src/Pure/PIDE/document.scala
author wenzelm
Mon Feb 24 11:05:02 2014 +0100 (2014-02-24)
changeset 55710 2d623ab55672
parent 55651 fa42cf3fe79b
child 55777 90484dff4dc4
permissions -rw-r--r--
tuned messages;
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/*  Title:      Pure/PIDE/document.scala
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    Author:     Makarius
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Document as collection of named nodes, each consisting of an editable
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list of commands, associated with asynchronous execution process.
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*/
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package isabelle
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import scala.collection.mutable
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object Document
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{
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  /** document structure **/
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  /* overlays -- print functions with arguments */
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  object Overlays
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  {
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    val empty = new Overlays(Map.empty)
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  }
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  final class Overlays private(rep: Map[Node.Name, Node.Overlays])
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  {
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    def apply(name: Document.Node.Name): Node.Overlays =
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      rep.getOrElse(name, Node.Overlays.empty)
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    private def update(name: Node.Name, f: Node.Overlays => Node.Overlays): Overlays =
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    {
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      val node_overlays = f(apply(name))
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      new Overlays(if (node_overlays.is_empty) rep - name else rep + (name -> node_overlays))
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    }
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    def insert(command: Command, fn: String, args: List[String]): Overlays =
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      update(command.node_name, _.insert(command, fn, args))
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    def remove(command: Command, fn: String, args: List[String]): Overlays =
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      update(command.node_name, _.remove(command, fn, args))
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  }
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  /* individual nodes */
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  type Edit[A, B] = (Node.Name, Node.Edit[A, B])
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  type Edit_Text = Edit[Text.Edit, Text.Perspective]
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  type Edit_Command = Edit[Command.Edit, Command.Perspective]
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  type Blobs = Map[Node.Name, (Bytes, Command.File)]
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  object Node
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  {
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    val empty: Node = new Node()
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    /* header and name */
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    sealed case class Header(
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      imports: List[Name],
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      keywords: Thy_Header.Keywords,
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      errors: List[String] = Nil)
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    {
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      def error(msg: String): Header = copy(errors = errors ::: List(msg))
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      def cat_errors(msg2: String): Header =
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        copy(errors = errors.map(msg1 => Library.cat_message(msg1, msg2)))
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    }
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    def bad_header(msg: String): Header = Header(Nil, Nil, List(msg))
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    val no_header = bad_header("No theory header")
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    object Name
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    {
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      val empty = Name("")
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      object Ordering extends scala.math.Ordering[Name]
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      {
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        def compare(name1: Name, name2: Name): Int = name1.node compare name2.node
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      }
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    }
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    sealed case class Name(node: String, master_dir: String = "", theory: String = "")
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    {
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      override def hashCode: Int = node.hashCode
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      override def equals(that: Any): Boolean =
