package com.planet_ink.coffee_mud.Items.CompTech; import com.planet_ink.coffee_mud.core.interfaces.*; import com.planet_ink.coffee_mud.core.*; import com.planet_ink.coffee_mud.core.collections.*; import com.planet_ink.coffee_mud.Abilities.interfaces.*; import com.planet_ink.coffee_mud.Areas.interfaces.*; import com.planet_ink.coffee_mud.Behaviors.interfaces.*; import com.planet_ink.coffee_mud.CharClasses.interfaces.*; import com.planet_ink.coffee_mud.Commands.interfaces.*; import com.planet_ink.coffee_mud.Common.interfaces.*; import com.planet_ink.coffee_mud.Exits.interfaces.*; import com.planet_ink.coffee_mud.Items.BasicTech.StdElecContainer; import com.planet_ink.coffee_mud.Items.interfaces.*; import com.planet_ink.coffee_mud.Libraries.interfaces.*; import com.planet_ink.coffee_mud.Locales.interfaces.*; import com.planet_ink.coffee_mud.MOBS.interfaces.*; import com.planet_ink.coffee_mud.Races.interfaces.*; import java.util.*; /* Copyright 2013-2019 Bo Zimmerman Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ public class StdElecCompContainer extends StdElecContainer implements TechComponent { @Override public String ID() { return "StdElecCompContainer"; } protected float maxRechargePer = 0; protected float installedFactor = 1.0f; protected volatile String circuitKey = null; public StdElecCompContainer() { super(); setName("a component container"); basePhyStats.setWeight(500); setDisplayText("a component container sits here."); setDescription(""); baseGoldValue=500; setUsesRemaining(100); basePhyStats().setLevel(1); recoverPhyStats(); setMaterial(RawMaterial.RESOURCE_STEEL); this.setRechargeRate(this.powerCapacity()); } @Override public float getInstalledFactor() { return installedFactor; } @Override public void setInstalledFactor(final float pct) { if ((pct >= 0.0) && (pct <= 2.0)) installedFactor = pct; } @Override public boolean subjectToWearAndTear() { return true; } @Override public boolean sameAs(final Environmental E) { if(!(E instanceof StdElecCompContainer)) return false; return super.sameAs(E); } @Override public void setRechargeRate(final float pctCapPer) { this.maxRechargePer = pctCapPer; } @Override public float getRechargeRate() { return maxRechargePer; } @Override public int powerNeeds() { return (int)Math.min((powerCapacity - power), getRechargeRate()); } @Override public void destroy() { if((!destroyed)&&(circuitKey!=null)) { CMLib.tech().unregisterElectronics(this,circuitKey); circuitKey=null; } super.destroy(); } @Override public void setOwner(final ItemPossessor newOwner) { final ItemPossessor prevOwner=super.owner; super.setOwner(newOwner); if(prevOwner != newOwner) { if(newOwner instanceof Room) circuitKey=CMLib.tech().registerElectrics(this,circuitKey); else { CMLib.tech().unregisterElectronics(this,circuitKey); circuitKey=null; } } } @Override protected double getComputedEfficiency() { return super.getComputedEfficiency() * this.getInstalledFactor(); } protected static boolean reportError(final Electronics me, final Software controlI, final MOB mob, final String literalMessage, final String controlMessage) { if((mob!=null) && (mob.location()==CMLib.map().roomLocation(me)) && (literalMessage!=null)) mob.tell(literalMessage); if(controlMessage!=null) { if(controlI!=null) controlI.addScreenMessage(controlMessage); else if((mob!=null)&&(me!