| package li.cil.oc.common.tileentity |
| |
| import cpw.mods.fml.relauncher.{Side, SideOnly} |
| import li.cil.oc.api.network._ |
| import li.cil.oc.server.{PacketSender => ServerPacketSender} |
| import li.cil.oc.{Settings, api} |
| import net.minecraft.entity.player.EntityPlayer |
| import net.minecraft.nbt.NBTTagCompound |
| import net.minecraft.util.AxisAlignedBB |
| import net.minecraftforge.common.util.ForgeDirection |
| |
| class Hologram(var tier: Int) extends traits.Environment with SidedEnvironment with Analyzable { |
| def this() = this(0) |
| |
| val node = api.Network.newNode(this, Visibility.Network). |
| withComponent("hologram"). |
| withConnector(). |
| create() |
| |
| val width = 3 * 16 |
| |
| val height = 2 * 16 // 32 bit in an int |
| |
| // Layout is: first half is lower bit, second half is higher bit for the |
| // voxels in the cube. This is to retain compatibility with pre 1.3 saves. |
| val volume = new Array[Int](width * width * 2) |
| |
| // Render scale. |
| var scale = 1.0 |
| |
| // Relative number of lit columns (for energy cost). |
| var litRatio = -1.0 |
| |
| // Whether we need to send an update packet/recompile our display list. |
| var dirty = false |
| |
| // Store it here for convenience, this is the number of visible voxel faces |
| // as determined in the last VBO index update. See HologramRenderer. |
| var visibleQuads = 0 |
| |
| // Interval of dirty columns. |
| var dirtyFromX = Int.MaxValue |
| var dirtyUntilX = -1 |
| var dirtyFromZ = Int.MaxValue |
| var dirtyUntilZ = -1 |
| |
| // Time to wait before sending another update packet. |
| var cooldown = 5 |
| |
| var hasPower = true |
| |
| val colorsByTier = Array(Array(0x00FF00), Array(0x0000FF, 0x00FF00, 0xFF0000)) // 0xBBGGRR for rendering convenience |
| |
| // This is a def and not a val for loading (where the tier comes from the nbt and is always 0 here). |
| def colors = colorsByTier(tier) |
| |
| def getColor(x: Int, y: Int, z: Int) = { |
| val lbit = (volume(x + z * width) >>> y) & 1 |
| val hbit = (volume(x + z * width + width * width) >>> y) & 1 |
| lbit | (hbit << 1) |
| } |
| |
| def setColor(x: Int, y: Int, z: Int, value: Int) { |
| if ((value & 3) != getColor(x, y, z)) { |
| val lbit = value & 1 |
| val hbit = (value >>> 1) & 1 |
| volume(x + z * width) = (volume(x + z * width) & ~(1 << y)) | (lbit << y) |
| volume(x + z * width + width * width) = (volume(x + z * width + width * width) & ~(1 << y)) | (hbit << y) |
| setDirty(x, z) |
| } |
| } |
| |
| private def setDirty(x: Int, z: Int) { |
| dirty = true |
| dirtyFromX = math.min(dirtyFromX, x) |
| dirtyUntilX = math.max(dirtyUntilX, x + 1) |
| dirtyFromZ = math.min(dirtyFromZ, z) |
| dirtyUntilZ = math.max(dirtyUntilZ, z + 1) |
| litRatio = -1 |
| } |
| |
| private def resetDirtyFlag() { |
| dirty = false |
| dirtyFromX = Int.MaxValue |
| dirtyUntilX = -1 |
| dirtyFromZ = Int.MaxValue |
| dirtyUntilZ = -1 |
| cooldown = 5 |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| @SideOnly(Side.CLIENT) |
| override def canConnect(side: ForgeDirection) = side == ForgeDirection.DOWN |
| |
| override def sidedNode(side: ForgeDirection) = if (side == ForgeDirection.DOWN) node else null |
| |
| // Override automatic analyzer implementation for sided environments. |
