Fix Ore Drill EU calculation; now Ore Drill is using DrillerBase

This commit is contained in:
Antifluxfield 2017-09-21 20:34:38 +08:00
parent 0802fdbd02
commit 9d8ac82535

View file

@ -1,18 +1,15 @@
package gregtech.common.tileentities.machines.multi;
import gregtech.api.GregTech_API;
import static gregtech.api.enums.GT_Values.*;
import java.util.ArrayList;
import gregtech.api.enums.ItemList;
import gregtech.api.enums.Materials;
import gregtech.api.enums.OrePrefixes;
import gregtech.api.enums.Textures;
import gregtech.api.gui.GT_GUIContainer_MultiMachine;
import gregtech.api.interfaces.ITexture;
import gregtech.api.interfaces.tileentity.IGregTechTileEntity;
import gregtech.api.metatileentity.implementations.GT_MetaTileEntity_Hatch_Energy;
import gregtech.api.metatileentity.implementations.GT_MetaTileEntity_MultiBlockBase;
import gregtech.api.objects.GT_RenderedTexture;
import gregtech.api.objects.ItemData;
import gregtech.api.util.GT_ModHandler;
import gregtech.api.util.GT_OreDictUnificator;
import gregtech.api.util.GT_Recipe;
import gregtech.api.util.GT_Utility;
@ -22,106 +19,40 @@ import net.minecraft.block.Block;
import net.minecraft.entity.player.InventoryPlayer;
import net.minecraft.init.Blocks;
import net.minecraft.item.ItemStack;
import net.minecraft.nbt.NBTTagCompound;
import net.minecraft.tileentity.TileEntity;
import net.minecraft.world.ChunkPosition;
import net.minecraftforge.common.util.ForgeDirection;
import net.minecraftforge.fluids.FluidStack;
import java.util.ArrayList;
import static gregtech.api.enums.GT_Values.*;
public abstract class GT_MetaTileEntity_OreDrillingPlantBase extends GT_MetaTileEntity_MultiBlockBase {
private static final ItemStack miningPipe = GT_ModHandler.getIC2Item("miningPipe", 0);
private static final ItemStack miningPipeTip = GT_ModHandler.getIC2Item("miningPipeTip", 0);
private static final Block miningPipeBlock = GT_Utility.getBlockFromStack(miningPipe);
private static final Block miningPipeTipBlock = GT_Utility.getBlockFromStack(miningPipeTip);
public abstract class GT_MetaTileEntity_OreDrillingPlantBase extends GT_MetaTileEntity_DrillerBase {
private final ArrayList<ChunkPosition> oreBlockPositions = new ArrayList<>();
private Block casingBlock;
private int casingMeta;
private int frameMeta;
private int casingTextureIndex;
private ForgeDirection back;
private int xDrill, yDrill, zDrill, xCenter, zCenter, yHead;
private boolean isPickingPipes;
public GT_MetaTileEntity_OreDrillingPlantBase(int aID, String aName, String aNameRegional) {
super(aID, aName, aNameRegional);
initFields();
}
public GT_MetaTileEntity_OreDrillingPlantBase(String aName) {
super(aName);
initFields();
}
private void initFields() {
casingBlock = getCasingBlockItem().getBlock();
casingMeta = getCasingBlockItem().get(0).getItemDamage();
int frameId = 4096 + getFrameMaterial().mMetaItemSubID;
frameMeta = GregTech_API.METATILEENTITIES[frameId] != null ? GregTech_API.METATILEENTITIES[frameId].getTileEntityBaseType() : W;
casingTextureIndex = getCasingTextureIndex();
isPickingPipes = false;
}
public ITexture[] getTexture(IGregTechTileEntity aBaseMetaTileEntity, byte aSide, byte aFacing, byte aColorIndex, boolean aActive, boolean aRedstone) {
if (aSide == aFacing)
