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package gregtech.loaders.postload.chains;
import static com.github.bartimaeusnek.bartworks.system.material.WerkstoffLoader.FluorBuergerit;
import static gregtech.api.enums.MaterialsBotania.ManaDiamond;
import static gregtech.api.recipe.RecipeMaps.assemblerRecipes;
import static gregtech.api.recipe.RecipeMaps.blastFurnaceRecipes;
import static gregtech.api.recipe.RecipeMaps.chemicalBathRecipes;
import static gregtech.api.recipe.RecipeMaps.distillationTowerRecipes;
import static gregtech.api.recipe.RecipeMaps.laserEngraverRecipes;
import static gregtech.api.recipe.RecipeMaps.multiblockChemicalReactorRecipes;
import static gregtech.api.recipe.RecipeMaps.plasmaForgeRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationClarifierRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationDegasifierRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationFlocculationRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationOzonationRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationParticleExtractionRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationPhAdjustmentRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationPlasmaHeatingRecipes;
import static gregtech.api.recipe.RecipeMaps.purificationUVTreatmentRecipes;
import static gregtech.api.util.GT_RecipeBuilder.HOURS;
import static gregtech.api.util.GT_RecipeBuilder.MINUTES;
import static gregtech.api.util.GT_RecipeBuilder.SECONDS;
import static gregtech.api.util.GT_RecipeConstants.AssemblyLine;
import static gregtech.api.util.GT_RecipeConstants.COIL_HEAT;
import static gregtech.api.util.GT_RecipeConstants.RESEARCH_ITEM;
import static gregtech.api.util.GT_RecipeConstants.RESEARCH_TIME;
import static gregtech.common.tileentities.machines.multi.purification.GT_MetaTileEntity_PurificationUnitParticleExtractor.BARYONIC_MATTER_OUTPUT;
import net.minecraft.init.Items;
import net.minecraft.item.ItemStack;
import goodgenerator.items.MyMaterial;
import gregtech.api.enums.GT_Values;
import gregtech.api.enums.HeatingCoilLevel;
import gregtech.api.enums.ItemList;
import gregtech.api.enums.Materials;
import gregtech.api.enums.MaterialsUEVplus;
import gregtech.api.enums.OrePrefixes;
import gregtech.api.enums.TierEU;
import gregtech.api.recipe.maps.PurificationUnitParticleExtractorFrontend;
import gregtech.api.recipe.metadata.PurificationPlantBaseChanceKey;
import gregtech.api.util.GT_ModHandler;
import gregtech.api.util.GT_OreDictUnificator;
import gregtech.api.util.GT_Utility;
import gregtech.common.tileentities.machines.multi.purification.GT_MetaTileEntity_PurificationPlant;
import gregtech.common.tileentities.machines.multi.purification.GT_MetaTileEntity_PurificationUnitUVTreatment;
import gtPlusPlus.core.material.Particle;
public class GT_PurifiedWaterRecipes {
static final PurificationPlantBaseChanceKey BASE_CHANCE = PurificationPlantBaseChanceKey.INSTANCE;
public static void run() {
final int duration = GT_MetaTileEntity_PurificationPlant.CYCLE_TIME_TICKS;
// Grade 1 - Clarifier
GT_Values.RA.stdBuilder()
.itemInputs(ItemList.ActivatedCarbonFilterMesh.get(1))
.fluidInputs(GT_ModHandler.getWater(1000L))
.fluidOutputs(Materials.Grade1PurifiedWater.getFluid(900L))
.itemOutputs(new ItemStack(Items.stick, 1), Materials.Stone.getDust(1), Materials.Gold.getNuggets(1))
