381a3401ac
git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@2147 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
2509 lines
77 KiB
Prolog
2509 lines
77 KiB
Prolog
/* $Id: chr_translate_bootstrap.pl,v 1.7 2008-03-13 17:43:13 vsc Exp $
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Part of CHR (Constraint Handling Rules)
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Author: Tom Schrijvers
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E-mail: Tom.Schrijvers@cs.kuleuven.be
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WWW: http://www.swi-prolog.org
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Copyright (C): 2003-2004, K.U. Leuven
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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As a special exception, if you link this library with other files,
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compiled with a Free Software compiler, to produce an executable, this
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library does not by itself cause the resulting executable to be covered
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by the GNU General Public License. This exception does not however
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invalidate any other reasons why the executable file might be covered by
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the GNU General Public License.
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*/
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%
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%% ____ _ _ ____ ____ _ _
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%% / ___| | | | _ \ / ___|___ _ __ ___ _ __ (_) | ___ _ __
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%% | | | |_| | |_) | | | / _ \| '_ ` _ \| '_ \| | |/ _ \ '__|
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%% | |___| _ | _ < | |__| (_) | | | | | | |_) | | | __/ |
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%% \____|_| |_|_| \_\ \____\___/|_| |_| |_| .__/|_|_|\___|_|
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%% |_|
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%%
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%% hProlog CHR compiler:
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%%
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%% * by Tom Schrijvers, K.U. Leuven, Tom.Schrijvers@cs.kuleuven.be
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%%
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%% * based on the SICStus CHR compilation by Christian Holzbaur
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%%
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%% First working version: 6 June 2003
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%%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%% To Do
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%%
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%% * SICStus compatibility
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%% - rules/1 declaration
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%% - options
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%% - pragmas
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%% - tell guard
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%%
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%%
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%% * do not suspend on variables that don't matter
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%% * make difference between cheap guards for reordering
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%% and non-binding guards for lock removal
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%%
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%% * unqiue -> once/[] transformation for propagation
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%%
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%% * cheap guards interleaved with head retrieval + faster
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%% via-retrieval + non-empty checking for propagation rules
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%% redo for simpagation_head2 prelude
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%%
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%% * intelligent backtracking for simplification/simpagation rule
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%% generator_1(X),'_$savecp'(CP_1),
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%% ...
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%% if( (
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%% generator_n(Y),
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%% test(X,Y)
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%% ),
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%% true,
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%% ('_$cutto'(CP_1), fail)
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%% ),
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%% ...
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%%
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%% or recently developped cascading-supported approach
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%%
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%% * intelligent backtracking for propagation rule
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%% use additional boolean argument for each possible smart backtracking
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%% when boolean at end of list true -> no smart backtracking
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%% false -> smart backtracking
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%% only works for rules with at least 3 constraints in the head
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%%
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%% * mutually exclusive rules
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%%
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%% * constraints that can never be attached / always simplified away
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%% -> need not be considered in diverse operations
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%%
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%% * (set semantics + functional dependency) declaration + resolution
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%%
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%% * type and instantiation declarations + optimisations
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%% + better indexes
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%%
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%% * disable global store option
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%%
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%% Done
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%%
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%% * clean up generated code
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%% * input verification: pragmas
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%% * SICStus compatibility: handler/1, constraints/1
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%% * optimise variable passing for propagation rule
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%% * reordering of head constraints for passive head search
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%% * unique inference for simpagation rules
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%% * unique optimisation for simpagation and simplification rules
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%% * cheap guards interleaved with head retrieval + faster
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%% via-retrieval + non-empty checking for simplification / simpagation rules
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%% * transform
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%% C \ C <=> true
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%% into
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%% C # ID \ C <=> true pragma passive.
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%% * valid to disregard body in uniqueness inference?
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%% * unique inference for simplification rules
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%%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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:- module(chr_translate,
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[ chr_translate/2 % +Decls, -TranslatedDecls
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]).
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%% SWI begin
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:- use_module(library(lists),[member/2,append/3,append/2,permutation/2,reverse/2]).
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:- use_module(library(ordsets)).
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%% SWI end
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:- use_module(hprolog).
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:- use_module(pairlist).
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:- include(chr_op).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%
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%% Translation
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chr_translate(Declarations,NewDeclarations) :-
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init_chr_pp_flags,
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partition_clauses(Declarations,Decls,Rules,OtherClauses,Mod),
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default(Mod,user),
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( Decls == [] ->
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NewDeclarations = OtherClauses
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;
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check_rules(Rules,Decls),
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unique_analyse_optimise(Rules,1,[],NRules),
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generate_attach_a_constraint_all(Decls,Mod,AttachAConstraintClauses),
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generate_detach_a_constraint_all(Decls,Mod,DettachAConstraintClauses),
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generate_attach_increment(Decls,Mod,AttachIncrementClauses),
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generate_attr_unify_hook(Decls,Mod,AttrUnifyHookClauses),
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constraints_code(Decls,NRules,Mod,ConstraintClauses),
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append([ OtherClauses,
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AttachAConstraintClauses,
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DettachAConstraintClauses,
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AttachIncrementClauses,
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AttrUnifyHookClauses,
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ConstraintClauses
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],
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NewDeclarations)
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).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%
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%% Partitioning of clauses into constraint declarations, chr rules and other
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%% clauses
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partition_clauses([],[],[],[],_).
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partition_clauses([C|Cs],Ds,Rs,OCs,Mod) :-
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( rule(C,R) ->
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Ds = RDs,
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Rs = [R | RRs],
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OCs = ROCs
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; is_declaration(C,D) ->
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append(D,RDs,Ds),
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Rs = RRs,
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OCs = ROCs
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; is_module_declaration(C,Mod) ->
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Ds = RDs,
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Rs = RRs,
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OCs = [C|ROCs]
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; C = (handler _) ->
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format('CHR compiler WARNING: ~w.\n',[C]),
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format(' `--> SICStus compatibility: ignoring handler/1 declaration.\n',[]),
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Ds = RDs,
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Rs = RRs,
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OCs = ROCs
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; C = (rules _) ->
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format('CHR compiler WARNING: ~w.\n',[C]),
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format(' `--> SICStus compatibility: ignoring rules/1 declaration.\n',[]),
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Ds = RDs,
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Rs = RRs,
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OCs = ROCs
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; C = (:- chr_option(OptionName,OptionValue)) ->
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handle_option(OptionName,OptionValue),
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Ds = RDs,
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Rs = RRs,
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OCs = ROCs
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; Ds = RDs,
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Rs = RRs,
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OCs = [C|ROCs]
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),
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partition_clauses(Cs,RDs,RRs,ROCs,Mod).
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is_declaration(D, Constraints) :- %% constraint declaration
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D = (:- Decl),
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( Decl =.. [chr_constraint,Cs] ; Decl =.. [chr_constraint,Cs]),
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conj2list(Cs,Constraints).
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%% Data Declaration
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%%
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%% pragma_rule
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%% -> pragma(
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%% rule,
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%% ids,
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%% list(pragma),
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%% yesno(string)
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%% )
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%%
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%% ids -> ids(
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%% list(int),
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%% list(int)
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%% )
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%%
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%% rule -> rule(
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%% list(constraint), :: constraints to be removed
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%% list(constraint), :: surviving constraints
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%% goal, :: guard
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%% goal :: body
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%% )
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rule(RI,R) :- %% name @ rule
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RI = (Name @ RI2), !,
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rule(RI2,yes(Name),R).
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rule(RI,R) :-
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rule(RI,no,R).
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rule(RI,Name,R) :-
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RI = (RI2 pragma P), !, %% pragmas
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is_rule(RI2,R1,IDs),
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conj2list(P,Ps),
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R = pragma(R1,IDs,Ps,Name).
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rule(RI,Name,R) :-
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is_rule(RI,R1,IDs),
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R = pragma(R1,IDs,[],Name).
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is_rule(RI,R,IDs) :- %% propagation rule
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RI = (H ==> B), !,
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conj2list(H,Head2i),
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get_ids(Head2i,IDs2,Head2),
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IDs = ids([],IDs2),
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( B = (G | RB) ->
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R = rule([],Head2,G,RB)
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;
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R = rule([],Head2,true,B)
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).
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is_rule(RI,R,IDs) :- %% simplification/simpagation rule
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RI = (H <=> B), !,
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( B = (G | RB) ->
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Guard = G,
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Body = RB
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; Guard = true,
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Body = B
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),
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( H = (H1 \ H2) ->
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conj2list(H1,Head2i),
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conj2list(H2,Head1i),
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get_ids(Head2i,IDs2,Head2,0,N),
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get_ids(Head1i,IDs1,Head1,N,_),
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IDs = ids(IDs1,IDs2)
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; conj2list(H,Head1i),
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Head2 = [],
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get_ids(Head1i,IDs1,Head1),
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IDs = ids(IDs1,[])
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),
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R = rule(Head1,Head2,Guard,Body).
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get_ids(Cs,IDs,NCs) :-
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get_ids(Cs,IDs,NCs,0,_).
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get_ids([],[],[],N,N).
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get_ids([C|Cs],[N|IDs],[NC|NCs],N,NN) :-
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( C = (NC # N) ->
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true
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;
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NC = C
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),
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M is N + 1,
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get_ids(Cs,IDs,NCs, M,NN).
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is_module_declaration((:- module(Mod)),Mod).
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is_module_declaration((:- module(Mod,_)),Mod).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%% Some input verification:
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%% - all constraints in heads are declared constraints
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check_rules(Rules,Decls) :-
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check_rules(Rules,Decls,1).
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check_rules([],_,_).
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check_rules([PragmaRule|Rest],Decls,N) :-
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check_rule(PragmaRule,Decls,N),
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N1 is N + 1,
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check_rules(Rest,Decls,N1).
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check_rule(PragmaRule,Decls,N) :-
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PragmaRule = pragma(Rule,_IDs,Pragmas,_Name),
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Rule = rule(H1,H2,_,_),
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append(H1,H2,HeadConstraints),
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check_head_constraints(HeadConstraints,Decls,PragmaRule,N),
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check_pragmas(Pragmas,PragmaRule,N).
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check_head_constraints([],_,_,_).
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check_head_constraints([Constr|Rest],Decls,PragmaRule,N) :-
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functor(Constr,F,A),
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( member(F/A,Decls) ->
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check_head_constraints(Rest,Decls,PragmaRule,N)
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;
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format('CHR compiler ERROR: Undeclared constraint ~w in head of ~@.\n',
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[F/A,format_rule(PragmaRule,N)]),
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format(' `--> Constraint should be on of ~w.\n',[Decls]),
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fail
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).
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check_pragmas([],_,_).
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check_pragmas([Pragma|Pragmas],PragmaRule,N) :-
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check_pragma(Pragma,PragmaRule,N),
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check_pragmas(Pragmas,PragmaRule,N).
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check_pragma(Pragma,PragmaRule,N) :-
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var(Pragma), !,
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format('CHR compiler ERROR: invalid pragma ~w in ~@.\n',
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[Pragma,format_rule(PragmaRule,N)]),
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format(' `--> Pragma should not be a variable!\n',[]),
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fail.
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check_pragma(passive(ID), PragmaRule, N) :-
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!,
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PragmaRule = pragma(_,ids(IDs1,IDs2),_,_),
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( memberchk_eq(ID,IDs1) ->
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true
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; memberchk_eq(ID,IDs2) ->
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true
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;
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format('CHR compiler ERROR: invalid identifier ~w in pragma passive in ~@.\n',
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[ID,format_rule(PragmaRule,N)]),
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fail
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).
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check_pragma(Pragma, PragmaRule, N) :-
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Pragma = unique(_,_),
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!,
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format('CHR compiler WARNING: undocumented pragma ~w in ~@.\n',[Pragma,format_rule(PragmaRule,N)]),
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format(' `--> Only use this pragma if you know what you are doing.\n',[]).
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check_pragma(Pragma, PragmaRule, N) :-
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Pragma = already_in_heads,
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!,
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format('CHR compiler WARNING: currently unsupported pragma ~w in ~@.\n',[Pragma,format_rule(PragmaRule,N)]),
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format(' `--> Pragma is ignored. Termination and correctness may be affected \n',[]).
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check_pragma(Pragma, PragmaRule, N) :-
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Pragma = already_in_head(_),
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!,
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format('CHR compiler WARNING: currently unsupported pragma ~w in ~@.\n',[Pragma,format_rule(PragmaRule,N)]),
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format(' `--> Pragma is ignored. Termination and correctness may be affected \n',[]).
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check_pragma(Pragma,PragmaRule,N) :-
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format('CHR compiler ERROR: invalid pragma ~w in ~@.\n',[Pragma,format_rule(PragmaRule,N)]),
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format(' `--> Pragma should be one of passive/1!\n',[]),
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fail.
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format_rule(PragmaRule,N) :-
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PragmaRule = pragma(_,_,_,MaybeName),
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( MaybeName = yes(Name) ->
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write('rule '), write(Name)
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;
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write('rule number '), write(N)
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).
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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% Global Options
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%
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handle_option(Var,Value) :-
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var(Var), !,
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format('CHR compiler ERROR: ~w.\n',[option(Var,Value)]),
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format(' `--> First argument should be an atom, not a variable.\n',[]),
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fail.
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handle_option(Name,Value) :-
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var(Value), !,
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format('CHR compiler ERROR: ~w.\n',[option(Name,Value)]),
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format(' `--> Second argument should be a nonvariable.\n',[]),
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fail.
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handle_option(Name,Value) :-
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option_definition(Name,Value,Flags),
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!,
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set_chr_pp_flags(Flags).
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handle_option(Name,Value) :-
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\+ option_definition(Name,_,_), !,
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setof(N,_V ^ _F ^ (option_definition(N,_V,_F)),Ns),
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format('CHR compiler ERROR: ~w.\n',[option(Name,Value)]),
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format(' `--> Invalid option name ~w: should be one of ~w.\n',[Name,Ns]),
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fail.
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handle_option(Name,Value) :-
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findall(V,option_definition(Name,V,_),Vs),
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format('CHR compiler ERROR: ~w.\n',[option(Name,Value)]),
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format(' `--> Invalid value ~w: should be one of ~w.\n',[Value,Vs]),
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fail.
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option_definition(optimize,full,Flags) :-
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Flags = [ unique_analyse_optimise - on,
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check_unnecessary_active - full,
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reorder_heads - on,
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set_semantics_rule - on,
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guard_via_reschedule - on
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].
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option_definition(optimize,sicstus,Flags) :-
|
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Flags = [ unique_analyse_optimise - off,
|
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check_unnecessary_active - simplification,
|
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reorder_heads - off,
|
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set_semantics_rule - off,
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guard_via_reschedule - off
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].
