package gtPlusPlus.xmod.gregtech.api.enums; import static gregtech.api.enums.GT_Values.B; import static gregtech.api.enums.GT_Values.D2; import static gregtech.api.enums.GT_Values.M; import static gtPlusPlus.core.util.Utils.getTcAspectStack; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.HashSet; import java.util.List; import net.minecraft.enchantment.Enchantment; import net.minecraft.item.ItemStack; import net.minecraftforge.fluids.Fluid; import net.minecraftforge.fluids.FluidStack; import gregtech.api.enums.ConfigCategories; import gregtech.api.enums.Dyes; import gregtech.api.enums.Element; import gregtech.api.enums.Materials; import gregtech.api.enums.SubTag; import gregtech.api.enums.TC_Aspects; import gregtech.api.enums.TC_Aspects.TC_AspectStack; import gregtech.api.enums.TextureSet; import gregtech.api.interfaces.IColorModulationContainer; import gregtech.api.interfaces.ICondition; import gregtech.api.interfaces.ISubTagContainer; import gregtech.api.objects.GT_FluidStack; import gregtech.api.objects.MaterialStack; import gregtech.api.util.GT_Config; import gregtech.api.util.GT_Log; import gregtech.api.util.GT_Utility; import gtPlusPlus.core.lib.CORE; import gtPlusPlus.xmod.gregtech.api.interfaces.internal.Interface_OreRecipeRegistrator; import gtPlusPlus.xmod.gregtech.api.objects.GregtechItemData; import gtPlusPlus.xmod.gregtech.api.objects.GregtechMaterialStack; public enum GregtechOrePrefixes { /* * Electric Components. usual Materials for this are: Primitive (Tier 1) Basic (Tier 2) as used by UE as well : IC2 * Circuit and RE-Battery Good (Tier 3) Advanced (Tier 4) as used by UE as well : Advanced Circuit, Advanced Battery * and Lithium Battery Data (Tier 5) : Data Storage Circuit Elite (Tier 6) as used by UE as well : Energy Crystal * and Data Control Circuit Master (Tier 7) : Energy Flow Circuit and Lapotron Crystal Ultimate (Tier 8) : Data Orb * and Lapotronic Energy Orb Infinite (Cheaty) */ ingotHot("Hot Ingots", "Hot ", " Ingot", true, true, false, false, false, false, false, true, false, false, B[1], M * 1, 16, 12), // A hot Ingot, which has to be cooled down by a Vacuum Freezer. ingot("Ingots", "", " Ingot", true, true, false, false, false, false, false, true, false, false, B[1], M * 1, 64, 11), // A regular Ingot. Introduced by Eloraam dustTiny("Tiny Dusts", "Tiny Pile of ", " Dust", true, true, false, false, false, false, false, true, false, false, B[0] | B[1] | B[2] | B[3], M / 9, 64, 0), // 1/9th of a Dust. dustSmall("Small Dusts", "Small Pile of ", " Dust", true, true, false, false, false, false, false, true, false, false, B[0] | B[1] | B[2] | B[3], M / 4, 64, 1), // 1/4th of a Dust. dustImpure("Impure Dusts", "Impure Pile of ", " Dust", true, true, false, false, false, false, false, true, false, true, B[3], M * 1, 64, 3), // Dust with impurities. 1 Unit of Main Material and 1/9 - 1/4 Unit of secondary // Material dustRefined("Refined Dusts", "Refined Pile of ", " Dust", true, true, false, false, false, false, false, true, false, true, B[3], M * 1, 64, 2), dustPure("Purified Dusts", "Purified Pile of ", " Dust", true, true, false, false, false, false, false, true, false, true, B[3], M * 1, 64, 4), dust("Dusts", "", " Dust", true, true, false, false, false, false, false, true, false, false, B[0] | B[1] | B[2] | B[3], M * 1, 64, 2), // Pure Dust worth of one Ingot or Gem. Introduced by Alblaka. nugget("Nuggets", "", " Nugget", true, true, false, false, false, false, false, true, false, false, B[1], M / 9, 64, 9), // A Nugget. Introduced by Eloraam plate("Plates", "", " Plate", true, true, false, false, false, false, true, true, false, false, B[1] | B[2], M * 1, 64, 17), // Regular Plate made of one Ingot/Dust. Introduced by Calclavia block("Storage Blocks", "Block of ", "", true, true, false, false, false, true, true, false, false, false, 0, M * 9, 64, 71), // Storage Block consisting out of 9 Ingots/Gems/Dusts. Introduced by CovertJaguar gem("Gemstones", "", "", true, true, true, false, false, false, true, true, false, false, B[2], M * 1, 64, 8), // A // regular // Gem // worth // one // Dust. // Introduced // by // Eloraam gemChipped("Chipped Gemstones", "Chipped ", "", true, true, true, false, false, false, true, true, false, false, B[2], M / 4, 64, 59), // A regular Gem worth one small Dust. Introduced by TerraFirmaCraft gemFlawed("Flawed Gemstones", "Flawed ", "", true, true, true, false, false, false, true, true, false, false, B[2], M / 2, 64, 60), // A regular Gem worth two small Dusts. Introduced by TerraFirmaCraft gemFlawless("Flawless Gemstones", "Flawless ", "", true, true, true, false, false, false, true, true, false, false, B[2], M * 2, 32, 61), // A regular Gem worth two Dusts. Introduced by TerraFirmaCraft gemExquisite("Exquisite Gemstones", "Exquisite ", "", true, true, true, false, false, false, true, true, false, false, B[2], M * 4, 16, 62), // A regular Gem worth four Dusts. Introduced by TerraFirmaCraft stick("Sticks/Rods", "", " Rod", true, true, false, false, false, false, true, true, false, false, B[1] | B[2], M / 2, 64, 23), // Stick made of half an Ingot. Introduced by Eloraam type2("16x Wires", "16x ", " Wire", true, true, false, false, false, false, true, false, false, false, 0, M * 8, 64, -1), toolSkookumChoocher("Skookum Choocher", "", " Skookum Choocher", true, true, false, false, false, false, true, true, false, false, B[6], M * 6, 16, 37), // consisting out of 6 Ingots. toolAngleGrinder("Angle Grinder", "", "Angle Grinder", true, true, false, false, false, false, true, true, false, false, B[6], M * 6, 16, 37), // consisting out of 6 Ingots. toolElectricSnips("Electric Snips", "", "Electric Snips", true, true, false, false, false, false, true, true, false, false, B[6], M * 6, 16, 37), // consisting out of 6 Ingots. toolElectricLighter("Electric Lighter", "", "Electric Lighter", true, true, false, false, false, false, true, true, false, false, B[6], M * 6, 16, 37), // consisting out of 6 