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/*  Title:      Pure/Tools/bibtex.scala
    Author:     Makarius

BibTeX support.
*/

package isabelle


import scala.collection.mutable
import scala.util.parsing.combinator.RegexParsers
import scala.util.parsing.input.Reader


object Bibtex
{
  /** document model **/

  def check_name(name: String): Boolean = name.endsWith(".bib")
  def check_name(name: Document.Node.Name): Boolean = check_name(name.node)

  def entries(text: String): List[Text.Info[String]] =
  {
    val result = new mutable.ListBuffer[Text.Info[String]]
    var offset = 0
    for (chunk <- Bibtex.parse(text)) {
      val end_offset = offset + chunk.source.length
      if (chunk.name != "" && !chunk.is_command)
        result += Text.Info(Text.Range(offset, end_offset), chunk.name)
      offset = end_offset
    }
    result.toList
  }

  def entries_iterator[A, B <: Document.Model](models: Map[A, B])
    : Iterator[Text.Info[(String, B)]] =
  {
    for {
      (_, model) <- models.iterator
      info <- model.bibtex_entries.iterator
    } yield info.map((_, model))
  }


  /* completion */

  def completion[A, B <: Document.Model](
    history: Completion.History, rendering: Rendering, caret: Text.Offset,
    models: Map[A, B]): Option[Completion.Result] =
  {
    for {
      Text.Info(r, name) <- rendering.citation(rendering.before_caret_range(caret))
      name1 <- Completion.clean_name(name)

      original <- rendering.model.try_get_text(r)
      original1 <- Completion.clean_name(Library.perhaps_unquote(original))

      entries =
        (for {
          Text.Info(_, (entry, _)) <- entries_iterator(models)
          if entry.toLowerCase.containsSlice(name1.toLowerCase) && entry != original1
        } yield entry).toList
      if entries.nonEmpty

      items =
        entries.sorted.map({
          case entry =>
            val full_name = Long_Name.qualify(Markup.CITATION, entry)
            val description = List(entry, "(BibTeX entry)")
            val replacement = quote(entry)
          Completion.Item(r, original, full_name, description, replacement, 0, false)
        }).sorted(history.ordering).take(rendering.options.int("completion_limit"))
    } yield Completion.Result(r, original, false, items)
  }



  /** content **/

  private val months = List(
    "jan",
    "feb",
    "mar",
    "apr",
    "may",
    "jun",
    "jul",
    "aug",
    "sep",
    "oct",
    "nov",
    "dec")
  def is_month(s: String): Boolean = months.contains(s.toLowerCase)

  private val commands = List("preamble", "string")
  def is_command(s: String): Boolean = commands.contains(s.toLowerCase)

  sealed case class Entry(
    kind: String,
    required: List[String],
    optional_crossref: List[String],
    optional_other: List[String])
  {
    def is_required(s: String): Boolean = required.contains(s.toLowerCase)
    def is_optional(s: String): Boolean =
      optional_crossref.contains(s.toLowerCase) || optional_other.contains(s.toLowerCase)

    def fields: List[String] = required ::: optional_crossref ::: optional_other
    def template: String =
      "@" + kind + "{,\n" + fields.map(x => "  " + x + " = {},\n").mkString + "}\n"
  }

