use of suite.node.Reference in project suite by stupidsing.
the class SewingBinderImpl method binder.
public Bind_ binder(Node node) {
return new //
SwitchNode<Bind_>(//
node).applyIf(Atom.class, n -> {
return compileBindAtom(n);
}).applyIf(Int.class, n -> {
return compileBindInt(n);
}).applyIf(Reference.class, n -> {
int index = mapper().computeIndex(n);
return (be, n_) -> Binder.bind(n_, be.env.get(index), be.trail);
}).applyIf(Str.class, n -> {
return compileBindStr(n);
}).applyTree((operator, l, r) -> {
Clone_ f = cloner(node);
Bind_ c0 = binder(l);
Bind_ c1 = binder(r);
return (be, n) -> {
Node n_ = n.finalNode();
Tree t;
if (n_ instanceof Reference)
if (isBindTrees) {
be.trail.addBind((Reference) n_, f.apply(be.env));
return true;
} else
return false;
else
return //
(t = Tree.decompose(n_, operator)) != null && //
c0.test(be, t.getLeft()) && c1.test(be, t.getRight());
};
}).applyIf(Tuple.class, tuple -> {
Clone_ f = cloner(node);
Bind_[] cs = Read.from(tuple.nodes).map(this::binder).toArray(Bind_.class);
int length = cs.length;
return (be, n) -> {
Node n_ = n.finalNode();
if (n_ instanceof Tuple) {
Node[] nodes = ((Tuple) n_).nodes;
if (nodes.length == length) {
for (int i = 0; i < length; i++) if (!cs[i].test(be, nodes[i]))
return false;
return true;
} else
return false;
} else if (n_ instanceof Reference)
if (isBindTrees) {
be.trail.addBind((Reference) n_, f.apply(be.env));
return true;
} else
return false;
else
return false;
};
}).applyIf(Node.class, n -> {
Clone_ f = cloner(node);
return (be, n_) -> Binder.bind(n_, f.apply(be.env), be.trail);
}).result();
}
use of suite.node.Reference in project suite by stupidsing.
the class SewingClonerImpl method cloner.
@Override
public Clone_ cloner(Node node) {
List<Clone_> funs = new ArrayList<>();
Clone_ fun;
while (true) {
Node node0 = node;
Tree tree;
if (node0 instanceof Dict) {
Clone_[][] array = //
Read.from2(//
((Dict) node0).map).map(//
(key, value) -> new Clone_[] { cloner(key), cloner(value) }).toArray(Clone_[].class);
int length = array.length;
return env -> {
@SuppressWarnings("unchecked") Pair<Node, Reference>[] pairs = new Pair[length];
for (int i = 0; i < length; i++) pairs[i] = Pair.of(array[i][0].apply(env), Reference.of(array[i][1].apply(env)));
return Dict.of(pairs);
};
} else if ((tree = Tree.decompose(node0)) != null) {
Operator operator = tree.getOperator();
if (operator != TermOp.OR____) {
Clone_ f = cloner(tree.getLeft());
funs.add(env -> Tree.of(operator, f.apply(env), null));
node = tree.getRight();
continue;
} else {
// delay generalizing for performance
Clone_ lf = cloner(tree.getLeft());
Clone_ rf = cloner(tree.getRight());
fun = env -> Tree.of(operator, lf.apply(env), new Suspend(() -> rf.apply(env)));
}
} else if (node0 instanceof Reference) {
int index = vm.computeIndex((Reference) node0);
fun = env -> env.get(index);
} else if (node0 instanceof Tuple) {
Clone_[] ps = Read.from(((Tuple) node0).nodes).map(this::cloner).toArray(Clone_.class);
int size = ps.length;
fun = env -> {
Node[] nodes = new Node[size];
for (int i = 0; i < size; i++) nodes[i] = ps[i].apply(env);
return Tuple.of(nodes);
};
} else
fun = env -> node0;
funs.add(fun);
break;
}
if (1 < funs.size())
return env -> {
Tree t = Tree.of(null, null, null);
Node node_ = t;
for (Clone_ fun_ : funs) {
Tree t_ = Tree.decompose(node_);
Tree.forceSetRight(t_, fun_.apply(env));
node_ = t_.getRight();
}
return t.getRight();
};
else
return funs.get(0);
}
use of suite.node.Reference 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;
}
use of suite.node.Reference in project suite by stupidsing.
the class Grapher method specialize.
public void specialize() {
gns = //
Read.from(//
gns).map(gn -> {
Node node;
GN gn1;
if (gn.type == ReadType.TERM && (node = gn.terminal) instanceof Reference)
gn1 = new GN(Atom.of(((Reference) node).name()));
else
gn1 = gn;
return gn1;
}).toList();
}
use of suite.node.Reference 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