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        that match {
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          case other: Name => node == other.node
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          case _ => false
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        }
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      def is_theory: Boolean = !theory.isEmpty
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      override def toString: String = if (is_theory) theory else node
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    }
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    /* node overlays */
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    object Overlays
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    {
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      val empty = new Overlays(Multi_Map.empty)
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    }
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    final class Overlays private(rep: Multi_Map[Command, (String, List[String])])
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    {
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      def commands: Set[Command] = rep.keySet
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      def is_empty: Boolean = rep.isEmpty
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      def dest: List[(Command, (String, List[String]))] = rep.iterator.toList
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      def insert(cmd: Command, fn: String, args: List[String]): Overlays =
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        new Overlays(rep.insert(cmd, (fn, args)))
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      def remove(cmd: Command, fn: String, args: List[String]): Overlays =
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        new Overlays(rep.remove(cmd, (fn, args)))
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    }
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    /* edits */
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    sealed abstract class Edit[A, B]
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    {
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      def foreach(f: A => Unit)
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      {
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        this match {
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          case Edits(es) => es.foreach(f)
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          case _ =>
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        }
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      }
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    }
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    case class Clear[A, B]() extends Edit[A, B]
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    case class Blob[A, B]() extends Edit[A, B]
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    case class Edits[A, B](edits: List[A]) extends Edit[A, B]
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    case class Deps[A, B](header: Header) extends Edit[A, B]
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    case class Perspective[A, B](required: Boolean, visible: B, overlays: Overlays) extends Edit[A, B]
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    type Perspective_Text = Perspective[Text.Edit, Text.Perspective]
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    type Perspective_Command = Perspective[Command.Edit, Command.Perspective]
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    /* commands */
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    object Commands
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    {
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      def apply(commands: Linear_Set[Command]): Commands = new Commands(commands)
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      val empty: Commands = apply(Linear_Set.empty)
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      def starts(commands: Iterator[Command], offset: Text.Offset = 0)
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        : Iterator[(Command, Text.Offset)] =
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      {
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        var i = offset
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        for (command <- commands) yield {
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          val start = i
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          i += command.length
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          (command, start)
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        }
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      }
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      private val block_size = 1024
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    }
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    final class Commands private(val commands: Linear_Set[Command])
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    {
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      lazy val thy_load_commands: List[Command] =
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        commands.iterator.filter(cmd => !cmd.blobs.isEmpty).toList
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      private lazy val full_index: (Array[(Command, Text.Offset)], Text.Range) =
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      {