  val known_entries: List[Entry] =
    List(
      Entry("Article",
        List("author", "title"),
        List("journal", "year"),
        List("volume", "number", "pages", "month", "note")),
      Entry("InProceedings",
        List("author", "title"),
        List("booktitle", "year"),
        List("editor", "volume", "number", "series", "pages", "month", "address",
          "organization", "publisher", "note")),
      Entry("InCollection",
        List("author", "title", "booktitle"),
        List("publisher", "year"),
        List("editor", "volume", "number", "series", "type", "chapter", "pages",
          "edition", "month", "address", "note")),
      Entry("InBook",
        List("author", "editor", "title", "chapter"),
        List("publisher", "year"),
        List("volume", "number", "series", "type", "address", "edition", "month", "pages", "note")),
      Entry("Proceedings",
        List("title", "year"),
        List(),
        List("booktitle", "editor", "volume", "number", "series", "address", "month",
          "organization", "publisher", "note")),
      Entry("Book",
        List("author", "editor", "title"),
        List("publisher", "year"),
        List("volume", "number", "series", "address", "edition", "month", "note")),
      Entry("Booklet",
        List("title"),
        List(),
        List("author", "howpublished", "address", "month", "year", "note")),
      Entry("PhdThesis",
        List("author", "title", "school", "year"),
        List(),
        List("type", "address", "month", "note")),
      Entry("MastersThesis",
        List("author", "title", "school", "year"),
        List(),
        List("type", "address", "month", "note")),
      Entry("TechReport",
        List("author", "title", "institution", "year"),
        List(),
        List("type", "number", "address", "month", "note")),
      Entry("Manual",
        List("title"),
        List(),
        List("author", "organization", "address", "edition", "month", "year", "note")),
      Entry("Unpublished",
        List("author", "title", "note"),
        List(),
        List("month", "year")),
      Entry("Misc",
        List(),
        List(),
        List("author", "title", "howpublished", "month", "year", "note")))

  def get_entry(kind: String): Option[Entry] =
    known_entries.find(entry => entry.kind.toLowerCase == kind.toLowerCase)

  def is_entry(kind: String): Boolean = get_entry(kind).isDefined



  /** tokens and chunks **/

  object Token
  {
    object Kind extends Enumeration
    {
      val COMMAND = Value("command")
      val ENTRY = Value("entry")
      val KEYWORD = Value("keyword")
      val NAT = Value("natural number")
      val STRING = Value("string")
      val NAME = Value("name")
      val IDENT = Value("identifier")
      val SPACE = Value("white space")
      val COMMENT = Value("ignored text")
      val ERROR = Value("bad input")
    }
  }

  sealed case class Token(kind: Token.Kind.Value, source: String)
  {
    def is_kind: Boolean =
      kind == Token.Kind.COMMAND ||
      kind == Token.Kind.ENTRY ||
      kind == Token.Kind.IDENT
    def is_name: Boolean =
      kind == Token.Kind.NAME ||
      kind == Token.Kind.IDENT
    def is_ignored: Boolean =
      kind == Token.Kind.SPACE ||
      kind == Token.Kind.COMMENT
    def is_malformed: Boolean = kind ==
      Token.Kind.ERROR
  }

  case class Chunk(kind: String, tokens: List[Token])
  {
    val source = tokens.map(_.source).mkString

    private val content: Option[List[Token]] =
      tokens match {
        case Token(Token.Kind.KEYWORD, "@") :: body if body.nonEmpty =>
          (body.init.filterNot(_.is_ignored), body.last) match {
            case (tok :: Token(Token.Kind.KEYWORD, "{") :: toks, Token(Token.Kind.KEYWORD, "}"))
            if tok.is_kind => Some(toks)

            case (tok :: Token(Token.Kind.KEYWORD, "(") :: toks, Token(Token.Kind.KEYWORD, ")"))
            if tok.is_kind => Some(toks)

            case _ => None
          }
        case _ => None
      }

    def name: String =
      content match {
        case Some(tok :: _) if tok.is_name => tok.source
        case _ => ""
      }

    def is_ignored: Boolean = kind == "" && tokens.forall(_.is_ignored)
    def is_malformed: Boolean = kind == "" || tokens.exists(_.is_malformed)
    def is_command: Boolean = Bibtex.is_command(kind) && name != "" && content.isDefined
    def is_entry: Boolean = Bibtex.is_entry(kind) && name != "" && content.isDefined
  }



