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package GoodGenerator.Blocks.TEs;
import GoodGenerator.Blocks.TEs.MetaTE.NeutronAccelerator;
import GoodGenerator.Blocks.TEs.MetaTE.NeutronSensor;
import com.github.technus.tectech.mechanics.structure.IStructureDefinition;
import com.github.technus.tectech.mechanics.structure.StructureDefinition;
import com.github.technus.tectech.thing.metaTileEntity.multi.base.GT_MetaTileEntity_MultiblockBase_EM;
import gregtech.api.GregTech_API;
import gregtech.api.enums.Materials;
import gregtech.api.interfaces.metatileentity.IMetaTileEntity;
import gregtech.api.interfaces.tileentity.IGregTechTileEntity;
import gregtech.api.metatileentity.implementations.GT_MetaTileEntity_Hatch;
import ic2.core.Ic2Items;
import net.minecraft.block.Block;
import net.minecraft.item.ItemStack;
import java.util.ArrayList;
import static GoodGenerator.util.StructureHelper.addFrame;
import static com.github.technus.tectech.mechanics.structure.StructureUtility.*;
import static org.apache.commons.lang3.RandomUtils.nextInt;
public class NeutronActivator extends GT_MetaTileEntity_MultiblockBase_EM {
protected IStructureDefinition<NeutronActivator> multiDefinition = null;
protected final ArrayList<NeutronAccelerator> mNeutronAccelerator = new ArrayList<>();
protected final ArrayList<NeutronSensor> mNeutronSensor = new ArrayList<>();
protected int casingAmount = 0;
protected int KeV;
public NeutronActivator(String name) {
super(name);
}
public NeutronActivator(int id, String name, String nameRegional) {
super(id,name,nameRegional);
}
@Override
public IStructureDefinition<NeutronActivator> getStructure_EM() {
if(multiDefinition == null) {
multiDefinition = StructureDefinition
.<NeutronActivator>builder()
.addShape(mName,
transpose(new String[][]{
{"CCCCC","CDDDC","CDDDC","CDDDC","CCCCC"},
{"F F"," GGG "," GPG "," GGG ","F F"},
{"F F"," GGG "," GPG "," GGG ","F F"},
{"F F"," GGG "," GPG "," GGG ","F F"},
{"F F"," GGG "," GPG "," GGG ","F F"},
{"XX~XX","XDDDX","XDDDX","XDDDX","XXXXX"},
})
)
.addElement(
'C',
ofChain(
ofHatchAdder(
NeutronActivator::addClassicInputToMachineList, 49,
1
),
onElementPass(
x -> x.casingAmount ++,
ofBlock(
GregTech_API.sBlockCasings4, 1
)
)
)
)
.addElement(
'D',
ofBlock(
GregTech_API.sBlockCasings2, 6
)
)
.addElement(
'F',
addFrame(
Materials.Steel
)
)
.addElement(
'G',
ofBlock(
Block.getBlockFromItem(Ic2Items.reinforcedGlass.getItem()), 0
)
)
.addElement(
'P',
ofBlock(
GregTech_API.sBlockCasings2, 13
)
)
.addElement(
'X',
ofChain(
ofHatchAdder(
NeutronActivator::addClassicOutputToMachineList, 49,
2
),
ofHatchAdder(
NeutronActivator::addMaintenanceToMachineList, 49,
2
),
ofHatchAdder(
NeutronActivator::addAccelerator, 49,
2
),
onElementPass(
x -> x.casingAmount ++,
ofBlock(
GregTech_API.sBlockCasings4, 1
)
)
)
)
.build();
}
return multiDefinition;
}
@Override
public boolean checkMachine_EM(IGregTechTileEntity aBaseMetaTileEntity, ItemStack aStack) {
this.casingAmount = 0;
this.mNeutronAccelerator.clear();
this.mNeutronSensor.clear();
return structureCheck_EM(mName, 2, 5, 0) && casingAmount >= 7;
}
public final boolean addAccelerator(IGregTechTileEntity aTileEntity, int aBaseCasingIndex) {
if (aTileEntity == null) {
return false;
} else {
IMetaTileEntity aMetaTileEntity = aTileEntity.getMetaTileEntity();
if (aMetaTileEntity instanceof NeutronAccelerator){
((GT_MetaTileEntity_Hatch)aMetaTileEntity).updateTexture(aBaseCasingIndex);
return this.mNeutronAccelerator.add((NeutronAccelerator)aMetaTileEntity);
} else if (aMetaTileEntity instanceof NeutronSensor){
((GT_MetaTileEntity_Hatch)aMetaTileEntity).updateTexture(aBaseCasingIndex);
return this.mNeutronSensor.add((NeutronSensor)aMetaTileEntity);
}
}
return false;
}
public int maxNeutronKineticEnergy() {
return 10000000;
}
@Override
public IMetaTileEntity newMetaEntity(IGregTechTileEntity aTileEntity) {
return new NeutronActivator(this.mName);
}
@Override
public void onPostTick(IGregTechTileEntity aBaseMetaTileEntity, long aTick) {
super.onPostTick(aBaseMetaTileEntity, aTick);
boolean anyWorking = false;
if (this.getBaseMetaTileEntity().isServerSide()) {
for (NeutronAccelerator tHatch : mNeutronAccelerator) {
if (tHatch.isRunning) {
anyWorking = true;
this.KeV += nextInt(tHatch.getMaxEUConsume(), tHatch.getMaxEUConsume() * 2 + 1) / 10;
}
}
if (!anyWorking) {
if (this.KeV >= 80 && aTick % 20 == 0) {
this.KeV -= 80;
}
else if (this.KeV > 0 && aTick % 20 == 0) {
this.KeV = 0;
}
}
if (this.KeV < 0) this.KeV = 0;
if (this.KeV > maxNeutronKineticEnergy()) doExplosion(4 * 32);
}
}
}
|
