package gregtech.loaders.oreprocessing; import static gregtech.api.enums.GT_Values.L; import static gregtech.api.enums.GT_Values.NI; import static gregtech.api.enums.GT_Values.W; import static gregtech.api.recipe.RecipeMaps.alloySmelterRecipes; import static gregtech.api.recipe.RecipeMaps.assemblerRecipes; import static gregtech.api.recipe.RecipeMaps.benderRecipes; import static gregtech.api.recipe.RecipeMaps.cutterRecipes; import static gregtech.api.recipe.RecipeMaps.extruderRecipes; import static gregtech.api.recipe.RecipeMaps.fluidSolidifierRecipes; import static gregtech.api.recipe.RecipeMaps.implosionRecipes; import static gregtech.api.util.GT_ModHandler.RecipeBits.BUFFERED; import static gregtech.api.util.GT_ModHandler.RecipeBits.DO_NOT_CHECK_FOR_COLLISIONS; import static gregtech.api.util.GT_RecipeBuilder.MINUTES; import static gregtech.api.util.GT_RecipeBuilder.SECONDS; 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 static gregtech.api.util.GT_Utility.calculateRecipeEU; import static gregtech.common.GT_Proxy.tBits; import net.minecraft.block.Block; import net.minecraft.init.Blocks; import net.minecraft.init.Items; import net.minecraft.item.ItemStack; import gregtech.api.GregTech_API; 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.SubTag; import gregtech.api.enums.TextureSet; import gregtech.api.enums.TierEU; import gregtech.api.enums.ToolDictNames; import gregtech.api.recipe.RecipeCategories; import gregtech.api.render.TextureFactory; import gregtech.api.util.GT_ModHandler; import gregtech.api.util.GT_OreDictUnificator; import gregtech.api.util.GT_RecipeConstants; import gregtech.api.util.GT_RecipeRegistrator; import gregtech.api.util.GT_Utility; public class ProcessingPlate implements gregtech.api.interfaces.IOreRecipeRegistrator { public ProcessingPlate() { OrePrefixes.plate.add(this); OrePrefixes.plateDouble.add(this); OrePrefixes.plateTriple.add(this); OrePrefixes.plateQuadruple.add(this); OrePrefixes.plateQuintuple.add(this); OrePrefixes.plateDense.add(this); OrePrefixes.plateAlloy.add(this); OrePrefixes.itemCasing.add(this); } /** * Register processes for the {@link ItemStack} with Ore Dictionary Name Prefix "plate" * * @param aPrefix always != null, the {@link OrePrefixes} of the {@link ItemStack} * @param aMaterial always != null, and can be == _NULL if the Prefix is Self Referencing or not Material based! * the {@link Materials} of the {@link ItemStack} * @param aOreDictName the Ore Dictionary Name {@link String} of the {@link ItemStack} * @param aModName the ModID {@link String} of the mod providing this {@link ItemStack} * @param aStack always != null, the {@link ItemStack} to register */ @Override public void registerOre(OrePrefixes aPrefix, Materials aMaterial, String aOreDictName, String aModName, ItemStack aStack) { final boolean aNoSmashing = aMaterial.contains(SubTag.NO_SMASHING); final boolean aNoWorking = aMaterial.contains(SubTag.NO_WORKING); final long aMaterialMass = aMaterial.getMass(); switch (aPrefix) { case plate -> registerPlate(aMaterial, aStack, aNoSmashing); case plateDouble -> registerPlateDouble(aMaterial, aStack, aNoSmashing, aMaterialMass); case plateTriple -> registerPlateTriple(aMaterial, aStack, aNoSmashing, aMaterialMass); case plateQuadruple -> registerPlateQuadruple(aMaterial, aStack, aNoSmashing, aMaterialMass, aNoWorking); case plateQuintuple -> registerPlateQuintuple(aMaterial, aStack, aNoSmashing, aMaterialMass); case plateDense -> registerPlateDense(aMaterial, aStack, aNoSmashing, aMaterialMass); case itemCasing -> registerItemCasing(aPrefix, aMaterial, aStack, aNoSmashing); case plateAlloy -> registerPlateAlloy(aOreDictName, aStack); default -> {} } } private void registerPlate(final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing) { registerCover(aMaterial, aStack); GT_ModHandler.removeRecipeByOutputDelayed(aStack); GT_ModHandler.removeRecipeDelayed(aStack); GT_Utility.removeSimpleIC2MachineRecipe( GT_Utility.copyAmount(9, aStack), GT_ModHandler.getCompressorRecipeList(), GT_OreDictUnificator.get(OrePrefixes.plateDense, aMaterial, 1L)); if (aMaterial.mFuelPower > 0) { GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack)) .metadata(FUEL_VALUE, aMaterial.mFuelPower) .metadata(FUEL_TYPE, aMaterial.mFuelType) .addTo(GT_RecipeConstants.Fuel); } if (aMaterial.mStandardMoltenFluid != null && !