Example 16 with Atom
use of suite.node.Atom in project suite by stupidsing.
the class InterpretFunLazy0 method lazy_.
private Fun<IMap<String, Thunk_>, Thunk_> lazy_(Node node) {
Fun<IMap<String, Thunk_>, Thunk_> result;
Tree tree;
Node[] m;
if ((m = Suite.pattern("define .0 := .1 >> .2").match(node)) != null) {
String vk = v(m[0]);
Fun<IMap<String, Thunk_>, Thunk_> value = lazy_(m[1]);
Fun<IMap<String, Thunk_>, Thunk_> expr = lazy_(m[2]);
result = env -> {
Mutable<Thunk_> val = Mutable.nil();
IMap<String, Thunk_> env1 = env.put(vk, () -> val.get().get());
val.set(value.apply(env1)::get);
return expr.apply(env1);
};
} else if ((m = Suite.pattern("if .0 then .1 else .2").match(node)) != null) {
Fun<IMap<String, Thunk_>, Thunk_> if_ = lazy_(m[0]);
Fun<IMap<String, Thunk_>, Thunk_> then_ = lazy_(m[1]);
Fun<IMap<String, Thunk_>, Thunk_> else_ = lazy_(m[2]);
result = env -> (if_.apply(env).get() == Atom.TRUE ? then_ : else_).apply(env);
} else if ((m = Suite.pattern(".0 => .1").match(node)) != null) {
String vk = v(m[0]);
Fun<IMap<String, Thunk_>, Thunk_> value = lazy_(m[1]);
result = env -> () -> new Fun_(in -> value.apply(env.put(vk, in)));
} else if ((m = Suite.pattern(".0 {.1}").match(node)) != null) {
Fun<IMap<String, Thunk_>, Thunk_> fun = lazy_(m[0]);
Fun<IMap<String, Thunk_>, Thunk_> param = lazy_(m[1]);
result = env -> fun(fun.apply(env).get()).apply(param.apply(env));
} else if ((tree = Tree.decompose(node)) != null) {
Operator operator = tree.getOperator();
Fun<IMap<String, Thunk_>, Thunk_> p0 = lazy_(tree.getLeft());
Fun<IMap<String, Thunk_>, Thunk_> p1 = lazy_(tree.getRight());
result = env -> {
Thunk_ r0 = env.get(operator.getName());
Thunk_ r1 = fun(r0.get()).apply(p0.apply(env));
Thunk_ r2 = fun(r1.get()).apply(p1.apply(env));
return r2;
};
} else if (node instanceof Atom) {
String vk = v(node);
result = env -> env.get(vk);
} else
result = env -> () -> node;
return result;
}
Also used :
Suite(suite.Suite)
IntInt_Bool(suite.node.util.TreeUtil.IntInt_Bool)
IMap(suite.immutable.IMap)
Mutable(suite.adt.Mutable)
TermOp(suite.node.io.TermOp)
Fun(suite.util.FunUtil.Fun)
Tree(suite.node.Tree)
Node(suite.node.Node)
IntInt_Int(suite.primitive.IntInt_Int)
Iterate(suite.util.FunUtil.Iterate)
Atom(suite.node.Atom)
Entry(java.util.Map.Entry)
Int(suite.node.Int)
Operator(suite.node.io.Operator)
TreeUtil(suite.node.util.TreeUtil)
Fail(suite.util.Fail)
Operator(suite.node.io.Operator)
Node(suite.node.Node)
Atom(suite.node.Atom)
IMap(suite.immutable.IMap)
Tree(suite.node.Tree)
Fun(suite.util.FunUtil.Fun)
Example 17 with Atom
use of suite.node.Atom in project suite by stupidsing.
the class Generalizer method generalizeRight.