.outputChances(1000, 500, 100)
.duration(duration)
.eut(TierEU.RECIPE_LuV)
.metadata(BASE_CHANCE, 70.0f)
.addTo(purificationClarifierRecipes);
// Activated Carbon Line
GT_Values.RA.stdBuilder()
.itemInputs(Materials.Carbon.getDust(1))
.fluidInputs(Materials.PhosphoricAcid.getFluid(1000L))
.itemOutputs(Materials.PreActivatedCarbon.getDust(1))
.duration(5 * SECONDS)
.eut(TierEU.RECIPE_LuV)
.addTo(multiblockChemicalReactorRecipes);
GT_Values.RA.stdBuilder()
.itemInputs(Materials.PreActivatedCarbon.getDust(1))
.itemOutputs(Materials.DirtyActivatedCarbon.getDust(1))
.duration(10 * SECONDS)
.eut(TierEU.RECIPE_EV)
.specialValue((int) HeatingCoilLevel.EV.getHeat())
.addTo(blastFurnaceRecipes);
GT_Values.RA.stdBuilder()
.itemInputs(Materials.DirtyActivatedCarbon.getDust(1))
.fluidInputs(Materials.Water.getFluid(1000L))
.itemOutputs(Materials.ActivatedCarbon.getDust(1))
.fluidOutputs(Materials.PhosphoricAcid.getFluid(1000L))
.noOptimize()
.duration(2 * SECONDS)
.eut(TierEU.RECIPE_IV)
.addTo(chemicalBathRecipes);
GT_Values.RA.stdBuilder()
.itemInputs(
Materials.ActivatedCarbon.getDust(64),
GT_OreDictUnificator.get(OrePrefixes.foil, Materials.Zinc, 16))
.itemOutputs(ItemList.ActivatedCarbonFilterMesh.get(1))
.duration(10 * SECONDS)
.eut(TierEU.RECIPE_IV)
.addTo(assemblerRecipes);
// Grade 2 - Ozonation
for (ItemStack lens : GT_OreDictUnificator.getOres("craftingLensBlue")) {
GT_Values.RA.stdBuilder()
.itemInputs(GT_Utility.copyAmount(0, lens))
.noOptimize()
.fluidInputs(Materials.Air.getGas(10000L))
.fluidOutputs(Materials.Ozone.getGas(2000L))
.duration(1 * SECONDS)
.eut(TierEU.RECIPE_LuV)
.addTo(laserEngraverRecipes);
}
// Recipes for ozonation, uses 128kL, 256kL, 512kL, 1m kL at each tier
// 20% boost per tier
// Gets you up to 80%, need to water boost for 95%
for (int tier = 1; tier <= 4; ++tier) {
GT_Values.RA.stdBuilder()
.noOptimize()
.fluidInputs(
Materials.Grade1PurifiedWater.getFluid(1000L),
Materials.Ozone.getGas(1000 * (long) Math.pow(2, (tier + 6))))
.fluidOutputs(Materials.Grade2PurifiedWater.getFluid(900L))
.itemOutputs(Materials.Manganese.getDust(1), Materials.Iron.getDust(1), Materials.Sulfur.getDust(1))
.outputChances(500, 500, 500)
.duration(duration)
.ignoreCollision()
.eut(TierEU.RECIPE_LuV)
.metadata(BASE_CHANCE, tier * 20.0f)
.addTo(purificationOzonationRecipes);
}
// Grade 3 - Flocculation.
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.Grade2PurifiedWater.getFluid(1000L))
.fluidOutputs(Materials.Grade3PurifiedWater.getFluid(900L))
.itemOutputs(
new ItemStack(Items.clay_ball, 1),
Materials.QuartzSand.getDust(1),
Materials.PolyvinylChloride.getNuggets(1))
.outputChances(1000, 500, 100)
.duration(duration)
.eut(TierEU.RECIPE_ZPM)
.metadata(BASE_CHANCE, 1 * 10.0f)
.addTo(purificationFlocculationRecipes);
// 2 Al(OH)3 + 3 HCl -> Al2(OH)3 Cl3 + 3 H2O
GT_Values.RA.stdBuilder()
.itemInputs(Materials.Aluminiumhydroxide.getDust(8))
.fluidInputs(Materials.HydrochloricAcid.getFluid(3000L))
.fluidOutputs(Materials.PolyAluminiumChloride.getFluid(1000L), Materials.Water.getFluid(3000L))
.duration(4 * SECONDS)
.eut(TierEU.RECIPE_EV)
.addTo(multiblockChemicalReactorRecipes);
// Diluted is twice what chem balance would suggest, but it is 2:1 with hydrochloric acid which makes it
// correct I believe.
