src/main/scala/li/cil/oc/util/TextBuffer.scala - minecraft/opencomputers - Rivoreo Source Code Repositories

 package li.cil.oc.util

 import li.cil.oc.Settings
 import li.cil.oc.api.component.TextBuffer.ColorDepth
 import net.minecraft.nbt._

 /**
  * This stores chars in a 2D-Array and provides some manipulation functions.
  *
  * The main purpose of this is to allow moving most implementation detail to
  * the Lua side while keeping bandwidth costs low and still allowing for
  * relatively fast updates, given a smart algorithm (using copy()/fill()
  * instead of set()ing everything).
  */
 class TextBuffer(var width: Int, var height: Int, initialFormat: PackedColor.ColorFormat) {
   def this(size: (Int, Int), format: PackedColor.ColorFormat) = this(size._1, size._2, format)

   private var _format = initialFormat

   private var _foreground = PackedColor.Color(0xFFFFFF)

   private var _background = PackedColor.Color(0x000000)

   private var packed = PackedColor.pack(_foreground, _background, _format)

   def foreground = _foreground

   def foreground_=(value: PackedColor.Color) = {
     _foreground = value
     packed = PackedColor.pack(_foreground, _background, _format)
   }

   def background = _background

   def background_=(value: PackedColor.Color) = {
     _background = value
     packed = PackedColor.pack(_foreground, _background, _format)
   }

   def format = _format

   def format_=(value: PackedColor.ColorFormat) = {
     if (format.depth != value.depth) {
       for (row <- 0 until height) {
         val rowColor = color(row)
         for (col <- 0 until width) {
           val packed = rowColor(col)
           val fg = PackedColor.Color(PackedColor.unpackForeground(packed, _format))
           val bg = PackedColor.Color(PackedColor.unpackBackground(packed, _format))
           rowColor(col) = PackedColor.pack(fg, bg, value)
         }
       }
       _format = value
       packed = PackedColor.pack(_foreground, _background, _format)
       true
     }
     else false
   }

   var color = Array.fill(height, width)(packed)

   var buffer = Array.fill(height, width)(' ')

   /** The current buffer size in columns by rows. */
   def size = (width, height)

   /**
    * Set the new buffer size, returns true if the size changed.
    *
    * This will perform a proper resize as required, keeping as much of the
    * buffer valid as possible if the size decreases, i.e. only data outside the
    * new buffer size will be truncated, all data still inside will be copied.
    */
   def size_=(value: (Int, Int)): Boolean = {
     val (iw, ih) = value
     val (w, h) = (math.max(iw, 1), math.max(ih, 1))
     if (width != w || height != h) {
       val newBuffer = Array.fill(h, w)(' ')
       val newColor = Array.fill(h, w)(packed)
       (0 until math.min(h, height)).foreach(y => {
         Array.copy(buffer(y), 0, newBuffer(y), 0, math.min(w, width))
         Array.copy(color(y), 0, newColor(y), 0, math.min(w, width))
       })
       buffer = newBuffer
       color = newColor
       width = w
       height = h
       true
     }
     else false
   }

   /** Get the char at the specified index. */
   def get(col: Int, row: Int) = buffer(row)(col)

   /** String based fill starting at a specified location. */
   def set(col: Int, row: Int, s: String, vertical: Boolean): Boolean =
     if (vertical) {
       if (col < 0 || col >= width) false
       else {
         var changed = false
         for (y <- row until math.min(row + s.length, height)) if (y >= 0) {
           val line = buffer(y)
           val lineColor = color(y)
           val c = s(y - row)
           changed = changed || (line(col) != c) || (lineColor(col) != packed)
           line(col) = c
           lineColor(col) = packed
         }
         changed
       }
     }
     else {
       if (row < 0 || row >= height) false
       else {
         var changed = false
         val line = buffer(row)
         val lineColor = color(row)
         for (x <- col until math.min(col + s.length, width)) if (x >= 0) {
           val c = s(x - col)
           changed = changed || (line(x) != c) || (lineColor(x) != packed)
           line(x) = c
           lineColor(x) = packed
         }
         changed
       }
     }

   /** Fills an area of the buffer with the specified character. */
   def fill(col: Int, row: Int, w: Int, h: Int, c: Char): Boolean = {
     // Anything to do at all?
     if (w <= 0 || h <= 0) return false
     if (col + w < 0 || row + h < 0 || col >= width || row >= height) return false
     var changed = false
     for (y <- math.max(row, 0) until math.min(row + h, height)) {
       val line = buffer(y)
       val lineColor = color(y)
       for (x <- math.max(col, 0) until math.min(col + w, width)) {
         changed = changed || (line(x) != c) || (lineColor(x) != packed)
         line(x) = c
         lineColor(x) = packed
       }
     }
     changed
   }

