Search in sources :

Example 16 with Concept

use of nars.concept.Concept in project narchy by automenta.

the class NAR method on.

/**
 * activate/"turn-ON"/install a concept in the index and activates it, used for setup of custom concept implementations
 * implementations should apply active concept capacity policy
 */
@NotNull
public final Concept on(@NotNull Concept c) {
    Concept existing = concept(c);
    if ((existing != null) && (existing != c))
        throw new RuntimeException("concept already indexed for term: " + c.term());
    c.state(conceptBuilder.awake());
    concepts.set(c);
    return c;
}
Also used : TaskConcept(nars.concept.TaskConcept) Concept(nars.concept.Concept) NotNull(org.jetbrains.annotations.NotNull)

Example 17 with Concept

use of nars.concept.Concept 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 18 with Concept

use of nars.concept.Concept in project narchy by automenta.

the class TaskAdd method run.

@Override
public final ITask run(NAR n) {
    n.emotion.onInput(task, n);
    @Nullable Concept c = task.concept(n, true);
    if (c == null) {
        // may not have capacity in the concept index
        return null;
    } else if (!(c instanceof TaskConcept)) {
        if (task.isBeliefOrGoal() || Param.DEBUG_EXTRA) {
            throw new RuntimeException(task + " does not resolve a TaskConcept");
        } else
            return null;
    }
    ((TaskConcept) c).add(task, n);
    return null;
}
Also used : TaskConcept(nars.concept.TaskConcept) Concept(nars.concept.Concept) TaskConcept(nars.concept.TaskConcept) Nullable(org.jetbrains.annotations.Nullable)

Example 19 with Concept

use of nars.concept.Concept in project narchy by automenta.

the class Tasklinks method linkTaskTemplates.

public static void linkTaskTemplates(Concept c, Task t, float priApplied, NAR nar) {
    Concept[] cc = c.templates().conceptsShuffled(nar, true);
    int ccs = cc.length;
    if (ccs <= 0)
        return;
    MutableFloat overflow = new MutableFloat();
    float p = priApplied;
    float pEach = p / ccs;
    if (pEach > Pri.EPSILON) {
        Pair<Term, ByteLongPair> tlSeed = TaskLink.GeneralTaskLink.seed(t, false, nar);
        final float headRoom = 1f - pEach;
        for (int i = 0; i < ccs; i++) {
            float o = overflow.get();
            // spread overflow of saturated targets to siblings
            float change;
            if (o >= Pri.EPSILON) {
                overflow.subtract(change = Math.min(o, headRoom));
            } else {
                change = 0;
            }
            TaskLink xx = // new TaskLink.DirectTaskLink(t, pEach + change);
            new TaskLink.GeneralTaskLink(tlSeed, pEach + change);
            linkTask(xx, cc[i].tasklinks(), overflow);
        }
    }
}
Also used : TaskConcept(nars.concept.TaskConcept) Concept(nars.concept.Concept) ByteLongPair(org.eclipse.collections.api.tuple.primitive.ByteLongPair) MutableFloat(org.apache.commons.lang3.mutable.MutableFloat) Term(nars.term.Term)

Example 20 with Concept

use of nars.concept.Concept in project narchy by automenta.

the class ConceptBuilder method apply.

@Nullable
default Termed apply(Term x) {
    x = x.the();
    Termed y = build(x);
    if (y == null) {
        return null;
    }
    Concept c = (Concept) y;
    ConceptState s = c.state();
    if (s == ConceptState.New || s == ConceptState.Deleted) {
        c.state(init());
    }
    return c;
}
Also used : Termed(nars.term.Termed) Concept(nars.concept.Concept) Nullable(org.jetbrains.annotations.Nullable)

Aggregations

Concept (nars.concept.Concept)47 TaskConcept (nars.concept.TaskConcept)19 Term (nars.term.Term)19 Test (org.junit.jupiter.api.Test)15 Nullable (org.jetbrains.annotations.Nullable)11 Truth (nars.truth.Truth)9 NAR (nars.NAR)6 Termed (nars.term.Termed)6 FasterList (jcog.list.FasterList)4 PermanentConcept (nars.concept.PermanentConcept)4 BeliefTable (nars.table.BeliefTable)4 TestNAR (nars.test.TestNAR)4 Util (jcog.Util)3 PriReference (jcog.pri.PriReference)3 GL2 (com.jogamp.opengl.GL2)2 java.io (java.io)2 java.util (java.util)2 AtomicBoolean (java.util.concurrent.atomic.AtomicBoolean)2 Op (nars.Op)2 CauseLink (nars.link.CauseLink)2