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package com.elisis.gtnhlanth.loader;
import static com.elisis.gtnhlanth.common.register.BotWerkstoffMaterialPool.*;
import static gregtech.api.enums.OrePrefixes.*;
import static gregtech.api.recipe.RecipeMaps.chemicalReactorRecipes;
import static gregtech.api.recipe.RecipeMaps.electrolyzerRecipes;
import static gregtech.api.util.GT_RecipeBuilder.SECONDS;
import static gregtech.api.util.GT_RecipeBuilder.TICKS;
import static gregtech.api.util.GT_RecipeConstants.UniversalChemical;
import java.util.HashSet;
import net.minecraft.item.ItemStack;
import net.minecraftforge.fluids.FluidStack;
import com.elisis.gtnhlanth.common.register.BotWerkstoffMaterialPool;
import com.github.bartimaeusnek.bartworks.system.material.WerkstoffLoader;
import gregtech.api.enums.GT_Values;
import gregtech.api.enums.Materials;
import gregtech.api.enums.TierEU;
import gregtech.api.util.GT_ModHandler;
import gregtech.api.util.GT_OreDictUnificator;
import gregtech.api.util.GT_Recipe;
import gregtech.api.util.GT_Utility;
import ic2.core.Ic2Items;
/*
* Originally authored by botn365 under the MIT License. See BotdustriesLICENSE
*/
public class BotRecipes {
public static void addGTRecipe() {
ItemStack C1 = GT_Utility.getIntegratedCircuit(1);
ItemStack C2 = GT_Utility.getIntegratedCircuit(2);
ItemStack C24 = GT_Utility.getIntegratedCircuit(24);
// CaCO3 + 2HCl = H2O + CO2 + CaCl2
GT_Values.RA.addChemicalRecipe(
Materials.Calcite.getDust(5),
Materials.Empty.getCells(1),
Materials.HydrochloricAcid.getFluid(2000),
Materials.Water.getFluid(1000),
Materials.CarbonDioxide.getCells(1),
WerkstoffLoader.CalciumChloride.get(dust, 3),
80,
120);
// tungsten chain
FluidStack sodiumTungsten = SodiumTungstate.getFluidOrGas(1000);
ItemStack scheelite = Materials.Scheelite.getDust(6);
// Li2WO4 + 2Na = Na2WO4 + 2Li
GT_Values.RA.addAutoclaveRecipe(
Materials.Tungstate.getDust(7),
Materials.Sodium.getDust(2),
Materials.Water.getFluid(4000),
sodiumTungsten,
Materials.Lithium.getDust(2),
10000,
100,
1920,
false);
// MnWO4 + 2Na = Na2WO4 + Mn
GT_Values.RA.addAutoclaveRecipe(
WerkstoffLoader.Huebnerit.get(dust, 6),
Materials.Sodium.getDust(2),
Materials.Water.getFluid(4000),
sodiumTungsten,
Materials.Manganese.getDust(1),
10000,
100,
1920,
false);
// FeWO4 + 2Na = Na2WO4 + Fe
GT_Values.RA.addAutoclaveRecipe(
WerkstoffLoader.Ferberite.get(dust, 6),
Materials.Sodium.getDust(2),
Materials.Water.getFluid(4000),
sodiumTungsten,
Materials.Iron.getDust(1),
10000,
100,
1920,
false);
// CaCl2 + Na2WO4 = 2NaCl + CaWO4
ItemStack Ca2Cl = WerkstoffLoader.CalciumChloride.get(dust, 3);
GT_Values.RA
.addChemicalRecipe(Ca2Cl, null, sodiumTungsten, null, scheelite, Materials.Salt.getDust(4), 100, 480);
ItemStack H2WO4 = TungsticAcid.get(dust, 7);
// CaWO4 + 2HCl = H2WO4 + CaCl2
GT_Values.RA.addChemicalRecipe(
scheelite,
null,
Materials.HydrochloricAcid.getFluid(2000),
null,
H2WO4,
Ca2Cl,
50,
1920);
ItemStack WO3 = TungstenTrioxide.get(dust, 4);
// H2WO4 = WO3 + H2O
GT_Values.RA.addBlastRecipe(H2WO4, null, null, null, WO3, null, 200, 480, 1200);
// WO3 + 6H = W + 3H2O
GT_Values.RA.addBlastRecipe(
WO3,
C2,
Materials.Hydrogen.getGas(6000),
GT_ModHandler.getSteam(3000),
Materials.Tungsten.getDust(1),
null,
100,
1920,
1000);
WO3.stackSize = 8;
// 2WO3 + 3C = 2W + 3CO2
GT_Values.RA.addBlastRecipe(
WO3,
Materials.Carbon.getDust(3),
null,
Materials.CarbonDioxide.getGas(3000),
GT_OreDictUnificator.get(ingotHot, Materials.Tungsten, 2L),
null,
8000,
1920,
3000);
// rocket fuels
// LMP103S
// 2Cl + CO = COCl2
GT_Values.RA.stdBuilder()
.itemInputs(Materials.CarbonMonoxide.getCells(1), GT_Utility.getIntegratedCircuit(12))
.itemOutputs(Phosgene.get(cell, 1))
.fluidInputs(Materials.Chlorine.getGas(2000))
.duration(2 * SECONDS + 10 * TICKS)
