package de.ellpeck.actuallyadditions.common.items.base; import de.ellpeck.actuallyadditions.common.ActuallyAdditions; import de.ellpeck.actuallyadditions.common.tile.CustomEnergyStorage; import de.ellpeck.actuallyadditions.common.util.AssetUtil; import net.minecraft.client.util.ITooltipFlag; import net.minecraft.entity.player.PlayerEntity; import net.minecraft.item.ItemStack; import net.minecraft.nbt.CompoundNBT; import net.minecraft.util.Direction; import net.minecraft.util.math.MathHelper; import net.minecraft.util.text.ITextComponent; import net.minecraft.util.text.StringTextComponent; import net.minecraft.world.World; import net.minecraftforge.common.capabilities.Capability; import net.minecraftforge.common.capabilities.ICapabilityProvider; import net.minecraftforge.common.util.LazyOptional; import net.minecraftforge.energy.CapabilityEnergy; import net.minecraftforge.energy.IEnergyStorage; import javax.annotation.Nonnull; import javax.annotation.Nullable; import java.text.NumberFormat; import java.util.List; public abstract class ItemEnergy extends ItemBase { private final int maxPower; private final int transfer; public ItemEnergy(Properties properties, int maxPower, int transfer, String name) { super(properties.maxStackSize(1), name); this.maxPower = maxPower; this.transfer = transfer; } // @Override // public boolean getShareTag() { // return true; // } @Override public void addInformation(ItemStack stack, @Nullable World worldIn, List tooltip, ITooltipFlag flagIn) { stack.getCapability(CapabilityEnergy.ENERGY).ifPresent(cap -> { NumberFormat format = NumberFormat.getInstance(); // todo: migrate to i18n tooltip.add(new StringTextComponent(String.format("%s/%s Crystal Flux", format.format(cap.getEnergyStored()), format.format(cap.getMaxEnergyStored())))); }); } @Override public boolean hasEffect(ItemStack stack) { return false; } // todo: check this out // @Override // public void getSubItems(CreativeTabs tabs, NonNullList list) { // if (this.isInCreativeTab(tabs)) { // ItemStack stackFull = new ItemStack(this); // if (stackFull.hasCapability(CapabilityEnergy.ENERGY, null)) { // IEnergyStorage storage = stackFull.getCapability(CapabilityEnergy.ENERGY, null); // if (storage != null) { // this.setEnergy(stackFull, storage.getMaxEnergyStored()); // list.add(stackFull); // } // } // // ItemStack stackEmpty = new ItemStack(this); // this.setEnergy(stackEmpty, 0); // list.add(stackEmpty); // } // } @Override public boolean showDurabilityBar(ItemStack itemStack) { return true; } @Override public double getDurabilityForDisplay(ItemStack stack) { return stack.getCapability(CapabilityEnergy.ENERGY) .map(cap -> { double maxAmount = cap.getMaxEnergyStored(); double energyDif = maxAmount - cap.getEnergyStored(); return energyDif / maxAmount; }) .orElse(super.getDurabilityForDisplay(stack)); } @Override public int getRGBDurabilityForDisplay(ItemStack stack) { PlayerEntity player = ActuallyAdditions.PROXY.getCurrentPlayer(); if (player != null && player.world != null) { float[] color = AssetUtil.getWheelColor(player.world.getGameTime() % 256); // todo: validate that getGameTime is correct (check diff for old) return MathHelper.rgb(color[0] / 255F, color[1] / 255F, color[2] / 255F); } return super.getRGBDurabilityForDisplay(stack); } public void setEnergy(ItemStack stack, int energy) { stack.getCapability(CapabilityEnergy.ENERGY).ifPresent(cap -> ((CustomEnergyStorage) cap).setEnergyStored(energy)); } public int receiveEnergyInternal(ItemStack stack, int maxReceive, boolean simulate) { stack.getCapability(CapabilityEnergy.ENERGY).ifPresent(cap -> ((CustomEnergyStorage) cap).receiveEnergyInternal(maxReceive, simulate)); return 0; } public int extractEnergyInternal(ItemStack stack, int maxExtract, boolean simulate) { stack.getCapability(CapabilityEnergy.ENERGY).ifPresent(cap -> cap.extractEnergy(maxExtract, simulate)); return 0; } public int receiveEnergy(ItemStack stack, int maxReceive, boolean simulate) { return stack.getCapability(CapabilityEnergy.ENERGY).map(cap -> cap.receiveEnergy(maxReceive, simulate)).orElse(0); } public int extractEnergy(ItemStack stack, int maxExtract, boolean simulate) { return stack.getCapability(CapabilityEnergy.ENERGY).map(cap -> cap.extractEnergy(maxExtract, simulate)).orElse(0); } public int getEnergyStored(ItemStack stack) { return stack.getCapability(CapabilityEnergy.ENERGY).map(IEnergyStorage::getEnergyStored).orElse(0); } public int getMaxEnergyStored(ItemStack stack) { return stack.getCapability(CapabilityEnergy.ENERGY).map(IEnergyStorage::getMaxEnergyStored).orElse(0); } @Override public ICapabilityProvider initCapabilities(ItemStack stack, CompoundNBT nbt) { return new EnergyCapabilityProvider(stack, this); } private static class EnergyCapabilityProvider implements ICapabilityProvider { public final CustomEnergyStorage storage; private final LazyOptional lazyStorage; public EnergyCapabilityProvider(final ItemStack stack, ItemEnergy item) { this.storage = new CustomEnergyStorage(item.maxPower, item.transfer, item.transfer) { @Override public int getEnergyStored() { if (stack.hasTag()) { return stack.getOrCreateTag().getInt("Energy"); } else { return 0; } } @Override public void setEnergyStored(int energy) { stack.getOrCreateTag().putInt("Energy", energy); } }; lazyStorage = LazyOptional.of(() -> this.storage); } @Nonnull @Override public LazyOptional getCapability(@Nonnull Capability cap, @Nullable Direction side) { if (cap == CapabilityEnergy.ENERGY) { return this.lazyStorage.cast(); } return LazyOptional.empty(); } } }