=null)) mob.tell(CMLib.lang().L("A panel on @x1 reports '@x2'.",me.name(mob),controlMessage)); } return false; } protected static final boolean isThisPanelActivated(final ElecPanel E) { if(!E.activated()) return false; if(E.container() instanceof ElecPanel) return isThisPanelActivated((ElecPanel)E.container()); return true; } public static final boolean isAllWiringHot(final Electronics E) { if(E instanceof ElecPanel) return isThisPanelActivated((ElecPanel)E); if(E.container() instanceof ElecPanel) return isThisPanelActivated((ElecPanel)E.container()); return E instanceof ShipEngine; // the only thing allowed to be non-paneled } @Override public boolean isInstalled() { if(!CMLib.flags().isGettable(this)) return true; if(this.container() instanceof ElecPanel) return (!CMLib.flags().isGettable(this.container())); if(this.container() instanceof TechComponent) return ((TechComponent)this.container()).isInstalled(); return false; } @Override public boolean okMessage(final Environmental host, final CMMsg msg) { if(msg.amITarget(this)) { switch(msg.targetMinor()) { case CMMsg.TYP_ACTIVATE: if(!isInstalled()) { if(!CMath.bset(msg.targetMajor(), CMMsg.MASK_CNTRLMSG)) msg.source().tell(L("@x1 is not installed or connected.",name())); return false; } else if(!isAllWiringHot(this)) { if(!CMath.bset(msg.targetMajor(), CMMsg.MASK_CNTRLMSG)) msg.source().tell(L("The panel containing @x1 is not activated or connected.",name())); return false; } break; case CMMsg.TYP_DEACTIVATE: break; case CMMsg.TYP_LOOK: break; case CMMsg.TYP_POWERCURRENT: if((!(this instanceof FuelConsumer)) &&(!(this instanceof PowerGenerator)) && activated() && (powerNeeds()>0) && (msg.value()>0)) { double amtToTake=Math.min((double)powerNeeds(), (double)msg.value()); msg.setValue(msg.value()-(int)Math.round(amtToTake)); amtToTake *= getFinalManufacturer().getEfficiencyPct(); if(subjectToWearAndTear() && (usesRemaining()<=200)) amtToTake *= CMath.div(usesRemaining(), 100.0); setPowerRemaining(Math.min(powerCapacity(), Math.round(amtToTake) + powerRemaining())); } break; } } return super.okMessage(host, msg); } @Override public void executeMsg(final Environmental host, final CMMsg msg) { if(msg.amITarget(this)) { switch(msg.targetMinor()) { case CMMsg.TYP_ACTIVATE: if((msg.source().location()!=null)&&(!CMath.bset(msg.targetMajor(), CMMsg.MASK_CNTRLMSG))) msg.source().location().show(msg.source(), this, CMMsg.MSG_OK_VISUAL, L("<S-NAME> activate(s) <T-NAME>.")); this.activate(true); break; case CMMsg.TYP_DEACTIVATE: if((msg.source().location()!=null)&&(!CMath.bset(msg.targetMajor(), CMMsg.MASK_CNTRLMSG))) msg.source().location().show(msg.source(), this, CMMsg.MSG_OK_VISUAL, L("<S-NAME> deactivate(s) <T-NAME>.")); this.activate(false); break; case CMMsg.TYP_LOOK: super.executeMsg(host, msg); if(CMLib.flags().canBeSeenBy(this, msg.source())) msg.source().tell(L("@x1 is currently @x2",name(),(activated()?"connected.\n\r":"deactivated/disconnected.\n\r"))); return; case CMMsg.TYP_REPAIR: if(CMLib.dice().rollPercentage()<msg.value()) { setUsesRemaining(usesRemaining()<100?100:usesRemaining()); msg.source().tell(L("@x1 is now repaired.\n\r",name())); } else { final int repairRequired=100-usesRemaining(); if(repairRequired>0) { int repairApplied=(int)Math.round(CMath.mul(repairRequired, CMath.div(msg.value(), 100))); if(repairApplied < 0) repairApplied=1; setUsesRemaining(usesRemaining()+repairApplied); msg.source().tell(L("@x1 is now @x2% repaired.\n\r",name(),""+usesRemaining())); } } break; case CMMsg.TYP_ENHANCE: if((CMLib.dice().rollPercentage()<msg.value())&&(CMLib.dice().rollPercentage()<50)) { float addAmt=0.01f; if(getInstalledFactor() < 1.0) { addAmt=(float)(CMath.div(100.0, msg.value()) * 0.1); if(addAmt < 0.1f) addAmt=0.1f; } setInstalledFactor(this.getInstalledFactor()+addAmt); msg.source().tell(msg.source(),this,null,L("<T-NAME> is now enhanced.\n\r")); } else { msg.source().tell(msg.source(),this,null,L("Your attempt to enhance <T-NAME> has failed.\n\r")); } break; } } super.executeMsg(host, msg); } }