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REPLesent.scala
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REPLesent.scala
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/*
* Copyright 2015-2017 Marconi Lanna
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
case class REPLesent(
width: Int = 0
, height: Int = 0
, source: String = "REPLesent.txt"
, slideCounter: Boolean = false
, slideTotal: Boolean = false
, padNewline: Boolean = false
, intp: scala.tools.nsc.interpreter.IMain = null
) {
import java.io.File
import scala.util.matching.Regex
import scala.util.{ Try, Success, Failure }
private case class Config(
top: String = "*"
, bottom: String = "*"
, sinistral: String = "* "
, dextral: String = " *"
, newline: String = System.lineSeparator
, whiteSpace: String = " "
, private val width: Int
, private val height: Int
) {
val (screenWidth, screenHeight): (Int, Int) = {
val defaultWidth = 80
val defaultHeight = 25
if (width > 0 && height > 0) (width, height) else {
// Experimental support for screen size auto-detection.
// Supports only Unix-like systems, including Mac OS X and Linux.
// Does not work with Microsoft Windows.
val Array(h, w) = Try {
import scala.sys.process._
val stty = Seq("sh", "-c", "stty size < /dev/tty").!!
stty.trim.split(' ') map (_.toInt)
} getOrElse Array(0, 0)
val screenWidth = Seq(width, w) find (_ > 0) getOrElse defaultWidth
val screenHeight = Seq(height, h - (if (padNewline) 1 else 0)) find (_ > 0) getOrElse defaultHeight
(screenWidth, screenHeight)
}
}
private def fill(s: String): String = if (s.isEmpty) s else {
val t = s * (screenWidth / s.length)
t + s.take(screenWidth - t.length)
}
val topRow = fill(top) + newline
val bottomRow = fill(bottom)
val verticalSpace = screenHeight - 3 // accounts for header, footer, and REPL prompt
val horizontalSpace = screenWidth - sinistral.length - dextral.length
val blankLine = {
val padding = if (dextral.isEmpty) "" else whiteSpace * horizontalSpace + dextral
sinistral + padding + newline
}
}
private val config = Config(width = width, height = height)
private case class Line(content: String, length: Int, private val style: Line.Style) {
override def toString: String = content
def isEmpty: Boolean = content.isEmpty
def render(margin: Int): String = style(this, margin)
}
private object Line {
import scala.io.AnsiColor._
protected sealed trait Style {
import config.whiteSpace
protected def horizontalSpace = config.horizontalSpace
protected def fill(line: Line, left: Int, right: Int): String = {
whiteSpace * left + line + whiteSpace * right
}
def apply(line: Line, margin: Int): String
}
private object HorizontalRuler extends Style {
private val ansiBegin = RESET.head
private val ansiEnd = RESET.last
private val defaultPattern = Line("-")
def apply(line: Line, margin: Int): String = {
// Provides a default pattern if none was specified
val pattern = if (line.isEmpty) defaultPattern else line
val width = horizontalSpace - margin
val repeats = width / pattern.length
val content = pattern.toString * repeats
var remaining = width - repeats * pattern.length
var ansi = false
var reset = ""
val padding = pattern.toString takeWhile { c =>
val continue = remaining > 0
if (continue) c match {
case `ansiEnd` if ansi => ansi = false
case _ if ansi => // no-op
case `ansiBegin` => ansi = true; reset = RESET
case c if Character.isHighSurrogate(c) => // no-op
case _ => remaining -= 1
}
continue
}
val left = margin / 2
val right = margin - left
val l = Line(content + padding + reset, width, LeftAligned)
fill(l, left, right)
}
}
private object FullScreenHorizontalRuler extends Style {
def apply(line: Line, ignored: Int): String = HorizontalRuler(line, 0)
}
private object LeftFlushed extends Style {
def apply(line: Line, ignored: Int): String = {
val left = 0
val right = horizontalSpace - line.length
fill(line, left, right)
}
}