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|
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option_definition(optimize,off,Flags) :-
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Flags = [ unique_analyse_optimise - off,
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check_unnecessary_active - off,
|
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reorder_heads - off,
|
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set_semantics_rule - off,
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guard_via_reschedule - off
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].
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option_definition(check_guard_bindings,on,Flags) :-
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Flags = [ guard_locks - on ].
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|
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option_definition(check_guard_bindings,off,Flags) :-
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Flags = [ guard_locks - off ].
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|
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init_chr_pp_flags :-
|
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chr_pp_flag_definition(Name,[DefaultValue|_]),
|
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set_chr_pp_flag(Name,DefaultValue),
|
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fail.
|
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init_chr_pp_flags.
|
|
|
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set_chr_pp_flags([]).
|
|
set_chr_pp_flags([Name-Value|Flags]) :-
|
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set_chr_pp_flag(Name,Value),
|
|
set_chr_pp_flags(Flags).
|
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|
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set_chr_pp_flag(Name,Value) :-
|
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atom_concat('$chr_pp_',Name,GlobalVar),
|
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nb_setval(GlobalVar,Value).
|
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|
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chr_pp_flag_definition(unique_analyse_optimise,[on,off]).
|
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chr_pp_flag_definition(check_unnecessary_active,[full,simplification,off]).
|
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chr_pp_flag_definition(reorder_heads,[on,off]).
|
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chr_pp_flag_definition(set_semantics_rule,[on,off]).
|
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chr_pp_flag_definition(guard_via_reschedule,[on,off]).
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chr_pp_flag_definition(guard_locks,[on,off]).
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|
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chr_pp_flag(Name,Value) :-
|
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atom_concat('$chr_pp_',Name,GlobalVar),
|
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nb_getval(GlobalVar,V),
|
|
( V == [] ->
|
|
chr_pp_flag_definition(Name,[Value|_])
|
|
;
|
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V = Value
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).
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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|
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%%
|
|
%% Generated predicates
|
|
%% attach_$CONSTRAINT
|
|
%% attach_increment
|
|
%% detach_$CONSTRAINT
|
|
%% attr_unify_hook
|
|
|
|
%% attach_$CONSTRAINT
|
|
generate_attach_a_constraint_all(Constraints,Mod,Clauses) :-
|
|
length(Constraints,Total),
|
|
generate_attach_a_constraint_all(Constraints,1,Total,Mod,Clauses).
|
|
|
|
generate_attach_a_constraint_all([],_,_,_,[]).
|
|
generate_attach_a_constraint_all([Constraint|Constraints],Position,Total,Mod,Clauses) :-
|
|
generate_attach_a_constraint(Total,Position,Constraint,Mod,Clauses1),
|
|
NextPosition is Position + 1,
|
|
generate_attach_a_constraint_all(Constraints,NextPosition,Total,Mod,Clauses2),
|
|
append(Clauses1,Clauses2,Clauses).
|
|
|
|
generate_attach_a_constraint(Total,Position,Constraint,Mod,[Clause1,Clause2]) :-
|
|
generate_attach_a_constraint_empty_list(Constraint,Clause1),
|
|
( Total == 1 ->
|
|
generate_attach_a_constraint_1_1(Constraint,Mod,Clause2)
|
|
;
|
|
generate_attach_a_constraint_t_p(Total,Position,Constraint,Mod,Clause2)
|
|
).
|
|
|
|
generate_attach_a_constraint_empty_list(CFct / CAty,Clause) :-
|
|
atom_concat_list(['attach_',CFct, (/) ,CAty],Fct),
|
|
Args = [[],_],
|
|
Head =.. [Fct | Args],
|
|
Clause = ( Head :- true).
|
|
|
|
generate_attach_a_constraint_1_1(CFct / CAty,Mod,Clause) :-
|
|
atom_concat_list(['attach_',CFct, (/) ,CAty],Fct),
|
|
Args = [[Var|Vars],Susp],
|
|
Head =.. [Fct | Args],
|
|
RecursiveCall =.. [Fct,Vars,Susp],
|
|
Body =
|
|
(
|
|
( get_attr(Var, Mod, Susps) ->
|
|
NewSusps=[Susp|Susps],
|
|
put_attr(Var, Mod, NewSusps)
|
|
;
|
|
put_attr(Var, Mod, [Susp])
|
|
),
|
|
RecursiveCall
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
generate_attach_a_constraint_t_p(Total,Position,CFct / CAty ,Mod,Clause) :-
|
|
atom_concat_list(['attach_',CFct, (/) ,CAty],Fct),
|
|
Args = [[Var|Vars],Susp],
|
|
Head =.. [Fct | Args],
|
|
RecursiveCall =.. [Fct,Vars,Susp],
|
|
or_pattern(Position,Pattern),
|
|
make_attr(Total,Mask,SuspsList,Attr),
|
|
nth1(Position,SuspsList,Susps),
|
|
substitute_eq(Susps,SuspsList,[Susp|Susps],SuspsList1),
|
|
make_attr(Total,Mask,SuspsList1,NewAttr1),
|
|
substitute_eq(Susps,SuspsList,[Susp],SuspsList2),
|
|
make_attr(Total,NewMask,SuspsList2,NewAttr2),
|
|
copy_term_nat(SuspsList,SuspsList3),
|
|
nth1(Position,SuspsList3,[Susp]),
|
|
chr_delete(SuspsList3,[Susp],RestSuspsList),
|
|
set_elems(RestSuspsList,[]),
|
|
make_attr(Total,Pattern,SuspsList3,NewAttr3),
|
|
Body =
|
|
(
|
|
( get_attr(Var,Mod,TAttr) ->
|
|
TAttr = Attr,
|
|
( Mask /\ Pattern =:= Pattern ->
|
|
put_attr(Var, Mod, NewAttr1)
|
|
;
|
|
NewMask is Mask \/ Pattern,
|
|
put_attr(Var, Mod, NewAttr2)
|
|
)
|
|
;
|
|
put_attr(Var,Mod,NewAttr3)
|
|
),
|
|
RecursiveCall
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
%% detach_$CONSTRAINT
|
|
generate_detach_a_constraint_all(Constraints,Mod,Clauses) :-
|
|
length(Constraints,Total),
|
|
generate_detach_a_constraint_all(Constraints,1,Total,Mod,Clauses).
|
|
|
|
generate_detach_a_constraint_all([],_,_,_,[]).
|
|
generate_detach_a_constraint_all([Constraint|Constraints],Position,Total,Mod,Clauses) :-
|
|
generate_detach_a_constraint(Total,Position,Constraint,Mod,Clauses1),
|
|
NextPosition is Position + 1,
|
|
generate_detach_a_constraint_all(Constraints,NextPosition,Total,Mod,Clauses2),
|
|
append(Clauses1,Clauses2,Clauses).
|
|
|
|
generate_detach_a_constraint(Total,Position,Constraint,Mod,[Clause1,Clause2]) :-
|
|
generate_detach_a_constraint_empty_list(Constraint,Clause1),
|
|
( Total == 1 ->
|
|
generate_detach_a_constraint_1_1(Constraint,Mod,Clause2)
|
|
;
|
|
generate_detach_a_constraint_t_p(Total,Position,Constraint,Mod,Clause2)
|
|
).
|
|
|
|
generate_detach_a_constraint_empty_list(CFct / CAty,Clause) :-
|
|
atom_concat_list(['detach_',CFct, (/) ,CAty],Fct),
|
|
Args = [[],_],
|
|
Head =.. [Fct | Args],
|
|
Clause = ( Head :- true).
|
|
|
|
generate_detach_a_constraint_1_1(CFct / CAty,Mod,Clause) :-
|
|
atom_concat_list(['detach_',CFct, (/) ,CAty],Fct),
|
|
Args = [[Var|Vars],Susp],
|
|
Head =.. [Fct | Args],
|
|
RecursiveCall =.. [Fct,Vars,Susp],
|
|
Body =
|
|
(
|
|
( get_attr(Var,Mod,Susps) ->
|
|
'chr sbag_del_element'(Susps,Susp,NewSusps),
|
|
( NewSusps == [] ->
|
|
del_attr(Var,Mod)
|
|
;
|
|
put_attr(Var,Mod,NewSusps)
|
|
)
|
|
;
|
|
true
|
|
),
|
|
RecursiveCall
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
generate_detach_a_constraint_t_p(Total,Position,CFct / CAty ,Mod,Clause) :-
|
|
atom_concat_list(['detach_',CFct, (/) ,CAty],Fct),
|
|
Args = [[Var|Vars],Susp],
|
|
Head =.. [Fct | Args],
|
|
RecursiveCall =.. [Fct,Vars,Susp],
|
|
or_pattern(Position,Pattern),
|
|
and_pattern(Position,DelPattern),
|
|
make_attr(Total,Mask,SuspsList,Attr),
|
|
nth1(Position,SuspsList,Susps),
|
|
substitute_eq(Susps,SuspsList,[],SuspsList1),
|
|
make_attr(Total,NewMask,SuspsList1,Attr1),
|
|
substitute_eq(Susps,SuspsList,NewSusps,SuspsList2),
|
|
make_attr(Total,Mask,SuspsList2,Attr2),
|
|
Body =
|
|
(
|
|
( get_attr(Var,Mod,TAttr) ->
|
|
TAttr = Attr,
|
|
( Mask /\ Pattern =:= Pattern ->
|
|
'chr sbag_del_element'(Susps,Susp,NewSusps),
|
|
( NewSusps == [] ->
|
|
NewMask is Mask /\ DelPattern,
|
|
( NewMask == 0 ->
|
|
del_attr(Var,Mod)
|
|
;
|
|
put_attr(Var,Mod,Attr1)
|
|
)
|
|
;
|
|
put_attr(Var,Mod,Attr2)
|
|
)
|
|
;
|
|
true
|
|
)
|
|
;
|
|
true
|
|
),
|
|
RecursiveCall
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
%% detach_$CONSTRAINT
|
|
generate_attach_increment(Constraints,Mod,[Clause1,Clause2]) :-
|
|
generate_attach_increment_empty(Clause1),
|
|
length(Constraints,N),
|
|
( N == 1 ->
|
|
generate_attach_increment_one(Mod,Clause2)
|
|
;
|
|
generate_attach_increment_many(N,Mod,Clause2)
|
|
).
|
|
|
|
generate_attach_increment_empty((attach_increment([],_) :- true)).
|
|
|
|
generate_attach_increment_one(Mod,Clause) :-
|
|
Head = attach_increment([Var|Vars],Susps),
|
|
Body =
|
|
(
|
|
'chr not_locked'(Var),
|
|
( get_attr(Var,Mod,VarSusps) ->
|
|
sort(VarSusps,SortedVarSusps),
|
|
merge(Susps,SortedVarSusps,MergedSusps),
|
|
put_attr(Var,Mod,MergedSusps)
|
|
;
|
|
put_attr(Var,Mod,Susps)
|
|
),
|
|
attach_increment(Vars,Susps)
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
generate_attach_increment_many(N,Mod,Clause) :-
|
|
make_attr(N,Mask,SuspsList,Attr),
|
|
make_attr(N,OtherMask,OtherSuspsList,OtherAttr),
|
|
Head = attach_increment([Var|Vars],Attr),
|
|
bagof(G,X ^ Y ^ SY ^ M ^ (member2(SuspsList,OtherSuspsList,X-Y),G = (sort(Y,SY),'chr merge_attributes'(X,SY,M))),Gs),
|
|
list2conj(Gs,SortGoals),
|
|
bagof(MS,A ^ B ^ C ^ member((A,'chr merge_attributes'(B,C,MS)),Gs), MergedSuspsList),
|
|
make_attr(N,MergedMask,MergedSuspsList,NewAttr),
|
|
Body =
|
|
(
|
|
'chr not_locked'(Var),
|
|
( get_attr(Var,Mod,TOtherAttr) ->
|
|
TOtherAttr = OtherAttr,
|
|
SortGoals,
|
|
MergedMask is Mask \/ OtherMask,
|
|
put_attr(Var,Mod,NewAttr)
|
|
;
|
|
put_attr(Var,Mod,Attr)
|
|
),
|
|
attach_increment(Vars,Attr)
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
%% attr_unify_hook
|
|
generate_attr_unify_hook(Constraints,Mod,[Clause]) :-
|
|
length(Constraints,N),
|
|
( N == 1 ->
|
|
generate_attr_unify_hook_one(Mod,Clause)
|
|
;
|
|
generate_attr_unify_hook_many(N,Mod,Clause)
|
|
).
|
|
|
|
generate_attr_unify_hook_one(Mod,Clause) :-
|
|
Head = attr_unify_hook(Susps,Other),
|
|
Body =
|
|
(
|
|
sort(Susps, SortedSusps),
|
|
( var(Other) ->
|
|
( get_attr(Other,Mod,OtherSusps) ->
|
|
true
|
|
;
|
|
OtherSusps = []
|
|
),
|
|
sort(OtherSusps,SortedOtherSusps),
|
|
'chr merge_attributes'(SortedSusps,SortedOtherSusps,NewSusps),
|
|
put_attr(Other,Mod,NewSusps),
|
|
'chr run_suspensions'(NewSusps)
|
|
;
|
|
( compound(Other) ->
|
|
term_variables(Other,OtherVars),
|
|
attach_increment(OtherVars, SortedSusps)
|
|
;
|
|
true
|
|
),
|
|
'chr run_suspensions'(Susps)
|
|
)
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
generate_attr_unify_hook_many(N,Mod,Clause) :-
|
|
make_attr(N,Mask,SuspsList,Attr),
|
|
make_attr(N,OtherMask,OtherSuspsList,OtherAttr),
|
|
bagof(Sort,A ^ B ^ ( member(A,SuspsList) , Sort = sort(A,B) ) , SortGoalList),
|
|
list2conj(SortGoalList,SortGoals),
|
|
bagof(B, A ^ member(sort(A,B),SortGoalList), SortedSuspsList),
|
|
bagof(C, D ^ E ^ F ^ G ^ (member2(SortedSuspsList,OtherSuspsList,D-E),
|
|
C = (sort(E,F),
|
|
'chr merge_attributes'(D,F,G)) ),
|
|
SortMergeGoalList),
|
|
bagof(G, D ^ F ^ H ^ member((H,'chr merge_attributes'(D,F,G)),SortMergeGoalList) , MergedSuspsList),
|
|
list2conj(SortMergeGoalList,SortMergeGoals),
|
|
make_attr(N,MergedMask,MergedSuspsList,MergedAttr),
|
|
make_attr(N,Mask,SortedSuspsList,SortedAttr),
|
|
Head = attr_unify_hook(Attr,Other),
|
|
Body =
|
|
(
|
|
SortGoals,
|
|
( var(Other) ->
|
|
( get_attr(Other,Mod,TOtherAttr) ->
|
|
TOtherAttr = OtherAttr,
|
|
SortMergeGoals,
|
|
MergedMask is Mask \/ OtherMask,
|
|
put_attr(Other,Mod,MergedAttr),
|
|
'chr run_suspensions_loop'(MergedSuspsList)
|
|
;
|
|
put_attr(Other,Mod,SortedAttr),
|
|
'chr run_suspensions_loop'(SortedSuspsList)
|
|
)
|
|
;
|
|
( compound(Other) ->
|
|
term_variables(Other,OtherVars),
|
|
attach_increment(OtherVars,SortedAttr)
|
|
;
|
|
true
|
|
),
|
|
'chr run_suspensions_loop'(SortedSuspsList)
|
|
)
|
|
),
|
|
Clause = (Head :- Body).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ ____ _ _ _ _
|
|
%% | _ \ _ _| | ___ / ___|___ _ __ ___ _ __ (_) | __ _| |_(_) ___ _ __
|
|
%% | |_) | | | | |/ _ \ | | / _ \| '_ ` _ \| '_ \| | |/ _` | __| |/ _ \| '_ \
|
|
%% | _ <| |_| | | __/ | |__| (_) | | | | | | |_) | | | (_| | |_| | (_) | | | |
|
|
%% |_| \_\\__,_|_|\___| \____\___/|_| |_| |_| .__/|_|_|\__,_|\__|_|\___/|_| |_|
|
|
%% |_|
|
|
|
|
constraints_code(Constraints,Rules,Mod,Clauses) :-
|
|
constraints_code(Constraints,Rules,Mod,L,[]),
|
|
clean_clauses(L,Clauses).