  /** parsing **/

  // context of partial line-oriented scans
  abstract class Line_Context
  case object Ignored extends Line_Context
  case object At extends Line_Context
  case class Item_Start(kind: String) extends Line_Context
  case class Item_Open(kind: String, end: String) extends Line_Context
  case class Item(kind: String, end: String, delim: Delimited) extends Line_Context

  case class Delimited(quoted: Boolean, depth: Int)
  val Closed = Delimited(false, 0)

  private def token(kind: Token.Kind.Value)(source: String): Token = Token(kind, source)
  private def keyword(source: String): Token = Token(Token.Kind.KEYWORD, source)


  // See also http://ctan.org/tex-archive/biblio/bibtex/base/bibtex.web
  // module @.

  object Parsers extends RegexParsers
  {
    /* white space and comments */

    override val whiteSpace = "".r

    private val space = """[ \t\n\r]+""".r ^^ token(Token.Kind.SPACE)
    private val spaces = rep(space)


    /* ignored text */

    private val ignored: Parser[Chunk] =
      rep1("""(?i)([^@]+|@[ \t]*comment)""".r) ^^ {
        case ss => Chunk("", List(Token(Token.Kind.COMMENT, ss.mkString))) }

    private def ignored_line: Parser[(Chunk, Line_Context)] =
      ignored ^^ { case a => (a, Ignored) }


    /* delimited string: outermost "..." or {...} and body with balanced {...} */

    // see also bibtex.web: scan_a_field_token_and_eat_white, scan_balanced_braces
    private def delimited_depth(delim: Delimited): Parser[(String, Delimited)] =
      new Parser[(String, Delimited)]
      {
        require(if (delim.quoted) delim.depth > 0 else delim.depth >= 0)

        def apply(in: Input) =
        {
          val start = in.offset
          val end = in.source.length

          var i = start
          var q = delim.quoted
          var d = delim.depth
          var finished = false
          while (!finished && i < end) {
            val c = in.source.charAt(i)

            if (c == '"' && d == 0) { i += 1; d = 1; q = true }
            else if (c == '"' && d == 1 && q) {
              i += 1; d = 0; q = false; finished = true
            }
            else if (c == '{') { i += 1; d += 1 }
            else if (c == '}') {
              if (d == 1 && !q || d > 1) { i += 1; d -= 1; if (d == 0) finished = true }
              else {i = start; finished = true }
            }
            else if (d > 0) i += 1
            else finished = true
          }
          if (i == start) Failure("bad input", in)
          else {
            val s = in.source.subSequence(start, i).toString
            Success((s, Delimited(q, d)), in.drop(i - start))
          }
        }
      }.named("delimited_depth")

    private def delimited: Parser[Token] =
      delimited_depth(Closed) ^?
        { case (s, delim) if delim == Closed => Token(Token.Kind.STRING, s) }

    private def recover_delimited: Parser[Token] =
      """["{][^@]*""".r ^^ token(Token.Kind.ERROR)

    def delimited_line(ctxt: Item): Parser[(Chunk, Line_Context)] =
      delimited_depth(ctxt.delim) ^^ { case (s, delim1) =>
        (Chunk(ctxt.kind, List(Token(Token.Kind.STRING, s))), ctxt.copy(delim = delim1)) } |
      recover_delimited ^^ { case a => (Chunk(ctxt.kind, List(a)), Ignored) }


    /* other tokens */

    private val at = "@" ^^ keyword

    private val nat = "[0-9]+".r ^^ token(Token.Kind.NAT)

    private val name = """[\x21-\x7f&&[^"#%'(),={}]]+""".r ^^ token(Token.Kind.NAME)

    private val identifier =
      """[\x21-\x7f&&[^"#%'(),={}0-9]][\x21-\x7f&&[^"#%'(),={}]]*""".r

    private val ident = identifier ^^ token(Token.Kind.IDENT)

    val other_token = "[=#,]".r ^^ keyword | (nat | (ident | space))