private object LeftAligned extends Style {
def apply(line: Line, margin: Int): String = {
val left = margin / 2
val right = horizontalSpace - left - line.length
fill(line, left, right)
}
}
private object Centered extends Style {
def apply(line: Line, ignored: Int): String = {
val margin = horizontalSpace - line.length
val left = margin / 2
val right = margin - left
fill(line, left, right)
}
}
private object RightAligned extends Style {
def apply(line: Line, margin: Int): String = {
val right = (margin + 1) / 2
val left = horizontalSpace - right - line.length
fill(line, left, right)
}
}
private object RightFlushed extends Style {
def apply(line: Line, ignored: Int): String = {
val left = horizontalSpace - line.length
val right = 0
fill(line, left, right)
}
}
private def style(line: String): (String, Style) = line match {
case s if s startsWith "<< " => (s.drop(3), LeftFlushed)
case s if s startsWith "< " => (s.drop(2), LeftAligned)
case s if s startsWith "| " => (s.drop(2), Centered)
case s if s startsWith "> " => (s.drop(2), RightAligned)
case s if s startsWith ">> " => (s.drop(3), RightFlushed)
case s if s startsWith "//" => (s.drop(2), FullScreenHorizontalRuler)
case s if s startsWith "/" => (s.drop(1), HorizontalRuler)
case s: String => (s, LeftAligned)
}
private val ansiEscape = """\\.""".r
private val ansiColor = Map(
'b' -> BLUE,
'c' -> CYAN,
'g' -> GREEN,
'k' -> BLACK,
'm' -> MAGENTA,
'r' -> RED,
'w' -> WHITE,
'y' -> YELLOW,
'B' -> BLUE_B,
'C' -> CYAN_B,
'G' -> GREEN_B,
'K' -> BLACK_B,
'M' -> MAGENTA_B,
'R' -> RED_B,
'W' -> WHITE_B,
'Y' -> YELLOW_B,
'!' -> REVERSED,
'*' -> BOLD,
'_' -> UNDERLINED
)
private def ansi(line: String): (String, Int) = {
var drop = 0
var reset = ""
val content: String = ansiEscape.replaceAllIn(line, m =>
m.matched(1) match {
case c if ansiColor.contains(c) => drop += 2; reset = RESET; ansiColor(c)
case 's' => drop += 2; RESET
case '\\' => drop += 1; "\\\\"
case c: Char => "\\\\" + c
}
)
(content + reset, drop)
}
private val emojiEscape = """:([\w+\-]+):""".r
private lazy val emojis: Map[String, String] = {
Try {
val emoji = scala.io.Source.fromFile("emoji.txt").getLines
emoji.map { l =>
val a = l.split(' ')
(a(1), a(0))
}.toMap
} getOrElse Map.empty
}
private def emoji(line: String): (String, Int) = {
var drop = 0
val content: String = emojiEscape.replaceAllIn(line, m => {
m.group(1) match {
case e if emojis.contains(e) => drop += m.matched.length - 1; emojis(e)
case _ => m.matched
}
})
(content, drop)
}
def apply(line: String): Line = {
val (l1, lineStyle) = style(line)
val (l2, ansiDrop) = ansi(l1)
val (content, emojiDrop) = emoji(l2)
val length = l1.codePointCount(0, l1.length) - ansiDrop - emojiDrop
Line(content = content, length = length, style = lineStyle)
}
}
// `size` and `maxLength` refer to the dimensions of the slide's last build
private case class Build(content: IndexedSeq[Line], size: Int, maxLength: Int, footer: Line)
private case class Slide(content: IndexedSeq[Line], builds: IndexedSeq[Int], code: IndexedSeq[String]) {
private val maxLength = content.maxBy(_.length).length
def lastBuild: Int = builds.size - 1
def hasBuild(n: Int): Boolean = builds.isDefinedAt(n)
def build(n: Int, footer: Line): Build = Build(content.take(builds(n)), content.size, maxLength, footer)
}
private case class Deck(slides: IndexedSeq[Slide]) {
private var slideCursor = -1
private var buildCursor = 0
private def currentSlideIsDefined: Boolean = slides.isDefinedAt(slideCursor)
private def currentSlide: Slide = slides(slideCursor)
private def footer: Line = {
val sb = StringBuilder.newBuilder
if (slideCounter) {
sb ++= ">> " + (slideCursor + 1)
if (slideTotal) sb ++= "/" + slides.size
sb ++= " "
}
Line(sb.mkString)
}
private def select(slide: Int = slideCursor, build: Int = 0): Option[Build] = {
// "Stops" the cursor one position after/before the last/first slide to avoid
// multiple next/previous calls taking it indefinitely away from the deck
