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Example 6 with Subterms

use of nars.subterm.Subterms in project narchy by automenta.

the class Compound method dtRange.

@Override
default int dtRange() {
    Op o = op();
    switch(o) {
        // 
        case CONJ:
            Subterms tt = subterms();
            int l = tt.subs();
            if (l == 2) {
                int dt = dt();
                switch(dt) {
                    case DTERNAL:
                    case XTERNAL:
                    case 0:
                        dt = 0;
                        break;
                    default:
                        dt = Math.abs(dt);
                        break;
                }
                return tt.sub(0).dtRange() + (dt) + tt.sub(1).dtRange();
            } else {
                int s = 0;
                for (int i = 0; i < l; i++) {
                    s = Math.max(s, tt.sub(i).dtRange());
                }
                return s;
            }
        default:
            return 0;
    }
}
Also used : Subterms(nars.subterm.Subterms) Op(nars.Op)

Example 7 with Subterms

use of nars.subterm.Subterms in project narchy by automenta.

the class Term method pathsTo.

static <X> boolean pathsTo(Term that, /*@NotNull*/
ByteArrayList p, Predicate<Term> descendIf, /*@NotNull*/
Function<Term, X> subterm, BiPredicate<ByteList, X> receiver) {
    if (!descendIf.test(that))
        return true;
    Subterms superTerm = that.subterms();
    int ppp = p.size();
    int n = superTerm.subs();
    for (int i = 0; i < n; i++) {
        // push
        p.add((byte) i);
        Term s = superTerm.sub(i);
        boolean kontinue = true;
        X ss = subterm.apply(s);
        if (ss != null) {
            if (!receiver.test(p, ss))
                kontinue = false;
        }
        if (s.subs() > 0) {
            if (!pathsTo(s, p, descendIf, subterm, receiver))
                kontinue = false;
        }
        // pop
        p.removeAtIndex(ppp);
        if (!kontinue)
            return false;
    }
    return true;
}
Also used : Subterms(nars.subterm.Subterms)

Example 8 with Subterms

use of nars.subterm.Subterms in project narchy by automenta.

the class Retemporalize method transformTemporal.

default Term transformTemporal(Compound x, int dtNext) {
    Subterms xx = x.subterms();
    if (x.dt() == dtNext && !xx.hasAny(Temporal))
        // no change
        return x;
    Op op = x.op();
    return TermTransform.NegObliviousTermTransform.super.transformCompound(x, op, dtNext);
}
Also used : Subterms(nars.subterm.Subterms) Op(nars.Op)

Example 9 with Subterms

use of nars.subterm.Subterms in project narchy by automenta.

the class Builtin method registerFunctors.

