path,
 1175              character_count: CharCount,
 1176              line_count: Line,
 1177              line_position: LinePos
 1178            }.
 1179translate_location(file(Path, Line, -1, _), Dict) =>
 1180    Dict = _{ file: Path,
 1181              line_count: Line
 1182            }.
 1183translate_location(Var, Dict), var(Var) =>
 1184    Dict = _{}.
 1185
 1186                 /*******************************
 1187                 *            MESSAGES          *
 1188                 *******************************/
 1189
 1190:- multifile
 1191    prolog:message//1,
 1192    prolog:message_location//1. 1193
 1194prolog:message(trace_call_to(PI, Context)) -->
 1195    [ 'Call to ~q at '-[PI] ],
 1196    '$messages':swi_location(Context).
 1197
 1198prolog:message_location(clause_term_position(ClauseRef, TermPos)) -->
 1199    { clause_property(ClauseRef, file(File)) },
 1200    message_location_file_term_position(File, TermPos).
 1201prolog:message_location(clause(ClauseRef)) -->
 1202    { clause_property(ClauseRef, file(File)),
 1203      clause_property(ClauseRef, line_count(Line))
 1204    },
 1205    !,
 1206    [ url(File:Line), ': ' ].
 1207prolog:message_location(clause(ClauseRef)) -->
 1208    { clause_name(ClauseRef, Name) },
 1209    [ '~w: '-[Name] ].
 1210prolog:message_location(file_term_position(Path, TermPos)) -->
 1211    message_location_file_term_position(Path, TermPos).
 1212prolog:message(codewalk(reiterate(New, Iteration, CPU))) -->
 1213    [ 'Found new meta-predicates in iteration ~w (~3f sec)'-
 1214      [Iteration, CPU], nl ],
 1215    meta_decls(New),
 1216    [ 'Restarting analysis ...'-[], nl ].
 1217
 1218meta_decls([]) --> [].
 1219meta_decls([H|T]) -->
 1220    [ ':- meta_predicate ~q.'-[H], nl ],
 1221    meta_decls(T).
 1222
 1223message_location_file_term_position(File, TermPos) -->
 1224    { arg(1, TermPos, CharCount),
 1225      filepos_line(File, CharCount, Line, LinePos)
 1226    },
 1227    [ url(File:Line:LinePos), ': ' ].
 filepos_line(+File, +CharPos, -Line, -Column) is det
Arguments:
CharPos- is 0-based character offset in the file.
Column- is the current column, counting tabs as 8 spaces.
 1234filepos_line(File, CharPos, Line, LinePos) :-
 1235    setup_call_cleanup(
 1236        ( open(File, read, In),
 1237          open_null_stream(Out)
 1238        ),
 1239        ( copy_stream_data(In, Out, CharPos),
 1240          stream_property(In, position(Pos)),
 1241          stream_position_data(line_count, Pos, Line),
 1242          stream_position_data(line_position, Pos, LinePos)
 1243        ),
 1244        ( close(Out),
 1245          close(In)
 1246        ))