| package li.cil.oc.common.component |
| |
| import com.google.common.base.Strings |
| import cpw.mods.fml.common.eventhandler.SubscribeEvent |
| import cpw.mods.fml.relauncher.Side |
| import cpw.mods.fml.relauncher.SideOnly |
| import li.cil.oc.Constants |
| import li.cil.oc.OpenComputers |
| import li.cil.oc.Settings |
| import li.cil.oc.api |
| import li.cil.oc.api.component.TextBuffer.ColorDepth |
| import li.cil.oc.api.driver.EnvironmentHost |
| import li.cil.oc.api.machine.Arguments |
| import li.cil.oc.api.machine.Callback |
| import li.cil.oc.api.machine.Context |
| import li.cil.oc.api.network._ |
| import li.cil.oc.api.prefab |
| import li.cil.oc.client.renderer.TextBufferRenderCache |
| import li.cil.oc.client.renderer.font.TextBufferRenderData |
| import li.cil.oc.client.{ComponentTracker => ClientComponentTracker} |
| import li.cil.oc.client.{PacketSender => ClientPacketSender} |
| import li.cil.oc.common._ |
| import li.cil.oc.server.component.Keyboard |
| import li.cil.oc.server.{ComponentTracker => ServerComponentTracker} |
| import li.cil.oc.server.{PacketSender => ServerPacketSender} |
| import li.cil.oc.util |
| import li.cil.oc.util.BlockPosition |
| import li.cil.oc.util.PackedColor |
| import li.cil.oc.util.SideTracker |
| import net.minecraft.client.Minecraft |
| import net.minecraft.entity.player.EntityPlayer |
| import net.minecraft.nbt.NBTTagCompound |
| import net.minecraftforge.event.world.ChunkEvent |
| import net.minecraftforge.event.world.WorldEvent |
| |
| import scala.collection.convert.WrapAsScala._ |
| import scala.collection.mutable |
| |
| class TextBuffer(val host: EnvironmentHost) extends prefab.ManagedEnvironment with api.component.TextBuffer { |
| override val node = api.Network.newNode(this, Visibility.Network). |
| withComponent("screen"). |
| withConnector(). |
| create() |
| |
| private var maxResolution = Settings.screenResolutionsByTier(Tier.One) |
| |
| private var maxDepth = Settings.screenDepthsByTier(Tier.One) |
| |
| private var aspectRatio = (1.0, 1.0) |
| |
| private var powerConsumptionPerTick = Settings.get.screenCost |
| |
| private var precisionMode = false |
| |
| // For client side only. |
| private var isRendering = true |
| |
| private var isDisplaying = true |
| |
| private var hasPower = true |
| |
| private var relativeLitArea = -1.0 |
| |
| private var _pendingCommands: Option[PacketBuilder] = None |
| |
| private def pendingCommands = _pendingCommands.getOrElse { |
| val pb = new CompressedPacketBuilder(PacketType.TextBufferMulti) |
| pb.writeUTF(node.address) |
| _pendingCommands = Some(pb) |
| pb |
| } |
| |
| var fullyLitCost = computeFullyLitCost() |
| |
| // This computes the energy cost (per tick) to keep the screen running if |
| // every single "pixel" is lit. This cost increases with higher tiers as |
| // their maximum resolution (pixel density) increases. For a basic screen |
| // this is simply the configured cost. |
| def computeFullyLitCost() = { |
| val (w, h) = Settings.screenResolutionsByTier(0) |
| val mw = getMaximumWidth |
| val mh = getMaximumHeight |
| powerConsumptionPerTick * (mw * mh) / (w * h) |
| } |
| |
| val proxy = |
| if (SideTracker.isClient) new TextBuffer.ClientProxy(this) |
| else new TextBuffer.ServerProxy(this) |
| |
| val data = new util.TextBuffer(maxResolution, PackedColor.Depth.format(maxDepth)) |
| |
| // ----------------------------------------------------------------------- // |
| |
| override val canUpdate = true |
| |
| override def update() { |
| super.update() |
| if (isDisplaying && host.world.getTotalWorldTime % Settings.get.tickFrequency == 0) { |
| if (relativeLitArea < 0) { |
| // The relative lit area is the number of pixels that are not blank |
| // versus the number of pixels in the *current* resolution. This is |
| // scaled to multi-block screens, since we only compute this for the |
