/* Title: Pure/General/bibtex.scala
Author: Makarius
Support for BibTeX.
*/
package isabelle
import scala.collection.mutable
import scala.util.parsing.combinator.RegexParsers
import scala.util.parsing.input.Reader
import scala.util.matching.Regex
import isabelle.{Token => Isar_Token}
object Bibtex {
/** file format **/
class File_Format extends isabelle.File_Format {
val format_name: String = "bibtex"
val file_ext: String = "bib"
override def parse_data(name: String, text: String): Bibtex.Entries =
Bibtex.Entries.parse(text, Isar_Token.Pos.file(name))
override def theory_suffix: String = "bibtex_file"
override def theory_content(name: String): String =
"""theory "bib" imports Pure begin bibtex_file "." end"""
override def theory_excluded(name: String): Boolean = name == "bib"
override def html_document(snapshot: Document.Snapshot): Option[Browser_Info.HTML_Document] = {
val name = snapshot.node_name
if (detect(name.node)) {
val title = "Bibliography " + quote(snapshot.node_name.file_name)
val content =
Isabelle_System.with_tmp_file("bib", "bib") { bib =>
File.write(bib, snapshot.node.source)
Bibtex.html_output(List(bib), style = "unsort", title = title)
}
Some(Browser_Info.HTML_Document(title, content))
}
else None
}
}
/** bibtex errors **/
def bibtex_errors(dir: Path, root_name: String): List[String] = {
val log_path = dir + Path.explode(root_name).blg
if (log_path.is_file) {
val Error1 = """^(I couldn't open database file .+)$""".r
val Error2 = """^(I found no .+)$""".r
val Error3 = """^(.+)---line (\d+) of file (.+)""".r
Line.logical_lines(File.read(log_path)).flatMap(line =>
line match {
case Error1(msg) => Some("Bibtex error: " + msg)
case Error2(msg) => Some("Bibtex error: " + msg)
case Error3(msg, Value.Int(l), file) =>
val path = File.standard_path(file)
if (Path.is_wellformed(path)) {
val pos = Position.Line_File(l, (dir + Path.explode(path)).canonical.implode)
Some("Bibtex error" + Position.here(pos) + ":\n " + msg)
}
else None
case _ => None
})
}
else Nil
}
/** check database **/
def check_database(database: String): (List[(String, Position.T)], List[(String, Position.T)]) = {
val chunks = parse(Line.normalize(database))
var chunk_pos = Map.empty[String, Position.T]
val tokens = new mutable.ListBuffer[(Token, Position.T)]
var line = 1
var offset = 1
def make_pos(length: Int): Position.T =
Position.Offset(offset) ::: Position.End_Offset(offset + length) ::: Position.Line(line)
def advance_pos(tok: Token): Unit = {
for (s <- Symbol.iterator(tok.source)) {
if (Symbol.is_newline(s)) line += 1
offset += 1
}
}
def get_line_pos(l: Int): Position.T =
if (0 < l && l <= tokens.length) tokens(l - 1)._2 else Position.none
for (chunk <- chunks) {
val name = chunk.name
if (name != "" && !chunk_pos.isDefinedAt(name)) {
chunk_pos += (name -> make_pos(chunk.heading_length))
}
for (tok <- chunk.tokens) {
tokens += (tok.copy(source = tok.source.replace("\n", " ")) -> make_pos(tok.source.length))
advance_pos(tok)
}
}
Isabelle_System.with_tmp_dir("bibtex") { tmp_dir =>
File.write(tmp_dir + Path.explode("root.bib"),
tokens.iterator.map(p => p._1.source).mkString("", "\n", "\n"))
File.write(tmp_dir + Path.explode("root.aux"),
"\\bibstyle{plain}\n\\bibdata{root}\n\\citation{*}")
Isabelle_System.bash("\"$ISABELLE_BIBTEX\" root", cwd = tmp_dir)
val Error = """^(.*)---line (\d+) of file root.bib$""".r
val Warning = """^Warning--(.+)$""".r
val Warning_Line = """--line (\d+) of file root.bib$""".r
val Warning_in_Chunk = """^Warning--(.+) in (.+)$""".r
val log_file = tmp_dir + Path.explode("root.blg")
val lines = if (log_file.is_file) Line.logical_lines(File.read(log_file)) else Nil
val (errors, warnings) =
if (lines.isEmpty) (Nil, Nil)
else {
lines.zip(lines.tail ::: List("")).flatMap(
{
case (Error(msg, Value.Int(l)), _) =>
Some((true, (msg, get_line_pos(l))))
case (Warning_in_Chunk(msg, name), _) if chunk_pos.isDefinedAt(name) =>
Some((false, (Word.capitalized(msg) + " in entry " + quote(name), chunk_pos(name))))
case (Warning(msg), Warning_Line(Value.Int(l))) =>
Some((false, (Word.capitalized(msg), get_line_pos(l))))
case (Warning(msg), _) =>
