public Predicate exec(Prolog engine) { // '$dcg_connect'(A,(B->C),D,((B->C),D)):-! Term a1, a2, a3, a4, a5, a6, a7; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; a3 = engine.aregs[3]; a4 = engine.aregs[4]; cont = engine.cont; // '$dcg_connect'(A,(B->C),D,((B->C),D)):-['$neck_cut'] a2 = a2.dereference(); if (a2.isStructure()) { if (!s1.equals(((StructureTerm) a2).functor())) return engine.fail(); Term[] args = ((StructureTerm) a2).args(); a5 = args[0]; a6 = args[1]; } else if (a2.isVariable()) { a5 = new VariableTerm(engine); a6 = new VariableTerm(engine); Term[] args = {a5, a6}; ((VariableTerm) a2).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } a4 = a4.dereference(); if (a4.isStructure()) { if (!s2.equals(((StructureTerm) a4).functor())) return engine.fail(); Term[] args = ((StructureTerm) a4).args(); a7 = args[0]; if (!a3.unify(args[1], engine.trail)) return engine.fail(); } else if (a4.isVariable()) { a7 = new VariableTerm(engine); Term[] args = {a7, a3}; ((VariableTerm) a4).bind(new StructureTerm(s2, args), engine.trail); } else { return engine.fail(); } a7 = a7.dereference(); if (a7.isStructure()) { if (!s1.equals(((StructureTerm) a7).functor())) return engine.fail(); Term[] args = ((StructureTerm) a7).args(); if (!a5.unify(args[0], engine.trail)) return engine.fail(); if (!a6.unify(args[1], engine.trail)) return engine.fail(); } else if (a7.isVariable()) { Term[] args = {a5, a6}; ((VariableTerm) a7).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } // START inline expansion of $neck_cut engine.neckCut(); // END inline expansion return cont; }
public Predicate exec(Prolog engine) { // '$dcg_connect'((A->B),(C->D),E,(C->F)):-!,'$dcg_and'(D,E,F) Term a1, a2, a3, a4, a5, a6, a7; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; a3 = engine.aregs[3]; a4 = engine.aregs[4]; cont = engine.cont; // '$dcg_connect'((A->B),(C->D),E,(C->F)):-['$neck_cut','$dcg_and'(D,E,F)] a1 = a1.dereference(); if (a1.isStructure()) { if (!s1.equals(((StructureTerm) a1).functor())) return engine.fail(); Term[] args = ((StructureTerm) a1).args(); } else if (a1.isVariable()) { Term[] args = {new VariableTerm(engine), new VariableTerm(engine)}; ((VariableTerm) a1).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } a2 = a2.dereference(); if (a2.isStructure()) { if (!s1.equals(((StructureTerm) a2).functor())) return engine.fail(); Term[] args = ((StructureTerm) a2).args(); a5 = args[0]; a6 = args[1]; } else if (a2.isVariable()) { a5 = new VariableTerm(engine); a6 = new VariableTerm(engine); Term[] args = {a5, a6}; ((VariableTerm) a2).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } a4 = a4.dereference(); if (a4.isStructure()) { if (!s1.equals(((StructureTerm) a4).functor())) return engine.fail(); Term[] args = ((StructureTerm) a4).args(); if (!a5.unify(args[0], engine.trail)) return engine.fail(); a7 = args[1]; } else if (a4.isVariable()) { a7 = new VariableTerm(engine); Term[] args = {a5, a7}; ((VariableTerm) a4).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } // START inline expansion of $neck_cut engine.neckCut(); // END inline expansion return new PRED_$dcg_and_3(a6, a3, a7, cont); }
public Predicate exec(Prolog engine) { // '$variants_subset'([],A,[],[],[]):-! Term a1, a2, a3, a4, a5; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; a3 = engine.aregs[3]; a4 = engine.aregs[4]; a5 = engine.aregs[5]; cont = engine.cont; // '$variants_subset'([],A,[],[],[]):-['$neck_cut'] a1 = a1.dereference(); if (a1.isSymbol()) { if (!a1.equals(s1)) return engine.fail(); } else if (a1.isVariable()) { ((VariableTerm) a1).bind(s1, engine.trail); } else { return engine.fail(); } a3 = a3.dereference(); if (a3.isSymbol()) { if (!a3.equals(s1)) return engine.fail(); } else if (a3.isVariable()) { ((VariableTerm) a3).bind(s1, engine.trail); } else { return engine.fail(); } a4 = a4.dereference(); if (a4.isSymbol()) { if (!a4.equals(s1)) return engine.fail(); } else if (a4.isVariable()) { ((VariableTerm) a4).bind(s1, engine.trail); } else { return engine.fail(); } a5 = a5.dereference(); if (a5.isSymbol()) { if (!a5.equals(s1)) return engine.fail(); } else if (a5.isVariable()) { ((VariableTerm) a5).bind(s1, engine.trail); } else { return engine.fail(); } // START inline expansion of $neck_cut engine.neckCut(); // END inline expansion return cont; }