private void generalizeRight(Tree tree) {
while (tree != null) {
Tree nextTree = null;
Node right = tree.getRight();
Tree rt;
if (right instanceof Atom) {
Atom atom = (Atom) right;
String name = atom.name;
if (name.startsWith(ProverConstant.wildcardPrefix))
right = new Reference();
if (name.startsWith(ProverConstant.variablePrefix))
right = getVariable(atom);
} else if ((rt = Tree.decompose(right)) != null)
right = nextTree = Tree.of(rt.getOperator(), generalize(rt.getLeft()), rt.getRight());
else
right = Rewrite_.map(right, this::generalize);
Tree.forceSetRight(tree, right);
tree = nextTree;
}
}Example 18 with Atom
use of suite.node.Atom in project suite by stupidsing.
the class SewingProverImpl method compileTr.
private Trampoline compileTr(BinderFactory bf, Node node) {
List<Node> list;
Trampoline tr;
Tree tree;
Node[] m;
if (1 < (list = TreeUtil.breakdown(TermOp.AND___, node)).size())
tr = andTr(Read.from(list).map(n -> compileTr(bf, n)));
else if (1 < (list = TreeUtil.breakdown(TermOp.OR____, node)).size())
tr = orTr(Read.from(list).map(n -> compileTr(bf, n)));
else if ((m = Suite.pattern(".0 = .1").match(node)) != null) {
boolean b = complexity(m[0]) <= complexity(m[1]);
Node n0 = b ? m[0] : m[1];
Node n1 = b ? m[1] : m[0];
Bind_ p = bf.binder(n1);
Clone_ f = bf.cloner(n0);
tr = rt -> p.test(rt, f.apply(rt.env)) ? okay : fail;
} else if ((m = Suite.pattern("builtin:.0:.1 .2").match(node)) != null) {
String className = ((Atom) m[0]).name;
String fieldName = ((Atom) m[1]).name;
BuiltinPredicate predicate = Rethrow.ex(() -> {
Class<?> clazz = Class.forName(className);
return (BuiltinPredicate) clazz.getField(fieldName).get(Object_.new_(clazz));
});
tr = compileTrCallPredicate(bf, predicate, m[2]);
} else if ((m = Suite.pattern("find.all .0 .1 .2").match(node)) != null) {
Clone_ f = bf.cloner(m[0]);
Trampoline tr1 = compileTr(bf, m[1]);
Bind_ p = bf.binder(m[2]);
List<Node> vs = new ArrayList<>();
tr = rt -> {
Restore restore = save(rt);
rt.pushRem(rt_ -> {
vs.add(new Cloner().clone(f.apply(rt_.env)));
return fail;
});
rt.pushAlt(rt_ -> {
restore.restore(rt);
return p.test(rt, Tree.of(TermOp.AND___, vs)) ? okay : fail;
});
return tr1;
};
} else if ((m = Suite.pattern("if .0 .1 .2").match(node)) != null) {
Trampoline tr0 = compileTr(bf, m[0]);
Trampoline tr1 = compileTr(bf, m[1]);
Trampoline tr2 = compileTr(bf, m[2]);
tr = if_(tr0, tr1, tr2);
} else if ((m = Suite.pattern("let .0 .1").match(node)) != null) {
Bind_ p = bf.binder(m[0]);
Evaluate_ eval = new CompileExpressionImpl(bf).evaluator(m[1]);
tr = rt -> p.test(rt, Int.of(eval.evaluate(rt.env))) ? okay : fail;
} else if ((m = Suite.pattern("list.fold .0/.1/.2 .3").match(node)) != null) {
Clone_ list0_ = bf.cloner(m[0]);
Clone_ value0_ = bf.cloner(m[1]);
Bind_ valuex_ = bf.binder(m[2]);
Clone_ ht_ = bf.cloner(m[3]);
tr = rt -> {
Node[] ht = Suite.pattern(".0 .1").match(ht_.apply(rt.env));
Trampoline tr1 = saveEnvTr(compileTrRule(ht[0], ht[1]));
Mutable<Node> current = Mutable.of(value0_.apply(rt.env));