|
|
|
|
%% Generate code for all the CHR constraints
|
|
constraints_code(Constraints,Rules,Mod,L,T) :-
|
|
length(Constraints,N),
|
|
constraints_code(Constraints,1,N,Constraints,Rules,Mod,L,T).
|
|
|
|
constraints_code([],_,_,_,_,_,L,L).
|
|
constraints_code([Constr|Constrs],I,N,Constraints,Rules,Mod,L,T) :-
|
|
constraint_code(Constr,I,N,Constraints,Rules,Mod,L,T1),
|
|
J is I + 1,
|
|
constraints_code(Constrs,J,N,Constraints,Rules,Mod,T1,T).
|
|
|
|
%% Generate code for a single CHR constraint
|
|
constraint_code(Constraint, I, N, Constraints, Rules, Mod, L, T) :-
|
|
constraint_prelude(Constraint,Mod,Clause),
|
|
L = [Clause | L1],
|
|
Id1 = [0],
|
|
rules_code(Rules,1,Constraint,I,N,Constraints,Mod,Id1,Id2,L1,L2),
|
|
gen_cond_attach_clause(Mod,Constraint,I,N,Constraints,Id2,L2,T).
|
|
|
|
%% Generate prelude predicate for a constraint.
|
|
%% f(...) :- f/a_0(...,Susp).
|
|
constraint_prelude(F/A, _Mod, Clause) :-
|
|
vars_susp(A,Vars,_Susp,VarsSusp),
|
|
Head =.. [ F | Vars],
|
|
build_head(F,A,[0],VarsSusp,Delegate),
|
|
Clause = ( Head :- Delegate ).
|
|
|
|
gen_cond_attach_clause(Mod,F/A,_I,_N,_Constraints,Id,L,T) :-
|
|
( Id == [0] ->
|
|
gen_cond_attach_goal(Mod,F/A,Body,AllArgs)
|
|
; vars_susp(A,_Args,Susp,AllArgs),
|
|
gen_uncond_attach_goal(F/A,Susp,Mod,Body,_)
|
|
),
|
|
build_head(F,A,Id,AllArgs,Head),
|
|
Clause = ( Head :- Body ),
|
|
L = [Clause | T].
|
|
|
|
gen_cond_attach_goal(Mod,F/A,Goal,AllArgs) :-
|
|
vars_susp(A,Args,Susp,AllArgs),
|
|
build_head(F,A,[0],AllArgs,Closure),
|
|
atom_concat_list(['attach_',F, (/) ,A],AttachF),
|
|
Attach =.. [AttachF,Vars,Susp],
|
|
Goal =
|
|
(
|
|
( var(Susp) ->
|
|
'chr insert_constraint_internal'(Vars,Susp,Mod:Closure,F,Args)
|
|
;
|
|
'chr activate_constraint'(Vars,Susp,_)
|
|
),
|
|
Attach
|
|
).
|
|
|
|
gen_uncond_attach_goal(F/A,Susp,_Mod,AttachGoal,Generation) :-
|
|
atom_concat_list(['attach_',F, (/) ,A],AttachF),
|
|
Attach =.. [AttachF,Vars,Susp],
|
|
AttachGoal =
|
|
(
|
|
'chr activate_constraint'(Vars, Susp, Generation),
|
|
Attach
|
|
).
|
|
|
|
%% Generate all the code for a constraint based on all CHR rules
|
|
rules_code([],_,_,_,_,_,_,Id,Id,L,L).
|
|
rules_code([R |Rs],RuleNb,FA,I,N,Constraints,Mod,Id1,Id3,L,T) :-
|
|
rule_code(R,RuleNb,FA,I,N,Constraints,Mod,Id1,Id2,L,T1),
|
|
NextRuleNb is RuleNb + 1,
|
|
rules_code(Rs,NextRuleNb,FA,I,N,Constraints,Mod,Id2,Id3,T1,T).
|
|
|
|
%% Generate code for a constraint based on a single CHR rule
|
|
rule_code(PragmaRule,RuleNb,FA,I,N,Constraints,Mod,Id1,Id2,L,T) :-
|
|
PragmaRule = pragma(Rule,HeadIDs,_Pragmas,_Name),
|
|
HeadIDs = ids(Head1IDs,Head2IDs),
|
|
Rule = rule(Head1,Head2,_,_),
|
|
heads1_code(Head1,[],Head1IDs,[],PragmaRule,FA,I,N,Constraints,Mod,Id1,L,L1),
|
|
heads2_code(Head2,[],Head2IDs,[],PragmaRule,RuleNb,FA,I,N,Constraints,Mod,Id1,Id2,L1,T).
|
|
|
|
%% Generate code based on all the removed heads of a CHR rule
|
|
heads1_code([],_,_,_,_,_,_,_,_,_,_,L,L).
|
|
heads1_code([Head|Heads],RestHeads,[HeadID|HeadIDs],RestIDs,PragmaRule,F/A,I,N,Constraints,Mod,Id,L,T) :-
|
|
PragmaRule = pragma(Rule,_,Pragmas,_Name),
|
|
( functor(Head,F,A),
|
|
\+ check_unnecessary_active(Head,RestHeads,Rule),
|
|
\+ memberchk_eq(passive(HeadID),Pragmas) ->
|
|
append(Heads,RestHeads,OtherHeads),
|
|
append(HeadIDs,RestIDs,OtherIDs),
|
|
head1_code(Head,OtherHeads,OtherIDs,PragmaRule,F/A,I,N,Constraints,Mod,Id,L,L1)
|
|
;
|
|
L = L1
|
|
),
|
|
heads1_code(Heads,[Head|RestHeads],HeadIDs,[HeadID|RestIDs],PragmaRule,F/A,I,N,Constraints,Mod,Id,L1,T).
|
|
|
|
%% Generate code based on one removed head of a CHR rule
|
|
head1_code(Head,OtherHeads,OtherIDs,PragmaRule,FA,I,N,Constraints,Mod,Id,L,T) :-
|
|
PragmaRule = pragma(Rule,_,_,_Name),
|
|
Rule = rule(_,Head2,_,_),
|
|
( Head2 == [] ->
|
|
reorder_heads(Head,OtherHeads,OtherIDs,NOtherHeads,NOtherIDs),
|
|
simplification_code(Head,NOtherHeads,NOtherIDs,PragmaRule,FA,I,N,Constraints,Mod,Id,L,T)
|
|
;
|
|
simpagation_head1_code(Head,OtherHeads,OtherIDs,PragmaRule,FA,I,N,Constraints,Mod,Id,L,T)
|
|
).
|
|
|
|
%% Generate code based on all the persistent heads of a CHR rule
|
|
heads2_code([],_,_,_,_,_,_,_,_,_,_,Id,Id,L,L).
|
|
heads2_code([Head|Heads],RestHeads,[HeadID|HeadIDs],RestIDs,PragmaRule,RuleNb,F/A,I,N,Constraints,Mod,Id1,Id3,L,T) :-
|
|
PragmaRule = pragma(Rule,_,Pragmas,_Name),
|
|
( functor(Head,F,A),
|
|
\+ check_unnecessary_active(Head,RestHeads,Rule),
|
|
\+ memberchk_eq(passive(HeadID),Pragmas),
|
|
\+ set_semantics_rule(PragmaRule) ->
|
|
append(Heads,RestHeads,OtherHeads),
|
|
append(HeadIDs,RestIDs,OtherIDs),
|
|
length(Heads,RestHeadNb),
|
|
head2_code(Head,OtherHeads,OtherIDs,PragmaRule,RuleNb,RestHeadNb,F/A,I,N,Constraints,Mod,Id1,L,L0),
|
|
inc_id(Id1,Id2),
|
|
gen_alloc_inc_clause(F/A,Mod,Id1,L0,L1)
|
|
;
|
|
L = L1,
|
|
Id2 = Id1
|
|
),
|
|
heads2_code(Heads,[Head|RestHeads],HeadIDs,[HeadID|RestIDs],PragmaRule,RuleNb,F/A,I,N,Constraints,Mod,Id2,Id3,L1,T).
|
|
|
|
%% Generate code based on one persistent head of a CHR rule
|
|
head2_code(Head,OtherHeads,OtherIDs,PragmaRule,RuleNb,RestHeadNb,FA,I,N,Constraints,Mod,Id,L,T) :-
|
|
PragmaRule = pragma(Rule,_,_,_Name),
|
|
Rule = rule(Head1,_,_,_),
|
|
( Head1 == [] ->
|
|
reorder_heads(Head,OtherHeads,NOtherHeads),
|
|
propagation_code(Head,NOtherHeads,Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,Id,L,T)
|
|
;
|
|
simpagation_head2_code(Head,OtherHeads,OtherIDs,PragmaRule,FA,I,N,Constraints,Mod,Id,L,T)
|
|
).
|
|
|
|
gen_alloc_inc_clause(F/A,Mod,Id,L,T) :-
|
|
vars_susp(A,Vars,Susp,VarsSusp),
|
|
build_head(F,A,Id,VarsSusp,Head),
|
|
inc_id(Id,IncId),
|
|
build_head(F,A,IncId,VarsSusp,CallHead),
|
|
( Id == [0] ->
|
|
gen_cond_allocation(Vars,Susp,F/A,VarsSusp,Mod,ConditionalAlloc)
|
|
;
|
|
ConditionalAlloc = true
|
|
),
|
|
Clause =
|
|
(
|
|
Head :-
|
|
ConditionalAlloc,
|
|
CallHead
|
|
),
|
|
L = [Clause|T].
|
|
|
|
gen_cond_allocation(Vars,Susp,F/A,VarsSusp,Mod,ConstraintAllocationGoal) :-
|
|
build_head(F,A,[0],VarsSusp,Term),
|
|
ConstraintAllocationGoal =
|
|
( var(Susp) ->
|
|
'chr allocate_constraint'(Mod : Term, Susp, F, Vars)
|
|
;
|
|
true
|
|
).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
guard_via_reschedule(Retrievals,GuardList,Prelude,Goal) :-
|
|
( chr_pp_flag(guard_via_reschedule,on) ->
|
|
guard_via_reschedule_main(Retrievals,GuardList,Prelude,Goal)
|
|
;
|
|
append(Retrievals,GuardList,GoalList),
|
|
list2conj(GoalList,Goal)
|
|
).
|
|
|
|
guard_via_reschedule_main(Retrievals,GuardList,Prelude,Goal) :-
|
|
initialize_unit_dictionary(Prelude,Dict),
|
|
build_units(Retrievals,GuardList,Dict,Units),
|
|
dependency_reorder(Units,NUnits),
|
|
units2goal(NUnits,Goal).
|
|
|
|
units2goal([],true).
|
|
units2goal([unit(_,Goal,_,_)|Units],(Goal,Goals)) :-
|
|
units2goal(Units,Goals).
|
|
|
|
dependency_reorder(Units,NUnits) :-
|
|
dependency_reorder(Units,[],NUnits).
|
|
|
|
dependency_reorder([],Acc,Result) :-
|
|
reverse(Acc,Result).
|
|
|
|
dependency_reorder([Unit|Units],Acc,Result) :-
|
|
Unit = unit(_GID,_Goal,Type,GIDs),
|
|
( Type == fixed ->
|
|
NAcc = [Unit|Acc]
|
|
;
|
|
dependency_insert(Acc,Unit,GIDs,NAcc)
|
|
),
|
|
dependency_reorder(Units,NAcc,Result).
|
|
|
|
dependency_insert([],Unit,_,[Unit]).
|
|
dependency_insert([X|Xs],Unit,GIDs,L) :-
|
|
X = unit(GID,_,_,_),
|
|
( memberchk(GID,GIDs) ->
|
|
L = [Unit,X|Xs]
|
|
;
|
|
L = [X | T],
|
|
dependency_insert(Xs,Unit,GIDs,T)
|
|
).
|
|
|
|
build_units(Retrievals,Guard,InitialDict,Units) :-
|
|
build_retrieval_units(Retrievals,1,N,InitialDict,Dict,Units,Tail),
|
|
build_guard_units(Guard,N,Dict,Tail).
|
|
|
|
build_retrieval_units([],N,N,Dict,Dict,L,L).
|
|
build_retrieval_units([U|Us],N,M,Dict,NDict,L,T) :-
|
|
term_variables(U,Vs),
|
|
update_unit_dictionary(Vs,N,Dict,Dict1,[],GIDs),
|
|
L = [unit(N,U,movable,GIDs)|L1],
|
|
N1 is N + 1,
|
|
build_retrieval_units2(Us,N1,M,Dict1,NDict,L1,T).
|
|
|
|
build_retrieval_units2([],N,N,Dict,Dict,L,L).
|
|
build_retrieval_units2([U|Us],N,M,Dict,NDict,L,T) :-
|
|
term_variables(U,Vs),
|
|
update_unit_dictionary(Vs,N,Dict,Dict1,[],GIDs),
|
|
L = [unit(N,U,fixed,GIDs)|L1],
|
|
N1 is N + 1,
|
|
build_retrieval_units(Us,N1,M,Dict1,NDict,L1,T).
|
|
|
|
initialize_unit_dictionary(Term,Dict) :-
|
|
term_variables(Term,Vars),
|
|
pair_all_with(Vars,0,Dict).
|
|
|
|
update_unit_dictionary([],_,Dict,Dict,GIDs,GIDs).