   /** Copies a portion of the buffer. */
   def copy(col: Int, row: Int, w: Int, h: Int, tx: Int, ty: Int): Boolean = {
     // Anything to do at all?
     if (w <= 0 || h <= 0) return false
     if (tx == 0 && ty == 0) return false
     // Loop over the target rectangle, starting from the directions away from
     // the source rectangle and copy the data. This way we ensure we don't
     // overwrite anything we still need to copy.
     val (dx0, dx1) = (math.max(0, math.min(width - 1, col + tx + w - 1)), math.max(0, math.min(width, col + tx))) match {
       case dx if tx > 0 => dx
       case dx => dx.swap
     }
     val (dy0, dy1) = (math.max(0, math.min(height - 1, row + ty + h - 1)), math.max(0, math.min(height, row + ty))) match {
       case dy if ty > 0 => dy
       case dy => dy.swap
     }
     val (sx, sy) = (if (tx > 0) -1 else 1, if (ty > 0) -1 else 1)
     // Copy values to destination rectangle if there source is valid.
     var changed = false
     for (ny <- dy0 to dy1 by sy) {
       val nl = buffer(ny)
       val nc = color(ny)
       ny - ty match {
         case oy if oy >= 0 && oy < height =>
           val ol = buffer(oy)
           val oc = color(oy)
           for (nx <- dx0 to dx1 by sx) nx - tx match {
             case ox if ox >= 0 && ox < width =>
               changed = changed || (nl(nx) != ol(ox)) || (nc(nx) != oc(ox))
               nl(nx) = ol(ox)
               nc(nx) = oc(ox)
             case _ => /* Got no source column. */
           }
         case _ => /* Got no source row. */
       }
     }
     changed
   }

   def load(nbt: NBTTagCompound): Unit = {
     val w = nbt.getInteger("width") max 1 min Settings.screenResolutionsByTier(2)._1
     val h = nbt.getInteger("height") max 1 min Settings.screenResolutionsByTier(2)._2
     size = (w, h)

     val b = nbt.getTagList("buffer")
     for (i <- 0 until math.min(h, b.tagCount)) {
       b.tagAt(i) match {
         case tag: NBTTagString => set(0, i, tag.data, vertical = false)
         case _ =>
       }
     }

     val depth = ColorDepth.values.apply(nbt.getInteger("depth") min (ColorDepth.values.length - 1) max 0)
     _format = PackedColor.Depth.format(depth)
     _format.load(nbt)
     foreground = PackedColor.Color(nbt.getInteger("foreground"), nbt.getBoolean("foregroundIsPalette"))
     background = PackedColor.Color(nbt.getInteger("background"), nbt.getBoolean("backgroundIsPalette"))

     val c = nbt.getTagList("color")
     for (i <- 0 until h) {
       val rowColor = color(i)
       for (j <- 0 until w) {
         val index = j + i * w
         if (index < c.tagCount) {
           c.tagAt(index) match {
             case tag: NBTTagShort => rowColor(j) = tag.data
             case _ =>
           }
         }
       }
     }
   }

   def save(nbt: NBTTagCompound): Unit = {
     nbt.setInteger("width", width)
     nbt.setInteger("height", height)

     val b = new NBTTagList()
     for (i <- 0 until height) {
       b.appendTag(new NBTTagString(null, String.valueOf(buffer(i))))
     }
     nbt.setTag("buffer", b)

     nbt.setInteger("depth", _format.depth.ordinal)
     _format.save(nbt)
     nbt.setInteger("foreground", _foreground.value)
     nbt.setBoolean("foregroundIsPalette", _foreground.isPalette)
     nbt.setInteger("background", _background.value)
     nbt.setBoolean("backgroundIsPalette", _background.isPalette)

     val c = new NBTTagList()
     for (i <- 0 until height) {
       val rowColor = color(i)
       for (j <- 0 until width) {
         c.appendTag(new NBTTagShort(null, rowColor(j)))
       }
     }
     nbt.setTag("color", c)
   }

   override def toString = {
     val b = StringBuilder.newBuilder
     if (buffer.length > 0) {
       b.appendAll(buffer(0))
       for (y <- 1 until height) {
         b.append('\n').appendAll(buffer(y))
       }
     }
     b.toString()
   }
 }
	package li.cil.oc.util

	import li.cil.oc.Settings
	import li.cil.oc.api.component.TextBuffer.ColorDepth
	import net.minecraft.nbt._