public Predicate exec(Prolog engine) { // '$set_prolog_flag0'(no,A,B,C):-!,illarg(permission(modify,flag,A,D),set_prolog_flag(A,B),E) Term a1, a2, a3, a4, a5, a6; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; a3 = engine.aregs[3]; a4 = engine.aregs[4]; cont = engine.cont; // '$set_prolog_flag0'(no,A,B,C):-['$neck_cut',illarg(permission(modify,flag,A,D),set_prolog_flag(A,B),E)] a1 = a1.dereference(); if (a1.isSymbol()) { if (!a1.equals(s1)) return engine.fail(); } else if (a1.isVariable()) { ((VariableTerm) a1).bind(s1, engine.trail); } else { return engine.fail(); } // START inline expansion of $neck_cut engine.neckCut(); // END inline expansion Term[] y1 = {s3, s4, a2, new VariableTerm(engine)}; a5 = new StructureTerm(s2, y1); Term[] y2 = {a2, a3}; a6 = new StructureTerm(s5, y2); return new PRED_illarg_3(a5, a6, new VariableTerm(engine), cont); }
public Predicate exec(Prolog engine) { // '$variants_subset'([A|B],C,D,E,[A|F]):-'$variants_subset'(B,C,D,E,F) Term a1, a2, a3, a4, a5, a6, a7, a8; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; a3 = engine.aregs[3]; a4 = engine.aregs[4]; a5 = engine.aregs[5]; cont = engine.cont; // '$variants_subset'([A|B],C,D,E,[A|F]):-['$variants_subset'(B,C,D,E,F)] a1 = a1.dereference(); if (a1.isList()) { Term[] args = {((ListTerm) a1).car(), ((ListTerm) a1).cdr()}; a6 = args[0]; a7 = args[1]; } else if (a1.isVariable()) { a6 = new VariableTerm(engine); a7 = new VariableTerm(engine); ((VariableTerm) a1).bind(new ListTerm(a6, a7), engine.trail); } else { return engine.fail(); } a5 = a5.dereference(); if (a5.isList()) { Term[] args = {((ListTerm) a5).car(), ((ListTerm) a5).cdr()}; if (!a6.unify(args[0], engine.trail)) return engine.fail(); a8 = args[1]; } else if (a5.isVariable()) { a8 = new VariableTerm(engine); ((VariableTerm) a5).bind(new ListTerm(a6, a8), engine.trail); } else { return engine.fail(); } engine.aregs[1] = a7; engine.aregs[2] = a2; engine.aregs[3] = a3; engine.aregs[4] = a4; engine.aregs[5] = a8; engine.cont = cont; return _$variants_subset_5_top; }
public Predicate exec(Prolog engine) { // '$mem_pair'(A,[B|C]):-'$mem_pair'(A,C) Term a1, a2, a3; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; cont = engine.cont; // '$mem_pair'(A,[B|C]):-['$mem_pair'(A,C)] a2 = a2.dereference(); if (a2.isList()) { Term[] args = {((ListTerm) a2).car(), ((ListTerm) a2).cdr()}; a3 = args[1]; } else if (a2.isVariable()) { a3 = new VariableTerm(engine); ((VariableTerm) a2).bind(new ListTerm(new VariableTerm(engine), a3), engine.trail); } else { return engine.fail(); } engine.aregs[1] = a1; engine.aregs[2] = a3; engine.cont = cont; return _$mem_pair_2_top; }
public Predicate exec(Prolog engine) { // '$mem_pair'(A=B,[C=D|E]):-A==C,!,B=D Term a1, a2, a3, a4, a5, a6, a7, a8; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; cont = engine.cont; // '$mem_pair'(A=B,[C=D|E]):-['$get_level'(F),'$equality_of_term'(A,C),'$cut'(F),'$unify'(B,D)] a1 = a1.dereference(); if (a1.isStructure()) { if (!s1.equals(((StructureTerm) a1).functor())) return engine.fail(); Term[] args = ((StructureTerm) a1).args(); a3 = args[0]; a4 = args[1]; } else if (a1.isVariable()) { a3 = new VariableTerm(engine); a4 = new VariableTerm(engine); Term[] args = {a3, a4}; ((VariableTerm) a1).