|
|
update_unit_dictionary([V|Vs],This,Dict,NDict,GIDs,NGIDs) :-
|
|
( lookup_eq(Dict,V,GID) ->
|
|
( (GID == This ; memberchk(GID,GIDs) ) ->
|
|
GIDs1 = GIDs
|
|
;
|
|
GIDs1 = [GID|GIDs]
|
|
),
|
|
Dict1 = Dict
|
|
;
|
|
Dict1 = [V - This|Dict],
|
|
GIDs1 = GIDs
|
|
),
|
|
update_unit_dictionary(Vs,This,Dict1,NDict,GIDs1,NGIDs).
|
|
|
|
build_guard_units(Guard,N,Dict,Units) :-
|
|
( Guard = [Goal] ->
|
|
Units = [unit(N,Goal,fixed,[])]
|
|
; Guard = [Goal|Goals] ->
|
|
term_variables(Goal,Vs),
|
|
update_unit_dictionary2(Vs,N,Dict,NDict,[],GIDs),
|
|
Units = [unit(N,Goal,movable,GIDs)|RUnits],
|
|
N1 is N + 1,
|
|
build_guard_units(Goals,N1,NDict,RUnits)
|
|
).
|
|
|
|
update_unit_dictionary2([],_,Dict,Dict,GIDs,GIDs).
|
|
update_unit_dictionary2([V|Vs],This,Dict,NDict,GIDs,NGIDs) :-
|
|
( lookup_eq(Dict,V,GID) ->
|
|
( (GID == This ; memberchk(GID,GIDs) ) ->
|
|
GIDs1 = GIDs
|
|
;
|
|
GIDs1 = [GID|GIDs]
|
|
),
|
|
Dict1 = [V - This|Dict]
|
|
;
|
|
Dict1 = [V - This|Dict],
|
|
GIDs1 = GIDs
|
|
),
|
|
update_unit_dictionary2(Vs,This,Dict1,NDict,GIDs1,NGIDs).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ ____ _ _
|
|
%% / ___| ___| |_ / ___| ___ _ __ ___ __ _ _ __ | |_(_) ___ ___ _
|
|
%% \___ \ / _ \ __| \___ \ / _ \ '_ ` _ \ / _` | '_ \| __| |/ __/ __(_)
|
|
%% ___) | __/ |_ ___) | __/ | | | | | (_| | | | | |_| | (__\__ \_
|
|
%% |____/ \___|\__| |____/ \___|_| |_| |_|\__,_|_| |_|\__|_|\___|___(_)
|
|
%%
|
|
%% _ _ _ ___ __
|
|
%% | | | |_ __ (_) __ _ _ _ ___ |_ _|_ __ / _| ___ _ __ ___ _ __ ___ ___
|
|
%% | | | | '_ \| |/ _` | | | |/ _ \ | || '_ \| |_ / _ \ '__/ _ \ '_ \ / __/ _ \
|
|
%% | |_| | | | | | (_| | |_| | __/ | || | | | _| __/ | | __/ | | | (_| __/
|
|
%% \___/|_| |_|_|\__, |\__,_|\___| |___|_| |_|_| \___|_| \___|_| |_|\___\___|
|
|
%% |_|
|
|
unique_analyse_optimise(Rules,N,PatternList,NRules) :-
|
|
( chr_pp_flag(unique_analyse_optimise,on) ->
|
|
unique_analyse_optimise_main(Rules,N,PatternList,NRules)
|
|
;
|
|
NRules = Rules
|
|
).
|
|
|
|
unique_analyse_optimise_main([],_,_,[]).
|
|
unique_analyse_optimise_main([PRule|PRules],N,PatternList,[NPRule|NPRules]) :-
|
|
( discover_unique_pattern(PRule,N,Pattern) ->
|
|
NPatternList = [Pattern|PatternList]
|
|
;
|
|
NPatternList = PatternList
|
|
),
|
|
PRule = pragma(Rule,Ids,Pragmas,Name),
|
|
Rule = rule(H1,H2,_,_),
|
|
Ids = ids(Ids1,Ids2),
|
|
apply_unique_patterns_to_constraints(H1,Ids1,NPatternList,MorePragmas1),
|
|
apply_unique_patterns_to_constraints(H2,Ids2,NPatternList,MorePragmas2),
|
|
append([MorePragmas1,MorePragmas2,Pragmas],NPragmas),
|
|
NPRule = pragma(Rule,Ids,NPragmas,Name),
|
|
N1 is N + 1,
|
|
unique_analyse_optimise_main(PRules,N1,NPatternList,NPRules).
|
|
|
|
apply_unique_patterns_to_constraints([],_,_,[]).
|
|
apply_unique_patterns_to_constraints([C|Cs],[Id|Ids],Patterns,Pragmas) :-
|
|
( member(Pattern,Patterns),
|
|
apply_unique_pattern(C,Id,Pattern,Pragma) ->
|
|
Pragmas = [Pragma | RPragmas]
|
|
;
|
|
Pragmas = RPragmas
|
|
),
|
|
apply_unique_patterns_to_constraints(Cs,Ids,Patterns,RPragmas).
|
|
|
|
apply_unique_pattern(Constraint,Id,Pattern,Pragma) :-
|
|
Pattern = unique(PatternConstraint,PatternKey),
|
|
subsumes(Constraint,PatternConstraint,Unifier),
|
|
( setof( V,
|
|
T^Term^Vs^(
|
|
member(T,PatternKey),
|
|
lookup_eq(Unifier,T,Term),
|
|
term_variables(Term,Vs),
|
|
member(V,Vs)
|
|
),
|
|
Vars) ->
|
|
true
|
|
;
|
|
Vars = []
|
|
),
|
|
Pragma = unique(Id,Vars).
|
|
|
|
% subsumes(+Term1, +Term2, -Unifier)
|
|
%
|
|
% If Term1 is a more general term than Term2 (e.g. has a larger
|
|
% part instantiated), unify Unifier with a list Var-Value of
|
|
% variables from Term2 and their corresponding values in Term1.
|
|
|
|
subsumes(Term1,Term2,Unifier) :-
|
|
empty_ds(S0),
|
|
subsumes_aux(Term1,Term2,S0,S),
|
|
ds_to_list(S,L),
|
|
build_unifier(L,Unifier).
|
|
|
|
subsumes_aux(Term1, Term2, S0, S) :-
|
|
( compound(Term2),
|
|
functor(Term2, F, N)
|
|
-> compound(Term1), functor(Term1, F, N),
|
|
subsumes_aux(N, Term1, Term2, S0, S)
|
|
; Term1 == Term2
|
|
-> S = S0
|
|
; var(Term2),
|
|
get_ds(Term1,S0,V)
|
|
-> V == Term2, S = S0
|
|
; var(Term2),
|
|
put_ds(Term1, S0, Term2, S)
|
|
).
|
|
|
|
subsumes_aux(0, _, _, S, S) :- ! .
|
|
subsumes_aux(N, T1, T2, S0, S) :-
|
|
arg(N, T1, T1x),
|
|
arg(N, T2, T2x),
|
|
subsumes_aux(T1x, T2x, S0, S1),
|
|
M is N-1,
|
|
subsumes_aux(M, T1, T2, S1, S).
|
|
|
|
build_unifier([],[]).
|
|
build_unifier([X-V|R],[V - X | T]) :-
|
|
build_unifier(R,T).
|
|
|
|
discover_unique_pattern(PragmaRule,RuleNb,Pattern) :-
|
|
PragmaRule = pragma(Rule,_,Pragmas,Name),
|
|
( Rule = rule([C1],[C2],Guard,Body) ->
|
|
true
|
|
;
|
|
Rule = rule([C1,C2],[],Guard,Body)
|
|
),
|
|
check_unique_constraints(C1,C2,Guard,Body,Pragmas,List),
|
|
term_variables(C1,Vs),
|
|
select_pragma_unique_variables(List,Vs,Key),
|
|
Pattern0 = unique(C1,Key),
|
|
copy_term_nat(Pattern0,Pattern),
|
|
( verbosity_on ->
|
|
format('Found unique pattern ~w in rule ~d~@\n',
|
|
[Pattern,RuleNb,(Name=yes(N) -> write(": "),write(N) ; true)])
|
|
;
|
|
true
|
|
).
|
|
|
|
select_pragma_unique_variables([],_,[]).
|
|
select_pragma_unique_variables([X-Y|R],Vs,L) :-
|
|
( X == Y ->
|
|
L = [X|T]
|
|
;
|
|
once((
|
|
\+ memberchk_eq(X,Vs)
|
|
;
|
|
\+ memberchk_eq(Y,Vs)
|
|
)),
|
|
L = T
|
|
),
|
|
select_pragma_unique_variables(R,Vs,T).
|
|
|
|
check_unique_constraints(C1,C2,G,_Body,Pragmas,List) :-
|
|
\+ member(passive(_),Pragmas),
|
|
variable_replacement(C1-C2,C2-C1,List),
|
|
copy_with_variable_replacement(G,OtherG,List),
|
|
negate(G,NotG),
|
|
once(entails(NotG,OtherG)).
|
|
|
|
negate(true,fail).
|
|
negate(fail,true).
|
|
negate(X =< Y, Y < X).
|
|
negate(X > Y, Y >= X).
|
|
negate(X >= Y, Y > X).
|
|
negate(X < Y, Y =< X).
|
|
negate(var(X),nonvar(X)).
|
|
negate(nonvar(X),var(X)).
|
|
|
|
entails(X,X1) :- X1 == X.
|
|
entails(fail,_).
|
|
entails(X > Y, X1 >= Y1) :- X1 == X, Y1 == Y.
|
|
entails(X < Y, X1 =< Y1) :- X1 == X, Y1 == Y.
|
|
entails(ground(X),var(X1)) :- X1 == X.
|
|
|
|
check_unnecessary_active(Constraint,Previous,Rule) :-
|
|
( chr_pp_flag(check_unnecessary_active,full) ->
|
|
check_unnecessary_active_main(Constraint,Previous,Rule)
|
|
; chr_pp_flag(check_unnecessary_active,simplification),
|
|
Rule = rule(_,[],_,_) ->
|
|
check_unnecessary_active_main(Constraint,Previous,Rule)
|
|
;
|
|
fail
|
|
).
|
|
|
|
check_unnecessary_active_main(Constraint,Previous,Rule) :-
|
|
member(Other,Previous),
|
|
variable_replacement(Other,Constraint,List),
|
|
copy_with_variable_replacement(Rule,Rule2,List),
|
|
identical_rules(Rule,Rule2), ! .
|
|
|
|
set_semantics_rule(PragmaRule) :-
|
|
( chr_pp_flag(set_semantics_rule,on) ->
|
|
set_semantics_rule_main(PragmaRule)
|
|
;
|
|
fail
|
|
).
|
|
|
|
set_semantics_rule_main(PragmaRule) :-
|
|
PragmaRule = pragma(Rule,IDs,Pragmas,_),
|
|
Rule = rule([C1],[C2],true,true),
|
|
C1 == C2,
|
|
IDs = ids([ID1],_),
|
|
\+ memberchk_eq(passive(ID1),Pragmas).
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ _____ _ _
|
|
%% | _ \ _ _| | ___ | ____|__ _ _ _(_)_ ____ _| | ___ _ __ ___ ___
|
|
%% | |_) | | | | |/ _ \ | _| / _` | | | | \ \ / / _` | |/ _ \ '_ \ / __/ _ \
|
|
%% | _ <| |_| | | __/ | |__| (_| | |_| | |\ V / (_| | | __/ | | | (_| __/
|
|
%% |_| \_\\__,_|_|\___| |_____\__, |\__,_|_| \_/ \__,_|_|\___|_| |_|\___\___|
|
|
%% |_|
|
|
% have to check for no duplicates in value list
|
|
|
|
% check wether two rules are identical
|
|
|
|
identical_rules(rule(H11,H21,G1,B1),rule(H12,H22,G2,B2)) :-
|
|
G1 == G2,
|
|
identical_bodies(B1,B2),
|
|
permutation(H11,P1),
|
|
P1 == H12,
|
|
permutation(H21,P2),
|
|
P2 == H22.
|
|
|
|
identical_bodies(B1,B2) :-
|
|
( B1 = (X1 = Y1),
|
|
B2 = (X2 = Y2) ->
|
|
( X1 == X2,
|
|
Y1 == Y2
|
|
; X1 == Y2,
|
|
X2 == Y1
|
|
),
|
|
!
|
|
; B1 == B2
|
|
).
|
|
|
|
% replace variables in list
|
|
|
|
copy_with_variable_replacement(X,Y,L) :-
|
|
( var(X) ->
|
|
( lookup_eq(L,X,Y) ->
|
|
true
|
|
; X = Y
|
|
)
|
|
; functor(X,F,A),
|
|
functor(Y,F,A),
|
|
X =.. [_|XArgs],
|
|
Y =.. [_|YArgs],
|
|
copy_with_variable_replacement_l(XArgs,YArgs,L)
|
|
).
|
|
|
|
copy_with_variable_replacement_l([],[],_).
|
|
copy_with_variable_replacement_l([X|Xs],[Y|Ys],L) :-
|
|
copy_with_variable_replacement(X,Y,L),
|
|
copy_with_variable_replacement_l(Xs,Ys,L).
|
|
|
|
%% build variable replacement list
|
|
|
|
variable_replacement(X,Y,L) :-
|
|
variable_replacement(X,Y,[],L).
|
|
|
|
variable_replacement(X,Y,L1,L2) :-
|
|
( var(X) ->
|
|
var(Y),
|
|
( lookup_eq(L1,X,Z) ->
|
|
Z == Y,
|
|
L2 = L1
|
|
; L2 = [X-Y|L1]
|
|
)
|
|
; X =.. [F|XArgs],
|
|
nonvar(Y),
|
|
Y =.. [F|YArgs],
|
|
variable_replacement_l(XArgs,YArgs,L1,L2)
|
|
).
|
|
|
|
variable_replacement_l([],[],L,L).
|
|
variable_replacement_l([X|Xs],[Y|Ys],L1,L3) :-
|
|
variable_replacement(X,Y,L1,L2),
|
|
variable_replacement_l(Xs,Ys,L2,L3).