Ingots. toolElectricButcherKnife("Electric Butcher Knife", "", "Electric Butcher Knife", true, true, false, false, false, false, true, true, false, false, B[6], M * 6, 16, 37), // consisting out of 6 Ingots. batterySingleuse("Single Use Batteries", "", "", false, true, false, false, false, false, false, false, false, false, 0, -1, 64, -1), battery("Reusable Batteries", "", "", false, true, false, false, false, false, false, false, false, false, 0, -1, 64, -1), // Introduced by Calclavia circuit("Circuits", "", "", true, true, false, false, false, false, false, false, false, false, 0, -1, 64, -1), // Introduced // by // Calclavia chipset("Chipsets", "", "", true, true, false, false, false, false, false, false, false, false, 0, -1, 64, -1), // Introduced // by // Buildcraft computer("Computers", "", "", true, true, false, false, true, false, false, false, false, false, 0, -1, 64, -1),; // A // whole // Computer. // "computerMaster" // = // ComputerCube public static volatile int VERSION = 508; static { ingotHot.mHeatDamage = 3.0F; } public final ArrayList mPrefixedItems = new ArrayList<>(); public final short mTextureIndex; public final String mRegularLocalName, mLocalizedMaterialPre, mLocalizedMaterialPost; public final boolean mIsUsedForOreProcessing, mIsEnchantable, mIsUnificatable, mIsMaterialBased, mIsSelfReferencing, mIsContainer, mDontUnificateActively, mIsUsedForBlocks, mAllowNormalRecycling, mGenerateDefaultItem; public final List mAspects = new ArrayList<>(); public final Collection mFamiliarPrefixes = new HashSet<>(); /** * Used to determine the amount of Material this Prefix contains. Multiply or Divide GregTech_API.MATERIAL_UNIT to * get the Amounts in comparision to one Ingot. 0 = Null Negative = Undefined Amount */ public final long mMaterialAmount; private final Collection mNotGeneratedItems = new HashSet<>(), mIgnoredMaterials = new HashSet<>(), mGeneratedItems = new HashSet<>(); private final ArrayList mOreProcessing = new ArrayList<>(); private final ArrayList mOreProcessingFake = new ArrayList<>(); public ItemStack mContainerItem = null; public ICondition mCondition = null; public byte mDefaultStackSize = 64; public GregtechMaterialStack mSecondaryMaterial = null; public GregtechOrePrefixes mPrefixInto = this; public float mHeatDamage = 0.0F; // Negative for Frost Damage /** * Yes this Value can be changed to add Bits for the MetaGenerated-Item-Check. */ public int mMaterialGenerationBits = 0; private GregtechOrePrefixes(final String aRegularLocalName, final String aLocalizedMaterialPre, final String aLocalizedMaterialPost, final boolean aIsUnificatable, final boolean aIsMaterialBased, final boolean aIsSelfReferencing, final boolean aIsContainer, final boolean aDontUnificateActively, final boolean aIsUsedForBlocks, final boolean aAllowNormalRecycling, final boolean aGenerateDefaultItem, final boolean aIsEnchantable, final boolean aIsUsedForOreProcessing, final int aMaterialGenerationBits, final long aMaterialAmount, final int aDefaultStackSize, final int aTextureindex) { this.mIsUnificatable = aIsUnificatable; this.mIsMaterialBased = aIsMaterialBased; this.mIsSelfReferencing = aIsSelfReferencing; this.mIsContainer = aIsContainer; this.mDontUnificateActively = aDontUnificateActively; this.mIsUsedForBlocks = aIsUsedForBlocks; this.mAllowNormalRecycling = aAllowNormalRecycling; this.mGenerateDefaultItem = aGenerateDefaultItem; this.mIsEnchantable = aIsEnchantable; this.mIsUsedForOreProcessing = aIsUsedForOreProcessing; this.mMaterialGenerationBits = aMaterialGenerationBits; this.mMaterialAmount = aMaterialAmount; this.mRegularLocalName = aRegularLocalName; this.mLocalizedMaterialPre = aLocalizedMaterialPre; this.mLocalizedMaterialPost = aLocalizedMaterialPost; this.mDefaultStackSize = (byte) aDefaultStackSize; this.mTextureIndex = (short) aTextureindex; // TODO - Utilise some form of way to check if it's gt 5.9 if so, use string switch. if (this.name().startsWith("ore")) { getTcAspectStack(TC_Aspects.TERRA.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("wire") || this.name().startsWith("cable")) { getTcAspectStack(TC_Aspects.ELECTRUM.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("dust")) { getTcAspectStack(TC_Aspects.PERDITIO.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("crushed")) { getTcAspectStack(TC_Aspects.PERFODIO.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("ingot") || this.name().startsWith("nugget")) { getTcAspectStack(TC_Aspects.METALLUM.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("armor")) { getTcAspectStack(TC_Aspects.TUTAMEN.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("stone")) { getTcAspectStack(TC_Aspects.TERRA.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("pipe")) { getTcAspectStack(TC_Aspects.ITER.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("gear")) { getTcAspectStack(TC_Aspects.MOTUS.name(), 1).addToAspectList(this.mAspects); getTcAspectStack(TC_Aspects.MACHINA.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("frame") || this.name().startsWith("plate")) { getTcAspectStack(TC_Aspects.FABRICO.