(aMaterial == Materials.AnnealedCopper || aMaterial == Materials.WroughtIron)) { GT_Values.RA.stdBuilder() .itemInputs(ItemList.Shape_Mold_Plate.get(0L)) .itemOutputs(aMaterial.getPlates(1)) .fluidInputs(aMaterial.getMolten(L)) .duration(1 * SECONDS + 12 * TICKS) .eut(calculateRecipeEU(aMaterial, 8)) .addTo(fluidSolidifierRecipes); } GT_ModHandler.addCraftingRecipe( GT_OreDictUnificator.get(OrePrefixes.foil, aMaterial, 2L), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "hX", 'X', OrePrefixes.plate.get(aMaterial) }); if (aMaterial == Materials.Paper) { GT_ModHandler.addCraftingRecipe( GT_Utility.copyAmount(2, aStack), BUFFERED, new Object[] { "XXX", 'X', new ItemStack(Items.reeds, 1, W) }); } if (aMaterial.mUnificatable && aMaterial.mMaterialInto == aMaterial) { if (!aNoSmashing) { if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { GT_ModHandler.addCraftingRecipe( aMaterial.getPlates(1), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "h", // craftingToolHardHammer "X", "X", 'X', OrePrefixes.ingot.get(aMaterial) }); // Only added if IC2 Forge Hammer is enabled in Recipes.cfg: B:ic2forgehammer_true=false GT_ModHandler.addCraftingRecipe( aMaterial.getPlates(1), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "H", // craftingToolForgeHammer "X", 'H', ToolDictNames.craftingToolForgeHammer, 'X', OrePrefixes.ingot.get(aMaterial) }); GT_ModHandler.addCraftingRecipe( aMaterial.getPlates(1), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "h", // craftingToolHardHammer "X", 'X', OrePrefixes.gem.get(aMaterial) }); // Only added if IC2 Forge Hammer is enabled in Recipes.cfg: B:ic2forgehammer_true=false GT_ModHandler.addCraftingRecipe( aMaterial.getPlates(1), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "H", // craftingToolForgeHammer "X", 'H', ToolDictNames.craftingToolForgeHammer, 'X', OrePrefixes.gem.get(aMaterial) }); } } if (aMaterial.contains(SubTag.MORTAR_GRINDABLE)) { if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { GT_ModHandler.addShapelessCraftingRecipe( aMaterial.getDust(1), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { ToolDictNames.craftingToolMortar, OrePrefixes.plate.get(aMaterial) }); } } } } private void registerPlateDouble(final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing, final long aMaterialMass) { registerCover(aMaterial, aStack); GT_ModHandler.removeRecipeByOutputDelayed(aStack); if (!aNoSmashing || aMaterial.contains(SubTag.STRETCHY)) { // 2 double -> 1 quadruple plate if (GT_OreDictUnificator.get(OrePrefixes.plateQuadruple, aMaterial, 1L) != null) { GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(2, aStack), GT_Utility.getIntegratedCircuit(2)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.plateQuadruple, aMaterial, 1L)) .duration(Math.max(aMaterialMass * 2L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } // 2 plates -> 1 double plate GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 2L), GT_Utility.getIntegratedCircuit(2)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .duration(Math.max(aMaterialMass * 2L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } else { GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 2L), GT_Utility.getIntegratedCircuit(2)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .fluidInputs(Materials.Glue.getFluid(10L)) .duration(3 * SECONDS + 4 * TICKS) .eut(8) .addTo(assemblerRecipes); } if (!aNoSmashing) { Object aPlateStack = OrePrefixes.plate.get(aMaterial); if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { GT_ModHandler.addCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { "I", "B", "h", // craftingToolHardHammer 'I', aPlateStack, 'B', aPlateStack }); } } } private void registerPlateTriple(final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing, final long aMaterialMass) { registerCover(aMaterial, aStack); GT_ModHandler.removeRecipeByOutputDelayed(aStack); if (!aNoSmashing || aMaterial.contains(SubTag.STRETCHY)) { if (GT_OreDictUnificator.get(OrePrefixes.plateDense, aMaterial, 1L) != null) { // 3 triple plates -> 1 dense plate GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(3, aStack), GT_Utility.getIntegratedCircuit(3)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.plateDense, aMaterial, 1L)) .duration(Math.max(aMaterialMass * 3L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 3L), GT_Utility.getIntegratedCircuit(3)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .duration(Math.max(aMaterialMass * 3L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } else { GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 3L), GT_Utility.getIntegratedCircuit(3)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .fluidInputs(Materials.Glue.getFluid(20L)) .duration(4 * SECONDS + 16 * TICKS) .eut(8) .addTo(assemblerRecipes); } if (!aNoSmashing) { if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { Object aPlateStack = OrePrefixes.plate.get(aMaterial); GT_ModHandler.addCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { "I", "B", "h", // craftingToolHardHammer 'I', OrePrefixes.plateDouble.get(aMaterial), 'B', aPlateStack }); GT_ModHandler.addShapelessCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { gregtech.api.enums.ToolDictNames.craftingToolForgeHammer, aPlateStack, aPlateStack, aPlateStack }); } } if (GT_OreDictUnificator.get(OrePrefixes.compressed, aMaterial, 1L) != null) { GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack), ItemList.Block_Powderbarrel.get(4)) .itemOutputs( GT_OreDictUnificator.get(OrePrefixes.compressed, aMaterial, 1L), GT_OreDictUnificator.get(OrePrefixes.dustTiny, Materials.DarkAsh, 1L)) .duration(1 * SECONDS) .eut(TierEU.RECIPE_LV) .addTo(implosionRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack), GT_ModHandler.getIC2Item("dynamite", 1, null)) .itemOutputs( GT_OreDictUnificator.get(OrePrefixes.compressed, aMaterial, 1L), GT_OreDictUnificator.get(OrePrefixes.dustTiny, Materials.DarkAsh, 1L)) .duration(1 * SECONDS) .eut(TierEU.RECIPE_LV) .addTo(implosionRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack), new ItemStack(Blocks.tnt, 2)) .itemOutputs( GT_OreDictUnificator.get(OrePrefixes.compressed, aMaterial, 1L), GT_OreDictUnificator.get(OrePrefixes.dustTiny, Materials.DarkAsh, 1L)) .duration(1 * SECONDS) .eut(TierEU.RECIPE_LV) .addTo(implosionRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack), GT_ModHandler.getIC2Item("industrialTnt", 1)) .itemOutputs( GT_OreDictUnificator.get(OrePrefixes.compressed, aMaterial, 1L), GT_OreDictUnificator.get(OrePrefixes.dustTiny, Materials.DarkAsh, 1L)) .duration(1 * SECONDS) .eut(TierEU.RECIPE_LV) .addTo(implosionRecipes); } } private void registerPlateQuadruple(final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing, final long aMaterialMass, final boolean aNoWorking) { registerCover(aMaterial, aStack); GT_ModHandler.removeRecipeByOutputDelayed(aStack); if (!aNoSmashing || aMaterial.contains(SubTag.STRETCHY)) { // Quadruple plate GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 4L), GT_Utility.getIntegratedCircuit(4)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .duration(Math.max(aMaterialMass * 4L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } else { GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 4L), GT_Utility.getIntegratedCircuit(4)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .fluidInputs(Materials.Glue.getFluid(30L)) .duration(6 * SECONDS + 8 * TICKS) .eut(8) .addTo(assemblerRecipes); } if (!aNoSmashing) { if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { Object aPlateStack = OrePrefixes.plate.get(aMaterial); GT_ModHandler.addCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { "I", "B", "h", // craftingToolHardHammer 'I', OrePrefixes.plateTriple.get(aMaterial), 'B', aPlateStack }); GT_ModHandler.addShapelessCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { gregtech.api.enums.ToolDictNames.craftingToolForgeHammer, aPlateStack, aPlateStack, aPlateStack, aPlateStack }); } } } private void registerPlateQuintuple(final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing, final long aMaterialMass) { registerCover(aMaterial, aStack); GT_ModHandler.removeRecipeByOutputDelayed(aStack); if (!aNoSmashing || aMaterial.contains(SubTag.STRETCHY)) { // quintuple plate GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 5L), GT_Utility.getIntegratedCircuit(5)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .duration(Math.max(aMaterialMass * 5L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } else { GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 5L), GT_Utility.getIntegratedCircuit(5)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .fluidInputs(Materials.Glue.getFluid(40L)) .duration(8 * SECONDS) .eut(8) .addTo(assemblerRecipes); } if (!aNoSmashing) { if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { Object aPlateStack = OrePrefixes.plate.get(aMaterial); GT_ModHandler.addCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { "I", "B", "h", // craftingToolHardHammer 'I', OrePrefixes.plateQuadruple.get(aMaterial), 'B', aPlateStack }); GT_ModHandler.addShapelessCraftingRecipe( GT_Utility.copyAmount(1, aStack), DO_NOT_CHECK_FOR_COLLISIONS | BUFFERED, new Object[] { ToolDictNames.craftingToolForgeHammer, aPlateStack, aPlateStack, aPlateStack, aPlateStack, aPlateStack }); } } } private void registerPlateDense(final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing, final long aMaterialMass) { registerCover(aMaterial, aStack); GT_ModHandler.removeRecipeByOutputDelayed(aStack); if (!aNoSmashing || aMaterial.contains(SubTag.STRETCHY)) { // Dense plate GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 9L), GT_Utility.getIntegratedCircuit(9)) .itemOutputs(GT_Utility.copyAmount(1, aStack)) .duration(Math.max(aMaterialMass * 9L, 1L)) .eut(calculateRecipeEU(aMaterial, 96)) .addTo(benderRecipes); } } private void registerItemCasing(final OrePrefixes aPrefix, final Materials aMaterial, final ItemStack aStack, final boolean aNoSmashing) { GT_ModHandler.removeRecipeByOutputDelayed(aStack); if (aMaterial.mStandardMoltenFluid != null) { GT_Values.RA.stdBuilder() .itemInputs(ItemList.Shape_Mold_Casing.get(0L)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 1L)) .fluidInputs(aMaterial.getMolten(L / 2)) .duration(16 * TICKS) .eut(calculateRecipeEU(aMaterial, 8)) .addTo(fluidSolidifierRecipes); } if (aMaterial.mUnificatable && aMaterial.mMaterialInto == aMaterial && !aNoSmashing) { if (aMaterial.getProcessingMaterialTierEU() < TierEU.IV) { GT_ModHandler.addCraftingRecipe( GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 1L), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "h X", 'X', OrePrefixes.plate.get(aMaterial) }); // Only added if IC2 Forge Hammer is enabled in Recipes.cfg: B:ic2forgehammer_true=false GT_ModHandler.addCraftingRecipe( GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 1L), tBits, // DO_NOT_CHECK_FOR_COLLISIONS|BUFFERED|ONLY_ADD_IF_RESULT_IS_NOT_NULL|NOT_REMOVABLE new Object[] { "H X", 'H', ToolDictNames.craftingToolForgeHammer, 'X', OrePrefixes.plate.get(aMaterial) }); } } if (GT_OreDictUnificator.get(OrePrefixes.ingot, aMaterial, 1L) != null) { GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.ingot, aMaterial, 2L), ItemList.Shape_Mold_Casing.get(0L)) .itemOutputs(GT_Utility.copyAmount(3, aStack)) .duration(6 * SECONDS + 8 * TICKS) .eut(calculateRecipeEU(aMaterial, 15)) .recipeCategory(RecipeCategories.alloySmelterMolding) .addTo(alloySmelterRecipes); GT_Values.RA.stdBuilder() .itemInputs( GT_OreDictUnificator.get(OrePrefixes.ingot, aMaterial, 