public static void registerFunctors(NAR nar) {
    for (Concept t : Builtin.statik) {
        nar.on(t);
    }
    nar.on(Functor.f1("varIntro", (x) -> {
        Pair<Term, Map<Term, Term>> result = DepIndepVarIntroduction.the.apply(x, nar.random());
        return result != null ? result.getOne() : Null;
    }));
    nar.on(Functor.f1((Atom) $.the("termlinkRandom"), (Term t) -> {
        @Nullable Concept c = nar.conceptualize(t);
        if (c == null)
            return Null;
        @Nullable PriReference<Term> tl = c.termlinks().sample(nar.random());
        if (tl == null)
            return Null;
        return tl.get();
    }));
    // nar.on(Functor.f("service", (TermContainer c) ->
    // $.sete(
    // nar.services().map(
    // (e) ->
    // $.p(e, $.the(e.getValue().state())))
    // .toArray(Term[]::new)
    // )
    // ));
    /**
     * subterm, but specifically inside an ellipsis. otherwise pass through
     */
    nar.on(Functor.f("esubterm", (Subterms c) -> {
        Term x = c.sub(0, null);
        if (x == null)
            return Null;
        Term index = c.sub(1, Null);
        if (index == Null)
            return Null;
        int which;
        if (index != null) {
            if (index instanceof Variable)
                return Null;
            which = $.intValue(index, -1);
            if (which < 0) {
                return Null;
            }
        } else {
            // random
            which = nar.random().nextInt(x.subs());
        }
        return x.sub(which);
    }));
    nar.on(Functor.f2((Atom) $.the("without"), (Term container, Term content) -> Op.without(container, x -> x.equals(content), nar.random())));
    nar.on(Functor.f2((Atom) $.the("withoutPosOrNeg"), (Term container, Term content) -> Op.without(container, x -> x.unneg().equals(content), nar.random())));
    /**
     * TODO rename this to 'dropAnyCommutive'
     * remove an element from a commutive conjunction (or set), at random, and try re-creating
     * the compound. wont necessarily work in all situations.
     * TODO move the type restriction to another functor to wrap this
     *
     * this also filter a single variable (depvar) from being a result
     */
    nar.on(Functor.f1((Atom) $.the("dropAnySet"), (Term t) -> {
        Op oo = t.op();
        if (oo == INT) {
            if (t instanceof Int.IntRange) {
                // select random location in the int and split either up or down
                Int.IntRange i = (Int.IntRange) t;
                Random rng = nar.random();
                if (i.min + 1 == i.max) {
                    // arity=2
                    return Int.the(rng.nextBoolean() ? i.min : i.max);
                } else if (i.min + 2 == i.max) {
                    // arity=3
                    switch(rng.nextInt(4)) {
                        case 0:
                            return Int.the(i.min);
                        case 1:
                            return Int.range(i.min, i.min + 1);
                        case 2:
                            return Int.range(i.min + 1, i.min + 2);
                        case 3:
                            return Int.the(i.max);
                        default:
                            throw new UnsupportedOperationException();
                    }
                } else {
                    int split = // midpoint, deterministic
                    (i.max + i.min) / 2;
                    // rng.nextInt(i.max-i.min-2);
                    return (rng.nextBoolean()) ? Int.range(i.min, split + 1) : Int.range(split + 1, i.max);
                }
            }
            // cant drop int by itself
            return Null;
        }
        if (!oo.in(SETi.bit | SETe.bit | SECTi.bit | SECTe.bit))
            // returning the original value may cause feedback loop in callees expcting a change in value
            return Null;
        int size = t.subs();
        switch(size) {
            case 0:
                assert (false) : "empty set impossible here";
                return Null;
            case 1:
                return Null;
            /* can't shrink below one element */
            case 2:
                int n = nar.random().nextInt(2);
                return oo.the(t.sub(n));
            default:
                Term[] y = Terms.dropRandom(nar.random(), t.subterms());
                return oo.the(y);
        }
    }));
    /**
     * depvar cleaning from commutive conj
     */
    nar.on(Functor.f1((Atom) $.the("ifConjCommNoDepVars"), (Term t) -> {
        if (!t.hasAny(VAR_DEP))
            return t;
        Op oo = t.op();
        if (oo != CONJ)
            return t;
        SortedSet<Term> s = t.subterms().toSetSorted();
        if (!s.removeIf(x -> x.unneg().op() == VAR_DEP))
            return t;
        return CONJ.the(t.dt(), s);
    }));
    /**
     * drops a random contained event, whether at first layer or below
     */
    nar.on(Functor.f1((Atom) $.the("dropAnyEvent"), (Term t) -> {
        Op oo = t.op();
        if (oo != CONJ)
            // returning the original value may cause feedback loop in callees expcting a change in value
            return Null;
        FasterList<LongObjectPair<Term>> ee = Conj.eventList(t);
        ee.remove(nar.random().nextInt(ee.size()));
        return Conj.conj(ee);
    // }
    // if (r instanceof Variable /*&& r.op()!=VAR_DEP*/)
    // return Null; //HACK dont allow returning a variable as an event during decomposition HACK TODO make more careful and return the only result if one subterm is a non-returnable variable
    // return r;
    }));
    nar.on(Functor.f2((Atom) $.the("conjEvent"), (Term c, Term when) -> {
        if (c.op() != CONJ || !(when instanceof Atom))
            return Null;
        // extract earliest or latest &| timeslice of events
        throw new TODO();
    // if (c.dt() == DTERNAL || c.dt() == 0) {
    // return c.sub(nar.random().nextInt(c.subs())); //choose a subterm at random