| // origin. |
| val w = getWidth |
| val h = getHeight |
| relativeLitArea = (data.buffer, data.color).zipped.foldLeft(0) { |
| case (acc, (line, colors)) => acc + (line, colors).zipped.foldLeft(0) { |
| case (acc2, (char, color)) => |
| val bg = PackedColor.unpackBackground(color, data.format) |
| val fg = PackedColor.unpackForeground(color, data.format) |
| acc2 + (if (char == ' ') if (bg == 0) 0 else 1 |
| else if (char == 0x2588) if (fg == 0) 0 else 1 |
| else if (fg == 0 && bg == 0) 0 else 1) |
| } |
| } / (w * h).toDouble |
| } |
| if (node != null) { |
| val hadPower = hasPower |
| val neededPower = relativeLitArea * fullyLitCost * Settings.get.tickFrequency |
| hasPower = node.tryChangeBuffer(-neededPower) |
| if (hasPower != hadPower) { |
| ServerPacketSender.sendTextBufferPowerChange(node.address, isDisplaying && hasPower, host) |
| } |
| } |
| } |
| |
| this.synchronized { |
| _pendingCommands.foreach(_.sendToPlayersNearHost(host, Option(Settings.get.maxWirelessRange * Settings.get.maxWirelessRange))) |
| _pendingCommands = None |
| } |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| @Callback(direct = true, doc = """function():boolean -- Returns whether the screen is currently on.""") |
| def isOn(computer: Context, args: Arguments): Array[AnyRef] = result(isDisplaying) |
| |
| @Callback(doc = """function():boolean -- Turns the screen on. Returns true if it was off.""") |
| def turnOn(computer: Context, args: Arguments): Array[AnyRef] = { |
| val oldPowerState = isDisplaying |
| setPowerState(value = true) |
| result(isDisplaying != oldPowerState, isDisplaying) |
| } |
| |
| @Callback(doc = """function():boolean -- Turns off the screen. Returns true if it was on.""") |
| def turnOff(computer: Context, args: Arguments): Array[AnyRef] = { |
| val oldPowerState = isDisplaying |
| setPowerState(value = false) |
| result(isDisplaying != oldPowerState, isDisplaying) |
| } |
| |
| @Callback(direct = true, doc = """function():number, number -- The aspect ratio of the screen. For multi-block screens this is the number of blocks, horizontal and vertical.""") |
| def getAspectRatio(context: Context, args: Arguments): Array[AnyRef] = this.synchronized { |
| result(aspectRatio._1, aspectRatio._2) |
| } |
| |
| @Callback(doc = """function():table -- The list of keyboards attached to the screen.""") |
| def getKeyboards(context: Context, args: Arguments): Array[AnyRef] = { |
| context.pause(0.25) |
| host match { |
| case screen: tileentity.Screen => |
| Array(screen.screens.map(_.node).flatMap(_.neighbors.filter(_.host.isInstanceOf[Keyboard]).map(_.address)).toArray) |
| case _ => |
| Array(node.neighbors.filter(_.host.isInstanceOf[Keyboard]).map(_.address).toArray) |
| } |
| } |
| |
| @Callback(direct = true, doc = """function():boolean -- Returns whether the screen is in high precision mode (sub-pixel mouse event positions).""") |
| def isPrecise(computer: Context, args: Arguments): Array[AnyRef] = result(precisionMode) |
| |
| @Callback(doc = """function(enabled:boolean):boolean -- Set whether to use high precision mode (sub-pixel mouse event positions).""") |
| def setPrecise(computer: Context, args: Arguments): Array[AnyRef] = { |
| // Available for T3 screens only... easiest way to check for us is to |
| // base it off of the maximum color depth. |
| if (maxDepth == Settings.screenDepthsByTier(Tier.Three)) { |
| val oldValue = precisionMode |
| precisionMode = args.checkBoolean(0) |
| result(oldValue) |
| } |
| else result(Unit, "unsupported operation") |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| override def setEnergyCostPerTick(value: Double) { |
| powerConsumptionPerTick = value |
| fullyLitCost = computeFullyLitCost() |
| } |
| |
| override def getEnergyCostPerTick = powerConsumptionPerTick |
| |
| override def setPowerState(value: Boolean) { |