rt.pushRem(rt_ -> valuex_.test(rt_, current.get()) ? okay : fail);
for (Node elem : Tree.iter(list0_.apply(rt.env))) {
Reference result = new Reference();
rt.pushRem(rt_ -> {
current.update(result.finalNode());
return okay;
});
rt.pushRem(rt_ -> {
rt_.query = Tree.of(TermOp.ITEM__, Tree.of(TermOp.ITEM__, elem, current.get()), result);
return tr1;
});
}
return okay;
};
} else if ((m = Suite.pattern("list.fold.clone .0/.1/.2 .3/.4/.5 .6").match(node)) != null) {
Clone_ list0_ = bf.cloner(m[0]);
Clone_ value0_ = bf.cloner(m[1]);
Bind_ valuex_ = bf.binder(m[2]);
Bind_ elem_ = bf.binder(m[3]);
Bind_ v0_ = bf.binder(m[4]);
Clone_ vx_ = bf.cloner(m[5]);
Trampoline tr1 = compileTr(bf, m[6]);
tr = rt -> {
Mutable<Node> current = Mutable.of(value0_.apply(rt.env));
Env env0 = rt.env;
rt.pushRem(rt_ -> {
rt_.env = env0;
return valuex_.test(rt_, current.get()) ? okay : fail;
});
for (Node elem : Tree.iter(list0_.apply(rt.env))) {
rt.pushRem(rt_ -> {
current.update(vx_.apply(rt_.env));
return okay;
});
rt.pushRem(rt_ -> {
rt_.env = env0.clone();
return elem_.test(rt_, elem) && v0_.test(rt_, current.get()) ? tr1 : fail;
});
}
return okay;
};
} else if ((m = Suite.pattern("list.query .0 .1").match(node)) != null) {
Clone_ l_ = bf.cloner(m[0]);
Clone_ ht_ = bf.cloner(m[1]);
tr = rt -> {
Node[] ht = Suite.pattern(".0 .1").match(ht_.apply(rt.env));
Trampoline tr1 = saveEnvTr(compileTrRule(ht[0], ht[1]));
for (Node n : Tree.iter(l_.apply(rt.env))) rt.pushRem(rt_ -> {
rt_.query = n;
return tr1;
});
return okay;
};
} else if ((m = Suite.pattern("list.query.clone .0 .1 .2").match(node)) != null) {
Clone_ f = bf.cloner(m[0]);
Bind_ p = bf.binder(m[1]);
Trampoline tr1 = compileTr(bf, m[2]);
tr = rt -> {
Env env0 = rt.env;
rt.pushRem(rt_ -> {
rt_.env = env0;
return okay;
});
for (Node n : Tree.iter(f.apply(rt.env))) rt.pushRem(rt_ -> {
rt_.env = env0.clone();
return p.test(rt_, n) ? tr1 : fail;
});
return okay;
};
} else if ((m = Suite.pattern("member .0 .1").match(node)) != null && TreeUtil.isList(m[0], TermOp.AND___)) {
List<Bind_> elems_ = Read.from(Tree.iter(m[0])).map(bf::binder).toList();
Clone_ f = bf.cloner(m[1]);
tr = rt -> {
Iterator<Bind_> iter = elems_.iterator();
Trampoline[] alt = new Trampoline[1];
Restore restore = save(rt);
return alt[0] = rt_ -> {
while (iter.hasNext()) {
restore.restore(rt);
if (iter.next().test(rt_, f.apply(rt.env))) {
rt_.pushAlt(alt[0]);
return okay;
}
}
return fail;
};
};
} else if ((m = Suite.pattern("not .0").match(node)) != null)
tr = if_(compileTr(bf, m[0]), fail, okay);
else if ((m = Suite.pattern("once .0").match(node)) != null) {
Trampoline tr0 = compileTr(bf, m[0]);
tr = rt -> {
IList<Trampoline> alts0 = rt.alts;
rt.pushRem(rt_ -> {
rt_.alts = alts0;
return okay;
});
return tr0;
};
} else if ((m = Suite.pattern("suspend .0 .1 .2").match(node)) != null) {
Clone_ f0 = bf.cloner(m[0]);
Clone_ f1 = bf.cloner(m[1]);
Trampoline tr0 = compileTr(bf, m[2]);
tr = rt -> {
List<Node> results = new ArrayList<>();
Env env = rt.env;
Trampoline tr_ = andTr(Read.each(tr0, rt_ -> {
results.add(f1.apply(env));