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ _ _ __ _ _ _
|
|
%% / ___|(_)_ __ ___ _ __ | (_)/ _(_) ___ __ _| |_(_) ___ _ __
|
|
%% \___ \| | '_ ` _ \| '_ \| | | |_| |/ __/ _` | __| |/ _ \| '_ \
|
|
%% ___) | | | | | | | |_) | | | _| | (_| (_| | |_| | (_) | | | |
|
|
%% |____/|_|_| |_| |_| .__/|_|_|_| |_|\___\__,_|\__|_|\___/|_| |_|
|
|
%% |_|
|
|
|
|
simplification_code(Head,RestHeads,RestIDs,PragmaRule,F/A,_I,N,Constraints,Mod,Id,L,T) :-
|
|
PragmaRule = pragma(Rule,_,Pragmas,_),
|
|
head_info(Head,A,_Vars,Susp,HeadVars,HeadPairs),
|
|
build_head(F,A,Id,HeadVars,ClauseHead),
|
|
head_arg_matches(HeadPairs,[],FirstMatching,VarDict1),
|
|
|
|
( RestHeads == [] ->
|
|
Susps = [],
|
|
VarDict = VarDict1,
|
|
GetRestHeads = []
|
|
;
|
|
rest_heads_retrieval_and_matching(RestHeads,RestIDs,Pragmas,Head,Mod,N,Constraints,GetRestHeads,Susps,VarDict1,VarDict)
|
|
),
|
|
|
|
guard_body_copies2(Rule,VarDict,GuardCopyList,BodyCopy),
|
|
guard_via_reschedule(GetRestHeads,GuardCopyList,ClauseHead-FirstMatching,RescheduledTest),
|
|
|
|
gen_uncond_susps_detachments(Susps,RestHeads,SuspsDetachments),
|
|
gen_cond_susp_detachment(Susp,F/A,SuspDetachment),
|
|
|
|
Clause = ( ClauseHead :-
|
|
FirstMatching,
|
|
RescheduledTest,
|
|
!,
|
|
SuspsDetachments,
|
|
SuspDetachment,
|
|
BodyCopy
|
|
),
|
|
L = [Clause | T].
|
|
|
|
head_arg_matches(Pairs,VarDict,Goal,NVarDict) :-
|
|
head_arg_matches_(Pairs,VarDict,GoalList,NVarDict),
|
|
list2conj(GoalList,Goal).
|
|
|
|
head_arg_matches_([],VarDict,[],VarDict).
|
|
head_arg_matches_([Arg-Var| Rest],VarDict,GoalList,NVarDict) :-
|
|
( var(Arg) ->
|
|
( lookup_eq(VarDict,Arg,OtherVar) ->
|
|
GoalList = [Var == OtherVar | RestGoalList],
|
|
VarDict1 = VarDict
|
|
; VarDict1 = [Arg-Var | VarDict],
|
|
GoalList = RestGoalList
|
|
),
|
|
Pairs = Rest
|
|
; atomic(Arg) ->
|
|
GoalList = [ Var == Arg | RestGoalList],
|
|
VarDict = VarDict1,
|
|
Pairs = Rest
|
|
; Arg =.. [_|Args],
|
|
functor(Arg,Fct,N),
|
|
functor(Term,Fct,N),
|
|
Term =.. [_|Vars],
|
|
GoalList =[ nonvar(Var), Var = Term | RestGoalList ],
|
|
pairup(Args,Vars,NewPairs),
|
|
append(NewPairs,Rest,Pairs),
|
|
VarDict1 = VarDict
|
|
),
|
|
head_arg_matches_(Pairs,VarDict1,RestGoalList,NVarDict).
|
|
|
|
rest_heads_retrieval_and_matching(Heads,IDs,Pragmas,ActiveHead,Mod,N,Constraints,GoalList,Susps,VarDict,NVarDict):-
|
|
rest_heads_retrieval_and_matching(Heads,IDs,Pragmas,ActiveHead,Mod,N,Constraints,GoalList,Susps,VarDict,NVarDict,[],[],[]).
|
|
|
|
rest_heads_retrieval_and_matching(Heads,IDs,Pragmas,ActiveHead,Mod,N,Constraints,GoalList,Susps,VarDict,NVarDict,PrevHs,PrevSusps,AttrDict) :-
|
|
( Heads = [_|_] ->
|
|
rest_heads_retrieval_and_matching_n(Heads,IDs,Pragmas,PrevHs,PrevSusps,ActiveHead,Mod,N,Constraints,GoalList,Susps,VarDict,NVarDict,AttrDict)
|
|
;
|
|
GoalList = [],
|
|
Susps = [],
|
|
VarDict = NVarDict
|
|
).
|
|
|
|
rest_heads_retrieval_and_matching_n([],_,_,_,_,_,_,N,_,[],[],VarDict,VarDict,AttrDict) :-
|
|
instantiate_pattern_goals(AttrDict,N).
|
|
rest_heads_retrieval_and_matching_n([H|Hs],[ID|IDs],Pragmas,PrevHs,PrevSusps,ActiveHead,Mod,N,Constraints,[ViaGoal,Goal|Goals],[Susp|Susps],VarDict,NVarDict,AttrDict) :-
|
|
passive_head_via(H,[ActiveHead|PrevHs],AttrDict,Constraints,Mod,VarDict,ViaGoal,Attr,NewAttrDict),
|
|
functor(H,Fct,Aty),
|
|
head_info(H,Aty,Vars,_,_,Pairs),
|
|
head_arg_matches(Pairs,VarDict,MatchingGoal,VarDict1),
|
|
Suspension =.. [suspension,_,State,_,_,_,_|Vars],
|
|
( N == 1 ->
|
|
VarSusps = Attr
|
|
;
|
|
nth1(Pos,Constraints,Fct/Aty), !,
|
|
make_attr(N,_Mask,SuspsList,Attr),
|
|
nth1(Pos,SuspsList,VarSusps)
|
|
),
|
|
different_from_other_susps(H,Susp,PrevHs,PrevSusps,DiffSuspGoals),
|
|
create_get_mutable_ref(active,State,GetMutable),
|
|
Goal1 =
|
|
(
|
|
'chr sbag_member'(Susp,VarSusps),
|
|
Susp = Suspension,
|
|
GetMutable,
|
|
DiffSuspGoals,
|
|
MatchingGoal
|
|
),
|
|
( member(unique(ID,UniqueKeus),Pragmas),
|
|
check_unique_keys(UniqueKeus,VarDict) ->
|
|
Goal = (Goal1 -> true) % once(Goal1)
|
|
;
|
|
Goal = Goal1
|
|
),
|
|
rest_heads_retrieval_and_matching_n(Hs,IDs,Pragmas,[H|PrevHs],[Susp|PrevSusps],ActiveHead,Mod,N,Constraints,Goals,Susps,VarDict1,NVarDict,NewAttrDict).
|
|
|
|
instantiate_pattern_goals([],_).
|
|
instantiate_pattern_goals([_-attr(Attr,Bits,Goal)|Rest],N) :-
|
|
( N == 1 ->
|
|
Goal = true
|
|
;
|
|
make_attr(N,Mask,_,Attr),
|
|
or_list(Bits,Pattern), !,
|
|
Goal = (Mask /\ Pattern =:= Pattern)
|
|
),
|
|
instantiate_pattern_goals(Rest,N).
|
|
|
|
|
|
check_unique_keys([],_).
|
|
check_unique_keys([V|Vs],Dict) :-
|
|
lookup_eq(Dict,V,_),
|
|
check_unique_keys(Vs,Dict).
|
|
|
|
% Generates tests to ensure the found constraint differs from previously found constraints
|
|
different_from_other_susps(Head,Susp,Heads,Susps,DiffSuspGoals) :-
|
|
( bagof(DiffSuspGoal, Pos ^ ( nth1(Pos,Heads,PreHead), \+ Head \= PreHead, nth1(Pos,Susps,PreSusp), DiffSuspGoal = (Susp \== PreSusp) ),DiffSuspGoalList) ->
|
|
list2conj(DiffSuspGoalList,DiffSuspGoals)
|
|
;
|
|
DiffSuspGoals = true
|
|
).
|
|
|
|
passive_head_via(Head,PrevHeads,AttrDict,Constraints,Mod,VarDict,Goal,Attr,NewAttrDict) :-
|
|
functor(Head,F,A),
|
|
nth1(Pos,Constraints,F/A),!,
|
|
common_variables(Head,PrevHeads,CommonVars),
|
|
translate(CommonVars,VarDict,Vars),
|
|
or_pattern(Pos,Bit),
|
|
( permutation(Vars,PermutedVars),
|
|
lookup_eq(AttrDict,PermutedVars,attr(Attr,Positions,_)) ->
|
|
member(Bit,Positions), !,
|
|
NewAttrDict = AttrDict,
|
|
Goal = true
|
|
;
|
|
Goal = (Goal1, PatternGoal),
|
|
gen_get_mod_constraints(Mod,Vars,Goal1,Attr),
|
|
NewAttrDict = [Vars - attr(Attr,[Bit|_],PatternGoal) | AttrDict]
|
|
).
|
|
|
|
common_variables(T,Ts,Vs) :-
|
|
term_variables(T,V1),
|
|
term_variables(Ts,V2),
|
|
intersect_eq(V1,V2,Vs).
|
|
|
|
gen_get_mod_constraints(Mod,L,Goal,Susps) :-
|
|
( L == [] ->
|
|
Goal =
|
|
( 'chr default_store'(Global),
|
|
get_attr(Global,Mod,TSusps),
|
|
TSusps = Susps
|
|
)
|
|
;
|
|
( L = [A] ->
|
|
VIA = 'chr via_1'(A,V)
|
|
; ( L = [A,B] ->
|
|
VIA = 'chr via_2'(A,B,V)
|
|
; VIA = 'chr via'(L,V)
|
|
)
|
|
),
|
|
Goal =
|
|
( VIA,
|
|
get_attr(V,Mod,TSusps),
|
|
TSusps = Susps
|
|
)
|
|
).
|
|
|
|
guard_body_copies(Rule,VarDict,GuardCopy,BodyCopy) :-
|
|
guard_body_copies2(Rule,VarDict,GuardCopyList,BodyCopy),
|
|
list2conj(GuardCopyList,GuardCopy).
|
|
|
|
guard_body_copies2(Rule,VarDict,GuardCopyList,BodyCopy) :-
|
|
Rule = rule(_,_,Guard,Body),
|
|
conj2list(Guard,GuardList),
|
|
split_off_simple_guard(GuardList,VarDict,GuardPrefix,RestGuardList),
|
|
my_term_copy(GuardPrefix-RestGuardList,VarDict,VarDict2,GuardPrefixCopy-RestGuardListCopyCore),
|
|
|
|
append(GuardPrefixCopy,[RestGuardCopy],GuardCopyList),
|
|
term_variables(RestGuardList,GuardVars),
|
|
term_variables(RestGuardListCopyCore,GuardCopyVars),
|
|
( chr_pp_flag(guard_locks,on),
|
|
bagof(('chr lock'(Y)) - ('chr unlock'(Y)),
|
|
X ^ (member(X,GuardVars), % X is a variable appearing in the original guard
|
|
lookup_eq(VarDict,X,Y), % translate X into new variable
|
|
memberchk_eq(Y,GuardCopyVars) % redundant check? or multiple entries for X possible?
|
|
),
|
|
LocksUnlocks) ->
|
|
once(pairup(Locks,Unlocks,LocksUnlocks))
|
|
;
|
|
Locks = [],
|
|
Unlocks = []
|
|
),
|
|
list2conj(Locks,LockPhase),
|
|
list2conj(Unlocks,UnlockPhase),
|
|
list2conj(RestGuardListCopyCore,RestGuardCopyCore),
|
|
RestGuardCopy = (LockPhase,(RestGuardCopyCore,UnlockPhase)),
|
|
my_term_copy(Body,VarDict2,BodyCopy).
|
|
|
|
|
|
split_off_simple_guard([],_,[],[]).
|
|
split_off_simple_guard([G|Gs],VarDict,S,C) :-
|
|
( simple_guard(G,VarDict) ->
|
|
S = [G|Ss],
|
|
split_off_simple_guard(Gs,VarDict,Ss,C)
|
|
;
|
|
S = [],
|
|
C = [G|Gs]
|
|
).
|
|
|
|
% simple guard: cheap and benign (does not bind variables)
|
|
|
|
simple_guard(var(_), _).
|
|
simple_guard(nonvar(_), _).
|
|
simple_guard(ground(_), _).
|
|
simple_guard(number(_), _).
|
|
simple_guard(atom(_), _).
|
|
simple_guard(integer(_), _).
|
|
simple_guard(float(_), _).
|
|
|
|
simple_guard(_ > _ , _).
|
|
simple_guard(_ < _ , _).
|
|
simple_guard(_ =< _, _).
|
|
simple_guard(_ >= _, _).
|
|
simple_guard(_ =:= _, _).
|
|
simple_guard(_ == _, _).
|
|
|
|
simple_guard(X is _, VarDict) :-
|
|
\+ lookup_eq(VarDict,X,_).
|
|
|
|
simple_guard((G1,G2),VarDict) :-
|
|
simple_guard(G1,VarDict),
|
|
simple_guard(G2,VarDict).
|
|
|
|
simple_guard(\+ G, VarDict) :-
|
|
simple_guard(G, VarDict).
|
|
|
|
my_term_copy(X,Dict,Y) :-
|
|
my_term_copy(X,Dict,_,Y).
|
|
|
|
my_term_copy(X,Dict1,Dict2,Y) :-
|
|
( var(X) ->
|
|
( lookup_eq(Dict1,X,Y) ->
|
|
Dict2 = Dict1
|
|
; Dict2 = [X-Y|Dict1]
|
|
)
|
|
; functor(X,XF,XA),
|
|
functor(Y,XF,XA),
|
|
X =.. [_|XArgs],
|
|
Y =.. [_|YArgs],
|
|
my_term_copy_list(XArgs,Dict1,Dict2,YArgs)
|
|
).
|
|
|
|
my_term_copy_list([],Dict,Dict,[]).
|
|
my_term_copy_list([X|Xs],Dict1,Dict3,[Y|Ys]) :-
|
|
my_term_copy(X,Dict1,Dict2,Y),
|
|
my_term_copy_list(Xs,Dict2,Dict3,Ys).
|
|
|
|
gen_cond_susp_detachment(Susp,FA,SuspDetachment) :-
|
|
gen_uncond_susp_detachment(Susp,FA,UnCondSuspDetachment),
|
|
SuspDetachment =
|
|
( var(Susp) ->
|
|
true
|
|
; UnCondSuspDetachment
|
|
).
|
|
|
|
gen_uncond_susp_detachment(Susp,CFct/CAty,SuspDetachment) :-
|
|
atom_concat_list(['detach_',CFct, (/) ,CAty],Fct),
|
|
Detach =.. [Fct,Vars,Susp],
|
|
SuspDetachment =
|
|
(
|
|
'chr remove_constraint_internal'(Susp, Vars),
|
|
Detach
|
|
).
|
|
|
|
gen_uncond_susps_detachments([],[],true).