slideCursor = slide.min(slides.size).max(-1)
buildCursor = build
if (currentSlideIsDefined && currentSlide.hasBuild(buildCursor)) {
Some(currentSlide.build(buildCursor, footer))
} else None
}
def jumpTo(n: Int): Option[Build] = select(slide = n)
def jump(n: Int): Option[Build] = jumpTo(slideCursor + n)
def nextBuild: Option[Build] = select(build = buildCursor + 1) orElse jump(1)
def redrawBuild: Option[Build] = select(build = buildCursor)
def previousBuild: Option[Build] = select(build = buildCursor - 1) orElse {
jump(-1) flatMap { _ =>
select(build = currentSlide.lastBuild)
}
}
def lastSlide: Option[Build] = jumpTo(slides.size - 1)
def lastBuild: Option[Build] = jumpTo(slides.size) orElse previousBuild
def currentSlideNumber: Int = slideCursor
def runCode: Unit = {
val code = currentSlide.code(buildCursor)
if (repl.isEmpty) {
Console.err.print(s"No reference to REPL found. Please call with parameter intp=$$intp")
} else if (code.isEmpty) {
Console.err.print("No code for you")
} else {
repl foreach (_.interpret(code))
}
}
}
private val helpMessage = """Usage:
| next n > go to next build/slide
| previous p < go back to previous build/slide
| redraw z redraw the current build/slide
| Next N >> go to next slide
| Previous P << go back to previous slide
| i next i n advance i slides
| i previous i p go back i slides
| i go i g go to slide i
| first f |< go to first slide
| last l >| go to last slide
| Last L >>| go to last build of last slide
| run r !! execute code that appears on slide
| blank b blank screen
| help h ? print this help message""".stripMargin
private val repl = Option(intp)
private var deck = Deck(parseSource(source))
private def parseSource(path: String): IndexedSeq[Slide] = {
Try {
val pathFile = new File(path)
val lines: Iterator[String] = (
if (pathFile.isDirectory) {
pathFile
.list
.sorted
.filter(_.endsWith(".replesent"))
.flatMap { name => scala.io.Source.fromFile(new File(pathFile, name)).getLines }
.toIterator
} else {
scala.io.Source.fromFile(path).getLines
}
)
parse(lines)
} match {
case Failure(e) =>
e.printStackTrace
Console.err.print(s"Sorry, could not parse $path. Quick, say something funny before anyone notices!")
IndexedSeq.empty
case Success(value) => value
}
}
private def parse(lines: Iterator[String]): IndexedSeq[Slide] = {
sealed trait LineHandler {
def switch: LineHandler
def apply(line: String): (Line, Option[String])
}
object LineHandler extends LineHandler {
def switch: LineHandler = CodeHandler
def apply(line: String): (Line, Option[String]) = (Line(line), None)
}
object CodeHandler extends LineHandler {
private val patterns: Seq[(String, Regex)] = {
val number: Regex = {
val hex = "(?:0[xX][0-9A-Fa-f]+)"
val decimal = "(?:[1-9][0-9]*|0)"
val long = s"(?:${decimal}[DFLdfl])"
val float = s"(?:${decimal}\\.${decimal}[DFdf])"
val eNotation = s"(?:${decimal}(?:\\.0?${decimal})?[eE][+\\-]?[0-9]+)"
s"""\\b(?:${eNotation}|${hex}|${long}|${float}|${decimal})\\b""".r
}
val string: Regex = "(?:s?\"(?:\\\\\"|[^\"])*\")".r
val reserved: Regex = (
s"""\\b(?:null|contains|exists|filter|filterNot|find|flatMap|""" +
s"""flatten|fold|forall|foreach|getOrElse|map|orElse)\\b"""
).r
val special: Regex = s"""\\b(?:true|false|this)\\b""".r
val typeSig: Regex = {
val token: String => String = { limit => s"[$$_]${limit}[A-Z][_$$A-Z0-9]${limit}[\\w$$]${limit}" }
val prefix: String = s"""(?<=(?::)\\s{0,10}|\\btype ${token("{0,10}")}\\s{0,10}=\\s{0,10})"""
s"""\\b(?:${prefix}(?:${token("*")}|\\s*=>\\s*|\\s*with\\s*)*)\\b"""
}.r
val syntax: Regex = (
s"""\\b(?:abstract|case|catch|class|def|do|else|extends|final|""" +
s"""finally|for|forSome|if|implicit|import|lazy|match|new|""" +
s"""object|override|package|private|protected|return|sealed|""" +
s"""super|throw|trait|try|type|val|var|while|with|yield)\\b"""
).r
Seq[(String, Regex)](
"r" -> string
, "c" -> reserved
, "m" -> special
