package miscutil.gregtech.common.machines.multi; import gregtech.api.enums.Textures; import gregtech.api.gui.GT_GUIContainer_MultiMachine; import gregtech.api.interfaces.ITexture; import gregtech.api.interfaces.metatileentity.IMetaTileEntity; import gregtech.api.interfaces.tileentity.IGregTechTileEntity; import gregtech.api.metatileentity.implementations.GT_MetaTileEntity_MultiBlockBase; import gregtech.api.objects.GT_RenderedTexture; import gregtech.api.util.GT_Recipe; import gregtech.api.util.GT_Utility; import java.util.ArrayList; import java.util.Arrays; import miscutil.core.block.ModBlocks; import miscutil.gregtech.api.util.GregtechRecipe; import net.minecraft.entity.player.InventoryPlayer; import net.minecraft.item.ItemStack; import net.minecraftforge.common.util.ForgeDirection; import net.minecraftforge.fluids.FluidStack; public class GregtechMetaTileEntityIndustrialCokeOven extends GT_MetaTileEntity_MultiBlockBase { private int mLevel = 0; public GregtechMetaTileEntityIndustrialCokeOven(int aID, String aName, String aNameRegional) { super(aID, aName, aNameRegional); } public GregtechMetaTileEntityIndustrialCokeOven(String aName) { super(aName); } @Override public IMetaTileEntity newMetaEntity(IGregTechTileEntity aTileEntity) { return new GregtechMetaTileEntityIndustrialCokeOven(this.mName); } @Override public String[] getDescription() { return new String[]{"Smelts up to 6-18 Items at once", "Controller Block for the Multi Smelter", "Size: 3x3x3 (Hollow)", "Controller (front middle at bottom)", "8x Heating Coils (middle Layer, hollow)", "1x Input (one of bottom)", "1x Output (one of bottom)", "1x Energy Hatch (one of bottom)", "1x Maintenance Hatch (one of bottom)", "1x Muffler Hatch (top middle)", "Heat Proof Machine Casings for the rest"}; } @Override 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[57], new GT_RenderedTexture(aActive ? Textures.BlockIcons.OVERLAY_FRONT_MULTI_SMELTER_ACTIVE : Textures.BlockIcons.OVERLAY_FRONT_MULTI_SMELTER)}; } return new ITexture[]{Textures.BlockIcons.CASING_BLOCKS[57]}; } @Override public Object getClientGUI(int aID, InventoryPlayer aPlayerInventory, IGregTechTileEntity aBaseMetaTileEntity) { return new GT_GUIContainer_MultiMachine(aPlayerInventory, aBaseMetaTileEntity, getLocalName(), "MultiFurnace.png"); } @Override public GT_Recipe.GT_Recipe_Map getRecipeMap() { return GregtechRecipe.Gregtech_Recipe_Map.sCokeOvenRecipes; } @Override public boolean isCorrectMachinePart(ItemStack aStack) { return true; } @Override public boolean isFacingValid(byte aFacing) { return aFacing > 1; } @Override public boolean checkRecipe(ItemStack aStack) { ArrayList tInputList = getStoredInputs(); for (int i = 0; i < tInputList.size() - 1; i++) { for (int j = i + 1; j < tInputList.size(); j++) { if (GT_Utility.areStacksEqual((ItemStack) tInputList.get(i), (ItemStack) tInputList.get(j))) { if (((ItemStack) tInputList.get(i)).stackSize >= ((ItemStack) tInputList.get(j)).stackSize) { tInputList.remove(j--); } else { tInputList.remove(i--); break; } } } } ItemStack[] tInputs = (ItemStack[]) Arrays.copyOfRange(tInputList.toArray(new ItemStack[tInputList.size()]), 0, 2); ArrayList tFluidList = getStoredFluids(); for (int i = 0; i < tFluidList.size() - 1; i++) { for (int j = i + 1; j < tFluidList.size(); j++) { if (GT_Utility.areFluidsEqual((FluidStack) tFluidList.get(i), (FluidStack) tFluidList.get(j))) { if (((FluidStack) tFluidList.get(i)).amount >= ((FluidStack) tFluidList.get(j)).amount) { tFluidList.remove(j--); } else { tFluidList.remove(i--); break; } } } } FluidStack[] tFluids = (FluidStack[]) Arrays.copyOfRange(tFluidList.toArray(new FluidStack[tInputList.size()]), 0, 1); if (tInputList.size() > 0) { long tVoltage = getMaxInputVoltage(); byte tTier = (byte) Math.max(1, GT_Utility.getTier(tVoltage)); GT_Recipe tRecipe = GT_Recipe.GT_Recipe_Map.sBlastRecipes.findRecipe(getBaseMetaTileEntity(), false, gregtech.api.enums.GT_Values.V[tTier], tFluids, tInputs); if ((tRecipe != null) && (this.mLevel >= tRecipe.mSpecialValue) && (tRecipe.isRecipeInputEqual(true, tFluids, tInputs))) { this.mEfficiency = (10000 - (getIdealStatus() - getRepairStatus()) * 1000); this.mEfficiencyIncrease = 10000; if (tRecipe.mEUt <= 16) { this.mEUt = (tRecipe.mEUt * (1 << tTier - 1) * (1 << tTier - 1)); this.mMaxProgresstime = (tRecipe.mDuration / (1 << tTier - 1)); } else { this.mEUt = tRecipe.mEUt; this.mMaxProgresstime = tRecipe.mDuration; while (this.mEUt <= gregtech.api.enums.GT_Values.V[(tTier - 1)]) { this.mEUt *= 4; this.mMaxProgresstime /= 2; } } if (this.mEUt > 0) { this.mEUt = (-this.mEUt); } this.mMaxProgresstime = Math.max(1, this.mMaxProgresstime); this.mOutputItems = new ItemStack[]{tRecipe.getOutput(0), tRecipe.getOutput(1)}; updateSlots(); return true; } } return false; } /*public boolean checkRecipe(ItemStack aStack) { ArrayList tInputList = getStoredInputs(); if (!tInputList.isEmpty()) { byte tTier = (byte) Math.max(1, GT_Utility.getTier(getMaxInputVoltage())); int j = 0; this.mOutputItems = new ItemStack[12 * this.mLevel]; for (int i = 0; (i < 100) && (j < this.mOutputItems.length); i++) { if (null != (this.mOutputItems[j] = GT_ModHandler.getSmeltingOutput((ItemStack) tInputList.get(i % tInputList.size()), true, null))) { j++; } } if (j > 0) { this.mEfficiency = (10000 - (getIdealStatus() - getRepairStatus()) * 1000); this.mEfficiencyIncrease = 10000; this.mEUt = (-4 * (1 << tTier - 1) * (1 << tTier - 1) * this.mLevel); this.mMaxProgresstime = Math.max(1, 512 / (1 << tTier - 1)); } updateSlots(); return true; } return false; }*/ @Override public boolean checkMachine(IGregTechTileEntity aBaseMetaTileEntity, ItemStack aStack) { int xDir = ForgeDirection.getOrientation(aBaseMetaTileEntity.getBackFacing()).offsetX; int zDir = ForgeDirection.getOrientation(aBaseMetaTileEntity.getBackFacing()).offsetZ; //this.mOutputItems = new ItemStack[12 * this.mLevel]; this.mLevel = 0; if (!aBaseMetaTileEntity.getAirOffset(xDir, 1, zDir)) { return false; } addMufflerToMachineList(aBaseMetaTileEntity.getIGregTechTileEntityOffset(xDir, 2, zDir), 1); byte tUsedMeta = aBaseMetaTileEntity.getMetaIDOffset(xDir + 1, 1, zDir); switch (tUsedMeta) { case 2: this.mLevel = 1; break; case 3: this.mLevel = 2; break; default: return false; } for (int i = -1; i < 2; i++) { for (int j = -1; j < 2; j++) { if ((i != 0) || (j != 0)) { if (aBaseMetaTileEntity.getBlockOffset(xDir + i, 1, zDir + j) != ModBlocks.blockCasingsMisc) { return false; } if (aBaseMetaTileEntity.getMetaIDOffset(xDir + i, 1, zDir + j) != tUsedMeta) { return false; } if (aBaseMetaTileEntity.getBlockOffset(xDir + i, 2, zDir + j) != ModBlocks.blockCasingsMisc) { return false; } if (aBaseMetaTileEntity.getMetaIDOffset(xDir + i, 2, zDir + j) != 1) { return false; } } } } for (int i = -1; i < 2; i++) { for (int j = -1; j < 2; j++) { if ((xDir + i != 0) || (zDir + j != 0)) { IGregTechTileEntity tTileEntity = aBaseMetaTileEntity.getIGregTechTileEntityOffset(xDir + i, 0, zDir + j); if ((!addMaintenanceToMachineList(tTileEntity, 1)) && (!addInputToMachineList(tTileEntity, 1)) && (!addOutputToMachineList(tTileEntity, 1)) && (!addEnergyInputToMachineList(tTileEntity, 1))) { if (aBaseMetaTileEntity.getBlockOffset(xDir + i, 0, zDir + j) != ModBlocks.blockCasingsMisc) { return false; } if (aBaseMetaTileEntity.getMetaIDOffset(xDir + i, 0, zDir + j) != 1) { return false; } } } } } 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 int getAmountOfOutputs() { return 24; } @Override public boolean explodesOnComponentBreak(ItemStack aStack) { return false; } }