| override def onAnalyze(player: EntityPlayer, side: Int, hitX: Float, hitY: Float, hitZ: Float) = Array(node) |
| |
| // ----------------------------------------------------------------------- // |
| |
| @Callback(doc = """function() -- Clears the hologram.""") |
| def clear(computer: Context, args: Arguments): Array[AnyRef] = this.synchronized { |
| for (i <- 0 until volume.length) volume(i) = 0 |
| ServerPacketSender.sendHologramClear(this) |
| resetDirtyFlag() |
| litRatio = 0 |
| null |
| } |
| |
| @Callback(direct = true, doc = """function(x:number, y:number, z:number):number -- Returns the value for the specified voxel.""") |
| def get(computer: Context, args: Arguments): Array[AnyRef] = this.synchronized { |
| val (x, y, z) = checkCoordinates(args) |
| result(getColor(x, y, z)) |
| } |
| |
| @Callback(direct = true, limit = 256, doc = """function(x:number, y:number, z:number, value:number or boolean) -- Set the value for the specified voxel.""") |
| def set(computer: Context, args: Arguments): Array[AnyRef] = this.synchronized { |
| val (x, y, z) = checkCoordinates(args) |
| val value = checkColor(args, 3) |
| setColor(x, y, z, value) |
| null |
| } |
| |
| @Callback(direct = true, limit = 128, doc = """function(x:number, z:number, height:number, value:number or boolean) -- Fills a column to the specified height.""") |
| def fill(computer: Context, args: Arguments): Array[AnyRef] = this.synchronized { |
| val (x, _, z) = checkCoordinates(args, 0, -1, 1) |
| val height = math.min(32, math.max(0, args.checkInteger(2))) |
| val value = checkColor(args, 3) |
| |
| val lbit = value & 1 |
| val hbit = (value >>> 1) & 1 |
| if (lbit == 0 || height == 0) volume(x + z * width) = 0 |
| else volume(x + z * width) = 0xFFFFFFFF >>> (32 - height) |
| if (hbit == 0 || height == 0) volume(x + z * width + width * width) = 0 |
| else volume(x + z * width + width * width) = 0xFFFFFFFF >>> (32 - height) |
| |
| setDirty(x, z) |
| null |
| } |
| |
| @Callback(doc = """function(x:number, z:number, sx:number, sz:number, tx:number, tz:number) -- Copies an area of columns by the specified translation.""") |
| def copy(computer: Context, args: Arguments): Array[AnyRef] = this.synchronized { |
| val (x, _, z) = checkCoordinates(args, 0, -1, 1) |
| val w = args.checkInteger(2) |
| val h = args.checkInteger(3) |
| val tx = args.checkInteger(4) |
| val tz = args.checkInteger(5) |
| |
| // Anything to do at all? |
| if (w <= 0 || h <= 0) return null |
| if (tx == 0 && tz == 0) return null |
| // 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, x + tx + w - 1)), math.max(0, math.min(width, x + tx))) match { |
| case dx if tx > 0 => dx |
| case dx => dx.swap |
| } |
| val (dz0, dz1) = (math.max(0, math.min(width - 1, z + tz + h - 1)), math.max(0, math.min(width, z + tz))) match { |
| case dz if tz > 0 => dz |
| case dz => dz.swap |
| } |
| val (sx, sz) = (if (tx > 0) -1 else 1, if (tz > 0) -1 else 1) |
| // Copy values to destination rectangle if there source is valid. |
| for (nz <- dz0 to dz1 by sz) { |
| nz - tz match { |
| case oz if oz >= 0 && oz < width => |
| for (nx <- dx0 to dx1 by sx) { |
| nx - tx match { |
| case ox if ox >= 0 && ox < width => |
| volume(nz * width + nx) = volume(oz * width + ox) |