| if (isDisplaying != value) { |
| isDisplaying = value |
| if (isDisplaying) { |
| val neededPower = fullyLitCost * Settings.get.tickFrequency |
| hasPower = node.changeBuffer(-neededPower) == 0 |
| } |
| ServerPacketSender.sendTextBufferPowerChange(node.address, isDisplaying && hasPower, host) |
| } |
| } |
| |
| override def getPowerState = isDisplaying |
| |
| override def setMaximumResolution(width: Int, height: Int) { |
| if (width < 1) throw new IllegalArgumentException("width must be larger or equal to one") |
| if (height < 1) throw new IllegalArgumentException("height must be larger or equal to one") |
| maxResolution = (width, height) |
| fullyLitCost = computeFullyLitCost() |
| proxy.onBufferMaxResolutionChange(width, width) |
| } |
| |
| override def getMaximumWidth = maxResolution._1 |
| |
| override def getMaximumHeight = maxResolution._2 |
| |
| override def setAspectRatio(width: Double, height: Double) = this.synchronized(aspectRatio = (width, height)) |
| |
| override def getAspectRatio = aspectRatio._1 / aspectRatio._2 |
| |
| override def setResolution(w: Int, h: Int) = { |
| val (mw, mh) = maxResolution |
| if (w < 1 || h < 1 || w > mw || h > mw || h * w > mw * mh) |
| throw new IllegalArgumentException("unsupported resolution") |
| // Always send to clients, their state might be dirty. |
| proxy.onBufferResolutionChange(w, h) |
| if (data.size = (w, h)) { |
| if (node != null) { |
| node.sendToReachable("computer.signal", "screen_resized", Int.box(w), Int.box(h)) |
| } |
| true |
| } |
| else false |
| } |
| |
| override def getWidth = data.width |
| |
| override def getHeight = data.height |
| |
| override def setMaximumColorDepth(depth: ColorDepth) = maxDepth = depth |
| |
| override def getMaximumColorDepth = maxDepth |
| |
| override def setColorDepth(depth: ColorDepth) = { |
| if (depth.ordinal > maxDepth.ordinal) |
| throw new IllegalArgumentException("unsupported depth") |
| // Always send to clients, their state might be dirty. |
| proxy.onBufferDepthChange(depth) |
| data.format = PackedColor.Depth.format(depth) |
| } |
| |
| override def getColorDepth = data.format.depth |
| |
| override def setPaletteColor(index: Int, color: Int) = data.format match { |
| case palette: PackedColor.MutablePaletteFormat => |
| palette(index) = color |
| proxy.onBufferPaletteChange(index) |
| case _ => throw new Exception("palette not available") |
| } |
| |
| override def getPaletteColor(index: Int) = data.format match { |
| case palette: PackedColor.MutablePaletteFormat => palette(index) |
| case _ => throw new Exception("palette not available") |
| } |
| |
| override def setForegroundColor(color: Int) = setForegroundColor(color, isFromPalette = false) |
| |
| override def setForegroundColor(color: Int, isFromPalette: Boolean) { |
| val value = PackedColor.Color(color, isFromPalette) |
| if (data.foreground != value) { |
| data.foreground = value |
| proxy.onBufferColorChange() |
| } |
| } |
| |
| override def getForegroundColor = data.foreground.value |
| |
| override def isForegroundFromPalette = data.foreground.isPalette |
| |
| override def setBackgroundColor(color: Int) = setBackgroundColor(color, isFromPalette = false) |
| |
| override def setBackgroundColor(color: Int, isFromPalette: Boolean) { |
| val value = PackedColor.Color(color, isFromPalette) |
| if (data.background != value) { |
| data.background = value |
| proxy.onBufferColorChange() |
| } |
| } |
| |
| override def getBackgroundColor = data.background.value |
| |
| override def isBackgroundFromPalette = data.background.isPalette |
| |
| def copy(col: Int, row: Int, w: Int, h: Int, tx: Int, ty: Int) = |
| if (data.copy(col, row, w, h, tx, ty)) |
| proxy.onBufferCopy(col, row, w, h, tx, ty) |
| |
| def fill(col: Int, row: Int, w: Int, h: Int, c: Char) = |
| if (data.fill(col, row, w, h, c)) |
| proxy.onBufferFill(col, row, w, h, c) |
