diff options
Diffstat (limited to 'src/main/java/Ic2ExpReactorPlanner/AutomationSimulator.java')
| -rw-r--r-- | src/main/java/Ic2ExpReactorPlanner/AutomationSimulator.java | 691 |
1 files changed, 691 insertions, 0 deletions
diff --git a/src/main/java/Ic2ExpReactorPlanner/AutomationSimulator.java b/src/main/java/Ic2ExpReactorPlanner/AutomationSimulator.java new file mode 100644 index 0000000000..729642e837 --- /dev/null +++ b/src/main/java/Ic2ExpReactorPlanner/AutomationSimulator.java @@ -0,0 +1,691 @@ +package Ic2ExpReactorPlanner; + +import java.text.DecimalFormat; +import java.util.ArrayList; +import java.util.List; + +import Ic2ExpReactorPlanner.components.ReactorItem; +import gtPlusPlus.api.objects.Logger; +import gtPlusPlus.core.util.math.MathUtils; +import gtPlusPlus.xmod.gregtech.common.tileentities.misc.GT_TileEntity_ComputerCube; + +/** + * + * @author Brian McCloud + */ +public class AutomationSimulator { + + private final Reactor reactor; + + private final ArrayList<String> output; + + private final GT_TileEntity_ComputerCube mReactor; + + private final boolean[][] needsCooldown = new boolean[6][9]; + + private final int initialHeat; + + private double minEUoutput = Double.MAX_VALUE; + private double maxEUoutput = 0.0; + private double minHeatOutput = Double.MAX_VALUE; + private double maxHeatOutput = 0.0; + + private final int onPulseDuration; + private final int offPulseDuration; + private final int clockPeriod; + private final int suspendTemp; + private final int resumeTemp; + private final int maxSimulationTicks; + + private boolean reachedBelow50; + private boolean reachedBurn; + private boolean reachedEvaporate; + private boolean reachedHurt; + private boolean reachedLava; + private boolean reachedExplode; + + private boolean allFuelRodsDepleted = false; + private boolean componentsIntact = true; + private boolean anyRodsDepleted = false; + + private int activeTime = 0; + private int inactiveTime = 0; + private int currentActiveTime = 0; + private int minActiveTime = Integer.MAX_VALUE; + private int maxActiveTime = 0; + private int currentInactiveTime = 0; + private int minInactiveTime = Integer.MAX_VALUE; + private int maxInactiveTime = 0; + + private double totalHullHeating = 0; + private double totalComponentHeating = 0; + private double totalHullCooling = 0; + private double totalVentCooling = 0; + + private boolean showHeatingCoolingCalled = false; + + private boolean active = true; + + private int pauseTimer = 0; + + private int redstoneUsed = 0; + + private int lapisUsed = 0; + + + private boolean completed = false; + + private boolean mRunning = false; + private static final DecimalFormat DECIMAL_FORMAT = new DecimalFormat("#,##0.##"); + + private final SimulationData data = new SimulationData(); + public SimulationData getData() { + if (completed) { + return data; + } + return null; + } + + public AutomationSimulator(final Reactor reactor, final ArrayList<String> output2, final GT_TileEntity_ComputerCube aTile) { + this.reactor = reactor; + this.output = output2; + this.mReactor = aTile; + this.initialHeat = (int) reactor.getCurrentHeat(); + this.onPulseDuration = reactor.getOnPulse(); + this.offPulseDuration = reactor.getOffPulse(); + this.clockPeriod = onPulseDuration + offPulseDuration; + this.suspendTemp = reactor.getSuspendTemp(); + this.resumeTemp = reactor.getResumeTemp(); + this.maxSimulationTicks = reactor.getMaxSimulationTicks(); + } + + public void process() { + + mRunning = true; + completed = false; + long startTime = System.nanoTime(); + int reactorTicks = 0; + int cooldownTicks = 0; + int totalRodCount = 0; + + publish(""); // NOI18N + publish("Simulation.Started"); + reactor.setCurrentHeat(initialHeat); + reactor.clearVentedHeat(); + double minReactorHeat = initialHeat; + double maxReactorHeat = initialHeat; + reachedBelow50 = false; + reachedBurn = initialHeat >= 0.4 * reactor.getMaxHeat(); + reachedEvaporate = initialHeat >= 0.5 * reactor.getMaxHeat(); + reachedHurt = initialHeat >= 0.7 * reactor.getMaxHeat(); + reachedLava = initialHeat >= 0.85 * reactor.getMaxHeat(); + reachedExplode = false; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null) { + component.clearCurrentHeat(); + component.clearDamage(); + totalRodCount += component.getRodCount(); + } + publish(String.format("R%dC%d:0xC0C0C0", row, col)); // NOI18N + } + } + data.totalRodCount = totalRodCount; + double lastEUoutput = 0.0; + double totalEUoutput = 0.0; + double lastHeatOutput = 0.0; + double totalHeatOutput = 0.0; + double maxGeneratedHeat = 0.0; + double explosionPower = 10.0; + allFuelRodsDepleted = false; + componentsIntact = true; + anyRodsDepleted = false; + Logger.INFO("Reactor Current Heat: "+reactor.getCurrentHeat()); + Logger.INFO("Reactor Max Heat: "+reactor.getMaxHeat()); + Logger.INFO("Least EU Output: "+lastEUoutput); + Logger.INFO("Least Heat Output: "+lastHeatOutput); + Logger.INFO("Reactor Max Ticks: "+maxSimulationTicks); + Logger.INFO("All Fuel Depleted: "+allFuelRodsDepleted); + Logger.INFO("Running: "+isRunning()); + Logger.INFO("Stopped: "+hasStopped()); + while (reactor.getCurrentHeat() < reactor.getMaxHeat() && (!allFuelRodsDepleted || lastEUoutput > 0 || lastHeatOutput > 0) && reactorTicks < maxSimulationTicks && isRunning()) { + //Logger.INFO("Reactor Tick: "+reactorTicks); + reactorTicks++; + reactor.clearEUOutput(); + reactor.clearVentedHeat(); + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null) { + component.preReactorTick(); + } + } + } + if (active) { + allFuelRodsDepleted = true; // assume rods depleted until one is + // found that isn't. + } + double generatedHeat = 0.0; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null && !component.isBroken()) { + if (allFuelRodsDepleted && component.getRodCount() > 0) { + allFuelRodsDepleted = false; + } + if (active) { + generatedHeat += component.generateHeat(); + } + component.dissipate(); + component.transfer(); + } + } + } + maxReactorHeat = Math.max(reactor.getCurrentHeat(), maxReactorHeat); + minReactorHeat = Math.min(reactor.getCurrentHeat(), minReactorHeat); + checkReactorTemperature(reactorTicks); + maxGeneratedHeat = Math.max(generatedHeat, maxGeneratedHeat); + if (active) { + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null && !component.isBroken()) { + component.generateEnergy(); + } + } + } + } + lastEUoutput = reactor.getCurrentEUoutput(); + totalEUoutput += lastEUoutput; + lastHeatOutput = reactor.getVentedHeat(); + totalHeatOutput += lastHeatOutput; + if (reactor.getCurrentHeat() <= reactor.getMaxHeat()) { + if (reactor.isPulsed() || reactor.isAutomated()) { + if (active) { + activeTime++; + currentActiveTime++; + if (reactor.isPulsed() && (reactor.getCurrentHeat() >= suspendTemp || (reactorTicks % clockPeriod) >= onPulseDuration)) { + active = false; + minActiveTime = Math.min(currentActiveTime, minActiveTime); + maxActiveTime = Math.max(currentActiveTime, maxActiveTime); + currentActiveTime = 0; + } + } + else { + inactiveTime++; + currentInactiveTime++; + if (reactor.isAutomated() && pauseTimer > 0) { + pauseTimer--; + } + else if ((reactor.isPulsed() && reactor.getCurrentHeat() <= resumeTemp && (reactorTicks % clockPeriod) < onPulseDuration)) { + active = true; + minInactiveTime = Math.min(currentInactiveTime, minInactiveTime); + maxInactiveTime = Math.max(currentInactiveTime, maxInactiveTime); + currentInactiveTime = 0; + } + } + } + minEUoutput = Math.min(lastEUoutput, minEUoutput); + maxEUoutput = Math.max(lastEUoutput, maxEUoutput); + minHeatOutput = Math.min(lastHeatOutput, minHeatOutput); + maxHeatOutput = Math.max(lastHeatOutput, maxHeatOutput); + } + calculateHeatingCooling(reactorTicks); + handleAutomation(reactorTicks); + + } + + if (hasStopped()) { + publish("Simulation.CancelledAtTick", reactorTicks); + } + data.minTemp = (int) minReactorHeat; + data.maxTemp = (int) maxReactorHeat; + publish("Simulation.ReactorMinTemp", minReactorHeat); + publish("Simulation.ReactorMaxTemp", maxReactorHeat); + if (reactor.getCurrentHeat() < reactor.getMaxHeat()) { + publish("Simulation.TimeWithoutExploding", reactorTicks); + if (reactor.isPulsed()) { + String rangeString = ""; + if (maxActiveTime > minActiveTime) { + rangeString = rangeString("Simulation.ActiveTimeRange", minActiveTime, maxActiveTime); + } + else if (minActiveTime < activeTime) { + rangeString = "Simulation.ActiveTimeSingle "+minActiveTime; + } + publish("Simulation.ActiveTime", activeTime, rangeString); + rangeString = ""; + if (maxInactiveTime > minInactiveTime) { + rangeString = rangeString("Simulation.InactiveTimeRange", minInactiveTime, maxInactiveTime); + } + else if (minInactiveTime < inactiveTime) { + rangeString = "Simulation.InactiveTimeSingle " + minInactiveTime; + } + publish("Simulation.InactiveTime", inactiveTime, rangeString); + } + + if (reactorTicks > 0) { + data.totalReactorTicks = reactorTicks; + if (reactor.isFluid()) { + data.totalHUoutput = (int) (40 * totalHeatOutput); + data.avgHUoutput = (int) (2 * totalHeatOutput / reactorTicks); + data.minHUoutput = 2 * minHeatOutput; + data.maxHUoutput = (int) (2 * maxHeatOutput); + if (totalHeatOutput > 0) { + publish("Simulation.HeatOutputs", DECIMAL_FORMAT.format(40 * totalHeatOutput), DECIMAL_FORMAT.format(2 * totalHeatOutput / reactorTicks), DECIMAL_FORMAT.format(2 + * minHeatOutput), DECIMAL_FORMAT.format(2 * maxHeatOutput)); + if (totalRodCount > 0) { + publish("Simulation.Efficiency", totalHeatOutput / reactorTicks / 4 / totalRodCount, minHeatOutput / 4 / totalRodCount, maxHeatOutput / 4 / totalRodCount); + } + } + } + else { + data.totalEUoutput = (int) totalEUoutput; + data.avgEUoutput = MathUtils.roundToClosestInt(Math.ceil(totalEUoutput / (reactorTicks * 20))); + data.minEUoutput = minEUoutput / 20.0; + data.maxEUoutput = (int) (maxEUoutput / 20.0); + if (totalEUoutput > 0) { + publish("Simulation.EUOutputs", DECIMAL_FORMAT.format(totalEUoutput), DECIMAL_FORMAT.format(totalEUoutput / (reactorTicks * 20)), DECIMAL_FORMAT.format(minEUoutput + / 20.0), DECIMAL_FORMAT.format(maxEUoutput / 20.0)); + if (totalRodCount > 0) { + publish("Simulation.Efficiency", totalEUoutput / reactorTicks / 100 / totalRodCount, minEUoutput / 100 / totalRodCount, maxEUoutput / 100 / totalRodCount); + } + } + } + } + + if (reactor.getCurrentHeat() > 0.0) { + publish("Simulation.ReactorRemainingHeat", reactor.getCurrentHeat()); + } + double prevReactorHeat = reactor.getCurrentHeat(); + double prevTotalComponentHeat = 0.0; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null && !component.isBroken()) { + if (component.getCurrentHeat() > 0.0) { + prevTotalComponentHeat += component.getCurrentHeat(); + publish(String.format("R%dC%d:0xFFA500", row, col)); // NOI18N + component.info.append("ComponentInfo.RemainingHeat " + component.getCurrentHeat()); + } + } + } + } + if (prevReactorHeat == 0.0 && prevTotalComponentHeat == 0.0) { + publish("Simulation.NoCooldown"); + } + else if (reactor.getCurrentHeat() < reactor.getMaxHeat()) { + double currentTotalComponentHeat = prevTotalComponentHeat; + int reactorCooldownTime = 0; + do { + reactor.clearVentedHeat(); + prevReactorHeat = reactor.getCurrentHeat(); + if (prevReactorHeat == 0.0) { + reactorCooldownTime = cooldownTicks; + } + prevTotalComponentHeat = currentTotalComponentHeat; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null && !component.isBroken()) { + component.dissipate(); + component.transfer(); + } + } + } + lastHeatOutput = reactor.getVentedHeat(); + totalHeatOutput += lastHeatOutput; + minEUoutput = Math.min(lastEUoutput, minEUoutput); + maxEUoutput = Math.max(lastEUoutput, maxEUoutput); + minHeatOutput = Math.min(lastHeatOutput, minHeatOutput); + maxHeatOutput = Math.max(lastHeatOutput, maxHeatOutput); + cooldownTicks++; + currentTotalComponentHeat = 0.0; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null && !component.isBroken()) { + currentTotalComponentHeat += component.getCurrentHeat(); + if (component.getCurrentHeat() == 0.0 && needsCooldown[row][col]) { + component.info.append("ComponentInfo.CooldownTime " + cooldownTicks); + needsCooldown[row][col] = false; + } + } + } + } + } + while (lastHeatOutput > 0 && cooldownTicks < 50000); + if (reactor.getCurrentHeat() < reactor.getMaxHeat()) { + if (reactor.getCurrentHeat() == 0.0) { + publish("Simulation.ReactorCooldownTime", reactorCooldownTime); + } + else if (reactorCooldownTime > 0) { + publish("Simulation.ReactorResidualHeat", reactor.getCurrentHeat(), reactorCooldownTime); + } + publish("Simulation.TotalCooldownTime", cooldownTicks); + } + } + } + else { + publish("Simulation.ReactorOverheatedTime", reactorTicks); + explosionPower = 10.0; + double explosionPowerMult = 1.0; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null) { + explosionPower += component.getExplosionPowerOffset(); + explosionPowerMult *= component.getExplosionPowerMultiplier(); + } + } + } + explosionPower *= explosionPowerMult; + publish("Simulation.ExplosionPower", explosionPower); + } + double totalEffectiveVentCooling = 0.0; + double totalVentCoolingCapacity = 0.0; + double totalCellCooling = 0.0; + double totalCondensatorCooling = 0.0; + + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null) { + if (component.getVentCoolingCapacity() > 0) { + component.info.append("ComponentInfo.UsedCooling " + component.getBestVentCooling() + " | " + component.getVentCoolingCapacity()); + totalEffectiveVentCooling += component.getBestVentCooling(); + totalVentCoolingCapacity += component.getVentCoolingCapacity(); + } + else if (component.getBestCellCooling() > 0) { + component.info.append("ComponentInfo.ReceivedHeat " + component.getBestCellCooling()); + totalCellCooling += component.getBestCellCooling(); + } + else if (component.getBestCondensatorCooling() > 0) { + component.info.append("ComponentInfo.ReceivedHeat " + component.getBestCondensatorCooling()); + totalCondensatorCooling += component.getBestCondensatorCooling(); + } + else if (component.getMaxHeatGenerated() > 0) { + if (!reactor.isFluid() && component.getMaxEUGenerated() > 0) { + component.info.append("ComponentInfo.GeneratedEU " + component.getMinEUGenerated() + " | " + component.getMaxEUGenerated()); + } + component.info.append("ComponentInfo.GeneratedHeat " + component.getMinHeatGenerated() + " | " + component.getMaxHeatGenerated()); + } + if (component.getMaxReachedHeat() > 0) { + component.info.append("ComponentInfo.ReachedHeat " + component.getMaxReachedHeat() + " | " + component.getMaxHeat()); + } + } + } + } + + // if (totalVentCoolingCapacity > 0) { + // publish("Simulation.TotalVentCooling", + // totalEffectiveVentCooling, totalVentCoolingCapacity); + // } + showHeatingCooling(reactorTicks); // Call to show this info in case it + // hasn't already been shown, such + // as for an automated reactor. + if (totalCellCooling > 0) { + publish("Simulation.TotalCellCooling", totalCellCooling); + } + if (totalCondensatorCooling > 0) { + publish("Simulation.TotalCondensatorCooling", totalCondensatorCooling); + } + if (maxGeneratedHeat > 0) { + publish("Simulation.MaxHeatGenerated", maxGeneratedHeat); + } + if (redstoneUsed > 0) { + publish("Simulation.RedstoneUsed", redstoneUsed); + } + if (lapisUsed > 0) { + publish("Simulation.LapisUsed", lapisUsed); + } + // double totalCooling = totalEffectiveVentCooling + totalCellCooling + + // totalCondensatorCooling; + // if (totalCooling >= maxGeneratedHeat) { + // publish("Simulation.ExcessCooling", totalCooling - + // maxGeneratedHeat); + // } else { + // publish("Simulation.ExcessHeating", maxGeneratedHeat - + // totalCooling); + // } + // return null; + + /* catch (Throwable e) { + if (cooldownTicks == 0) { + publish("Simulation.ErrorReactor", reactorTicks); + } else { + publish("Simulation.ErrorCooldown", cooldownTicks); + } + publish(e.toString(), " ", Arrays.toString(e.getStackTrace()); // NO18N + + }*/ + data.explosionPower = (int) explosionPower; + data.totalReactorTicks = reactorTicks; + long endTime = System.nanoTime(); + publish("Simulation.ElapsedTime", (endTime - startTime) / 1e9); + mRunning = false; + completed = true; + } + + + public boolean hasStopped() { + return !mRunning; + } + + public boolean isRunning() { + return mRunning; + } + + private void handleAutomation(final int reactorTicks) { + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null && reactor.isAutomated()) { + if (component.getMaxHeat() > 1) { + if (component.getAutomationThreshold() > component.getInitialHeat() && component.getCurrentHeat() >= component.getAutomationThreshold()) { + component.clearCurrentHeat(); + component.info.append("ComponentInfo.ReplacedTime | " + reactorTicks); + if (component.getReactorPause() > 0) { + active = false; + pauseTimer = Math.max(pauseTimer, component.getReactorPause()); + minActiveTime = Math.min(currentActiveTime, minActiveTime); + maxActiveTime = Math.max(currentActiveTime, maxActiveTime); + currentActiveTime = 0; + } + } + else if (component.getAutomationThreshold() < component.getInitialHeat() && component.getCurrentHeat() <= component.getAutomationThreshold()) { + component.clearCurrentHeat(); + component.info.append("ComponentInfo.ReplacedTime | " +reactorTicks); + if (component.getReactorPause() > 0) { + active = false; + pauseTimer = Math.max(pauseTimer, component.getReactorPause()); + minActiveTime = Math.min(currentActiveTime, minActiveTime); + maxActiveTime = Math.max(currentActiveTime, maxActiveTime); + currentActiveTime = 0; + } + } + } + else if (component.isBroken() || (component.getMaxDamage() > 1 && component.getCurrentDamage() >= component.getAutomationThreshold())) { + component.clearDamage(); + component.info.append("ComponentInfo.ReplacedTime | " +reactorTicks); + if (component.getReactorPause() > 0) { + active = false; + pauseTimer = Math.max(pauseTimer, component.getReactorPause()); + minActiveTime = Math.min(currentActiveTime, minActiveTime); + maxActiveTime = Math.max(currentActiveTime, maxActiveTime); + currentActiveTime = 0; + } + } + } + if (reactor.isUsingReactorCoolantInjectors() && component != null && component.needsCoolantInjected()) { + component.injectCoolant(); + if ("rshCondensator".equals(component.baseName)) { + redstoneUsed++; + } + else if ("lzhCondensator".equals(component.baseName)) { + lapisUsed++; + } + } + } + } + } + + private void checkReactorTemperature(final int reactorTicks) { + if (reactor.getCurrentHeat() < 0.5 * reactor.getMaxHeat() && !reachedBelow50 && reachedEvaporate) { + publish("Simulation.TimeToBelow50", reactorTicks); + reachedBelow50 = true; + data.timeToBelow50 = reactorTicks; + } + if (reactor.getCurrentHeat() >= 0.4 * reactor.getMaxHeat() && !reachedBurn) { + publish("Simulation.TimeToBurn", reactorTicks); + reachedBurn = true; + data.timeToBurn = reactorTicks; + } + if (reactor.getCurrentHeat() >= 0.5 * reactor.getMaxHeat() && !reachedEvaporate) { + publish("Simulation.TimeToEvaporate", reactorTicks); + reachedEvaporate = true; + data.timeToEvaporate = reactorTicks; + } + if (reactor.getCurrentHeat() >= 0.7 * reactor.getMaxHeat() && !reachedHurt) { + publish("Simulation.TimeToHurt", reactorTicks); + reachedHurt = true; + data.timeToHurt = reactorTicks; + } + if (reactor.getCurrentHeat() >= 0.85 * reactor.getMaxHeat() && !reachedLava) { + publish("Simulation.TimeToLava", reactorTicks); + reachedLava = true; + data.timeToLava = reactorTicks; + } + if (reactor.getCurrentHeat() >= reactor.getMaxHeat() && !reachedExplode) { + publish("Simulation.TimeToXplode", reactorTicks); + reachedExplode = true; + data.timeToXplode = reactorTicks; + } + } + + private void calculateHeatingCooling(final int reactorTicks) { + if (reactorTicks > 20) { + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null) { + totalHullHeating += component.getCurrentHullHeating(); + totalComponentHeating += component.getCurrentComponentHeating(); + totalHullCooling += component.getCurrentHullCooling(); + totalVentCooling += component.getCurrentVentCooling(); + } + } + } + } + } + + private void showHeatingCooling(final int reactorTicks) { + if (!showHeatingCoolingCalled) { + showHeatingCoolingCalled = true; + if (reactorTicks >= 40) { + double totalHullCoolingCapacity = 0; + double totalVentCoolingCapacity = 0; + for (int row = 0; row < 6; row++) { + for (int col = 0; col < 9; col++) { + ReactorItem component = reactor.getComponentAt(row, col); + if (component != null) { + totalHullCoolingCapacity += component.getHullCoolingCapacity(); + totalVentCoolingCapacity += component.getVentCoolingCapacity(); + } + } + } + data.hullHeating = totalHullHeating / (reactorTicks - 20); + data.componentHeating = totalComponentHeating / (reactorTicks - 20); + data.hullCooling = totalHullCooling / (reactorTicks - 20); + data.hullCoolingCapacity = totalHullCoolingCapacity; + data.ventCooling = totalVentCooling / (reactorTicks - 20); + data.ventCoolingCapacity = totalVentCoolingCapacity; + if (totalHullHeating > 0) { + publish("Simulation.HullHeating", totalHullHeating / (reactorTicks - 20)); + } + if (totalComponentHeating > 0) { + publish("Simulation.ComponentHeating", totalComponentHeating / (reactorTicks - 20)); + } + if (totalHullCoolingCapacity > 0) { + publish("Simulation.HullCooling | " +totalHullCooling / (reactorTicks - 20), totalHullCoolingCapacity); + } + if (totalVentCoolingCapacity > 0) { + publish("Simulation.VentCooling | " +totalVentCooling / (reactorTicks - 20), totalVentCoolingCapacity); + } + } + } + } + + private void publish(String string, double currentHeat, int reactorCooldownTime) { + publish(string + " | "+currentHeat+" | "+reactorCooldownTime); + } + + private void publish(String string, double d, double e, double f) { + publish(string + " | "+d+" | "+e+" | "+f); + } + + private void publish(String string, String format, String format2, String format3, String format4) { + publish(string + " | "+format+" | "+format2+" | "+format3+" | "+format4); + } + + private void publish(String string, int activeTime2, String rangeString) { + publish(string + " | "+activeTime2+" | "+rangeString); + } + + private void publish(String aString, double aData) { + publish(aString+":"+aData); + } + + private void publish(String aString, long aData) { + publish(aString+":"+aData); + } + + private void publish(String aString) { + output.add(aString); + } + + private String rangeString(String string, int aMin, int aMax) { + return string+" ("+aMin+"-"+aMax+")"; + } + + + protected void process(List<String> chunks) { + /* + for (String chunk : chunks) { + if (chunk.isEmpty()) { + output.add(""); // NO18N + } + else { + if (chunk.matches("R\\dC\\d:.*")) { // NO18N + String temp = chunk.substring(5); + int row = chunk.charAt(1) - '0'; + int col = chunk.charAt(3) - '0'; + if (temp.startsWith("0x")) { // NO18N + mReactorComponents[row][col].setBackground(Color.decode(temp)); + if ("0xC0C0C0".equals(temp)) { + mReactorComponents[row][col].setToolTipText(null); + } + else if ("0xFF0000".equals(temp)) { + mReactorComponents[row][col].setToolTipText(getI18n("ComponentTooltip.Broken")); + } + else if ("0xFFA500".equals(temp)) { + mReactorComponents[row][col].setToolTipText(getI18n("ComponentTooltip.ResidualHeat")); + } + } + } + else { + output.add(chunk); + } + } + } + */ + } + + public void cancel() { + Logger.INFO("Stopping Simulation."); + mRunning = false; + completed = true; + } + + +} |