    // }
    // assert (c.subs() == 2);
    // int target;
    // switch (when.toString()) {
    // case "early":
    // target = 0;
    // break;
    // case "late":
    // target = 1;
    // break;
    // default:
    // throw new UnsupportedOperationException();
    // }
    // if (c.dt() < 0)
    // target = 1 - target;
    // return c.sub(target);
    }));
    /**
     * similar to without() but special handling for CONJ sub-events
     */
    nar.on(Functor.f2((Atom) $.the("conjWithout"), (Term conj, Term event) -> {
        if (conj.op() != CONJ || conj.impossibleSubTerm(event))
            return Null;
        FasterList<LongObjectPair<Term>> events = Conj.eventList(conj);
        IntArrayList found = new IntArrayList(2);
        int es = events.size();
        assert (es > 1);
        for (int i = 0; i < es; i++) {
            if (event.equalsRoot(events.get(i).getTwo())) {
                found.add(i);
            }
        }
        int fs = found.size(), r;
        switch(fs) {
            case 0:
                return Null;
            case 1:
                r = found.get(0);
                break;
            default:
                r = found.get(nar.random().nextInt(fs));
                break;
        }
        events.remove(r);
        return Conj.conj(events);
    // } else {
    // return nullToNull(Op.without(conj, event::equalsRoot, nar.random()));
    // }
    }));
    /**
     * extracts only the events preceding the specified events
     */
    nar.on(Functor.f2((Atom) $.the("conjDropIfLatest"), (Term conj, Term event) -> Conj.conjDrop(conj, event, false)));
    nar.on(Functor.f2((Atom) $.the("conjDropIfEarliest"), (Term conj, Term event) -> Conj.conjDrop(conj, event, true)));
    nar.on(Functor.f1Concept("belief", nar, (c, n) -> $.quote(n.belief(c, n.time()))));
    nar.on(Functor.f1Concept("goal", nar, (c, n) -> $.quote(n.goal(c, n.time()))));
    nar.on(f0("self", nar::self));
    nar.on(Functor.f1("the", what -> {
        if (what instanceof Atom) {
            switch(what.toString()) {
                case "sys":
                    return $.p($.quote(nar.emotion.summary()), $.quote(nar.concepts.summary()), $.quote(nar.emotion.summary()), $.quote(nar.exe.toString()));
            }
        }
        Object x = nar.concept(what);
        if (x == null)
            x = what;
        return $.quote($.p($.quote(x.getClass().toString()), $.quote(x.toString())));
    }));
    // /** slice(<compound>,<selector>)
    // selector :-
    // a specific integer value index, from 0 to compound size
    // (a,b) pair of integers, a range of indices */
    nar.on(Functor.f("slice", (args) -> {
        if (args.subs() == 2) {
            Term x = args.sub(0);
            if (x.subs() > 0) {
                int len = x.subs();
                Term index = args.sub(1);
                Op o = index.op();
                if (o == INT) {
                    // specific index
                    int i = ((Int) index).id;
                    if (i >= 0 && i < len)
                        return x.sub(i);
                    else
                        return False;
                } else if (o == PROD && index.subs() == 2) {
                    Term start = (index).sub(0);
                    if (start.op() == INT) {
                        Term end = (index).sub(1);
                        if (end.op() == INT) {
                            int si = ((Int) start).id;
                            if (si >= 0 && si < len) {
                                int ei = ((Int) end).id;
                                if (ei >= 0 && ei <= len) {
                                    if (si == ei)
                                        return Op.EmptyProduct;
                                    if (si < ei) {
                                        return $.p(Arrays.copyOfRange(x.subterms().arrayClone(), si, ei));
                                    }
                                }
                            }
                            // TODO maybe reverse order will return reversed subproduct
                            return False;
                        }
                    }
                }
            }
        }
        return null;
    }));
}
Also used : Concept(nars.concept.Concept) Atom(nars.term.atom.Atom) java.util(java.util) MathFunc(nars.op.MathFunc) Subst(nars.op.Subst) Variable(nars.term.var.Variable) nars.op.data(nars.op.data) Functor.f0(nars.term.Functor.f0) Int(nars.term.atom.Int) Op(nars.Op) Conj(nars.term.compound.util.Conj) User(jcog.User) Texts(jcog.Texts) Assertions.assertEquals(org.junit.jupiter.api.Assertions.assertEquals) Pair(org.eclipse.collections.api.tuple.Pair) Concept(nars.concept.Concept) LongObjectPair(org.eclipse.collections.api.tuple.primitive.LongObjectPair) Term(nars.term.Term) ScriptException(javax.script.ScriptException) DepIndepVarIntroduction(nars.op.DepIndepVarIntroduction) Opjects(nars.op.java.Opjects) IntArrayList(org.eclipse.collections.impl.list.mutable.primitive.IntArrayList) UnifiedMap(org.eclipse.collections.impl.map.mutable.UnifiedMap) Predicate(java.util.function.Predicate) FasterList(jcog.list.FasterList) Functor(nars.term.Functor) ListFunc(nars.op.ListFunc) Terms(nars.term.Terms) Nullable(org.jetbrains.annotations.Nullable) TODO(jcog.TODO) java.io(java.io) Subterms(nars.subterm.Subterms) Assertions.assertTrue(org.junit.jupiter.api.Assertions.assertTrue) PriReference(jcog.pri.PriReference) Operator(nars.concept.Operator) Subterms(nars.subterm.Subterms) Op(nars.Op) TODO(jcog.TODO) Variable(nars.term.var.Variable) FasterList(jcog.list.FasterList) Term(nars.term.Term) PriReference(jcog.pri.PriReference) Atom(nars.term.atom.Atom) Int(nars.term.atom.Int) IntArrayList(org.eclipse.collections.impl.list.mutable.primitive.IntArrayList) Pair(org.eclipse.collections.api.tuple.Pair) LongObjectPair(org.eclipse.collections.api.tuple.primitive.LongObjectPair)