, "g" -> typeSig
, "r" -> number
, "y" -> syntax
)
}
def switch: LineHandler = LineHandler
def apply(line: String): (Line, Option[String]) = {
val (colors, regexes) = patterns.unzip
// new Regex("(?:(a)|(b)|(c))") will produce
// m.subgroups List(null, "b", null) when applied on "b"
val regex = new Regex(s"(?:(${regexes.mkString(")|(")}))")
val formatted = regex.replaceAllIn(line, { m =>
val colorIdx = m.subgroups.indexWhere(_ != null)
colors.drop(colorIdx).take(1).headOption
.map({ color =>
s"\\\\${color}${Regex.quoteReplacement(m.toString)}\\\\s"
})
.getOrElse(line)
})
(Line("< " + formatted), Option(line))
}
}
case class Acc(
content: IndexedSeq[Line] = IndexedSeq.empty
, builds: IndexedSeq[Int] = IndexedSeq.empty
, deck: IndexedSeq[Slide] = IndexedSeq.empty
, code: IndexedSeq[String] = IndexedSeq.empty
, codeAcc: IndexedSeq[String] = IndexedSeq.empty
, handler: LineHandler = LineHandler
) {
import config.newline
def switchHandler: Acc = copy(handler = handler.switch)
def append(line: String): Acc = {
val (l, c) = handler(line)
copy(content = content :+ l, codeAcc = c.fold(codeAcc)(codeAcc :+ _))
}
def pushBuild: Acc = copy(
builds = builds :+ content.size
, code = code :+ codeAcc.mkString(newline)
, codeAcc = IndexedSeq.empty
)
def pushSlide: Acc = {
if (content.isEmpty) {
append("").pushSlide
} else {
val finalBuild = pushBuild
val slide = Slide(content, finalBuild.builds, finalBuild.code)
Acc(deck = deck :+ slide)
}
}
}
val slideSeparator = "---"
val buildSeparator = "--"
val codeDelimiter = "```"
val acc = lines.foldLeft(Acc()) { (acc, line) =>
line match {
case `slideSeparator` => acc.pushSlide
case `buildSeparator` => acc.pushBuild
case `codeDelimiter` => acc.switchHandler
case _ => acc.append(line)
}
}.pushSlide
acc.deck
}
private def render(build: Build): String = {
import config._
val topPadding = (verticalSpace - build.size) / 2
val bottomPadding = verticalSpace - topPadding - build.content.size
val margin = horizontalSpace - build.maxLength
val sb = StringBuilder.newBuilder
def render(line: Line): StringBuilder = {
sb ++= sinistral
sb ++= line.render(margin)
sb ++= dextral
sb ++= newline
}
sb ++= topRow
sb ++= blankLine * topPadding
build.content foreach render
if (slideCounter && bottomPadding > 0) {
sb ++= blankLine * (bottomPadding - 1)
render(build.footer)
} else {
sb ++= blankLine * bottomPadding
}
sb ++= bottomRow
sb.mkString
}
private def show(build: Option[Build]): Unit = {
if (build.isEmpty) Console.err.print("No slide for you")
build foreach { b =>
print(render(b))
}
if (padNewline) print("\n\n\u001b[2A") // Create a space for if the user enters "n\n", to keep the screen from jumping
}
private def reloadDeck(): Unit = {
val curSlide = deck.currentSlideNumber
deck = Deck(parseSource(source))
show(deck.jumpTo(curSlide))
}
implicit class Ops(val i: Int) {
def next: Unit = show(deck.jump(i))
def n: Unit = next
def previous: Unit = show(deck.jump(-i))
def p: Unit = previous
def go: Unit = show(deck.jumpTo(i - 1))
def g: Unit = go
}
def next: Unit = show(deck.nextBuild)
def n: Unit = next
def > : Unit = next
def previous: Unit = show(deck.previousBuild)
def p: Unit = previous
def < : Unit = previous
def redraw: Unit = show(deck.redrawBuild)
def z: Unit = redraw
def reload: Unit = reloadDeck
def y: Unit = reload
def Next: Unit = 1.next
def N: Unit = Next
def >> : Unit = Next
def Previous: Unit = 1.previous
def P: Unit = Previous
def << : Unit = Previous
def first: Unit = 1.go
def f: Unit = first
def |< : Unit = first
def last: Unit = show(deck.lastSlide)
def l: Unit = last
def >| : Unit = last
def Last: Unit = show(deck.lastBuild)
def L: Unit = Last
def >>| : Unit = Last
def run: Unit = deck.runCode
def r: Unit = run
def !! : Unit = run
def blank: Unit = print(config.newline * config.screenHeight)
def b: Unit = blank
def help: Unit = print(helpMessage)
def h: Unit = help
def ? : Unit = help
}