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        val blocks = new mutable.ListBuffer[(Command, Text.Offset)]
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        var next_block = 0
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        var last_stop = 0
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        for ((command, start) <- Commands.starts(commands.iterator)) {
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          last_stop = start + command.length
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          while (last_stop + 1 > next_block) {
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            blocks += (command -> start)
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            next_block += Commands.block_size
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          }
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        }
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        (blocks.toArray, Text.Range(0, last_stop))
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      }
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      private def full_range: Text.Range = full_index._2
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      def range(i: Text.Offset = 0): Iterator[(Command, Text.Offset)] =
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      {
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        if (!commands.isEmpty && full_range.contains(i)) {
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          val (cmd0, start0) = full_index._1(i / Commands.block_size)
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          Node.Commands.starts(commands.iterator(cmd0), start0) dropWhile {
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            case (cmd, start) => start + cmd.length <= i }
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        }
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        else Iterator.empty
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      }
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    }
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  }
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  final class Node private(
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    val is_blob: Boolean = false,
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    val header: Node.Header = Node.bad_header("Bad theory header"),
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    val perspective: Node.Perspective_Command =
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      Node.Perspective(false, Command.Perspective.empty, Node.Overlays.empty),
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    _commands: Node.Commands = Node.Commands.empty)
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  {
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    def clear: Node = new Node(header = header)
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    def init_blob: Node = new Node(is_blob = true)
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    def update_header(new_header: Node.Header): Node =
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      new Node(is_blob, new_header, perspective, _commands)
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    def update_perspective(new_perspective: Node.Perspective_Command): Node =
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      new Node(is_blob, header, new_perspective, _commands)
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    def same_perspective(other_perspective: Node.Perspective_Command): Boolean =
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      perspective.required == other_perspective.required &&
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      perspective.visible.same(other_perspective.visible) &&
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      perspective.overlays == other_perspective.overlays
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    def commands: Linear_Set[Command] = _commands.commands
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    def thy_load_commands: List[Command] = _commands.thy_load_commands
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    def update_commands(new_commands: Linear_Set[Command]): Node =
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      if (new_commands eq _commands.commands) this
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      else new Node(is_blob, header, perspective, Node.Commands(new_commands))
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    def command_range(i: Text.Offset = 0): Iterator[(Command, Text.Offset)] =
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      _commands.range(i)
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    def command_range(range: Text.Range): Iterator[(Command, Text.Offset)] =
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      command_range(range.start) takeWhile { case (_, start) => start < range.stop }
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    def command_start(cmd: Command): Option[Text.Offset] =
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      Node.Commands.starts(commands.iterator).find(_._1 == cmd).map(_._2)
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  }
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  /* development graph */
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  object Nodes
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  {
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    val empty: Nodes = new Nodes(Graph.empty(Node.Name.Ordering))
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  }