| |
| def set(col: Int, row: Int, s: String, vertical: Boolean): Unit = |
| if (col < data.width && (col >= 0 || -col < s.length)) { |
| // Make sure the string isn't longer than it needs to be, in particular to |
| // avoid sending too much data to our clients. |
| val (x, y, truncated) = |
| if (vertical) { |
| if (row < 0) (col, 0, s.substring(-row)) |
| else (col, row, s.substring(0, math.min(s.length, data.height - row))) |
| } |
| else { |
| if (col < 0) (0, row, s.substring(-col)) |
| else (col, row, s.substring(0, math.min(s.length, data.width - col))) |
| } |
| if (data.set(x, y, truncated, vertical)) |
| proxy.onBufferSet(x, row, truncated, vertical) |
| } |
| |
| def get(col: Int, row: Int) = data.get(col, row) |
| |
| override def getForegroundColor(column: Int, row: Int) = |
| if (isForegroundFromPalette(column, row)) { |
| PackedColor.extractForeground(color(column, row)) |
| } |
| else { |
| PackedColor.unpackForeground(color(column, row), data.format) |
| } |
| |
| override def isForegroundFromPalette(column: Int, row: Int) = |
| data.format.isFromPalette(PackedColor.extractForeground(color(column, row))) |
| |
| override def getBackgroundColor(column: Int, row: Int) = |
| if (isBackgroundFromPalette(column, row)) { |
| PackedColor.extractBackground(color(column, row)) |
| } |
| else { |
| PackedColor.unpackBackground(color(column, row), data.format) |
| } |
| |
| override def isBackgroundFromPalette(column: Int, row: Int) = |
| data.format.isFromPalette(PackedColor.extractBackground(color(column, row))) |
| |
| override def rawSetText(col: Int, row: Int, text: Array[Array[Char]]): Unit = { |
| for (y <- row until ((row + text.length) min data.height)) { |
| val line = text(y - row) |
| Array.copy(line, 0, data.buffer(y), col, line.length min data.width) |
| } |
| proxy.onBufferRawSetText(col, row, text) |
| } |
| |
| override def rawSetBackground(col: Int, row: Int, color: Array[Array[Int]]): Unit = { |
| for (y <- row until ((row + color.length) min data.height)) { |
| val line = color(y - row) |
| for (x <- col until ((col + line.length) min data.width)) { |
| val packedBackground = data.color(row)(col) & 0x00FF |
| val packedForeground = (data.format.deflate(PackedColor.Color(line(x - col))) << PackedColor.ForegroundShift) & 0xFF00 |
| data.color(row)(col) = (packedForeground | packedBackground).toShort |
| } |
| } |
| // Better for bandwidth to send packed shorts here. Would need a special case for handling on client, |
| // though, so let's be wasteful for once... |
| proxy.onBufferRawSetBackground(col, row, color) |
| } |
| |
| override def rawSetForeground(col: Int, row: Int, color: Array[Array[Int]]): Unit = { |
| for (y <- row until ((row + color.length) min data.height)) { |
| val line = color(y - row) |
| for (x <- col until ((col + line.length) min data.width)) { |
| val packedBackground = data.format.deflate(PackedColor.Color(line(x - col))) & 0x00FF |
| val packedForeground = data.color(row)(col) & 0xFF00 |
| data.color(row)(col) = (packedForeground | packedBackground).toShort |
| } |
| } |
| // Better for bandwidth to send packed shorts here. Would need a special case for handling on client, |
| // though, so let's be wasteful for once... |
| proxy.onBufferRawSetForeground(col, row, color) |
| } |
| |
| private def color(column: Int, row: Int) = { |
| if (column < 0 || column >= getWidth || row < 0 || row >= getHeight) |
| throw new IndexOutOfBoundsException() |
| else data.color(row)(column) |
| } |
| |
| @SideOnly(Side.CLIENT) |
| override def renderText() = relativeLitArea != 0 && proxy.render() |
| |
| @SideOnly(Side.CLIENT) |
| override def renderWidth = TextBufferRenderCache.renderer.charRenderWidth * data.width |
| |
| @SideOnly(Side.CLIENT) |
| override def renderHeight = TextBufferRenderCache.renderer.charRenderHeight * data.height |
| |