return new ITexture[]{Textures.BlockIcons.CASING_BLOCKS[casingTextureIndex],new GT_RenderedTexture(aActive ? Textures.BlockIcons.OVERLAY_FRONT_ORE_DRILL_ACTIVE : Textures.BlockIcons.OVERLAY_FRONT_ORE_DRILL)};
return new ITexture[]{Textures.BlockIcons.CASING_BLOCKS[casingTextureIndex]};
}
@Override
public Object getClientGUI(int aID, InventoryPlayer aPlayerInventory, IGregTechTileEntity aBaseMetaTileEntity) {
return new GT_GUIContainer_MultiMachine(aPlayerInventory, aBaseMetaTileEntity, getLocalName(), "OreDrillingPlant.png");
}
@Override
public void saveNBTData(NBTTagCompound aNBT) {
super.saveNBTData(aNBT);
aNBT.setBoolean("isPickingPipes", isPickingPipes);
}
@Override
public void loadNBTData(NBTTagCompound aNBT) {
super.loadNBTData(aNBT);
isPickingPipes = aNBT.getBoolean("isPickingPipes");
}
@Override
public boolean checkRecipe(ItemStack aStack) {
setElectricityStats();
int oldYHead = yHead;
if (!checkPipesAndSetYHead() || !isEnergyEnough()) {
stopMachine();
return false;
}
protected boolean workingDownward(ItemStack aStack, int xDrill, int yDrill, int zDrill, int xPipe, int zPipe, int yHead, int oldYHead) {
if (yHead != oldYHead) oreBlockPositions.clear();
if (isPickingPipes) {
if (tryPickPipe()) {
mOutputItems = new ItemStack[] {GT_Utility.copyAmount(1, miningPipe)};
return true;
} else {
isPickingPipes = false;
stopMachine();
return false;
}
}
putMiningPipesFromInputsInController();
if (!tryConsumeDrillingFluid()) return false;
fillMineListIfEmpty();
fillMineListIfEmpty(xDrill, yDrill, zDrill, xPipe, zPipe, yHead);
if (oreBlockPositions.isEmpty()) {
if (!tryLowerPipe()) {
isPickingPipes = true;
if (waitForPipes()) return false;
workState = STATE_AT_BOTTOM;
return true;
}
//new layer - fill again
fillMineListIfEmpty();
fillMineListIfEmpty(xDrill, yDrill, zDrill, xPipe, zPipe, yHead);
}
ChunkPosition oreBlockPos = null;
@ -132,6 +63,7 @@ public abstract class GT_MetaTileEntity_OreDrillingPlantBase extends GT_MetaTile
oreBlock = getBaseMetaTileEntity().getBlock(oreBlockPos.chunkPosX, oreBlockPos.chunkPosY, oreBlockPos.chunkPosZ);
}
if (!tryConsumeDrillingFluid()) return false;
if (oreBlock != null && oreBlock != Blocks.air) {
ArrayList<ItemStack> oreBlockDrops = getBlockDrops(oreBlock, oreBlockPos.chunkPosX, oreBlockPos.chunkPosY, oreBlockPos.chunkPosZ);
getBaseMetaTileEntity().getWorld().setBlockToAir(oreBlockPos.chunkPosX, oreBlockPos.chunkPosY, oreBlockPos.chunkPosZ);
@ -141,29 +73,19 @@ public abstract class GT_MetaTileEntity_OreDrillingPlantBase extends GT_MetaTile
return true;
}
private boolean isEnergyEnough() {
long requiredEnergy = 512 + getMaxInputVoltage() * 4;
for (GT_MetaTileEntity_Hatch_Energy energyHatch : mEnergyHatches) {
requiredEnergy -= energyHatch.getEUVar();
if (requiredEnergy <= 0) return true;
}
return false;
@Override
protected boolean checkHatches(){
return !mMaintenanceHatches.isEmpty() && !mInputHatches.isEmpty() && !mOutputBusses.isEmpty() && !mEnergyHatches.isEmpty();
}
private boolean tryPickPipe() {
if (yHead == yDrill) return false;
if (checkBlockAndMeta(xCenter, yHead + 1, zCenter, miningPipeBlock, W))
getBaseMetaTileEntity().getWorld().setBlock(xCenter, yHead + 1, zCenter, miningPipeTipBlock);
getBaseMetaTileEntity().getWorld().setBlockToAir(xCenter, yHead, zCenter);
return true;
}
private void setElectricityStats() {