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } a2 = a2.dereference(); if (a2.isList()) { Term[] args = {((ListTerm) a2).car(), ((ListTerm) a2).cdr()}; a5 = args[0]; } else if (a2.isVariable()) { a5 = new VariableTerm(engine); ((VariableTerm) a2).bind(new ListTerm(a5, new VariableTerm(engine)), engine.trail); } else { return engine.fail(); } a5 = a5.dereference(); if (a5.isStructure()) { if (!s1.equals(((StructureTerm) a5).functor())) return engine.fail(); Term[] args = ((StructureTerm) a5).args(); a6 = args[0]; a7 = args[1]; } else if (a5.isVariable()) { a6 = new VariableTerm(engine); a7 = new VariableTerm(engine); Term[] args = {a6, a7}; ((VariableTerm) a5).bind(new StructureTerm(s1, args), engine.trail); } else { return engine.fail(); } a8 = new VariableTerm(engine); // START inline expansion of $get_level(a(8)) if (!a8.unify(new IntegerTerm(engine.B0), engine.trail)) { return engine.fail(); } // END inline expansion // START inline expansion of $equality_of_term(a(3),a(6)) a3 = a3.dereference(); a6 = a6.dereference(); if (!a3.equals(a6)) { return engine.fail(); } // END inline expansion // START inline expansion of $cut(a(8)) a8 = a8.dereference(); if (!a8.isInteger()) { throw new IllegalTypeException("integer", a8); } else { engine.cut(((IntegerTerm) a8).intValue()); } // END inline expansion // START inline expansion of $unify(a(4),a(7)) if (!a4.unify(a7, engine.trail)) { return engine.fail(); } // END inline expansion return cont; }
public Predicate exec(Prolog engine) { // '$variants_subset'([A+B|C],D,[A+B|E],[B|F],G):-'$term_variant'(D,A),!,'$variants_subset'(C,D,E,F,G) Term a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13; Predicate p1, p2; Predicate cont; a1 = engine.aregs[1]; a2 = engine.aregs[2]; a3 = engine.aregs[3]; a4 = engine.aregs[4]; a5 = engine.aregs[5]; cont = engine.cont; // '$variants_subset'([A+B|C],D,[A+B|E],[B|F],G):-['$get_level'(H),'$term_variant'(D,A),'$cut'(H),'$variants_subset'(C,D,E,F,G)] a1 = a1.dereference(); if (a1.isList()) { Term[] args = {((ListTerm) a1).car(), ((ListTerm) a1).cdr()}; a6 = args[0]; a7 = args[1]; } else if (a1.isVariable()) { a6 = new VariableTerm(engine); a7 = new VariableTerm(engine); ((VariableTerm) a1).bind(new ListTerm(a6, a7), engine.trail); } else { return engine.fail(); } a6 = a6.dereference(); if (a6.isStructure()) { if (!s2.equals(((StructureTerm) a6).functor())) return engine.fail(); Term[] args = ((StructureTerm) a6).args(); a8 = args[0]; a9 = args[1]; } else if (a6.isVariable()) { a8 = new VariableTerm(engine); a9 = new VariableTerm(engine); Term[] args = {a8, a9}; ((VariableTerm) a6).bind(new StructureTerm(s2, args), engine.trail); } else { return engine.fail(); } a3 = a3.dereference(); if (a3.isList()) { Term[] args = {((ListTerm) a3).car(), ((ListTerm) a3).cdr()}; a10 = args[0]; a11 = args[1]; } else if (a3.isVariable()) { a10 = new VariableTerm(engine); a11 = new VariableTerm(engine); ((VariableTerm) a3).bind(new ListTerm(a10, a11), engine.trail); } else { return engine.fail(); } a10 = a10.dereference(); if (a10.isStructure()) { if (!s2.equals(((StructureTerm) a10).functor())) return engine.fail(); Term[] args = ((StructureTerm) a10).args(); if (!a8.unify(args[0], engine.trail)) return engine.fail(); if (!a9.unify(args[1], engine.trail)) return engine.fail(); } else if (a10.isVariable()) { Term[] args = {a8, a9}; ((VariableTerm) a10).bind(new StructureTerm(s2, args), engine.trail); } else { return engine.fail(); } a4 = a4.dereference(); if (a4.isList()) { Term[] args = {((ListTerm) a4).car(), ((ListTerm) a4).cdr()}; if (!a9.unify(args[0], engine.trail)) return engine.fail(); a12 = args[1]; } else if (a4.isVariable()) { a12 = new VariableTerm(engine); ((VariableTerm) a4).bind(new ListTerm(a9, a12), engine.trail); } else { return engine.fail(); } a13 = new VariableTerm(engine); // START inline expansion of $get_level(a(13)) if (!a13.unify(new IntegerTerm(engine.B0), engine.trail)) { return engine.fail(); } // END inline expansion p1 = new PRED_$variants_subset_5(a7, a2, a11, a12, a5, cont); p2 = new PRED_$cut_1(a13, p1); return new PRED_$term_variant_2(a2, a8, p2); }