| @SideOnly(Side.CLIENT) |
| override def setRenderingEnabled(enabled: Boolean) = isRendering = enabled |
| |
| @SideOnly(Side.CLIENT) |
| override def isRenderingEnabled = isRendering |
| |
| override def keyDown(character: Char, code: Int, player: EntityPlayer) = |
| proxy.keyDown(character, code, player) |
| |
| override def keyUp(character: Char, code: Int, player: EntityPlayer) = |
| proxy.keyUp(character, code, player) |
| |
| override def clipboard(value: String, player: EntityPlayer) = |
| proxy.clipboard(value, player) |
| |
| override def mouseDown(x: Double, y: Double, button: Int, player: EntityPlayer) = |
| proxy.mouseDown(x, y, button, player) |
| |
| override def mouseDrag(x: Double, y: Double, button: Int, player: EntityPlayer) = |
| proxy.mouseDrag(x, y, button, player) |
| |
| override def mouseUp(x: Double, y: Double, button: Int, player: EntityPlayer) = |
| proxy.mouseUp(x, y, button, player) |
| |
| override def mouseScroll(x: Double, y: Double, delta: Int, player: EntityPlayer) = |
| proxy.mouseScroll(x, y, delta, player) |
| |
| def copyToAnalyzer(line: Int, player: EntityPlayer): Unit = { |
| proxy.copyToAnalyzer(line, player) |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| override def onConnect(node: Node) { |
| super.onConnect(node) |
| if (node == this.node) { |
| ServerComponentTracker.add(host.world, node.address, this) |
| } |
| } |
| |
| override def onDisconnect(node: Node) { |
| super.onDisconnect(node) |
| if (node == this.node) { |
| ServerComponentTracker.remove(host.world, this) |
| } |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| override def load(nbt: NBTTagCompound) { |
| super.load(nbt) |
| if (SideTracker.isClient) { |
| if (!Strings.isNullOrEmpty(proxy.nodeAddress)) return // Only load once. |
| proxy.nodeAddress = nbt.getCompoundTag("node").getString("address") |
| TextBuffer.registerClientBuffer(this) |
| } |
| else { |
| if (nbt.hasKey("buffer")) { |
| data.load(nbt.getCompoundTag("buffer")) |
| } |
| else if (!Strings.isNullOrEmpty(node.address)) { |
| data.load(SaveHandler.loadNBT(nbt, node.address + "_buffer")) |
| } |
| } |
| |
| if (nbt.hasKey(Settings.namespace + "isOn")) { |
| isDisplaying = nbt.getBoolean(Settings.namespace + "isOn") |
| } |
| if (nbt.hasKey(Settings.namespace + "hasPower")) { |
| hasPower = nbt.getBoolean(Settings.namespace + "hasPower") |
| } |
| if (nbt.hasKey(Settings.namespace + "maxWidth") && nbt.hasKey(Settings.namespace + "maxHeight")) { |
| val maxWidth = nbt.getInteger(Settings.namespace + "maxWidth") |
| val maxHeight = nbt.getInteger(Settings.namespace + "maxHeight") |
| maxResolution = (maxWidth, maxHeight) |
| } |
| precisionMode = nbt.getBoolean(Settings.namespace + "precise") |
| } |
| |
| // Null check for Waila (and other mods that may call this client side). |
| override def save(nbt: NBTTagCompound) = if (node != null) { |
| super.save(nbt) |
| // Happy thread synchronization hack! Here's the problem: GPUs allow direct |
| // calls for modifying screens to give a more responsive experience. This |
| // causes the following problem: when saving, if the screen is saved first, |
| // then the executor runs in parallel and changes the screen *before* the |
| // server thread begins saving that computer, the saved computer will think |
| // it changed the screen, although the saved screen wasn't. To avoid that we |
| // wait for all computers the screen is connected to to finish their current |
| // execution and pausing them (which will make them resume in the next tick |
| // when their update() runs). |
| if (node.network != null) { |
| for (node <- node.network.nodes) node.host match { |
| case computer: tileentity.traits.Computer if !computer.machine.isPaused => |
| computer.machine.pause(0.1) |
| case _ => |
| } |
| } |
| |
| SaveHandler.scheduleSave(host, nbt, node.address + "_buffer", data.save _) |
