package appeng.me.cache; import java.util.HashSet; import java.util.Iterator; import java.util.LinkedHashSet; import java.util.Set; import appeng.api.config.AccessRestriction; import appeng.api.config.Actionable; import appeng.api.config.PowerMultiplier; import appeng.api.networking.IGrid; import appeng.api.networking.IGridBlock; import appeng.api.networking.IGridHost; import appeng.api.networking.IGridNode; import appeng.api.networking.IGridStorage; import appeng.api.networking.energy.IAEPowerStorage; import appeng.api.networking.energy.IEnergyGrid; import appeng.api.networking.energy.IEnergyGridProvider; import appeng.api.networking.events.MENetworkEventSubscribe; import appeng.api.networking.events.MENetworkPowerIdleChange; import appeng.api.networking.events.MENetworkPowerStatusChange; import appeng.api.networking.events.MENetworkPowerStorage; import appeng.me.GridNode; public class EnergyGridCache implements IEnergyGrid { /** * estimated power available. */ int availableTicksSinceUpdate = 0; double globalAvailablePower = 0; /** * idle draw. */ double drainPerTick = 0; final double AvgLength = 40.0; double avgDrainPerTick = 0; double avgInjectionPerTick = 0; double tickDrainPerTick = 0; double tickInjectionPerTick = 0; // Double[] totalDrainPastTicks = new Double[] { 0.0, 0.0, 0.0, 0.0, 0.0, // 0.0, 0.0, 0.0, 0.0, 0.0 }; // Double[] totalInjectionPastTicks = new Double[] { 0.0, 0.0, 0.0, 0.0, // 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 }; /** * power status */ boolean publicHasPower = false; boolean hasPower = true; long ticksSinceHasPowerChange = 900; /** * excess power in the system. */ double prev_extra = 0; double extra = 0; IAEPowerStorage lastProvider; Set providers = new LinkedHashSet(); IAEPowerStorage lastRequestor; Set requesters = new LinkedHashSet(); private IAEPowerStorage getFirstRequestor() { if ( lastRequestor == null ) { Iterator i = requesters.iterator(); lastRequestor = i.hasNext() ? i.next() : null; } return lastRequestor; } private IAEPowerStorage getFirstProvider() { if ( lastProvider == null ) { Iterator i = providers.iterator(); lastProvider = i.hasNext() ? i.next() : null; } return lastProvider; } Set gproviders = new LinkedHashSet(); final IGrid myGrid; public EnergyGridCache(IGrid g) { myGrid = g; } @MENetworkEventSubscribe public void EnergyNodeChanges(MENetworkPowerIdleChange ev) { // update power usage based on event. GridNode node = (GridNode) ev.node; IGridBlock gb = node.getGridBlock(); double newDraw = gb.getIdlePowerUsage(); double diffDraw = newDraw - node.previousDraw; node.previousDraw = newDraw; drainPerTick += diffDraw; } @MENetworkEventSubscribe public void EnergyNodeChanges(MENetworkPowerStorage ev) { if ( ev.storage.isAEPublicPowerStorage() ) { switch (ev.type) { case PROVIDE_POWER: if ( ev.storage.getPowerFlow() != AccessRestriction.WRITE ) providers.add( ev.storage ); break; case REQUEST_POWER: if ( ev.storage.getPowerFlow() != AccessRestriction.READ ) requesters.add( ev.storage ); break; } } else { (new RuntimeException( "Attempt to ask the IEnergyGrid to charge a non public energy store." )).printStackTrace(); } } @Override public double getEnergyDemand(double maxRequired) { double required = 0; Iterator it = requesters.iterator(); while (required < maxRequired && it.hasNext()) { IAEPowerStorage node = it.next(); if ( node.getPowerFlow() != AccessRestriction.READ ) required += Math.max( 0.0, node.getAEMaxPower() - node.getAECurrentPower() ); } return required; } @Override public double injectPower(double i, Actionable mode) { i += extra; if ( mode == Actionable.SIMULATE ) { Iterator it = requesters.iterator(); while (i > 0 && it.hasNext()) { IAEPowerStorage node = it.next(); i = node.injectAEPower( i, Actionable.SIMULATE ); } } else { tickInjectionPerTick += i; // totalInjectionPastTicks[0] += i; while (i > 0 && !requesters.isEmpty()) { IAEPowerStorage node = getFirstRequestor(); i = node.injectAEPower( i, Actionable.MODULATE ); if ( i > 0 ) { requesters.remove( node ); lastRequestor = null; } } extra = i; } return i; } Set seen = new HashSet(); @Override public double extractAEPower(double amt, Actionable mode, PowerMultiplier pm) { seen.clear(); return pm.divide( extractAEPower( pm.multiply( amt ), mode, seen ) ); } @Override public void addNode(IGridNode node, IGridHost machine) { if ( machine instanceof IEnergyGridProvider ) gproviders.add( (IEnergyGridProvider) machine ); // idle draw... GridNode gnode = (GridNode) node; IGridBlock gb = gnode.getGridBlock(); gnode.previousDraw = gb.getIdlePowerUsage(); drainPerTick += gnode.previousDraw; // power storage if ( machine instanceof IAEPowerStorage ) { IAEPowerStorage ps = (IAEPowerStorage) machine; if ( ps.isAEPublicPowerStorage() ) { double max = ps.getAEMaxPower(); double current = ps.getAECurrentPower(); if ( current > 0 && ps.getPowerFlow() != AccessRestriction.WRITE ) { globalAvailablePower += ((IAEPowerStorage) machine).getAECurrentPower(); providers.add( ps ); } if ( current < max && ps.getPowerFlow() != AccessRestriction.READ ) requesters.add( ps ); } } myGrid.postEventTo( node, new MENetworkPowerStatusChange() ); } @Override