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  final class Nodes private(graph: Graph[Node.Name, Node])
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  {
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    def get_name(s: String): Option[Node.Name] =
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      graph.keys.find(name => name.node == s)
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    def apply(name: Node.Name): Node =
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      graph.default_node(name, Node.empty).get_node(name)
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    def + (entry: (Node.Name, Node)): Nodes =
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    {
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      val (name, node) = entry
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      val imports = node.header.imports
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      val graph1 =
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        (graph.default_node(name, Node.empty) /: imports)((g, p) => g.default_node(p, Node.empty))
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      val graph2 = (graph1 /: graph1.imm_preds(name))((g, dep) => g.del_edge(dep, name))
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      val graph3 = (graph2 /: imports)((g, dep) => g.add_edge(dep, name))
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      new Nodes(graph3.map_node(name, _ => node))
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    }
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    def entries: Iterator[(Node.Name, Node)] =
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      graph.entries.map({ case (name, (node, _)) => (name, node) })
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    def thy_load_commands(file_name: Node.Name): List[Command] =
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      (for {
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        (_, node) <- entries
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        cmd <- node.thy_load_commands.iterator
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        name <- cmd.blobs_names.iterator
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        if name == file_name
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      } yield cmd).toList
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    def descendants(names: List[Node.Name]): List[Node.Name] = graph.all_succs(names)
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    def topological_order: List[Node.Name] = graph.topological_order
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  }
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  /** versioning **/
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  /* particular document versions */
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  object Version
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  {
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    val init: Version = new Version()
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    def make(syntax: Outer_Syntax, nodes: Nodes): Version =
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      new Version(Document_ID.make(), syntax, nodes)
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  }
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  final class Version private(
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    val id: Document_ID.Version = Document_ID.none,
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    val syntax: Outer_Syntax = Outer_Syntax.empty,
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    val nodes: Nodes = Nodes.empty)
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  {
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    def is_init: Boolean = id == Document_ID.none
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  }
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  /* changes of plain text, eventually resulting in document edits */
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  object Change
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  {
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    val init: Change = new Change()
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    def make(previous: Future[Version], edits: List[Edit_Text], version: Future[Version]): Change =
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      new Change(Some(previous), edits, version)
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  }
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  final class Change private(
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    val previous: Option[Future[Version]] = Some(Future.value(Version.init)),
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    val edits: List[Edit_Text] = Nil,
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    val version: Future[Version] = Future.value(Version.init))
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  {
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    def is_finished: Boolean =
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      (previous match { case None => true case Some(future) => future.is_finished }) &&
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      version.is_finished
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    def truncate: Change = new Change(None, Nil, version)
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  }
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  /* history navigation */