| nbt.setBoolean(Settings.namespace + "isOn", isDisplaying) |
| nbt.setBoolean(Settings.namespace + "hasPower", hasPower) |
| nbt.setInteger(Settings.namespace + "maxWidth", maxResolution._1) |
| nbt.setInteger(Settings.namespace + "maxHeight", maxResolution._2) |
| nbt.setBoolean(Settings.namespace + "precise", precisionMode) |
| } |
| } |
| |
| object TextBuffer { |
| var clientBuffers = mutable.ListBuffer.empty[TextBuffer] |
| |
| @SubscribeEvent |
| def onChunkUnload(e: ChunkEvent.Unload) { |
| val chunk = e.getChunk |
| clientBuffers = clientBuffers.filter(t => { |
| val blockPos = BlockPosition(t.host) |
| val keep = t.host.world != e.world || !chunk.isAtLocation(blockPos.x >> 4, blockPos.z >> 4) |
| if (!keep) { |
| ClientComponentTracker.remove(t.host.world, t) |
| } |
| keep |
| }) |
| } |
| |
| @SubscribeEvent |
| def onWorldUnload(e: WorldEvent.Unload) { |
| clientBuffers = clientBuffers.filter(t => { |
| val keep = t.host.world != e.world |
| if (!keep) { |
| ClientComponentTracker.remove(t.host.world, t) |
| } |
| keep |
| }) |
| } |
| |
| def registerClientBuffer(t: TextBuffer) { |
| ClientPacketSender.sendTextBufferInit(t.proxy.nodeAddress) |
| ClientComponentTracker.add(t.host.world, t.proxy.nodeAddress, t) |
| clientBuffers += t |
| } |
| |
| abstract class Proxy { |
| def owner: TextBuffer |
| |
| var dirty = false |
| |
| var nodeAddress = "" |
| |
| def markDirty() { |
| dirty = true |
| } |
| |
| def render() = false |
| |
| def onBufferColorChange(): Unit |
| |
| def onBufferCopy(col: Int, row: Int, w: Int, h: Int, tx: Int, ty: Int) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def onBufferDepthChange(depth: ColorDepth): Unit |
| |
| def onBufferFill(col: Int, row: Int, w: Int, h: Int, c: Char) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def onBufferPaletteChange(index: Int): Unit |
| |
| def onBufferResolutionChange(w: Int, h: Int) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def onBufferMaxResolutionChange(w: Int, h: Int) { |
| } |
| |
| def onBufferSet(col: Int, row: Int, s: String, vertical: Boolean) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def onBufferRawSetText(col: Int, row: Int, text: Array[Array[Char]]) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def onBufferRawSetBackground(col: Int, row: Int, color: Array[Array[Int]]) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def onBufferRawSetForeground(col: Int, row: Int, color: Array[Array[Int]]) { |
| owner.relativeLitArea = -1 |
| } |
| |
| def keyDown(character: Char, code: Int, player: EntityPlayer): Unit |
| |
| def keyUp(character: Char, code: Int, player: EntityPlayer): Unit |
| |
| def clipboard(value: String, player: EntityPlayer): Unit |
| |
| def mouseDown(x: Double, y: Double, button: Int, player: EntityPlayer): Unit |
| |
| def mouseDrag(x: Double, y: Double, button: Int, player: EntityPlayer): Unit |
| |
| def mouseUp(x: Double, y: Double, button: Int, player: EntityPlayer): Unit |
| |
| def mouseScroll(x: Double, y: Double, delta: Int, player: EntityPlayer): Unit |
| |
| def copyToAnalyzer(line: Int, player: EntityPlayer): Unit |
| } |
| |
| class ClientProxy(val owner: TextBuffer) extends Proxy { |
| val renderer = new TextBufferRenderData { |
| override def dirty = ClientProxy.this.dirty |
| |
| override def dirty_=(value: Boolean) = ClientProxy.this.dirty = value |
| |
| override def data = owner.data |
| } |
| |
| override def render() = { |
| val wasDirty = dirty |
| TextBufferRenderCache.render(renderer) |
| wasDirty |
| } |
| |
| override def onBufferColorChange() { |
| markDirty() |
| } |
| |
| override def onBufferCopy(col: Int, row: Int, w: Int, h: Int, tx: Int, ty: Int) { |
| super.onBufferCopy(col, row, w, h, tx, ty) |
| markDirty() |
| } |
| |
| override def onBufferDepthChange(depth: ColorDepth) { |
| markDirty() |
| } |
| |