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("tool")) { getTcAspectStack(TC_Aspects.INSTRUMENTUM.name(), 2).addToAspectList(this.mAspects); } else if (this.name().startsWith("gem") || this.name().startsWith("crystal") || this.name().startsWith("lens")) { getTcAspectStack(TC_Aspects.VITREUS.name(), 1).addToAspectList(this.mAspects); } else if (this.name().startsWith("crate")) { getTcAspectStack(TC_Aspects.ITER.name(), 2).addToAspectList(this.mAspects); } else if (this.name().startsWith("circuit")) { getTcAspectStack("COGNITIO", 1); } else if (this.name().startsWith("computer")) { getTcAspectStack("COGNITIO", 4).addToAspectList(this.mAspects); } else if (this.name().startsWith("battery")) { getTcAspectStack(TC_Aspects.ELECTRUM.name(), 1).addToAspectList(this.mAspects); } } public static GregtechOrePrefixes getOrePrefix(final String aOre) { for (final GregtechOrePrefixes tPrefix : values()) { if (aOre.startsWith(tPrefix.toString())) { return tPrefix; } } return null; } public static String stripPrefix(final String aOre) { for (final GregtechOrePrefixes tPrefix : values()) { if (aOre.startsWith(tPrefix.toString())) { return aOre.replaceFirst(tPrefix.toString(), ""); } } return aOre; } public static String replacePrefix(final String aOre, final GregtechOrePrefixes aPrefix) { for (final GregtechOrePrefixes tPrefix : values()) { if (aOre.startsWith(tPrefix.toString())) { return aOre.replaceFirst(tPrefix.toString(), aPrefix.toString()); } } return ""; } public static GregtechOrePrefixes getPrefix(final String aPrefixName) { return getPrefix(aPrefixName, null); } public static GregtechOrePrefixes getPrefix(final String aPrefixName, final GregtechOrePrefixes aReplacement) { final Object tObject = GT_Utility.getFieldContent(GregtechOrePrefixes.class, aPrefixName, false, false); if ((tObject != null) && (tObject instanceof GregtechOrePrefixes)) { return (GregtechOrePrefixes) tObject; } return aReplacement; } public static Materials getMaterial(final String aOre) { return Materials.get(stripPrefix(aOre)); } public static Materials getMaterial(final String aOre, final GregtechOrePrefixes aPrefix) { return Materials.get(aOre.replaceFirst(aPrefix.toString(), "")); } public static Materials getRealMaterial(final String aOre, final GregtechOrePrefixes aPrefix) { return Materials.getRealMaterial(aOre.replaceFirst(aPrefix.toString(), "")); } public static boolean isInstanceOf(final String aName, final GregtechOrePrefixes aPrefix) { return aName == null ? false : aName.startsWith(aPrefix.toString()); } public boolean add(final ItemStack aStack) { if (aStack == null) { return false; } if (!this.contains(aStack)) { this.mPrefixedItems.add(aStack); } while (this.mPrefixedItems.contains(null)) { this.mPrefixedItems.remove(null); } return true; } public boolean contains(final ItemStack aStack) { if (aStack == null) { return false; } for (final ItemStack tStack : this.mPrefixedItems) { if (GT_Utility.areStacksEqual(aStack, tStack, !tStack.hasTagCompound())) { return true; } } return false; } public boolean doGenerateItem(final Materials aMaterial) { return (aMaterial != null) && (aMaterial != Materials._NULL) && (((aMaterial.mTypes & this.mMaterialGenerationBits) != 0) || this.mGeneratedItems.contains(aMaterial)) && !this.mNotGeneratedItems.contains(aMaterial) && ((this.mCondition == null) || this.mCondition.isTrue(aMaterial)); } public boolean ignoreMaterials(final Materials... aMaterials) { for (final Materials tMaterial : aMaterials) { if (tMaterial != null) { this.mIgnoredMaterials.add(tMaterial); } } return true; } public boolean addFamiliarPrefix(final GregtechOrePrefixes aPrefix) { if ((aPrefix == null) || this.mFamiliarPrefixes.contains(aPrefix) || (aPrefix == this)) { return false; } return this.mFamiliarPrefixes.add(aPrefix); } public boolean add(final Interface_OreRecipeRegistrator aRegistrator) { if (aRegistrator == null) { return false; } return this.mOreProcessing.add(aRegistrator); } public void processOre(final GT_Materials aMaterial, final String aOreDictName, final String aModName, final ItemStack aStack) { if ((aMaterial != null) && ((aMaterial != GT_Materials._NULL) || this.mIsSelfReferencing || !this.mIsMaterialBased) && GT_Utility.isStackValid(aStack)) { for (final Interface_OreRecipeRegistrator tRegistrator : this.mOreProcessing) { if (D2) { GT_Log.ore.println( "Processing '" + aOreDictName + "' with the Prefix '" + this.name() + "' and the Material '" + aMaterial.name() + "' at " + GT_Utility.getClassName(tRegistrator)); } tRegistrator.registerOre(this, aMaterial, aOreDictName, aModName, GT_Utility.copyAmount(1, aStack)); } } } // TODO public void processOre(final Materials aMaterial, final String aOreDictName, final String aModName, final ItemStack aStack) { if ((aMaterial != null) && ((aMaterial != Materials._NULL) || this.mIsSelfReferencing || !this.mIsMaterialBased) && GT_Utility.isStackValid(aStack)) { for (final Interface_OreRecipeRegistrator tRegistrator : this.mOreProcessingFake) { if (D2) { GT_Log.ore.println( "Processing '" + aOreDictName + "' with the Prefix '" + this.name() + "' and the Material '" + aMaterial.name() + "' at " + GT_Utility.getClassName(tRegistrator)); } tRegistrator.registerOre(this, aMaterial, aOreDictName, aModName, GT_Utility.copyAmount(1, aStack)); } } } public Object get(final Object aMaterial) { if (aMaterial instanceof GT_Materials) { return new GregtechItemData(this, (GT_Materials) aMaterial); } return this.name() + aMaterial; } public String getDefaultLocalNameForItem(final Materials aMaterial) { // Use Standard Localization return this.mLocalizedMaterialPre + aMaterial.mDefaultLocalName + this.mLocalizedMaterialPost; } public enum GT_Materials implements IColorModulationContainer, ISubTagContainer { /** * This is the Default Material returned in case no Material has been found or a NullPointer has been inserted * at a location where it shouldn't happen. *

* Mainly for preventing NullPointer Exceptions and providing Default Values. * * Unknown Material Components. Dead End Section. * * Alkalus Range 730-799 & 970-998 (aMetaItemSubID, TextureSet, aToolSpeed, aToolDurability, aToolQuality, * aTypes, R, G, B, Alpha, aLocalName, aFuelType, aFuelPower, aMeltingPoint, aBlastFurnaceTemp, * aBlastFurnaceRequired, aTransparent, aOreValue, aDensityMultiplier, aDensityDivider, aColor * this(aMetaItemSubID, aIconSet, aToolSpeed, aToolDurability, aToolQuality, true); * */ _NULL(-1, TextureSet.SET_NONE, 1.0F, 0, 0, 0, 255, 255, 255, 0, "NULL", 0, 0, 0, 0, false, false, 1, 1, 1, Dyes._NULL, Element._NULL, Arrays.asList(getTcAspectStack(TC_Aspects.VACUOS.name(), 1))), // Lapis(526, TextureSet.SET_LAPIS, 1.0F, 0, 1, 1 | 4 | 8, 70, 70, 220, 0, "Lapis", 0, 0, -1, 0, false, false, // 3, 1, 1, Dyes.dyeBlue, 2, Arrays.asList(new MaterialStack(Materials.Lazurite, 12), new // MaterialStack(Materials.Sodalite, 