	/**
	* This stores chars in a 2D-Array and provides some manipulation functions.
	*
	* The main purpose of this is to allow moving most implementation detail to
	* the Lua side while keeping bandwidth costs low and still allowing for
	* relatively fast updates, given a smart algorithm (using copy()/fill()
	* instead of set()ing everything).
	*/
	class TextBuffer(var width: Int, var height: Int, initialFormat: PackedColor.ColorFormat) {
	def this(size: (Int, Int), format: PackedColor.ColorFormat) = this(size._1, size._2, format)

	private var _format = initialFormat

	private var _foreground = PackedColor.Color(0xFFFFFF)

	private var _background = PackedColor.Color(0x000000)

	private var packed = PackedColor.pack(_foreground, _background, _format)

	def foreground = _foreground

	def foreground_=(value: PackedColor.Color) = {
	_foreground = value
	packed = PackedColor.pack(_foreground, _background, _format)
	}

	def background = _background

	def background_=(value: PackedColor.Color) = {
	_background = value
	packed = PackedColor.pack(_foreground, _background, _format)
	}

	def format = _format

	def format_=(value: PackedColor.ColorFormat) = {
	if (format.depth != value.depth) {
	for (row <- 0 until height) {
	val rowColor = color(row)
	for (col <- 0 until width) {
	val packed = rowColor(col)
	val fg = PackedColor.Color(PackedColor.unpackForeground(packed, _format))
	val bg = PackedColor.Color(PackedColor.unpackBackground(packed, _format))
	rowColor(col) = PackedColor.pack(fg, bg, value)
	}
	}
	_format = value
	packed = PackedColor.pack(_foreground, _background, _format)
	true
	}
	else false
	}

	var color = Array.fill(height, width)(packed)

	var buffer = Array.fill(height, width)(' ')

	/** The current buffer size in columns by rows. */
	def size = (width, height)

	/**
	* Set the new buffer size, returns true if the size changed.
	*
	* This will perform a proper resize as required, keeping as much of the
	* buffer valid as possible if the size decreases, i.e. only data outside the
	* new buffer size will be truncated, all data still inside will be copied.
	*/
	def size_=(value: (Int, Int)): Boolean = {
	val (iw, ih) = value
	val (w, h) = (math.max(iw, 1), math.max(ih, 1))
	if (width != w \|\| height != h) {
	val newBuffer = Array.fill(h, w)(' ')
	val newColor = Array.fill(h, w)(packed)
	(0 until math.min(h, height)).foreach(y => {
	Array.copy(buffer(y), 0, newBuffer(y), 0, math.min(w, width))
	Array.copy(color(y), 0, newColor(y), 0, math.min(w, width))
	})
	buffer = newBuffer
	color = newColor
	width = w
	height = h
	true
	}
	else false
	}

	/** Get the char at the specified index. */
	def get(col: Int, row: Int) = buffer(row)(col)

	/** String based fill starting at a specified location. */
	def set(col: Int, row: Int, s: String, vertical: Boolean): Boolean =
	if (vertical) {
	if (col < 0 \|\| col >= width) false
	else {
	var changed = false
	for (y <- row until math.min(row + s.length, height)) if (y >= 0) {
	val line = buffer(y)
	val lineColor = color(y)
	val c = s(y - row)
	changed = changed \|\| (line(col) != c) \|\| (lineColor(col) != packed)
	line(col) = c
	lineColor(col) = packed
	}
	changed
	}
	}
	else {
	if (row < 0 \|\| row >= height) false
	else {
	var changed = false
	val line = buffer(row)
	val lineColor = color(row)
	for (x <- col until math.min(col + s.length, width)) if (x >= 0) {
	val c = s(x - col)
	changed = changed \|\| (line(x) != c) \|\| (lineColor(x) != packed)
	line(x) = c
	lineColor(x) = packed
	}
	changed
	}
	}

	/** Fills an area of the buffer with the specified character. */
	def fill(col: Int, row: Int, w: Int, h: Int, c: Char): Boolean = {
	// Anything to do at all?
	if (w <= 0 \|\| h <= 0) return false
	if (col + w < 0 \|\| row + h < 0 \|\| col >= width \|\| row >= height) return false
	var changed = false
	for (y <- math.max(row, 0) until math.min(row + h, height)) {
	val line = buffer(y)
	val lineColor = color(y)
	for (x <- math.max(col, 0) until math.min(col + w, width)) {
	changed = changed \|\| (line(x) != c) \|\| (lineColor(x) != packed)
	line(x) = c
	lineColor(x) = packed
	}
	}
	changed
	}