return fail;
}));
Node n0 = f0.apply(rt.env);
Suspend suspend = new Suspend(() -> {
Runtime rt_ = new Runtime(rt, tr_);
rt_.trampoline();
return Read.from(results).uniqueResult();
});
if (n0 instanceof Reference) {
rt.trail.addBind((Reference) n0, suspend);
return okay;
} else
return fail;
};
} else if ((m = Suite.pattern("throw .0").match(node)) != null) {
Clone_ f = bf.cloner(m[0]);
tr = rt -> {
rt.handler.sink(new Cloner().clone(f.apply(rt.env)));
return okay;
};
} else if ((m = Suite.pattern("try .0 .1 .2").match(node)) != null) {
Trampoline tr0 = compileTr(bf, m[0]);
Bind_ p = bf.binder(m[1]);
Trampoline catch0 = compileTr(bf, m[2]);
tr = rt -> {
BindEnv be = rt;
Restore restore = save(rt);
IList<Trampoline> alts0 = rt.alts;
Sink<Node> handler0 = rt.handler;
rt.handler = node_ -> {
restore.restore(rt);
if (p.test(be, node_)) {
rt.alts = alts0;
rt.pushRem(catch0);
} else
handler0.sink(node_);
};
rt.pushRem(rt_ -> {
rt_.handler = handler0;
return okay;
});
return tr0;
};
} else if ((m = Suite.pattern(".0 .1").match(node)) != null && m[0] instanceof Atom)
tr = compileTrCallPredicate(bf, ((Atom) m[0]).name, m[1], node);
else if (node instanceof Atom) {
String name = ((Atom) node).name;
if (node == ProverConstant.cut)
tr = cutEnd();
else if (String_.equals(name, ""))
tr = okay;
else if (String_.equals(name, "fail"))
tr = fail;
else
tr = compileTrCallPredicate(bf, name, Atom.NIL, node);
} else if (node instanceof Data<?>) {
Object data = ((Data<?>) node).data;
if (data instanceof Source<?>)
tr = rt -> ((Source<?>) data).source() != Boolean.TRUE ? okay : fail;
else
tr = Fail.t("cannot understand " + node);
} else if (node instanceof Reference) {
Clone_ f = bf.cloner(node);
tr = rt -> compileTr(passThru, f.apply(rt.env));
} else if ((tree = Tree.decompose(node)) != null)
tr = compileTrCallPredicate(bf, tree.getOperator().getName(), node, node);
else if (node instanceof Tuple)
tr = compileTrCallPredicate(bf, node);
else
tr = Fail.t("cannot understand " + node);
return tr;
}
Also used :
Prover(suite.lp.doer.Prover)
BindEnv(suite.lp.doer.BinderFactory.BindEnv)
BuiltinPredicate(suite.lp.predicate.PredicateUtil.BuiltinPredicate)
LogUtil(suite.os.LogUtil)
Mutable(suite.adt.Mutable)
BinderFactory(suite.lp.doer.BinderFactory)
Node(suite.node.Node)
ProverConstant(suite.lp.doer.ProverConstant)
VariableMapper(suite.lp.sewing.VariableMapper)
Suspend(suite.node.Suspend)
Map(java.util.Map)
Prototype(suite.lp.kb.Prototype)
RuleSet(suite.lp.kb.RuleSet)
Generalizer(suite.lp.doer.Generalizer)
Bind_(suite.lp.doer.BinderFactory.Bind_)
Cloner(suite.lp.doer.Cloner)
Object_(suite.util.Object_)
SystemPredicates(suite.lp.predicate.SystemPredicates)
Tree(suite.node.Tree)
Pair(suite.adt.pair.Pair)
Friends.max(suite.util.Friends.max)
List(java.util.List)
Clone_(suite.lp.doer.ClonerFactory.Clone_)
ListMultimap(suite.adt.map.ListMultimap)
As(suite.streamlet.As)
Int(suite.node.Int)
TreeUtil(suite.node.util.TreeUtil)
ProverConfig(suite.lp.Configuration.ProverConfig)
Read(suite.streamlet.Read)