2), new MaterialStack(Materials.Pyrite, 1), new // MaterialStack(Materials.Calcite, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.SENSUS, 1))), Pyrotheum(20, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 255, 128, 0, 0, "Pyrotheum", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeYellow, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1)), Arrays.asList(getTcAspectStack("PRAECANTATIO", 2), getTcAspectStack(TC_Aspects.IGNIS, 1))), Cryotheum(21, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 102, 178, 255, 0, "Cryotheum", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Blizz, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Snow, 1), new MaterialStack(Materials.Niter, 1)), Arrays.asList(getTcAspectStack("PRAECANTATIO", 2), getTcAspectStack(TC_Aspects.GELUM, 1))), Ender(22, TextureSet.SET_FLUID, 1.0F, 0, 2, 1, 255, 255, 255, 0, "Ender", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeGreen), /** * Circuitry, Batteries and other Technical things */ Symbiotic(-1, TextureSet.SET_NONE, 1.0F, 0, 0, 0, 255, 255, 255, 0, "IV Tier", 0, 0, -1, 0, false, false, 1, 1, 1, Dyes.dyeLightGray, Arrays.asList(getTcAspectStack(TC_Aspects.ELECTRUM, 4), getTcAspectStack(TC_Aspects.MACHINA, 4))), Neutronic(-1, TextureSet.SET_NONE, 1.0F, 0, 0, 0, 255, 255, 255, 0, "LuV Tier", 0, 0, -1, 0, false, false, 1, 1, 1, Dyes.dyeLightGray, Arrays.asList(getTcAspectStack(TC_Aspects.ELECTRUM, 6), getTcAspectStack(TC_Aspects.MACHINA, 6))), Quantum(-1, TextureSet.SET_NONE, 1.0F, 0, 0, 0, 255, 255, 255, 0, "ZPM Tier", 0, 0, -1, 0, false, false, 1, 1, 1, Dyes.dyeLightGray, Arrays.asList(getTcAspectStack(TC_Aspects.ELECTRUM, 8), getTcAspectStack(TC_Aspects.MACHINA, 8))), Superconductor(-1, TextureSet.SET_NONE, 1.0F, 0, 0, 0, 190, 240, 190, 0, "Superconductor", 0, 0, -1, 0, false, false, 1, 1, 1, Dyes.dyeGreen, Arrays.asList(getTcAspectStack(TC_Aspects.ELECTRUM, 8))), Staballoy(30, TextureSet.SET_ROUGH, 10.0F, 5120, 4, 1 | 2 | 16 | 32 | 64 | 128, 68, 75, 66, 0, "Staballoy", 0, 0, 1500, 2800, true, false, 1, 3, 1, Dyes.dyeGreen, 2, Arrays.asList(new MaterialStack(Materials.Titanium, 1), new MaterialStack(Materials.Uranium, 9)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), Bedrockium(31, TextureSet.SET_FINE, 8.0F, 8196, 3, 1 | 2 | 16 | 32 | 64 | 128, 39, 39, 39, 0, "Bedrockium", 0, 0, -1, 0, false, false, 1, 5, 1, Dyes.dyeLightGray, 2, Arrays.asList(new MaterialStack(Materials.Carbon, 63), new MaterialStack(Materials.Carbon, 56)), Arrays.asList(getTcAspectStack(TC_Aspects.VACUOS, 8), getTcAspectStack(TC_Aspects.TUTAMEN, 3))), BloodSteel(32, TextureSet.SET_METALLIC, 11.0F, 768, 4, 1 | 2 | 16 | 32 | 64 | 128, 142, 28, 0, 0, "Blood Steel", 0, 0, -1, 0, false, false, 1, 1, 1, Dyes.dyeRed, 2, Arrays.asList(new MaterialStack(Materials.Steel, 3)), Arrays.asList(getTcAspectStack(TC_Aspects.VICTUS, 8), getTcAspectStack(TC_Aspects.IGNIS, 3))), Void(33, TextureSet.SET_METALLIC, 6.0F, 1280, 3, 1 | 2 | 16 | 32 | 64 | 128, 82, 17, 82, 0, "Void Metal", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeBlack, Arrays.asList(getTcAspectStack("PRAECANTATIO", 5), getTcAspectStack(TC_Aspects.VACUOS, 7))), ConductiveIron(34, TextureSet.SET_METALLIC, 5.0F, 256, 2, 1 | 2, 164, 109, 100, 0, "Conductive Iron", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeRed, 2, Arrays.asList(new MaterialStack(Materials.Iron, 6), new MaterialStack(Materials.Redstone, 2)), Arrays.asList(getTcAspectStack(TC_Aspects.POTENTIA, 2), getTcAspectStack(TC_Aspects.METALLUM, 2))), ElectricalSteel(35, TextureSet.SET_METALLIC, 7.0F, 768, 3, 1 | 2 | 64 | 128, 194, 194, 194, 0, "Electrical Steel", 0, 0, 1811, 1000, true, false, 3, 1, 1, Dyes.dyeLightGray, 2, Arrays.asList( new MaterialStack(Materials.Iron, 3), new MaterialStack(Materials.Coal, 2), new MaterialStack(Materials.Silicon, 2)), Arrays.asList(getTcAspectStack(TC_Aspects.MAGNETO, 2), getTcAspectStack(TC_Aspects.ELECTRUM, 5))), EnergeticAlloy(36, TextureSet.SET_SHINY, 5.0F, 512, 3, 1 | 2 | 64 | 128, 252, 152, 45, 0, "Energetic Alloy", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeOrange, 2, Arrays.asList( new MaterialStack(Materials.Gold, 3), new MaterialStack(Materials.Glowstone, 2), new MaterialStack(Materials.Redstone, 2)), Arrays.asList(getTcAspectStack(TC_Aspects.POTENTIA, 4), getTcAspectStack(TC_Aspects.LUX, 3))), VibrantAlloy(37, TextureSet.SET_SHINY, 7.0F, 1280, 4, 1 | 2 | 64 | 128, 204, 242, 142, 0, "Vibrant Alloy", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeLime, 2, Arrays.asList( new MaterialStack(Materials.EnergeticAlloy, 1), new MaterialStack(Materials.EnderPearl, 3)), Arrays.asList(getTcAspectStack(TC_Aspects.MACHINA, 5), getTcAspectStack(TC_Aspects.TELUM, 4))), PulsatingIron(38, TextureSet.SET_SHINY, 5.0F, 256, 2, 1 | 2 | 64 | 128, 50, 91, 21, 0, "Pulsating Iron", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeGreen, 2, Arrays.asList(new MaterialStack(Materials.Iron, 2), new MaterialStack(Materials.EnderPearl, 2)), Arrays.asList(getTcAspectStack(TC_Aspects.ALIENIS, 3), getTcAspectStack(TC_Aspects.METALLUM, 3))), /* TODO */ RedstoneAlloy(39, TextureSet.SET_METALLIC, 1.0F, 256, 2, 1 | 2 | 16 | 32 | 64, 178, 34, 34, 0, "Redstone Alloy", 0, 0, -1, 0, false, false, 3, 1, 1, Dyes.dyeRed, 2, Arrays.asList(new MaterialStack(Materials.Iron, 2), new MaterialStack(Materials.Redstone, 4))), // Needs more Use, I think. Tantalloy60(40, TextureSet.SET_DULL, 8.0F, 5120, 3, 1 | 2 | 16 | 32 | 64 | 128, 68, 75, 166, 0, "Tantalloy-60", 0, 0, 3035, 2200, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList(new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), Tantalloy61(41, TextureSet.SET_DULL, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 122, 135, 196, 0, "Tantalloy-61", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), Potin(42, TextureSet.SET_METALLIC, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 201, 151, 129, 0, "Potin", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), Inconel792(43, TextureSet.SET_METALLIC, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 