Some((false, (Word.capitalized(msg), Position.none)))
case _ => None
}
).partition(_._1)
}
(errors.map(_._2), warnings.map(_._2))
}
}
object Check_Database extends Scala.Fun_String("bibtex_check_database") {
val here = Scala_Project.here
def apply(database: String): String = {
import XML.Encode._
YXML.string_of_body(pair(list(pair(string, properties)), list(pair(string, properties)))(
check_database(database)))
}
}
/** document model **/
/* entries */
sealed case class Entry(name: String, pos: Position.T) {
def encode: String = YXML.string_of_body(XML.Encode.properties(Markup.Name(name) ::: pos))
}
object Entries {
val empty: Entries = apply(Nil)
def apply(entries: List[Entry], errors: List[String] = Nil): Entries =
new Entries(entries, errors)
def parse(text: String, start: Isar_Token.Pos = Isar_Token.Pos.start): Entries = {
val entries = new mutable.ListBuffer[Entry]
var pos = start
var err_line = 0
try {
for (chunk <- Bibtex.parse(text)) {
val pos1 = pos.advance(chunk.source)
if (chunk.name != "" && !chunk.is_command) {
entries += Entry(chunk.name, pos.position(pos1.offset))
}
if (chunk.is_malformed && err_line == 0) { err_line = pos.line }
pos = pos1
}
val err_pos =
if (err_line == 0 || pos.file.isEmpty) Position.none
else Position.Line_File(err_line, pos.file)
val errors =
if (err_line == 0) Nil
else List("Malformed bibtex file" + Position.here(err_pos))
apply(entries.toList, errors = errors)
}
catch { case ERROR(msg) => apply(Nil, errors = List(msg)) }
}
}
final class Entries private(val entries: List[Entry], val errors: List[String]) {
override def toString: String = "Bibtex.Entries(" + entries.length + ")"
def ::: (other: Entries): Entries =
new Entries(other.entries ::: entries, other.errors ::: errors)
}
object Session_Entries extends Scala.Fun("bibtex_session_entries") {
val here = Scala_Project.here
override def invoke(session: Session, args: List[Bytes]): List[Bytes] = {
val sessions = session.resources.sessions_structure
val id = Value.Long.parse(Library.the_single(args).text)
val qualifier =
session.get_state().lookup_id(id) match {
case None => Sessions.DRAFT
case Some(st) => sessions.theory_qualifier(st.command.node_name.theory)
}
val res =
if (qualifier == Sessions.DRAFT || !sessions.defined(qualifier)) Nil
else qualifier :: sessions(qualifier).bibtex_entries.entries.map(_.encode)
res.map(Bytes.apply)
}
}
/** 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_Type(
kind: String,
required: List[String],
optional_crossref: List[String],
optional_other: List[String]
) {
val optional_standard: List[String] = List("url", "doi", "ee")
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) ||
optional_standard.contains(s.toLowerCase)
def fields: List[String] =
required ::: optional_crossref ::: optional_other ::: optional_standard
def template: String =
"@" + kind + "{,\n" + fields.map(x => " " + x + " = {},\n").mkString + "}\n"
}
val known_entries: List[Entry_Type] =
List(
Entry_Type("Article",
List("author", "title"),
List("journal", "year"),
List("volume", "number", "pages", "month", "note")),
Entry_Type("InProceedings",
List("author", "title"),
List("booktitle", "year"),
List("editor", "volume", "number", "series", "pages", "month", "address",
"organization", "publisher", "note")),
Entry_Type("InCollection",
List("author", "title", "booktitle"),
List("publisher", "year"),
List("editor", "volume", "number", "series", "type", "chapter", "pages",
"edition", "month", "address", "note")),
Entry_Type("InBook",
List("author", "editor", "title", "chapter"),
List("publisher", "year"),
List("volume", "number", "series", "type", "address", "edition", "month", "pages", "note")),
Entry_Type("Proceedings",
List("title", "year"),
List(),
List("booktitle", "editor", "volume", "number", "series", "address", "month",
"organization", "publisher", "note")),
Entry_Type("Book",
List("author", "editor", "title"),
List("publisher", "year"),
List("volume", "number", "series", "address", "edition", "month", "note")),
Entry_Type("Booklet",
List("title"),
List(),
List("author", "howpublished", "address", "month", "year", "note")),