Example 10 with Subterms

use of nars.subterm.Subterms in project narchy by automenta.

the class Compound method normalize.

@Override
@Nullable
default Term normalize(byte varOffset) {
    if (varOffset == 0 && this.isNormalized())
        return this;
    int vars = this.vars();
    int pVars = this.varPattern();
    int totalVars = vars + pVars;
    assert (totalVars > 0);
    Term y = transform(((vars == 1) && (pVars == 0) && varOffset == 0) ? // special case for efficiency
    VariableNormalization.singleVariableNormalization : new VariableNormalization(totalVars, /* estimate */
    varOffset));
    if (varOffset == 0 && y instanceof Compound) {
        if (!(y instanceof UnitCompound)) {
            Subterms st = y.subterms();
            st.setNormalized();
        }
    }
    return y;
}
Also used : Subterms(nars.subterm.Subterms) VariableNormalization(nars.term.transform.VariableNormalization) UnitCompound(nars.term.compound.UnitCompound) UnitCompound(nars.term.compound.UnitCompound) Nullable(org.jetbrains.annotations.Nullable)

Aggregations

Subterms (nars.subterm.Subterms)21 Op (nars.Op)11 Term (nars.term.Term)9 Nullable (org.jetbrains.annotations.Nullable)7 java.util (java.util)3 Predicate (java.util.function.Predicate)3 TODO (jcog.TODO)3 FasterList (jcog.list.FasterList)3 Bool (nars.term.atom.Bool)3 LongObjectPair (org.eclipse.collections.api.tuple.primitive.LongObjectPair)3 Iterables (com.google.common.collect.Iterables)2 Iterators (com.google.common.collect.Iterators)2 Multimap (com.google.common.collect.Multimap)2 MultimapBuilder (com.google.common.collect.MultimapBuilder)2 ThreadLocalRandom (java.util.concurrent.ThreadLocalRandom)2 Consumer (java.util.function.Consumer)2 Util (jcog.Util)2 ImmutableDirectedEdge (jcog.data.graph.ImmutableDirectedEdge)2 MapNodeGraph (jcog.data.graph.MapNodeGraph)2 Search (jcog.data.graph.search.Search)2