108, 240, 118, 0, "Inconel-792", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), Inconel690(44, TextureSet.SET_DULL, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 118, 220, 138, 0, "Inconel-690", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), MaragingSteel300(45, TextureSet.SET_METALLIC, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 150, 150, 150, 0, "Maraging Steel 300", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), MaragingSteel350(46, TextureSet.SET_METALLIC, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 160, 160, 160, 0, "Maraging Steel 350", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), HastelloyX(47, TextureSet.SET_SHINY, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 255, 193, 37, 0, "Hastelloy-X", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), TriniumNaquadahCarbonite(48, TextureSet.SET_SHINY, 7.0F, 5120, 2, 1 | 2 | 16 | 32 | 64 | 128, 255, 233, 0, 0, "Trinium Naquadah Carbonite", 0, 0, 3015, 2150, true, false, 1, 2, 1, Dyes.dyeLightBlue, 2, Arrays.asList( new MaterialStack(Materials.Tungsten, 1), new MaterialStack(Materials.Tantalum, 9), new MaterialStack(Materials.Titanium, 1)), Arrays.asList(getTcAspectStack(TC_Aspects.METALLUM, 8), getTcAspectStack(TC_Aspects.STRONTIO, 3))), // Radioactive Materials HydrofluoricAcid(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 200, 200, 200, 0, "Hydrofluoric Acid", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), UraniumHexaFluoride(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 73, 220, 83, 0, "Uranium Hexafluoride", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeLime, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), UraniumTetraFluoride(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 73, 220, 83, 0, "Uranium Tetrafluoride", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeLime, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), ThoriumTetraFluoride(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 15, 120, 15, 0, "Thorium Tetrafluoride", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeGreen, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), SulfurousAcid(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 110, 220, 30, 0, "Sulfurous Acid", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), SulfurDioxide(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 150, 200, 50, 0, "Sulfur Dioxide", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), HydrogenChloride(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 150, 240, 90, 0, "Hydrogen Chloride", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), SulfuricApatite(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 0, 105, 105, 0, "Sulfuric Apatite Solution", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), SulfuricLithium(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 0, 105, 105, 0, "Sulfuric Lithium Solution", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))), LithiumHydroxide(-1, TextureSet.SET_FLUID, 1.0F, 0, 1, 2 | 16 | 32, 0, 105, 105, 0, "Lithium Hydroxide", 0, 0, -1, 0, false, false, 2, 3, 1, Dyes.dyeWhite, 2, Arrays.asList( new MaterialStack(Materials.Coal, 1), new MaterialStack(Materials.Redstone, 1), new MaterialStack(Materials.Blaze, 1), new MaterialStack(Materials.Sulfur, 1))),; /** * List of all Materials. */ public static final Collection VALUES = new HashSet<>(Arrays.asList(values())); static { /* * Primitive.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Basic.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); * Good.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Advanced.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); * Data.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Elite.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); * Master.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Ultimate.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); * Superconductor.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Infinite.add(SubTag.NO_SMASHING, * SubTag.NO_SMELTING); */ Symbiotic.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Neutronic.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); Quantum.add(SubTag.NO_SMASHING, SubTag.NO_SMELTING); } /** * This Array can be changed dynamically by a Tick Handler in order to get a glowing Effect on all GT Meta Items * out of this Material. */ public final short[] mRGBa = new short[] { 255, 255, 255, 0 }, mMoltenRGBa = new short[] { 255, 255, 255, 0 }; public final TextureSet mIconSet; public final int mMetaItemSubID; public final boolean mUnificatable; public final GT_Materials mMaterialInto; public final List mMaterialList = new ArrayList<>(); public final List mOreByProducts = new ArrayList<>(), mOreReRegistrations = new ArrayList<>(); public final List mAspects = new ArrayList<>(); private final ArrayList mMaterialItems = new ArrayList<>(); private final Collection mSubTags = new HashSet<>(); public Enchantment mEnchantmentTools = null, mEnchantmentArmors = null; public byte mEnchantmentToolsLevel = 0, mEnchantmentArmorsLevel = 0; public boolean mBlastFurnaceRequired = false; public float mToolSpeed = 1.0F, mHeatDamage = 0.0F; public String mChemicalFormula = "?", mDefaultLocalName = "null"; public Dyes mColor = Dyes._NULL; public short mMeltingPoint = 0, mBlastFurnaceTemp = 0; public int mTypes = 0, mDurability = 16, mFuelPower = 0, mFuelType = 0, mExtraData = 0, mOreValue = 0, mOreMultiplier = 1, mByProductMultiplier = 1, mSmeltingMultiplier = 1; public long mDensity = M; public Element mElement = null; public GT_Materials mDirectSmelting = this, mOreReplacement = this, mMacerateInto = this, mSmeltInto = this, mArcSmeltInto = this, mHandleMaterial = this; public byte mToolQuality = 0; public Fluid mSolid = null, mFluid = null, mGas = null, mPlasma = null; /** * This Fluid is used as standard Unit for Molten Materials. 