| volume(nz * width + nx + width * width) = volume(oz * width + ox + width * width) |
| case _ => /* Got no source column. */ |
| } |
| } |
| case _ => /* Got no source row. */ |
| } |
| } |
| |
| // Mark target rectangle dirty. |
| setDirty(math.min(dx0, dx1), math.min(dz0, dz1)) |
| setDirty(math.max(dx0, dx1), math.max(dz0, dz1)) |
| |
| // The reasoning here is: it'd take 18 ticks to do the whole are with fills, |
| // so make this slightly more efficient (15 ticks - 0.75 seconds). Make it |
| // 'free' if it's less than 0.25 seconds, i.e. for small copies. |
| val area = (math.max(dx0, dx1) - math.min(dx0, dx1)) * (math.max(dz0, dz1) - math.min(dz0, dz1)) |
| val relativeArea = math.max(0, area / (width * width).toFloat - 0.25) |
| computer.pause(relativeArea) |
| |
| null |
| } |
| |
| @Callback(doc = """function():number -- Returns the render scale of the hologram.""") |
| def getScale(computer: Context, args: Arguments): Array[AnyRef] = { |
| result(scale) |
| } |
| |
| @Callback(doc = """function(value:number) -- Set the render scale. A larger scale consumes more energy.""") |
| def setScale(computer: Context, args: Arguments): Array[AnyRef] = { |
| scale = math.max(0.333333, math.min(Settings.hologramMaxScaleByTier(tier), args.checkDouble(0))) |
| ServerPacketSender.sendHologramScale(this) |
| null |
| } |
| |
| @Callback(direct = true, doc = """function():number -- The color depth supported by the hologram.""") |
| def maxDepth(context: Context, args: Arguments): Array[AnyRef] = { |
| result(tier + 1) |
| } |
| |
| @Callback(doc = """function(index:number):number -- Get the color defined for the specified value.""") |
| def getPaletteColor(computer: Context, args: Arguments): Array[AnyRef] = { |
| val index = args.checkInteger(0) |
| if (index < 1 || index > colors.length) throw new ArrayIndexOutOfBoundsException() |
| // Colors are stored as 0xAABBGGRR for rendering convenience, so convert them. |
| result(convertColor(colors(index - 1))) |
| } |
| |
| @Callback(doc = """function(index:number, value:number):number -- Set the color defined for the specified value.""") |
| def setPaletteColor(computer: Context, args: Arguments): Array[AnyRef] = { |
| val index = args.checkInteger(0) |
| if (index < 1 || index > colors.length) throw new ArrayIndexOutOfBoundsException() |
| val value = args.checkInteger(1) |
| val oldValue = colors(index - 1) |
| // Change byte order here to allow passing stored color to OpenGL "as-is" |
| // (as whole Int, i.e. 0xAABBGGRR, alpha is unused but present for alignment) |
| colors(index - 1) = convertColor(value) |
| ServerPacketSender.sendHologramColor(this, index - 1, value) |
| result(oldValue) |
| } |
| |
| private def checkCoordinates(args: Arguments, idxX: Int = 0, idxY: Int = 1, idxZ: Int = 2) = { |
| val x = if (idxX >= 0) args.checkInteger(idxX) - 1 else 0 |
| if (x < 0 || x >= width) throw new ArrayIndexOutOfBoundsException("x") |
| val y = if (idxY >= 0) args.checkInteger(idxY) - 1 else 0 |
| if (y < 0 || y >= height) throw new ArrayIndexOutOfBoundsException("y") |
| val z = if (idxZ >= 0) args.checkInteger(idxZ) - 1 else 0 |
| if (z < 0 || z >= width) throw new ArrayIndexOutOfBoundsException("z") |
| (x, y, z) |
| } |
| |
| private def checkColor(args: Arguments, index: Int) = { |
| val value = |