@Override
protected void setElectricityStats() {
this.mEfficiency = getCurrentEfficiency(null);
this.mEfficiencyIncrease = 10000;
int overclock = 1 << GT_Utility.getTier(getMaxInputVoltage()) - 1;
this.mEUt = -12 * overclock * overclock;
this.mMaxProgresstime = (isPickingPipes ? 80 : getBaseProgressTime()) / overclock;
int tier = Math.max(1, GT_Utility.getTier(getMaxInputVoltage()));
this.mEUt = -3 * (1 << (tier << 1));
this.mMaxProgresstime = (workState == STATE_DOWNWARD ? getBaseProgressTime() : 80) / (1 <<tier);
this.mMaxProgresstime = Math.max(1, this.mMaxProgresstime);
}
private ItemStack[] getOutputByDrops(ArrayList<ItemStack> oreBlockDrops) {
@ -216,37 +138,17 @@ public abstract class GT_MetaTileEntity_OreDrillingPlantBase extends GT_MetaTile
}
private boolean tryConsumeDrillingFluid() {
return depleteInput(new FluidStack(ItemList.sDrillingFluid, 2000));
if (!depleteInput(new FluidStack(ItemList.sDrillingFluid, 2000))) {
mMaxProgresstime = 0;
return false;
}
return true;
}
private void putMiningPipesFromInputsInController() {
int maxPipes = miningPipe.getMaxStackSize();
if (isHasMiningPipes(maxPipes)) return;
ItemStack pipes = getStackInSlot(1);
for (ItemStack storedItem : getStoredInputs()) {
if (!storedItem.isItemEqual(miningPipe)) continue;
if (pipes == null) {
setInventorySlotContents(1, GT_Utility.copy(miningPipe));
pipes = getStackInSlot(1);
}
if (pipes.stackSize == maxPipes) break;
int needPipes = maxPipes - pipes.stackSize;
int transferPipes = storedItem.stackSize < needPipes ? storedItem.stackSize : needPipes;
pipes.stackSize += transferPipes;
storedItem.stackSize -= transferPipes;
}
updateSlots();
}
private void fillMineListIfEmpty() {
private void fillMineListIfEmpty(int xDrill, int yDrill, int zDrill, int xPipe, int zPipe, int yHead) {
if (!oreBlockPositions.isEmpty()) return;
tryAddOreBlockToMineList(xCenter, yHead - 1, zCenter);
tryAddOreBlockToMineList(xPipe, yHead - 1, zPipe);
if (yHead == yDrill) return; //skip controller block layer
int radius = getRadiusInChunks() << 4;
@ -271,132 +173,8 @@ public abstract class GT_MetaTileEntity_OreDrillingPlantBase extends GT_MetaTile
}
}
private boolean tryLowerPipe() {
if (!isHasMiningPipes()) return false;
if (yHead <= 0) return false;
if (checkBlockAndMeta(xCenter, yHead - 1, zCenter, Blocks.bedrock, W)) return false;
getBaseMetaTileEntity().getWorld().setBlock(xCenter, yHead - 1, zCenter, miningPipeTipBlock);
if (yHead != yDrill) getBaseMetaTileEntity().getWorld().setBlock(xCenter, yHead, zCenter, miningPipeBlock);
getBaseMetaTileEntity().decrStackSize(1, 1);
return true;
}
private boolean isHasMiningPipes() {
return isHasMiningPipes(1);
}
private boolean isHasMiningPipes(int minCount) {
ItemStack pipe = getStackInSlot(1);
return pipe != null && pipe.stackSize > minCount - 1 && pipe.isItemEqual(miningPipe);
}
@Override
public boolean checkMachine(IGregTechTileEntity aBaseMetaTileEntity, ItemStack aStack) {
updateCoordinates();
//check base layer
for (int xOff = -1 + back.offsetX; xOff <= 1 + back.offsetX; xOff++) {
for (int zOff = -1 + back.offsetZ; zOff <= 1 + back.offsetZ; zOff++) {
if (xOff == 0 && zOff == 0) continue;
IGregTechTileEntity tTileEntity = aBaseMetaTileEntity.getIGregTechTileEntityOffset(xOff, 0, zOff);
