path: root/src/main/java/gregtech/loaders/oreprocessing/ProcessingCell.java

package gregtech.loaders.oreprocessing;

import static gregtech.api.recipe.RecipeMaps.centrifugeRecipes;
import static gregtech.api.recipe.RecipeMaps.electrolyzerRecipes;
import static gregtech.api.recipe.RecipeMaps.vacuumFreezerRecipes;
import static gregtech.api.util.GT_RecipeBuilder.TICKS;
import static gregtech.api.util.GT_RecipeConstants.FUEL_TYPE;
import static gregtech.api.util.GT_RecipeConstants.FUEL_VALUE;

import java.util.ArrayList;

import net.minecraft.item.ItemStack;

import gregtech.api.enums.GT_Values;
import gregtech.api.enums.ItemList;
import gregtech.api.enums.Materials;
import gregtech.api.enums.OrePrefixes;
import gregtech.api.enums.TierEU;
import gregtech.api.interfaces.IOreRecipeRegistrator;
import gregtech.api.objects.MaterialStack;
import gregtech.api.util.GT_ModHandler;
import gregtech.api.util.GT_OreDictUnificator;
import gregtech.api.util.GT_RecipeBuilder;
import gregtech.api.util.GT_RecipeConstants;
import gregtech.api.util.GT_Utility;

public class ProcessingCell implements IOreRecipeRegistrator {

    public ProcessingCell() {
        OrePrefixes.cell.add(this);
        OrePrefixes.cellPlasma.add(this);
    }

    @Override
    public void registerOre(OrePrefixes aPrefix, Materials aMaterial, String aOreDictName, String aModName,
        ItemStack aStack) {
        switch (aPrefix) {
            case cell -> {
                if (aMaterial == Materials.Empty) {
                    GT_ModHandler.removeRecipeByOutputDelayed(aStack);
                    if (aModName.equalsIgnoreCase("AtomicScience")) {
                        GT_ModHandler.addExtractionRecipe(ItemList.Cell_Empty.get(1L), aStack);
                    }
                } else {
                    if (aMaterial.mFuelPower > 0) {
                        GT_RecipeBuilder recipeBuilder = GT_Values.RA.stdBuilder();
                        recipeBuilder.itemInputs(GT_Utility.copyAmount(1, aStack));
                        if (GT_Utility.getFluidForFilledItem(aStack, true) == null
                            && GT_Utility.getContainerItem(aStack, true) != null) {
                            recipeBuilder.itemOutputs(GT_Utility.getContainerItem(aStack, true));
                        }
                        recipeBuilder.metadata(FUEL_VALUE, aMaterial.mFuelPower)
                            .metadata(FUEL_TYPE, aMaterial.mFuelType)
                            .addTo(GT_RecipeConstants.Fuel);
                    }
                    if (!((aMaterial.mMaterialList.size() > 0) && ((aMaterial.mExtraData & 0x3) != 0))) {
                        break;
                    }

                    int tAllAmount = 0;
                    for (MaterialStack tMat2 : aMaterial.mMaterialList) {
                        tAllAmount = (int) (tAllAmount + tMat2.mAmount);
                    }
                    long tItemAmount = 0L;
                    long tCapsuleCount = (long) GT_ModHandler
                        .getCapsuleCellContainerCountMultipliedWithStackSize(aStack) * -tAllAmount;
                    long tDensityMultiplier = aMaterial.getDensity() > 3628800L ? aMaterial.getDensity() / 3628800L
                        : 1L;
                    ArrayList<ItemStack> tList = new ArrayList<>();
                    for (MaterialStack tMat : aMaterial.mMaterialList) {
                        if (tMat.mAmount <= 0) {
                            continue;
                        }

                        ItemStack tStack;
                        if (tMat.mMaterial == Materials.Air) {
                            tStack = ItemList.Cell_Air.get(tMat.mAmount * tDensityMultiplier / 2L);
                        } else {
                            tStack = GT_OreDictUnificator.get(OrePrefixes.dust, tMat.mMaterial, tMat.mAmount);
                            if (tStack == null) {
                                tStack = GT_OreDictUnificator.get(OrePrefixes.cell, tMat.mMaterial, tMat.mAmount);
                            }
                        }
                        if (tItemAmount + tMat.mAmount * 3628800L > aStack.getMaxStackSize() * aMaterial.getDensity()) {
                            continue;
                        }

                        tItemAmount += tMat.mAmount * 3628800L;

                        if (tStack == null) {
                            continue;
                        }

                        tStack.stackSize = ((int) (tStack.stackSize * tDensityMultiplier));
                        while ((tStack.stackSize > 64)
                            && (tCapsuleCount + GT_ModHandler.getCapsuleCellContainerCount(tStack) * 64L < 0L
                                ? tList.size() < 5
                                : tList.size() < 6)
                            && (tCapsuleCount + GT_ModHandler.getCapsuleCellContainerCount(tStack) * 64L <= 64L)) {
                            tCapsuleCount += GT_ModHandler.getCapsuleCellContainerCount(tStack) * 64L;
                            tList.add(GT_Utility.copyAmount(64, tStack));
                            tStack.stackSize -= 64;
                        }
                        int tThisCapsuleCount = GT_ModHandler
                            .getCapsuleCellContainerCountMultipliedWithStackSize(tStack);
                        if (tStack.stackSize > 0 && tCapsuleCount + tThisCapsuleCount <= 64L) {
                            if (tCapsuleCount + tThisCapsuleCount < 0L ? tList.size() < 5 : tList.size() < 6) {
                                tCapsuleCount += tThisCapsuleCount;
                                tList.add(tStack);
                            }
                        }
                    }