1296 is a Molten Block, what means 144 is one * Material Unit worth */ public Fluid mStandardMoltenFluid = null; private GT_Materials(final int aMetaItemSubID, final TextureSet aIconSet, final float aToolSpeed, final int aToolDurability, final int aToolQuality, final boolean aUnificatable) { this.mUnificatable = aUnificatable; this.mMaterialInto = this; this.mMetaItemSubID = aMetaItemSubID; this.mToolQuality = (byte) aToolQuality; this.mDurability = aToolDurability; this.mToolSpeed = aToolSpeed; this.mIconSet = aIconSet; if (aMetaItemSubID >= 0) { if (CORE.sMU_GeneratedMaterials[aMetaItemSubID] == null) { CORE.sMU_GeneratedMaterials[aMetaItemSubID] = this; } else { throw new IllegalArgumentException("The Index " + aMetaItemSubID + " is already used!"); } } } private GT_Materials(final GT_Materials aMaterialInto, final boolean aReRegisterIntoThis) { this.mUnificatable = false; this.mDefaultLocalName = aMaterialInto.mDefaultLocalName; this.mMaterialInto = aMaterialInto.mMaterialInto; if (aReRegisterIntoThis) { this.mMaterialInto.mOreReRegistrations.add(this); } this.mChemicalFormula = aMaterialInto.mChemicalFormula; this.mMetaItemSubID = -1; this.mIconSet = TextureSet.SET_NONE; } /** * @param aMetaItemSubID the Sub-ID used in my own MetaItems. Range 0-1000. -1 for no Material * @param aTypes which kind of Items should be generated. Bitmask as follows: 1 = Dusts of all * kinds. 2 = Dusts, Ingots, Plates, Rods/Sticks, Machine Components and other * Metal specific things. 4 = Dusts, Gems, Plates, Lenses (if transparent). 8 = * Dusts, Impure Dusts, crushed Ores, purified Ores, centrifuged Ores etc. 16 = * Cells 32 = Plasma Cells 64 = Tool Heads 128 = Gears * @param aR, aG, aB Color of the Material 0-255 each. * @param aA transparency of the Material Texture. 0 = fully visible, 255 = Invisible. * @param aLocalName The Name used as Default for localization. * @param aFuelType Type of Generator to get Energy from this Material. * @param aFuelPower EU generated. Will be multiplied by 1000, also additionally multiplied by 2 for * Gems. * @param aAmplificationValue Amount of UUM amplifier gotten from this. * @param aUUMEnergy Amount of EU needed to shape the UUM into this Material. * @param aMeltingPoint Used to determine the smelting Costs in Furnii. * @param aBlastFurnaceTemp Used to determine the needed Heat capactiy Costs in Blast Furnii. * @param aBlastFurnaceRequired If this requires a Blast Furnace. * @param aColor Vanilla MC Wool Color which comes the closest to this. */ private GT_Materials(final int aMetaItemSubID, final TextureSet aIconSet, final float aToolSpeed, final int aToolDurability, final int aToolQuality, final int aTypes, final int aR, final int aG, final int aB, final int aA, final String aLocalName, final int aFuelType, final int aFuelPower, final int aMeltingPoint, final int aBlastFurnaceTemp, final boolean aBlastFurnaceRequired, final boolean aTransparent, final int aOreValue, final int aDensityMultiplier, final int aDensityDivider, final Dyes aColor) { this(aMetaItemSubID, aIconSet, aToolSpeed, aToolDurability, aToolQuality, true); this.mDefaultLocalName = aLocalName; this.mMeltingPoint = (short) aMeltingPoint; this.mBlastFurnaceTemp = (short) aBlastFurnaceTemp; this.mBlastFurnaceRequired = aBlastFurnaceRequired; if (aTransparent) { this.add(SubTag.TRANSPARENT); } this.mFuelPower = aFuelPower; this.mFuelType = aFuelType; this.mOreValue = aOreValue; this.mDensity = (M * aDensityMultiplier) / aDensityDivider; this.mColor = aColor == null ? Dyes._NULL : aColor; if (this.mColor != null) { this.add(SubTag.HAS_COLOR); } this.mRGBa[0] = this.mMoltenRGBa[0] = (short) aR; this.mRGBa[1] = this.mMoltenRGBa[1] = (short) aG; this.mRGBa[2] = this.mMoltenRGBa[2] = (short) aB; this.mRGBa[3] = this.mMoltenRGBa[3] = (short) aA; this.mTypes = aTypes; if ((this.mTypes & 2) != 0) { this.add(SubTag.SMELTING_TO_FLUID); } } private GT_Materials(final int aMetaItemSubID, final TextureSet aIconSet, final float aToolSpeed, final int aToolDurability, final int aToolQuality, final int aTypes, final int aR, final int aG, final int aB, final int aA, final String aLocalName, final int aFuelType, final int aFuelPower, final int aMeltingPoint, final int aBlastFurnaceTemp, final boolean aBlastFurnaceRequired, final boolean aTransparent, final int aOreValue, final int aDensityMultiplier, final int aDensityDivider, final Dyes aColor, final List aAspects) { this( aMetaItemSubID, aIconSet, aToolSpeed, aToolDurability, aToolQuality, aTypes, aR, aG, aB, aA, aLocalName, aFuelType, aFuelPower, aMeltingPoint, aBlastFurnaceTemp, aBlastFurnaceRequired, aTransparent, aOreValue, aDensityMultiplier, aDensityDivider, aColor); this.mAspects.addAll(aAspects); } /** * @param aElement The Element Enum represented by this Material */ private GT_Materials(final int aMetaItemSubID, final TextureSet aIconSet, final float aToolSpeed, final int aToolDurability, final int aToolQuality, final int aTypes, final int aR, final int aG, final int aB, final int aA, final String aLocalName, final int aFuelType, final int aFuelPower, final int aMeltingPoint, final int aBlastFurnaceTemp, final boolean aBlastFurnaceRequired, final boolean aTransparent, final int aOreValue, final int aDensityMultiplier, final int aDensityDivider, final Dyes aColor, final Element aElement, final List aAspects) { this( aMetaItemSubID, aIconSet, aToolSpeed, aToolDurability, aToolQuality, aTypes, aR, aG, aB, aA, aLocalName, aFuelType, aFuelPower, aMeltingPoint, aBlastFurnaceTemp, aBlastFurnaceRequired, aTransparent, aOreValue, aDensityMultiplier, aDensityDivider, aColor); this.mElement = aElement; // mElement.mLinkedMaterials.add(this); if (aElement == Element._NULL) { this.mChemicalFormula = "Empty"; } else { this.mChemicalFormula = aElement.toString(); this.mChemicalFormula = this.mChemicalFormula.replaceAll("_", "-"); } this.mAspects.addAll(aAspects); } private GT_Materials(final int aMetaItemSubID, final TextureSet