|
|
gen_uncond_susps_detachments([Susp|Susps],[Term|Terms],(SuspDetachment,SuspsDetachments)) :-
|
|
functor(Term,F,A),
|
|
gen_uncond_susp_detachment(Susp,F/A,SuspDetachment),
|
|
gen_uncond_susps_detachments(Susps,Terms,SuspsDetachments).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ _ _ _
|
|
%% / ___|(_)_ __ ___ _ __ __ _ __ _ __ _| |_(_) ___ _ __ / |
|
|
%% \___ \| | '_ ` _ \| '_ \ / _` |/ _` |/ _` | __| |/ _ \| '_ \ | |
|
|
%% ___) | | | | | | | |_) | (_| | (_| | (_| | |_| | (_) | | | | | |
|
|
%% |____/|_|_| |_| |_| .__/ \__,_|\__, |\__,_|\__|_|\___/|_| |_| |_|
|
|
%% |_| |___/
|
|
|
|
simpagation_head1_code(Head,RestHeads,OtherIDs,PragmaRule,F/A,_I,N,Constraints,Mod,Id,L,T) :-
|
|
PragmaRule = pragma(Rule,ids(_,Heads2IDs),Pragmas,_Name),
|
|
Rule = rule(_Heads,Heads2,_Guard,_Body),
|
|
|
|
head_info(Head,A,_Vars,Susp,HeadVars,HeadPairs),
|
|
head_arg_matches(HeadPairs,[],FirstMatching,VarDict1),
|
|
|
|
build_head(F,A,Id,HeadVars,ClauseHead),
|
|
|
|
append(RestHeads,Heads2,Heads),
|
|
append(OtherIDs,Heads2IDs,IDs),
|
|
reorder_heads(Head,Heads,IDs,NHeads,NIDs),
|
|
rest_heads_retrieval_and_matching(NHeads,NIDs,Pragmas,Head,Mod,N,Constraints,GetRestHeads,Susps,VarDict1,VarDict),
|
|
length(RestHeads,RN),
|
|
take(RN,Susps,Susps1),
|
|
|
|
guard_body_copies2(Rule,VarDict,GuardCopyList,BodyCopy),
|
|
guard_via_reschedule(GetRestHeads,GuardCopyList,ClauseHead-FirstMatching,RescheduledTest),
|
|
|
|
gen_uncond_susps_detachments(Susps1,RestHeads,SuspsDetachments),
|
|
gen_cond_susp_detachment(Susp,F/A,SuspDetachment),
|
|
|
|
Clause = ( ClauseHead :-
|
|
FirstMatching,
|
|
RescheduledTest,
|
|
!,
|
|
SuspsDetachments,
|
|
SuspDetachment,
|
|
BodyCopy
|
|
),
|
|
L = [Clause | T].
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ _ _ ____
|
|
%% / ___|(_)_ __ ___ _ __ __ _ __ _ __ _| |_(_) ___ _ __ |___ \
|
|
%% \___ \| | '_ ` _ \| '_ \ / _` |/ _` |/ _` | __| |/ _ \| '_ \ __) |
|
|
%% ___) | | | | | | | |_) | (_| | (_| | (_| | |_| | (_) | | | | / __/
|
|
%% |____/|_|_| |_| |_| .__/ \__,_|\__, |\__,_|\__|_|\___/|_| |_| |_____|
|
|
%% |_| |___/
|
|
|
|
%% Genereate prelude + worker predicate
|
|
%% prelude calls worker
|
|
%% worker iterates over one type of removed constraints
|
|
simpagation_head2_code(Head2,RestHeads2,RestIDs,PragmaRule,FA,I,N,Constraints,Mod,Id,L,T) :-
|
|
PragmaRule = pragma(Rule,ids(IDs1,_),Pragmas,_Name),
|
|
Rule = rule(Heads1,_,Guard,Body),
|
|
reorder_heads(Head2,Heads1,IDs1,[Head1|RestHeads1],[ID1|RestIDs1]), % Heads1 = [Head1|RestHeads1],
|
|
% IDs1 = [ID1|RestIDs1],
|
|
simpagation_head2_prelude(Head2,Head1,[RestHeads2,Heads1,Guard,Body],FA,I,N,Constraints,Mod,Id,L,L1),
|
|
extend_id(Id,Id2),
|
|
simpagation_head2_worker(Head2,Head1,ID1,RestHeads1,RestIDs1,RestHeads2,RestIDs,Rule,Pragmas,FA,I,N,Constraints,Mod,Id2,L1,T).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
simpagation_head2_prelude(Head,Head1,Rest,F/A,_I,N,Constraints,Mod,Id1,L,T) :-
|
|
head_info(Head,A,Vars,Susp,VarsSusp,HeadPairs),
|
|
build_head(F,A,Id1,VarsSusp,ClauseHead),
|
|
head_arg_matches(HeadPairs,[],FirstMatching,VarDict),
|
|
|
|
passive_head_via(Head1,[Head],[],Constraints,Mod,VarDict,ModConstraintsGoal,Attr,AttrDict),
|
|
instantiate_pattern_goals(AttrDict,N),
|
|
( N == 1 ->
|
|
AllSusps = Attr
|
|
;
|
|
functor(Head1,F1,A1),
|
|
nth1(Pos,Constraints,F1/A1), !,
|
|
make_attr(N,_,SuspsList,Attr),
|
|
nth1(Pos,SuspsList,AllSusps)
|
|
),
|
|
|
|
( Id1 == [0] -> % create suspension
|
|
gen_cond_allocation(Vars,Susp,F/A,VarsSusp,Mod,ConstraintAllocationGoal)
|
|
; ConstraintAllocationGoal = true
|
|
),
|
|
|
|
extend_id(Id1,DelegateId),
|
|
extra_active_delegate_variables(Head,Rest,VarDict,ExtraVars),
|
|
append([AllSusps|VarsSusp],ExtraVars,DelegateCallVars),
|
|
build_head(F,A,DelegateId,DelegateCallVars,Delegate),
|
|
|
|
PreludeClause =
|
|
( ClauseHead :-
|
|
FirstMatching,
|
|
ModConstraintsGoal,
|
|
!,
|
|
ConstraintAllocationGoal,
|
|
Delegate
|
|
),
|
|
L = [PreludeClause|T].
|
|
|
|
extra_active_delegate_variables(Term,Terms,VarDict,Vars) :-
|
|
Term =.. [_|Args],
|
|
delegate_variables(Term,Terms,VarDict,Args,Vars).
|
|
|
|
passive_delegate_variables(Term,PrevTerms,NextTerms,VarDict,Vars) :-
|
|
term_variables(PrevTerms,PrevVars),
|
|
delegate_variables(Term,NextTerms,VarDict,PrevVars,Vars).
|
|
|
|
delegate_variables(Term,Terms,VarDict,PrevVars,Vars) :-
|
|
term_variables(Term,V1),
|
|
term_variables(Terms,V2),
|
|
intersect_eq(V1,V2,V3),
|
|
list_difference_eq(V3,PrevVars,V4),
|
|
translate(V4,VarDict,Vars).
|
|
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
simpagation_head2_worker(Head2,Head1,ID1,RestHeads1,IDs1,RestHeads2,IDs2,Rule,Pragmas,FA,I,N,Constraints,Mod,Id,L,T) :-
|
|
Rule = rule(_,_,Guard,Body),
|
|
simpagation_head2_worker_end(Head2,[Head1,RestHeads1,RestHeads2,Guard,Body],FA,Id,L,L1),
|
|
simpagation_head2_worker_body(Head2,Head1,ID1,RestHeads1,IDs1,RestHeads2,IDs2,Rule,Pragmas,FA,I,N,Constraints,Mod,Id,L1,T).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
simpagation_head2_worker_body(Head2,Head1,ID1,RestHeads1,IDs1,RestHeads2,IDs2,Rule,Pragmas,F/A,_I,N,Constraints,Mod,Id,L,T) :-
|
|
gen_var(OtherSusp),
|
|
gen_var(OtherSusps),
|
|
|
|
head_info(Head2,A,_Vars,Susp,VarsSusp,Head2Pairs),
|
|
head_arg_matches(Head2Pairs,[],_,VarDict1),
|
|
|
|
Rule = rule(_,_,Guard,Body),
|
|
extra_active_delegate_variables(Head2,[Head1,RestHeads1,RestHeads2,Guard,Body],VarDict1,ExtraVars),
|
|
append([[OtherSusp|OtherSusps]|VarsSusp],ExtraVars,HeadVars),
|
|
build_head(F,A,Id,HeadVars,ClauseHead),
|
|
|
|
functor(Head1,_OtherF,OtherA),
|
|
head_info(Head1,OtherA,OtherVars,_,_,Head1Pairs),
|
|
head_arg_matches(Head1Pairs,VarDict1,FirstMatching,VarDict2),
|
|
|
|
OtherSuspension =.. [suspension,_,OtherState,_,_,_,_|OtherVars],
|
|
create_get_mutable_ref(active,OtherState,GetMutable),
|
|
IteratorSuspTest =
|
|
( OtherSusp = OtherSuspension,
|
|
GetMutable
|
|
),
|
|
|
|
( (RestHeads1 \== [] ; RestHeads2 \== []) ->
|
|
append(RestHeads1,RestHeads2,RestHeads),
|
|
append(IDs1,IDs2,IDs),
|
|
reorder_heads(Head1-Head2,RestHeads,IDs,NRestHeads,NIDs),
|
|
rest_heads_retrieval_and_matching(NRestHeads,NIDs,Pragmas,[Head1,Head2],Mod,N,Constraints,RestSuspsRetrieval,Susps,VarDict2,VarDict,[Head1],[OtherSusp],[]),
|
|
length(RestHeads1,RH1N),
|
|
take(RH1N,Susps,Susps1)
|
|
; RestSuspsRetrieval = [],
|
|
Susps1 = [],
|
|
VarDict = VarDict2
|
|
),
|
|
|
|
gen_uncond_susps_detachments([OtherSusp | Susps1],[Head1|RestHeads1],Susps1Detachments),
|
|
|
|
append([OtherSusps|VarsSusp],ExtraVars,RecursiveVars),
|
|
build_head(F,A,Id,RecursiveVars,RecursiveCall),
|
|
append([[]|VarsSusp],ExtraVars,RecursiveVars2),
|
|
build_head(F,A,Id,RecursiveVars2,RecursiveCall2),
|
|
|
|
guard_body_copies2(Rule,VarDict,GuardCopyList,BodyCopy),
|
|
guard_via_reschedule(RestSuspsRetrieval,GuardCopyList,v(ClauseHead,IteratorSuspTest,FirstMatching),RescheduledTest),
|
|
( BodyCopy \== true ->
|
|
gen_uncond_attach_goal(F/A,Susp,Mod,Attachment,Generation),
|
|
gen_state_cond_call(Susp,A,RecursiveCall,Generation,ConditionalRecursiveCall),
|
|
gen_state_cond_call(Susp,A,RecursiveCall2,Generation,ConditionalRecursiveCall2)
|
|
; Attachment = true,
|
|
ConditionalRecursiveCall = RecursiveCall,
|
|
ConditionalRecursiveCall2 = RecursiveCall2
|
|
),
|
|
|
|
( member(unique(ID1,UniqueKeys), Pragmas),
|
|
check_unique_keys(UniqueKeys,VarDict1) ->
|
|
Clause =
|
|
( ClauseHead :-
|
|
( IteratorSuspTest,
|
|
FirstMatching ->
|
|
( RescheduledTest ->
|
|
Susps1Detachments,
|
|
Attachment,
|
|
BodyCopy,
|
|
ConditionalRecursiveCall2
|
|
;
|
|
RecursiveCall2
|
|
)
|
|
;
|
|
RecursiveCall
|
|
)
|
|
)
|
|
;
|
|
Clause =
|
|
( ClauseHead :-
|
|
( IteratorSuspTest,
|
|
FirstMatching,
|
|
RescheduledTest ->
|
|
Susps1Detachments,
|
|
Attachment,
|
|
BodyCopy,
|
|
ConditionalRecursiveCall
|
|
;
|
|
RecursiveCall
|
|
)
|
|
)
|
|
),
|
|
L = [Clause | T].
|
|
|
|
gen_state_cond_call(Susp,N,Call,Generation,ConditionalCall) :-
|
|
length(Args,N),
|
|
Suspension =.. [suspension,_,State,_,NewGeneration,_,_|Args],
|
|
create_get_mutable_ref(active,State,GetState),
|
|
create_get_mutable_ref(Generation,NewGeneration,GetGeneration),
|
|
ConditionalCall =
|
|
( Susp = Suspension,
|
|
GetState,
|
|
GetGeneration ->
|
|
'chr update_mutable'(inactive,State),
|
|
Call
|
|
; true
|
|
).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
simpagation_head2_worker_end(Head,Rest,F/A,Id,L,T) :-
|
|
head_info(Head,A,_Vars,_Susp,VarsSusp,Pairs),
|
|
head_arg_matches(Pairs,[],_,VarDict),
|
|
extra_active_delegate_variables(Head,Rest,VarDict,ExtraVars),
|
|
append([[]|VarsSusp],ExtraVars,HeadVars),
|
|
build_head(F,A,Id,HeadVars,ClauseHead),
|
|
next_id(Id,ContinuationId),
|
|
build_head(F,A,ContinuationId,VarsSusp,ContinuationHead),
|
|
Clause = ( ClauseHead :- ContinuationHead ),
|
|
L = [Clause | T].
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ _
|
|
%% | _ \ _ __ ___ _ __ __ _ __ _ __ _| |_(_) ___ _ __
|
|
%% | |_) | '__/ _ \| '_ \ / _` |/ _` |/ _` | __| |/ _ \| '_ \
|
|
%% | __/| | | (_) | |_) | (_| | (_| | (_| | |_| | (_) | | | |
|
|
%% |_| |_| \___/| .__/ \__,_|\__, |\__,_|\__|_|\___/|_| |_|
|
|
%% |_| |___/
|
|
|
|
propagation_code(Head,RestHeads,Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,Id,L,T) :-
|
|
( RestHeads == [] ->
|
|
propagation_single_headed(Head,Rule,RuleNb,FA,Mod,Id,L,T)
|
|
;
|
|
propagation_multi_headed(Head,RestHeads,Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,Id,L,T)
|
|
).