                    tItemAmount = GT_Utility.ceilDiv(tItemAmount * tDensityMultiplier, aMaterial.getDensity());

                    if (tList.size() <= 0) {
                        break;
                    }

                    if ((aMaterial.mExtraData & 0x1) != 0) {

                        // Electrolyzer recipe
                        if (GT_Utility.getFluidForFilledItem(aStack, true) == null) {
                            // dust stuffed cell e.g. Phosphate, Phosphorous Pentoxide
                            GT_RecipeBuilder recipeBuilder = GT_Values.RA.stdBuilder();
                            if (tCapsuleCount > 0L) {
                                recipeBuilder.itemInputs(
                                    GT_Utility.copyAmount(tItemAmount, aStack),
                                    ItemList.Cell_Empty.get(tCapsuleCount));
                            } else {
                                recipeBuilder.itemInputs(GT_Utility.copyAmount(tItemAmount, aStack));
                            }
                            if (tCapsuleCount < 0L) {
                                tList.add(ItemList.Cell_Empty.get(-tCapsuleCount));
                            }
                            ItemStack[] outputsArray = tList.toArray(new ItemStack[Math.min(tList.size(), 6)]);
                            recipeBuilder.itemOutputs(outputsArray)
                                .duration(Math.max(1L, Math.abs(aMaterial.getProtons() * 2L * tItemAmount)))
                                .eut(Math.min(4, tList.size()) * 30)
                                .addTo(electrolyzerRecipes);
                        } else {
                            long tCellBalance = tCapsuleCount + tItemAmount - 1;
                            GT_RecipeBuilder recipeBuilder = GT_Values.RA.stdBuilder();
                            if (tCellBalance > 0L) {
                                recipeBuilder.itemInputs(aStack, ItemList.Cell_Empty.get(tCellBalance));
                            } else {
                                recipeBuilder.itemInputs(aStack);
                            }
                            if (tCellBalance < 0L) {
                                tList.add(ItemList.Cell_Empty.get(-tCellBalance));
                            }
                            ItemStack[] outputsArray = tList.toArray(new ItemStack[Math.min(tList.size(), 6)]);
                            recipeBuilder.itemOutputs(outputsArray)
                                .duration(Math.max(1L, Math.abs(aMaterial.getProtons() * 8L * tItemAmount)))
                                .eut(Math.min(4, tList.size()) * 30)
                                .addTo(electrolyzerRecipes);
                        }
                    }
                    if ((aMaterial.mExtraData & 0x2) != 0) {
                        GT_RecipeBuilder recipeBuilder = GT_Values.RA.stdBuilder();
                        if (tCapsuleCount > 0L) {
                            recipeBuilder.itemInputs(
                                GT_Utility.copyAmount(tItemAmount, aStack),
                                ItemList.Cell_Empty.get(tCapsuleCount));
                        } else {
                            recipeBuilder.itemInputs(GT_Utility.copyAmount(tItemAmount, aStack));
                        }
                        if (tCapsuleCount < 0L) {
                            tList.add(ItemList.Cell_Empty.get(-tCapsuleCount));
                        }
                        ItemStack[] outputsArray = tList.toArray(new ItemStack[Math.min(tList.size(), 6)]);
                        recipeBuilder.itemOutputs(outputsArray)
                            .duration(Math.max(1L, Math.abs(aMaterial.getMass() * 2L * tItemAmount)))
                            .eut(5)
                            .addTo(centrifugeRecipes);
                    }
                }
            }
            case cellPlasma -> {
                if (aMaterial == Materials.Empty) {
                    GT_ModHandler.removeRecipeByOutputDelayed(aStack);
                } else {
                    GT_RecipeBuilder recipeBuilder = GT_Values.RA.stdBuilder();
                    recipeBuilder.itemInputs(GT_Utility.copyAmount(1, aStack));
                    if (GT_Utility.getFluidForFilledItem(aStack, true) == null
                        && GT_Utility.getContainerItem(aStack, true) != null) {
                        recipeBuilder.itemOutputs(GT_Utility.getContainerItem(aStack, true));
                    }
                    // Switch case to set manual values for specific plasmas and escape the formula based on mass
                    // when it doesn't make sense for powergen balance.
                    switch (aMaterial.mName) {
                        case "Tin":
                            recipeBuilder.metadata(FUEL_VALUE, 150_000)
                                .metadata(FUEL_TYPE, 4)
                                .addTo(GT_RecipeConstants.Fuel);
                        default:
                            recipeBuilder.metadata(FUEL_VALUE, (int) Math.max(1024L, 1024L * aMaterial.getMass()))
                                .metadata(FUEL_TYPE, 4)
                                .addTo(GT_RecipeConstants.Fuel);
                    }
                    if (GT_OreDictUnificator.get(OrePrefixes.cell, aMaterial, 1L) != null) {
                        GT_Values.RA.stdBuilder()
                            .itemInputs(GT_Utility.copyAmount(1, aStack))
                            .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.cell, aMaterial, 1L))
                            .duration(((int) Math.max(aMaterial.getMass() * 2L, 1L)) * TICKS)
                            .eut(TierEU.RECIPE_MV)
                            .addTo(vacuumFreezerRecipes);
                    }
                }
            }
            default -> {}
        }
    }
}