/* Title: Pure/PIDE/yxml.scala
Author: Makarius
Efficient text representation of XML trees. Suitable for direct
inlining into plain text.
*/
package isabelle
import scala.collection.mutable
object YXML
{
/* chunk markers */
val X = '\u0005'
val Y = '\u0006'
val is_X: Char => Boolean = _ == X
val is_Y: Char => Boolean = _ == Y
val X_string: String = X.toString
val Y_string: String = Y.toString
val XY_string: String = X_string + Y_string
val XYX_string: String = XY_string + X_string
def detect(s: String): Boolean = s.exists(c => c == X || c == Y)
def detect_elem(s: String): Boolean = s.startsWith(XY_string)
/* string representation */
def traversal(string: String => Unit, body: XML.Body)
{
def tree(t: XML.Tree): Unit =
t match {
case XML.Elem(Markup(name, atts), ts) =>
string(XY_string)
string(name)
for ((a, x) <- atts) { string(Y_string); string(a); string("="); string(x) }
string(X_string)
ts.foreach(tree)
string(XYX_string)
case XML.Text(text) => string(text)
}
body.foreach(tree)
}
def string_of_body(body: XML.Body): String =
{
val s = new StringBuilder
traversal(str => s ++= str, body)
s.toString
}
def string_of_tree(tree: XML.Tree): String = string_of_body(List(tree))
/* parsing */
private def err(msg: String) = error("Malformed YXML: " + msg)
private def err_attribute() = err("bad attribute")
private def err_element() = err("bad element")
private def err_unbalanced(name: String) =
if (name == "") err("unbalanced element")
else err("unbalanced element " + quote(name))
private def parse_attrib(source: CharSequence): (String, String) =
{
val s = source.toString
val i = s.indexOf('=')
if (i <= 0) err_attribute()
(s.substring(0, i), s.substring(i + 1))
}
def parse_body(source: CharSequence): XML.Body =
{
/* stack operations */
def buffer(): mutable.ListBuffer[XML.Tree] = new mutable.ListBuffer[XML.Tree]
var stack: List[(Markup, mutable.ListBuffer[XML.Tree])] = List((Markup.Empty, buffer()))
def add(x: XML.Tree)
{
(stack: @unchecked) match { case (_, body) :: _ => body += x }
}
def push(name: String, atts: XML.Attributes)
{
if (name == "") err_element()
else stack = (Markup(name, atts), buffer()) :: stack
}
def pop()
{
(stack: @unchecked) match {
case (Markup.Empty, _) :: _ => err_unbalanced("")
case (markup, body) :: pending =>
stack = pending
add(XML.Elem(markup, body.toList))
}
}
/* parse chunks */
for (chunk <- Library.separated_chunks(is_X, source) if chunk.length != 0) {
if (chunk.length == 1 && chunk.charAt(0) == Y) pop()
else {
Library.separated_chunks(is_Y, chunk).toList match {
case ch :: name :: atts if ch.length == 0 =>
push(name.toString, atts.map(parse_attrib))
case txts => for (txt <- txts) add(XML.Text(txt.toString))
}
}
}
(stack: @unchecked) match {
case List((Markup.Empty, body)) => body.toList
case (Markup(name, _), _) :: _ => err_unbalanced(name)
}
}
def parse(source: CharSequence): XML.Tree =
parse_body(source) match {
case List(result) => result
case Nil => XML.no_text
case _ => err("multiple XML trees")
}
def parse_elem(source: CharSequence): XML.Tree =
parse_body(source) match {
case List(elem: XML.Elem) => elem
case _ => err("single XML element expected")
}
/* failsafe parsing */
private def markup_broken(source: CharSequence) =
XML.Elem(Markup.Broken, List(XML.Text(source.toString)))
def parse_body_failsafe(source: CharSequence): XML.Body =
{
try { parse_body(source) }
catch { case ERROR(_) => List(markup_broken(source)) }
}
def parse_failsafe(source: CharSequence): XML.Tree =
{
try { parse(source) }
catch { case ERROR(_) => markup_broken(source) }
}
}