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.FlocculationWasteLiquid.getFluid(1000L))
.itemOutputs(Materials.Aluminium.getDust(2))
.fluidOutputs(Materials.Oxygen.getGas(3000L), Materials.DilutedHydrochloricAcid.getFluid(6000L))
.duration(1 * SECONDS)
.eut(TierEU.RECIPE_EV)
.addTo(distillationTowerRecipes);
// Grade 4 - pH adjustment
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.Grade3PurifiedWater.getFluid(1000L))
.fluidOutputs(Materials.Grade4PurifiedWater.getFluid(900L))
.ignoreCollision()
.duration(duration)
.eut(TierEU.RECIPE_ZPM)
.metadata(BASE_CHANCE, 0.0f)
.addTo(purificationPhAdjustmentRecipes);
// Grade 5 - Plasma Heating
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.Grade4PurifiedWater.getFluid(1000L))
.fluidOutputs(Materials.Grade5PurifiedWater.getFluid(900L))
.ignoreCollision()
.duration(duration)
.eut(TierEU.RECIPE_UV)
.metadata(BASE_CHANCE, 0.0f)
.addTo(purificationPlasmaHeatingRecipes);
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS.add(MyMaterial.orundum.get(OrePrefixes.lens, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, Materials.Amber, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, Materials.InfusedAir, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, Materials.Emerald, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, ManaDiamond, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, Materials.BlueTopaz, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, Materials.Amethyst, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS.add(FluorBuergerit.get(OrePrefixes.lens, 1));
GT_MetaTileEntity_PurificationUnitUVTreatment.LENS_ITEMS
.add(GT_OreDictUnificator.get(OrePrefixes.lens, Materials.Dilithium, 1));
// Grade 6 - UV treatment
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.Grade5PurifiedWater.getFluid(1000L))
.fluidOutputs(Materials.Grade6PurifiedWater.getFluid(900L))
.ignoreCollision()
.duration(duration)
.eut(TierEU.RECIPE_UV)
.metadata(BASE_CHANCE, 0.0f)
.addTo(purificationUVTreatmentRecipes);
// Grade 7 - Degasification
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.Grade6PurifiedWater.getFluid(1000L))
.fluidOutputs(Materials.Grade7PurifiedWater.getFluid(900L))
.ignoreCollision()
.duration(duration)
.eut(TierEU.RECIPE_UHV)
.metadata(BASE_CHANCE, 0.0f)
.addTo(purificationDegasifierRecipes);
// Grade 8 - Quark Extraction
ItemStack[] catalystInputs = new ItemStack[] { ItemList.Quark_Creation_Catalyst_Up.get(1L),
ItemList.Quark_Creation_Catalyst_Down.get(1L), ItemList.Quark_Creation_Catalyst_Bottom.get(1L),
ItemList.Quark_Creation_Catalyst_Top.get(1L), ItemList.Quark_Creation_Catalyst_Strange.get(1L),
ItemList.Quark_Creation_Catalyst_Charm.get(1L) };
// Add all combinations of input items to the frontend map
for (int i = 0; i < catalystInputs.length; ++i) {
for (int j = 1; j < catalystInputs.length; ++j) {
PurificationUnitParticleExtractorFrontend.inputItems.add(catalystInputs[i]);
PurificationUnitParticleExtractorFrontend.inputItemsShuffled
.add(catalystInputs[(i + j) % catalystInputs.length]);
}
}
// Add re-alignment recipes
for (int i = 0; i < catalystInputs.length; ++i) {
GT_Values.RA.stdBuilder()
.itemInputs(ItemList.Quark_Creation_Catalyst_Unaligned.get(1), GT_Utility.getIntegratedCircuit(i + 1))
.fluidInputs(Materials.StableBaryonicMatter.getFluid(1000L))
.itemOutputs(catalystInputs[i])