	/** Copies a portion of the buffer. */
	def copy(col: Int, row: Int, w: Int, h: Int, tx: Int, ty: Int): Boolean = {
	// Anything to do at all?
	if (w <= 0 \|\| h <= 0) return false
	if (tx == 0 && ty == 0) return false
	// Loop over the target rectangle, starting from the directions away from
	// the source rectangle and copy the data. This way we ensure we don't
	// overwrite anything we still need to copy.
	val (dx0, dx1) = (math.max(0, math.min(width - 1, col + tx + w - 1)), math.max(0, math.min(width, col + tx))) match {
	case dx if tx > 0 => dx
	case dx => dx.swap
	}
	val (dy0, dy1) = (math.max(0, math.min(height - 1, row + ty + h - 1)), math.max(0, math.min(height, row + ty))) match {
	case dy if ty > 0 => dy
	case dy => dy.swap
	}
	val (sx, sy) = (if (tx > 0) -1 else 1, if (ty > 0) -1 else 1)
	// Copy values to destination rectangle if there source is valid.
	var changed = false
	for (ny <- dy0 to dy1 by sy) {
	val nl = buffer(ny)
	val nc = color(ny)
	ny - ty match {
	case oy if oy >= 0 && oy < height =>
	val ol = buffer(oy)
	val oc = color(oy)
	for (nx <- dx0 to dx1 by sx) nx - tx match {
	case ox if ox >= 0 && ox < width =>
	changed = changed \|\| (nl(nx) != ol(ox)) \|\| (nc(nx) != oc(ox))
	nl(nx) = ol(ox)
	nc(nx) = oc(ox)
	case _ => /* Got no source column. */
	}
	case _ => /* Got no source row. */
	}
	}
	changed
	}

	def load(nbt: NBTTagCompound): Unit = {
	val w = nbt.getInteger("width") max 1 min Settings.screenResolutionsByTier(2)._1
	val h = nbt.getInteger("height") max 1 min Settings.screenResolutionsByTier(2)._2
	size = (w, h)

	val b = nbt.getTagList("buffer")
	for (i <- 0 until math.min(h, b.tagCount)) {
	b.tagAt(i) match {
	case tag: NBTTagString => set(0, i, tag.data, vertical = false)
	case _ =>
	}
	}

	val depth = ColorDepth.values.apply(nbt.getInteger("depth") min (ColorDepth.values.length - 1) max 0)
	_format = PackedColor.Depth.format(depth)
	_format.load(nbt)
	foreground = PackedColor.Color(nbt.getInteger("foreground"), nbt.getBoolean("foregroundIsPalette"))
	background = PackedColor.Color(nbt.getInteger("background"), nbt.getBoolean("backgroundIsPalette"))

	val c = nbt.getTagList("color")
	for (i <- 0 until h) {
	val rowColor = color(i)
	for (j <- 0 until w) {
	val index = j + i * w
	if (index < c.tagCount) {
	c.tagAt(index) match {
	case tag: NBTTagShort => rowColor(j) = tag.data
	case _ =>
	}
	}
	}
	}
	}

	def save(nbt: NBTTagCompound): Unit = {
	nbt.setInteger("width", width)
	nbt.setInteger("height", height)

	val b = new NBTTagList()
	for (i <- 0 until height) {
	b.appendTag(new NBTTagString(null, String.valueOf(buffer(i))))
	}
	nbt.setTag("buffer", b)

	nbt.setInteger("depth", _format.depth.ordinal)
	_format.save(nbt)
	nbt.setInteger("foreground", _foreground.value)
	nbt.setBoolean("foregroundIsPalette", _foreground.isPalette)
	nbt.setInteger("background", _background.value)
	nbt.setBoolean("backgroundIsPalette", _background.isPalette)

	val c = new NBTTagList()
	for (i <- 0 until height) {
	val rowColor = color(i)
	for (j <- 0 until width) {
	c.appendTag(new NBTTagShort(null, rowColor(j)))
	}
	}
	nbt.setTag("color", c)
	}

	override def toString = {
	val b = StringBuilder.newBuilder
	if (buffer.length > 0) {
	b.appendAll(buffer(0))
	for (y <- 1 until height) {
	b.append('\n').appendAll(buffer(y))
	}
	}
	b.toString()
	}
	}