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  object History
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  {
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    val init: History = new History()
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  }
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  final class History private(
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    val undo_list: List[Change] = List(Change.init))  // non-empty list
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  {
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    def tip: Change = undo_list.head
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    def + (change: Change): History = new History(change :: undo_list)
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    def prune(check: Change => Boolean, retain: Int): Option[(List[Change], History)] =
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    {
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      val n = undo_list.iterator.zipWithIndex.find(p => check(p._1)).get._2 + 1
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      val (retained, dropped) = undo_list.splitAt(n max retain)
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      retained.splitAt(retained.length - 1) match {
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        case (prefix, List(last)) => Some(dropped, new History(prefix ::: List(last.truncate)))
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        case _ => None
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      }
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    }
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  }
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  /** global state -- document structure, execution process, editing history **/
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  object Snapshot
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  {
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    val init = State.init.snapshot()
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  }
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  abstract class Snapshot
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  {
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    val state: State
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    val version: Version
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    val is_outdated: Boolean
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    def convert(i: Text.Offset): Text.Offset
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    def revert(i: Text.Offset): Text.Offset
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    def convert(range: Text.Range): Text.Range
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    def revert(range: Text.Range): Text.Range
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    val node_name: Node.Name
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    val node: Node
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    val thy_load_commands: List[Command]
wenzelm@51494
   369
    def eq_content(other: Snapshot): Boolean
wenzelm@55649
   370
wenzelm@55651
   371
    def cumulate[A](
wenzelm@55649
   372
      range: Text.Range,
wenzelm@55649
   373
      info: A,
wenzelm@55649
   374
      elements: String => Boolean,
wenzelm@55651
   375
      result: Command.State => (A, Text.Markup) => Option[A],
wenzelm@55651
   376
      status: Boolean = false): List[Text.Info[A]]
wenzelm@55651
   377
wenzelm@55651
   378
    def select[A](
wenzelm@55649
   379
      range: Text.Range,
wenzelm@55649
   380
      elements: String => Boolean,
wenzelm@55651
   381
      result: Command.State => Text.Markup => Option[A],
wenzelm@55651
   382
      status: Boolean = false): List[Text.Info[A]]
wenzelm@38424
   383
  }
wenzelm@38424
   384
wenzelm@52563
   385
  type Assign_Update =
wenzelm@52563
   386
    List[(Document_ID.Command, List[Document_ID.Exec])]  // update of exec state assignment
wenzelm@44476
   387
wenzelm@38370
   388
  object State
wenzelm@38370
   389
  {
wenzelm@38373
   390
    class Fail(state: State) extends Exception
wenzelm@38373
   391
wenzelm@44479
   392
    object Assignment
wenzelm@44479
   393
    {
wenzelm@46683
   394
      val init: Assignment = new Assignment()
wenzelm@44479
   395
    }
wenzelm@38370
   396
wenzelm@46712
   397
    final class Assignment private(
wenzelm@52530
   398
      val command_execs: Map[Document_ID.Command, List[Document_ID.Exec]] = Map.empty,
wenzelm@46677
   399
      val is_finished: Boolean = false)
wenzelm@38370
   400
    {
wenzelm@44477
   401
      def check_finished: Assignment = { require(is_finished); this }
wenzelm@47388
   402
      def unfinished: Assignment = new Assignment(command_execs, false)
wenzelm@44479
   403
wenzelm@52563
   404
      def assign(update: Assign_Update): Assignment =
wenzelm@38370
   405
      {
wenzelm@38976
   406
        require(!is_finished)
wenzelm@44479
   407
        val command_execs1 =
wenzelm@52563
   408
          (command_execs /: update) {
wenzelm@52563
   409
            case (res, (command_id, exec_ids)) =>
wenzelm@52563
   410
              if (exec_ids.isEmpty) res - command_id
wenzelm@52563
   411
              else res + (command_id -> exec_ids)
wenzelm@44479
   412
          }
wenzelm@47388
   413
        new Assignment(command_execs1, true)
wenzelm@38150
   414
      }
wenzelm@38370
   415
    }
wenzelm@46682
   416
wenzelm@46682
   417
    val init: State =
wenzelm@52563
   418
      State().define_version(Version.init, Assignment.init).assign(Version.init.id, Nil)._2
wenzelm@38370
   419
  }
