/* Title: Pure/General/pretty.scala Author: Makarius Generic pretty printing module. */ package isabelle object Pretty { /* XML constructors */ val space: XML.Body = List(XML.Text(Symbol.space)) def spaces(n: Int): XML.Body = if (n == 0) Nil else if (n == 1) space else List(XML.Text(Symbol.spaces(n))) def block(consistent: Boolean, indent: Int, body: XML.Body): XML.Tree = XML.Elem(Markup.Block(consistent, indent), body) def block(indent: Int, body: XML.Body): XML.Tree = block(false, indent, body) def block(body: XML.Body): XML.Tree = block(2, body) def brk(width: Int, indent: Int = 0): XML.Tree = XML.Elem(Markup.Break(width, indent), spaces(width)) val fbrk: XML.Tree = XML.Text("\n") def fbreaks(ts: List[XML.Tree]): XML.Body = Library.separate(fbrk, ts) val Separator: XML.Body = List(XML.elem(Markup.SEPARATOR, space), fbrk) def separate(ts: List[XML.Tree]): XML.Body = Library.separate(Separator, ts.map(List(_))).flatten /* text metric -- standardized to width of space */ abstract class Metric { val unit: Double def apply(s: String): Double } object Default_Metric extends Metric { val unit = 1.0 def apply(s: String): Double = s.length.toDouble } /* markup trees with physical blocks and breaks */ private def force_nat(i: Int): Int = i max 0 private sealed abstract class Tree { def length: Double } private case class Block( markup: Option[(Markup, Option[XML.Body])], consistent: Boolean, indent: Int, body: List[Tree], length: Double) extends Tree private case class Break(force: Boolean, width: Int, indent: Int) extends Tree { def length: Double = width.toDouble } private case class Str(string: String, length: Double) extends Tree private val FBreak = Break(true, 1, 0) private def make_block( markup: Option[(Markup, Option[XML.Body])], consistent: Boolean, indent: Int, body: List[Tree]): Tree = { val indent1 = force_nat(indent) def body_length(prts: List[Tree], len: Double): Double = { val (line, rest) = Library.take_prefix[Tree]({ case Break(true, _, _) => false case _ => true }, prts) val len1 = ((0.0 /: line) { case (l, t) => l + t.length }) max len rest match { case Break(true, _, ind) :: rest1 => body_length(Break(false, indent1 + ind, 0) :: rest1, len1) case Nil => len1 } } Block(markup, consistent, indent1, body, body_length(body, 0.0)) } /* formatted output */ private sealed case class Text(tx: XML.Body = Nil, pos: Double = 0.0, nl: Int = 0) { def newline: Text = copy(tx = fbrk :: tx, pos = 0.0, nl = nl + 1) def string(s: String, len: Double): Text = copy(tx = if (s == "") tx else XML.Text(s) :: tx, pos = pos + len) def blanks(wd: Int): Text = string(Symbol.spaces(wd), wd.toDouble) def content: XML.Body = tx.reverse } private def break_dist(trees: List[Tree], after: Double): Double = trees match { case (_: Break) :: _ => 0.0 case t :: ts => t.length + break_dist(ts, after) case Nil => after } private def force_break(tree: Tree): Tree = tree match { case Break(false, wd, ind) => Break(true, wd, ind) case _ => tree } private def force_all(trees: List[Tree]): List[Tree] = trees.map(force_break(_)) private def force_next(trees: List[Tree]): List[Tree] = trees match { case Nil => Nil case (t: Break) :: ts => force_break(t) :: ts case t :: ts => t :: force_next(ts) } val default_margin = 76.0 val default_breakgain = default_margin / 20 def formatted(input: XML.Body, margin: Double = default_margin, breakgain: Double = default_breakgain, metric: Metric = Default_Metric): XML.Body = { val emergencypos = (margin / 2).round.toInt def make_tree(inp: XML.Body): List[Tree] = inp flatMap { case XML.Wrapped_Elem(markup, body1, body2) => List(make_block(Some(markup, Some(body1)), false, 0, make_tree(body2))) case XML.Elem(markup, body) => markup match { case Markup.Block(consistent, indent) => List(make_block(None, consistent, indent, make_tree(body))) case Markup.Break(width, indent) => List(Break(false, force_nat(width), force_nat(indent))) case Markup(Markup.ITEM, _) => List(make_block(None, false, 2, make_tree(XML.elem(Markup.BULLET, space) :: space ::: body))) case _ => List(make_block(Some((markup, None)), false, 0, make_tree(body))) } case XML.Text(text) => Library.separate(FBreak, split_lines(text).map(s => Str(s, metric(s)))) } def format(trees: List[Tree], blockin: Int, after: Double, text: Text): Text = trees match { case Nil => text case Block(markup, consistent, indent, body, blen) :: ts => val pos1 = (text.pos + indent).ceil.toInt val pos2 = pos1 % emergencypos val blockin1 = if (pos1 < emergencypos) pos1 else pos2 val d = break_dist(ts, after) val body1 = if (consistent && text.pos + blen > margin - d) force_all(body) else body val btext = markup match { case None => format(body1, blockin1, d, text) case Some((m, markup_body)) => val btext0 = format(body1, blockin1, d, text.copy(tx = Nil)) val elem = markup_body match { case None => XML.Elem(m, btext0.content) case Some(b) => XML.Wrapped_Elem(m, b, btext0.content) } btext0.copy(tx = elem :: text.tx) } val ts1 = if (text.nl < btext.nl) force_next(ts) else ts format(ts1, blockin, after, btext) case Break(force, wd, ind) :: ts => if (!force && text.pos + wd <= ((margin - break_dist(ts, after)) max (blockin + breakgain))) format(ts, blockin, after, text.blanks(wd)) else format(ts, blockin, after, text.newline.blanks(blockin + ind)) case Str(s, len) :: ts => format(ts, blockin, after, text.string(s, len)) } format(make_tree(input), 0, 0.0, Text()).content } def string_of(input: XML.Body, margin: Double = default_margin, breakgain: Double = default_breakgain, metric: Metric = Default_Metric): String = XML.content(formatted(input, margin = margin, breakgain = breakgain, metric = metric)) }