.duration(30 * SECONDS)
.eut(TierEU.RECIPE_UHV)
// Not sure how I feel about it being in the laser engraver, but I don't see a better multi for it right
// now,
// and we can't really add a new one specifically for this (... for now)
.addTo(laserEngraverRecipes);
}
// Initial aligned quark catalysts, these are not meant to be done often, and simply exist to get you started
ItemStack[] quarks = new ItemStack[] { // make sure these are in the same order as the list above
Particle.getBaseParticle(Particle.UP), Particle.getBaseParticle(Particle.DOWN),
Particle.getBaseParticle(Particle.BOTTOM), Particle.getBaseParticle(Particle.TOP),
Particle.getBaseParticle(Particle.STRANGE), Particle.getBaseParticle(Particle.CHARM) };
for (int i = 0; i < catalystInputs.length; ++i) {
GT_Values.RA.stdBuilder()
.itemInputs(ItemList.Quark_Catalyst_Housing.get(1), quarks[i])
.fluidInputs(MaterialsUEVplus.ExcitedDTRC.getFluid(10000L))
.itemOutputs(catalystInputs[i])
.metadata(COIL_HEAT, 10800)
.eut(TierEU.RECIPE_UMV)
.duration(5 * MINUTES)
.addTo(plasmaForgeRecipes);
}
// Recipe for quark catalyst housing
GT_Values.RA.stdBuilder()
.metadata(RESEARCH_ITEM, ItemList.Electromagnet_Tengam.get(1))
.metadata(RESEARCH_TIME, 1 * HOURS)
.itemInputs(
GT_OreDictUnificator.get(OrePrefixes.plate, Materials.Neutronium, 16),
GT_OreDictUnificator.get(OrePrefixes.plate, Materials.Infinity, 16),
GT_OreDictUnificator.get(OrePrefixes.plate, Materials.Tritanium, 16),
GT_OreDictUnificator.get(OrePrefixes.plate, Materials.CosmicNeutronium, 16),
GT_OreDictUnificator.get(OrePrefixes.wireFine, Materials.Neutronium, 64),
GT_OreDictUnificator.get(OrePrefixes.wireFine, Materials.Infinity, 64),
GT_OreDictUnificator.get(OrePrefixes.wireFine, Materials.Tritanium, 64),
GT_OreDictUnificator.get(OrePrefixes.wireFine, Materials.CosmicNeutronium, 64),
GT_OreDictUnificator.get(OrePrefixes.circuit, Materials.UHV, 16),
GT_OreDictUnificator.get(OrePrefixes.circuit, Materials.UEV, 8),
ItemList.Field_Generator_UEV.get(4))
.fluidInputs(
Materials.Neutronium.getMolten(16 * 144),
Materials.Infinity.getMolten(16 * 144),
Materials.Tritanium.getMolten(16 * 144),
Materials.CosmicNeutronium.getMolten(16 * 144))
.itemOutputs(ItemList.Quark_Catalyst_Housing.get(1))
.eut(TierEU.RECIPE_UIV)
.duration(60 * SECONDS)
.addTo(AssemblyLine);
GT_Values.RA.stdBuilder()
// Fake item inputs
.itemInputs(ItemList.Quark_Creation_Catalyst_Charm.get(1), ItemList.Quark_Creation_Catalyst_Strange.get(1))
.fluidInputs(Materials.Grade7PurifiedWater.getFluid(1000L))
.fluidOutputs(
Materials.Grade8PurifiedWater.getFluid(900L),
Materials.StableBaryonicMatter.getFluid(BARYONIC_MATTER_OUTPUT))
.itemOutputs(ItemList.Quark_Creation_Catalyst_Unaligned.get(2L))
.ignoreCollision()
.duration(duration)
.eut(TierEU.RECIPE_UEV)
.metadata(BASE_CHANCE, 0.0f)
.fake()
.addTo(purificationParticleExtractionRecipes);
// real recipe
GT_Values.RA.stdBuilder()
.fluidInputs(Materials.Grade7PurifiedWater.getFluid(1000L))
.fluidOutputs(
Materials.Grade8PurifiedWater.getFluid(900L),
Materials.StableBaryonicMatter.getFluid(BARYONIC_MATTER_OUTPUT))
.itemOutputs(ItemList.Quark_Creation_Catalyst_Unaligned.get(2L))
.ignoreCollision()
.duration(duration)
.eut(TierEU.RECIPE_UEV)
.metadata(BASE_CHANCE, 0.0f)
.hidden()
.addTo(purificationParticleExtractionRecipes);
}
}
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