Rule(suite.lp.kb.Rule)
HashMap(java.util.HashMap)
IList(suite.immutable.IList)
ArrayList(java.util.ArrayList)
Data(suite.node.Data)
Formatter(suite.node.io.Formatter)
String_(suite.util.String_)
Rethrow(suite.util.Rethrow)
Binder(suite.lp.doer.Binder)
Tuple(suite.node.Tuple)
Reference(suite.node.Reference)
Suite(suite.Suite)
SuiteException(suite.node.util.SuiteException)
Iterator(java.util.Iterator)
CompileExpressionImpl(suite.lp.compile.impl.CompileExpressionImpl)
Source(suite.util.FunUtil.Source)
TermOp(suite.node.io.TermOp)
List_(suite.util.List_)
Evaluate_(suite.lp.doer.EvaluatorFactory.Evaluate_)
Rewrite(suite.node.util.Rewrite)
Streamlet(suite.streamlet.Streamlet)
Atom(suite.node.Atom)
Sink(suite.util.FunUtil.Sink)
ProverFactory(suite.lp.doer.ProverFactory)
Env(suite.lp.sewing.Env)
Fail(suite.util.Fail)
Node(suite.node.Node)
ArrayList(java.util.ArrayList)
CompileExpressionImpl(suite.lp.compile.impl.CompileExpressionImpl)
Suspend(suite.node.Suspend)
BindEnv(suite.lp.doer.BinderFactory.BindEnv)
Env(suite.lp.sewing.Env)
BindEnv(suite.lp.doer.BinderFactory.BindEnv)
Iterator(java.util.Iterator)
Tree(suite.node.Tree)
List(java.util.List)
IList(suite.immutable.IList)
ArrayList(java.util.ArrayList)
BuiltinPredicate(suite.lp.predicate.PredicateUtil.BuiltinPredicate)
Evaluate_(suite.lp.doer.EvaluatorFactory.Evaluate_)
Reference(suite.node.Reference)
Atom(suite.node.Atom)
Cloner(suite.lp.doer.Cloner)
IList(suite.immutable.IList)
Bind_(suite.lp.doer.BinderFactory.Bind_)
Mutable(suite.adt.Mutable)
Clone_(suite.lp.doer.ClonerFactory.Clone_)
Tuple(suite.node.Tuple)
Example 19 with Atom
use of suite.node.Atom in project suite by stupidsing.
the class Symbolic method polyize0.
@SuppressWarnings({ "rawtypes", "unchecked" })
public Opt<Node> polyize0(Node node, Atom... vars) {
Fractional<?> fractional = Fractional.ofIntegral();
for (Atom var : vars) fractional = divPoly(new Rewrite(var), fractional).fractional();
Fractional<?> fractional_ = fractional;
return fractional_.parse(node).map(o -> fractional_.format((Fract) o));
}Example 20 with Atom
use of suite.node.Atom in project suite by stupidsing.
the class Grapher method generalize.
public void generalize() {
gns = //
Read.from(//
gns).map(gn -> {
Node node;
GN gn1;
if (//
gn.type == ReadType.TERM && //
(node = gn.terminal) instanceof Atom && ((Atom) node).name.startsWith(ProverConstant.variablePrefix))
gn1 = new GN(new Reference());
else
gn1 = gn;
return gn1;
}).toList();
}Aggregations
Atom (suite.node.Atom)22
Node (suite.node.Node)17
Reference (suite.node.Reference)11
Tree (suite.node.Tree)11
TermOp (suite.node.io.TermOp)9
ArrayList (java.util.ArrayList)7
Pair (suite.adt.pair.Pair)7
Int (suite.node.Int)7
List (java.util.List)6
HashMap (java.util.HashMap)5
Map (java.util.Map)5
Suite (suite.Suite)5
Generalizer (suite.lp.doer.Generalizer)5
Prototype (suite.lp.kb.Prototype)5
RuleSet (suite.lp.kb.RuleSet)5
Data (suite.node.Data)5
TreeUtil (suite.node.util.TreeUtil)5
Read (suite.streamlet.Read)5
Fail (suite.util.Fail)5
Operator (suite.node.io.Operator)4