wenzelm@38370
   420
wenzelm@46712
   421
  final case class State private(
wenzelm@52530
   422
    val versions: Map[Document_ID.Version, Version] = Map.empty,
wenzelm@54519
   423
    val blobs: Set[SHA1.Digest] = Set.empty,   // inlined files
wenzelm@52530
   424
    val commands: Map[Document_ID.Command, Command.State] = Map.empty,  // static markup from define_command
wenzelm@52530
   425
    val execs: Map[Document_ID.Exec, Command.State] = Map.empty,  // dynamic markup from execution
wenzelm@52530
   426
    val assignments: Map[Document_ID.Version, State.Assignment] = Map.empty,
wenzelm@38841
   427
    val history: History = History.init)
wenzelm@38370
   428
  {
wenzelm@38373
   429
    private def fail[A]: A = throw new State.Fail(this)
wenzelm@38370
   430
wenzelm@44479
   431
    def define_version(version: Version, assignment: State.Assignment): State =
wenzelm@38370
   432
    {
wenzelm@38417
   433
      val id = version.id
wenzelm@38417
   434
      copy(versions = versions + (id -> version),
wenzelm@44479
   435
        assignments = assignments + (id -> assignment.unfinished))
wenzelm@38370
   436
    }
wenzelm@38370
   437
wenzelm@54519
   438
    def define_blob(digest: SHA1.Digest): State = copy(blobs = blobs + digest)
wenzelm@54519
   439
    def defined_blob(digest: SHA1.Digest): Boolean = blobs.contains(digest)
wenzelm@54519
   440
wenzelm@38373
   441
    def define_command(command: Command): State =
wenzelm@38373
   442
    {
wenzelm@38373
   443
      val id = command.id
wenzelm@49414
   444
      copy(commands = commands + (id -> command.init_state))
wenzelm@38373
   445
    }
wenzelm@38373
   446
wenzelm@52530
   447
    def defined_command(id: Document_ID.Command): Boolean = commands.isDefinedAt(id)
wenzelm@44582
   448
wenzelm@52531
   449
    def find_command(version: Version, id: Document_ID.Generic): Option[(Node, Command)] =
wenzelm@44582
   450
      commands.get(id) orElse execs.get(id) match {
wenzelm@44582
   451
        case None => None
wenzelm@44582
   452
        case Some(st) =>
wenzelm@44582
   453
          val command = st.command
wenzelm@46681
   454
          val node = version.nodes(command.node_name)
wenzelm@54328
   455
          if (node.commands.contains(command)) Some((node, command)) else None
wenzelm@44582
   456
      }
wenzelm@38373
   457
wenzelm@52530
   458
    def the_version(id: Document_ID.Version): Version = versions.getOrElse(id, fail)
wenzelm@52564
   459
    def the_static_state(id: Document_ID.Command): Command.State = commands.getOrElse(id, fail)
wenzelm@52564
   460
    def the_dynamic_state(id: Document_ID.Exec): Command.State = execs.getOrElse(id, fail)
wenzelm@52563
   461
    def the_assignment(version: Version): State.Assignment = assignments.getOrElse(version.id, fail)
wenzelm@38370
   462
wenzelm@52531
   463
    def accumulate(id: Document_ID.Generic, message: XML.Elem): (Command.State, State) =
wenzelm@38370
   464
      execs.get(id) match {
wenzelm@44446
   465
        case Some(st) =>
wenzelm@49527
   466
          val new_st = st + (id, message)
wenzelm@44446
   467
          (new_st, copy(execs = execs + (id -> new_st)))
wenzelm@38370
   468
        case None =>
wenzelm@38370
   469
          commands.get(id) match {
wenzelm@38370
   470
            case Some(st) =>
wenzelm@49527
   471
              val new_st = st + (id, message)
wenzelm@38370
   472
              (new_st, copy(commands = commands + (id -> new_st)))
wenzelm@38370
   473
            case None => fail
wenzelm@38370
   474
          }
wenzelm@38370
   475
      }
wenzelm@38370
   476
wenzelm@52563
   477
    def assign(id: Document_ID.Version, update: Assign_Update): (List[Command], State) =
wenzelm@38370
   478
    {
wenzelm@38417
   479
      val version = the_version(id)
wenzelm@38370
   480
wenzelm@52566
   481
      def upd(exec_id: Document_ID.Exec, st: Command.State)
wenzelm@52566
   482
          : Option[(Document_ID.Exec, Command.State)] =
wenzelm@52566
   483
        if (execs.isDefinedAt(exec_id)) None else Some(exec_id -> st)
wenzelm@52566
   484
wenzelm@44543
   485
      val (changed_commands, new_execs) =
wenzelm@52563
   486
        ((Nil: List[Command], execs) /: update) {
wenzelm@52566
   487
          case ((commands1, execs1), (command_id, exec)) =>
wenzelm@52566
   488
            val st = the_static_state(command_id)
wenzelm@52566
   489
            val command = st.command
wenzelm@52527
   490
            val commands2 = command :: commands1
wenzelm@44543
   491
            val execs2 =
wenzelm@44543
   492
              exec match {
wenzelm@52527
   493
                case Nil => execs1
wenzelm@52527
   494
                case eval_id :: print_ids =>
wenzelm@52566
   495
                  execs1 ++ upd(eval_id, st) ++
wenzelm@52566
   496
                    (for (id <- print_ids; up <- upd(id, command.empty_state)) yield up)
wenzelm@44543
   497
              }
wenzelm@44543
   498
            (commands2, execs2)
wenzelm@38370
   499
        }
wenzelm@52563
   500
      val new_assignment = the_assignment(version).assign(update)
wenzelm@43722
   501
      val new_state = copy(assignments = assignments + (id -> new_assignment), execs = new_execs)
wenzelm@44476
   502
wenzelm@44543
   503
      (changed_commands, new_state)
wenzelm@38370
   504
    }
wenzelm@38370
   505
wenzelm@38417
   506
    def is_assigned(version: Version): Boolean =
wenzelm@43722
   507
      assignments.get(version.id) match {
wenzelm@38370
   508
        case Some(assgn) => assgn.is_finished
wenzelm@38370
   509
        case None => false
wenzelm@38370
   510
      }
wenzelm@38370
   511
wenzelm@44436
   512
    def is_stable(change: Change): Boolean =