Entry_Type("PhdThesis",
List("author", "title", "school", "year"),
List(),
List("type", "address", "month", "note")),
Entry_Type("MastersThesis",
List("author", "title", "school", "year"),
List(),
List("type", "address", "month", "note")),
Entry_Type("TechReport",
List("author", "title", "institution", "year"),
List(),
List("type", "number", "address", "month", "note")),
Entry_Type("Manual",
List("title"),
List(),
List("author", "organization", "address", "edition", "month", "year", "note")),
Entry_Type("Unpublished",
List("author", "title", "note"),
List(),
List("month", "year")),
Entry_Type("Misc",
List(),
List(),
List("author", "title", "howpublished", "month", "year", "note")))
def known_entry(kind: String): Option[Entry_Type] =
known_entries.find(entry => entry.kind.toLowerCase == kind.toLowerCase)
/** 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
def is_open: Boolean =
kind == Token.Kind.KEYWORD && (source == "{" || source == "(")
}
case class Chunk(kind: String, tokens: List[Token]) {
val source: String = 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 heading_length: Int =
if (name == "") 1
else {
tokens.takeWhile(tok => !tok.is_open).foldLeft(0) { case (n, tok) => n + tok.source.length }
}
def is_ignored: Boolean = kind == "" && tokens.forall(_.is_ignored)
def is_malformed: Boolean = tokens.exists(_.is_malformed)
def is_command: Boolean = Bibtex.is_command(kind) && name != "" && content.isDefined
def is_entry: Boolean = Bibtex.known_entry(kind).isDefined && 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 = 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 https://ctan.org/tex-archive/biblio/bibtex/base/bibtex.web
// module @<Scan for and process a \.{.bib} command or database entry@>.
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,
"bad delimiter depth")
def apply(in: Input): ParseResult[(String, Delimited)] = {
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: Parser[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 (known_entry(a).isDefined) 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) {
val result = Parsers.parse(Parsers.chunk_line(ctxt), in)
(result : @unchecked) 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)
}
/** HTML output **/
private val output_styles =
List(
"" -> "html-n",
"plain" -> "html-n",
"alpha" -> "html-a",
"named" -> "html-n",
"paragraph" -> "html-n",
"unsort" -> "html-u",
"unsortlist" -> "html-u")
def html_output(bib: List[Path],
title: String = "Bibliography",
body: Boolean = false,
citations: List[String] = List("*"),
style: String = "",
chronological: Boolean = false
): String = {
Isabelle_System.with_tmp_dir("bibtex") { tmp_dir =>
/* database files */
val bib_files = bib.map(_.drop_ext)
val bib_names = {
val names0 = bib_files.map(_.file_name)
if (Library.duplicates(names0).isEmpty) names0
else names0.zipWithIndex.map({ case (name, i) => (i + 1).toString + "-" + name })
}
for ((a, b) <- bib_files zip bib_names) {
Isabelle_System.copy_file(a.bib, tmp_dir + Path.basic(b).bib)
}
/* style file */
val bst =
output_styles.toMap.get(style) match {
case Some(base) => base + (if (chronological) "c" else "") + ".bst"
case None =>
error("Bad style for bibtex HTML output: " + quote(style) +
"\n(expected: " + commas_quote(output_styles.map(_._1)) + ")")
}
Isabelle_System.copy_file(Path.explode("$BIB2XHTML_HOME/bst") + Path.explode(bst), tmp_dir)
/* result */
val in_file = Path.explode("bib.aux")
val out_file = Path.explode("bib.html")
File.write(tmp_dir + in_file,
bib_names.mkString("\\bibdata{", ",", "}\n") +
citations.map(cite => "\\citation{" + cite + "}\n").mkString)
Isabelle_System.bash(
"\"$BIB2XHTML_HOME/main/bib2xhtml.pl\" -B \"$ISABELLE_BIBTEX\"" +
" -u -s " + Bash.string(proper_string(style) getOrElse "empty") +
(if (chronological) " -c" else "") +
if_proper(title, " -h " + Bash.string(title) + " ") +
" " + File.bash_path(in_file) + " " + File.bash_path(out_file),
cwd = tmp_dir).check
val html = File.read(tmp_dir + out_file)
if (body) {
cat_lines(
split_lines(html).
dropWhile(line => !line.startsWith("<!-- BEGIN BIBLIOGRAPHY")).reverse.