1L), ItemList.Shape_Extruder_Casing.get(0L)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 2L)) .duration(((int) Math.max(aMaterial.getMass(), 1L)) * TICKS) .eut(calculateRecipeEU(aMaterial, 45)) .addTo(extruderRecipes); } if (GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 1L) != null) { GT_Values.RA.stdBuilder() .itemInputs(GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 1L)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 2L)) .fluidInputs( Materials.Water.getFluid( Math.max( 4, Math.min( 1000, ((int) Math.max(aMaterial.getMass(), 1L)) * (calculateRecipeEU(aMaterial, 16)) / 320)))) .duration(2 * ((int) Math.max(aMaterial.getMass(), 1L)) * TICKS) .eut(calculateRecipeEU(aMaterial, 16)) .addTo(cutterRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 1L)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 2L)) .fluidInputs( GT_ModHandler.getDistilledWater( Math.max( 3, Math.min( 750, ((int) Math.max(aMaterial.getMass(), 1L)) * (calculateRecipeEU(aMaterial, 16)) / 426)))) .duration(2 * ((int) Math.max(aMaterial.getMass(), 1L)) * TICKS) .eut(calculateRecipeEU(aMaterial, 16)) .addTo(cutterRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_OreDictUnificator.get(OrePrefixes.plate, aMaterial, 1L)) .itemOutputs(GT_OreDictUnificator.get(OrePrefixes.itemCasing, aMaterial, 2L)) .fluidInputs( Materials.Lubricant.getFluid( Math.max( 1, Math.min( 250, ((int) Math.max(aMaterial.getMass(), 1L)) * (calculateRecipeEU(aMaterial, 16)) / 1280)))) .duration(((int) Math.max(aMaterial.getMass(), 1L)) * TICKS) .eut(calculateRecipeEU(aMaterial, 16)) .addTo(cutterRecipes); } GT_RecipeRegistrator.registerReverseFluidSmelting(aStack, aMaterial, aPrefix.mMaterialAmount, null); } private void registerPlateAlloy(final String aOreDictName, final ItemStack aStack) { switch (aOreDictName) { case "plateAlloyCarbon" -> { GT_Values.RA.stdBuilder() .itemInputs(GT_ModHandler.getIC2Item("generator", 1L), GT_Utility.copyAmount(4, aStack)) .itemOutputs(GT_ModHandler.getIC2Item("windMill", 1L)) .duration(5 * MINUTES + 20 * SECONDS) .eut(8) .addTo(assemblerRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack), new ItemStack(Blocks.glass, 3, W)) .itemOutputs(GT_ModHandler.getIC2Item("reinforcedGlass", 4L)) .duration(20 * SECONDS) .eut(4) .addTo(alloySmelterRecipes); GT_Values.RA.stdBuilder() .itemInputs(GT_Utility.copyAmount(1, aStack), Materials.Glass.getDust(3)) .itemOutputs(GT_ModHandler.getIC2Item("reinforcedGlass", 4L)) .duration(20 * SECONDS) .eut(4) .addTo(alloySmelterRecipes); } case "plateAlloyAdvanced" -> { GT_ModHandler.addAlloySmelterRecipe( GT_Utility.copyAmount(1, aStack), new ItemStack(Blocks.glass, 3, W), GT_ModHandler.getIC2Item("reinforcedGlass", 4L), 400, 4, false); GT_ModHandler.addAlloySmelterRecipe( GT_Utility.copyAmount(1, aStack), Materials.Glass.getDust(3), GT_ModHandler.getIC2Item("reinforcedGlass", 4L), 400, 4, false); } case "plateAlloyIridium" -> // Remove IC2 Shaped recipe for Iridium Reinforced Plate GT_ModHandler.removeRecipeByOutputDelayed(aStack); default -> {} } } private void registerCover(final Materials aMaterial, final ItemStack aStack) { // Get ItemStack of Block matching Materials ItemStack tStack = NI; // Try different prefixes to use same smooth stones as older GT5U for (OrePrefixes orePrefix : new OrePrefixes[] { OrePrefixes.block, OrePrefixes.block_, OrePrefixes.stoneSmooth, OrePrefixes.stone }) { if ((tStack = GT_OreDictUnificator.get(orePrefix, aMaterial, 1)) != NI) break; } // Register the cover GregTech_API.registerCover( aStack, // If there is an ItemStack of Block for Materials tStack == NI ? // Use Materials mRGBa dyed blocs/materialicons/MATERIALSET/block1 icons TextureFactory.builder() .addIcon(aMaterial.mIconSet.mTextures[TextureSet.INDEX_block1]) .setRGBA(aMaterial.mRGBa) .stdOrient() .build() : // or copy Block texture TextureFactory.of(Block.getBlockFromItem(tStack.getItem()), tStack.getItemDamage()), null); } }