wenzelm@44436
   513
      change.is_finished && is_assigned(change.version.get_finished)
wenzelm@44436
   514
wenzelm@46944
   515
    def recent_finished: Change = history.undo_list.find(_.is_finished) getOrElse fail
wenzelm@44672
   516
    def recent_stable: Change = history.undo_list.find(is_stable) getOrElse fail
wenzelm@44436
   517
    def tip_stable: Boolean = is_stable(history.tip)
wenzelm@44475
   518
    def tip_version: Version = history.tip.version.get_finished
wenzelm@44436
   519
wenzelm@44446
   520
    def continue_history(
wenzelm@44446
   521
        previous: Future[Version],
wenzelm@40479
   522
        edits: List[Edit_Text],
wenzelm@43722
   523
        version: Future[Version]): (Change, State) =
wenzelm@38841
   524
    {
wenzelm@46678
   525
      val change = Change.make(previous, edits, version)
wenzelm@38841
   526
      (change, copy(history = history + change))
wenzelm@38841
   527
    }
wenzelm@38841
   528
wenzelm@44672
   529
    def prune_history(retain: Int = 0): (List[Version], State) =
wenzelm@44672
   530
    {
wenzelm@46679
   531
      history.prune(is_stable, retain) match {
wenzelm@46679
   532
        case Some((dropped, history1)) =>
wenzelm@44672
   533
          val dropped_versions = dropped.map(change => change.version.get_finished)
wenzelm@46679
   534
          val state1 = copy(history = history1)
wenzelm@44672
   535
          (dropped_versions, state1)
wenzelm@46679
   536
        case None => fail
wenzelm@44672
   537
      }
wenzelm@44672
   538
    }
wenzelm@44672
   539
wenzelm@52530
   540
    def removed_versions(removed: List[Document_ID.Version]): State =
wenzelm@44676
   541
    {
wenzelm@44676
   542
      val versions1 = versions -- removed
wenzelm@44676
   543
      val assignments1 = assignments -- removed
wenzelm@54519
   544
      var blobs1 = Set.empty[SHA1.Digest]
wenzelm@52530
   545
      var commands1 = Map.empty[Document_ID.Command, Command.State]
wenzelm@52530
   546
      var execs1 = Map.empty[Document_ID.Exec, Command.State]
wenzelm@44676
   547
      for {
wenzelm@44676
   548
        (version_id, version) <- versions1.iterator
wenzelm@46997
   549
        command_execs = assignments1(version_id).command_execs
wenzelm@46723
   550
        (_, node) <- version.nodes.entries
wenzelm@44676
   551
        command <- node.commands.iterator
wenzelm@44676
   552
      } {
wenzelm@54519
   553
        for (digest <- command.blobs_digests; if !blobs1.contains(digest))
wenzelm@54519
   554
          blobs1 += digest
wenzelm@54519
   555
wenzelm@52568
   556
        if (!commands1.isDefinedAt(command.id))
wenzelm@52568
   557
          commands.get(command.id).foreach(st => commands1 += (command.id -> st))
wenzelm@54519
   558
wenzelm@52568
   559
        for (exec_id <- command_execs.getOrElse(command.id, Nil)) {
wenzelm@52527
   560
          if (!execs1.isDefinedAt(exec_id))
wenzelm@52527
   561
            execs.get(exec_id).foreach(st => execs1 += (exec_id -> st))
wenzelm@44676
   562
        }
wenzelm@44676
   563
      }
wenzelm@54519
   564
      copy(versions = versions1, blobs = blobs1, commands = commands1, execs = execs1,
wenzelm@54519
   565
        assignments = assignments1)
wenzelm@44676
   566
    }
wenzelm@44676
   567
wenzelm@44613
   568
    def command_state(version: Version, command: Command): Command.State =
wenzelm@44613
   569
    {
wenzelm@44613
   570
      require(is_assigned(version))
wenzelm@44613
   571
      try {
wenzelm@52527
   572
        the_assignment(version).check_finished.command_execs.getOrElse(command.id, Nil)
wenzelm@52564
   573
          .map(the_dynamic_state(_)) match {
wenzelm@52527
   574
            case eval_state :: print_states => (eval_state /: print_states)(_ ++ _)
wenzelm@52527
   575
            case Nil => fail
wenzelm@52527
   576
          }
wenzelm@44613
   577
      }
wenzelm@47395
   578
      catch {
wenzelm@47395
   579
        case _: State.Fail =>
wenzelm@52564
   580
          try { the_static_state(command.id) }
wenzelm@49414
   581
          catch { case _: State.Fail => command.init_state }
wenzelm@47395
   582
      }
wenzelm@44613
   583
    }
wenzelm@44613
   584
wenzelm@49645
   585
    def markup_to_XML(version: Version, node: Node, filter: XML.Elem => Boolean): XML.Body =
wenzelm@49645
   586
      node.commands.toList.map(cmd => command_state(version, cmd).markup_to_XML(filter)).flatten
wenzelm@38841
   587
wenzelm@38841
   588
    // persistent user-view
wenzelm@49346
   589
    def snapshot(name: Node.Name = Node.Name.empty, pending_edits: List[Text.Edit] = Nil)
wenzelm@49346
   590
      : Snapshot =
wenzelm@38370
   591
    {
wenzelm@44672
   592
      val stable = recent_stable
wenzelm@44436
   593
      val latest = history.tip
wenzelm@38841
   594
wenzelm@44156
   595
      // FIXME proper treatment of removed nodes
wenzelm@38841
   596
      val edits =
wenzelm@38841
   597
        (pending_edits /: history.undo_list.takeWhile(_ != stable))((edits, change) =>
wenzelm@44156
   598
            (for ((a, Node.Edits(es)) <- change.edits if a == name) yield es).flatten ::: edits)
wenzelm@38841
   599
      lazy val reverse_edits = edits.reverse
wenzelm@38841
   600
wenzelm@38841
   601
      new Snapshot
wenzelm@38841
   602
      {
wenzelm@52972
   603
        /* global information */
wenzelm@52972
   604
wenzelm@44582
   605
        val state = State.this
wenzelm@39698
   606
        val version = stable.version.get_finished
wenzelm@38841
   607
        val is_outdated = !(pending_edits.isEmpty && latest == stable)
wenzelm@38841
   608
wenzelm@55649
   609
wenzelm@55649
   610
        /* local node content */
wenzelm@55649
   611