dropWhile(line => !line.startsWith("<!-- END BIBLIOGRAPHY")).reverse)
}
else html
}
}
/** cite commands and antiquotations **/
/* cite commands */
def cite_commands(options: Options): List[String] =
space_explode(',', options.string("document_cite_commands"))
val CITE = "cite"
val NOCITE = "nocite"
/* citations within theory source */
object Cite {
def unapply(tree: XML.Tree): Option[Inner] =
tree match {
case XML.Elem(Markup(Markup.Latex_Cite.name, props), body) =>
val kind = Markup.Kind.unapply(props).getOrElse(CITE)
val citations = Markup.Citations.get(props)
val pos = props.filter(Markup.position_property)
Some(Inner(kind, citations, body, pos))
case _ => None
}
sealed case class Inner(kind: String, citations: String, location: XML.Body, pos: Position.T) {
def nocite: Inner = copy(kind = NOCITE, location = Nil)
def latex_text: Latex.Text = {
val props =
(if (kind.nonEmpty) Markup.Kind(kind) else Nil) :::
Markup.Citations(citations) ::: pos
List(XML.Elem(Markup.Latex_Cite(props), location))
}
override def toString: String = citations
}
sealed case class Outer(kind: String, body: String, start: Isar_Token.Pos) {
def pos: Position.T = start.position()
def parse: Option[Inner] = {
val tokens = Isar_Token.explode(Parsers.keywords, body)
Parsers.parse_all(Parsers.inner(pos), Isar_Token.reader(tokens, start)) match {
case Parsers.Success(res, _) => Some(res)
case _ => None
}
}
def errors: List[String] =
if (parse.isDefined) Nil
else List("Malformed citation" + Position.here(pos))
override def toString: String =
parse match {
case Some(inner) => inner.toString
case None => "<malformed>"
}
}
object Parsers extends Parse.Parsers {
val keywords: Keyword.Keywords = Thy_Header.bootstrap_keywords + "in" + "using"
val location: Parser[String] = embedded ~ $$$("in") ^^ { case x ~ _ => x } | success("")
val citations: Parser[String] = rep1sep(name, $$$("and")) ^^ (x => x.mkString(","))
val kind: Parser[String] = $$$("using") ~! name ^^ { case _ ~ x => x } | success(CITE)
def inner(pos: Position.T): Parser[Inner] =
location ~ citations ~ kind ^^
{ case x ~ y ~ z => Inner(z, y, XML.string(x), pos) }
}
def parse(
cite_commands: List[String],
text: String,
start: Isar_Token.Pos = Isar_Token.Pos.start
): List[Outer] = {
val controls = cite_commands.map(s => Symbol.control_prefix + s + Symbol.control_suffix)
val special = (controls ::: controls.map(Symbol.decode)).toSet
val Parsers = Antiquote.Parsers
Parsers.parseAll(Parsers.rep(Parsers.antiquote_special(special)), text) match {
case Parsers.Success(ants, _) =>
var pos = start
val result = new mutable.ListBuffer[Outer]
for (ant <- ants) {
ant match {
case Antiquote.Control(source) =>
for {
head <- Symbol.iterator(source).nextOption
kind <- Symbol.control_name(Symbol.encode(head))
} {
val rest = source.substring(head.length)
val (body, pos1) =
if (rest.isEmpty) (rest, pos)
else (Scan.Parsers.cartouche_content(rest), pos.advance(Symbol.open))
result += Outer(kind, body, pos1)
}
case _ =>
}
pos = pos.advance(ant.source)
}
result.toList
case _ => error("Unexpected failure parsing special antiquotations:\n" + text)
}
}
}
/* update old forms: @{cite ...} and \cite{...} */
def cite_antiquotation(name: String, body: String): String =
"""\<^""" + name + """>\<open>""" + body + """\<close>"""
def cite_antiquotation(name: String, location: String, citations: List[String]): String = {
val body =
if_proper(location, Symbol.cartouche(location) + " in ") +
citations.map(quote).mkString(" and ")
cite_antiquotation(name, body)
}
private val Cite_Command = """\\(cite|nocite|citet|citep)((?:\[[^\]]*\])?)\{([^}]*)\}""".r
private val Cite_Macro = """\[\s*cite_macro\s*=\s*"?(\w+)"?\]\s*""".r
def update_cite_commands(str: String): String =
Cite_Command.replaceAllIn(str, { m =>
val name = m.group(1)
val loc = m.group(2)
val location =
if (loc.startsWith("[") && loc.endsWith("]")) loc.substring(1, loc.length - 1)
else loc
val citations = space_explode(',', m.group(3)).map(_.trim)
Regex.quoteReplacement(cite_antiquotation(name, location, citations))
})
def update_cite_antiquotation(cite_commands: List[String], str: String): String = {
val opt_body =
for {
str1 <- Library.try_unprefix("@{cite", str)
str2 <- Library.try_unsuffix("}", str1)
} yield str2.trim
opt_body match {
case None => str
case Some(body0) =>
val (name, body1) =
Cite_Macro.findFirstMatchIn(body0) match {
case None => (CITE, body0)
case Some(m) => (m.group(1), Cite_Macro.replaceAllIn(body0, ""))
}
val body2 = body1.replace("""\<close>""", """\<close> in""")
if (cite_commands.contains(name)) cite_antiquotation(name, body2)
else cite_antiquotation(CITE, body2 + " using " + quote(name))
}
}
}