if (!checkCasingBlock(xOff, 0, zOff)
&& !addMaintenanceToMachineList(tTileEntity, casingTextureIndex)
&& !addInputToMachineList(tTileEntity, casingTextureIndex)
&& !addOutputToMachineList(tTileEntity, casingTextureIndex)
&& !addEnergyInputToMachineList(tTileEntity, casingTextureIndex))
return false;
}
}
if (mMaintenanceHatches.isEmpty() || mInputHatches.isEmpty() || mOutputBusses.isEmpty() || mEnergyHatches.isEmpty()) return false;
if (GT_Utility.getTier(getMaxInputVoltage()) < getMinTier()) return false;
//check tower
for (int yOff = 1; yOff < 4; yOff++) {
if (!checkCasingBlock(back.offsetX, yOff, back.offsetZ)
|| !checkFrameBlock(back.offsetX + 1, yOff, back.offsetZ)
|| !checkFrameBlock(back.offsetX - 1, yOff, back.offsetZ)
|| !checkFrameBlock(back.offsetX, yOff, back.offsetZ + 1)
|| !checkFrameBlock(back.offsetX, yOff, back.offsetZ - 1)
|| !checkFrameBlock(back.offsetX, yOff + 3, back.offsetZ))
return false;
}
return true;
}
private void updateCoordinates() {
xDrill = getBaseMetaTileEntity().getXCoord();
yDrill = getBaseMetaTileEntity().getYCoord();
zDrill = getBaseMetaTileEntity().getZCoord();
back = ForgeDirection.getOrientation(getBaseMetaTileEntity().getBackFacing());
xCenter = xDrill + back.offsetX;
zCenter = zDrill + back.offsetZ;
}
private boolean checkPipesAndSetYHead() {
yHead = yDrill - 1;
while (checkBlockAndMeta(xCenter, yHead, zCenter, miningPipeBlock, W)) yHead--; //skip pipes
//is pipe tip OR is controller layer
if (checkBlockAndMeta(xCenter, yHead, zCenter, miningPipeTipBlock, W) || ++yHead == yDrill) return true;
//pipe column is broken - try fix
getBaseMetaTileEntity().getWorld().setBlock(xCenter, yHead, zCenter, miningPipeTipBlock);
return true;
}
private boolean checkCasingBlock(int xOff, int yOff, int zOff) {
return checkBlockAndMetaOffset(xOff, yOff, zOff, casingBlock, casingMeta);
}
//meta of frame is getTileEntityBaseType; frame should be checked using its drops (possible a high weight operation)
private boolean checkFrameBlock(int xOff, int yOff, int zOff) {
return checkBlockAndMetaOffset(xOff, yOff, zOff, GregTech_API.sBlockMachines, frameMeta);
}
private boolean checkBlockAndMetaOffset(int xOff, int yOff, int zOff, Block block, int meta) {
return checkBlockAndMeta(xDrill + xOff, yDrill + yOff, zDrill + zOff, block, meta);
}
private boolean checkBlockAndMeta(int x, int y, int z, Block block, int meta) {
return (meta == W || getBaseMetaTileEntity().getMetaID(x, y, z) == meta)
&& getBaseMetaTileEntity().getBlock(x, y, z) == block;
}
@Override
public boolean isCorrectMachinePart(ItemStack aStack) {
return true;
}
@Override
public int getMaxEfficiency(ItemStack aStack) {
return 10000;
}
@Override
public int getPollutionPerTick(ItemStack aStack) {
return 0;
}
@Override
public int getDamageToComponent(ItemStack aStack) {
return 0;
}
@Override
public boolean explodesOnComponentBreak(ItemStack aStack) {
return false;
}
protected abstract ItemList getCasingBlockItem();
protected abstract Materials getFrameMaterial();
protected abstract int getCasingTextureIndex();
protected abstract int getRadiusInChunks();
protected abstract int getMinTier();
//returns theoretical progress time for LV energy hatch
protected abstract int getBaseProgressTime();
protected String[] getDescriptionInternal(String tierSuffix) {