| if (args.isBoolean(index)) |
| if (args.checkBoolean(index)) 1 else 0 |
| else |
| args.checkInteger(index) |
| if (value < 0 || value > colors.length) throw new IllegalArgumentException("invalid value") |
| value |
| } |
| |
| private def convertColor(color: Int) = { |
| ((color & 0x0000FF) << 16) | (color & 0x00FF00) | ((color & 0xFF0000) >>> 16) |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| override def canUpdate = isServer |
| |
| override def updateEntity() { |
| super.updateEntity() |
| if (isServer) { |
| if (dirty) { |
| cooldown -= 1 |
| if (cooldown <= 0) this.synchronized { |
| ServerPacketSender.sendHologramSet(this) |
| resetDirtyFlag() |
| } |
| } |
| if (world.getWorldTime % Settings.get.tickFrequency == 0) { |
| if (litRatio < 0) this.synchronized { |
| litRatio = 0 |
| for (i <- 0 until volume.length) { |
| if (volume(i) != 0) litRatio += 1 |
| } |
| litRatio /= volume.length |
| } |
| |
| val hadPower = hasPower |
| val neededPower = Settings.get.hologramCost * litRatio * scale * Settings.get.tickFrequency |
| hasPower = node.tryChangeBuffer(-neededPower) |
| if (hasPower != hadPower) { |
| ServerPacketSender.sendHologramPowerChange(this) |
| } |
| } |
| } |
| } |
| |
| // ----------------------------------------------------------------------- // |
| |
| override def shouldRenderInPass(pass: Int) = pass == 1 |
| |
| override def getMaxRenderDistanceSquared = scale / Settings.hologramMaxScaleByTier.max * Settings.get.hologramRenderDistance * Settings.get.hologramRenderDistance |
| |
| def getFadeStartDistanceSquared = scale / Settings.hologramMaxScaleByTier.max * Settings.get.hologramFadeStartDistance * Settings.get.hologramFadeStartDistance |
| |
| override def getRenderBoundingBox = AxisAlignedBB.getBoundingBox(xCoord + 0.5 - 1.5 * scale, yCoord, zCoord - scale, xCoord + 0.5 + 1.5 * scale, yCoord + 0.25 + 2 * scale, zCoord + 0.5 + 1.5 * scale) |
| |
| // ----------------------------------------------------------------------- // |
| |
| override def readFromNBT(nbt: NBTTagCompound) { |
| tier = nbt.getByte(Settings.namespace + "tier") max 0 min 1 |
| super.readFromNBT(nbt) |
| nbt.getIntArray(Settings.namespace + "volume").copyToArray(volume) |
| nbt.getIntArray(Settings.namespace + "colors").map(convertColor).copyToArray(colors) |
| scale = nbt.getDouble(Settings.namespace + "scale") |
| } |
| |
| override def writeToNBT(nbt: NBTTagCompound) = this.synchronized { |
| nbt.setByte(Settings.namespace + "tier", tier.toByte) |
| super.writeToNBT(nbt) |
| nbt.setIntArray(Settings.namespace + "volume", volume) |
| nbt.setIntArray(Settings.namespace + "colors", colors.map(convertColor)) |
| nbt.setDouble(Settings.namespace + "scale", scale) |
| } |
| |
| @SideOnly(Side.CLIENT) |
| override def readFromNBTForClient(nbt: NBTTagCompound) { |
| super.readFromNBTForClient(nbt) |
| nbt.getIntArray("volume").copyToArray(volume) |
| nbt.getIntArray("colors").copyToArray(colors) |
| scale = nbt.getDouble("scale") |
| hasPower = nbt.getBoolean("hasPower") |
| } |
| |
| override def writeToNBTForClient(nbt: NBTTagCompound) { |
| super.writeToNBTForClient(nbt) |
| nbt.setIntArray("volume", volume) |
| nbt.setIntArray("colors", colors) |
| nbt.setDouble("scale", scale) |
| nbt.setBoolean("hasPower", hasPower) |
| } |
| } |