| override def onBufferFill(col: Int, row: Int, w: Int, h: Int, c: Char) { |
| super.onBufferFill(col, row, w, h, c) |
| markDirty() |
| } |
| |
| override def onBufferPaletteChange(index: Int) { |
| markDirty() |
| } |
| |
| override def onBufferResolutionChange(w: Int, h: Int) { |
| super.onBufferResolutionChange(w, h) |
| markDirty() |
| } |
| |
| override def onBufferSet(col: Int, row: Int, s: String, vertical: Boolean) { |
| super.onBufferSet(col, row, s, vertical) |
| dirty = true |
| } |
| |
| override def keyDown(character: Char, code: Int, player: EntityPlayer) { |
| debug(s"{type = keyDown, char = $character, code = $code}") |
| ClientPacketSender.sendKeyDown(nodeAddress, character, code) |
| } |
| |
| override def keyUp(character: Char, code: Int, player: EntityPlayer) { |
| debug(s"{type = keyUp, char = $character, code = $code}") |
| ClientPacketSender.sendKeyUp(nodeAddress, character, code) |
| } |
| |
| override def clipboard(value: String, player: EntityPlayer) { |
| debug(s"{type = clipboard}") |
| ClientPacketSender.sendClipboard(nodeAddress, value) |
| } |
| |
| override def mouseDown(x: Double, y: Double, button: Int, player: EntityPlayer) { |
| debug(s"{type = mouseDown, x = $x, y = $y, button = $button}") |
| ClientPacketSender.sendMouseClick(nodeAddress, x, y, drag = false, button) |
| } |
| |
| override def mouseDrag(x: Double, y: Double, button: Int, player: EntityPlayer) { |
| debug(s"{type = mouseDrag, x = $x, y = $y, button = $button}") |
| ClientPacketSender.sendMouseClick(nodeAddress, x, y, drag = true, button) |
| } |
| |
| override def mouseUp(x: Double, y: Double, button: Int, player: EntityPlayer) { |
| debug(s"{type = mouseUp, x = $x, y = $y, button = $button}") |
| ClientPacketSender.sendMouseUp(nodeAddress, x, y, button) |
| } |
| |
| override def mouseScroll(x: Double, y: Double, delta: Int, player: EntityPlayer) { |
| debug(s"{type = mouseScroll, x = $x, y = $y, delta = $delta}") |
| ClientPacketSender.sendMouseScroll(nodeAddress, x, y, delta) |
| } |
| |
| override def copyToAnalyzer(line: Int, player: EntityPlayer): Unit = { |
| ClientPacketSender.sendCopyToAnalyzer(nodeAddress, line) |
| } |
| |
| private lazy val Debugger = api.Items.get(Constants.ItemName.Debugger) |
| |
| private def debug(message: String) { |
| if (Minecraft.getMinecraft != null && Minecraft.getMinecraft.thePlayer != null && api.Items.get(Minecraft.getMinecraft.thePlayer.getHeldItem) == Debugger) { |
| OpenComputers.log.info(s"[NETWORK DEBUGGER] Sending packet to node $nodeAddress: " + message) |
| } |
| } |
| } |
| |
| class ServerProxy(val owner: TextBuffer) extends Proxy { |
| override def onBufferColorChange() { |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferColorChange(owner.pendingCommands, owner.data.foreground, owner.data.background)) |
| } |
| |
| override def onBufferCopy(col: Int, row: Int, w: Int, h: Int, tx: Int, ty: Int) { |
| super.onBufferCopy(col, row, w, h, tx, ty) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferCopy(owner.pendingCommands, col, row, w, h, tx, ty)) |
| } |
| |
| override def onBufferDepthChange(depth: ColorDepth) { |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferDepthChange(owner.pendingCommands, depth)) |
| } |
| |
| override def onBufferFill(col: Int, row: Int, w: Int, h: Int, c: Char) { |
| super.onBufferFill(col, row, w, h, c) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferFill(owner.pendingCommands, col, row, w, h, c)) |
| } |
| |
| override def onBufferPaletteChange(index: Int) { |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferPaletteChange(owner.pendingCommands, index, owner.getPaletteColor(index))) |
| } |
| |
| override def onBufferResolutionChange(w: Int, h: Int) { |
| super.onBufferResolutionChange(w, h) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferResolutionChange(owner.pendingCommands, w, h)) |