aIconSet, final float aToolSpeed, final int aToolDurability, final int aToolQuality, final int aTypes, final int aR, final int aG, final int aB, final int aA, final String aLocalName, final int aFuelType, final int aFuelPower, final int aMeltingPoint, final int aBlastFurnaceTemp, final boolean aBlastFurnaceRequired, final boolean aTransparent, final int aOreValue, final int aDensityMultiplier, final int aDensityDivider, final Dyes aColor, final int aExtraData, final List aMaterialList) { this( aMetaItemSubID, aIconSet, aToolSpeed, aToolDurability, aToolQuality, aTypes, aR, aG, aB, aA, aLocalName, aFuelType, aFuelPower, aMeltingPoint, aBlastFurnaceTemp, aBlastFurnaceRequired, aTransparent, aOreValue, aDensityMultiplier, aDensityDivider, aColor, aExtraData, aMaterialList, null); } private GT_Materials(final int aMetaItemSubID, final TextureSet aIconSet, final float aToolSpeed, final int aToolDurability, final int aToolQuality, final int aTypes, final int aR, final int aG, final int aB, final int aA, final String aLocalName, final int aFuelType, final int aFuelPower, final int aMeltingPoint, final int aBlastFurnaceTemp, final boolean aBlastFurnaceRequired, final boolean aTransparent, final int aOreValue, final int aDensityMultiplier, final int aDensityDivider, final Dyes aColor, final int aExtraData, final List aMaterialList, final List aAspects) { this( aMetaItemSubID, aIconSet, aToolSpeed, aToolDurability, aToolQuality, aTypes, aR, aG, aB, aA, aLocalName, aFuelType, aFuelPower, aMeltingPoint, aBlastFurnaceTemp, aBlastFurnaceRequired, aTransparent, aOreValue, aDensityMultiplier, aDensityDivider, aColor); this.mExtraData = aExtraData; this.mMaterialList.addAll(aMaterialList); this.mChemicalFormula = ""; for (final MaterialStack tMaterial : this.mMaterialList) { this.mChemicalFormula += tMaterial.toString(); } this.mChemicalFormula = this.mChemicalFormula.replaceAll("_", "-"); int tAmountOfComponents = 0, tMeltingPoint = 0; for (final MaterialStack tMaterial : this.mMaterialList) { tAmountOfComponents += tMaterial.mAmount; if (tMaterial.mMaterial.mMeltingPoint > 0) { tMeltingPoint += tMaterial.mMaterial.mMeltingPoint * tMaterial.mAmount; } if (aAspects == null) { for (final TC_AspectStack tAspect : tMaterial.mMaterial.mAspects) { tAspect.addToAspectList(this.mAspects); } } } if (this.mMeltingPoint < 0) { this.mMeltingPoint = (short) (tMeltingPoint / tAmountOfComponents); } tAmountOfComponents *= aDensityMultiplier; tAmountOfComponents /= aDensityDivider; if (aAspects == null) { for (final TC_AspectStack tAspect : this.mAspects) { tAspect.mAmount = Math.max(1, tAspect.mAmount / Math.max(1, tAmountOfComponents)); } } else { this.mAspects.addAll(aAspects); } } public static GT_Materials get(final String aMaterialName) { final Object tObject = GT_Utility.getFieldContent(GT_Materials.class, aMaterialName, false, false); if ((tObject != null) && (tObject instanceof GT_Materials)) { return (GT_Materials) tObject; } return _NULL; } public static GT_Materials getRealMaterial(final String aMaterialName) { return get(aMaterialName).mMaterialInto; } /** * Called in preInit with the Config to set Values. * * @param aConfiguration */ public static void init(final GT_Config aConfiguration) { for (final GT_Materials tMaterial : VALUES) { final String tString = tMaterial.toString().toLowerCase(); tMaterial.mHeatDamage = (float) aConfiguration .get(ConfigCategories.Materials.heatdamage, tString, tMaterial.mHeatDamage); if (tMaterial.mBlastFurnaceRequired) { tMaterial.mBlastFurnaceRequired = aConfiguration .get(ConfigCategories.Materials.blastfurnacerequirements, tString, true); } if (tMaterial.mBlastFurnaceRequired && aConfiguration.get( ConfigCategories.Materials.blastinductionsmelter, tString, tMaterial.mBlastFurnaceTemp < 1500)) {} } } public boolean isRadioactive() { if (this.mElement != null) { return this.mElement.mHalfLifeSeconds >= 0; } for (final MaterialStack tMaterial : this.mMaterialList) { if (tMaterial.mMaterial.isRadioactive()) { return true; } } return false; } public long getProtons() { if (this.mElement != null) { return this.mElement.getProtons(); } if (this.mMaterialList.size() <= 0) { return Element.Tc.getProtons(); } long rAmount = 0, tAmount = 0; for (final MaterialStack tMaterial : this.mMaterialList) { tAmount += tMaterial.mAmount; rAmount += tMaterial.mAmount * tMaterial.mMaterial.getProtons(); } return (this.getDensity() * rAmount) / (tAmount * M); } public long getNeutrons() { if (this.mElement != null) { return this.mElement.getNeutrons(); } if (this.mMaterialList.size() <= 0) { return Element.Tc.getNeutrons(); } long rAmount = 0, tAmount = 0; for (final MaterialStack tMaterial : this.mMaterialList) { tAmount += tMaterial.mAmount; rAmount += tMaterial.mAmount * tMaterial.mMaterial.getNeutrons(); } return (this.getDensity() * rAmount) / (tAmount * M); } public long getMass() { if (this.mElement != null) { return this.mElement.getMass(); } if (this.mMaterialList.size() <= 0) { return Element.Tc.getMass(); } long rAmount = 0, tAmount = 0; for (final MaterialStack tMaterial : this.mMaterialList) { tAmount += tMaterial.mAmount; rAmount += tMaterial.mAmount * tMaterial.mMaterial.getMass(); } return (this.getDensity() * rAmount) / (tAmount * M); } public long getDensity() { return this.mDensity; } public String getToolTip() { return this.getToolTip(1, false); } public String getToolTip(final boolean aShowQuestionMarks) { return this.getToolTip(1, aShowQuestionMarks); } public String getToolTip(final long aMultiplier) { return this.getToolTip(aMultiplier, false); } public String getToolTip(final long aMultiplier, final boolean aShowQuestionMarks) { if (!aShowQuestionMarks && this.mChemicalFormula.equals("?")) { return ""; } if ((aMultiplier >= (M * 2)) && !this.mMaterialList.isEmpty()) { return (((this.mElement != null) || ((this.mMaterialList.size() < 2) && (this.mMaterialList.get(0).mAmount == 1))) ? this.mChemicalFormula : "(" + this.mChemicalFormula + ")") + aMultiplier; } return this.mChemicalFormula; } /** * Adds an ItemStack to this Material. */ public GT_Materials add(final ItemStack aStack) { if ((aStack != null) && !this.contains(aStack)) { this.mMaterialItems.add(aStack); } return this; } /** * This is used to determine if any of the ItemStacks belongs to this Material. */ public boolean contains(final ItemStack... aStacks) { if ((aStacks == null) || (aStacks.length <= 0)) { return false; } for (final ItemStack tStack : this.mMaterialItems) { for (final ItemStack aStack : aStacks) { if (GT_Utility.areStacksEqual(aStack, tStack, !tStack.hasTagCompound())) { return true; } } } return false; } /** * This is used to determine if an ItemStack belongs to this Material. */ public boolean remove(final ItemStack aStack) { if (aStack == null) { return false; } boolean temp = false; for (int i = 0; i < this.mMaterialItems.size(); i++) { if (GT_Utility.areStacksEqual(aStack, this.mMaterialItems.get(i))) { this.mMaterialItems.remove(i--); temp = true; } } return temp; } /** * Adds a SubTag to this Material */ @Override public ISubTagContainer add(final SubTag... aTags) { if (aTags != null) { for (final SubTag aTag : aTags) { if ((aTag != null) && !this.contains(aTag)) { aTag.addContainerToList(this); this.mSubTags.add(aTag); } } } return this; } /** * If this Material has this exact SubTag */ @Override public boolean contains(final SubTag aTag) { return this.mSubTags.contains(aTag); } /** * Removes a SubTag from this Material */ @Override public boolean remove(final SubTag aTag) { return this.mSubTags.remove(aTag); } /** * Sets the Heat Damage for this Material (negative = frost) */ public GT_Materials setHeatDamage(final float aHeatDamage) { this.mHeatDamage = aHeatDamage; return this; } /** * Adds a Material to the List of Byproducts when grinding this Ore. Is used for more precise Ore grinding, so * that it is possible to choose between certain kinds of Materials. */ public GT_Materials addOreByProduct(final GT_Materials aMaterial) { if (!this.mOreByProducts.contains(aMaterial.mMaterialInto)) { this.mOreByProducts.add(aMaterial.mMaterialInto); } return this; } /** * Adds multiple Materials to the List of Byproducts when grinding this Ore. Is used for more precise Ore * grinding, so that it is possible to choose between certain kinds of Materials. */ public GT_Materials addOreByProducts(final GT_Materials... aMaterials) { for (final GT_Materials tMaterial : aMaterials) { if (tMaterial != null) { this.addOreByProduct(tMaterial); } } return this; } /** * If this Ore gives multiple drops of its Main Material. Lapis Ore for example gives about 6 drops. */ public GT_Materials setOreMultiplier(final int aOreMultiplier) { if (aOreMultiplier > 0) { this.mOreMultiplier = aOreMultiplier; } return this; } /** * If this Ore gives multiple drops of its Byproduct Material. */ public GT_Materials setByProductMultiplier(final int aByProductMultiplier) { if (aByProductMultiplier > 0) { this.mByProductMultiplier = aByProductMultiplier; } return this; } /** * If this Ore gives multiple drops of its Main Material. Lapis Ore for example gives about 6 drops. */ public GT_Materials setSmeltingMultiplier(final int aSmeltingMultiplier) { if (aSmeltingMultiplier > 0) { this.mSmeltingMultiplier = aSmeltingMultiplier; } return this; } /** * This Ore should be smolten directly into an Ingot of this Material instead of an Ingot of itself. */ public GT_Materials setDirectSmelting(final GT_Materials aMaterial) { if (aMaterial != null) { this.mDirectSmelting = aMaterial.mMaterialInto.mDirectSmelting; } return this; } /** * This Material should be the Main Material this Ore gets ground into. Example, Chromite giving Chrome or * Tungstate giving Tungsten. */ public GT_Materials setOreReplacement(final GT_Materials aMaterial) { if (aMaterial != null) { this.mOreReplacement = aMaterial.mMaterialInto.mOreReplacement; } return this; } /** * This Material smelts always into an instance of aMaterial. Used for Magnets. */ public GT_Materials setSmeltingInto(final GT_Materials aMaterial) { if (aMaterial != null) { this.mSmeltInto = aMaterial.mMaterialInto.mSmeltInto; } return this; } /** * This Material arc smelts always into an instance of aMaterial. Used for Wrought Iron. */ public GT_Materials setArcSmeltingInto(final GT_Materials aMaterial) { if (aMaterial != null) { this.mArcSmeltInto = aMaterial.mMaterialInto.mArcSmeltInto; } return this; } /** * This Material macerates always into an instance of aMaterial. */ public GT_Materials setMaceratingInto(final GT_Materials aMaterial) { if (aMaterial != null) { this.mMacerateInto = aMaterial.mMaterialInto.mMacerateInto; } return this; } public GT_Materials setEnchantmentForTools(final Enchantment aEnchantment, final int aEnchantmentLevel) { this.mEnchantmentTools = aEnchantment; this.mEnchantmentToolsLevel = (byte) aEnchantmentLevel; return this; } public GT_Materials setEnchantmentForArmors(final Enchantment aEnchantment, final int aEnchantmentLevel) { this.mEnchantmentArmors = aEnchantment; this.mEnchantmentArmorsLevel = (byte) aEnchantmentLevel; return this; } public FluidStack getSolid(final long aAmount) { if (this.mSolid == null) { return null; } return new GT_FluidStack(this.mSolid, (int) aAmount); } public FluidStack getFluid(final long aAmount) { if (this.mFluid == null) { return null; } return new GT_FluidStack(this.mFluid, (int) aAmount); } public FluidStack getGas(final long aAmount) { if (this.mGas == null) { return null; } return new GT_FluidStack(this.mGas, (int) aAmount); } public FluidStack getPlasma(final long aAmount) { if (this.mPlasma == null) { return null; } return new GT_FluidStack(this.mPlasma, (int) aAmount); } public FluidStack getMolten(final long aAmount) { if (this.mStandardMoltenFluid == null) { return null; } return new GT_FluidStack(this.mStandardMoltenFluid, (int) aAmount); } @Override public short[] getRGBA() { return this.mRGBa; } public static volatile int VERSION = 508; } }