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% Single headed propagation
|
|
%% everything in a single clause
|
|
propagation_single_headed(Head,Rule,RuleNb,F/A,Mod,Id,L,T) :-
|
|
head_info(Head,A,Vars,Susp,VarsSusp,HeadPairs),
|
|
build_head(F,A,Id,VarsSusp,ClauseHead),
|
|
|
|
inc_id(Id,NextId),
|
|
build_head(F,A,NextId,VarsSusp,NextHead),
|
|
|
|
NextCall = NextHead,
|
|
|
|
head_arg_matches(HeadPairs,[],HeadMatching,VarDict),
|
|
guard_body_copies(Rule,VarDict,GuardCopy,BodyCopy),
|
|
( Id == [0] ->
|
|
gen_cond_allocation(Vars,Susp,F/A,VarsSusp,Mod,Allocation),
|
|
Allocation1 = Allocation
|
|
;
|
|
Allocation1 = true
|
|
),
|
|
gen_uncond_attach_goal(F/A,Susp,Mod,Attachment,Generation),
|
|
|
|
gen_state_cond_call(Susp,A,NextCall,Generation,ConditionalNextCall),
|
|
|
|
Clause = (
|
|
ClauseHead :-
|
|
HeadMatching,
|
|
Allocation1,
|
|
'chr novel_production'(Susp,RuleNb), % optimisation of t(RuleNb,Susp)
|
|
GuardCopy,
|
|
!,
|
|
'chr extend_history'(Susp,RuleNb),
|
|
Attachment,
|
|
BodyCopy,
|
|
ConditionalNextCall
|
|
),
|
|
L = [Clause | T].
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% multi headed propagation
|
|
%% prelude + predicates to accumulate the necessary combinations of suspended
|
|
%% constraints + predicate to execute the body
|
|
propagation_multi_headed(Head,RestHeads,Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,Id,L,T) :-
|
|
RestHeads = [First|Rest],
|
|
propagation_prelude(Head,RestHeads,Rule,FA,N,Constraints,Mod,Id,L,L1),
|
|
extend_id(Id,ExtendedId),
|
|
propagation_nested_code(Rest,[First,Head],Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,ExtendedId,L1,T).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
propagation_prelude(Head,[First|Rest],Rule,F/A,N,Constraints,Mod,Id,L,T) :-
|
|
head_info(Head,A,Vars,Susp,VarsSusp,HeadPairs),
|
|
build_head(F,A,Id,VarsSusp,PreludeHead),
|
|
head_arg_matches(HeadPairs,[],FirstMatching,VarDict),
|
|
Rule = rule(_,_,Guard,Body),
|
|
extra_active_delegate_variables(Head,[First,Rest,Guard,Body],VarDict,ExtraVars),
|
|
|
|
passive_head_via(First,[Head],[],Constraints,Mod,VarDict,FirstSuspGoal,Attr,AttrDict),
|
|
instantiate_pattern_goals(AttrDict,N),
|
|
( N == 1 ->
|
|
Susps = Attr
|
|
;
|
|
functor(First,FirstFct,FirstAty),
|
|
make_attr(N,_Mask,SuspsList,Attr),
|
|
nth1(Pos,Constraints,FirstFct/FirstAty), !,
|
|
nth1(Pos,SuspsList,Susps)
|
|
),
|
|
|
|
( Id == [0] ->
|
|
gen_cond_allocation(Vars,Susp,F/A,VarsSusp,Mod,CondAllocation)
|
|
; CondAllocation = true
|
|
),
|
|
|
|
extend_id(Id,NestedId),
|
|
append([Susps|VarsSusp],ExtraVars,NestedVars),
|
|
build_head(F,A,NestedId,NestedVars,NestedHead),
|
|
NestedCall = NestedHead,
|
|
|
|
Prelude = (
|
|
PreludeHead :-
|
|
FirstMatching,
|
|
FirstSuspGoal,
|
|
!,
|
|
CondAllocation,
|
|
NestedCall
|
|
),
|
|
L = [Prelude|T].
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
propagation_nested_code([],[CurrentHead|PreHeads],Rule,RuleNb,RestHeadNb,FA,_,_Constraints,Mod,Id,L,T) :-
|
|
propagation_end([CurrentHead|PreHeads],[],Rule,FA,Id,L,L1),
|
|
propagation_body(CurrentHead,PreHeads,Rule,RuleNb,RestHeadNb,FA,Mod,Id,L1,T).
|
|
|
|
propagation_nested_code([Head|RestHeads],PreHeads,Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,Id,L,T) :-
|
|
propagation_end(PreHeads,[Head|RestHeads],Rule,FA,Id,L,L1),
|
|
propagation_accumulator([Head|RestHeads],PreHeads,Rule,FA,N,Constraints,Mod,Id,L1,L2),
|
|
inc_id(Id,IncId),
|
|
propagation_nested_code(RestHeads,[Head|PreHeads],Rule,RuleNb,RestHeadNb,FA,N,Constraints,Mod,IncId,L2,T).
|
|
|
|
propagation_body(CurrentHead,PreHeads,Rule,RuleNb,RestHeadNb,F/A,Mod,Id,L,T) :-
|
|
Rule = rule(_,_,Guard,Body),
|
|
get_prop_inner_loop_vars(PreHeads,[CurrentHead,Guard,Body],PreVarsAndSusps,VarDict1,Susp,RestSusps),
|
|
gen_var(OtherSusp),
|
|
gen_var(OtherSusps),
|
|
functor(CurrentHead,_OtherF,OtherA),
|
|
gen_vars(OtherA,OtherVars),
|
|
Suspension =.. [suspension,_,State,_,_,_,_|OtherVars],
|
|
create_get_mutable_ref(active,State,GetMutable),
|
|
CurrentSuspTest = (
|
|
OtherSusp = Suspension,
|
|
GetMutable
|
|
),
|
|
ClauseVars = [[OtherSusp|OtherSusps]|PreVarsAndSusps],
|
|
build_head(F,A,Id,ClauseVars,ClauseHead),
|
|
RecursiveVars = [OtherSusps|PreVarsAndSusps],
|
|
build_head(F,A,Id,RecursiveVars,RecursiveHead),
|
|
RecursiveCall = RecursiveHead,
|
|
CurrentHead =.. [_|OtherArgs],
|
|
pairup(OtherArgs,OtherVars,OtherPairs),
|
|
head_arg_matches(OtherPairs,VarDict1,Matching,VarDict),
|
|
|
|
different_from_other_susps(CurrentHead,OtherSusp,PreHeads,RestSusps,DiffSuspGoals),
|
|
|
|
guard_body_copies(Rule,VarDict,GuardCopy,BodyCopy),
|
|
gen_uncond_attach_goal(F/A,Susp,Mod,Attach,Generation),
|
|
gen_state_cond_call(Susp,A,RecursiveCall,Generation,ConditionalRecursiveCall),
|
|
|
|
history_susps(RestHeadNb,[OtherSusp|RestSusps],Susp,[],HistorySusps),
|
|
bagof('chr novel_production'(X,Y),( member(X,HistorySusps), Y = TupleVar) ,NovelProductionsList),
|
|
list2conj(NovelProductionsList,NovelProductions),
|
|
Tuple =.. [t,RuleNb|HistorySusps],
|
|
|
|
Clause = (
|
|
ClauseHead :-
|
|
( CurrentSuspTest,
|
|
DiffSuspGoals,
|
|
Matching,
|
|
TupleVar = Tuple,
|
|
NovelProductions,
|
|
GuardCopy ->
|
|
'chr extend_history'(Susp,TupleVar),
|
|
Attach,
|
|
BodyCopy,
|
|
ConditionalRecursiveCall
|
|
; RecursiveCall
|
|
)
|
|
),
|
|
L = [Clause|T].
|
|
|
|
|
|
history_susps(Count,OtherSusps,Susp,Acc,HistorySusps) :-
|
|
( Count == 0 ->
|
|
reverse(OtherSusps,ReversedSusps),
|
|
append(ReversedSusps,[Susp|Acc],HistorySusps)
|
|
;
|
|
OtherSusps = [OtherSusp|RestOtherSusps],
|
|
NCount is Count - 1,
|
|
history_susps(NCount,RestOtherSusps,Susp,[OtherSusp|Acc],HistorySusps)
|
|
).
|
|
|
|
|
|
get_prop_inner_loop_vars([Head],Terms,HeadVars,VarDict,Susp,[]) :-
|
|
!,
|
|
functor(Head,_F,A),
|
|
head_info(Head,A,_Vars,Susp,VarsSusp,Pairs),
|
|
head_arg_matches(Pairs,[],_,VarDict),
|
|
extra_active_delegate_variables(Head,Terms,VarDict,ExtraVars),
|
|
append(VarsSusp,ExtraVars,HeadVars).
|
|
get_prop_inner_loop_vars([Head|Heads],Terms,VarsSusps,NVarDict,MainSusp,[Susp|RestSusps]) :-
|
|
get_prop_inner_loop_vars(Heads,[Head|Terms],RestVarsSusp,VarDict,MainSusp,RestSusps),
|
|
functor(Head,_F,A),
|
|
gen_var(Susps),
|
|
head_info(Head,A,_Vars,Susp,_VarsSusp,Pairs),
|
|
head_arg_matches(Pairs,VarDict,_,NVarDict),
|
|
passive_delegate_variables(Head,Heads,Terms,NVarDict,HeadVars),
|
|
append(HeadVars,[Susp,Susps|RestVarsSusp],VarsSusps).
|
|
|
|
propagation_end([CurrentHead|PrevHeads],NextHeads,Rule,F/A,Id,L,T) :-
|
|
Rule = rule(_,_,Guard,Body),
|
|
gen_var_susp_list_for(PrevHeads,[CurrentHead,NextHeads,Guard,Body],_,VarsAndSusps,AllButFirst,FirstSusp),
|
|
|
|
Vars = [ [] | VarsAndSusps],
|
|
|
|
build_head(F,A,Id,Vars,Head),
|
|
|
|
( Id = [0|_] ->
|
|
next_id(Id,PrevId),
|
|
PrevVarsAndSusps = AllButFirst
|
|
;
|
|
dec_id(Id,PrevId),
|
|
PrevVarsAndSusps = [FirstSusp|AllButFirst]
|
|
),
|
|
|
|
build_head(F,A,PrevId,PrevVarsAndSusps,PrevHead),
|
|
PredecessorCall = PrevHead,
|
|
|
|
Clause = (
|
|
Head :-
|
|
PredecessorCall
|
|
),
|
|
L = [Clause | T].
|
|
|
|
gen_var_susp_list_for([Head],Terms,VarDict,HeadVars,VarsSusp,Susp) :-
|
|
!,
|
|
functor(Head,_F,A),
|
|
head_info(Head,A,_Vars,Susp,VarsSusp,HeadPairs),
|
|
head_arg_matches(HeadPairs,[],_,VarDict),
|
|
extra_active_delegate_variables(Head,Terms,VarDict,ExtraVars),
|
|
append(VarsSusp,ExtraVars,HeadVars).
|
|
gen_var_susp_list_for([Head|Heads],Terms,NVarDict,VarsSusps,Rest,Susps) :-
|
|
gen_var_susp_list_for(Heads,[Head|Terms],VarDict,Rest,_,_),
|
|
functor(Head,_F,A),
|
|
gen_var(Susps),
|
|
head_info(Head,A,_Vars,Susp,_VarsSusp,HeadPairs),
|
|
head_arg_matches(HeadPairs,VarDict,_,NVarDict),
|
|
passive_delegate_variables(Head,Heads,Terms,NVarDict,HeadVars),
|
|
append(HeadVars,[Susp,Susps|Rest],VarsSusps).
|
|
|
|
propagation_accumulator([NextHead|RestHeads],[CurrentHead|PreHeads],Rule,F/A,N,Constraints,Mod,Id,L,T) :-
|
|
Rule = rule(_,_,Guard,Body),
|
|
pre_vars_and_susps(PreHeads,[CurrentHead,NextHead,RestHeads,Guard,Body],PreVarsAndSusps,VarDict,PreSusps),
|
|
gen_var(OtherSusps),
|
|
functor(CurrentHead,_OtherF,OtherA),
|
|
gen_vars(OtherA,OtherVars),
|
|
head_info(CurrentHead,OtherA,OtherVars,OtherSusp,_VarsSusp,HeadPairs),
|
|
head_arg_matches(HeadPairs,VarDict,FirstMatching,VarDict1),
|
|
|
|
OtherSuspension =.. [suspension,_,State,_,_,_,_|OtherVars],
|
|
|
|
different_from_other_susps(CurrentHead,OtherSusp,PreHeads,PreSusps,DiffSuspGoals),
|
|
create_get_mutable_ref(active,State,GetMutable),
|
|
CurrentSuspTest = (
|
|
OtherSusp = OtherSuspension,
|
|
GetMutable,
|
|
DiffSuspGoals,
|
|
FirstMatching
|
|
),
|
|
functor(NextHead,NextF,NextA),
|
|
passive_head_via(NextHead,[CurrentHead|PreHeads],[],Constraints,Mod,VarDict1,NextSuspGoal,Attr,AttrDict),
|
|
instantiate_pattern_goals(AttrDict,N),
|
|
( N == 1 ->
|
|
NextSusps = Attr
|
|
;
|
|
nth1(Position,Constraints,NextF/NextA), !,
|
|
make_attr(N,_Mask,SuspsList,Attr),
|
|
nth1(Position,SuspsList,NextSusps)
|
|
),
|
|
inc_id(Id,NestedId),
|
|
ClauseVars = [[OtherSusp|OtherSusps]|PreVarsAndSusps],
|
|
build_head(F,A,Id,ClauseVars,ClauseHead),
|
|
passive_delegate_variables(CurrentHead,PreHeads,[NextHead,RestHeads,Guard,Body],VarDict1,CurrentHeadVars),
|
|
append([NextSusps|CurrentHeadVars],[OtherSusp,OtherSusps|PreVarsAndSusps],NestedVars),
|
|
build_head(F,A,NestedId,NestedVars,NestedHead),
|
|
|
|
RecursiveVars = [OtherSusps|PreVarsAndSusps],
|
|
build_head(F,A,Id,RecursiveVars,RecursiveHead),
|
|
Clause = (
|
|
ClauseHead :-
|
|
( CurrentSuspTest,
|
|
NextSuspGoal
|
|
->
|
|
NestedHead
|
|
; RecursiveHead
|
|
)
|
|
),
|
|
L = [Clause|T].
|
|
|
|
pre_vars_and_susps([Head],Terms,HeadVars,VarDict,[]) :-
|
|
!,
|
|
functor(Head,_F,A),
|
|
head_info(Head,A,_Vars,_Susp,VarsSusp,HeadPairs),
|
|
head_arg_matches(HeadPairs,[],_,VarDict),
|
|
extra_active_delegate_variables(Head,Terms,VarDict,ExtraVars),
|
|
append(VarsSusp,ExtraVars,HeadVars).