.eut(TierEU.RECIPE_HV)
.addTo(chemicalReactorRecipes);
GT_Values.RA.stdBuilder()
.itemInputs(Materials.Chlorine.getCells(2), GT_Utility.getIntegratedCircuit(12))
.itemOutputs(Phosgene.get(cell, 1), Materials.Empty.getCells(1))
.fluidInputs(Materials.CarbonMonoxide.getGas(1000))
.duration(2 * SECONDS + 10 * TICKS)
.eut(TierEU.RECIPE_HV)
.addTo(chemicalReactorRecipes);
GT_Values.RA.stdBuilder()
.itemInputs(Materials.CarbonMonoxide.getCells(1), Materials.Chlorine.getCells(2))
.itemOutputs(Phosgene.get(cell, 1), Materials.Empty.getCells(2))
.duration(2 * SECONDS + 10 * TICKS)
.eut(TierEU.RECIPE_HV)
.addTo(chemicalReactorRecipes);
GT_Values.RA.stdBuilder()
.itemInputs(Materials.Chlorine.getCells(2), GT_Utility.getIntegratedCircuit(2))
.itemOutputs(Materials.Empty.getCells(2))
.fluidInputs(Materials.CarbonMonoxide.getGas(1000))
.fluidOutputs(BotWerkstoffMaterialPool.Phosgene.getFluidOrGas(1000))
.duration(2 * SECONDS + 10 * TICKS)
.eut(TierEU.RECIPE_HV)
.addTo(UniversalChemical);
// H3PO4 = P + H2O
GT_Values.RA.addDistilleryRecipe(
C2,
Materials.PhosphoricAcid.getFluid(1000),
Materials.Water.getFluid(500),
Materials.Phosphorus.getDust(1),
20,
480,
false);
ItemStack cells = Ic2Items.cell.copy();
cells.stackSize = 1;
// NH4Cl = HCl + NH3
GT_Values.RA.addDistilleryRecipe(
cells,
WerkstoffLoader.AmmoniumChloride.getFluidOrGas(1000),
Materials.HydrochloricAcid.getFluid(1000),
Materials.Ammonia.getCells(1),
50,
120,
false);
// N2H4O3 + NaOH = NaNO3 + NH3 + H2O
GT_Values.RA.addChemicalRecipeForBasicMachineOnly(
AmmoniumNitrate.get(dust, 9),
Materials.SodiumHydroxide.getDust(3),
null,
Materials.Ammonia.getGas(1000),
WerkstoffLoader.SodiumNitrate.get(dust, 5),
null,
100,
480);
GT_Values.RA.addMultiblockChemicalRecipe(
new ItemStack[] { AmmoniumNitrate.get(dust, 9), Materials.SodiumHydroxide.getDust(3), C2 },
null,
new FluidStack[] { Materials.Ammonia.getGas(1000), Materials.Water.getFluid(1000) },
new ItemStack[] { WerkstoffLoader.SodiumNitrate.get(dust, 5) },
100,
480);
// N2H4O3 + NaOH + H =H2SO4= NH3 + HNO3 + Na + H2O
GT_Values.RA.addMultiblockChemicalRecipe(
new ItemStack[] { C24, AmmoniumNitrate.get(dust, 9), Materials.SodiumHydroxide.getDust(3) },
new FluidStack[] { Materials.SulfuricAcid.getFluid(1000), Materials.Hydrogen.getGas(1000) },
new FluidStack[] { Materials.Ammonia.getGas(1000), Materials.NitricAcid.getFluid(1000),
Materials.DilutedSulfuricAcid.getFluid(1000) },
new ItemStack[] { Materials.Sodium.getDust(1) },
300,
480);
// Monomethylhydrazine
cells.stackSize = 1;
// C7H8 + CH4O = C8H10 + H2O
GT_Values.RA.addCrackingRecipe(
1,
Materials.Toluene.getFluid(1000),
Materials.Methanol.getFluid(1000),
OXylene.getFluidOrGas(1000),
600,
4096);
// 2HNO3 + C3H8 = 2CH3NO2 + 2H2O + C
GT_Values.RA.addCrackingRecipe(
2,
Materials.Propane.getGas(1000),
Materials.NitricAcid.getFluid(2000),
Nitromethane.getFluidOrGas(2000),
300,
1920);
}
public static void removeRecipes() {
BotRecipes.removeTungstenElectro();
}
public static void removeTungstenElectro() {
HashSet<GT_Recipe> toDel = new HashSet<>();
ItemStack[] toRemove = { Materials.Scheelite.getDust(1), Materials.Tungstate.getDust(1),
WerkstoffLoader.Ferberite.get(dust, 1), WerkstoffLoader.Huebnerit.get(dust, 1) };
for (GT_Recipe tRecipe : electrolyzerRecipes.getAllRecipes()) {
if (tRecipe.mFakeRecipe) continue;
for (int i = 0; i < tRecipe.mInputs.length; i++) {
ItemStack tItem = tRecipe.mInputs[i];
if (item == null || !GT_Utility.isStackValid(tItem)) continue;
for (ItemStack tStack : toRemove) {
if (GT_Utility.areStacksEqual(tItem, tStack)) {
toDel.add(tRecipe);
continue;
}
}
}
}
electrolyzerRecipes.getBackend()
.removeRecipes(toDel);
electrolyzerRecipes.getBackend()
.reInit();
}
}
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