public void removeNode(IGridNode node, IGridHost machine) { if ( machine instanceof IEnergyGridProvider ) gproviders.remove( machine ); // idle draw. GridNode gnode = (GridNode) node; drainPerTick -= gnode.previousDraw; // power storage. if ( machine instanceof IAEPowerStorage ) { IAEPowerStorage ps = (IAEPowerStorage) machine; if ( ps.getPowerFlow() != AccessRestriction.WRITE ) globalAvailablePower -= ps.getAECurrentPower(); if ( lastProvider == machine ) lastProvider = null; if ( lastRequestor == machine ) lastRequestor = null; providers.remove( machine ); requesters.remove( machine ); } } @Override public void onUpdateTick() { avgDrainPerTick *= (AvgLength - 1) / AvgLength; avgInjectionPerTick *= (AvgLength - 1) / AvgLength; avgDrainPerTick += tickDrainPerTick / AvgLength; avgInjectionPerTick += tickInjectionPerTick / AvgLength; tickDrainPerTick = 0; tickInjectionPerTick = 0; // next tick is here... // for (int x = 0; x < totalDrainPastTicks.length - 1; x++) // totalDrainPastTicks[x + 1] = totalDrainPastTicks[x]; // totalDrainPastTicks[0] = 0.0; // for (int x = 0; x < totalInjectionPastTicks.length - 1; x++) // totalInjectionPastTicks[x + 1] = totalInjectionPastTicks[x]; // totalInjectionPastTicks[0] = 0.0; // power information. double drained = extractAEPower( getIdlePowerUsage(), Actionable.MODULATE, PowerMultiplier.CONFIG ); boolean currentlyHasPower = drained >= drainPerTick - 0.1; // ticks since change.. if ( currentlyHasPower == hasPower ) ticksSinceHasPowerChange++; else ticksSinceHasPowerChange = 0; // update status.. hasPower = currentlyHasPower; // update public status, this buffers power ups for 30 ticks. if ( hasPower && ticksSinceHasPowerChange > 30 ) publicPowerState( true, myGrid ); else if ( !hasPower ) publicPowerState( false, myGrid ); availableTicksSinceUpdate++; if ( extra > 32 ) injectPower( 0.0, Actionable.MODULATE ); } private void publicPowerState(boolean newState, IGrid grid) { if ( publicHasPower == newState ) return; publicHasPower = newState; grid.postEvent( new MENetworkPowerStatusChange() ); } /** * refresh current stored power. */ public void refreshPower() { availableTicksSinceUpdate = 0; globalAvailablePower = 0; for (IAEPowerStorage p : providers) globalAvailablePower += p.getAECurrentPower(); } @Override public double getStoredPower() { if ( availableTicksSinceUpdate > 90 ) refreshPower(); return globalAvailablePower; } @Override public double extractAEPower(double amt, Actionable mode, Set seen) { if ( !seen.add( this ) ) return 0; double extractedPower = extra; if ( mode == Actionable.SIMULATE ) { extractedPower += simulateExtract( extractedPower, amt ); if ( extractedPower < amt ) { Iterator i = gproviders.iterator(); while (extractedPower < amt && i.hasNext()) extractedPower += i.next().extractAEPower( amt - extractedPower, mode, seen ); } return extractedPower; } else extractedPower += doExtract( extractedPower, amt ); // got more then we wanted? if ( extractedPower > amt ) { extra = extractedPower - amt; globalAvailablePower -= amt; return amt; } if ( extractedPower < amt ) { Iterator i = gproviders.iterator(); while (extractedPower < amt && i.hasNext()) extractedPower += i.next().extractAEPower( amt - extractedPower, mode, seen ); } // go less or the correct amount? globalAvailablePower -= extractedPower; return extractedPower; } private double doExtract(double extractedPower, double amt) { extra = 0; while (extractedPower < amt && !providers.isEmpty()) { IAEPowerStorage node = getFirstProvider(); double req = amt - extractedPower; double newPower = node.extractAEPower( req, Actionable.MODULATE, PowerMultiplier.ONE ); extractedPower += newPower; if ( newPower < req ) { providers.remove( node ); lastProvider = null; } } tickDrainPerTick += extractedPower; // totalDrainPastTicks[0] += extractedPower; return extractedPower; } private double simulateExtract(double extractedPower, double amt) { Iterator it = providers.iterator(); while (extractedPower < amt && it.hasNext()) { IAEPowerStorage node = it.next(); double req = amt - extractedPower; double newPower = node.extractAEPower( req, Actionable.SIMULATE, PowerMultiplier.ONE ); extractedPower += newPower; } return extractedPower; } @Override public boolean isNetworkPowered() { return publicHasPower; } @Override public double getIdlePowerUsage() { return drainPerTick; } @Override public double getAvgPowerUsage() { return avgDrainPerTick;/* * double out = 0; * * for (double x : totalDrainPastTicks) out += * x; * * return out / totalDrainPastTicks.length; */ } @Override public double getAvgPowerInjection() { return avgInjectionPerTick;/* * double out = 0; * * for (double x : totalInjectionPastTicks) * out += x; * * return out / * totalInjectionPastTicks.length; */ } @Override public void onSplit(IGridStorage storageB) { extra /= 2; storageB.dataObject().setDouble( "extraEnergy", extra ); } @Override public void onJoin(IGridStorage storageB) { extra += storageB.dataObject().getDouble( "extraEnergy" ); } @Override public void populateGridStorage(IGridStorage storage) { storage.dataObject().setDouble( "extraEnergy", this.extra ); } }