| } |
| |
| override def onBufferMaxResolutionChange(w: Int, h: Int) { |
| if (owner.node.network != null) { |
| super.onBufferMaxResolutionChange(w, h) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferMaxResolutionChange(owner.pendingCommands, w, h)) |
| } |
| } |
| |
| override def onBufferSet(col: Int, row: Int, s: String, vertical: Boolean) { |
| super.onBufferSet(col, row, s, vertical) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferSet(owner.pendingCommands, col, row, s, vertical)) |
| } |
| |
| override def onBufferRawSetText(col: Int, row: Int, text: Array[Array[Char]]) { |
| super.onBufferRawSetText(col, row, text) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferRawSetText(owner.pendingCommands, col, row, text)) |
| } |
| |
| override def onBufferRawSetBackground(col: Int, row: Int, color: Array[Array[Int]]) { |
| super.onBufferRawSetBackground(col, row, color) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferRawSetBackground(owner.pendingCommands, col, row, color)) |
| } |
| |
| override def onBufferRawSetForeground(col: Int, row: Int, color: Array[Array[Int]]) { |
| super.onBufferRawSetForeground(col, row, color) |
| owner.host.markChanged() |
| owner.synchronized(ServerPacketSender.appendTextBufferRawSetForeground(owner.pendingCommands, col, row, color)) |
| } |
| |
| override def keyDown(character: Char, code: Int, player: EntityPlayer) { |
| sendToKeyboards("keyboard.keyDown", player, Char.box(character), Int.box(code)) |
| } |
| |
| override def keyUp(character: Char, code: Int, player: EntityPlayer) { |
| sendToKeyboards("keyboard.keyUp", player, Char.box(character), Int.box(code)) |
| } |
| |
| override def clipboard(value: String, player: EntityPlayer) { |
| sendToKeyboards("keyboard.clipboard", player, value) |
| } |
| |
| override def mouseDown(x: Double, y: Double, button: Int, player: EntityPlayer) { |
| sendMouseEvent(player, "touch", x, y, button) |
| } |
| |
| override def mouseDrag(x: Double, y: Double, button: Int, player: EntityPlayer) { |
| sendMouseEvent(player, "drag", x, y, button) |
| } |
| |
| override def mouseUp(x: Double, y: Double, button: Int, player: EntityPlayer) { |
| sendMouseEvent(player, "drop", x, y, button) |
| } |
| |
| override def mouseScroll(x: Double, y: Double, delta: Int, player: EntityPlayer) { |
| sendMouseEvent(player, "scroll", x, y, delta) |
| } |
| |
| override def copyToAnalyzer(line: Int, player: EntityPlayer): Unit = { |
| val stack = player.getHeldItem |
| if (stack != null) { |
| if (!stack.hasTagCompound) { |
| stack.setTagCompound(new NBTTagCompound()) |
| } |
| stack.getTagCompound.removeTag(Settings.namespace + "clipboard") |
| |
| if (line >= 0 && line < owner.data.height) { |
| val text = new String(owner.data.buffer(line)).trim |
| if (!Strings.isNullOrEmpty(text)) { |
| stack.getTagCompound.setString(Settings.namespace + "clipboard", text) |
| } |
| } |
| |
| if (stack.getTagCompound.hasNoTags) { |
| stack.setTagCompound(null) |
| } |
| } |
| } |
| |
| private def sendMouseEvent(player: EntityPlayer, name: String, x: Double, y: Double, data: Int) = { |
| val args = mutable.ArrayBuffer.empty[AnyRef] |
| |
| args += player |
| args += name |
| if (owner.precisionMode) { |
| args += double2Double(x) |
| args += double2Double(y) |
| } |
| else { |
| args += int2Integer(x.toInt + 1) |
| args += int2Integer(y.toInt + 1) |
| } |
| args += int2Integer(data) |
| if (Settings.get.inputUsername) { |
| args += player.getCommandSenderName |
| } |
| |
| owner.node.sendToReachable("computer.checked_signal", args: _*) |
| } |
| |
| private def sendToKeyboards(name: String, values: AnyRef*) { |
| owner.host match { |
| case screen: tileentity.Screen => |
| screen.screens.foreach(_.node.sendToNeighbors(name, values: _*)) |
| case _ => |
| owner.node.sendToNeighbors(name, values: _*) |
| } |
| } |
| } |
| |
| } |