    /* body */

    private val body =
      delimited | (recover_delimited | other_token)

    private def body_line(ctxt: Item) =
      if (ctxt.delim.depth > 0)
        delimited_line(ctxt)
      else
        delimited_line(ctxt) |
        other_token ^^ { case a => (Chunk(ctxt.kind, List(a)), ctxt) } |
        ctxt.end ^^ { case a => (Chunk(ctxt.kind, List(keyword(a))), Ignored) }


    /* items: command or entry */

    private val item_kind =
      identifier ^^ { case a =>
        val kind =
          if (is_command(a)) Token.Kind.COMMAND
          else if (is_entry(a)) Token.Kind.ENTRY
          else Token.Kind.IDENT
        Token(kind, a)
      }

    private val item_begin =
      "{" ^^ { case a => ("}", keyword(a)) } |
      "(" ^^ { case a => (")", keyword(a)) }

    private def item_name(kind: String) =
      kind.toLowerCase match {
        case "preamble" => failure("")
        case "string" => identifier ^^ token(Token.Kind.NAME)
        case _ => name
      }

    private val item_start =
      at ~ spaces ~ item_kind ~ spaces ^^
        { case a ~ b ~ c ~ d => (c.source, List(a) ::: b ::: List(c) ::: d) }

    private val item: Parser[Chunk] =
      (item_start ~ item_begin ~ spaces) into
        { case (kind, a) ~ ((end, b)) ~ c =>
            opt(item_name(kind)) ~ rep(body) ~ opt(end ^^ keyword) ^^ {
              case d ~ e ~ f => Chunk(kind, a ::: List(b) ::: c ::: d.toList ::: e ::: f.toList) } }

    private val recover_item: Parser[Chunk] =
      at ~ "[^@]*".r ^^ { case a ~ b => Chunk("", List(a, Token(Token.Kind.ERROR, b))) }


    /* chunks */

    val chunk: Parser[Chunk] = ignored | (item | recover_item)

    def chunk_line(ctxt: Line_Context): Parser[(Chunk, Line_Context)] =
    {
      ctxt match {
        case Ignored =>
          ignored_line |
          at ^^ { case a => (Chunk("", List(a)), At) }

        case At =>
          space ^^ { case a => (Chunk("", List(a)), ctxt) } |
          item_kind ^^ { case a => (Chunk(a.source, List(a)), Item_Start(a.source)) } |
          recover_item ^^ { case a => (a, Ignored) } |
          ignored_line

        case Item_Start(kind) =>
          space ^^ { case a => (Chunk(kind, List(a)), ctxt) } |
          item_begin ^^ { case (end, a) => (Chunk(kind, List(a)), Item_Open(kind, end)) } |
          recover_item ^^ { case a => (a, Ignored) } |
          ignored_line

        case Item_Open(kind, end) =>
          space ^^ { case a => (Chunk(kind, List(a)), ctxt) } |
          item_name(kind) ^^ { case a => (Chunk(kind, List(a)), Item(kind, end, Closed)) } |
          body_line(Item(kind, end, Closed)) |
          ignored_line

        case item_ctxt: Item =>
          body_line(item_ctxt) |
          ignored_line

        case _ => failure("")
      }
    }
  }


  /* parse */

  def parse(input: CharSequence): List[Chunk] =
    Parsers.parseAll(Parsers.rep(Parsers.chunk), Scan.char_reader(input)) match {
      case Parsers.Success(result, _) => result
      case _ => error("Unexpected failure to parse input:\n" + input.toString)
    }

  def parse_line(input: CharSequence, context: Line_Context): (List[Chunk], Line_Context) =
  {
    var in: Reader[Char] = Scan.char_reader(input)
    val chunks = new mutable.ListBuffer[Chunk]
    var ctxt = context
    while (!in.atEnd) {
      Parsers.parse(Parsers.chunk_line(ctxt), in) match {
        case Parsers.Success((x, c), rest) => chunks += x; ctxt = c; in = rest
        case Parsers.NoSuccess(_, rest) =>
          error("Unepected failure to parse input:\n" + rest.source.toString)
      }
    }
    (chunks.toList, ctxt)
  }
}




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