mmb.content.electric.machines.ProcessorAbstractBlock Maven / Gradle / Ivy
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Dependency for the MultiMachineBuilder, a voxel game about building an industrial empire in a finite world.
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/**
*
*/
package mmb.content.electric.machines;
import com.fasterxml.jackson.databind.JsonNode;
import com.fasterxml.jackson.databind.node.ObjectNode;
import mmb.NN;
import mmb.Nil;
import mmb.cgui.BlockActivateListener;
import mmb.content.electric.Battery;
import mmb.content.electric.Electricity;
import mmb.content.electric.VoltageTier;
import mmb.content.electric.helper.Helper;
import mmb.data.variables.ListenableBoolean;
import mmb.content.electric.ElectricMachineGroup.ElectroMachineType;
import mmb.engine.block.BlockEntityRotary;
import mmb.engine.block.BlockEntry;
import mmb.engine.inv.Inventories;
import mmb.engine.inv.Inventory;
import mmb.engine.inv.io.InventoryReader;
import mmb.engine.inv.io.InventoryWriter;
import mmb.engine.inv.storage.SimpleInventory;
import mmb.engine.inv.storage.SingleItemInventory;
import mmb.engine.rotate.RotatedImageGroup;
import mmb.engine.rotate.Side;
import mmb.engine.worlds.MapProxy;
import mmb.engine.worlds.world.World;
import mmb.menu.world.window.WorldWindow;
/**
* Abstract implementation of ALL electric processing machines
* @author oskar
*/
public abstract class ProcessorAbstractBlock extends BlockEntityRotary implements ElectroMachine, BlockActivateListener{
//Constructors
/**
* Constructs base components of a machine
* @param type block type
*/
protected ProcessorAbstractBlock(ElectroMachineType type) {
super();
elec = new Battery(20, 400, this, type.volt);
this.type = type;
}
//Contents
/** The input inventory */
@NN public final SimpleInventory in = new SimpleInventory();
/** Internal output inventory for recipe processors */
@NN protected final SimpleInventory out0 = new SimpleInventory();
/** The output inventory */
@NN public final Inventory out = out0.lockInsertions();
/** The electrical buffer */
@NN public final Battery elec;
/** The block type */
@NN protected final ElectroMachineType type;
/** Should unsupported items be passed on?*/
@NN public final ListenableBoolean pass = new ListenableBoolean();
@Override
public boolean isPass() {
return pass.getValue();
}
@Override
public void setPass(boolean pass) {
this.pass.setValue(pass);
}
/** Should items be auto-extracted?*/
@NN public final ListenableBoolean autoExtract = new ListenableBoolean();
@Override
public boolean isAutoExtract() {
return autoExtract.getValue();
}
@Override
public void setAutoExtract(boolean autoExtract) {
this.autoExtract.setValue(autoExtract);
}
//Block methods
/**
* Performs partial copy of this machine. The copies items may include recipe helper and catalyst.
* For implementers: Do not copy input, output, pass on, auto-extract and battery., as copying these is redundant
* @return the partial copy
*/
@NN protected abstract ProcessorAbstractBlock copy0();
@Override
public final BlockEntry blockCopy() {
ProcessorAbstractBlock copy = copy0();
copy.autoExtract.setValue(autoExtract.getValue());
copy.pass.setValue(pass.getValue());
copy.in.set(in);
copy.out0.set(out0);
copy.elec.set(elec);
return copy;
}
@Override
public ElectroMachineType type() {
return type;
}
@Override
public InventoryReader getOutput(Side s) {
return out0.createReader();
}
@Override
public InventoryWriter getInput(Side s) {
return in.createWriter();
}
@Override
public Electricity getElectricalConnection(Side s) {
return Electricity.insertOnly(elec);
}
@Override
public RotatedImageGroup getImage() {
return type.rig;
}
//GUI
protected GUIMachine tab;
@Override
public void click(int blockX, int blockY, World map, @Nil WorldWindow window, double partX, double partY) {
if(window == null) return;
if(tab != null) return;
tab = new GUIMachine(this, window);
window.openAndShowWindow(tab, recipes().title()+' '+type.volt.name);
helper().setRefreshable(tab);
tab.refreshProgress(0, helper().currentRecipe());
}
@SuppressWarnings("javadoc") //internal use only
public void close(GUIMachine tbb) {
if(tab == tbb) tab = null;
}
//Machine methods
@Override
public VoltageTier voltage() {
return elec.voltage;
}
@Override
public Inventory input() {
return in;
}
@Override
public Inventory output() {
return out;
}
@Override
public Battery energy() {
return elec;
}
/** @return the machine helper */
public abstract Helper helper();
@Override
public String machineName() {
return recipes().title();
}
/**
* @apiNote This method may be overridden if catalysts are supported
* @return the item catalyst inventory, or {@code null} if catalysts are unsupported
*/
@Nil public SingleItemInventory catalyst() {
return null;
}
//Serialization
@Override
protected void save1(ObjectNode node) {
helper().save(node);
JsonNode bat = elec.save();
node.set("energy", bat);
node.set("in", in.save());
node.set("out", out0.save());
node.put("pass", pass.getValue());
node.put("autoex", autoExtract.getValue());
}
@Override
protected void load1(ObjectNode node) {
helper().load(node);
JsonNode bat = node.get("energy");
elec.load(bat);
in.load(node.get("in"));
in.setCapacity(2);
out0.load(node.get("out"));
out0.setCapacity(2);
JsonNode passNode = node.get("pass");
if(passNode != null) pass.setValue(passNode.asBoolean());
JsonNode autoNode = node.get("autoex");
if(autoNode != null) autoExtract.setValue(autoNode.asBoolean());
}
@Override
public final void onTick(MapProxy proxy) {
elec.capacity = 400;
elec.maxPower = 200;
if(autoExtract.getValue()) {
InventoryWriter writer = getAtSide(getRotation().R()).getInput(getRotation().L());
Inventories.transferAll(out, writer);
}
//Pass on items
if(pass.getValue() && Math.random() < 0.1) { //10% chance to pass on unsupported items
//Pass on items
Inventories.transfer(in, out0, r -> !recipes().supportedItems().contains(r.item()));
if(tab != null) {
tab.refreshInputs();
tab.refreshOutputs();
}
}
Electricity.equatePPs(this, proxy, elec, 0.9, type.powermul * type.volt.volts);
helper().cycle();
onTick0(proxy);
}
/**
* This method may be overridden to run something on a tick
* @param proxy map proxy
*/
protected void onTick0(MapProxy proxy) {
//overridable
}
}