wenzelm@38841
   612
        def convert(offset: Text.Offset) = (offset /: edits)((i, edit) => edit.convert(i))
wenzelm@38841
   613
        def revert(offset: Text.Offset) = (offset /: reverse_edits)((i, edit) => edit.revert(i))
wenzelm@43425
   614
        def convert(range: Text.Range) = (range /: edits)((r, edit) => edit.convert(r))
wenzelm@43425
   615
        def revert(range: Text.Range) = (range /: reverse_edits)((r, edit) => edit.revert(r))
wenzelm@39177
   616
wenzelm@52972
   617
        val node_name = name
wenzelm@52972
   618
        val node = version.nodes(name)
wenzelm@52972
   619
wenzelm@55432
   620
        val thy_load_commands: List[Command] =
wenzelm@55432
   621
          if (node_name.is_theory) Nil
wenzelm@55432
   622
          else version.nodes.thy_load_commands(node_name)
wenzelm@55432
   623
wenzelm@51494
   624
        def eq_content(other: Snapshot): Boolean =
wenzelm@55434
   625
        {
wenzelm@55434
   626
          def eq_commands(commands: (Command, Command)): Boolean =
wenzelm@55434
   627
            state.command_state(version, commands._1) eq_content
wenzelm@55434
   628
              other.state.command_state(other.version, commands._2)
wenzelm@55434
   629
wenzelm@49346
   630
          !is_outdated && !other.is_outdated &&
wenzelm@55434
   631
          node.commands.size == other.node.commands.size &&
wenzelm@55434
   632
          (node.commands.iterator zip other.node.commands.iterator).forall(eq_commands) &&
wenzelm@55434
   633
          thy_load_commands.length == other.thy_load_commands.length &&
wenzelm@55434
   634
          (thy_load_commands zip other.thy_load_commands).forall(eq_commands)
wenzelm@55434
   635
        }
wenzelm@49346
   636
wenzelm@55710
   637
        override def toString: String =
wenzelm@55710
   638
          "Snapshot(node = " + node_name.node + ", version = " + version.id +
wenzelm@55710
   639
            (if (is_outdated) ", outdated" else "") + ")"
wenzelm@55710
   640
wenzelm@55649
   641
wenzelm@55649
   642
        /* cumulate markup */
wenzelm@55649
   643
wenzelm@55651
   644
        def cumulate[A](
wenzelm@55649
   645
          range: Text.Range,
wenzelm@55649
   646
          info: A,
wenzelm@55649
   647
          elements: String => Boolean,
wenzelm@55651
   648
          result: Command.State => (A, Text.Markup) => Option[A],
wenzelm@55651
   649
          status: Boolean = false): List[Text.Info[A]] =
wenzelm@45459
   650
        {
wenzelm@45467
   651
          val former_range = revert(range)
wenzelm@55432
   652
          thy_load_commands match {
wenzelm@55432
   653
            case thy_load_command :: _ =>
wenzelm@55432
   654
              val file_name = node_name.node
wenzelm@55649
   655
              val markup_index = Command.Markup_Index(status, file_name)
wenzelm@55432
   656
              (for {
wenzelm@55432
   657
                chunk <- thy_load_command.chunks.get(file_name).iterator
wenzelm@55432
   658
                st = state.command_state(version, thy_load_command)
wenzelm@55432
   659
                res = result(st)
wenzelm@55650
   660
                Text.Info(r0, a) <- st.markup(markup_index).cumulate[A](
wenzelm@55432
   661
                  former_range.restrict(chunk.range), info, elements,
wenzelm@55432
   662
                  { case (a, Text.Info(r0, b)) => res(a, Text.Info(convert(r0), b)) }
wenzelm@55432
   663
                ).iterator
wenzelm@55432
   664
              } yield Text.Info(convert(r0), a)).toList
wenzelm@55432
   665
wenzelm@55432
   666
            case _ =>
wenzelm@55649
   667
              val markup_index = Command.Markup_Index(status, "")
wenzelm@55432
   668
              (for {
wenzelm@55432
   669
                (command, command_start) <- node.command_range(former_range)
wenzelm@55432
   670
                st = state.command_state(version, command)
wenzelm@55432
   671
                res = result(st)
wenzelm@55650
   672
                Text.Info(r0, a) <- st.markup(markup_index).cumulate[A](
wenzelm@55432
   673
                  (former_range - command_start).restrict(command.range), info, elements,
wenzelm@55649
   674
                  {
wenzelm@55649
   675
                    case (a, Text.Info(r0, b)) => res(a, Text.Info(convert(r0 + command_start), b))
wenzelm@55649
   676
                  }).iterator
wenzelm@55432
   677
              } yield Text.Info(convert(r0 + command_start), a)).toList
wenzelm@55432
   678
          }
wenzelm@45459
   679
        }
wenzelm@45459
   680
wenzelm@55651
   681
        def select[A](
wenzelm@55651
   682
          range: Text.Range,
wenzelm@55651
   683
          elements: String => Boolean,
wenzelm@55651
   684
          result: Command.State => Text.Markup => Option[A],
wenzelm@55651
   685
          status: Boolean = false): List[Text.Info[A]] =
wenzelm@38845
   686
        {
wenzelm@52889
   687
          def result1(st: Command.State): (Option[A], Text.Markup) => Option[Option[A]] =
wenzelm@50500
   688
          {
wenzelm@50500
   689
            val res = result(st)
wenzelm@52889
   690
            (_: Option[A], x: Text.Markup) =>
wenzelm@52889
   691
              res(x) match {
wenzelm@52889
   692
                case None => None
wenzelm@52889
   693
                case some => Some(some)
wenzelm@52889
   694
              }
wenzelm@50500
   695
          }
wenzelm@55651
   696
          for (Text.Info(r, Some(x)) <- cumulate(range, None, elements, result1 _, status))
wenzelm@46198
   697
            yield Text.Info(r, x)
wenzelm@38845
   698
        }
wenzelm@38841
   699
      }
wenzelm@38150
   700
    }
wenzelm@34485
   701
  }
wenzelm@34840
   702
}
wenzelm@34840
   703