|
|
pre_vars_and_susps([Head|Heads],Terms,NVSs,NVarDict,[Susp|Susps]) :-
|
|
pre_vars_and_susps(Heads,[Head|Terms],VSs,VarDict,Susps),
|
|
functor(Head,_F,A),
|
|
gen_var(NextSusps),
|
|
head_info(Head,A,_Vars,Susp,_VarsSusp,HeadPairs),
|
|
head_arg_matches(HeadPairs,VarDict,_,NVarDict),
|
|
passive_delegate_variables(Head,Heads,Terms,NVarDict,HeadVars),
|
|
append(HeadVars,[Susp,NextSusps|VSs],NVSs).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ _ _ _
|
|
%% | _ \ __ _ ___ ___(_)_ _____ | | | | ___ __ _ __| |
|
|
%% | |_) / _` / __/ __| \ \ / / _ \ | |_| |/ _ \/ _` |/ _` |
|
|
%% | __/ (_| \__ \__ \ |\ V / __/ | _ | __/ (_| | (_| |
|
|
%% |_| \__,_|___/___/_| \_/ \___| |_| |_|\___|\__,_|\__,_|
|
|
%%
|
|
%% ____ _ _ _
|
|
%% | _ \ ___| |_ _ __(_) _____ ____ _| |
|
|
%% | |_) / _ \ __| '__| |/ _ \ \ / / _` | |
|
|
%% | _ < __/ |_| | | | __/\ V / (_| | |
|
|
%% |_| \_\___|\__|_| |_|\___| \_/ \__,_|_|
|
|
%%
|
|
%% ____ _ _
|
|
%% | _ \ ___ ___ _ __ __| | ___ _ __(_)_ __ __ _
|
|
%% | |_) / _ \/ _ \| '__/ _` |/ _ \ '__| | '_ \ / _` |
|
|
%% | _ < __/ (_) | | | (_| | __/ | | | | | | (_| |
|
|
%% |_| \_\___|\___/|_| \__,_|\___|_| |_|_| |_|\__, |
|
|
%% |___/
|
|
|
|
reorder_heads(Head,RestHeads,RestIDs,NRestHeads,NRestIDs) :-
|
|
( chr_pp_flag(reorder_heads,on) ->
|
|
reorder_heads_main(Head,RestHeads,RestIDs,NRestHeads,NRestIDs)
|
|
;
|
|
NRestHeads = RestHeads,
|
|
NRestIDs = RestIDs
|
|
).
|
|
|
|
reorder_heads_main(Head,RestHeads,RestIDs,NRestHeads,NRestIDs) :-
|
|
term_variables(Head,KnownVars),
|
|
reorder_heads1(RestHeads,RestIDs,KnownVars,NRestHeads,NRestIDs).
|
|
|
|
reorder_heads1(Heads,IDs,KnownVars,NHeads,NIDs) :-
|
|
( Heads == [] ->
|
|
NHeads = [],
|
|
NIDs = []
|
|
;
|
|
NHeads = [BestHead|BestTail],
|
|
NIDs = [BestID | BestIDs],
|
|
select_best_head(Heads,IDs,KnownVars,BestHead,BestID,RestHeads,RestIDs,NKnownVars),
|
|
reorder_heads1(RestHeads,RestIDs,NKnownVars,BestTail,BestIDs)
|
|
).
|
|
|
|
select_best_head(Heads,IDs,KnownVars,BestHead,BestID,RestHeads,RestIDs,NKnownVars) :-
|
|
( bagof(tuple(Score,Head,ID,Rest,RIDs), (
|
|
select2(Head,ID, Heads,IDs,Rest,RIDs) ,
|
|
order_score(Head,KnownVars,Rest,Score)
|
|
),
|
|
Scores) -> true ; Scores = []),
|
|
max_go_list(Scores,tuple(_,BestHead,BestID,RestHeads,RestIDs)),
|
|
term_variables(BestHead,BestHeadVars),
|
|
( setof(V, (
|
|
member(V,BestHeadVars),
|
|
\+ memberchk_eq(V,KnownVars)
|
|
),
|
|
NewVars) -> true ; NewVars = []),
|
|
append(NewVars,KnownVars,NKnownVars).
|
|
|
|
reorder_heads(Head,RestHeads,NRestHeads) :-
|
|
term_variables(Head,KnownVars),
|
|
reorder_heads1(RestHeads,KnownVars,NRestHeads).
|
|
|
|
reorder_heads1(Heads,KnownVars,NHeads) :-
|
|
( Heads == [] ->
|
|
NHeads = []
|
|
;
|
|
NHeads = [BestHead|BestTail],
|
|
select_best_head(Heads,KnownVars,BestHead,RestHeads,NKnownVars),
|
|
reorder_heads1(RestHeads,NKnownVars,BestTail)
|
|
).
|
|
|
|
select_best_head(Heads,KnownVars,BestHead,RestHeads,NKnownVars) :-
|
|
( bagof(tuple(Score,Head,Rest), (
|
|
select(Head,Heads,Rest) ,
|
|
order_score(Head,KnownVars,Rest,Score)
|
|
),
|
|
Scores) -> true ; Scores = []),
|
|
max_go_list(Scores,tuple(_,BestHead,RestHeads)),
|
|
term_variables(BestHead,BestHeadVars),
|
|
( setof(V, (
|
|
member(V,BestHeadVars),
|
|
\+ memberchk_eq(V,KnownVars)
|
|
),
|
|
NewVars) -> true ; NewVars = []),
|
|
append(NewVars,KnownVars,NKnownVars).
|
|
|
|
order_score(Head,KnownVars,Rest,Score) :-
|
|
term_variables(Head,HeadVars),
|
|
term_variables(Rest,RestVars),
|
|
order_score_vars(HeadVars,KnownVars,RestVars,0,Score).
|
|
|
|
order_score_vars([],_,_,Score,NScore) :-
|
|
( Score == 0 ->
|
|
NScore = 99999
|
|
;
|
|
NScore = Score
|
|
).
|
|
order_score_vars([V|Vs],KnownVars,RestVars,Score,NScore) :-
|
|
( memberchk_eq(V,KnownVars) ->
|
|
TScore is Score + 1
|
|
; memberchk_eq(V,RestVars) ->
|
|
TScore is Score + 1
|
|
;
|
|
TScore = Score
|
|
),
|
|
order_score_vars(Vs,KnownVars,RestVars,TScore,NScore).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ___ _ _ _
|
|
%% |_ _|_ __ | (_)_ __ (_)_ __ __ _
|
|
%% | || '_ \| | | '_ \| | '_ \ / _` |
|
|
%% | || | | | | | | | | | | | | (_| |
|
|
%% |___|_| |_|_|_|_| |_|_|_| |_|\__, |
|
|
%% |___/
|
|
|
|
%% SWI begin
|
|
create_get_mutable_ref(V,M,GM) :- GM = (M = mutable(V)).
|
|
%% SWI end
|
|
|
|
%% SICStus begin
|
|
%% create_get_mutable_ref(V,M,GM) :- GM = (get_mutable(V,M)).
|
|
%% SICStus end
|
|
|
|
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% ____ _ ____ _ _
|
|
%% / ___|___ __| | ___ / ___| | ___ __ _ _ __ (_)_ __ __ _
|
|
%% | | / _ \ / _` |/ _ \ | | | |/ _ \/ _` | '_ \| | '_ \ / _` |
|
|
%% | |__| (_) | (_| | __/ | |___| | __/ (_| | | | | | | | | (_| |
|
|
%% \____\___/ \__,_|\___| \____|_|\___|\__,_|_| |_|_|_| |_|\__, |
|
|
%% |___/
|
|
%%
|
|
%% removes redundant 'true's and other trivial but potentially non-free constructs
|
|
|
|
clean_clauses([],[]).
|
|
clean_clauses([C|Cs],[NC|NCs]) :-
|
|
clean_clause(C,NC),
|
|
clean_clauses(Cs,NCs).
|
|
|
|
clean_clause(Clause,NClause) :-
|
|
( Clause = (Head :- Body) ->
|
|
clean_goal(Body,NBody),
|
|
( NBody == true ->
|
|
NClause = Head
|
|
;
|
|
NClause = (Head :- NBody)
|
|
)
|
|
;
|
|
NClause = Clause
|
|
).
|
|
|
|
clean_goal(Goal,NGoal) :-
|
|
var(Goal), !,
|
|
NGoal = Goal.
|
|
clean_goal((G1,G2),NGoal) :-
|
|
!,
|
|
clean_goal(G1,NG1),
|
|
clean_goal(G2,NG2),
|
|
( NG1 == true ->
|
|
NGoal = NG2
|
|
; NG2 == true ->
|
|
NGoal = NG1
|
|
;
|
|
NGoal = (NG1,NG2)
|
|
).
|
|
clean_goal((If -> Then ; Else),NGoal) :-
|
|
!,
|
|
clean_goal(If,NIf),
|
|
( NIf == true ->
|
|
clean_goal(Then,NThen),
|
|
NGoal = NThen
|
|
; NIf == fail ->
|
|
clean_goal(Else,NElse),
|
|
NGoal = NElse
|
|
;
|
|
clean_goal(Then,NThen),
|
|
clean_goal(Else,NElse),
|
|
NGoal = (NIf -> NThen; NElse)
|
|
).
|
|
clean_goal((G1 ; G2),NGoal) :-
|
|
!,
|
|
clean_goal(G1,NG1),
|
|
clean_goal(G2,NG2),
|
|
( NG1 == fail ->
|
|
NGoal = NG2
|
|
; NG2 == fail ->
|
|
NGoal = NG1
|
|
;
|
|
NGoal = (NG1 ; NG2)
|
|
).
|
|
clean_goal(once(G),NGoal) :-
|
|
!,
|
|
clean_goal(G,NG),
|
|
( NG == true ->
|
|
NGoal = true
|
|
; NG == fail ->
|
|
NGoal = fail
|
|
;
|
|
NGoal = once(NG)
|
|
).
|
|
clean_goal((G1 -> G2),NGoal) :-
|
|
!,
|
|
clean_goal(G1,NG1),
|
|
( NG1 == true ->
|
|
clean_goal(G2,NGoal)
|
|
; NG1 == fail ->
|
|
NGoal = fail
|
|
;
|
|
clean_goal(G2,NG2),
|
|
NGoal = (NG1 -> NG2)
|
|
).
|
|
clean_goal(Goal,Goal).
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
%% _ _ _ _ _ _ _
|
|
%% | | | | |_(_) (_) |_ _ _
|
|
%% | | | | __| | | | __| | | |
|
|
%% | |_| | |_| | | | |_| |_| |
|
|
%% \___/ \__|_|_|_|\__|\__, |
|
|
%% |___/
|
|
|
|
gen_var(_).
|
|
gen_vars(N,Xs) :-
|
|
length(Xs,N).
|
|
|
|
head_info(Head,A,Vars,Susp,VarsSusp,HeadPairs) :-
|
|
vars_susp(A,Vars,Susp,VarsSusp),
|
|
Head =.. [_|Args],
|
|
pairup(Args,Vars,HeadPairs).
|
|
|
|
inc_id([N|Ns],[O|Ns]) :-
|
|
O is N + 1.
|
|
dec_id([N|Ns],[M|Ns]) :-
|
|
M is N - 1.
|
|
|
|
extend_id(Id,[0|Id]).
|
|
|
|
next_id([_,N|Ns],[O|Ns]) :-
|
|
O is N + 1.
|
|
|
|
build_head(F,A,Id,Args,Head) :-
|
|
buildName(F,A,Id,Name),
|
|
Head =.. [Name|Args].
|
|
|
|
buildName(Fct,Aty,List,Result) :-
|
|
atom_concat(Fct, (/) ,FctSlash),
|
|
atomic_concat(FctSlash,Aty,FctSlashAty),
|
|
buildName_(List,FctSlashAty,Result).
|
|
|
|
buildName_([],Name,Name).
|
|
buildName_([N|Ns],Name,Result) :-
|
|
buildName_(Ns,Name,Name1),
|
|
atom_concat(Name1,'__',NameDash), % '_' is a char :-(
|
|
atomic_concat(NameDash,N,Result).
|
|
|
|
vars_susp(A,Vars,Susp,VarsSusp) :-
|
|
length(Vars,A),
|
|
append(Vars,[Susp],VarsSusp).
|
|
|
|
make_attr(N,Mask,SuspsList,Attr) :-
|
|
length(SuspsList,N),
|
|
Attr =.. [v,Mask|SuspsList].
|
|
|
|
or_pattern(Pos,Pat) :-
|
|
Pow is Pos - 1,
|
|
Pat is 1 << Pow. % was 2 ** X
|
|
|
|
and_pattern(Pos,Pat) :-
|
|
X is Pos - 1,
|
|
Y is 1 << X, % was 2 ** X
|
|
Pat is -(Y + 1).
|
|
|
|
conj2list(Conj,L) :- %% transform conjunctions to list
|
|
conj2list(Conj,L,[]).
|
|
|
|
conj2list(Conj,L,T) :-
|
|
Conj = (G1,G2), !,
|
|
conj2list(G1,L,T1),
|
|
conj2list(G2,T1,T).
|
|
conj2list(G,[G | T],T).
|
|
|
|
list2conj([],true).
|
|
list2conj([G],X) :- !, X = G.
|
|
list2conj([G|Gs],C) :-
|
|
( G == true -> %% remove some redundant trues
|
|
list2conj(Gs,C)
|
|
;
|
|
C = (G,R),
|
|
list2conj(Gs,R)
|
|
).
|
|
|
|
atom_concat_list([X],X) :- ! .
|
|
atom_concat_list([X|Xs],A) :-
|
|
atom_concat_list(Xs,B),
|
|
atomic_concat(X,B,A).
|
|
|
|
atomic_concat(A,B,C) :-
|
|
make_atom(A,AA),
|
|
make_atom(B,BB),
|
|
atom_concat(AA,BB,C).
|
|
|
|
make_atom(A,AA) :-
|
|
(
|
|
atom(A) ->
|
|
AA = A
|
|
;
|
|
number(A) ->
|
|
number_codes(A,AL),
|
|
atom_codes(AA,AL)
|
|
).
|
|
|
|
set_elems([],_).
|
|
set_elems([X|Xs],X) :-
|
|
set_elems(Xs,X).
|
|
|
|
member2([X|_],[Y|_],X-Y).
|
|
member2([_|Xs],[_|Ys],P) :-
|
|
member2(Xs,Ys,P).
|
|
|
|
select2(X, Y, [X|Xs], [Y|Ys], Xs, Ys).
|
|
select2(X, Y, [X1|Xs], [Y1|Ys], [X1|NXs], [Y1|NYs]) :-
|
|
select2(X, Y, Xs, Ys, NXs, NYs).
|
|
|
|
pair_all_with([],_,[]).
|
|
pair_all_with([X|Xs],Y,[X-Y|Rest]) :-
|
|
pair_all_with(Xs,Y,Rest).
|
|
|
|
default(X,Def) :-
|
|
( var(X) -> X = Def ; true).
|
|
|
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
|
|
|
|
%% SWI begin
|
|
verbosity_on :- prolog_flag(verbose,V), V == yes.
|
|
%% SWI end
|
|
|
|
%% SICStus begin
|
|
%% verbosity_on. % at the moment
|
|
%% SICStus end
|