clarified "this_name" vs. former "reset" feature -- imitate the latter by loading other session sources directly;
/* Title: Pure/System/options.scala
Author: Makarius
Stand-alone options with external string representation.
*/
package isabelle
import java.io.{File => JFile}
object Options
{
type Spec = (String, Option[String])
val empty: Options = new Options()
/* representation */
sealed abstract class Type
{
def print: String = toString.toLowerCase
}
private case object Bool extends Type
private case object Int extends Type
private case object Real extends Type
private case object String extends Type
case class Opt(typ: Type, value: String, description: String)
/* parsing */
private object Parser extends Parse.Parser
{
val DECLARE = "declare"
val DEFINE = "define"
val syntax = Outer_Syntax.empty + ":" + "=" + DECLARE + DEFINE
val entry: Parser[Options => Options] =
{
val option_name = atom("option name", _.is_xname)
val option_type = atom("option type", _.is_ident)
val option_value = atom("option value", tok => tok.is_name || tok.is_float)
keyword(DECLARE) ~! (option_name ~ keyword(":") ~ option_type ~
keyword("=") ~ option_value ~ opt(text)) ^^
{ case _ ~ (a ~ _ ~ b ~ _ ~ c ~ d) =>
(options: Options) => options.declare(a, b, c, d.getOrElse("")) } |
keyword(DEFINE) ~! (option_name ~ keyword("=") ~ option_value) ^^
{ case _ ~ (a ~ _ ~ b) => (options: Options) => options.define(a, b) }
}
def parse_entries(file: JFile): List[Options => Options] =
{
parse_all(rep(entry), Token.reader(syntax.scan(File.read(file)), file.toString)) match {
case Success(result, _) => result
case bad => error(bad.toString)
}
}
}
private val OPTIONS = Path.explode("etc/options")
def init(): Options =
{
var options = empty
for {
dir <- Isabelle_System.components()
file = (dir + OPTIONS).file
if file.isFile
entry <- Parser.parse_entries(file)
} {
try { options = entry(options) }
catch { case ERROR(msg) => error(msg + Position.str_of(Position.file(file))) }
}
options
}
/* encode */
val encode: XML.Encode.T[Options] = (options => options.encode)
}
final class Options private(options: Map[String, Options.Opt] = Map.empty)
{
override def toString: String = options.iterator.mkString("Options (", ",", ")")
/* check */
private def check_name(name: String): Options.Opt =
options.get(name) match {
case Some(opt) => opt
case None => error("Unknown option " + quote(name))
}
private def check_type(name: String, typ: Options.Type): Options.Opt =
{
val opt = check_name(name)
if (opt.typ == typ) opt
else error("Ill-typed option " + quote(name) + " : " + opt.typ.print + " vs. " + typ.print)
}
/* basic operations */
private def put[A](name: String, typ: Options.Type, value: String): Options =
{
val opt = check_type(name, typ)
new Options(options + (name -> opt.copy(value = value)))
}
private def get[A](name: String, typ: Options.Type, parse: String => Option[A]): A =
{
val opt = check_type(name, typ)
parse(opt.value) match {
case Some(x) => x
case None =>
error("Malformed value for option " + quote(name) +
" : " + typ.print + " =\n" + quote(opt.value))
}
}
/* internal lookup and update */
val bool = new Object
{
def apply(name: String): Boolean = get(name, Options.Bool, Properties.Value.Boolean.unapply)
def update(name: String, x: Boolean): Options =
put(name, Options.Bool, Properties.Value.Boolean(x))
}
val int = new Object
{
def apply(name: String): Int = get(name, Options.Int, Properties.Value.Int.unapply)
def update(name: String, x: Int): Options =
put(name, Options.Int, Properties.Value.Int(x))
}
val real = new Object
{
def apply(name: String): Double = get(name, Options.Real, Properties.Value.Double.unapply)
def update(name: String, x: Double): Options =
put(name, Options.Real, Properties.Value.Double(x))
}
val string = new Object
{
def apply(name: String): String = get(name, Options.String, s => Some(s))
def update(name: String, x: String): Options = put(name, Options.String, x)
}
/* external declare and define */
private def check_value(name: String): Options =
{
val opt = check_name(name)
opt.typ match {
case Options.Bool => bool(name); this
case Options.Int => int(name); this
case Options.Real => real(name); this
case Options.String => string(name); this
}
}
def declare(name: String, typ_name: String, value: String, description: String = ""): Options =
{
options.get(name) match {
case Some(_) => error("Duplicate declaration of option " + quote(name))
case None =>
val typ =
typ_name match {
case "bool" => Options.Bool
case "int" => Options.Int
case "real" => Options.Real
case "string" => Options.String
case _ => error("Unknown type for option " + quote(name) + " : " + quote(typ_name))
}
(new Options(options + (name -> Options.Opt(typ, value, description)))).check_value(name)
}
}
def define(name: String, value: String): Options =
{
val opt = check_name(name)
(new Options(options + (name -> opt.copy(value = value)))).check_value(name)
}
def define(name: String, opt_value: Option[String]): Options =
{
val opt = check_name(name)
opt_value match {
case Some(value) => define(name, value)
case None if opt.typ == Options.Bool => define(name, "true")
case None => error("Missing value for option " + quote(name) + " : " + opt.typ.print)
}
}
def ++ (specs: List[Options.Spec]): Options =
(this /: specs)({ case (x, (y, z)) => x.define(y, z) })
def define_simple(str: String): Options =
{
str.indexOf('=') match {
case -1 => define(str, None)
case i => define(str.substring(0, i), str.substring(i + 1))
}
}
/* encode */
def encode: XML.Body =
{
import XML.Encode.{string => str, _}
list(triple(str, str, str))(
options.toList.map({ case (name, opt) => (name, opt.typ.print, opt.value) }))
}
}