/* Title: Pure/term.scala
Author: Makarius
Lambda terms, types, sorts.
Note: Isabelle/ML is the primary environment for logical operations.
*/
package isabelle
object Term
{
/* types and terms */
sealed case class Indexname(name: String, index: Int)
{
override def toString: String =
if (index == -1) name
else {
val dot =
Symbol.explode(name).reverse match {
case _ :: s :: _ if s == Symbol.sub_decoded || s == Symbol.sub => false
case c :: _ => Symbol.is_digit(c)
case _ => true
}
if (dot) "?" + name + "." + index
else if (index != 0) "?" + name + index
else "?" + name
}
}
type Sort = List[String]
val dummyS: Sort = List("")
sealed abstract class Typ
case class Type(name: String, args: List[Typ] = Nil) extends Typ
case class TFree(name: String, sort: Sort = dummyS) extends Typ
case class TVar(name: Indexname, sort: Sort = dummyS) extends Typ
val dummyT = Type("dummy")
sealed abstract class Term
case class Const(name: String, typ: Typ = dummyT) extends Term
case class Free(name: String, typ: Typ = dummyT) extends Term
case class Var(name: Indexname, typ: Typ = dummyT) extends Term
case class Bound(index: Int) extends Term
case class Abs(name: String, typ: Typ = dummyT, body: Term) extends Term
case class App(fun: Term, arg: Term) extends Term
sealed abstract class Proof
case object MinProof extends Proof
case class PBound(index: Int) extends Proof
case class Abst(name: String, typ: Typ, body: Proof) extends Proof
case class AbsP(name: String, hyp: Term, body: Proof) extends Proof
case class Appt(fun: Proof, arg: Term) extends Proof
case class AppP(fun: Proof, arg: Proof) extends Proof
case class Hyp(hyp: Term) extends Proof
case class PAxm(name: String, types: List[Typ]) extends Proof
case class OfClass(typ: Typ, cls: String) extends Proof
case class Oracle(name: String, prop: Option[Term], types: List[Typ]) extends Proof
case class PThm(serial: Long, theory_name: String, approximative_name: String, types: List[Typ])
extends Proof
/* Pure logic */
def itselfT(ty: Typ): Typ = Type(Pure_Thy.ITSELF, List(ty))
val propT: Typ = Type(Pure_Thy.PROP, Nil)
def funT(ty1: Typ, ty2: Typ): Typ = Type(Pure_Thy.FUN, List(ty1, ty2))
def mk_type(ty: Typ): Term = Const(Pure_Thy.TYPE, itselfT(ty))
def const_of_class(c: String): String = c + "_class"
def mk_of_sort(ty: Typ, s: Sort): List[Term] =
{
val class_type = funT(itselfT(ty), propT)
val t = mk_type(ty)
s.map(c => App(Const(const_of_class(c), class_type), t))
}
/* type arguments of consts */
def const_typargs(name: String, typ: Typ, typargs: List[String], decl: Typ): List[Typ] =
{
var subst = Map.empty[String, Typ]
def bad_match(): Nothing = error("Malformed type instance for " + name + ": " + typ)
def raw_match(arg: (Typ, Typ))
{
arg match {
case (TFree(a, _), ty) =>
subst.get(a) match {
case None => subst += (a -> ty)
case Some(ty1) => if (ty != ty1) bad_match()
}
case (Type(c1, args1), Type(c2, args2)) if c1 == c2 =>
(args1 zip args2).foreach(raw_match)
case _ => bad_match()
}
}
raw_match(decl, typ)
typargs.map(subst)
}
/** cache **/
def make_cache(initial_size: Int = 131071, max_string: Int = Integer.MAX_VALUE): Cache =
new Cache(initial_size, max_string)
class Cache private[Term](initial_size: Int, max_string: Int)
extends isabelle.Cache(initial_size, max_string)
{
protected def cache_indexname(x: Indexname): Indexname =
lookup(x) getOrElse store(Indexname(cache_string(x.name), x.index))
protected def cache_sort(x: Sort): Sort =
if (x == dummyS) dummyS
else lookup(x) getOrElse store(x.map(cache_string(_)))
protected def cache_typ(x: Typ): Typ =
{
if (x == dummyT) dummyT
else
lookup(x) match {
case Some(y) => y
case None =>
x match {
case Type(name, args) => store(Type(cache_string(name), cache_typs(args)))
case TFree(name, sort) => store(TFree(cache_string(name), cache_sort(sort)))
case TVar(name, sort) => store(TVar(cache_indexname(name), cache_sort(sort)))
}
}
}
protected def cache_typs(x: List[Typ]): List[Typ] =
{
if (x.isEmpty) Nil
else {
lookup(x) match {
case Some(y) => y
case None => store(x.map(cache_typ(_)))
}
}
}
protected def cache_term(x: Term): Term =
{
lookup(x) match {
case Some(y) => y
case None =>
x match {
case Const(name, typ) => store(Const(cache_string(name), cache_typ(typ)))
case Free(name, typ) => store(Free(cache_string(name), cache_typ(typ)))
case Var(name, typ) => store(Var(cache_indexname(name), cache_typ(typ)))
case Bound(_) => store(x)
case Abs(name, typ, body) =>
store(Abs(cache_string(name), cache_typ(typ), cache_term(body)))
case App(fun, arg) => store(App(cache_term(fun), cache_term(arg)))
}
}
}
protected def cache_proof(x: Proof): Proof =
{
if (x == MinProof) MinProof
else {
lookup(x) match {
case Some(y) => y
case None =>
x match {
case PBound(_) => store(x)
case Abst(name, typ, body) =>
store(Abst(cache_string(name), cache_typ(typ), cache_proof(body)))
case AbsP(name, hyp, body) =>
store(AbsP(cache_string(name), cache_term(hyp), cache_proof(body)))
case Appt(fun, arg) => store(Appt(cache_proof(fun), cache_term(arg)))
case AppP(fun, arg) => store(AppP(cache_proof(fun), cache_proof(arg)))
case Hyp(hyp) => store(Hyp(cache_term(hyp)))
case PAxm(name, types) => store(PAxm(cache_string(name), cache_typs(types)))
case OfClass(typ, cls) => store(OfClass(cache_typ(typ), cache_string(cls)))
case Oracle(name, prop, types) =>
store(Oracle(cache_string(name), prop.map(cache_term(_)), cache_typs(types)))
case PThm(serial, theory_name, name, types) =>
store(PThm(serial, cache_string(theory_name), cache_string(name), cache_typs(types)))
}
}
}
}
// main methods
def indexname(x: Indexname): Indexname = synchronized { cache_indexname(x) }
def sort(x: Sort): Sort = synchronized { cache_sort(x) }
def typ(x: Typ): Typ = synchronized { cache_typ(x) }
def term(x: Term): Term = synchronized { cache_term(x) }
def proof(x: Proof): Proof = synchronized { cache_proof(x) }
def position(x: Position.T): Position.T =
synchronized { x.map({ case (a, b) => (cache_string(a), cache_string(b)) }) }
}
}