/* Title: Pure/Thy/completion.scala
Author: Makarius
Completion of symbols and keywords.
*/
package isabelle
import scala.util.matching.Regex
import scala.util.parsing.combinator.RegexParsers
private object Completion
{
/** String/CharSequence utilities */
def length_ord(s1: String, s2: String): Boolean =
s1.length < s2.length || s1.length == s2.length && s1 <= s2
class Reverse(text: CharSequence, start: Int, end: Int) extends CharSequence
{
require(0 <= start && start <= end && end <= text.length)
def this(text: CharSequence) = this(text, 0, text.length)
def length: Int = end - start
def charAt(i: Int): Char = text.charAt(end - i - 1)
def subSequence(i: Int, j: Int): CharSequence =
if (0 <= i && i <= j && j <= length) new Reverse(text, end - j, end - i)
else throw new IndexOutOfBoundsException
override def toString: String =
{
val buf = new StringBuffer(length)
for (i <- 0 until length)
buf.append(charAt(i))
buf.toString
}
}
/** word completion **/
val word_regex = "[a-zA-Z0-9_']+".r
def is_word(s: CharSequence): Boolean = word_regex.pattern.matcher(s).matches
object Parse extends RegexParsers
{
override val whiteSpace = "".r
def rev_symbol: Parser[String] = """>[A-Za-z0-9_']+<\\""".r
def rev_symb: Parser[String] = """[A-Za-z0-9_']{2,}<\\""".r
def word: Parser[String] = "[a-zA-Z0-9_']{3,}".r
def read(in: CharSequence): Option[String] =
{
val rev_in = new Reverse(in)
parse((rev_symbol | rev_symb | word) ^^ (_.reverse), rev_in) match {
case Success(result, _) => Some(result)
case _ => None
}
}
}
}
class Completion
{
/* representation */
protected val words_lex = Scan.Lexicon()
protected val words_map = Map[String, String]()
protected val abbrevs_lex = Scan.Lexicon()
protected val abbrevs_map = Map[String, (String, String)]()
/* adding stuff */
def + (keyword: String): Completion =
{
val old = this
new Completion {
override val words_lex = old.words_lex + keyword
override val words_map = old.words_map + (keyword -> keyword)
override val abbrevs_lex = old.abbrevs_lex
override val abbrevs_map = old.abbrevs_map
}
}
def + (symbols: Symbol.Interpretation): Completion =
{
val words =
(for ((x, _) <- symbols.names) yield (x, x)).toList :::
(for ((x, y) <- symbols.names) yield (y, x)).toList :::
(for ((x, y) <- symbols.abbrevs if Completion.is_word(y)) yield (y, x)).toList
val abbrs =
(for ((x, y) <- symbols.abbrevs if !Completion.is_word(y))
yield (y.reverse.toString, (y, x))).toList
val old = this
new Completion {
override val words_lex = old.words_lex ++ words.map(_._1)
override val words_map = old.words_map ++ words
override val abbrevs_lex = old.abbrevs_lex ++ abbrs.map(_._1)
override val abbrevs_map = old.abbrevs_map ++ abbrs
}
}
/* complete */
def complete(line: CharSequence): Option[(String, List[String])] =
{
abbrevs_lex.parse(abbrevs_lex.keyword, new Completion.Reverse(line)) match {
case abbrevs_lex.Success(rev_a, _) =>
val (word, c) = abbrevs_map(rev_a)
Some(word, List(c))
case _ =>
Completion.Parse.read(line) match {
case Some(word) =>
words_lex.completions(word) match {
case Nil => None
case cs => Some(word, cs.map(words_map(_)).sort(Completion.length_ord _))
}
case None => None
}
}
}
}